## diffname bitsy/etherwavelan.c 2001/0327 ## diff -e /dev/null /n/emeliedump/2001/0327/sys/src/9/bitsy/etherwavelan.c 0a /* Lucent Wavelan IEEE 802.11 pcmcia. There is almost no documentation for the card. the driver is done using both the FreeBSD, Linux and original Plan 9 drivers as `documentation'. Has been used with the card plugged in during all up time. no cards removals/insertions yet. For known BUGS see the comments below. Besides, the driver keeps interrupts disabled for just too long. When it gets robust, locks should be revisited. BUGS: check endian, alignment and mem/io issues; multicast; receive watchdog interrupts. TODO: automatic power management; improve locking. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/error.h" #include "../port/netif.h" #include "etherif.h" #define DEBUG if(1)print #define SEEKEYS 1 typedef struct Ctlr Ctlr; typedef struct Wltv Wltv; typedef struct WFrame WFrame; typedef struct Stats Stats; typedef struct WStats WStats; typedef struct WKey WKey; struct WStats { ulong ntxuframes; // unicast frames ulong ntxmframes; // multicast frames ulong ntxfrags; // fragments ulong ntxubytes; // unicast bytes ulong ntxmbytes; // multicast bytes ulong ntxdeferred; // deferred transmits ulong ntxsretries; // single retries ulong ntxmultiretries; // multiple retries ulong ntxretrylimit; ulong ntxdiscards; ulong nrxuframes; // unicast frames ulong nrxmframes; // multicast frames ulong nrxfrags; // fragments ulong nrxubytes; // unicast bytes ulong nrxmbytes; // multicast bytes ulong nrxfcserr; ulong nrxdropnobuf; ulong nrxdropnosa; ulong nrxcantdecrypt; ulong nrxmsgfrag; ulong nrxmsgbadfrag; ulong end; }; struct WFrame { ushort sts; ushort rsvd0; ushort rsvd1; ushort qinfo; ushort rsvd2; ushort rsvd3; ushort txctl; ushort framectl; ushort id; uchar addr1[Eaddrlen]; uchar addr2[Eaddrlen]; uchar addr3[Eaddrlen]; ushort seqctl; uchar addr4[Eaddrlen]; ushort dlen; uchar dstaddr[Eaddrlen]; uchar srcaddr[Eaddrlen]; ushort len; ushort dat[3]; ushort type; }; // Lucent's Length-Type-Value records to talk to the wavelan. // most operational parameters are read/set using this. enum { WTyp_Stats = 0xf100, WTyp_Ptype = 0xfc00, WTyp_Mac = 0xfc01, WTyp_WantName = 0xfc02, WTyp_Chan = 0xfc03, WTyp_NetName = 0xfc04, WTyp_ApDens = 0xfc06, WTyp_MaxLen = 0xfc07, WTyp_PM = 0xfc09, WTyp_PMWait = 0xfc0c, WTyp_NodeName = 0xfc0e, WTyp_Crypt = 0xfc20, WTyp_XClear = 0xfc22, WTyp_Tick = 0xfce0, WTyp_RtsThres = 0xfc83, WTyp_TxRate = 0xfc84, WTx1Mbps = 0x0, WTx2Mbps = 0x1, WTxAuto = 0x3, WTyp_Prom = 0xfc85, WTyp_Keys = 0xfcb0, WTyp_TxKey = 0xfcb1, WTyp_CurName = 0xfd41, WTyp_CurTxRate = 0xfd44, // Current TX rate WTyp_HasCrypt = 0xfd4f, }; // Controller enum { WDfltIRQ = 3, // default irq WDfltIOB = 0x180, // default IO base WIOLen = 0x40, // Hermes IO length WTmOut = 65536, // Cmd time out WPTypeManaged = 1, WPTypeWDS = 2, WPTypeAdHoc = 3, WDfltPType = WPTypeManaged, WDfltApDens = 1, WDfltRtsThres = 2347, // == disabled WDfltTxRate = WTxAuto, // 2Mbps WMaxLen = 2304, WNameLen = 32, WNKeys = 4, WKeyLen = 14, WMinKeyLen = 5, // Wavelan hermes registers WR_Cmd = 0x00, WCmdIni = 0x0000, WCmdEna = 0x0001, WCmdDis = 0x0002, WCmdTx = 0x000b, WCmdMalloc = 0x000a, WCmdAskStats = 0x0011, WCmdMsk = 0x003f, WCmdAccRd = 0x0021, WCmdReclaim = 0x0100, WCmdAccWr = 0x0121, WCmdBusy = 0x8000, WR_Parm0 = 0x02, WR_Parm1 = 0x04, WR_Parm2 = 0x06, WR_Sts = 0x08, WR_InfoId = 0x10, WR_Sel0 = 0x18, WR_Sel1 = 0x1a, WR_Off0 = 0x1c, WR_Off1 = 0x1e, WBusyOff = 0x8000, WErrOff = 0x4000, WResSts = 0x7f00, WR_RXId = 0x20, WR_Alloc = 0x22, WR_EvSts = 0x30, WR_IntEna = 0x32, WCmdEv = 0x0010, WRXEv = 0x0001, WTXEv = 0x0002, WTxErrEv = 0x0004, WAllocEv = 0x0008, WInfoEv = 0x0080, WIDropEv = 0x2000, WTickEv = 0x8000, WEvs = WRXEv|WTXEv|WAllocEv|WInfoEv|WIDropEv, WR_EvAck = 0x34, WR_Data0 = 0x36, WR_Data1 = 0x38, // Frame stuff WF_Err = 0x0003, WF_1042 = 0x2000, WF_Tunnel = 0x4000, WF_WMP = 0x6000, WF_Data = 0x0008, WSnapK1 = 0xaa, WSnapK2 = 0x00, WSnapCtlr = 0x03, WSnap0 = (WSnapK1|(WSnapK1<<8)), WSnap1 = (WSnapK2|(WSnapCtlr<<8)), WSnapHdrLen = 6, WF_802_11_Off = 0x44, WF_802_3_Off = 0x2e, }; #define csr_outs(ctlr,r,arg) outs((ctlr)->iob+(r),(arg)) #define csr_ins(ctlr,r) ins((ctlr)->iob+(r)) #define csr_ack(ctlr,ev) outs((ctlr)->iob+WR_EvAck,(ev)) struct WKey { ushort len; char dat[WKeyLen]; }; struct Wltv { ushort len; ushort type; union { struct { ushort val; ushort pad; }; struct { uchar addr[8]; }; struct { ushort slen; char s[WNameLen]; }; struct { char name[WNameLen]; }; struct { WKey keys[WNKeys]; }; }; }; // What the driver thinks. Not what the card thinks. struct Stats { ulong nints; ulong nrx; ulong ntx; ulong ntxrq; ulong nrxerr; ulong ntxerr; ulong nalloc; // allocation (reclaim) events ulong ninfo; ulong nidrop; ulong nwatchdogs; // transmit time outs, actually int ticks; int tickintr; int signal; int noise; }; struct Ctlr { Lock; Rendez timer; int attached; int slot; int iob; int ptype; int apdensity; int rtsthres; int txbusy; int txrate; int txdid; int txmid; int txtmout; int maxlen; int chan; int pmena; int pmwait; char netname[WNameLen]; char wantname[WNameLen]; char nodename[WNameLen]; WFrame txf; uchar txbuf[1536]; int hascrypt; // card has encryption int crypt; // encryption off/on int txkey; // transmit key Wltv keys; // default keys int xclear; // exclude clear packets off/on Stats; WStats; }; // w_... routines do not ilock the Ctlr and should // be called locked. static void w_intdis(Ctlr* ctlr) { csr_outs(ctlr, WR_IntEna, 0); csr_ack(ctlr, 0xffff); } static void w_intena(Ctlr* ctlr) { csr_outs(ctlr, WR_IntEna, WEvs); } static int w_cmd(Ctlr *ctlr, ushort cmd, ushort arg) { int i, rc; csr_outs(ctlr, WR_Parm0, arg); csr_outs(ctlr, WR_Cmd, cmd); for (i = 0; itype)){ DEBUG("wavelan: access read failed\n"); return -1; } if (w_seek(ctlr,ltv->type,0,1)){ DEBUG("wavelan: seek failed\n"); return -1; } len = csr_ins(ctlr, WR_Data1); if (len > ltv->len) return -1; ltv->len = len; if ((code=csr_ins(ctlr, WR_Data1)) != ltv->type){ DEBUG("wavelan: type %x != code %x\n",ltv->type,code); return -1; } if(ltv->len > 0) inss((ctlr)->iob+(WR_Data1), <v->val, ltv->len-1); return 0; } static void w_outltv(Ctlr* ctlr, Wltv* ltv) { if(w_seek(ctlr,ltv->type, 0, 1)) return; outss((ctlr)->iob+(WR_Data1), ltv, ltv->len+1); w_cmd(ctlr, WCmdAccWr, ltv->type); } static void ltv_outs(Ctlr* ctlr, int type, ushort val) { Wltv ltv; ltv.len = 2; ltv.type = type; ltv.val = val; w_outltv(ctlr, <v); } static int ltv_ins(Ctlr* ctlr, int type) { Wltv ltv; ltv.len = 2; ltv.type = type; ltv.val = 0; if(w_inltv(ctlr, <v)) return -1; return ltv.val; } static void ltv_outstr(Ctlr* ctlr, int type, char* val) { Wltv ltv; int len; len = strlen(val); if(len > sizeof(ltv.s)) len = sizeof(ltv.s); memset(<v, 0, sizeof(ltv)); ltv.len = (sizeof(ltv.type)+sizeof(ltv.slen)+sizeof(ltv.s))/2; ltv.type = type; ltv.slen = (len+1) & ~1; strncpy(ltv.s, val, len); w_outltv(ctlr, <v); } static char Unkname[] = "who knows"; static char Nilname[] = "card does not tell"; static char* ltv_inname(Ctlr* ctlr, int type) { static Wltv ltv; memset(<v,0,sizeof(ltv)); ltv.len = WNameLen/2+2; ltv.type = type; if (w_inltv(ctlr, <v)) return Unkname; if (ltv.name[2] == 0) return Nilname; return ltv.name+2; } static int w_read(Ctlr* ctlr, int type, int off, void* buf, ulong