From 2ca0b317b928f1fc0e930a159f788a0d86389148 Mon Sep 17 00:00:00 2001 From: Thomas Schwinge Date: Mon, 20 Feb 2006 19:17:23 +0000 Subject: 2006-02-20 Thomas Schwinge Remove unused and unsupported code. Consult the file `DEVELOPMENT' for details. Partly based on suggestions by Gianluca Guida . * i386/bogus/ns8390.h: Remove file. * i386/i386at/ds8390.h: Likewise. * i386/i386at/if_3c503.h: Likewise. * i386/i386at/if_ns8390.c: Likewise. * i386/i386at/if_ns8390.h: Likewise. * i386/i386at/if_wd8003.h: Likewise. * i386/i386at/autoconf.c: Don't include anymore and adopt all users of NNS8390 as if it were always defined to `0'. * i386/i386at/conf.c: Likewise. --- i386/bogus/ns8390.h | 1 - i386/i386at/autoconf.c | 26 - i386/i386at/conf.c | 21 - i386/i386at/ds8390.h | 166 --- i386/i386at/if_3c503.h | 116 --- i386/i386at/if_ns8390.c | 2578 ----------------------------------------------- i386/i386at/if_ns8390.h | 203 ---- i386/i386at/if_wd8003.h | 315 ------ 8 files changed, 3426 deletions(-) delete mode 100644 i386/bogus/ns8390.h delete mode 100644 i386/i386at/ds8390.h delete mode 100644 i386/i386at/if_3c503.h delete mode 100644 i386/i386at/if_ns8390.c delete mode 100644 i386/i386at/if_ns8390.h delete mode 100644 i386/i386at/if_wd8003.h (limited to 'i386') diff --git a/i386/bogus/ns8390.h b/i386/bogus/ns8390.h deleted file mode 100644 index 34d585a..0000000 --- a/i386/bogus/ns8390.h +++ /dev/null @@ -1 +0,0 @@ -#define NNS8390 1 diff --git a/i386/i386at/autoconf.c b/i386/i386at/autoconf.c index 5f49361..bd0cddc 100644 --- a/i386/i386at/autoconf.c +++ b/i386/i386at/autoconf.c @@ -59,12 +59,6 @@ extern struct bus_driver eaha_driver; extern int eaha_intr(); #endif /* NEAHA */ -#include -#if NNS8390 > 0 -extern struct bus_driver ns8390driver; -extern int ns8390intr(); -#endif /* NNS8390 */ - #include #if NAT3C501 > 0 extern struct bus_driver at3c501driver; @@ -251,26 +245,6 @@ struct bus_device bus_device_init[] = { { &eaha_driver, "tz", 7, 0, 0x0,0, 0, '?', 0, 0, 7, 0, }, #endif /* NEAHA > 0*/ -#if NNS8390 > 0 - /* "wd" and "el" */ - {&ns8390driver, "wd", 0, ns8390intr, 0x280,0x2000,0xd0000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 9}, - {&ns8390driver, "wd", 0, ns8390intr, 0x2a0,0x2000,0xd0000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 9}, - {&ns8390driver, "wd", 0, ns8390intr, 0x2e0,0x2000,0xd0000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 5}, - {&ns8390driver, "wd", 0, ns8390intr, 0x300,0x2000,0xd0000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 5}, - {&ns8390driver, "wd", 0, ns8390intr, 0x250,0x2000,0xd0000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 5}, - {&ns8390driver, "wd", 0, ns8390intr, 0x350,0x2000,0xd0000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 5}, - {&ns8390driver, "wd", 0, ns8390intr, 0x240,0x2000,0xd0000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 11}, - {&ns8390driver, "wd", 1, ns8390intr, 0x340,0x2000,0xe8000, - '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 15}, -#endif /* NNS8390 > 0 */ - #if NAT3C501 > 0 {&at3c501driver, "et", 0, at3c501intr, 0x300, 0,0x300, '?', 0, -1, -1, 0, 0, 0, SPL_SIX, 9}, diff --git a/i386/i386at/conf.c b/i386/i386at/conf.c index 3090aa3..446744b 100644 --- a/i386/i386at/conf.c +++ b/i386/i386at/conf.c @@ -54,15 +54,6 @@ extern int wtopen(), wtread(), wtwrite(), wtclose(); #define wtname "wt" #endif /* NWT > 0 */ -#include -#if NNS8390 > 0 -extern int wd8003open(), eliiopen(); -extern int ns8390output(), ns8390getstat(), ns8390setstat(), - ns8390setinput(); -#define ns8390wdname "wd" -#define ns8390elname "el" -#endif /* NNS8390 > 0 */ - #include #if NAT3C501 > 0 extern int at3c501open(), at3c501output(), @@ -215,18 +206,6 @@ struct dev_ops dev_name_list[] = nodev }, #endif -#if NNS8390 > 0 - { ns8390wdname, wd8003open, nulldev, nulldev, - ns8390output, ns8390getstat, ns8390setstat, nomap, - ns8390setinput, nulldev, nulldev, 0, - nodev }, - - { ns8390elname, eliiopen, nulldev, nulldev, - ns8390output, ns8390getstat, ns8390setstat, nomap, - ns8390setinput, nulldev, nulldev, 0, - nodev }, -#endif - #if NUL > 0 { ulname, ulopen, nulldev, nulldev, uloutput, ulgetstat, ulsetstat, nulldev, diff --git a/i386/i386at/ds8390.h b/i386/i386at/ds8390.h deleted file mode 100644 index a91e642..0000000 --- a/i386/i386at/ds8390.h +++ /dev/null @@ -1,166 +0,0 @@ -/*- - * Copyright (c) 1991 The Regents of the University of California. - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution. - * 3. All advertising materials mentioning features or use of this software - * must display the following acknowledgement: - * This product includes software developed by the University of - * California, Berkeley and its contributors. - * 4. Neither the name of the University nor the names of its contributors - * may be used to endorse or promote products derived from this software - * without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND - * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE - * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE - * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE - * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL - * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS - * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) - * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY - * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF - * SUCH DAMAGE. - * - * @(#)ds8390.h 7.1 (Berkeley) 5/9/91 - */ - -/* - * Nominal Semidestructor DS8390 Ethernet Chip - * Register and bit definitions - */ - -/* - * Page register offset values - */ -#define ds_cmd 0x00 /* Command register: */ -#define DSCM_STOP 0x01 /* Stop controller */ -#define DSCM_START 0x02 /* Start controller */ -#define DSCM_TRANS 0x04 /* Transmit packet */ -#define DSCM_RREAD 0x08 /* Remote read */ -#define DSCM_RWRITE 0x10 /* Remote write */ -#define DSCM_NODMA 0x20 /* No Remote DMA present */ -#define DSCM_PG0 0x00 /* Select Page 0 */ -#define DSCM_PG1 0x40 /* Select Page 1 */ -#define DSCM_PG2 0x80 /* Select Page 2? */ - -#define ds0_pstart 0x01 /* Page Start register */ -#define ds0_pstop 0x02 /* Page Stop register */ -#define ds0_bnry 0x03 /* Boundary Pointer */ -#define ds0_bndy ds0_bnry /* Boundary Pointer */ - -#define ds0_tsr 0x04 /* Transmit Status (read-only) */ -#define DSTS_PTX 0x01 /* Successful packet transmit */ -#define DSTS_COLL 0x04 /* Packet transmit w/ collision*/ -#define DSTS_COLL16 0x04 /* Packet had >16 collisions & fail */ -#define DSTS_ABT 0x08 /* Transmit aborted */ -#define DSTS_CRS 0x10 /* Carrier sense lost/xmit !aborted */ -#define DSTS_UND 0x20 /* FIFO Underrun on transmission*/ -#define DSTS_CDH 0x40 /* CD heartbeat */ -#define DSTS_OWC 0x80 /* Out of window collision - */ - /* transmit not aborted */ - -#define ds0_tpsr ds0_tsr /* Transmit Page (write-only) */ -#define ds0_tbcr0 0x05 /* Transmit Byte count, low WO */ -#define ds0_tbcr1 0x06 /* Transmit Byte count, high WO */ - -#define ds0_isr 0x07 /* Interrupt status register */ -#define DSIS_RX 0x01 /* Successful packet reception */ -#define DSIS_TX 0x02 /* Successful packet transmission */ -#define DSIS_RXE 0x04 /* Packet reception w/error */ -#define DSIS_TXE 0x08 /* Packet transmission w/error*/ -#define DSIS_ROVRN 0x10 /* Receiver overrun in the ring*/ -#define DSIS_CTRS 0x20 /* Diagnostic counters need attn */ -#define DSIS_RDC 0x40 /* Remote DMA Complete */ -#define DSIS_RESET 0x80 /* Reset Complete */ - -#define ds0_rsar0 0x08 /* Remote start address low WO */ -#define ds0_rsar1 0x09 /* Remote start address high WO */ -#define ds0_rbcr0 0x0A /* Remote byte count low WO */ -#define ds0_rbcr1 0x0B /* Remote byte count high WO */ - -#define ds0_rsr 0x0C /* Receive status RO */ -#define ds0_cntr0 0x0D /* Receive status RO */ -#define ds0_cntr1 0x0E /* Receive status RO */ -#define ds0_cntr2 0x0F /* Receive status RO */ -#define DSRS_RPC 0x01 /* Received Packet Complete */ -#define DSRS_CRC 0x02 /* CRC error */ -#define DSRS_FAE 0x04 /* Frame alignment error */ -#define DSRS_FO 0x08 /* FIFO Overrun */ -#define DSRS_MPA 0x10 /* Missed packet */ -#define DSRS_PHY 0x20 /* Physical/multicast address */ -#define DSRS_DIS 0x40 /* Receiver disable */ -#define DSRS_DFR 0x80 /* Deferring */ - -#define ds0_rcr ds0_rsr /* Receive configuration WO */ -#define DSRC_SEP 0x01 /* Save error packets */ -#define DSRC_AR 0x02 /* Accept Runt packets */ -#define DSRC_AB 0x04 /* Accept Broadcast packets */ -#define DSRC_AM 0x08 /* Accept Multicast packets */ -#define DSRC_PRO 0x10 /* Promiscuous physical */ -#define DSRC_MON 0x20 /* Monitor mode */ - -#define ds0_tcr 0x0D /* Transmit configuration WO */ -#define DSTC_CRC 0x01 /* Inhibit CRC */ -#define DSTC_LB0 0x02 /* Encoded Loopback Control */ -#define DSTC_LB1 0x04 /* Encoded Loopback Control */ -#define DSTC_ATD 0x08 /* Auto Transmit Disable */ -#define DSTC_OFST 0x10 /* Collision Offset Enable */ - -#define ds0_rcvalctr ds0_tcr /* Receive alignment err ctr RO */ - -#define ds0_dcr 0x0E /* Data configuration WO */ -#define DSDC_WTS 0x01 /* Word Transfer Select */ -#define DSDC_BOS 0x02 /* Byte Order Select */ -#define DSDC_LAS 0x04 /* Long Address Select */ -#define DSDC_BMS 0x08 /* Burst Mode Select */ -#define DSDC_AR 0x10 /* Autoinitialize Remote */ -#define DSDC_FT0 0x20 /* Fifo Threshold Select */ -#define DSDC_FT1 0x40 /* Fifo Threshold Select */ - -#define ds0_rcvcrcctr ds0_dcr /* Receive CRC error counter RO */ - -#define ds0_imr 0x0F /* Interrupt mask register WO */ -#define DSIM_PRXE 0x01 /* Packet received enable */ -#define DSIM_PTXE 0x02 /* Packet transmitted enable */ -#define DSIM_RXEE 0x04 /* Receive error enable */ -#define DSIM_TXEE 0x08 /* Transmit error enable */ -#define DSIM_OVWE 0x10 /* Overwrite warning enable */ -#define DSIM_CNTE 0x20 /* Counter overflow enable */ -#define DSIM_RDCE 0x40 /* Dma complete enable */ - - -/* We DON'T enable Counter Overflow and Remote DMA complete. */ -#define IMR_ENABLE (DSIM_PRXE|DSIM_PTXE|DSIM_RXEE|DSIM_TXEE|DSIM_OVWE) - -#define ds0_rcvfrmctr ds0_imr /* Receive Frame error cntr RO */ - - -#define ds1_par0 ds0_pstart /* Physical address register 0 */ - /* Physical address registers 1-4 */ -#define ds1_par5 ds0_tbcr1 /* Physical address register 5 */ -#define ds1_curr ds0_isr /* Current page (receive unit) */ -#define ds1_mar0 ds0_rsar0 /* Multicast address register 0 */ - /* Multicast address registers 1-6 */ -#define ds1_mar7 ds0_imr /* Multicast address register 7 */ -#define ds1_curr ds0_isr /* Current page (receive unit) */ - -#define DS_PGSIZE 256 /* Size of RAM pages in bytes */ - -/* - * Packet receive header, 1 per each buffer page used in receive packet - */ -struct prhdr { - u_char pr_status; /* is this a good packet, same as ds0_rsr */ - u_char pr_nxtpg; /* next page of packet or next packet */ - u_char pr_sz0; - u_char pr_sz1; -}; diff --git a/i386/i386at/if_3c503.h b/i386/i386at/if_3c503.h deleted file mode 100644 index 865882c..0000000 --- a/i386/i386at/if_3c503.h +++ /dev/null @@ -1,116 +0,0 @@ -/* - * Mach Operating System - * Copyright (c) 1991 Carnegie-Mellon University - * All Rights Reserved. - * - * Permission to use, copy, modify and distribute this software and its - * documentation is hereby granted, provided that both the copyright - * notice and this permission notice appear in all copies of the - * software, derivative works or modified versions, and any portions - * thereof, and that both notices appear in supporting documentation. - * - * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" - * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR - * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. - * - * Carnegie Mellon requests users of this software to return to - * - * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU - * School of Computer Science - * Carnegie Mellon University - * Pittsburgh PA 15213-3890 - * - * any improvements or extensions that they make and grant Carnegie Mellon - * the rights to redistribute these changes. - */ - -/* Vendor unique hardware addr. prefix. 