## diffname pc/ether503.c 1992/1222
## diff -e /dev/null /n/bootesdump/1992/1222/sys/src/9/pc/ether503.c
0a
#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "../port/error.h"
#include "io.h"
#include "devtab.h"
#include "ether.h"
static int
reset(Ctlr *ctlr)
{
USED(ctlr);
return -1;
}
Board ether503 = {
reset,
0, /* init */
0, /* attach */
0, /* mode */
0, /* receive */
0, /* transmit */
0, /* interrupt */
0, /* watch */
0, /* addr */
0, /* irq */
0, /* bit16 */
0, /* ram */
0, /* ramstart */
0, /* ramstop */
0, /* dp8390 */
0, /* data */
0, /* tstart */
0, /* pstart */
0, /* pstop */
};
.
## diffname pc/ether503.c 1993/0212
## diff -e /n/bootesdump/1992/1222/sys/src/9/pc/ether503.c /n/bootesdump/1993/0212/sys/src/9/pc/ether503.c
38,42c
static void*
write(Ctlr *ctlr, ulong to, void *from, ulong len)
{
uchar *addr, ctrl;
/*
* See the comments in 'read()' above.
*/
if(ctlr->card.ram)
return memmove((void*)(ctlr->card.ramstart+to-RamOffset), from, len);
outb(ctlr->card.io+Dalsb, to & 0xFF);
outb(ctlr->card.io+Damsb, (to>>8) & 0xFF);
ctrl = inb(ctlr->card.io+Ctrl);
outb(ctlr->card.io+Ctrl, Start|Ddir|ctrl);
addr = from;
while(len){
while((inb(ctlr->card.io+Streg) & Dprdy) == 0)
;
if(len >= 8){
outss(ctlr->card.io+Rfmsb, addr, 4);
addr += 8;
len -= 8;
}
else{
outsb(ctlr->card.io+Rfmsb, addr, len);
break;
}
}
outb(ctlr->card.io+Ctrl, ctrl);
return (void*)to;
}
Card ether503 = {
"3Com503", /* ident */
reset, /* reset */
0, /* init */
dp8390attach, /* attach */
dp8390mode, /* mode */
read, /* read */
write, /* write */
dp8390receive, /* receive */
dp8390transmit, /* transmit */
dp8390intr, /* interrupt */
dp8390watch, /* watch */
dp8390overflow, /* overflow */
0, /* io */
0, /* irq */
0, /* bit16 */
0, /* ram */
0, /* ramstart */
0, /* ramstop */
0, /* dp8390 */
0, /* data */
0, /* software bndry */
RamOffset/Dp8390BufSz, /* tstart */
(RamOffset+0x600)/Dp8390BufSz, /* pstart */
(RamOffset+8*1024)/Dp8390BufSz, /* pstop */
.
34,36c
/*
* Polled I/O. This should be tuned.
* Set up the dma registers and pump the fifo.
*/
outb(ctlr->card.io+Dalsb, from & 0xFF);
outb(ctlr->card.io+Damsb, (from>>8) & 0xFF);
ctrl = inb(ctlr->card.io+Ctrl);
outb(ctlr->card.io+Ctrl, Start|ctrl);
addr = to;
while(len){
/*
* The fifo is 8 bytes deep, we have to wait
* until it's ready before stuffing it.
* The fifo is in its default configuration,
* so we can do word accesses.
*/
while((inb(ctlr->card.io+Streg) & Dprdy) == 0)
;
if(len >= 8){
inss(ctlr->card.io+Rfmsb, addr, 4);
addr += 8;
len -= 8;
}
else{
insb(ctlr->card.io+Rfmsb, addr, len);
break;
}
}
outb(ctlr->card.io+Ctrl, ctrl);
return to;
}
.
30,32c
/*
* If the interface has shared memory, just do a memmove.
* In this case, 'from' is an index into the shared memory.
* Due to 'hardware considerations', the memory is seen by
* the adapter at RamOffset, so we have to adjust.
*/
if(ctlr->card.ram)
return memmove(to, (void*)(ctlr->card.ramstart+from-RamOffset), len);
.
20,28c
static void*
read(Ctlr *ctlr, void *to, ulong from, ulong len)
{
uchar *addr, ctrl;
.
17c
/*
* The Gate Array Ctrl register bits <3,2> determine what is
* mapped at the I/O base address. The options are the DP8390,
* PROM bytes 0-15 or PROM bytes 16-31.
* At power-on, the I/O base address contains PROM bytes 16-31.
*/
for(tp = table; ctlr->card.io = tp->io; tp++){
/*
* Toggle the software reset bit, this should initialise the
* Ctrl register to 0x0A (Eahi|Xsel).