len) { if (w_seek(ctlr, type, off, 1)){ DEBUG("wavelan: w_read: seek failed"); return 0; } inss((ctlr)->iob+(WR_Data1), buf, len/2); return len; } static int w_write(Ctlr* ctlr, int type, int off, void* buf, ulong len) { int tries; for (tries=0; tries < WTmOut; tries++){ if (w_seek(ctlr, type, off, 0)){ DEBUG("wavelan: w_write: seek failed\n"); return 0; } outss((ctlr)->iob+(WR_Data0), buf, len/2); csr_outs(ctlr, WR_Data0, 0xdead); csr_outs(ctlr, WR_Data0, 0xbeef); if (w_seek(ctlr, type, off + len, 0)){ DEBUG("wavelan: write seek failed\n"); return 0; } if (csr_ins(ctlr, WR_Data0) == 0xdead) if (csr_ins(ctlr, WR_Data0) == 0xbeef) return len; DEBUG("wavelan: Hermes bug byte.\n"); return 0; } DEBUG("wavelan: tx timeout\n"); return 0; } static int w_alloc(Ctlr* ctlr, int len) { int rc; int i,j; if (w_cmd(ctlr, WCmdMalloc, len)==0) for (i = 0; ictlr; if (!ctlr) return -1; w_intdis(ctlr); w_cmd(ctlr, WCmdDis, 0); w_intdis(ctlr); if(w_cmd(ctlr, WCmdIni, 0)) return -1; w_intdis(ctlr); ltv_outs(ctlr, WTyp_Tick, 8); ltv_outs(ctlr, WTyp_MaxLen, ctlr->maxlen); ltv_outs(ctlr, WTyp_Ptype, ctlr->ptype); ltv_outs(ctlr, WTyp_RtsThres, ctlr->rtsthres); ltv_outs(ctlr, WTyp_TxRate, ctlr->txrate); ltv_outs(ctlr, WTyp_ApDens, ctlr->apdensity); ltv_outs(ctlr, WTyp_PMWait, ctlr->pmwait); ltv_outs(ctlr, WTyp_PM, ctlr->pmena); if (*ctlr->netname) ltv_outstr(ctlr, WTyp_NetName, ctlr->netname); if (*ctlr->wantname) ltv_outstr(ctlr, WTyp_WantName, ctlr->wantname); ltv_outs(ctlr, WTyp_Chan, ctlr->chan); if (*ctlr->nodename) ltv_outstr(ctlr, WTyp_NodeName, ctlr->nodename); ltv.len = 4; ltv.type = WTyp_Mac; memmove(ltv.addr, ether->ea, Eaddrlen); w_outltv(ctlr, <v); ltv_outs(ctlr, WTyp_Prom, (ether->prom?1:0)); if (ctlr->hascrypt){ ltv_outs(ctlr, WTyp_Crypt, ctlr->crypt); ltv_outs(ctlr, WTyp_TxKey, ctlr->txkey); w_outltv(ctlr, &ctlr->keys); ltv_outs(ctlr, WTyp_XClear, ctlr->xclear); } // BUG: set multicast addresses if (w_cmd(ctlr, WCmdEna, 0)){ DEBUG("wavelan: Enable failed"); return -1; } ctlr->txdid = w_alloc(ctlr, 1518 + sizeof(WFrame) + 8); ctlr->txmid = w_alloc(ctlr, 1518 + sizeof(WFrame) + 8); if (ctlr->txdid == -1 || ctlr->txmid == -1) DEBUG("wavelan: alloc failed"); ctlr->txbusy = 0; w_intena(ctlr); return 0; } static void w_rxdone(Ether* ether) { Ctlr* ctlr = (Ctlr*) ether->ctlr; int len, sp; WFrame f; Block* bp=0; Etherpkt* ep; sp = csr_ins(ctlr, WR_RXId); len = w_read(ctlr, sp, 0, &f, sizeof(f)); if (len == 0){ DEBUG("wavelan: read frame error\n"); goto rxerror; } if (f.sts&WF_Err){ goto rxerror; } switch(f.sts){ case WF_1042: case WF_Tunnel: case WF_WMP: len = f.dlen + WSnapHdrLen; bp = iallocb(ETHERHDRSIZE + len + 2); if (!bp) goto rxerror; ep = (Etherpkt*) bp->wp; memmove(ep->d, f.addr1, Eaddrlen); memmove(ep->s, f.addr2, Eaddrlen); memmove(ep->type,&f.type,2); bp->wp += ETHERHDRSIZE; if (w_read(ctlr, sp, WF_802_11_Off, bp->wp, len+2) == 0){ DEBUG("wavelan: read 802.11 error\n"); goto rxerror; } bp->wp = bp->rp+(ETHERHDRSIZE+f.dlen); break; default: len = ETHERHDRSIZE + f.dlen + 2; bp = iallocb(len); if (!bp) goto rxerror; if (w_read(ctlr, sp, WF_802_3_Off, bp->wp, len) == 0){ DEBUG("wavelan: read 800.3 error\n"); goto rxerror; } bp->wp += len; } ctlr->nrx++; etheriq(ether,bp,1); ctlr->signal = ((ctlr->signal*15)+((f.qinfo>>8) & 0xFF))/16; ctlr->noise = ((ctlr->noise*15)+(f.qinfo & 0xFF))/16; return; rxerror: freeb(bp); ctlr->nrxerr++; } static void w_txstart(Ether* ether) { Etherpkt *pkt; Ctlr *ctlr; Block *bp; int len, off; if((ctlr = ether->ctlr) == nil || ctlr->attached == 0 || ctlr->txbusy) return; if((bp = qget(ether->oq)) == nil) return; pkt = (Etherpkt*)bp->rp; // // If the packet header type