3Com has 2 because they ran - out of available addresses on the first one... */ - -#define OLD_3COM_ID 0x02608c -#define NEW_3COM_ID 0x0020af - -/* Gate Array Description */ - -#define PSTR 0x400 -#define PSPR 0x401 -#define DQTR 0x402 -#define BCFR 0x403 -#define PCFR 0x404 -#define GACFR 0x405 -#define CTLR 0x406 -#define STREG 0x407 -#define IDCFR 0x408 -#define DAMSB 0x409 -#define DALSB 0x40A -#define VPTR2 0x40B -#define VPTR1 0x40C -#define VPTR0 0x40D -#define RFMSB 0x40E -#define RFLSB 0x40F - - /* PSTR 400 */ -/* int */ - /* PSPR 401 */ -/* int */ - /* DQTR 402 */ -/* dma only */ - /* BCFR 403 */ -#define B7_300 0x300 -#define B6_310 0x310 -#define B5_330 0x330 -#define B4_350 0x350 -#define B3_250 0x250 -#define B2_280 0x280 -#define B1_2A0 0x2a0 -#define B0_2E0 0x2e0 - /* PCFR 404 */ - - /* GACFR 405 */ -#define GACFR_NIM 0x80 -#define GACFR_TCM 0x40 -#define GACFR_OWS 0x20 -#define GACFR_TEST 0x10 -#define GACFR_RSEL 0x08 -#define GACFR_MBS2 0x04 -#define GACFR_MBS1 0x02 -#define GACFR_MBS0 0x01 - /* - * This definition is only for the std 8k window on an 8k board. - * It is incorrect for a 32K board. But they do not exists yet - * and I don't even know how to tell I am looking at one. - */ -#define GACFR_8K (GACFR_RSEL|0x1) - /* CTLR 406 */ -#define CTLR_START 0x80 -#define CTLR_DDIR 0x40 -#define CTLR_DBSEL 0x20 -#define CTLR_SHARE 0x10 -#define CTLR_EAHI 0x08 -#define CTLR_EALO 0x04 -#define CTLR_XSEL 0x02 -#define CTLR_RST 0x01 -#define CTLR_EA 0x0c -#define CTLR_STA_ADDR 0x04 -#define CTLR_THIN 0x02 -#define CTLR_THICK 0x00 - /* STREG 407 */ -/* DMA */ - /* IDCFR 408 */ -#define IDCFR_IRQ5 0x80 -#define IDCFR_IRQ4 0x40 -#define IDCFR_IRQ3 0x20 -#define IDCFR_IRQ2 0x10 -#define IDCFR_DRQ3 0x04 -#define IDCFR_DRQ2 0x02 -#define IDCFR_DRQ1 0x01 - /* DAMSB 409 */ -/* int & dma */ - /* DALSB 40A */ -/* int & dma */ - /* VPTR2 40B */ - /* VPTR1 40C */ - /* VPTR0 40D */ - /* RFMSB 40E */ -/* what's a register file */ - /* RFLSB 40F */ diff --git a/i386/i386at/if_ns8390.c b/i386/i386at/if_ns8390.c deleted file mode 100644 index 15c9440..0000000 --- a/i386/i386at/if_ns8390.c +++ /dev/null @@ -1,2578 +0,0 @@ -/* - * Mach Operating System - * Copyright (c) 1991,1990,1989 Carnegie Mellon University - * All Rights Reserved. - * - * Permission to use, copy, modify and distribute this software and its - * documentation is hereby granted, provided that both the copyright - * notice and this permission notice appear in all copies of the - * software, derivative works or modified versions, and any portions - * thereof, and that both notices appear in supporting documentation. - * - * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" - * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR - * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. - * - * Carnegie Mellon requests users of this software to return to - * - * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU - * School of Computer Science - * Carnegie Mellon University - * Pittsburgh PA 15213-3890 - * - * any improvements or extensions that they make and grant Carnegie Mellon - * the rights to redistribute these changes. - */ -/* NOTE: - * There are three outstanding bug/features in this implementation. - * They may even be hardware misfeatures. The conditions are registered - * by counters maintained by the software. - * 1: over_write is a condition that means that the board wants to store - * packets, but there is no room. So new packets are lost. What seems to - * be happening is that we get an over_write condition, but there are no - * or just a few packets in the board's ram. Also it seems that we get - * several over_writes in a row. - * 2: Since there is only one transmit buffer, we need a lock to indicate - * whether it is in use. We clear this lock when we get a transmit interrupt. - * Sometimes we go to transmit and although there is no transmit in progress, - * the lock is set. (In this case, we just ignore the lock.) It would look - * like we can miss transmit interrupts? - * 3: We tried to clean up the unnecessary switches to bank 0. - * Unfortunately, when you do an ifconfig "down", the system tend to lock up - * a few seconds later (this was when DSF_RUNNING) was not being set before. - * But even with DSF_RUNNING, on an EISA bus machine we ALWAYS lock up after - * a few seconds. - */ - -/* - * Western Digital 8003E Mach Ethernet driver (for intel 80386) - * Copyright (c) 1990 by Open Software Foundation (OSF). - */ - -/* - Copyright 1990 by Open Software Foundation, -Cambridge, MA. - - All Rights Reserved - - Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby granted, -provided that the above copyright notice appears in all copies and -that both the copyright notice and this permission notice appear in -supporting documentation, and that the name of OSF or Open Software -Foundation not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - - OSF DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE - -#if NNS8390 > 0 - -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include "vm_param.h" -#include -#include -#include -#include -#include - -#if MACH_TTD -#include -#endif /* MACH_TTD */ - - -#define SPLNET spl6 - -int wd_debug = 0; - -int ns8390probe(); -void ns8390attach(); -int ns8390intr(); -int ns8390init(); -int ns8390output(); -int ns8390ioctl(); -int ns8390reset(); -int ns8390rcv(); -int ns8390watch(); -int ns8390get_CURR(); -int ns8390over_write(); - -struct bus_device *ns8390info[NNS8390]; /* ???? */ - -static vm_offset_t ns8390_std[NNS8390] = { 0 }; -static struct bus_device *ns8390_info[NNS8390]; -struct bus_driver ns8390driver = - {ns8390probe, 0, ns8390attach, 0, ns8390_std, "ns8390", ns8390_info, 0, 0, 0}; - -int watchdog_id; - -char *wd8003_card = "wd"; -char *elii_card = "el"; -/* 2e0, 2a0, 280, 250, 350, 330, 310, 300*/ -int elii_irq[8] = {5, 2, 2, 5, 5, 0x711, 0x711, 5}; -int elii_bnc[8] = {1, 0, 1, 1, 0, 0x711, 0x711, 0}; -/*int elii_bnc[8] = {0, 1, 1, 1, 1, 1, 0, 1}; */ - -typedef struct { -#ifdef MACH_KERNEL - struct ifnet ds_if; /* generic interface header */ - u_char ds_addr[6]; /* Ethernet hardware address */ -#else MACH_KERNEL - struct arpcom ns8390_ac; -#define ds_if ns8390_ac.ac_if -#define ds_addr ns8390_ac.ac_enaddr -#endif MACH_KERNEL - int flags; - int timer; - int interrupt; - char *nic; - u_char address[ETHER_ADDR_SIZE]; - short mode; - int tbusy; - char *sram; /* beginning of the shared memory RAM buffer */ - int read_nxtpkt_ptr;/* pointer to next packet available */ - int pstart; /* page start hold */ - int pstop; /* page stop hold */ - int tpsr; /* transmit page start hold */ - int fifo_depth; /* NIC fifo threshold */ - char *card; - int board_id; -} -ns8390_softc_t; - -ns8390_softc_t ns8390_softc[NNS8390]; - -struct ns8390_cntrs { -u_int ovw, - jabber, - crc, - frame, - miss, - fifo, - rcv; -u_int xmt, - xmti, - busy, - heart; -} ns8390_cntrs[NNS8390]; - -#if MACH_TTD -boolean_t ttd_poll_loop; - -int ns8390poll_receive(); -int ns8390transmit_ttd(); -#endif /* MACH_TTD */ - -#ifdef IF_CNTRS -int ns_narp = 1, ns_arp = 0; -int ns_ein[32], ns_eout[32]; -int ns_lin[128/8], ns_lout[128/8]; -static -log_2(no) -unsigned long no; -{ - return ({ unsigned long _temp__; - asm("bsr %1, %0; jne 0f; xorl %0, %0; 0:" : - "=r" (_temp__) : "a" (no)); - _temp__;}); -} -#endif IF_CNTRS - -/* Interrupts mask bits */ -int imr_hold = DSIM_PRXE|DSIM_PTXE|DSIM_RXEE|DSIM_TXEE|DSIM_OVWE|DSIM_CNTE; - -/* - * ns8390probe: - * - * This function "probes" or checks for the wd8003 board on the bus to see - * if it is there. As far as I can tell, the best break between this - * routine and the attach code is to simply determine whether the board - * is configured in properly. Currently my approach to this is to test the - * base I/O special offset for the Western Digital unique byte sequence - * identifier. If the bytes match we assume board is there. - * The config code expects to see a successful return from the probe - * routine before attach will be called. - * - * input : address device is mapped to, and unit # being checked - * output : a '1' is returned if the board exists, and a 0 otherwise - * - */ - -ns8390probe(port, dev) -struct bus_device *dev; -{ - caddr_t hdwbase = (caddr_t)dev->address; - int unit = dev->unit; - ns8390_softc_t *sp = &ns8390_softc[unit]; - int tmp; - int vendor_id; - - if ((unit < 0) || (unit > NNS8390)) { - printf("ns8390 ethernet unit %d out of range\n", unit); - return(0); - } - if (((u_char) inb(hdwbase+IFWD_LAR_0) == (u_char) WD_NODE_ADDR_0) && - ((u_char) inb(hdwbase+IFWD_LAR_1) == (u_char) WD_NODE_ADDR_1) && - ((u_char) inb(hdwbase+IFWD_LAR_2) == (u_char) WD_NODE_ADDR_2)) { - ns8390info[unit] = dev; - sp->card = wd8003_card; - dev->name = wd8003_card; - sp->nic = hdwbase + OFF_8390; - /* enable mem access to board */ - sp->board_id = wd80xxget_board_id(dev); - - *(sp->address) = inb(hdwbase+IFWD_LAR_0); - *(sp->address + 1) = inb(hdwbase+IFWD_LAR_1); - *(sp->address + 2) = inb(hdwbase+IFWD_LAR_2); - *(sp->address + 3) = inb(hdwbase+IFWD_LAR_3); - *(sp->address + 4) = inb(hdwbase+IFWD_LAR_4); - *(sp->address + 5) = inb(hdwbase+IFWD_LAR_5); - return (1); - } /* checks the address of the board to verify that it is a WD */ - - /* try to avoid any NE2000 pretending to be an el II */ - if (inb(hdwbase + 0x408) == 0xff) - return 0; - - /* check vendor id */ - tmp = inb(hdwbase + CTLR); - - outb(hdwbase + CTLR, CTLR_RST|CTLR_THIN); /* Reset it... */ - outb(hdwbase + CTLR, CTLR_THIN); - /* - * Map the station addr PROM into the lower I/O ports. We now - * check for both the old and new 3Com prefix - */ - outb(hdwbase + CTLR, CTLR_STA_ADDR|CTLR_THIN); - vendor_id = inb(hdwbase)*0x10000 + inb(hdwbase + 1)*0x100 + - inb(hdwbase + 2); - /* Restore the register we frobbed. */ - outb(hdwbase + CTLR, tmp); - if ((vendor_id != OLD_3COM_ID) && (vendor_id != NEW_3COM_ID)) - return 0; - - if ((tmp = inb(hdwbase+BCFR))) { - switch(tmp) { - case (1<<7): sp->board_id = 7; break; /*irq5 xvcr*/ -#ifdef not_currently_possible - case (1<<6): sp->board_id = 6; break; - case (1<<5): sp->board_id = 5; break; -#endif not_currently_possible - case (1<<4): sp->board_id = 4; break; - case (1<<3): sp->board_id = 3; break; - case (1<<2): sp->board_id = 2; break; /*irq2 bnc*/ - case (1<<1): sp->board_id = 1; break; /*irq2 xvcr*/ - case (1<<0): sp->board_id = 0; break; /*irq5 bnc*/ - default: return 0; - } - switch (inb(hdwbase+PCFR)) { - case (1<<7): dev->phys_address = 0xDC000; break; - case (1<<6): dev->phys_address = 0xD8000; break; -#ifdef not_currently_possible - case (1<<5): dev->phys_address = 0xCC000; break; - case (1<<4): dev->phys_address = 0xC8000; break; -#endif not_currently_possible - default: - printf("EtherLink II with NO memory configured\n"); - return 0; - } - ns8390info[unit] = dev; - dev->sysdep1 = elii_irq[sp->board_id]; - if (dev->sysdep1 == 2) - dev->sysdep1 = 9; - sp->card = elii_card; - dev->name = elii_card; - sp->nic = hdwbase; - return 1; - } - - return(0); -} - -/* - * ns8390attach: - * - * This function attaches a ns8390 board to the "system". The rest of - * runtime structures are initialized here (this routine is called after - * a successful probe of the board). Once the ethernet address is read - * and stored, the board's ifnet structure is attached and readied. - * - * input : bus_device structure setup in autoconfig - * output : board structs and ifnet is setup - * - */ - -void ns8390attach(dev) -struct bus_device *dev; -{ - ns8390_softc_t *sp; - struct ifnet *ifp; - u_char unit; - int temp; - - take_dev_irq(dev); - unit = (u_char)dev->unit; - sp = &ns8390_softc[unit]; - printf(", port = %x, spl = %d, pic = %d. ", - dev->address, dev->sysdep, dev->sysdep1); - - if (sp->card == elii_card) { - if (elii_bnc[sp->board_id]) - printf("cheapernet "); - else - printf("ethernet "); - } else - printf("ethernet "); - - (volatile char *)sp->sram = - (volatile char *) phystokv(dev->phys_address); - dev->address = (vm_offset_t) phystokv(dev->address); - sp->timer = -1; - sp->flags = 0; - sp->mode = 0; - - if (!ns8390hwrst(unit)) { - printf("%s%d: attach(): reset failed.