1993/1118/pc/ether8390.c (diff list | history)

pc/ether8390.c on 1992/1222
1992/1222		/* * National Semiconductor DP8390 * and SMC 83C90 * Network Interface Controller. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h"
1993/1116		#include "../port/error.h" #include "../port/netif.h"
1992/1222
1993/1116		#include "etherif.h"
1992/1222
1993/1118		extern int dp8390inb(ulong); extern void dp8390outb(ulong, uchar);
1992/1222		enum { Cr = 0x00, /* command register, all pages */ Stp = 0x01, /* stop */ Sta = 0x02, /* start */ Txp = 0x04, /* transmit packet */ RDMAread = (1<<3), /* remote DMA read */ RDMAwrite = (2<<3), /* remote DMA write */ RDMAsend = (3<<3), /* remote DMA send packet */ RDMAabort = (4<<3), /* abort/complete remote DMA */
1993/0212		Ps0 = 0x40, /* page select */ Ps1 = 0x80, /* page select */ Page0 = 0x00, Page1 = Ps0, Page2 = Ps1,
1992/1222		}; enum { /* Page 0, read */ Clda0 = 0x01, /* current local DMA address 0 */ Clda1 = 0x02, /* current local DMA address 1 */ Bnry = 0x03, /* boundary pointer (R/W) */ Tsr = 0x04, /* transmit status register */ Ncr = 0x05, /* number of collisions register */ Fifo = 0x06, /* FIFO */ Isr = 0x07, /* interrupt status register (R/W) */ Crda0 = 0x08, /* current remote DMA address 0 */
1993/0212		Crda1 = 0x09, /* current remote DMA address 1 */
1992/1222		Rsr = 0x0C, /* receive status register */ Cntr0 = 0x0D, /* frame alignment errors */ Cntr1 = 0x0E, /* CRC errors */ Cntr2 = 0x0F, /* missed packet errors */ }; enum { /* Page 0, write */ Pstart = 0x01, /* page start register */ Pstop = 0x02, /* page stop register */ Tpsr = 0x04, /* transmit page start address */ Tbcr0 = 0x05, /* transmit byte count register 0 */ Tbcr1 = 0x06, /* transmit byte count register 1 */ Rsar0 = 0x08, /* remote start address register 0 */ Rsar1 = 0x09, /* remote start address register 1 */ Rbcr0 = 0x0A, /* remote byte count register 0 */ Rbcr1 = 0x0B, /* remote byte count register 1 */ Rcr = 0x0C, /* receive configuration register */ Tcr = 0x0D, /* transmit configuration register */ Dcr = 0x0E, /* data configuration register */ Imr = 0x0F, /* interrupt mask */ }; enum { /* Page 1, read/write */ Par0 = 0x01, /* physical address register 0 */ Curr = 0x07, /* current page register */ Mar0 = 0x08, /* multicast address register 0 */ }; enum { /* Interrupt Status Register */ Prx = 0x01, /* packet received */ Ptx = 0x02, /* packet transmitted */ Rxe = 0x04, /* receive error */ Txe = 0x08, /* transmit error */ Ovw = 0x10, /* overwrite warning */ Cnt = 0x20, /* counter overflow */ Rdc = 0x40, /* remote DMA complete */ Rst = 0x80, /* reset status */ }; enum { /* Interrupt Mask Register */ Prxe = 0x01, /* packet received interrupt enable */ Ptxe = 0x02, /* packet transmitted interrupt enable */ Rxee = 0x04, /* receive error interrupt enable */ Txee = 0x08, /* transmit error interrupt enable */ Ovwe = 0x10, /* overwrite warning interrupt enable */ Cnte = 0x20, /* counter overflow interrupt enable */ Rdce = 0x40, /* DMA complete interrupt enable */ }; enum { /* Data Configuration register */ Wts = 0x01, /* word transfer select */ Bos = 0x02, /* byte order select */ Las = 0x04, /* long address select */ Ls = 0x08, /* loopback select */ Arm = 0x10, /* auto-initialise