field is > 1500 it is an IP or // ARP datagram, otherwise it is an 802.3 packet. See RFC1042. // memset(&ctlr->txf, 0, sizeof(ctlr->txf)); if(((pkt->type[0]<<8)|pkt->type[1]) > 1500){ ctlr->txf.framectl = WF_Data; memmove(ctlr->txf.addr1, pkt->d, Eaddrlen); memmove(ctlr->txf.addr2, pkt->s, Eaddrlen); memmove(ctlr->txf.dstaddr, pkt->d, Eaddrlen); memmove(ctlr->txf.srcaddr, pkt->s, Eaddrlen); memmove(&ctlr->txf.type, pkt->type, 2); bp->rp += ETHERHDRSIZE; len = BLEN(bp); off = WF_802_11_Off; ctlr->txf.dlen = len+ETHERHDRSIZE-WSnapHdrLen; hnputs((uchar*)&ctlr->txf.dat[0], WSnap0); hnputs((uchar*)&ctlr->txf.dat[1], WSnap1); hnputs((uchar*)&ctlr->txf.len, len+ETHERHDRSIZE-WSnapHdrLen); } else{ len = BLEN(bp); off = WF_802_3_Off; ctlr->txf.dlen = len; } w_write(ctlr, ctlr->txdid, 0, &ctlr->txf, sizeof(ctlr->txf)); w_write(ctlr, ctlr->txdid, off, bp->rp, len+2); if(w_cmd(ctlr, WCmdReclaim|WCmdTx, ctlr->txdid)){ DEBUG("wavelan: transmit failed\n"); ctlr->ntxerr++; } else{ ctlr->txbusy = 1; ctlr->txtmout = 2; } freeb(bp); } static void w_txdone(Ctlr* ctlr, int sts) { ctlr->txbusy = 0; ctlr->txtmout = 0; if (sts & WTxErrEv) ctlr->ntxerr++; else ctlr->ntx++; } static int w_stats(Ctlr* ctlr) { int i, rc, sp; Wltv ltv; ulong* p = (ulong*)&ctlr->WStats; ulong* pend = (ulong*)&ctlr->end; sp = csr_ins(ctlr, WR_InfoId); ltv.len = ltv.type = 0; w_read(ctlr, sp, 0, <v, 4); if (ltv.type == WTyp_Stats){ ltv.len--; for (i = 0; i < ltv.len && p < pend; i++){ rc = csr_ins(ctlr, WR_Data1); if (rc > 0xf000) rc = ~rc & 0xffff; p[i] += rc; } return 0; } return -1; } static void w_intr(Ether *ether) { int rc, txid; Ctlr* ctlr = (Ctlr*) ether->ctlr; if (ctlr->attached == 0){ csr_ack(ctlr, 0xffff); csr_outs(ctlr, WR_IntEna, 0); return; } csr_outs(ctlr, WR_IntEna, 0); rc = csr_ins(ctlr, WR_EvSts); csr_ack(ctlr, ~WEvs); // Not interested on them if (rc & WRXEv){ w_rxdone(ether); csr_ack(ctlr, WRXEv); } if (rc & WTXEv){ w_txdone(ctlr, rc); csr_ack(ctlr, WTXEv); } if (rc & WAllocEv){ ctlr->nalloc++; txid = csr_ins(ctlr, WR_Alloc); csr_ack(ctlr, WAllocEv); if (txid == ctlr->txdid){ if ((rc & WTXEv) == 0) w_txdone(ctlr, rc); } } if (rc & WInfoEv){ ctlr->ninfo++; w_stats(ctlr); csr_ack(ctlr, WInfoEv); } if (rc & WTxErrEv){ w_txdone(ctlr, rc); csr_ack(ctlr, WTxErrEv); } if (rc & WIDropEv){ ctlr->nidrop++; csr_ack(ctlr, WIDropEv); } w_intena(ctlr); w_txstart(ether); } // Watcher to ensure that the card still works properly and // to request WStats updates once a minute. // BUG: it runs much more often, see the comment below. static void w_timer(void* arg) { Ether* ether = (Ether*) arg; Ctlr* ctlr = (Ctlr*)ether->ctlr; for(;;){ tsleep(&ctlr->timer, return0, 0, 50); ctlr = (Ctlr*)ether->ctlr; if (ctlr == 0) break; if (ctlr->attached == 0) continue; ctlr->ticks++; ilock(&ctlr->Lock); // Seems that the card gets frames BUT does // not send the interrupt; this is a problem because // I suspect it runs out of receive buffers and // stops receiving until a transmit watchdog // reenables the card. // The problem is serious because it leads to // poor rtts. // This can be seen clearly by commenting out // the next if and doing a ping: it will stop // receiving (although the icmp replies are being // issued from the remote) after a few seconds. // Of course this `bug' could be because I'm reading // the card frames in the wrong way; due to the // lack of documentation I cannot know. // if (csr_ins(ctlr, WR_EvSts)&WEvs){ // ctlr->tickintr++; // w_intr(ether); // } if ((ctlr->ticks % 10) == 0) { if (ctlr->txtmout && --ctlr->txtmout == 0){ ctlr->nwatchdogs++; w_txdone(ctlr, WTxErrEv); if (w_enable(ether)){ DEBUG("wavelan: wdog enable