\n", - sp->card, unit); - return; - } - /* N.B. sp->address is not determined till - * hwrst time. */ - *(sp->ds_addr) = *(sp->address); - *(sp->ds_addr + 1) = *(sp->address + 1); - *(sp->ds_addr + 2) = *(sp->address + 2); - *(sp->ds_addr + 3) = *(sp->address + 3); - *(sp->ds_addr + 4) = *(sp->address + 4); - *(sp->ds_addr + 5) = *(sp->address + 5); - - printf("id [%x:%x:%x:%x:%x:%x]", - sp->address[0],sp->address[1],sp->address[2], - sp->address[3],sp->address[4],sp->address[5]); - ifp = &(sp->ds_if); - ifp->if_unit = unit; - ifp->if_mtu = ETHERMTU; - ifp->if_flags = IFF_BROADCAST; -#ifdef MACH_KERNEL - ifp->if_header_size = sizeof(struct ether_header); - ifp->if_header_format = HDR_ETHERNET; - ifp->if_address_size = 6; - ifp->if_address = (char *)&sp->address[0]; - if_init_queues(ifp); -#else MACH_KERNEL - ifp->if_name = sp->card; - ifp->if_init = ns8390init; - ifp->if_output = ns8390output; - ifp->if_ioctl = ns8390ioctl; - ifp->if_reset = ns8390reset; - ifp->if_next = NULL; - if_attach(ifp); -#ifdef notdef - watchdog_id = timeout(ns8390watch, &(ifp->if_unit), 20*HZ); -#endif -#endif MACH_KERNEL - -#ifdef MACH_KERNEL -#if MACH_TTD - if (!ttd_get_packet) { - ttd_device_unit = unit; - ttd_get_packet = ns8390poll_receive; - ttd_send_packet = ns8390transmit_ttd; - ttd_host_ether_id.array[0] = *(sp->address); - ttd_host_ether_id.array[1] = *(sp->address + 1); - ttd_host_ether_id.array[2] = *(sp->address + 2); - ttd_host_ether_id.array[3] = *(sp->address + 3); - ttd_host_ether_id.array[4] = *(sp->address + 4); - ttd_host_ether_id.array[5] = *(sp->address + 5); - } -#endif /* MACH_TTD */ -#endif /* MACH_KERNEL */ -} - -/* - * ns8390watch(): - * - */ - -int -ns8390watch(b_ptr) -caddr_t b_ptr; -{ - int x, - y, - opri, - unit; - int temp_cr; - caddr_t nic; - - unit = *b_ptr; -#ifdef MACH_KERNEL - timeout(ns8390watch,b_ptr,20*HZ); -#else MACH_KERNEL - watchdog_id = timeout(ns8390watch,b_ptr,20*HZ); -#endif MACH_KERNEL - nic = ns8390_softc[unit].nic; - temp_cr = inb(nic+ds_cmd); - outb(nic + ds_cmd, (temp_cr & 0x3f) | DSCM_PG0); - printf("<<< ISR=%x CURR=%x rdnxt=%x BNDY=%x>>> ", - inb(nic + ds0_isr), - ns8390get_CURR(unit), ns8390_softc[unit].read_nxtpkt_ptr, - inb(nic+ds0_bndy)); - outb(nic+ds_cmd,temp_cr); -} - -#ifdef MACH_KERNEL -int ns8390start(); /* forward */ - -/*ARGSUSED*/ -wd8003open(dev, flag) - dev_t dev; - int flag; -{ - register int unit = minor(dev); - - if (ns8390_softc[unit].card != wd8003_card) - return (ENXIO); - if (unit < 0 || unit >= NNS8390 || - ns8390_softc[unit].nic == 0) - return (ENXIO); - - ns8390_softc[unit].ds_if.if_flags |= IFF_UP; - ns8390init(unit); - return(0); -} - -eliiopen(dev, flag) - dev_t dev; - int flag; -{ - register int unit = minor(dev); - - if (ns8390_softc[unit].card != elii_card) - return (ENXIO); - if (unit < 0 || unit >= NNS8390 || - ns8390_softc[unit].nic == 0) - return (ENXIO); - - ns8390_softc[unit].ds_if.if_flags |= IFF_UP; - ns8390init(unit); - return(0); -} - -ns8390output(dev, ior) - dev_t dev; - io_req_t ior; -{ - register int unit = minor(dev); - - if (unit < 0 || unit >= NNS8390 || - ns8390_softc[unit].nic == 0) - return (ENXIO); - return (net_write(&ns8390_softc[unit].ds_if, ns8390start, ior)); -} - -ns8390setinput(dev, receive_port, priority, filter, filter_count) - dev_t dev; - mach_port_t receive_port; - int priority; - filter_t filter[]; - unsigned int filter_count; -{ - register int unit = minor(dev); - - if (unit < 0 || unit >= NNS8390 || - ns8390_softc[unit].nic == 0) - return (ENXIO); - - return (net_set_filter(&ns8390_softc[unit].ds_if, - receive_port, priority, - filter, filter_count)); -} - -#else MACH_KERNEL -/* - * ns8390output: - * - * This routine is called by the "if" layer to output a packet to - * the network. This code resolves the local ethernet address, and - * puts it into the mbuf if there is room. If not, then a new mbuf - * is allocated with the header information and precedes the data - * to be transmitted. The routine ns8390xmt() which actually - * transmits the data expects the ethernet header to precede the - * data in the mbuf. - * - * input: ifnet structure pointer, an mbuf with data, and address - * to be resolved - * output: mbuf is updated to hold enet address, or a new mbuf - * with the address is added - * - */ - -ns8390output(ifp, m0, dst) -struct ifnet *ifp; -struct mbuf *m0; -struct sockaddr *dst; -{ - register ns8390_softc_t *is = &ns8390_softc[ifp->if_unit]; - u_char edst[6]; - struct in_addr idst; - register struct mbuf *m = m0; - register struct ether_header *eh; - register int off; - int usetrailers; - int type, error; - spl_t opri; - - if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) { - printf("%s%d output(): Turning off board %d\n", - is->card, ifp->if_unit); - ns8390intoff(ifp->if_unit); - error = ENETDOWN; - goto bad; - } - switch (dst->sa_family) { -#ifdef INET - case AF_INET: - idst = ((struct sockaddr_in *)dst)->sin_addr; - if (!arpresolve(&is->ns8390_ac, m, &idst, edst, &usetrailers)){ - return (0); /* if not yet resolved */ - } - off = ntohs((u_short)mtod(m, struct ip *)->ip_len) - m->m_len; - if (usetrailers && off > 0 && (off & 0x1ff) == 0 && - m->m_off >= MMINOFF + 2 * sizeof (u_short)) { - type = ETHERTYPE_TRAIL + (off>>9); - m->m_off -= 2 * sizeof (u_short); - m->m_len += 2 * sizeof (u_short); - *mtod(m, u_short *) = htons((u_short)ETHERTYPE_IP); - *(mtod(m, u_short *) + 1) = htons((u_short)m->m_len); - goto gottrailertype; - } - type = ETHERTYPE_IP; - off = 0; - goto gottype; -#endif -#ifdef NS - case AF_NS: - type = ETHERTYPE_NS; - bcopy((caddr_t)&(((struct sockaddr_ns *)dst)->sns_addr.x_host), - (caddr_t)edst, - sizeof (edst)); - off = 0; - goto gottype; -#endif - case AF_UNSPEC: - eh = (struct ether_header *)dst->sa_data; - bcopy((caddr_t)eh->ether_dhost, (caddr_t)edst, sizeof (edst)); - type = eh->ether_type; - goto gottype; - default: - printf("%s%d output(): can't handle af%d\n", - is->card, ifp->if_unit, - dst->sa_family); - error = EAFNOSUPPORT; - goto bad; - } -gottrailertype: - /* - * Packet to be sent as trailer: move first packet - * (control information) to end of chain. - */ - while (m->m_next) - m = m->m_next; - m->m_next = m0; - m = m0->m_next; - m0->m_next = 0; - m0 = m; -gottype: - /* - * Add local net header. If no space in first mbuf, - * allocate another. - */ - if (m->m_off > MMAXOFF || - MMINOFF + sizeof (struct ether_header) > m->m_off) { - m = m_get(M_DONTWAIT, MT_HEADER); - if (m == 0) { - error = ENOBUFS; - goto bad; - } - m->m_next = m0; - m->m_off = MMINOFF; - m->m_len = sizeof (struct ether_header); - } else { - m->m_off -= sizeof (struct ether_header); - m->m_len += sizeof (struct ether_header); - } - eh = mtod(m, struct ether_header *); - eh->ether_type = htons((u_short)type); - bcopy((caddr_t)edst, (caddr_t)eh->ether_dhost, sizeof (edst)); - bcopy((caddr_t)is->address, - (caddr_t)eh->ether_shost, - sizeof(edst)); - /* - * Queue message on interface, and start output if interface - * not yet active. - */ - opri = SPLNET(); - if (IF_QFULL(&ifp->if_snd)) { - IF_DROP(&ifp->if_snd); - splx(opri); - m_freem(m); - return (ENOBUFS); - } - IF_ENQUEUE(&ifp->if_snd, m); - /* - * Some action needs to be added here for checking whether the - * board is already transmitting. If it is, we don't want to - * start it up (ie call ns8390start()). We will attempt to send - * packets that are queued up after an interrupt occurs. Some - * flag checking action has to happen here and/or in the start - * routine. This note is here to remind me that some thought - * is needed and there is a potential problem here. - * - */ - ns8390start(ifp->if_unit); - splx(opri); - return (0); -bad: - m_freem(m0); - return (error); -} -#endif MACH_KERNEL - -/* - * ns8390reset: - * - * This routine is in part an entry point for the "if" code. Since most - * of the actual initialization has already (we hope already) been done - * by calling ns8390attach(). - * - * input : unit number or board number to reset - * output : board is reset - * - */ - -int -ns8390reset(unit) -int unit; -{ - - ns8390_softc[unit].ds_if.if_flags &= ~IFF_RUNNING; - return(ns8390init(unit)); -} - -/* - * ns8390init: - * - * Another routine that interfaces the "if" layer to this driver. - * Simply resets the structures that are used by "upper layers". - * As well as calling ns8390hwrst that does reset the ns8390 board. - * - * input : board number - * output : structures (if structs) and board are reset - * - */ - -int -ns8390init(unit) -int unit; -{ - struct ifnet *ifp; - int stat; - spl_t oldpri; - - ifp = &(ns8390_softc[unit].ds_if); -#ifdef MACH_KERNEL -#else MACH_KERNEL - if (ifp->if_addrlist == (struct ifaddr *)0) { - return; - } -#endif MACH_KERNEL - oldpri = SPLNET(); - if ((stat = ns8390hwrst(unit)) == TRUE) { - ns8390_softc[unit].ds_if.if_flags |= IFF_RUNNING; - ns8390_softc[unit].flags |= DSF_RUNNING; - ns8390_softc[unit].tbusy = 0; - ns8390start(unit); - } else - printf("%s%d init(): trouble resetting board %d\n", - ns8390_softc[unit].card, unit); - ns8390_softc[unit].timer = 5; - splx(oldpri); - return(stat); -} - -/* - * ns8390start: - * - * This is yet another interface routine that simply tries to output a - * in an mbuf after a reset. - * - * input : board number - * output : stuff sent to board if any there - * - */ - -ns8390start(unit) -int unit; -{ - register ns8390_softc_t *is = &ns8390_softc[unit]; - struct ifnet *ifp; -#ifdef MACH_KERNEL - io_req_t m; -#else MACH_KERNEL - struct mbuf *m; -#endif MACH_KERNEL - - if (is->tbusy) { - caddr_t nic = ns8390_softc[unit].nic; - if (!(inb(nic+ds_cmd) & DSCM_TRANS)) { - is->tbusy = 0; - ns8390_cntrs[unit].busy++; - } else - return; - } - - ifp = &(ns8390_softc[unit].ds_if); - - IF_DEQUEUE(&ifp->if_snd, m); -#ifdef MACH_KERNEL - if (m != 0) -#else MACH_KERNEL - if (m != (struct mbuf *)0) -#endif MACH_KERNEL - { - is->tbusy++; - ns8390_cntrs[unit].xmt++; - ns8390xmt(unit, m); - } -} - -#ifdef MACH_KERNEL -/*ARGSUSED*/ -ns8390getstat(dev, flavor, status, count) - dev_t dev; - int flavor; - dev_status_t status; /* pointer to OUT array */ - unsigned int *count; /* out */ -{ - register int unit = minor(dev); - - if (unit < 0 || unit >= NNS8390 || - ns8390_softc[unit].nic == 0) - return (ENXIO); - - return (net_getstat(&ns8390_softc[unit].ds_if, - flavor, - status, - count)); -} -ns8390setstat(dev, flavor, status, count) - dev_t dev; - int flavor; - dev_status_t status; - unsigned int count; -{ - register int unit = minor(dev); - register ns8390_softc_t *sp; - - if (unit < 0 || unit >= NNS8390 || - ns8390_softc[unit].nic == 0) - return (ENXIO); - - sp = &ns8390_softc[unit]; - - switch (flavor) { - case NET_STATUS: - { - /* - * All we can change are flags, and not many of those. - */ - register struct net_status *ns = (struct net_status *)status; - int mode = 0; - - if (count < NET_STATUS_COUNT) - return (D_INVALID_SIZE); - - if (ns->flags & IFF_ALLMULTI) - mode |= MOD_ENAL; - if (ns->flags & IFF_PROMISC) - mode |= MOD_PROM; - - /* - * Force a complete reset if the receive mode changes - * so that these take effect immediately. - */ - if (sp->mode != mode) { - sp->mode = mode; - if (sp->flags & DSF_RUNNING) { - sp->flags &= ~(DSF_LOCK | DSF_RUNNING); - ns8390init(unit); - } - } - break; - } - - default: - return (D_INVALID_OPERATION); - } - return (D_SUCCESS); -} -#else MACH_KERNEL -/* - * ns8390ioctl: - * - * This routine processes an ioctl request from the "if" layer - * above. - * - * input : pointer the appropriate "if" struct, command, and data - * output : based on command appropriate action is taken on the - * ns8390 board(s) or related structures - * return : error is returned containing exit conditions - * - */ - -int -ns8390ioctl(ifp, cmd, data) -struct ifnet *ifp; -int cmd; -caddr_t data; -{ - register struct ifaddr *ifa = (struct ifaddr *)data; - register ns8390_softc_t *is; - int error; - spl_t opri; - short mode = 0; - - is = &ns8390_softc[ifp->if_unit]; - opri = SPLNET(); - error = 0; - switch (cmd) { - case SIOCSIFADDR: - ifp->if_flags |= IFF_UP; - ns8390init(ifp->if_unit); - switch (ifa->ifa_addr.sa_family) { -#ifdef INET - case AF_INET: - ((struct arpcom *)ifp)->ac_ipaddr = - IA_SIN(ifa)->sin_addr; - arpwhohas((struct arpcom *)ifp, &IA_SIN(ifa)->sin_addr); - break; -#endif -#ifdef NS - case AF_NS: - { - register struct ns_addr *ina = - &(IA_SNS(ifa)->sns_addr); - if (ns_nullhost(*ina)) - ina->x_host = - *(union ns_host *)(ds->ds_addr); - else -???? - ns8390seteh(ina->x_host.c_host, - ns8390_softc[ifp->if_unit].base); - break; - } -#endif - } - break; - case SIOCSIFFLAGS: - if (ifp->if_flags & IFF_ALLMULTI) - mode |= MOD_ENAL; - if (ifp->if_flags & IFF_PROMISC) - mode |= MOD_PROM; - /* - * force a complete reset if the receive multicast/ - * promiscuous mode changes so that these take - * effect immediately. - * - */ - if (is->mode != mode) { - is->mode = mode; - if (is->flags & DSF_RUNNING) { - is->flags &= - ~(DSF_LOCK|DSF_RUNNING); - ns8390init(ifp->if_unit); - } - } - if ((ifp->if_flags & IFF_UP) == 0 && - is->flags & DSF_RUNNING) { - printf("%s%d ioctl(): turning off board %d\n", - is->card, ifp->if_unit); - is->flags &= ~(DSF_LOCK | DSF_RUNNING); - is->timer = -1; - ns8390intoff(ifp->if_unit); - ns8390over_write(ifp->if_unit); - } else - if (ifp->if_flags & IFF_UP && - (is->flags & DSF_RUNNING) == 0) - ns8390init(ifp->if_unit); - break; -#ifdef IF_CNTRS - case SIOCCIFCNTRS: - if (!suser()) { - error = EPERM; - break; - } - bzero((caddr_t)ns_ein, sizeof (ns_ein)); - bzero((caddr_t)ns_eout, sizeof (ns_eout)); - bzero((caddr_t)ns_lin, sizeof (ns_lin)); - bzero((caddr_t)ns_lout, sizeof (ns_lout)); - bzero((caddr_t)&ns_arp, sizeof (int)); - bzero((caddr_t)&ns8390_cntrs, sizeof (ns8390_cntrs)); - break; -#endif IF_CNTRS - default: - error = EINVAL; - } - splx(opri); - return (error); -} -#endif MACH_KERNEL - -/* - * ns8390hwrst: - * - * This routine resets the ns8390 board that corresponds to the - * board number passed in. - * - * input : board number to do a hardware reset - * output : board is reset - * - */ - -int -ns8390hwrst(unit) -int unit; -{ - caddr_t nic = ns8390_softc[unit].nic; - int count; - u_char stat; - spl_t spl = SPLNET(); - - if (ns8390_softc[unit].card == wd8003_card && - config_wd8003(unit) == FALSE) { - printf("%s%d hwrst(): config_wd8003 failed.