remote */ Ft1 = (0x00<<5), /* FIFO threshhold select 1 byte/word */ Ft2 = (0x01<<5), /* FIFO threshhold select 2 bytes/words */ Ft4 = (0x02<<5), /* FIFO threshhold select 4 bytes/words */ Ft6 = (0x03<<5), /* FIFO threshhold select 6 bytes/words */ }; enum { /* Transmit Configuration Register */ Crc = 0x01, /* inhibit CRC */ Lb = 0x02, /* internal loopback */ Atd = 0x08, /* auto transmit disable */ Ofst = 0x10, /* collision offset enable */ }; enum { /* Transmit Status Register */ Ptxok = 0x01, /* packet transmitted */ Col = 0x04, /* transmit collided */ Abt = 0x08, /* tranmit aborted */ Crs = 0x10, /* carrier sense lost */ Fu = 0x20, /* FIFO underrun */ Cdh = 0x40, /* CD heartbeat */ Owc = 0x80, /* out of window collision */ }; enum { /* Receive Configuration Register */ Sep = 0x01, /* save errored packets */ Ar = 0x02, /* accept runt packets */ Ab = 0x04, /* accept broadcast */ Am = 0x08, /* accept multicast */ Pro = 0x10, /* promiscuous physical */ Mon = 0x20, /* monitor mode */ }; enum { /* Receive Status Register */ Prxok = 0x01, /* packet received intact */ Crce = 0x02, /* CRC error */ Fae = 0x04, /* frame alignment error */ Fo = 0x08, /* FIFO overrun */ Mpa = 0x10, /* missed packet */ Phy = 0x20, /* physical/multicast address */ Dis = 0x40, /* receiver disabled */ Dfr = 0x80, /* deferring */ }; typedef struct { uchar status; uchar next; uchar len0; uchar len1; } Hdr; static void
1993/1117		dp8390disable(Dp8390 *dp8390)
1992/1222		{
1993/1118		ulong port = dp8390->dp8390;
1992/1222		int timo; /* * Stop the chip. Set the Stp bit and wait for the chip * to finish whatever was on its tiny mind before it sets * the Rst bit. * We need the timeout because there may not be a real * chip there if this is called when probing for a device * at boot. */
1993/1117		dp8390outb(port+Cr, Page0|RDMAabort|Stp); dp8390outb(port+Rbcr0, 0); dp8390outb(port+Rbcr1, 0); for(timo = 10000; (dp8390inb(port+Isr) & Rst) == 0 && timo; timo--)
1992/1222		; }
1993/0212		static void
1993/1117		dp8390ring(Dp8390 *dp8390)
1993/0212		{
1993/1118		ulong port = dp8390->dp8390;
1993/0212
1993/1117		dp8390outb(port+Pstart, dp8390->pstart); dp8390outb(port+Pstop, dp8390->pstop); dp8390outb(port+Bnry, dp8390->pstop-1);
1993/0212
1993/1117		dp8390outb(port+Cr, Page1|RDMAabort|Stp); dp8390outb(port+Curr, dp8390->pstart); dp8390outb(port+Cr, Page0|RDMAabort|Stp);
1993/0915
1993/1117		dp8390->nxtpkt = dp8390->pstart;
1993/0212		}
1992/1222		void
1993/1116		dp8390setea(Ether *ether)
1992/1222		{
1993/1118		ulong port = ((Dp8390*)ether->private)->dp8390;
1992/1222		uchar cr; int i; /* * Set the ethernet address into the chip. * Take care to restore the command register * afterwards. We don't care about multicast * addresses as we never set the multicast * enable. */
1993/1117		cr = dp8390inb(port+Cr) & ~Txp; dp8390outb(port+Cr, Page1|(~(Ps1|Ps0) & cr));
1993/1116		for(i = 0; i < sizeof(ether->ea); i++)
1993/1117		dp8390outb(port+Par0+i, ether->ea[i]); dp8390outb(port+Cr, cr);
1992/1222		}
1993/0915		void
1993/1116		dp8390getea(Ether *ether)
1993/0915		{
1993/1118		ulong port = ((Dp8390*)ether->private)->dp8390;
1993/0915		uchar cr; int i; /*
1993/1116		* Get the ethernet address from the chip.