failed\n"); } w_txstart(ether); } if ((ctlr->ticks % 120) == 0) if (ctlr->txbusy == 0) w_cmd(ctlr, WCmdAskStats, WTyp_Stats); } iunlock(&ctlr->Lock); } pexit("terminated",0); } static void multicast(void*, uchar*, int) { // BUG: to be added. } static void attach(Ether* ether) { Ctlr* ctlr; char name[64]; int rc; if (ether->ctlr == 0) return; snprint(name, sizeof(name), "#l%dtimer", ether->ctlrno); ctlr = (Ctlr*) ether->ctlr; if (ctlr->attached == 0){ ilock(&ctlr->Lock); rc = w_enable(ether); iunlock(&ctlr->Lock); if(rc == 0){ ctlr->attached = 1; kproc(name, w_timer, ether); } else print("#l%d: enable failed\n",ether->ctlrno); } } #define PRINTSTAT(fmt,val) l += snprint(p+l, READSTR-l, (fmt), (val)) #define PRINTSTR(fmt) l += snprint(p+l, READSTR-l, (fmt)) static long ifstat(Ether* ether, void* a, long n, ulong offset) { Ctlr *ctlr = (Ctlr*) ether->ctlr; char *k, *p; int i, l, txid; ether->oerrs = ctlr->ntxerr; ether->crcs = ctlr->nrxfcserr; ether->frames = 0; ether->buffs = ctlr->nrxdropnobuf; ether->overflows = 0; // // Offset must be zero or there's a possibility the // new data won't match the previous read. // if(n == 0 || offset != 0) return 0; p = malloc(READSTR); l = 0; PRINTSTAT("Signal: %d\n", ctlr->signal-149); PRINTSTAT("Noise: %d\n", ctlr->noise-149); PRINTSTAT("SNR: %ud\n", ctlr->signal-ctlr->noise); PRINTSTAT("Interrupts: %lud\n", ctlr->nints); PRINTSTAT("TxPackets: %lud\n", ctlr->ntx); PRINTSTAT("RxPackets: %lud\n", ctlr->nrx); PRINTSTAT("TxErrors: %lud\n", ctlr->ntxerr); PRINTSTAT("RxErrors: %lud\n", ctlr->nrxerr); PRINTSTAT("TxRequests: %lud\n", ctlr->ntxrq); PRINTSTAT("AllocEvs: %lud\n", ctlr->nalloc); PRINTSTAT("InfoEvs: %lud\n", ctlr->ninfo); PRINTSTAT("InfoDrop: %lud\n", ctlr->nidrop); PRINTSTAT("WatchDogs: %lud\n", ctlr->nwatchdogs); PRINTSTAT("Ticks: %ud\n", ctlr->ticks); PRINTSTAT("TickIntr: %ud\n", ctlr->tickintr); k = ((ctlr->attached) ? "attached" : "not attached"); PRINTSTAT("Card %s", k); k = ((ctlr->txbusy)? ", txbusy" : ""); PRINTSTAT("%s\n", k); if (ctlr->txkey){ PRINTSTR("Keys: "); for (i = 0; i < WNKeys; i++){ if (ctlr->keys.keys[i].len == 0) PRINTSTR("none "); else if (SEEKEYS == 0) PRINTSTR("set "); else PRINTSTAT("%s ", ctlr->keys.keys[i].dat); } PRINTSTR("\n"); } // real card stats ilock(&ctlr->Lock); PRINTSTR("\nCard stats: \n"); PRINTSTAT("Status: %ux\n", csr_ins(ctlr, WR_Sts)); PRINTSTAT("Event status: %ux\n", csr_ins(ctlr, WR_EvSts)); i = ltv_ins(ctlr, WTyp_Ptype); PRINTSTAT("Port type: %d\n", i); PRINTSTAT("Transmit rate: %d\n", ltv_ins(ctlr, WTyp_TxRate)); PRINTSTAT("Current Transmit rate: %d\n", ltv_ins(ctlr, WTyp_CurTxRate)); PRINTSTAT("Channel: %d\n", ltv_ins(ctlr, WTyp_Chan)); PRINTSTAT("AP density: %d\n", ltv_ins(ctlr, WTyp_ApDens)); PRINTSTAT("Promiscuous mode: %d\n", ltv_ins(ctlr, WTyp_Prom)); if(i == 3) PRINTSTAT("SSID name: %s\n", ltv_inname(ctlr, WTyp_NetName)); else PRINTSTAT("Current name: %s\n", ltv_inname(ctlr, WTyp_CurName)); PRINTSTAT("Net name: %s\n", ltv_inname(ctlr, WTyp_WantName)); PRINTSTAT("Node name: %s\n", ltv_inname(ctlr, WTyp_NodeName)); if (ltv_ins(ctlr, WTyp_HasCrypt) == 0) PRINTSTR("WEP: not supported\n"); else { if (ltv_ins(ctlr, WTyp_Crypt) == 0) PRINTSTR("WEP: disabled\n"); else{ PRINTSTR("WEP: enabled\n"); k = ((ctlr->xclear)? "excluded": "included"); PRINTSTAT("Clear packets: %s\n", k); txid = ltv_ins(ctlr, WTyp_TxKey); PRINTSTAT("Transmit key id: %d\n", txid); } } iunlock(&ctlr->Lock); PRINTSTAT("ntxuframes: %lud\n", ctlr->ntxuframes); PRINTSTAT("ntxmframes: %lud\n", ctlr->ntxmframes); PRINTSTAT("ntxfrags: %lud\n", ctlr->ntxfrags); PRINTSTAT("ntxubytes: %lud\n", ctlr->ntxubytes); PRINTSTAT("ntxmbytes: %lud\n", ctlr->ntxmbytes); PRINTSTAT("ntxdeferred: %lud\n", ctlr->ntxdeferred); PRINTSTAT("ntxsretries: %lud\n", ctlr->ntxsretries); PRINTSTAT("ntxmultiretries: %lud\n", ctlr->ntxmultiretries); PRINTSTAT("ntxretrylimit: %lud\n", ctlr->ntxretrylimit); PRINTSTAT("ntxdiscards: %lud\n", ctlr->ntxdiscards); PRINTSTAT("nrxuframes: %lud\n", ctlr->nrxuframes); PRINTSTAT("nrxmframes: %lud\n", ctlr->nrxmframes); PRINTSTAT("nrxfrags: %lud\n", ctlr->nrxfrags); PRINTSTAT("nrxubytes: %lud\n", ctlr->nrxubytes); PRINTSTAT("nrxmbytes: %lud\n", ctlr->nrxmbytes); PRINTSTAT("nrxfcserr: %lud\n", ctlr->nrxfcserr); PRINTSTAT("nrxdropnobuf: %lud\n", ctlr->nrxdropnobuf); PRINTSTAT("nrxdropnosa: %lud\n", ctlr->nrxdropnosa); PRINTSTAT("nrxcantdecrypt: %lud\n", ctlr->nrxcantdecrypt); PRINTSTAT("nrxmsgfrag: %lud\n", ctlr->nrxmsgfrag); PRINTSTAT("nrxmsgbadfrag: %lud\n", ctlr->nrxmsgbadfrag); USED(l); n = readstr(offset, a, n, p); free(p); return n; } #undef PRINTSTR #undef PRINTSTAT static int option(Ctlr* ctlr, char* buf, long n) { char *p; int i, r; WKey *key; Cmdbuf *cb; r = 0; cb = parsecmd(buf, n); if(cb->nf < 2) r = -1; else if(cistrcmp(cb->f[0], "essid") == 0){ if (cistrcmp(cb->f[1],"default") == 0) p = ""; else p = cb->f[1]; if(ctlr->ptype == 3){ memset(ctlr->netname, 0, sizeof(ctlr->netname)); strncpy(ctlr->netname, p, WNameLen); } else{ memset(ctlr->wantname, 0, sizeof(ctlr->wantname)); strncpy(ctlr->wantname, p, WNameLen); } } else if(cistrcmp(cb->f[0], "station") == 0){ memset(ctlr->nodename, 0, sizeof(ctlr->nodename)); strncpy(ctlr->nodename, cb->f[1], WNameLen); } else if(cistrcmp(cb->f[0], "channel") == 0){ if((i = atoi(cb->f[1])) >= 1 && i <= 16) ctlr->chan = i; else r = -1; } else if(cistrcmp(cb->f[0], "mode") == 0){ if(cistrcmp(cb->f[1], "managed") == 0) ctlr->ptype = WPTypeManaged; else if(cistrcmp(cb->f[1], "wds") == 0) ctlr->ptype = WPTypeWDS; else if(cistrcmp(cb->f[1], "adhoc") == 0) ctlr->ptype = WPTypeAdHoc; else if((i = atoi(cb->f[1])) >= 1 && i <= 3) ctlr->ptype = i; else r = -1; } else if(cistrcmp(cb->f[0], "crypt") == 0){ if(cistrcmp(cb->f[1], "off") == 0) ctlr->crypt = 0; else if(cistrcmp(cb->f[1], "on") == 0 && ctlr->hascrypt) ctlr->crypt = 1; else r = -1; } else if(cistrcmp(cb->f[0], "clear") == 0){ if(cistrcmp(cb->f[1], "on") == 0) ctlr->xclear = 0; else if(cistrcmp(cb->f[1], "off") == 0 && ctlr->hascrypt) ctlr->xclear = 1; else r = -1; } else if(cistrncmp(cb->f[0], "key", 3) == 0){ if((i = atoi(cb->f[0]+3)) >= 1 && i <= WNKeys){ ctlr->txkey = i-1; key = &ctlr->keys.keys[ctlr->txkey]; key->len = strlen(cb->f[1]); if (key->len > WKeyLen) key->len = WKeyLen; memset(key->dat, 0, sizeof(key->dat)); memmove(key->dat, cb->f[1], key->len); } else r = -1; } else if(cistrcmp(cb->f[0], "txkey") == 0){ if((i = atoi(cb->f[1])) >= 1 && i <= WNKeys) ctlr->txkey = i-1; else r = -1; } else if(cistrcmp(cb->f[0], "pm") == 0){ if(cistrcmp(cb->f[1], "off") == 0) ctlr->pmena = 0; else if(cistrcmp(cb->f[1], "on") == 0){ ctlr->pmena = 1; if(cb->nf == 3){ i = atoi(cb->f[2]); // check range here? what are the units? ctlr->pmwait = i; } } else r = -1; } else r = -2; free(cb); return r; } static long ctl(Ether* ether, void* buf, long n) { Ctlr *ctlr; if((ctlr = ether->ctlr) == nil) error(Enonexist); if(ctlr->attached == 0) error(Eshutdown); ilock(&ctlr->Lock); if(option(ctlr, buf, n)){ iunlock(&ctlr->Lock); error(Ebadctl); } if(ctlr->txbusy) w_txdone(ctlr, WTxErrEv); w_enable(ether); w_txstart(ether); iunlock(&ctlr->Lock); return n; } static void transmit(Ether* ether) { Ctlr* ctlr = ether->ctlr; if (ctlr == 0) return; ilock(&ctlr->Lock); ctlr->ntxrq++; w_txstart(ether); iunlock(&ctlr->Lock); } static void promiscuous(void* arg, int