\n", - ns8390_softc[unit].card, unit); - splx(spl); - return(FALSE); - } - if (ns8390_softc[unit].card == elii_card && - config_3c503(unit) == FALSE) { - printf("%s%d hwrst(): config_3c503 failed.\n", - ns8390_softc[unit].card, unit); - splx(spl); - return(FALSE); - } - if (config_nic(unit) == FALSE) { - printf("%s%d hwrst(): config_nic failed.\n", - ns8390_softc[unit].card, unit); - splx(spl); - return(FALSE); - } - splx(spl); - return(TRUE); -} - -/* - * ns8390intr: - * - * This function is the interrupt handler for the ns8390 ethernet - * board. This routine will be called whenever either a packet - * is received, or a packet has successfully been transfered and - * the unit is ready to transmit another packet. - * - * input : board number that interrupted - * output : either a packet is received, or a packet is transfered - * - */ -int -ns8390intr(unit) -{ - int opri, i; - int isr_status; - int temp_cr; - caddr_t nic = ns8390_softc[unit].nic; - - temp_cr = inb(nic+ds_cmd); - outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0); - outb(nic+ds0_imr, 0); /* stop board interrupts */ - outb(nic+ds_cmd, temp_cr); - while (isr_status = inb(nic+ds0_isr)) { - outb(nic+ds0_isr, isr_status); /* clear interrupt status */ - - if ((isr_status & (DSIS_ROVRN|DSIS_RXE)) == DSIS_RXE) { - int rsr = inb(nic+ds0_rsr); - if (rsr & DSRS_DFR) ns8390_cntrs[unit].jabber++; - if (rsr & ~(DSRS_DFR|DSRS_PHY|DSRS_FAE|DSRS_CRC|DSIS_RX)) - printf("%s%d intr(): isr = %x, RSR = %x\n", - ns8390_softc[unit].card, unit, - isr_status, rsr); - } else if (isr_status & DSIS_ROVRN) { - ns8390_cntrs[unit].ovw++; - ns8390over_write(unit); - } - if (isr_status & DSIS_RX) { /* DFR & PRX is possible */ - ns8390rcv(unit); - -#if MACH_TTD - if (kttd_active) - ttd_poll_loop = FALSE; -#endif /* MACH_TTD */ - } - - if (isr_status & DSIS_TXE) { - int tsr = inb(nic+ds0_tsr); - tsr &= ~0x2; /* unadvertised special */ -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { - if (tsr == (DSTS_CDH|DSTS_ABT)) - ns8390_cntrs[unit].heart++; - else - printf("%s%d intr(): isr = %x, TSR = %x\n", - ns8390_softc[unit].card, unit, - isr_status, tsr); - ns8390_softc[unit].tbusy = 0; - ns8390start(unit); - } - } else if (isr_status & DSIS_TX) { -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { - ns8390_cntrs[unit].xmti++; - ns8390_softc[unit].tbusy = 0; - ns8390start(unit); - } - } - - if (isr_status & DSIS_CTRS) { - int c0 = inb(nic+ds0_cntr0); - int c1 = inb(nic+ds0_cntr1); - int c2 = inb(nic+ds0_cntr2); - ns8390_cntrs[unit].frame += c0; - ns8390_cntrs[unit].crc += c1; - ns8390_cntrs[unit].miss += c2; -#ifdef COUNTERS - printf("%s%d intr(): isr = %x, FRAME %x, CRC %x, MISS %x\n", - ns8390_softc[unit].card, unit, - isr_status, c0, c1, c2); - printf("%s%d intr(): TOTAL , FRAME %x, CRC %x, MISS %x\n", - ns8390_softc[unit].card, unit, - ns8390_cntrs[unit].frame, - ns8390_cntrs[unit].crc, - ns8390_cntrs[unit].miss); -#endif COUNTERS - outb(nic+ds0_isr, isr_status); /* clear interrupt status again */ - } - } - temp_cr=inb(nic+ds_cmd); - outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0); - outb(nic+ds0_imr, imr_hold); - outb(nic+ds_cmd, temp_cr); - return(0); -} - -/* - * Called if on board buffer has been completely filled by ns8390intr. It stops - * the board, reads in all the buffers that are currently in the buffer, and - * then restart board. - */ -ns8390over_write(unit) -int unit; -{ - caddr_t nic = ns8390_softc[unit].nic; - int no; - int count = 0; - - outb(nic+ds_cmd, DSCM_NODMA|DSCM_STOP|DSCM_PG0); /* clear the receive buffer */ - outb(nic+ds0_rbcr0, 0); - outb(nic+ds0_rbcr1, 0); - while ((!(inb (nic + ds0_isr) & DSIS_RESET)) && (count < 10000)) - count++; - if (count == 10000) { - printf("%s%d: over_write(): would not reset.\n", - ns8390_softc[unit].card, unit); - } - no = ns8390rcv(unit); -#ifdef OVWBUG - printf("%s%d over_write(): ns8390 OVW ... %d.\n", - ns8390_softc[unit].card, unit, no); -#endif OVWBUG - outb(nic+ds0_tcr, DSTC_LB0); /* External loopback mode */ - outb(nic+ds_cmd, DSCM_NODMA|DSCM_START|DSCM_PG0); - outb(nic+ds0_tcr, 0); - return; -} - -/* - * ns8390rcv: - * - * This routine is called by the interrupt handler to initiate a - * packet transfer from the board to the "if" layer above this - * driver. This routine checks if a buffer has been successfully - * received by the ns8390. If so, it does the actual transfer of the - * board data (including the ethernet header) into a packet (consisting - * of an mbuf chain) and enqueues it to a higher level. - * Then check again whether there are any packets in the receive ring, - * if so, read the next packet, until there are no more. - * - * input : number of the board to check - * output : if a packet is available, it is "sent up" - */ -ns8390rcv(unit) -int unit; -{ - register ns8390_softc_t *is = &ns8390_softc[unit]; - register struct ifnet *ifp = &is->ds_if; - caddr_t nic = is->nic; - int packets = 0; - struct ether_header eh; - u_short mlen, len, bytes_in_mbuf, bytes; - u_short remaining; - int temp_cr; - u_char *mb_p; - int board_id = is->board_id; - vm_offset_t hdwbase = ns8390info[unit]->address; - spl_t s; - - /* calculation of pkt size */ - int nic_overcount; /* NIC says 1 or 2 more than we need */ - int pkt_size; /* calculated size of received data */ - int wrap_size; /* size of data before wrapping it */ - int header_nxtpkt_ptr; /* NIC's next pkt ptr in rcv header */ - int low_byte_count; /* low byte count of read from rcv header */ - int high_byte_count; /* calculated high byte count */ - - - volatile char *sram_nxtpkt_ptr; /* mem location of next packet */ - volatile char *sram_getdata_ptr; /* next location to be read */ -#ifdef MACH_KERNEL - ipc_kmsg_t new_kmsg; - struct ether_header *ehp; - struct packet_header *pkt; -#else MACH_KERNEL - struct mbuf *m, *tm; /* initial allocation of mem; temp */ -#endif MACH_KERNEL - - -#if MACH_TTD - if (((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) && - !kttd_active) { -#else - if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) { -#endif /* MACH_TTD */ - temp_cr = inb(nic+ds_cmd); /* get current CR value */ - outb(nic+ds_cmd,((temp_cr & 0x3F)|DSCM_PG0|DSCM_STOP)); - outb(nic+ds0_imr, 0); /* Interrupt Mask Register */ - outb(nic+ds_cmd, temp_cr); - return -1; - } - - while(is->read_nxtpkt_ptr != ns8390get_CURR(unit)) { - - /* while there is a packet to read from the buffer */ - - if ((is->read_nxtpkt_ptr < is->pstart) || - (is->read_nxtpkt_ptr >= is->pstop)) { - ns8390hwrst(unit); - return -1; - } /* if next packet pointer is out of receive ring bounds */ - -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { - packets++; - ns8390_cntrs[unit].rcv++; - } - - sram_nxtpkt_ptr = (char *) (is->sram + (is->read_nxtpkt_ptr << 8)); - - /* get packet size and location of next packet */ - header_nxtpkt_ptr = *(sram_nxtpkt_ptr + 1); - header_nxtpkt_ptr &= 0xFF; - low_byte_count = *(sram_nxtpkt_ptr + 2); - low_byte_count &= 0xFF; - - if ((low_byte_count + NIC_HEADER_SIZE) > NIC_PAGE_SIZE) - nic_overcount = 2; - else - nic_overcount = 1; - if (header_nxtpkt_ptr > is->read_nxtpkt_ptr) { - wrap_size = 0; - high_byte_count = header_nxtpkt_ptr - is->read_nxtpkt_ptr - - nic_overcount; - } else { - wrap_size = (int) (is->pstop - is->read_nxtpkt_ptr - nic_overcount); - high_byte_count = is->pstop - is->read_nxtpkt_ptr + - header_nxtpkt_ptr - is->pstart - nic_overcount; - } - pkt_size = (high_byte_count << 8) | (low_byte_count & 0xFF); - /* does not seem to include NIC_HEADER_SIZE */ - if (!pkt_size) { - printf("%s%d rcv(): zero length.\n", - ns8390_softc[unit].card, unit); - goto next_pkt; - } - len = pkt_size; - - sram_getdata_ptr = sram_nxtpkt_ptr + NIC_HEADER_SIZE; - if (board_id & IFWD_SLOT_16BIT) { -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { s = splhi(); } - - en_16bit_access(hdwbase, board_id); - bcopy16 (sram_getdata_ptr, - &eh, - sizeof(struct ether_header)); - dis_16bit_access (hdwbase, board_id); -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { splx(s); } - - } else { - bcopy16 (sram_getdata_ptr, - &eh, - sizeof(struct ether_header)); - } - sram_getdata_ptr += sizeof(struct ether_header); - len -= (sizeof(struct ether_header) + 4); /* crc size */ -#ifdef MACH_KERNEL -#if MACH_TTD - if (kttd_active) { - new_kmsg = (ipc_kmsg_t)ttd_request_msg; - }else -#endif /* MACH_TTD */ - { - new_kmsg = net_kmsg_get(); - if (new_kmsg == IKM_NULL) { - /* - * Drop the packet. - */ - is->ds_if.if_rcvdrops++; - /* - * not only do we want to return, we need to drop - * the packet on the floor to clear the interrupt. - */ - ns8390lost_frame(unit); - return;/* packets;*/ - } - } - -#if DEBUG_TTD - dump_ether_header("ns8390wire",&eh); -#endif /* DEBUG_TTD */ - - ehp = (struct ether_header *) (&net_kmsg(new_kmsg)->header[0]); - pkt = (struct packet_header *) (&net_kmsg(new_kmsg)->packet[0]); - -#if DEBUG_TTD - printf("!ehp = 0x%x, pkt = 0x%x!",ehp, pkt); -#endif /* DEBUG_TTD */ - - *ehp = eh; - if (len > - (wrap_size = (is->sram + (is->pstop << 8) - sram_getdata_ptr))) { - /* if needs to wrap */ - if (board_id & IFWD_SLOT_16BIT) { -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { s = splhi(); } - - en_16bit_access(hdwbase, board_id); - bcopy16 (sram_getdata_ptr, (char *) (pkt + 1), - wrap_size); - dis_16bit_access (hdwbase, board_id); -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { splx(s); } - } else { - bcopy (sram_getdata_ptr, (char *) (pkt + 1), - wrap_size); - } - sram_getdata_ptr = (volatile char *) - (is->sram + (is->pstart << 8)); - } else { /* normal getting data from buffer */ - wrap_size = 0; - } - if (board_id & IFWD_SLOT_16BIT) { -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { s = splhi(); } - en_16bit_access(hdwbase, board_id); - bcopy16 (sram_getdata_ptr, - (char *) (pkt + 1) + wrap_size, - len - wrap_size); - dis_16bit_access (hdwbase, board_id); -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { splx(s); } - } else { - bcopy (sram_getdata_ptr, - (char *) (pkt + 1) + wrap_size, - len - wrap_size); - } - - pkt->type = ehp->ether_type; - pkt->length = len + sizeof(struct packet_header); - -#if MACH_TTD - /* - * Don't want to call net_packet if we are polling - * for a packet. - */ - if (!kttd_active) -#endif /* MACH_TTD */ - { - /* - * Hand the packet to the network module. - */ - net_packet(ifp, new_kmsg, pkt->length, - ethernet_priority(new_kmsg)); - } - -#else MACH_KERNEL -#define NEW -#ifdef NEW - m = (struct mbuf *) 0; - eh.ether_type = ntohs(eh.ether_type); - MGET(m, M_DONTWAIT, MT_DATA); - if (m == (struct mbuf *) 0) { - printf("%s%d rcv(): Lost frame\n", - ns8390_softc[unit].card, unit); - ns8390lost_frame(unit); /* update NIC pointers and registers */ - return packets; - } - m->m_next = (struct mbuf *) 0; - tm = m; - m->m_len = MLEN; - if (len > 2 * MLEN - sizeof (struct ifnet **)) { - MCLGET(m); - } - *(mtod(tm, struct ifnet **)) = ifp; - mlen = sizeof (struct ifnet **); - bytes_in_mbuf = m->m_len - sizeof(struct ifnet **); - mb_p = mtod(tm, u_char *) + sizeof (struct ifnet **); - bytes = min(bytes_in_mbuf, len); - remaining = (int) (is->sram + (is->pstop << 8) - - sram_getdata_ptr); - bytes = min(bytes, remaining); - do { - if (board_id & IFWD_SLOT_16BIT) { - s = splhi(); - en_16bit_access(hdwbase, board_id); - bcopy16 (sram_getdata_ptr, mb_p, bytes); - dis_16bit_access (hdwbase, board_id); - splx(s); - } else { - bcopy16 (sram_getdata_ptr, mb_p, bytes); - } - - mlen += bytes; - - if (!