* Hopefully there is no other card at the gate-array address.
*/
outb(ctlr->card.io+Ctrl, Rst);
delay(1);
outb(ctlr->card.io+Ctrl, 0);
if(inb(ctlr->card.io+Ctrl) == (Eahi|Xsel))
break;
}
if(ctlr->card.io == 0)
return -1;
/*
* Map PROM bytes 0-15 to the I/O base address
* and read the ethernet address.
* When done, map the DP8390 at the I/O base address
* and set the transceiver type and irq.
*/
outb(ctlr->card.io+Ctrl, Ealo|Xsel);
for(i = 0; i < sizeof(ctlr->ea); i++)
ctlr->ea[i] = inb(ctlr->card.io+i);
outb(ctlr->card.io+Gacfr, Nim|Tcm);
outb(ctlr->card.io+Ctrl, 0|tp->bnc);
outb(ctlr->card.io+Idcfr, tp->irq);
if(tp->irq == Irq2)
ctlr->card.irq = 2;
else if(tp->irq == Irq3)
ctlr->card.irq = 3;
else if(tp->irq == Irq4)
ctlr->card.irq = 4;
else if(tp->irq == Irq5)
ctlr->card.irq = 5;
else
return -1;
/*
* Try to configure the shared memory.
* Assume this is an 8K card.
*/
ctlr->card.ram = 1;
cfr = inb(ctlr->card.io+Pcfr);
if(cfr & C8xxx)
ctlr->card.ramstart = KZERO|0xC8000;
else if(cfr & CCxxx)
ctlr->card.ramstart = KZERO|0xCC000;
else if(cfr & D8xxx)
ctlr->card.ramstart = KZERO|0xD8000;
else if(cfr & DCxxx)
ctlr->card.ramstart = KZERO|0xDC000;
else
ctlr->card.ram = 0;
ctlr->card.ramstop = ctlr->card.ramstart + 8*1024;
/*
* Finish initialising the gate-array.
* The Pstr and Pspr registers must be the same as those
* given to the DP8390.
* Gacfr is set to enable shared memory and block DMA
* interrupts.
*/
outb(ctlr->card.io+Pstr, ctlr->card.pstart);
outb(ctlr->card.io+Pspr, ctlr->card.pstop);
outb(ctlr->card.io+Dqtr, 8);
outb(ctlr->card.io+Damsb, ctlr->card.tstart);
outb(ctlr->card.io+Dalsb, 0);
outb(ctlr->card.io+Vptr2, 0xFF);
outb(ctlr->card.io+Vptr1, 0xFF);
outb(ctlr->card.io+Vptr0, 0x00);
/*
* Finally, init the 8390, set the ethernet address
* and turn on the shared memory if any.
*/
ctlr->card.dp8390 = ctlr->card.io;
dp8390reset(ctlr);
dp8390setea(ctlr);
if(ctlr->card.ram)
outb(ctlr->card.io+Gacfr, Tcm|Rsel|Mbs0);
else
outb(ctlr->card.io+Gacfr, Tcm);
return 0;
.
15c
Table *tp;
int i;
uchar cfr;
.
11a
/*
* 3Com 503 (EtherLink II).
* This driver doesn't work under load, the card gets blasted by
* overwrite-warning interrupts and eventually just hangs. Always clearing
* the Ovw bit in the DP8390 Isr along with the Rxe and Prx bits stops
* the overwrite-warning interrupts, but the card eventually hangs anyway.
* I really don't understand why this card doesn't work,
* there is plenty of evidence that other systems manage to use it.
* The only good thing about this driver is that both shared
* memory and polled I/O work (given the above restraints), although
* the polled I/O should be tuned.