1993/0915		* Take care to restore the command register * afterwards. We don't care about multicast * addresses as we never set the multicast * enable. */
1993/1117		cr = dp8390inb(port+Cr) & ~Txp; dp8390outb(port+Cr, Page1|(~(Ps1|Ps0) & cr));
1993/1116		for(i = 0; i < sizeof(ether->ea); i++)
1993/1117		ether->ea[i] = dp8390inb(port+Par0+i); dp8390outb(port+Cr, cr);
1993/0915		}
1993/1116		static void*
1993/1117		dp8390read(Dp8390 *dp8390, void *to, ulong from, ulong len)
1992/1222		{
1993/1118		ulong port = dp8390->dp8390;
1992/1222		uchar cr; int timo; /*
1993/0212		* Read some data at offset 'from' in the card's memory
1992/1222		* using the DP8390 remote DMA facility, and place it at * 'to' in main memory, via the I/O data port. */
1993/1117		cr = dp8390inb(port+Cr) & ~Txp; dp8390outb(port+Cr, Page0|RDMAabort|Sta); dp8390outb(port+Isr, Rdc);
1992/1222		/* * Set up the remote DMA address and count. */
1993/1117		if(dp8390->bit16)
1992/1222		len = ROUNDUP(len, 2);
1993/1117		dp8390outb(port+Rbcr0, len & 0xFF); dp8390outb(port+Rbcr1, (len>>8) & 0xFF); dp8390outb(port+Rsar0, from & 0xFF); dp8390outb(port+Rsar1, (from>>8) & 0xFF);
1992/1222		/* * Start the remote DMA read and suck the data * out of the I/O port. */
1993/1117		dp8390outb(port+Cr, Page0|RDMAread|Sta); if(dp8390->bit16) inss(dp8390->data, to, len/2);
1992/1222		else
1993/1117		insb(dp8390->data, to, len);
1992/1222		/* * Wait for the remote DMA to complete. The timeout * is necessary because we may call this routine on * a non-existent chip during initialisation and, due * to the miracles of the bus, we could get this far * and still be talking to a slot full of nothing. */
1993/1117		for(timo = 10000; (dp8390inb(port+Isr) & Rdc) == 0 && timo; timo--)
1992/1222		;
1993/1117		dp8390outb(port+Isr, Rdc); dp8390outb(port+Cr, cr);
1992/1222		return to; }
1993/1116		static void*
1993/1118		dp8390write(Dp8390 *dp8390, ulong to, void *from, ulong len)
1992/1222		{
1993/1118		ulong port = dp8390->dp8390; ulong crda;
1992/1222		uchar cr; /*
1993/0212		* Write some data to offset 'to' in the card's memory
1992/1222		* using the DP8390 remote DMA facility, reading it at * 'from' in main memory, via the I/O data port. */
1993/1118		cr = dp8390inb(port+Cr) & ~Txp; dp8390outb(port+Cr, Page0|RDMAabort|Sta); dp8390outb(port+Isr, Rdc);
1992/1222
1993/1118		if(dp8390->bit16)
1993/0212		len = ROUNDUP(len, 2);
1992/1222		/* * Set up the remote DMA address and count.
1993/0212		* This is straight from the DP8390[12D] datasheet, hence * the initial set up for read.
1992/1222		*/
1993/1118		crda = to-1-dp8390->bit16; dp8390outb(port+Rbcr0, (len+1+dp8390->bit16) & 0xFF); dp8390outb(port+Rbcr1, ((len+1+dp8390->bit16)>>8) & 0xFF); dp8390outb(port+Rsar0, crda & 0xFF); dp8390outb(port+Rsar1, (crda>>8) & 0xFF); dp8390outb(port+Cr, Page0|RDMAread|Sta);
1992/1222
1993/0212		for(;;){
1993/1118		crda = dp8390inb(port+Crda0); crda |= dp8390inb(port+Crda1)<<8;
1993/0212		if(crda == to){ /* * Start the remote DMA write and make sure * the registers are correct. */
1993/1118		dp8390outb(port+Cr, Page0|RDMAwrite|Sta);
1992/1222
1993/1118		crda = dp8390inb(port+Crda0); crda |= dp8390inb(port+Crda1)<<8;
1993/0212		if(crda != to) panic("crda write %d to %d\n", crda, to); break; } }
1992/1222		/*
1993/0212		* Pump the data into the I/O port.