on) { Ether* ether = (Ether*)arg; Ctlr* ctlr = ether->ctlr; if (ctlr == nil) error("card not found"); if (ctlr->attached == 0) error("card not attached"); ilock(&ctlr->Lock); ltv_outs(ctlr, WTyp_Prom, (on?1:0)); iunlock(&ctlr->Lock); } static void interrupt(Ureg* ,void* arg) { Ether* ether = (Ether*) arg; Ctlr* ctlr = (Ctlr*) ether->ctlr; if (ctlr == 0) return; ilock(&ctlr->Lock); ctlr->nints++; w_intr(ether); iunlock(&ctlr->Lock); } static int reset(Ether* ether) { Wltv ltv; Ctlr* ctlr; if((ctlr = malloc(sizeof(Ctlr))) == nil) return -1; ilock(&ctlr->Lock); if (ether->port==0) ether->port=WDfltIOB; ctlr->iob = ether->port; w_intdis(ctlr); if (w_cmd(ctlr,WCmdIni,0)){ print("#l%d: init failed\n", ether->ctlrno); goto abort; } w_intdis(ctlr); ltv_outs(ctlr, WTyp_Tick, 8); ctlr->chan = 0; ctlr->ptype = WDfltPType; ctlr->txkey = 0; ctlr->keys.len = sizeof(WKey)*WNKeys/2 + 1; ctlr->keys.type = WTyp_Keys; if(ctlr->hascrypt = ltv_ins(ctlr, WTyp_HasCrypt)) ctlr->crypt = 1; *ctlr->netname = *ctlr->wantname = 0; strcpy(ctlr->nodename, "Plan 9 STA"); ctlr->netname[WNameLen-1] = 0; ctlr->wantname[WNameLen-1] = 0; ctlr->nodename[WNameLen-1] =0; ltv.type = WTyp_Mac; ltv.len = 4; if (w_inltv(ctlr, <v)){ print("#l%d: unable to read mac addr\n", ether->ctlrno); goto abort; } memmove(ether->ea, ltv.addr, Eaddrlen); if (ctlr->chan == 0) ctlr->chan = ltv_ins(ctlr, WTyp_Chan); ctlr->apdensity = WDfltApDens; ctlr->rtsthres = WDfltRtsThres; ctlr->txrate = WDfltTxRate; ctlr->maxlen = WMaxLen; ctlr->pmena = 0; ctlr->pmwait = 100; ctlr->signal = 1; ctlr->noise = 1; // link to ether ether->ctlr = ctlr; ether->mbps = 10; ether->attach = attach; ether->interrupt = interrupt; ether->transmit = transmit; ether->ifstat = ifstat; ether->ctl = ctl; ether->promiscuous = promiscuous; ether->multicast = multicast; ether->arg = ether; DEBUG("#l%d: port %lux type %s", ether->ctlrno, ether->port, ether->type); DEBUG(" %2.2uX%2.2uX%2.2uX%2.2uX%2.2uX%2.2uX\n", ether->ea[0], ether->ea[1], ether->ea[2], ether->ea[3], ether->ea[4], ether->ea[5]); iunlock(&ctlr->Lock); return 0; abort: iunlock(&ctlr->Lock); free(ctlr); ether->ctlr = nil; return -1; } void etherwavelanlink(void) { addethercard("wavelan", reset); } . ## diffname bitsy/etherwavelan.c 2001/0404 ## diff -e /n/emeliedump/2001/0327/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2001/0404/sys/src/9/bitsy/etherwavelan.c 944a ltv.type = WTyp_BaseID; ltv.len = 4; if (w_inltv(ctlr, <v)) print("#l%d: unable to read base station mac addr\n", ether->ctlrno); l += snprint(p+l, READSTR-l, "Base station: %2.2x:%2.2x:%2.2x:%2.2x:%2.2x:%2.2x\n", ltv.addr[0], ltv.addr[1], ltv.addr[2], ltv.addr[3], ltv.addr[4], ltv.addr[5]); } . 943c else { Wltv ltv; . 117a WTyp_BaseID = 0xfd42, // ID of the currently connected-to base station . ## diffname bitsy/etherwavelan.c 2001/0405 ## diff -e /n/emeliedump/2001/0404/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2001/0405/sys/src/9/bitsy/etherwavelan.c 951c l += snprint(p+l, READSTR-l, "Base station: %2.2x%2.2x%2.2x%2.2x%2.2x%2.2x\n", . ## diffname bitsy/etherwavelan.c 2001/0505 ## diff -e /n/emeliedump/2001/0405/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2001/0505/sys/src/9/bitsy/etherwavelan.c 32c #define SEEKEYS 0 . ## diffname bitsy/etherwavelan.c 2001/0910 ## diff -e /n/emeliedump/2001/0505/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2001/0910/sys/src/9/bitsy/etherwavelan.c 1197a ctlr->createibss = 0; . 1048a else if(cistrcmp(cb->f[0], "ibss") == 0){ if(cistrcmp(cb->f[1], "on") == 0) ctlr->createibss = 1; else ctlr->createibss = 0; } . 916c if (ctlr->hascrypt){ . 539a ltv_outs(ctlr, WTyp_CreateIBSS, ctlr->createibss); . 