(bytes_in_mbuf -= bytes)) { - MGET(tm->m_next, M_DONTWAIT, MT_DATA); - tm = tm->m_next; - if (tm == (struct mbuf *)0) { - printf("%s%d rcv(): No mbufs, lost frame\n", - ns8390_softc[unit].card, unit); - m_freem(m); /* free the mbuf chain */ - ns8390lost_frame(unit); /* update NIC pointers and registers */ - return; - } - mlen = 0; - tm->m_len = MLEN; - bytes_in_mbuf = MLEN; - mb_p = mtod(tm, u_char *); - } else - mb_p += bytes; - - if (!(len -= bytes)) { - tm->m_len = mlen; - break; - } else if (bytes == remaining) { - sram_getdata_ptr = (volatile char *) (is->sram + - (is->pstart << 8)); - bytes = len; - remaining = ETHERMTU; - } else { - sram_getdata_ptr += bytes; - remaining -= bytes; - } - - bytes = min(bytes_in_mbuf, len); - bytes = min(bytes, remaining); - } while(1); -#else NEW - m = (struct mbuf *) 0; - eh.ether_type = ntohs(eh.ether_type); - - while ( len ) { - if (m == (struct mbuf *) 0) { - m = m_get(M_DONTWAIT, MT_DATA); - if (m == (struct mbuf *) 0) { - printf("%s%d rcv(): Lost frame\n", - ns8390_softc[unit].card, unit); - ns8390lost_frame(unit); /* update NIC pointers and registers */ - return packets; - } - tm = m; - tm->m_off = MMINOFF; - - - /* - * first mbuf in the packet must contain a pointer to the - * ifnet structure. other mbufs that follow and make up - * the packet do not need this pointer in the mbuf. - * - */ - - *(mtod(tm, struct ifnet **)) = ifp; - tm->m_len = sizeof(struct ifnet **); - - /* end of first buffer of packet */ - } else { - tm->m_next = m_get(M_DONTWAIT, MT_DATA); - tm = tm->m_next; - if (tm == (struct mbuf *) 0) { - printf("%s%d rcv(): No mbufs, lost frame\n", - ns8390_softc[unit].card, unit); - m_freem(m); /* free the mbuf chain */ - ns8390lost_frame(unit); /* update NIC pointers and registers */ - return packets; - } - tm->m_off = MMINOFF; - tm->m_len = 0; - } - - tlen = MIN( MLEN - tm->m_len, len); - /* size of mbuf so you know how much you can copy from board */ - tm->m_next = (struct mbuf *) 0; - if (sram_getdata_ptr + tlen >= - (volatile char *) (is->sram + (is->pstop << 8))) { - /* if needs to wrap */ - wrap_size = (int) (is->sram + (is->pstop << 8) - - sram_getdata_ptr); - if (board_id & IFWD_SLOT_16BIT) { - s = splhi(); - en_16bit_access(hdwbase, board_id); - bcopy16 (sram_getdata_ptr, - mtod(tm, char*) + tm->m_len, - wrap_size); - dis_16bit_access (hdwbase, board_id); - splx(s); - } else { - bcopy16 (sram_getdata_ptr, - mtod(tm, char*) + tm->m_len, - wrap_size); - } - tm->m_len += wrap_size; - len -= wrap_size; - - sram_getdata_ptr = (volatile char *) (is->sram + - (is->pstart << 8)); - } else { /* normal getting data from buffer */ - if (board_id & IFWD_SLOT_16BIT) { - s = splhi(); - en_16bit_access(hdwbase, board_id); - bcopy16 (sram_getdata_ptr, - mtod(tm, char*) + tm->m_len, - tlen); - dis_16bit_access (hdwbase, board_id); - splx(s); - } else { - bcopy16 (sram_getdata_ptr, - mtod(tm, char*) + tm->m_len, - tlen); - } - sram_getdata_ptr += tlen; - tm->m_len += tlen; - len -= tlen; - - } - } - -#endif NEW - if (!ns8390send_packet_up(m, &eh, is)) - m_freem(m); -#ifdef IF_CNTRS - ns_ein[log_2(pkt_size)]++; - if (pkt_size < 128) ns_lin[(pkt_size)>>3]++; - - if (eh.ether_type == ETHERTYPE_ARP) { - ns_arp++; - if (ns_narp) { - ns_ein[log_2(pkt_size)]--; - if (pkt_size < 128) ns_lin[(pkt_size)>>3]--; - } - } -#endif IF_CNTRS -#endif MACH_KERNEL - -next_pkt: - is->read_nxtpkt_ptr = *(sram_nxtpkt_ptr + 1); - is->read_nxtpkt_ptr &= 0xFF; - -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { - temp_cr = inb(nic+ds_cmd); - outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0); - } - - if (is->read_nxtpkt_ptr == ns8390get_CURR(unit)) - if (is->read_nxtpkt_ptr == is->pstart) - outb(nic+ds0_bndy, is->pstop - 1); - else - outb(nic+ds0_bndy, is->read_nxtpkt_ptr - 1); - else - outb(nic+ds0_bndy, is->read_nxtpkt_ptr); - -#if MACH_TTD - if (!kttd_active) -#endif /* MACH_TTD */ - { outb(nic+ds_cmd, temp_cr); } - -#if MACH_TTD - /* - * Hand the packet back to the TTD server, if active. - */ - if (kttd_active && pkt_size) - return 1; -#endif /* MACH_TTD */ - - - } - return packets; - -} - -#ifdef MACH_KERNEL -#if MACH_TTD -/* - * Polling routines for the TTD debugger. - */ -int ns8390poll_receive(unit) - int unit; -{ - int s; - int orig_cr; - int orig_imr; - int isr_status; - int pkts; - - ttd_poll_loop = TRUE; - - - /* - * Should already in at splhigh. Is this necessary? XXX - */ - s = splhigh(); - -#if 0 - if (kttd_debug) - printf("ns8390poll_receive: beginning polling loop\n"); -#endif /* DEBUG_TTD */ - - /* - * Loop until packet arrives. - */ - while(ttd_poll_loop) { - - /* - * Call intr routine - */ - - ns8390intr(unit); - } - -#if 0 - if (kttd_debug) - printf("ns8390poll_receive: got packet exiting loop\n"); -#endif /* DEBUG_TTD */ - - splx(s); -} - -int ns8390transmit_ttd(unit, packet, len) - int unit; - char * packet; - int len; -{ - ns8390_softc_t *is = &ns8390_softc[unit]; - caddr_t nic = is->nic; - u_short count = 0; /* amount of data already copied */ - volatile char *sram_write_pkt; - int board_id = is->board_id; - caddr_t hdwbase = ns8390info[unit]->address; - int s; - int orig_cr; - int orig_imr; - int isr_status; - boolean_t loop = TRUE; - -#if 0 - dump_ipudpbootp("Beg of xmit",packet); -#endif - - s = splhigh(); - - /* begining of physical address of transmition buffer */ - - sram_write_pkt = is->sram + is->tpsr * 0x100; - - count = len; - if (board_id & IFWD_SLOT_16BIT) { - en_16bit_access(hdwbase, board_id); - bcopy16 (packet, sram_write_pkt, count); - dis_16bit_access (hdwbase, board_id); - } else { - bcopy (packet, sram_write_pkt, count); - } - - while (count < ETHERMIN+sizeof(struct ether_header)) { - *(sram_write_pkt + count) = 0; - count++; - } - outb(nic+ds_cmd, DSCM_NODMA|DSCM_START|DSCM_PG0); /* select page 0 */ - outb(nic+ds0_tpsr, is->tpsr); /* xmt page start at 0 of RAM */ - outb(nic+ds0_tbcr1, count >> 8); /* upper byte of count */ - outb(nic+ds0_tbcr0, count & 0xFF); /* lower byte of count */ - outb(nic+ds_cmd, DSCM_TRANS|DSCM_NODMA|DSCM_START); /* start transmission */ - - ns8390intr(unit); - - splx(s); -} -#endif /* MACH_TTD */ -#endif /* MACH_KERNEL */ - -#ifdef MACH_KERNEL -#else MACH_KERNEL -/* - * Send a packet composed of an mbuf chain to the higher levels - * - */ -ns8390send_packet_up(m, eh, is) -struct mbuf *m; -struct ether_header *eh; -ns8390_softc_t *is; -{ - register struct ifqueue *inq; - spl_t opri; - - switch (eh->ether_type) { -#ifdef INET - case ETHERTYPE_IP: - schednetisr(NETISR_IP); - inq = &ipintrq; - break; - case ETHERTYPE_ARP: - arpinput(&is->ns8390_ac, m); - return(TRUE); -#endif -#ifdef NS - case ETHERTYPE_NS: - schednetisr(NETISR_NS); - inq = &nsintrq; - break; -#endif - default: - return(FALSE); - } - opri = SPLNET(); - if (IF_QFULL(inq)) { - IF_DROP(inq); - splx(opri); - return(FALSE); - } - IF_ENQUEUE(inq, m); - splx(opri); - return(TRUE); -} -#endif MACH_KERNEL - -/* - * ns8390lost_frame: - * this routine called by ns8390read after memory for mbufs could not be - * allocated. It sets the boundary pointers and registers to the next - * packet location. - */ - -ns8390lost_frame(unit) -int unit; -{ - ns8390_softc_t *is = &ns8390_softc[unit]; - caddr_t nic = is->nic; - volatile char *sram_nxtpkt_ptr; - int temp_cr; - - - - sram_nxtpkt_ptr = (volatile char *) (is->sram + - (is->read_nxtpkt_ptr << 8)); - - is->read_nxtpkt_ptr = *(sram_nxtpkt_ptr + 1); - is->read_nxtpkt_ptr &= 0xFF; - - temp_cr = inb(nic+ds_cmd); - outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0); - - /* update boundary register */ - if (is->read_nxtpkt_ptr == ns8390get_CURR(unit)) - if (is->read_nxtpkt_ptr == is->pstart) - outb(nic+ds0_bndy, is->pstop - 1); - else - outb(nic+ds0_bndy, is->read_nxtpkt_ptr - 1); - else - outb(nic+ds0_bndy, is->read_nxtpkt_ptr); - - outb(nic+ds_cmd, temp_cr); - - return; -} - -/* - * ns8390get_CURR(): - * - * Returns the value of the register CURR, which points to the next - * available space for NIC to receive from network unto receive ring. - * - */ - -int -ns8390get_CURR(unit) -int unit; -{ - caddr_t nic = ns8390_softc[unit].nic; - int temp_cr; - int ret_val; - spl_t s; - - s = SPLNET(); - - temp_cr = inb(nic+ds_cmd); /* get current CR value */ - outb(nic+ds_cmd, ((temp_cr & 0x3F) | DSCM_PG1)); /* select page 1 registers */ - ret_val = inb(nic+ds1_curr); /* read CURR value */ - outb(nic+ds_cmd, temp_cr); - splx(s); - return (ret_val & 0xFF); -} - -/* - * ns8390xmt: - * - * This routine fills in the appropriate registers and memory - * locations on the ns8390 board and starts the board off on - * the transmit. - * - * input : board number of interest, and a pointer to the mbuf - * output : board memory and registers are set for xfer and attention - * - */ - -ns8390xmt(unit, m) -int unit; -#ifdef MACH_KERNEL -io_req_t m; -#else MACH_KERNEL -struct mbuf *m; -#endif MACH_KERNEL -{ - ns8390_softc_t *is = &ns8390_softc[unit]; - caddr_t nic = is->nic; - struct ether_header *eh; - int i; - int opri; - u_short count = 0; /* amount of data already copied */ - volatile char *sram_write_pkt; - int board_id = is->board_id; - vm_offset_t hdwbase = ns8390info[unit]->address; - spl_t s; - -#ifdef MACH_KERNEL -#else MACH_KERNEL - register struct mbuf *tm_p; -#endif MACH_KERNEL - /* begining of physical address of transmition buffer */ - - sram_write_pkt = is->sram + is->tpsr * 0x100; - -#ifdef MACH_KERNEL - count = m->io_count; - if (board_id & IFWD_SLOT_16BIT) { - s = splhi(); - en_16bit_access(hdwbase, board_id); - bcopy16 (m->io_data, sram_write_pkt, count); - dis_16bit_access (hdwbase, board_id); - splx(s); - } else { - bcopy (m->io_data, sram_write_pkt, count); - } -#else MACH_KERNEL - for(tm_p = m; tm_p != (struct mbuf *)0; tm_p = tm_p->m_next) { - if (count + tm_p->m_len > ETHERMTU + sizeof (struct ether_header)) - break; - if (tm_p->m_len == 0) - continue; - if (board_id & IFWD_SLOT_16BIT) { - s = splhi(); - en_16bit_access(hdwbase, board_id); - bcopy16 (mtod(tm_p, caddr_t), - sram_write_pkt + count, - tm_p->m_len); - dis_16bit_access (hdwbase, board_id); - splx(s); - } else { - bcopy16 (mtod(tm_p, caddr_t), - sram_write_pkt + count, - tm_p->m_len); - } - count += tm_p->m_len; - } -#ifdef IF_CNTRS - ns_eout[log_2(count+4/*crc*/)]++; - if (count < 128) ns_lout[(count+4/*crc*/)>>3]++; -#endif IF_CNTRS -#endif MACH_KERNEL - while (count < ETHERMIN+sizeof(struct ether_header)) { - *(sram_write_pkt + count) = 0; - count++; - } - - /* select page 0 */ - outb(nic+ds_cmd, DSCM_NODMA|DSCM_START|DSCM_PG0); - outb(nic+ds0_tpsr, is->tpsr); /* xmt page start at 0 of RAM */ - outb(nic+ds0_tbcr1, count >> 8); /* upper byte of count */ - outb(nic+ds0_tbcr0, count & 0xFF); /* lower byte of count */ - /* start transmission */ - outb(nic+ds_cmd, DSCM_TRANS|DSCM_NODMA|DSCM_START); - -#ifdef MACH_KERNEL - iodone(m); - m=0; -#else MACH_KERNEL - /* If this is a broadcast packet, loop it back to rcv. */ - eh = mtod( m, struct ether_header *); - for (i=0; ((i < 6) && (eh->ether_dhost[i] == 0xff)); i++) ; - if (i == 6) { - if (!ns8390send_packet_up(m, eh, is)) - m_freem(m); - } else - m_freem(m); -#endif MACH_KERNEL - return; -} - -config_nic(unit) -int unit; -{ - ns8390_softc_t *is = &ns8390_softc[unit]; - caddr_t nic = is->nic; - int i; - int temp; - int count = 0; - spl_t s; - - /* soft reset and page 0 */ - outb (nic+ds_cmd, DSCM_PG0|DSCM_NODMA|DSCM_STOP); - - while ((!(inb (nic + ds0_isr) & DSIS_RESET)) && (count < 10000)) - count++; - if (count == 10000) { - printf("%s%d: config_nic(): would not reset.