1992/1222		*/
1993/1118		if(dp8390->bit16) outss(dp8390->data, from, len/2);
1992/1222		else
1993/1118		outsb(dp8390->data, from, len);
1992/1222		/* * Wait for the remote DMA to finish. We'll need * a timeout here if this ever gets called before * we know there really is a chip there. */
1993/1118		while((dp8390inb(port+Isr) & Rdc) == 0)
1992/1222		;
1993/1118		dp8390outb(port+Isr, Rdc); dp8390outb(port+Cr, cr);
1992/1222		return (void*)to; }
1993/0212		static uchar
1993/1118		getcurr(Dp8390 *dp8390)
1993/0212		{
1993/1118		ulong port = dp8390->dp8390;
1993/0212		uchar cr, curr;
1993/1118		cr = dp8390inb(port+Cr) & ~Txp; dp8390outb(port+Cr, Page1|(~(Ps1|Ps0) & cr)); curr = dp8390inb(port+Curr); dp8390outb(port+Cr, cr);
1993/0212		return curr; }
1993/0213		static void
1993/1116		receive(Ether *ether)
1993/0213		{
1993/1118		Dp8390 *dp8390; uchar curr, *pkt;
1992/1222		Hdr hdr;
1993/1118		ulong port, data, len, len1;
1993/1116		ushort type; Netfile *f, **fp, **ep;
1992/1222
1993/1118		dp8390 = ether->private; port = dp8390->dp8390; for(curr = getcurr(dp8390); dp8390->nxtpkt != curr; curr = getcurr(dp8390)){
1993/1116		ether->inpackets++;
1992/1222
1993/1118		data = dp8390->nxtpkt*Dp8390BufSz; if(dp8390->ram) memmove(&hdr, (void*)(ether->mem+data), sizeof(Hdr)); else dp8390read(dp8390, &hdr, data, sizeof(Hdr));
1992/1222		/*
1993/0212		* Don't believe the upper byte count, work it * out from the software next-page pointer and * the current next-page pointer.
1992/1222		*/
1993/1118		if(hdr.next > dp8390->nxtpkt) len1 = hdr.next - dp8390->nxtpkt - 1;
1993/0212		else
1993/1118		len1 = (dp8390->pstop-dp8390->nxtpkt) + (hdr.next-dp8390->pstart) - 1;
1993/0212		if(hdr.len0 > (Dp8390BufSz-sizeof(Hdr))) len1--; len = ((len1<<8)|hdr.len0)-4; /* * Chip is badly scrogged, reinitialise the ring. */
1993/1118		if(hdr.next < dp8390->pstart || hdr.next >= dp8390->pstop
1993/0212		|| len < 60 || len > sizeof(Etherpkt)){
1993/1118		print("dp8390: H#%2.2ux#%2.2ux#%2.2ux#%2.2ux,%d\n",
1993/0212		hdr.status, hdr.next, hdr.len0, hdr.len1, len);
1993/1118		dp8390outb(port+Cr, Page0|RDMAabort|Stp); dp8390ring(dp8390); dp8390outb(port+Cr, Page0|RDMAabort|Sta);
1992/1222		return; }
1993/0212		/*
1993/1116		* If it's a good packet read it in to the software buffer. * If the packet wraps round the hardware ring, read it in two pieces.