*/
enum { /* Gate Array Registers */
Pstr = 0x400, /* Page Start Register */
Pspr = 0x401, /* Page Stop Register */
Dqtr = 0x402, /* Drq Timer Register */
Bcfr = 0x403, /* Base Configuration Register */
Pcfr = 0x404, /* EPROM Configuration Register */
Gacfr = 0x405, /* GA Configuration Register */
Ctrl = 0x406, /* Control Register */
Streg = 0x407, /* Status Register */
Idcfr = 0x408, /* Interrupt/DMA Configuration Register */
Damsb = 0x409, /* DMA Address Register MSB */
Dalsb = 0x40A, /* DMA Address Register LSB */
Vptr2 = 0x40B, /* Vector Pointer Register 2 */
Vptr1 = 0x40C, /* Vector Pointer Register 1 */
Vptr0 = 0x40D, /* Vector Pointer Register 0 */
Rfmsb = 0x40E, /* Register File Access MSB */
Rflsb = 0x40F, /* Register File Access LSB */
};
enum { /* Pcfr */
C8xxx = 0x10, /* memory address 0xC8000 */
CCxxx = 0x20, /* memory address 0xCC000 */
D8xxx = 0x40, /* memory address 0xD8000 */
DCxxx = 0x80, /* memory address 0xDC000 */
};
enum { /* Gacfr */
Mbs0 = 0x01, /* memory bank select 0 */
Mbs1 = 0x02, /* memory bank select 1 */
Mbs2 = 0x04, /* memory bank select 2 */
Rsel = 0x08, /* RAM select */
Test = 0x10, /* test */
Ows = 0x20, /* 0 wait state */
Tcm = 0x40, /* terminal count mask */
Nim = 0x80, /* MIC interrupt mask */
};
enum { /* Ctrl */
Rst = 0x01, /* software reset */
Xsel = 0x02, /* transceiver select (BNC = 1, AUI = 0) */
Ealo = 0x04, /* ethernet address low */
Eahi = 0x08, /* ethernet address high */
Share = 0x10, /* interrupt share */
Dbsel = 0x20, /* double buffer select */
Ddir = 0x40, /* DMA direction */
Start = 0x80, /* DMA start */
};
enum { /* Streg */
Rev0 = 0x01, /* gate array revision bit 0 */
Rev1 = 0x02, /* gate array revision bit 1 */
Rev2 = 0x04, /* gate array revision bit 2 */
Dip = 0x08, /* DMA in progress */
Dtc = 0x10, /* DMA terminal count */
Oflw = 0x20, /* overflow */
Uflw = 0x40, /* underflow */
Dprdy = 0x80, /* data port ready */
};
enum { /* Idcfr */
Drq1 = 0x01, /* DMA request 1 */
Drq2 = 0x02, /* DMA request 2 */
Drq3 = 0x04, /* DMA request 3 */
Irq2 = 0x10, /* interrupt request 2 */
Irq3 = 0x20, /* interrupt request 3 */
Irq4 = 0x40, /* interrupt request 4 */
Irq5 = 0x80, /* interrupt request 5 */
};
enum {
RamOffset = 0x2000, /* where the card sees the shared memory */
};
typedef struct {
ulong io; /* I/O base address */
uchar irq; /* interrupt level */
uchar bnc; /* use BNC connector */
} Table;
/*
* The only configuration info we can get from the card is the
* I/O base address and the shared-memory address. So let's make
* a little hard-wired configuration table.
*/
static Table table[] = {
{ 0x300, Irq2, 0, }, /* external transceiver */
{ 0x310, Irq3, 0, },
{ 0x330, Irq4, 0, },
{ 0x350, Irq5, 0, },
{ 0x250, Irq2, 1, }, /* BNC */
{ 0x280, Irq3, 1, },
{ 0x2A0, Irq4, 1, },
{ 0x2E0, Irq5, 1, },
{ 0 },
};
.
## diffname pc/ether503.c 1993/0213
## diff -e /n/bootesdump/1993/0212/sys/src/9/pc/ether503.c /n/bootesdump/1993/0213/sys/src/9/pc/ether503.c
114,117c
{ 0x350, Irq5, Xsel, }, /* BNC */
{ 0x250, Irq2, Xsel, },
{ 0x280, Irq3, Xsel, },
{ 0x2A0, Irq4, Xsel, },
{ 0x2E0, Irq5, Xsel, },
.
112d
## diffname pc/ether503.c 1993/0223
## diff -e /n/bootesdump/1993/0213/sys/src/9/pc/ether503.c /n/bootesdump/1993/0223/sys/src/9/pc/ether503.c
121a
.
## diffname pc/ether503.c 1993/0303
## diff -e /n/bootesdump/1993/0223/sys/src/9/pc/ether503.c /n/bootesdump/1993/0303/sys/src/9/pc/ether503.c
113,114c
{ 0x250, Irq2, Xsel, }, /* BNC */
.
111a
{ 0x350, Irq5, 0, },
.
## diffname pc/ether503.c 1993/0915
## diff -e /n/bootesdump/1993/0303/sys/src/9/pc/ether503.c /n/fornaxdump/1993/0915/sys/src/brazil/pc/ether503.c
340a
void
ether503link(void)
{
addethercard("3C503", ccc503reset);
}
.
## diffname pc/ether503.c 1993/1113 # deleted
## diff -e /n/fornaxdump/1993/0915/sys/src/brazil/pc/ether503.c /n/fornaxdump/1993/1113/sys/src/brazil/pc/ether503.c
1,346d
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