\n", - ns8390_softc[unit].card, unit); - } - - /* fifo depth | not loopback */ - temp = ((is->fifo_depth & 0x0c) << 3) | DSDC_BMS; - - /* word xfer select (16 bit cards ) */ - if (is->board_id & IFWD_SLOT_16BIT) - temp |= DSDC_WTS; - - outb (nic+ds0_dcr, temp); - outb (nic+ds0_tcr, 0); - outb (nic+ds0_rcr, DSRC_MON); /* receive configuration register */ - /* recieve ring starts 2k into RAM */ - outb (nic+ds0_pstart, is->pstart); - /* stop at last RAM buffer rcv location */ - outb (nic+ds0_pstop, is->pstop); - - /* boundary pointer for page 0 */ - outb (nic+ds0_bndy, is->pstart); - s = SPLNET(); - - /* maintain rst | sel page 1 */ - outb (nic+ds_cmd, DSCM_PG1|DSCM_NODMA|DSCM_STOP); - - /* internal next packet pointer */ - is->read_nxtpkt_ptr = is->pstart + 1; - - outb (nic+ds1_curr, is->read_nxtpkt_ptr); /* Current page register */ - for(i=0; iaddress[i]); - for(i=0; i<8; i++) - outb (nic+ds1_mar0+i, 0); - - outb (nic+ds_cmd, DSCM_PG0|DSCM_STOP|DSCM_NODMA); - splx(s); - outb (nic+ds0_isr, 0xff); /* clear all interrupt status bits */ - outb (nic+ds0_imr, imr_hold); /* Enable interrupts */ - outb (nic+ds0_rbcr0, 0); /* clear remote byte count */ - outb (nic+ds0_rbcr1, 0); - - /* start NIC | select page 0 */ - outb (nic+ds_cmd, DSCM_PG0|DSCM_START|DSCM_NODMA); - - outb (nic+ds0_rcr, DSRC_AB); /* receive configuration register */ - - return TRUE; -} - -/* - * config_ns8390: - * - * This routine does a standard config of a wd8003 family board, with - * the proper modifications to different boards within this family. - * - */ -config_wd8003(unit) -int unit; -{ - ns8390_softc_t *is = &ns8390_softc[unit]; - vm_offset_t hdwbase = ns8390info[unit]->address; - int i; - int RAMsize; - volatile char *RAMbase; - int addr_temp; - - is->tpsr = 0; /* transmit page start hold */ - is->pstart = 0x06; /* receive page start hold */ - is->read_nxtpkt_ptr = is->pstart + 1; /* internal next packet pointer */ - is->fifo_depth = 0x08; /* NIC fifo threshold */ - switch (is->board_id & IFWD_RAM_SIZE_MASK) { - case IFWD_RAM_SIZE_8K: - RAMsize = 0x2000; break; - case IFWD_RAM_SIZE_16K: - RAMsize = 0x4000; break; - case IFWD_RAM_SIZE_32K: - RAMsize = 0x8000; break; - case IFWD_RAM_SIZE_64K: - RAMsize = 0x10000; break; - default: - RAMsize = 0x2000; break; - } - is->pstop = (((int)RAMsize >> 8) & 0x0ff); /* rcv page stop hold */ - RAMbase = (volatile char *)ns8390info[unit]->phys_address; - addr_temp = ((int)(RAMbase) >> 13) & 0x3f; /* convert to be written to MSR */ - outb(hdwbase+IFWD_MSR, addr_temp | IFWD_MENB); /* initialize MSR */ - /* enable 16 bit access from lan controller */ - if (is->board_id & IFWD_SLOT_16BIT) { - if (is->board_id & IFWD_INTERFACE_CHIP) { - outb(hdwbase+IFWD_REG_5, - (inb(hdwbase + IFWD_REG_5) & IFWD_REG5_MEM_MASK) | - IFWD_LAN16ENB); - } else { - outb(hdwbase+IFWD_REG_5, (IFWD_LAN16ENB | IFWD_LA19)); - } - } - /* - outb(hdwbase+LAAR, LAN16ENB | LA19| MEM16ENB | SOFTINT); - */ - - return TRUE; -} - -/* - * config_ns8390: - * - * This routine does a standard config of a 3 com etherlink II board. - * - */ -int -config_3c503(unit) -int unit; -{ - ns8390_softc_t *is = &ns8390_softc[unit]; - struct bus_device *dev = ns8390info[unit]; - vm_offset_t hdwbase = dev->address; - int RAMsize = dev->am; - int i; - - is->tpsr = 0x20; /* transmit page start hold */ - is->sram = (char *)phystokv(dev->phys_address) - is->tpsr * 0x100; - /* When NIC says page 20, this means go to - the beginning of the sram range */ - is->pstart = 0x26; /* receive page start hold */ - is->read_nxtpkt_ptr = is->pstart + 1; /* internal next packet pointer */ - is->fifo_depth = 0x08; /* NIC fifo threshold */ - is->pstop = is->tpsr + ((RAMsize >> 8) & 0x0ff); /* rcv page stop hold */ - - outb(hdwbase+CTLR, CTLR_RST|CTLR_THIN); - outb(hdwbase+CTLR, CTLR_THIN); - outb(hdwbase+CTLR, CTLR_STA_ADDR|CTLR_THIN); - for (i = 0; i < 6; i++) - is->address[i] = inb(hdwbase+i); - outb(hdwbase+CTLR, elii_bnc[is->board_id]?CTLR_THIN:CTLR_THICK); - outb(hdwbase+PSTR, is->pstart); - outb(hdwbase+PSPR, is->pstop); - outb(hdwbase+IDCFR, IDCFR_IRQ2 << (elii_irq[is->board_id] - 2)); - outb(hdwbase+GACFR, GACFR_TCM|GACFR_8K); - /* BCFR & PCRFR ro */ - /* STREG ro & dma */ - outb(hdwbase+DQTR, 0); - outb(hdwbase+DAMSB, 0); - outb(hdwbase+DALSB, 0); - outb(hdwbase+VPTR2, 0); - outb(hdwbase+VPTR1, 0); - outb(hdwbase+VPTR0, 0); - outb(hdwbase+RFMSB, 0); - outb(hdwbase+RFLSB, 0); - return TRUE; -} - -/* - * ns8390intoff: - * - * This function turns interrupts off for the ns8390 board indicated. - * - */ -void -ns8390intoff(unit) -int unit; -{ - caddr_t nic = ns8390_softc[unit].nic; - int temp_cr = inb(nic+ds_cmd); /* get current CR value */ - - outb(nic+ds_cmd,((temp_cr & 0x3F)|DSCM_PG0|DSCM_STOP)); - outb(nic+ds0_imr, 0); /* Interrupt Mask Register */ - outb(nic+ds_cmd, temp_cr|DSCM_STOP); - -} - - -/* - * wd80xxget_board_id: - * - * determine which board is being used. - * Currently supports: - * wd8003E (tested) - * wd8003EBT - * wd8003EP (tested) - * wd8013EP (tested) - * - */ -wd80xxget_board_id(dev) -struct bus_device *dev; -{ - vm_offset_t hdwbase = dev->address; - long unit = dev->unit; - long board_id = 0; - int reg_temp; - int rev_num; /* revision number */ - int ram_flag; - int intr_temp; - int i; - boolean_t register_aliasing; - - rev_num = (inb(hdwbase + IFWD_BOARD_ID) & IFWD_BOARD_REV_MASK) >> 1; - printf("%s%d: ", ns8390_softc[unit].card, unit); - - if (rev_num == 0) { - printf("rev 0x00\n"); - /* It must be 8000 board */ - return 0; - } - - /* Check if register aliasing is true, that is reading from register - offsets 0-7 will return the contents of register offsets 8-f */ - - register_aliasing = TRUE; - for (i = 1; i < 5; i++) { - if (inb(hdwbase + IFWD_REG_0 + i) != - inb(hdwbase + IFWD_LAR_0 + i)) - register_aliasing = FALSE; - } - if (inb(hdwbase + IFWD_REG_7) != inb(hdwbase + IFWD_CHKSUM)) - register_aliasing = FALSE; - - - if (register_aliasing == FALSE) { - /* Check if board has interface chip */ - - reg_temp = inb(hdwbase + IFWD_REG_7); /* save old */ - outb(hdwbase + IFWD_REG_7, 0x35); /* write value */ - inb(hdwbase + IFWD_REG_0); /* dummy read */ - if ((inb(hdwbase + IFWD_REG_7) & 0xff) == 0x35) { - outb(hdwbase + IFWD_REG_7, 0x3a);/* Try another value*/ - inb(hdwbase + IFWD_REG_0); /* dummy read */ - if ((inb(hdwbase + IFWD_REG_7) & 0xff) == 0x3a) { - board_id |= IFWD_INTERFACE_CHIP; - outb(hdwbase + IFWD_REG_7, reg_temp); - /* restore old value */ - } - } - - /* Check if board is 16 bit by testing if bit zero in - register 1 is unchangeable by software. If so then - card has 16 bit capability */ - reg_temp = inb(hdwbase + IFWD_REG_1); - outb(hdwbase + IFWD_REG_1, reg_temp ^ IFWD_16BIT); - inb(hdwbase + IFWD_REG_0); /* dummy read */ - if ((inb(hdwbase + IFWD_REG_1) & IFWD_16BIT) == - (reg_temp & IFWD_16BIT)) { /* Is bit unchanged */ - board_id |= IFWD_BOARD_16BIT; /* Yes == 16 bit */ - reg_temp &= 0xfe; /* For 16 bit board - always reset bit 0 */ - } - outb(hdwbase + IFWD_REG_1, reg_temp); /* write value back */ - - /* Test if 16 bit card is in 16 bit slot by reading bit zero in - register 1. */ - if (board_id & IFWD_BOARD_16BIT) { - if (inb(hdwbase + IFWD_REG_1) & IFWD_16BIT) { - board_id |= IFWD_SLOT_16BIT; - } - } - } - - /* Get media type */ - - if (inb(hdwbase + IFWD_BOARD_ID) & IFWD_MEDIA_TYPE) { - board_id |= IFWD_ETHERNET_MEDIA; - } else if (rev_num == 1) { - board_id |= IFWD_STARLAN_MEDIA; - } else { - board_id |= IFWD_TWISTED_PAIR_MEDIA; - } - - if (rev_num == 2) { - if (inb(hdwbase + IFWD_BOARD_ID) & IFWD_SOFT_CONFIG) { - if ((board_id & IFWD_STATIC_ID_MASK) == WD8003EB || - (board_id & IFWD_STATIC_ID_MASK) == WD8003W) { - board_id |= IFWD_ALTERNATE_IRQ_BIT; - } - } - /* Check for memory size */ - - ram_flag = inb(hdwbase + IFWD_BOARD_ID) & IFWD_MEMSIZE; - - switch (board_id & IFWD_STATIC_ID_MASK) { - case WD8003E: /* same as WD8003EBT */ - case WD8003S: /* same as WD8003SH */ - case WD8003WT: - case WD8003W: - case WD8003EB: /* same as WD8003EP */ - if (ram_flag) - board_id |= IFWD_RAM_SIZE_32K; - else - board_id |= IFWD_RAM_SIZE_8K; - break; - case WD8003ETA: - case WD8003STA: - case WD8003EA: - case WD8003SHA: - case WD8003WA: - board_id |= IFWD_RAM_SIZE_16K; - break; - case WD8013EBT: - if (board_id & IFWD_SLOT_16BIT) { - if (ram_flag) - board_id |= IFWD_RAM_SIZE_64K; - else - board_id |= IFWD_RAM_SIZE_16K; - } else { - if (ram_flag) - board_id |= IFWD_RAM_SIZE_32K; - else - board_id |= IFWD_RAM_SIZE_8K; - } - break; - default: - board_id |= IFWD_RAM_SIZE_UNKNOWN; - break; - } - } else if (rev_num >= 3) { - board_id &= (long) ~IFWD_MEDIA_MASK; /* remove media info */ - board_id |= IFWD_INTERFACE_584_CHIP; - board_id |= wd80xxget_eeprom_info(hdwbase, board_id); - } else { - /* Check for memory size */ - if (board_id & IFWD_BOARD_16BIT) { - if (board_id & IFWD_SLOT_16BIT) - board_id |= IFWD_RAM_SIZE_16K; - else - board_id |= IFWD_RAM_SIZE_8K; - } else if (board_id & IFWD_MICROCHANNEL) - board_id |= IFWD_RAM_SIZE_16K; - else if (board_id & IFWD_INTERFACE_CHIP) { - if (inb(hdwbase + IFWD_REG_1) & IFWD_MEMSIZE) - board_id |= IFWD_RAM_SIZE_32K; - else - board_id |= IFWD_RAM_SIZE_8K; - } else - board_id |= IFWD_RAM_SIZE_UNKNOWN; - - /* No support for 690 chip yet. It should be checked here */ - } - - switch (board_id & IFWD_STATIC_ID_MASK) { - case WD8003E: printf("WD8003E or WD8003EBT"); break; - case WD8003S: printf("WD8003S or WD8003SH"); break; - case WD8003WT: printf("WD8003WT"); break; - case WD8003W: printf("WD8003W"); break; - case WD8003EB: - if (board_id & IFWD_INTERFACE_584_CHIP) - printf("WD8003EP"); - else - printf("WD8003EB"); - break; - case WD8003EW: printf("WD8003EW"); break; - case WD8003ETA: printf("WD8003ETA"); break; - case WD8003STA: printf("WD8003STA"); break; - case WD8003EA: printf("WD8003EA"); break; - case WD8003SHA: printf("WD8003SHA"); break; - case WD8003WA: printf("WD8003WA"); break; - case WD8013EBT: printf("WD8013EBT"); break; - case WD8013EB: - if (board_id & IFWD_INTERFACE_584_CHIP) - printf("WD8013EP"); - else - printf("WD8013EB"); - break; - case WD8013W: printf("WD8013W"); break; - case WD8013EW: printf("WD8013EW"); break; - default: printf("unknown"); break; - } - printf(" rev 0x%02x", rev_num); - switch(board_id & IFWD_RAM_SIZE_RES_7) { - case IFWD_RAM_SIZE_UNKNOWN: - break; - case IFWD_RAM_SIZE_8K: - printf(" 8 kB ram"); - break; - case IFWD_RAM_SIZE_16K: - printf(" 16 kB ram"); - break; - case IFWD_RAM_SIZE_32K: - printf(" 32 kB ram"); - break; - case IFWD_RAM_SIZE_64K: - printf(" 64 kB ram"); - break; - default: - printf("wd: Internal error ram size value invalid %d\n", - (board_id & IFWD_RAM_SIZE_RES_7)>>16); - } - - if (board_id & IFWD_BOARD_16BIT) { - if (board_id & IFWD_SLOT_16BIT) { - printf(", in 16 bit slot"); - } else { - printf(", 16 bit board in 8 bit slot"); - } - } - if (board_id & IFWD_INTERFACE_CHIP) { - if (board_id & IFWD_INTERFACE_584_CHIP) { - printf(", 584 chip"); - } else { - printf(", 583 chip"); - } - } - if ((board_id & IFWD_INTERFACE_CHIP) == IFWD_INTERFACE_CHIP) { - /* program the WD83C583 EEPROM registers */ - int irr_temp, icr_temp; - - icr_temp = inb(hdwbase + IFWD_ICR); - irr_temp = inb(hdwbase + IFWD_IRR); - - irr_temp &= ~(IFWD_IR0 | IFWD_IR1); - irr_temp |= IFWD_IEN; - - icr_temp &= IFWD_WTS; - - if (!(board_id & IFWD_INTERFACE_584_CHIP)) { - icr_temp |= IFWD_DMAE | IFWD_IOPE; - if (ram_flag) - icr_temp |= IFWD_MSZ; - } - - if (board_id & IFWD_INTERFACE_584_CHIP) { - switch(ns8390info[unit]->sysdep1) { - case 10: - icr_temp |= IFWD_DMAE; - break; - case 2: - case 9: /* Same as 2 */ - break; - case 11: - icr_temp |= IFWD_DMAE; - /*FALLTHROUGH*/ - case 3: - irr_temp |= IFWD_IR0; - break; - case 15: - icr_temp |= IFWD_DMAE; - /*FALLTHROUGH*/ - case 5: - irr_temp |= IFWD_IR1; - break; - case 4: - icr_temp |= IFWD_DMAE; - /*FALLTHROUGH*/ - case 7: - irr_temp |= IFWD_IR0 | IFWD_IR1; - break; - default: - printf("%s%d: wd80xx_get_board_id(): Could not set Interrupt Request Register according to pic(%d).\n", - ns8390_softc[unit].card, unit, - ns8390info[unit]->sysdep1); - break; - } - } else { - switch(ns8390info[unit]->sysdep1) { - /* attempt to set interrupt according to assigned pic */ - case 2: - case 9: /* Same as 2 */ - break; - case 3: - irr_temp |= IFWD_IR0; - break; - case 4: - irr_temp |= IFWD_IR1; - break; - case 5: - irr_temp |= IFWD_IR1 | IFWD_AINT; - break; - case 7: - irr_temp |= IFWD_IR0 | IFWD_IR1; - break; - default: - printf("%s%d: wd80xx_get_board_id(): Could not set Interrupt Request Register according to pic(%d).