autoconf.c revision 1.9
11.1Smw/* 21.1Smw * Copyright (c) 1988 University of Utah. 31.1Smw * Copyright (c) 1982, 1986, 1990 The Regents of the University of California. 41.1Smw * All rights reserved. 51.1Smw * 61.1Smw * This code is derived from software contributed to Berkeley by 71.1Smw * the Systems Programming Group of the University of Utah Computer 81.1Smw * Science Department. 91.1Smw * 101.1Smw * Redistribution and use in source and binary forms, with or without 111.1Smw * modification, are permitted provided that the following conditions 121.1Smw * are met: 131.1Smw * 1. Redistributions of source code must retain the above copyright 141.1Smw * notice, this list of conditions and the following disclaimer. 151.1Smw * 2. Redistributions in binary form must reproduce the above copyright 161.1Smw * notice, this list of conditions and the following disclaimer in the 171.1Smw * documentation and/or other materials provided with the distribution. 181.1Smw * 3. All advertising materials mentioning features or use of this software 191.1Smw * must display the following acknowledgement: 201.1Smw * This product includes software developed by the University of 211.1Smw * California, Berkeley and its contributors. 221.1Smw * 4. Neither the name of the University nor the names of its contributors 231.1Smw * may be used to endorse or promote products derived from this software 241.1Smw * without specific prior written permission. 251.1Smw * 261.1Smw * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 271.1Smw * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 281.1Smw * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 291.1Smw * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 301.1Smw * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 311.1Smw * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 321.1Smw * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 331.1Smw * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 341.1Smw * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 351.1Smw * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 361.1Smw * SUCH DAMAGE. 371.1Smw * 381.4Smw * from: Utah $Hdr: autoconf.c 1.31 91/01/21$ 391.4Smw * 401.4Smw * @(#)autoconf.c 7.5 (Berkeley) 5/7/91 411.9Schopps * $Id: autoconf.c,v 1.9 1994/02/13 21:13:10 chopps Exp $ 421.1Smw */ 431.1Smw 441.1Smw/* 451.1Smw * Setup the system to run on the current machine. 461.1Smw * 471.1Smw * Configure() is called at boot time. Available 481.1Smw * devices are determined (from possibilities mentioned in ioconf.c), 491.1Smw * and the drivers are initialized. 501.1Smw */ 511.1Smw 521.9Schopps#include <sys/param.h> 531.9Schopps#include <sys/systm.h> 541.9Schopps#include <sys/buf.h> 551.9Schopps#include <sys/dkstat.h> 561.9Schopps#include <sys/conf.h> 571.9Schopps#include <sys/dmap.h> 581.9Schopps#include <sys/reboot.h> 591.9Schopps 601.9Schopps#include <machine/vmparam.h> 611.9Schopps#include <machine/cpu.h> 621.9Schopps#include <machine/pte.h> 631.9Schopps#include <amiga/dev/device.h> 641.1Smw 651.9Schopps#include <amiga/amiga/configdev.h> 661.9Schopps#include <amiga/amiga/custom.h> 671.1Smw 681.1Smw/* 691.1Smw * The following several variables are related to 701.1Smw * the configuration process, and are used in initializing 711.1Smw * the machine. 721.1Smw */ 731.1Smwint cold; /* if 1, still working on cold-start */ 741.1Smwint dkn; /* number of iostat dk numbers assigned so far */ 751.1Smwint cpuspeed = MHZ_8; /* relative cpu speed */ 761.1Smwstruct amiga_hw sc_table[MAXCTLRS]; 771.1Smw 781.3Smw/* set up in amiga_init.c */ 791.3Smwextern caddr_t ZORRO2ADDR; 801.3Smw 811.3Smw/* maps a zorro2 and/or A3000 builtin address into the mapped kva address */ 821.3Smw#define zorro2map(pa) ((caddr_t) ((u_int)ZORRO2ADDR - ZORRO2BASE + (u_int)pa)) 831.3Smw/* tests whether the address lies in our zorro2 space */ 841.3Smw#define iszorro2kva(kva) ((u_int)kva >= (u_int)ZORRO2ADDR && (u_int)kva < ((u_int)ZORRO2ADDR+(u_int)ZORRO2TOP-(u_int)ZORRO2BASE)) 851.3Smw#define iszorro2pa(pa) ((u_int)pa >= ZORRO2BASE && (u_int)pa <= ZORRO2TOP) 861.3Smw 871.1Smw#ifdef DEBUG 881.1Smwint acdebug = 0; 891.1Smw#endif 901.1Smw 911.1Smw/* 921.1Smw * Determine mass storage and memory configuration for a machine. 