1993/0212		*/
1993/1116		if((hdr.status & (Fo|Fae|Crce|Prxok)) == Prxok){
1993/1118		pkt = (uchar*)ðer->rpkt;
1992/1222		data += sizeof(Hdr);
1993/1118		len1 = len;
1993/0212
1993/1118		if((data+len1) >= dp8390->pstop*Dp8390BufSz){ ulong count = dp8390->pstop*Dp8390BufSz - data;
1993/0212
1993/1118		if(dp8390->ram) memmove(pkt, (void*)(ether->mem+data), count); else dp8390read(dp8390, pkt, data, count);
1993/0212		pkt += count;
1993/1118		data = dp8390->pstart*Dp8390BufSz; len1 -= count;
1992/1222		}
1993/1118		if(len1){ if(dp8390->ram) memmove(pkt, (void*)(ether->mem+data), len1); else dp8390read(dp8390, pkt, data, len1); }
1993/0212
1993/1116		/* * Copy the packet to whoever wants it. */ type = (ether->rpkt.type[0]<<8)|ether->rpkt.type[1]; ep = ðer->f[Ntypes]; for(fp = ether->f; fp < ep; fp++) { f = *fp; if(f && (f->type == type || f->type < 0)) qproduce(f->in, ðer->rpkt, len); }
1992/1222		}
1993/0212		/*
1993/1118		* Finished with this packet, update the
1993/0212		* hardware and software ring pointers. */
1993/1118		dp8390->nxtpkt = hdr.next;
1993/0212		hdr.next--;
1993/1118		if(hdr.next < dp8390->pstart) hdr.next = dp8390->pstop-1; dp8390outb(port+Bnry, hdr.next);
1992/1222		} }
1993/1118		static int istxbusy(void *arg)
1992/1222		{
1993/1118		return ((Dp8390*)arg)->busy == 0; }
1993/0212
1993/1118		static long write(Ether *ether, void *buf, long n) { Dp8390 *dp8390; ulong port;
1993/0213
1993/1118		dp8390 = ether->private; port = dp8390->dp8390;
1993/0213
1993/1118		qlock(ðer->tlock); if(waserror()) { qunlock(ðer->tlock); nexterror();
1993/0212		}
1993/1118		tsleep(ðer->tr, istxbusy, dp8390, 10000); if(dp8390->busy) print("dp8390: transmitter jammed\n"); dp8390->busy = 1; if(dp8390->ram) memmove((void*)(ether->mem+dp8390->tstart*Dp8390BufSz), buf, n); else dp8390write(dp8390, dp8390->tstart*Dp8390BufSz, buf, n); dp8390outb(port+Tbcr0, n & 0xFF); dp8390outb(port+Tbcr1, (n>>8) & 0xFF); dp8390outb(port+Cr, Page0|RDMAabort|Txp|Sta); poperror(); qunlock(ðer->tlock); return n;
1993/0212		}
1993/1116		static void overflow(Ether *ether)
1993/0212		{
1993/1118		Dp8390 *dp8390; ulong port;
1993/0212		uchar txp; int resend;
1993/1118		dp8390 = ether->private; port = dp8390->dp8390;
1993/0212		/* * The following procedure is taken from the DP8390[12D] datasheet, * it seems pretty adamant that this is what has to be done. */
1993/1118		txp = dp8390inb(port+Cr) & Txp; dp8390outb(port+Cr, Page0|RDMAabort|Stp);
1993/0212		delay(2);
1993/1118		dp8390outb(port+Rbcr0, 0); dp8390outb(port+Rbcr1, 0);
1993/0212		resend = 0;
1993/1118		if(txp && (dp8390inb(port+Isr) & (Txe|Ptx)) == 0)
1993/0212		resend = 1;
1993/1118		dp8390outb(port+Tcr, Lb); dp8390outb(port+Cr, Page0|RDMAabort|Sta); receive(ether); dp8390outb(port+Isr, Ovw); dp8390outb(port+Tcr, 0);
1993/0212		if(resend)
1993/1118		dp8390outb(port+Cr, Page0|RDMAabort|Txp|Sta);
1993/0212		}
1993/1116		static void interrupt(Ether *ether)
1993/0212		{
1993/1118		Dp8390 *dp8390; ulong port;
1993/0212		uchar isr, r;
1992/1222
1993/1118		dp8390 = ether->private; port = dp8390->dp8390;
1992/1222		/* * While there is something of interest, * clear all the interrupts and process. */
1993/1118		dp8390outb(port+Imr, 0x00); while(isr = dp8390inb(port+Isr)){
1992/1222		if(isr & Ovw){
1993/1116		overflow(ether);
1993/1118		dp8390outb(port+Isr, Ovw);
1993/1116		ether->overflows++;
1992/1222		} /* * We have received packets.