\n", - ns8390_softc[unit].card, unit, - ns8390info[unit]->sysdep1); - } - } - outb(hdwbase + IFWD_IRR, irr_temp); - outb(hdwbase + IFWD_ICR, icr_temp); - } - printf("\n"); - return (board_id); -} - -wd80xxget_eeprom_info(hdwbase, board_id) - caddr_t hdwbase; - long board_id; -{ - unsigned long new_bits = 0; - int reg_temp; - - outb(hdwbase + IFWD_REG_1, - ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) | IFWD_OTHER_BIT)); - outb(hdwbase + IFWD_REG_3, - ((inb(hdwbase + IFWD_REG_3) & IFWD_EAR_MASK) | IFWD_ENGR_PAGE)); - outb(hdwbase + IFWD_REG_1, - ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) | - (IFWD_RLA | IFWD_OTHER_BIT))); - while (inb(hdwbase + IFWD_REG_1) & IFWD_RECALL_DONE_MASK) - ; - - reg_temp = inb(hdwbase + IFWD_EEPROM_1); - switch (reg_temp & IFWD_EEPROM_BUS_TYPE_MASK) { - case IFWD_EEPROM_BUS_TYPE_AT: - if (wd_debug & 1) printf("wd: AT bus, "); - break; - case IFWD_EEPROM_BUS_TYPE_MCA: - if (wd_debug & 1) printf("wd: MICROCHANNEL, "); - new_bits |= IFWD_MICROCHANNEL; - break; - default: - break; - } - switch (reg_temp & IFWD_EEPROM_BUS_SIZE_MASK) { - case IFWD_EEPROM_BUS_SIZE_8BIT: - if (wd_debug & 1) printf("8 bit bus size, "); - break; - case IFWD_EEPROM_BUS_SIZE_16BIT: - if (wd_debug & 1) printf("16 bit bus size "); - new_bits |= IFWD_BOARD_16BIT; - if (inb(hdwbase + IFWD_REG_1) & IFWD_16BIT) { - new_bits |= IFWD_SLOT_16BIT; - if (wd_debug & 1) - printf("in 16 bit slot, "); - } else { - if (wd_debug & 1) - printf("in 8 bit slot (why?), "); - } - break; - default: - if (wd_debug & 1) printf("bus size other than 8 or 16 bit, "); - break; - } - reg_temp = inb(hdwbase + IFWD_EEPROM_0); - switch (reg_temp & IFWD_EEPROM_MEDIA_MASK) { - case IFWD_STARLAN_TYPE: - if (wd_debug & 1) printf("Starlan media, "); - new_bits |= IFWD_STARLAN_MEDIA; - break; - case IFWD_TP_TYPE: - if (wd_debug & 1) printf("Twisted pair media, "); - new_bits |= IFWD_TWISTED_PAIR_MEDIA; - break; - case IFWD_EW_TYPE: - if (wd_debug & 1) printf("Ethernet and twisted pair media, "); - new_bits |= IFWD_EW_MEDIA; - break; - case IFWD_ETHERNET_TYPE: /*FALLTHROUGH*/ - default: - if (wd_debug & 1) printf("ethernet media, "); - new_bits |= IFWD_ETHERNET_MEDIA; - break; - } - switch (reg_temp & IFWD_EEPROM_IRQ_MASK) { - case IFWD_ALTERNATE_IRQ_1: - if (wd_debug & 1) printf("Alternate irq 1\n"); - new_bits |= IFWD_ALTERNATE_IRQ_BIT; - break; - default: - if (wd_debug & 1) printf("\n"); - break; - } - switch (reg_temp & IFWD_EEPROM_RAM_SIZE_MASK) { - case IFWD_EEPROM_RAM_SIZE_8K: - new_bits |= IFWD_RAM_SIZE_8K; - break; - case IFWD_EEPROM_RAM_SIZE_16K: - if ((new_bits & IFWD_BOARD_16BIT) && (new_bits & IFWD_SLOT_16BIT)) - new_bits |= IFWD_RAM_SIZE_16K; - else - new_bits |= IFWD_RAM_SIZE_8K; - break; - case IFWD_EEPROM_RAM_SIZE_32K: - new_bits |= IFWD_RAM_SIZE_32K; - break; - case IFWD_EEPROM_RAM_SIZE_64K: - if ((new_bits & IFWD_BOARD_16BIT) && (new_bits & IFWD_SLOT_16BIT)) - new_bits |= IFWD_RAM_SIZE_64K; - else - new_bits |= IFWD_RAM_SIZE_32K; - break; - default: - new_bits |= IFWD_RAM_SIZE_UNKNOWN; - break; - } - outb(hdwbase + IFWD_REG_1, - ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) | IFWD_OTHER_BIT)); - outb(hdwbase + IFWD_REG_3, - ((inb(hdwbase + IFWD_REG_3) & IFWD_EAR_MASK) | IFWD_EA6)); - outb(hdwbase + IFWD_REG_1, - ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) | IFWD_RLA)); - return (new_bits); -} - -wdpr(unit) -{ - caddr_t nic = ns8390_softc[unit].nic; - spl_t s; - int temp_cr; - - s = SPLNET(); - temp_cr = inb(nic+ds_cmd); /* get current CR value */ - - printf("CR %x, BNDRY %x, TSR %x, NCR %x, FIFO %x, ISR %x, RSR %x\n", - inb(nic+0x0), inb(nic+0x3), inb(nic+0x4), inb(nic+0x5), - inb(nic+0x6), inb(nic+0x7), inb(nic+0xc)); - printf("CLD %x:%x, CRD %x:%x, FR %x, CRC %x, Miss %x\n", - inb(nic+0x1), inb(nic+0x2), - inb(nic+0x8), inb(nic+0x9), - inb(nic+0xd), inb(nic+0xe), inb(nic+0xf)); - - - outb(nic, (temp_cr&0x3f)|DSCM_PG1); /* page 1 CR value */ - printf("PHYS %x:%x:%x:%x:%x CUR %x\n", - inb(nic+0x1), inb(nic+0x2), inb(nic+0x3), - inb(nic+0x4), inb(nic+0x5), inb(nic+0x6), - inb(nic+0x7)); - printf("MAR %x:%x:%x:%x:%x:%x:%x:%x\n", - inb(nic+0x8), inb(nic+0x9), inb(nic+0xa), inb(nic+0xb), - inb(nic+0xc), inb(nic+0xd), inb(nic+0xe), inb(nic+0xf)); - outb(nic, temp_cr); /* restore current CR value */ - splx(s); -} - - -/* - This sets bit 7 (0 justified) of register offset 0x05. It will enable - the host to access shared RAM 16 bits at a time. It will also maintain - the LAN16BIT bit high in addition, this routine maintains address bit 19 - (previous cards assumed this bit high...we must do it manually) - - note 1: this is a write only register - note 2: this routine should be called only after interrupts are disabled - and they should remain disabled until after the routine 'dis_16bit_access' - is called -*/ - -en_16bit_access (hdwbase, board_id) - caddr_t hdwbase; - long board_id; -{ - if (board_id & IFWD_INTERFACE_CHIP) - outb(hdwbase+IFWD_REG_5, - (inb(hdwbase+IFWD_REG_5) & IFWD_REG5_MEM_MASK) - | IFWD_MEM16ENB | IFWD_LAN16ENB); - else - outb(hdwbase+IFWD_REG_5, (IFWD_MEM16ENB | IFWD_LAN16ENB | - IFWD_LA19)); -} - -/* - This resets bit 7 (0 justified) of register offset 0x05. It will disable - the host from accessing shared RAM 16 bits at a time. It will maintain the - LAN16BIT bit high in addition, this routine maintains address bit 19 - (previous cards assumed this bit high...we must do it manually) - - note: this is a write only register -*/ - -dis_16bit_access (hdwbase, board_id) - caddr_t hdwbase; - long board_id; -{ - if (board_id & IFWD_INTERFACE_CHIP) - outb(hdwbase+IFWD_REG_5, - ((inb(hdwbase+IFWD_REG_5) & IFWD_REG5_MEM_MASK) | - IFWD_LAN16ENB)); - else - outb(hdwbase+IFWD_REG_5, (IFWD_LAN16ENB | IFWD_LA19)); -} - -#endif diff --git a/i386/i386at/if_ns8390.h b/i386/i386at/if_ns8390.h deleted file mode 100644 index 9466c36..0000000 --- a/i386/i386at/if_ns8390.h +++ /dev/null @@ -1,203 +0,0 @@ -/* - * Mach Operating System - * Copyright (c) 1991,1990,1989 Carnegie Mellon University - * All Rights Reserved. - * - * Permission to use, copy, modify and distribute this software and its - * documentation is hereby granted, provided that both the copyright - * notice and this permission notice appear in all copies of the - * software, derivative works or modified versions, and any portions - * thereof, and that both notices appear in supporting documentation. - * - * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" - * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR - * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. - * - * Carnegie Mellon requests users of this software to return to - * - * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU - * School of Computer Science - * Carnegie Mellon University - * Pittsburgh PA 15213-3890 - * - * any improvements or extensions that they make and grant Carnegie Mellon - * the rights to redistribute these changes. - */ -/* - * Western Digital Mach Ethernet driver - * Copyright (c) 1990 OSF Research Institute - */ -/* - Copyright 1990 by Open Software Foundation, -Cambridge, MA. - - All Rights Reserved - - Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby granted, -provided that the above copyright notice appears in all copies and -that both the copyright notice and this permission notice appear in -supporting documentation, and that the name of OSF or Open Software -Foundation not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - - OSF DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, -IN NO EVENT SHALL OSF BE LIABLE FOR ANY SPECIAL, INDIRECT, OR -CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM -LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT, -NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION -WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. -*/ - -/********************************************/ -/* Defines for the NIC 8390 Lan Controller */ -/********************************************/ - - -/*-- page 0, rd --*/ -#define CR 0x00 /* Command Register */ -#define CLDA0 0x01 /* Current Local DMA Address 0 */ -#define CLDA1 0x02 /* Current Local DMA Address 1 */ -#define BNRY 0x03 /* Boundary Pointer */ -#define TSR 0x04 /* Transmit Status Register */ -#define NCR 0x05 /* Number of Collisions Register */ -#define FIFO 0x06 /* FIFO */ -#define ISR 0x07 /* Interrupt Status Register */ -#define CRDA0 0x08 /* Current Remote DMA Address 0 */ -#define CRDA1 0x09 /* Current Remote DMA Address 1 */ -/* 0x0A is reserved */ -/* 0x0B is reserved */ -#define RSR 0x0C /* Receive Status Register */ -#define CNTR0 0x0D /* Frame Alignment Errors */ -#define CNTR1 0x0E /* CRC Errors */ -#define CNTR2 0x0F /* Missed Packet Errors */ - -/*-- page 0, wr --*/ -/* CR 0x00 Command Register */ -#define PSTART 0x01 /* Page Start Register */ -#define PSTOP 0x02 /* Page Stop Register */ -#define BNDY 0x03 /* Boundary Pointer */ -#define TPSR 0x04 /* Transmit Page Start Register */ -#define TBCR0 0x05 /* Transmit Byte Count Register 0*/ -#define TBCR1 0x06 /* Transmit Byte Count Register 1*/ -/* ISR 0x07 Interrupt Status Register */ -#define RSAR0 0x08 /* Remote Start Address Register 0 */ -#define RSAR1 0x09 /* Remote Start Address Register 1 */ -#define RBCR0 0x0A /* Remote Byte Count Register 0 */ -#define RBCR1 0x0B /* Remote Byte Count Register 1 */ -#define RCR 0x0C /* Receive Configuration Register */ -#define TCR 0x0D /* Transmit Configuration Register */ -#define DCR 0x0E /* Data Configuration Register */ -#define IMR 0x0F /* Interrupt Mask Register */ - -/*-- page 1, rd and wr */ -/* CR 0x00 Control Register */ -#define PAR0 0x01 /* Physical Address Register 0 */ -#define PAR1 0x02 /* 1 */ -#define PAR2 0x03 /* 2 */ -#define PAR3 0x04 /* 3 */ -#define PAR4 0x05 /* 4 */ -#define PAR5 0x06 /* 5 */ -#define CURR 0x07 /* Current Page Register */ -#define MAR0 0x08 /* Multicast Address Register 0 */ -#define MAR1 0x09 /* 1 */ -#define MAR2 0x0A /* 2 */ -#define MAR3 0x0B /* 3 */ -#define MAR4 0x0C /* 4 */ -#define MAR5 0x0D /* 5 */ -#define MAR6 0x0E /* 6 */ -#define MAR7 0x0F /* 7 */ - -/*-- page 2, rd --*/ - -/*-- page 2, wr --*/ - -/*-- Command Register CR description */ -#define STP 0x01 /* stop; software reset */ -#define STA 0x02 /* start */ -#define TXP 0x04 /* transmit packet */ -#define RD0 0x08 -#define RD1 0x10 -#define RD2 0x20 -#define RRD 0x08 /* remote DMA command - remote read */ - -#define RWR 0x10 /* remote DMA command - remote write */ -#define SPK 0x18 /* remote DMA command - send packet */ -#define ABR 0x20 /* remote DMA command - abrt/cmplt remote DMA */ - -#define PS0 0x00 /* register page select - 0 */ -#define PS1 0x40 /* register page select - 1 */ -#define PS2 0x80 /* register page select - 2 */ - -#define PS0_STA 0x22 /* page select 0 with start bit maintained */ -#define PS1_STA 0x62 /* page select 1 with start bit maintained */ -#define PS2_STA 0x0A2 /* page select 2 with start bit maintained */ - -/*-- Interrupt Status Register ISR description */ -#define PRX 0x01 /* packet received no error */ -#define PTX 0x02 /* packet transmitted no error */ -#define RXE 0x04 /* receive error */ -#define TXE 0x08 /* transmit error */ -#define OVW 0x10 /* overwrite warning */ -#define CNT 0x20 /* counter overflow */ -#define RDC 0x40 /* remote DMA complete */ -#define RST 0x80 /* reset status */ - -/*-- Interrupt Mask Register IMR description */ -#define PRXE 0x01 /* packet received interrupt enable */ -#define PTXE 0x02 /* packet transmitted interrupt enable */ -#define RXEE 0x04 /* receive error interrupt enable */ -#define TXEE 0x08 /* transmit error interrupt enable */ -#define OVWE 0x10 /* overwrite warning interrupt enable */ -#define CNTE 0x20 /* counter overflow interrupt enable */ -#define RDCE 0x40 /* DMA complete interrupt enable */ - -/*-- Data Configuration Register DCR description */ -#define WTS 0x01 /* word transfer select */ -#define BOS 0x02 /* byte order select */ -#define LAS 0x04 /* long address select */ -#define BMS 0x08 /* burst DMA select */ -#define AINIT 0x10 /* autoinitialize remote */ - -#define FTB2 0x00 /* receive FIFO threshold select - 2 bytes */ -#define FTB4 0x20 /* receive FIFO threshold select - 4 bytes */ -#define FTB8 0x40 /* receive FIFO threshold select - 8 bytes */ -#define FTB12 0x60 /* receive FIFO threshold select - 12 bytes */ - -/*-- Transmit Configuration Register TCR description */ -#define MCRC 0x01 /* manual crc generation */ -#define LB1 0x02 /* mode 1; internal loopback LPBK=0 */ -#define LB2 0x04 /* mode 2; internal loopback LPBK=1 */ -#define LB3 0x06 /* mode 3; internal loopback LPBK=0 */ - -#define ATD 0x08 /* auto transmit disable */ -#define OFST 0x10 /* collision offset enable */ - -/*-- Transmit Status Register TSR description --*/ -#define XMT 0x01 /* packet transmitted without error */ -#define COL 0x04 /* transmit collided */ -#define ABT 0x08 /* transmit aborted */ -#define CRS 0x10 /* carrier sense lost - xmit not aborted */ -#define FU 0x20 /* FIFO underrun */ -#define CDH 0x40 /* CD heartbeat */ -#define OWC 0x80 /* out of window collision - xmit not aborted */ - -/*-- Receive