minix/drivers/dpeth/ne.c

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/*
** File: ne.c Jun. 08, 2000
**
** Driver for the NE*000 ethernet cards and derivates.
** This file contains only the ne specific code,
** the rest is in 8390.c Code specific for ISA bus only
**
** Created: March 15, 1994 by Philip Homburg <philip@cs.vu.nl>
** PchId: ne2000.c,v 1.4 1996/01/19 23:30:34 philip Exp
**
** Modified: Jun. 08, 2000 by Giovanni Falzoni <gfalzoni@inwind.it>
** Adapted to interface new main network task.
**
** $Id$
*/
#include <minix/drivers.h>
#include <net/gen/ether.h>
#include <net/gen/eth_io.h>
#include "dp.h"
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#if (ENABLE_NE2000 == 1)
#include "8390.h"
#include "ne.h"
/*
** Name: void ne_reset(dpeth_t * dep);
** Function: Resets the board and checks if reset cycle completes
*/
static int ne_reset(dpeth_t * dep)
{
int count = 0;
/* Reset the ethernet card */
outb_ne(dep, NE_RESET, inb_ne(dep, NE_RESET));
do {
if (++count > 10) return FALSE; /* 20 mSecs. timeout */
milli_delay(2);
} while ((inb_ne(dep, DP_ISR) & ISR_RST) == 0);
return TRUE;
}
/*
** Name: void ne_close(dpeth_t * dep);
** Function: Stops the board by resetting it and masking interrupts.
*/
static void ne_close(dpeth_t * dep)
{
(void)ne_reset(dep);
outb_ne(dep, DP_ISR, 0xFF);
sys_irqdisable(&dep->de_hook);
return;
}
/*
** Name: void ne_init(dpeth_t * dep);
** Function: Initialize the board making it ready to work.
*/
static void ne_init(dpeth_t * dep)
{
int ix;
dep->de_data_port = dep->de_base_port + NE_DATA;
if (dep->de_16bit) {
dep->de_ramsize = NE2000_SIZE;
dep->de_offset_page = NE2000_START / DP_PAGESIZE;
} else {
dep->de_ramsize = NE1000_SIZE;
dep->de_offset_page = NE1000_START / DP_PAGESIZE;
}
/* Allocates two send buffers from onboard RAM */
dep->de_sendq_nr = SENDQ_NR;
for (ix = 0; ix < SENDQ_NR; ix += 1) {
dep->de_sendq[ix].sq_sendpage = dep->de_offset_page + ix * SENDQ_PAGES;
}
/* Remaining onboard RAM allocated for receiving */
dep->de_startpage = dep->de_offset_page + ix * SENDQ_PAGES;
dep->de_stoppage = dep->de_offset_page + dep->de_ramsize / DP_PAGESIZE;
/* Can't override the default IRQ. */
dep->de_irq &= NOT(DEI_DEFAULT);
ns_init(dep); /* Initialize DP controller */
printf("%s: NE%d000 (%dkB RAM) at %X:%d - ",
dep->de_name,
dep->de_16bit ? 2 : 1,
dep->de_ramsize / 1024,
dep->de_base_port, dep->de_irq);
for (ix = 0; ix < SA_ADDR_LEN; ix += 1)
printf("%02X%c", dep->de_address.ea_addr[ix], ix < SA_ADDR_LEN - 1 ? ':' : '\n');
return;
}
/*
** Name: int ne_probe(dpeth_t * dep);
** Function: Probe for the presence of a NE*000 card by testing
** whether the board is reachable through the dp8390.
** Note that the NE1000 is an 8bit card and has a memory
** region distict from the 16bit NE2000.
*/
PUBLIC int ne_probe(dpeth_t * dep)
{
int ix, wd, loc1, loc2;
char EPROM[32];
static const struct {
unsigned char offset;
unsigned char value;
} InitSeq[] =
{
{ /* Selects page 0. */
DP_CR, (CR_NO_DMA | CR_PS_P0 | CR_STP),
},
{ /* Set byte-wide access and 8 bytes burst mode. */
DP_DCR, (DCR_8BYTES | DCR_BMS),
},
{ /* Clears the count registers. */
DP_RBCR0, 0x00, }, { DP_RBCR1, 0x00,
},
{ /* Mask completion irq. */
DP_IMR, 0x00, }, { DP_ISR, 0xFF,
},
{ /* Set receiver to monitor */
DP_RCR, RCR_MON,
},
{ /* and transmitter to loopback mode. */
DP_TCR, TCR_INTERNAL,
},
{ /* Transmit 32 bytes */
DP_RBCR0, 32, }, { DP_RBCR1, 0,
},
{ /* DMA starting at 0x0000. */
DP_RSAR0, 0x00, }, { DP_RSAR1, 0x00,
},
{ /* Start board (reads) */
DP_CR, (CR_PS_P0 | CR_DM_RR | CR_STA),
},
};
dep->de_dp8390_port = dep->de_base_port + NE_DP8390;
if ((loc1 = inb_ne(dep, NE_DP8390)) == 0xFF) return FALSE;
/* Check if the dp8390 is really there */
outb_ne(dep, DP_CR, CR_STP | CR_NO_DMA | CR_PS_P1);
loc2 = inb_ne(dep, DP_MAR5); /* Saves one byte of the address */
outb_ne(dep, DP_MAR5, 0xFF); /* Write 0xFF to it (same offset as DP_CNTR0) */
outb_ne(dep, DP_CR, CR_NO_DMA | CR_PS_P0); /* Back to page 0 */
inb_ne(dep, DP_CNTR0); /* Reading counter resets it */
if (inb_ne(dep, DP_CNTR0) != 0) {
outb_ne(dep, NE_DP8390, loc1); /* Try to restore modified bytes */
outb_ne(dep, DP_TCR, loc2);
return FALSE;
}
/* Try to reset the board */
if (ne_reset(dep) == FALSE) return FALSE;
/* Checks whether the board is 8/16bits and a real NE*000 or clone */
for (ix = 0; ix < sizeof(InitSeq)/sizeof(InitSeq[0]); ix += 1) {
outb_ne(dep, InitSeq[ix].offset, InitSeq[ix].value);
}
for (ix = 0, wd = 1; ix < 32; ix += 2) {
EPROM[ix + 0] = inb_ne(dep, NE_DATA);
EPROM[ix + 1] = inb_ne(dep, NE_DATA);
/* NE2000s and clones read same value for even and odd addresses */
if (EPROM[ix + 0] != EPROM[ix + 1]) wd = 0;
}
if (wd == 1) { /* Normalize EPROM contents for NE2000 */
for (ix = 0; ix < 16; ix += 1) EPROM[ix] = EPROM[ix * 2];
}
/* Real NE*000 and good clones have '0x57' at locations 14 and 15 */
if (EPROM[14] != 0x57 || EPROM[15] != 0x57) return FALSE;
/* Setup the ethernet address. */
for (ix = 0; ix < SA_ADDR_LEN; ix += 1) {
dep->de_address.ea_addr[ix] = EPROM[ix];
}
dep->de_16bit = wd;
dep->de_linmem = 0; /* Uses Programmed I/O only */
dep->de_prog_IO = 1;
dep->de_initf = ne_init;
dep->de_stopf = ne_close;
return TRUE;
}
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#endif /* ENABLE_NE2000 */
/** ne.c **/