275a int createibss; . 108a WTyp_CreateIBSS = 0xfc81, . ## diffname bitsy/etherwavelan.c 2001/0912 ## diff -e /n/emeliedump/2001/0910/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2001/0912/sys/src/9/bitsy/etherwavelan.c 438a . 437a // This should be ltv.slen = len; according to Axel Belinfante . 121a WTyp_Tick = 0xfce0, . 117a WTyp_StationID = 0xfd20, . 108d ## diffname bitsy/etherwavelan.c 2001/0914 ## diff -e /n/emeliedump/2001/0912/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2001/0914/sys/src/9/bitsy/etherwavelan.c 462c if(len >= sizeof ltv.s) len = sizeof ltv.s - 1; ltv.s[len] = '\0'; return ltv.s; . 460c len = ltv.slen; if(len == 0 || ltv.s[0] == 0) . 453a int len; . 441c ltv.slen = len; . ## diffname bitsy/etherwavelan.c 2002/0604 ## diff -e /n/emeliedump/2001/0914/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2002/0604/sys/src/9/bitsy/etherwavelan.c 306a #define csr_outs(ctlr,r,arg) outs((ctlr)->iob+(r),(arg)) #define csr_ins(ctlr,r) ins((ctlr)->iob+(r)) #define csr_ack(ctlr,ev) outs((ctlr)->iob+WR_EvAck,(ev)) . 303a int ctlrno; /* for PCI-based devices */ Ctlr *next; ushort *mmb; int active; Pcidev *pcidev; . 254a ulong ndoubleint; . 218a struct WStats { ulong ntxuframes; // unicast frames ulong ntxmframes; // multicast frames ulong ntxfrags; // fragments ulong ntxubytes; // unicast bytes ulong ntxmbytes; // multicast bytes ulong ntxdeferred; // deferred transmits ulong ntxsretries; // single retries ulong ntxmultiretries; // multiple retries ulong ntxretrylimit; ulong ntxdiscards; ulong nrxuframes; // unicast frames ulong nrxmframes; // multicast frames ulong nrxfrags; // fragments ulong nrxubytes; // unicast bytes ulong nrxmbytes; // multicast bytes ulong nrxfcserr; ulong nrxdropnobuf; ulong nrxdropnosa; ulong nrxcantdecrypt; ulong nrxmsgfrag; ulong nrxmsgbadfrag; ulong end; }; struct WFrame { ushort sts; ushort rsvd0; ushort rsvd1; ushort qinfo; ushort rsvd2; ushort rsvd3; ushort txctl; ushort framectl; ushort id; uchar addr1[Eaddrlen]; uchar addr2[Eaddrlen]; uchar addr3[Eaddrlen]; ushort seqctl; uchar addr4[Eaddrlen]; ushort dlen; uchar dstaddr[Eaddrlen]; uchar srcaddr[Eaddrlen]; ushort len; ushort dat[3]; ushort type; }; . 215,217c typedef struct Ctlr Ctlr; typedef struct Wltv Wltv; typedef struct WFrame WFrame; typedef struct Stats Stats; typedef struct WStats WStats; typedef struct WKey WKey; . 193a WR_PciCor = 0x26, WR_PciHcr = 0x2E, . 34,90d 30c #define DEBUG if(1){}else print . ## diffname bitsy/etherwavelan.c 2002/0606 ## diff -e /n/emeliedump/2002/0604/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2002/0606/sys/src/9/bitsy/etherwavelan.c 1291c addethercard("wavelan", wavelanpcmciareset); . 1287c . 1280,1285d 1222,1278c iunlock(ctlr); . 1217,1220c if(wavelanreset(ether, ctlr) < 0){ iunlock(ctlr); free(ctlr); ether->ctlr = nil; return -1; . 1211c ilock(ctlr); ctlr->ctlrno = ether->ctlrno; . 673,1207d 670,671d 339,668d 337c wavelanpcmciareset(Ether *ether) . 30,335d 28a #include "wavelan.h" . 7,19d 1,5c /* Bitsy pcmcia code for wavelan.c */ . ## diffname bitsy/etherwavelan.c 2002/0616 ## diff -e /n/emeliedump/2002/0606/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2002/0616/sys/src/9/bitsy/etherwavelan.c 38c . ## diffname bitsy/etherwavelan.c 2002/1112 ## diff -e /n/emeliedump/2002/0616/sys/src/9/bitsy/etherwavelan.c /n/emeliedump/2002/1112/sys/src/9/bitsy/etherwavelan.c 25,27c if (ether->ports == nil){ ether->ports = malloc(sizeof(port_t)); ether->ports[0].port = 0; ether->ports[0].size = 0; ether->nports= 1; } if (ether->ports[0].port==0) ether->ports[0].port=WDfltIOB; ctlr->iob = ether->ports[0].port; . 12c #include "../pc/wavelan.h" .