Configuration Register RCR description --*/ -#define SEP 0x01 /* save error packets */ -#define AR 0x02 /* accept runt packet */ -#define AB 0x04 /* accept broadcast */ -#define AM 0x08 /* accept multicast */ -#define PRO 0x10 /* promiscuous physical */ -#define MON 0x20 /* monitor mode */ - -/*--Receive Status Register RSR description --*/ -#define RCV 0x01 /* packet received intact */ -#define CRC 0x02 /* CRC error */ -#define FAE 0x04 /* frame alignment error */ -#define FO 0x08 /* FIFO overrun */ -#define MPA 0x10 /* missed packet */ -#define PHY 0x20 /* physical/multicast address */ -#define DIS 0x40 /* receiver disable */ -#define DFR 0x80 /* deferring */ diff --git a/i386/i386at/if_wd8003.h b/i386/i386at/if_wd8003.h deleted file mode 100644 index 3fa35dd..0000000 --- a/i386/i386at/if_wd8003.h +++ /dev/null @@ -1,315 +0,0 @@ -/* - * Mach Operating System - * Copyright (c) 1991,1990,1989 Carnegie Mellon University - * All Rights Reserved. - * - * Permission to use, copy, modify and distribute this software and its - * documentation is hereby granted, provided that both the copyright - * notice and this permission notice appear in all copies of the - * software, derivative works or modified versions, and any portions - * thereof, and that both notices appear in supporting documentation. - * - * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" - * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR - * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. - * - * Carnegie Mellon requests users of this software to return to - * - * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU - * School of Computer Science - * Carnegie Mellon University - * Pittsburgh PA 15213-3890 - * - * any improvements or extensions that they make and grant Carnegie Mellon - * the rights to redistribute these changes. - */ -/* - * Western Digital Mach Ethernet driver - * Copyright (c) 1990 OSF Research Institute - */ -/* - Copyright 1990 by Open Software Foundation, -Cambridge, MA. - - All Rights Reserved - - Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby granted, -provided that the above copyright notice appears in all copies and -that both the copyright notice and this permission notice appear in -supporting documentation, and that the name of OSF or Open Software -Foundation not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - - OSF DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, -IN NO EVENT SHALL OSF BE LIABLE FOR ANY SPECIAL, INDIRECT, OR -CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM -LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT, -NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION -WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. -*/ - -/***********************************************************/ -/* Defines for the 583 chip. */ -/***********************************************************/ - -/*--- 8390 Registers ---*/ -#define OFF_8390 0x10 /* offset of the 8390 chip */ - -/* Register offsets */ - -#define IFWD_REG_0 0x00 -#define IFWD_REG_1 0x01 -#define IFWD_REG_2 0x02 -#define IFWD_REG_3 0x03 -#define IFWD_REG_4 0x04 -#define IFWD_REG_5 0x05 -#define IFWD_REG_6 0x06 -#define IFWD_REG_7 0x07 - -/* Register offset definitions for all boards */ - -#define IFWD_LAR_0 0x08 -#define IFWD_LAR_1 0x09 -#define IFWD_LAR_2 0x0a -#define IFWD_LAR_3 0x0b -#define IFWD_LAR_4 0x0c -#define IFWD_LAR_5 0x0d -#define IFWD_BOARD_ID 0x0e -#define IFWD_CHKSUM 0x0f - -/* revision number mask for BOARD_ID */ -#define IFWD_BOARD_REV_MASK 0x1e - -/* REG 1 */ -#define IFWD_MEMSIZE 0x08 -#define IFWD_16BIT 0x01 - -/* REG 5 */ -#define IFWD_REG5_MEM_MASK 0x3f /* B23-B19 of address of the memory */ -#define IFWD_LA19 0x01 /* B19 of address of the memory */ -#define IFWD_MEM16ENB 0x80 /* Enable 16 bit memory access from bus */ -#define IFWD_LAN16ENB 0x40 /* Enable 16 bit memory access from chip*/ -#define IFWD_INIT_LAAR IFWD_LA19 -#define IFWD_SOFTINT 0x20 /* Enable interrupt from pc */ - -/* Defs for board rev numbers > 1 */ -#define IFWD_MEDIA_TYPE 0x01 -#define IFWD_SOFT_CONFIG 0x20 -#define IFWD_RAM_SIZE 0x40 -#define IFWD_BUS_TYPE 0x80 - -/* Register offsets for reading the EEPROM in the 584 chip */ -#define IFWD_EEPROM_0 0x08 -#define IFWD_EEPROM_1 0x09 -#define IFWD_EEPROM_2 0x0A -#define IFWD_EEPROM_3 0x0B -#define IFWD_EEPROM_4 0x0C -#define IFWD_EEPROM_5 0x0D -#define IFWD_EEPROM_6 0x0E -#define IFWD_EEPROM_7 0x0F - -/**** defs for manipulating the 584 ****/ -#define IFWD_OTHER_BIT 0x02 -#define IFWD_ICR_MASK 0x0C -#define IFWD_EAR_MASK 0x0F -#define IFWD_ENGR_PAGE 0xA0 -/* #define IFWD_RLA 0x10 defined in ICR defs */ -#define IFWD_EA6 0x80 -#define IFWD_RECALL_DONE_MASK 0x10 -#define IFWD_EEPROM_MEDIA_MASK 0x07 -#define IFWD_STARLAN_TYPE 0x00 -#define IFWD_ETHERNET_TYPE 0x01 -#define IFWD_TP_TYPE 0x02 -#define IFWD_EW_TYPE 0x03 -#define IFWD_EEPROM_IRQ_MASK 0x18 -#define IFWD_PRIMARY_IRQ 0x00 -#define IFWD_ALTERNATE_IRQ_1 0x08 -#define IFWD_ALTERNATE_IRQ_2 0x10 -#define IFWD_ALTERNATE_IRQ_3 0x18 -#define IFWD_EEPROM_RAM_SIZE_MASK 0xE0 -#define IFWD_EEPROM_RAM_SIZE_RES1 0x00 -#define IFWD_EEPROM_RAM_SIZE_RES2 0x20 -#define IFWD_EEPROM_RAM_SIZE_8K 0x40 -#define IFWD_EEPROM_RAM_SIZE_16K 0x60 -#define IFWD_EEPROM_RAM_SIZE_32K 0x80 -#define IFWD_EEPROM_RAM_SIZE_64K 0xA0 -#define IFWD_EEPROM_RAM_SIZE_RES3 0xC0 -#define IFWD_EEPROM_RAM_SIZE_RES4 0xE0 -#define IFWD_EEPROM_BUS_TYPE_MASK 0x07 -#define IFWD_EEPROM_BUS_TYPE_AT 0x00 -#define IFWD_EEPROM_BUS_TYPE_MCA 0x01 -#define IFWD_EEPROM_BUS_TYPE_EISA 0x02 -#define IFWD_EEPROM_BUS_SIZE_MASK 0x18 -#define IFWD_EEPROM_BUS_SIZE_8BIT 0x00 -#define IFWD_EEPROM_BUS_SIZE_16BIT 0x08 -#define IFWD_EEPROM_BUS_SIZE_32BIT 0x10 -#define IFWD_EEPROM_BUS_SIZE_64BIT 0x18 - -/***************************************************************************** - * * - * Definitions for board ID. * - * * - * note: board ID should be ANDed with the STATIC_ID_MASK * - * before comparing to a specific board ID * - * The high order 16 bits correspond to the Extra Bits which do not * - * change the boards ID. * - * * - * Note: not all are implemented. Rest are here for future enhancements...* - * * - *****************************************************************************/ - -#define IFWD_STARLAN_MEDIA 0x00000001 /* StarLAN */ -#define IFWD_ETHERNET_MEDIA 0x00000002 /* Ethernet */ -#define IFWD_TWISTED_PAIR_MEDIA 0x00000003 /* Twisted Pair */ -#define IFWD_EW_MEDIA 0x00000004 /* Ethernet and Twisted Pair */ -#define IFWD_MICROCHANNEL 0x00000008 /* MicroChannel Adapter */ -#define IFWD_INTERFACE_CHIP 0x00000010 /* Soft Config Adapter */ -/* #define IFWD_UNUSED 0x00000020 */ /* used to be INTELLIGENT */ -#define IFWD_BOARD_16BIT 0x00000040 /* 16 bit capability */ -#define IFWD_RAM_SIZE_UNKNOWN 0x00000000 /* 000 => Unknown RAM Size */ -#define IFWD_RAM_SIZE_RES_1 0x00010000 /* 001 => Reserved */ -#define IFWD_RAM_SIZE_8K 0x00020000 /* 010 => 8k RAM */ -#define IFWD_RAM_SIZE_16K 0x00030000 /* 011 => 16k RAM */ -#define IFWD_RAM_SIZE_32K 0x00040000 /* 100 => 32k RAM */ -#define IFWD_RAM_SIZE_64K 0x00050000 /* 101 => 64k RAM */ -#define IFWD_RAM_SIZE_RES_6 0x00060000 /* 110 => Reserved */ -#define IFWD_RAM_SIZE_RES_7 0x00070000 /* 111 => Reserved */ -#define IFWD_SLOT_16BIT 0x00080000 /* 16 bit board - 16 bit slot*/ -#define IFWD_NIC_690_BIT 0x00100000 /* NIC is 690 */ -#define IFWD_ALTERNATE_IRQ_BIT 0x00200000 /* Alternate IRQ is used */ -#define IFWD_INTERFACE_584_CHIP 0x00400000 /* Interface chip is a 584 */ - -#define IFWD_MEDIA_MASK 0x00000007 /* Isolates Media Type */ -#define IFWD_RAM_SIZE_MASK 0x00070000 /* Isolates RAM Size */ -#define IFWD_STATIC_ID_MASK 0x0000FFFF /* Isolates Board ID */ - -/* Word definitions for board types */ -#define WD8003E IFWD_ETHERNET_MEDIA -#define WD8003EBT WD8003E /* functionally identical to WD8003E */ -#define WD8003S IFWD_STARLAN_MEDIA -#define WD8003SH WD8003S /* functionally identical to WD8003S */ -#define WD8003WT IFWD_TWISTED_PAIR_MEDIA -#define WD8003W (IFWD_TWISTED_PAIR_MEDIA | IFWD_INTERFACE_CHIP) -#define WD8003EB (IFWD_ETHERNET_MEDIA | IFWD_INTERFACE_CHIP) -#define WD8003EP WD8003EB /* with IFWD_INTERFACE_584_CHIP bit set */a -#define WD8003EW (IFWD_EW_MEDIA | IFWD_INTERFACE_CHIP) -#define WD8003ETA (IFWD_ETHERNET_MEDIA | IFWD_MICROCHANNEL) -#define WD8003STA (IFWD_STARLAN_MEDIA | IFWD_MICROCHANNEL) -#define WD8003EA (IFWD_ETHERNET_MEDIA | IFWD_MICROCHANNEL | \ - IFWD_INTERFACE_CHIP) -#define WD8003SHA (IFWD_STARLAN_MEDIA | IFWD_MICROCHANNEL | \ - IFWD_INTERFACE_CHIP) -#define WD8003WA (IFWD_TWISTED_PAIR_MEDIA | IFWD_MICROCHANNEL | \ - IFWD_INTERFACE_CHIP) -#define WD8013EBT (IFWD_ETHERNET_MEDIA | IFWD_BOARD_16BIT) -#define WD8013EB (IFWD_ETHERNET_MEDIA | IFWD_BOARD_16BIT | \ - IFWD_INTERFACE_CHIP) -#define WD8013EP WD8013EB /* with IFWD_INTERFACE_584_CHIP bit set */ -#define WD8013W (IFWD_TWISTED_PAIR_MEDIA | IFWD_BOARD_16BIT | \ - IFWD_INTERFACE_CHIP) -#define WD8013EW (IFWD_EW_MEDIA | IFWD_BOARD_16BIT | \ - IFWD_INTERFACE_CHIP) - - -/**** Western digital node bytes ****/ -#define WD_NODE_ADDR_0 0x00 -#define WD_NODE_ADDR_1 0x00 -#define WD_NODE_ADDR_2 0xC0 - -/*--- 83c583 registers ---*/ -#define IFWD_MSR 0x00 /* memory select register */ - /* In 584 Board's command register */ -#define IFWD_ICR 0x01 /* interface configuration register */ - /* In 584 8013 bus size register */ -#define IFWD_IAR 0x02 /* io address register */ -#define IFWD_BIO 0x03 /* bios ROM address register */ -#define IFWD_IRR 0x04 /* interrupt request register */ -#define IFWD_GP1 0x05 /* general purpose register 1 */ -#define IFWD_IOD 0x06 /* io data latch */ -#define IFWD_GP2 0x07 /* general purpose register 2 */ -#define IFWD_LAR 0x08 /* LAN address register */ -#define IFWD_LAR2 0x09 /* */ -#define IFWD_LAR3 0x0A /* */ -#define IFWD_LAR4 0x0B /* */ -#define IFWD_LAR5 0x0C /* */ -#define IFWD_LAR6 0x0D /* */ -#define IFWD_LAR7 0x0E /* */ -#define IFWD_LAR8 0x0F /* LAN address register */ - -/********************* Register Bit Definitions **************************/ -/* MSR definitions */ -#define IFWD_RST 0x80 /* 1 => reset */ -#define IFWD_MENB 0x40 /* 1 => memory enable */ -#define IFWD_SA18 0x20 /* Memory enable bits */ -#define IFWD_SA17 0x10 /* telling where shared */ -#define IFWD_SA16 0x08 /* mem is to start. */ -#define IFWD_SA15 0x04 /* Assume SA19 = 1 */ -#define IFWD_SA14 0x02 /* */ -#define IFWD_SA13 0x01 /* */ - -/* ICR definitions */ -#define IFWD_STR 0x80 /* Non-volatile EEPROM store */ -#define IFWD_RCL 0x40 /* Recall I/O Address from EEPROM */ -#define IFWD_RX7 0x20 /* Recall all but I/O and LAN address*/ -#define IFWD_RLA 0x10 /* Recall LAN Address */ -#define IFWD_MSZ 0x08 /* Shared Memory Size */ -#define IFWD_DMAE 0x04 /* DMA Enable */ -#define IFWD_IOPE 0x02 /* I/O Port Enable */ -#define IFWD_WTS 0x01 /* Word Transfer Select */ - -/* IAR definitions */ -#define IFWD_IA15 0x80 /* I/O Address Bits */ -/* . */ -/* . */ -/* . */ -#define IFWD_IA5 0x01 /* */ - -/* BIO definitions */ -#define IFWD_RS1 0x80 /* BIOS size bit 1 */ -#define IFWD_RS0 0x40 /* BIOS size bit 0 */ -#define IFWD_BA18 0x20 /* BIOS ROM Memory Address Bits */ -#define IFWD_BA17 0x10 /* */ -#define IFWD_BA16 0x08 /* */ -#define IFWD_BA15 0x04 /* */ -#define IFWD_BA14 0x02 /* BIOS ROM Memory Address Bits */ -#define IFWD_WINT 0x01 /* W8003 interrupt */ - -/* IRR definitions */ -#define IFWD_IEN 0x80 /* Interrupt Enable */ -#define IFWD_IR1 0x40 /* Interrupt request bit 1 */ -#define IFWD_IR0 0x20 /* Interrupt request bit 0 */ -#define IFWD_AMD 0x10 /* Alternate mode */ -#define IFWD_AINT 0x08 /* Alternate interrupt */ -#define IFWD_BW1 0x04 /* BIOS Wait State Control bit 1 */ -#define IFWD_BW0 0x02 /* BIOS Wait State Control bit 0 */ -#define IFWD_OWS 0x01 /* Zero Wait State Enable */ - -/* GP1 definitions */ - -/* IOD definitions */ - -/* GP2 definitions */ - -/*************************************************************/ -/* Shared RAM buffer definitions */ -/*************************************************************/ - -/**** NIC definitions ****/ -#define NIC_8003_SRAM_SIZE 0x2000 /* size of shared RAM buffer */ -#define NIC_HEADER_SIZE 4 /* size of receive header */ -#define NIC_PAGE_SIZE 0x100 /* each page of rcv ring is 256 byte */ - -#define ETHER_ADDR_SIZE 6 /* size of a MAC address */ - -#ifdef MACH -#define HZ 100 -#endif - -#define DSF_LOCK 1 -#define DSF_RUNNING 2 - -#define MOD_ENAL 1 -#define MOD_PROM 2 -- cgit v1.2.3