1993/1116		* Take a spin round the ring. and
1992/1222		*/ if(isr & (Rxe|Prx)){
1993/1116		receive(ether);
1993/1118		dp8390outb(port+Isr, Rxe|Prx);
1992/1222		} /* * A packet completed transmission, successfully or * not. Start transmission on the next buffered packet, * and wake the output routine. */ if(isr & (Txe|Ptx)){
1993/1118		r = dp8390inb(port+Tsr);
1993/0212		if(isr & Txe){
1993/1118		if((r & (Cdh|Fu|Crs|Abt))) print("dp8390: Tsr#%2.2ux\n", r);
1993/1116		ether->oerrs++;
1993/0212		}
1993/1118		dp8390outb(port+Isr, Txe|Ptx);
1993/0212		if(isr & Ptx)
1993/1116		ether->outpackets++;
1993/1118		dp8390->busy = 0;
1993/1116		wakeup(ðer->tr);
1992/1222		}
1993/0212		if(isr & Cnt){
1993/1118		ether->frames += dp8390inb(port+Cntr0); ether->crcs += dp8390inb(port+Cntr1); ether->buffs += dp8390inb(port+Cntr2); dp8390outb(port+Isr, Cnt);
1993/0212		}
1992/1222		}
1993/1118		dp8390outb(port+Imr, Cnte|Ovwe|Txee|Rxee|Ptxe|Prxe);
1993/1116		} static void
1993/1118		promiscuous(void *arg, int on)
1993/1116		{
1993/1118		Dp8390 *dp8390 = ((Ether*)arg)->private;
1993/1117
1993/1116		/* * Set/reset promiscuous mode. */ if(on)
1993/1118		dp8390outb(dp8390->dp8390+Rcr, Pro|Ab);
1993/1116		else
1993/1118		dp8390outb(dp8390->dp8390+Rcr, Ab);
1993/1116		}
1993/1118		static void attach(Ether *ether)
1993/1116		{
1993/1118		Dp8390 *dp8390 = ether->private;
1993/1117
1993/1116		/* * Enable the chip for transmit/receive. * The init routine leaves the chip in monitor * mode. Clear the missed-packet counter, it * increments while in monitor mode. */
1993/1118		dp8390outb(dp8390->dp8390+Rcr, Ab); dp8390inb(dp8390->dp8390+Cntr2);
1993/1116		}
1993/1118		int
1993/1116		dp8390reset(Ether *ether) {
1993/1118		Dp8390 *dp8390; ulong port;
1993/1116
1993/1118		dp8390 = ether->private; port = dp8390->dp8390;
1993/1116		/* * This is the initialisation procedure described * as 'mandatory' in the datasheet, with references * to the 3Com503 technical reference manual. */
1993/1118		dp8390disable(dp8390); if(dp8390->bit16) dp8390outb(port+Dcr, Ft4|Ls|Wts);
1993/1116		else
1993/1118		dp8390outb(port+Dcr, Ft4|Ls);
1993/1116
1993/1118		dp8390outb(port+Rbcr0, 0); dp8390outb(port+Rbcr1, 0);
1993/1116
1993/1118		dp8390outb(port+Tcr, 0); dp8390outb(port+Rcr, Mon);
1993/1116		/* * Init the ring hardware and software ring pointers. * Can't initialise ethernet address as we may not know * it yet. */
1993/1118		dp8390ring(dp8390); dp8390outb(port+Tpsr, dp8390->tstart);
1993/1116
1993/1118		dp8390outb(port+Isr, 0xFF); dp8390outb(port+Imr, Cnte|Ovwe|Txee|Rxee|Ptxe|Prxe);
1993/1116		/* * Leave the chip initialised, * but in monitor mode. */
1993/1118		dp8390outb(port+Cr, Page0|RDMAabort|Sta);
1993/1116		/* * Set up the software configuration. */ ether->attach = attach; ether->write = write; ether->interrupt = interrupt; ether->promiscuous = promiscuous; ether->arg = ether; return 0;
1992/1222		}