931.1Smw */ 941.1Smwconfigure() 951.1Smw{ 961.1Smw register struct amiga_hw *hw; 971.1Smw int found; 981.3Smw 991.3Smw /* XXXX I HATE IT XXXX */ 1001.3Smw custom.intena = INTF_INTEN; 1011.1Smw 1021.1Smw /* 1031.1Smw * Look over each hardware device actually found and attempt 1041.1Smw * to match it with an ioconf.c table entry. 1051.1Smw */ 1061.1Smw for (hw = sc_table; hw->hw_type; hw++) { 1071.1Smw if (HW_ISCTLR(hw)) 1081.1Smw found = find_controller(hw); 1091.1Smw else 1101.1Smw found = find_device(hw); 1111.1Smw#ifdef DEBUG 1121.1Smw if (!found && acdebug) { 1131.1Smw printf("unconfigured device %d/%d\n", 1141.1Smw hw->hw_manufacturer, hw->hw_product); 1151.1Smw } 1161.1Smw#endif 1171.1Smw } 1181.1Smw 1191.1Smw#if 0 1201.1Smw#include "cd.h" 1211.1Smw#if NCD > 0 1221.1Smw /* 1231.1Smw * Now deal with concatenated disks 1241.1Smw */ 1251.1Smw find_cdevices(); 1261.1Smw#endif 1271.1Smw#endif 1281.1Smw 1291.1Smw#if GENERIC 1301.1Smw if ((boothowto & RB_ASKNAME) == 0) 1311.1Smw setroot(); 1321.1Smw setconf(); 1331.1Smw#else 1341.1Smw setroot(); 1351.1Smw#endif 1361.1Smw swapconf(); 1371.1Smw cold = 0; 1381.3Smw 1391.3Smw custom.intena = INTF_SETCLR | INTF_INTEN; 1401.1Smw} 1411.1Smw 1421.1Smw#define dr_type(d, s) \ 1431.1Smw (strcmp((d)->d_name, (s)) == 0) 1441.1Smw 1451.1Smw#define same_hw_ctlr(hw, ac) \ 1461.1Smw (HW_ISFLOPPY(hw) && dr_type((ac)->amiga_driver, "floppy") || \ 1471.5Smw HW_ISSCSI(hw) && (dr_type((ac)->amiga_driver, "a3000scsi") \ 1481.5Smw || dr_type((ac)->amiga_driver, "a2091scsi") \ 1491.5Smw || dr_type((ac)->amiga_driver, "GVPIIscsi") \ 1501.5Smw || dr_type((ac)->amiga_driver, "Zeusscsi") \ 1511.5Smw || dr_type((ac)->amiga_driver, "Magnumscsi"))) 1521.1Smw 1531.1Smwfind_controller(hw) 1541.1Smw register struct amiga_hw *hw; 1551.1Smw{ 1561.1Smw register struct amiga_ctlr *ac; 1571.1Smw struct amiga_ctlr *match_c; 1581.1Smw caddr_t oaddr; 1591.1Smw int sc; 1601.1Smw 1611.1Smw#ifdef DEBUG 1621.1Smw if (acdebug) 1631.1Smw printf("find_controller: hw: [%d/%d] (%x), type %x...", 1641.1Smw hw->hw_manufacturer, hw->hw_product, 1651.1Smw hw->hw_kva, hw->hw_type); 1661.1Smw#endif 1671.1Smw sc = (hw->hw_manufacturer << 16) | hw->hw_product; 1681.1Smw match_c = NULL; 1691.1Smw for (ac = amiga_cinit; ac->amiga_driver; ac++) { 1701.1Smw if (ac->amiga_alive) 1711.1Smw continue; 1721.1Smw /* 1731.1Smw * Make sure we are looking at the right 1741.1Smw * controller type. 1751.1Smw */ 1761.1Smw if (!same_hw_ctlr(hw, ac)) 1771.1Smw continue; 1781.1Smw /* 1791.1Smw * Exact match; all done 1801.1Smw */ 1811.1Smw if ((int)ac->amiga_addr == sc) { 1821.1Smw match_c = ac; 1831.1Smw break; 1841.1Smw } 1851.1Smw /* 1861.1Smw * Wildcard; possible match so remember first instance 1871.1Smw * but continue looking for exact match. 1881.1Smw */ 1891.1Smw if (ac->amiga_addr == NULL && match_c == NULL) 1901.1Smw match_c = ac; 1911.1Smw } 1921.1Smw#ifdef DEBUG 1931.1Smw if (acdebug) { 1941.1Smw if (match_c) 1951.1Smw printf("found %s%d\n", 1961.1Smw match_c->amiga_driver->d_name, 1971.1Smw match_c->amiga_unit); 1981.1Smw else 1991.1Smw printf("not found\n"); 2001.1Smw } 2011.1Smw#endif 2021.1Smw /* 2031.1Smw * Didn't find an ioconf entry for this piece of hardware, 2041.1Smw * just ignore it. 2051.1Smw */ 2061.1Smw if (match_c == NULL) 2071.1Smw return(0); 2081.1Smw /* 2091.1Smw * Found a match, attempt to initialize and configure all attached 2101.1Smw * slaves. Note, we can still fail if HW won't initialize. 2111.1Smw */ 2121.1Smw ac = match_c; 2131.1Smw oaddr = ac->amiga_addr; 2141.1Smw ac->amiga_addr = hw->hw_kva; 2151.1Smw if ((*ac->amiga_driver->d_init)(ac)) { 2161.1Smw ac->amiga_alive = 1; 2171.1Smw printf ("%s%d", ac->amiga_driver->d_name, ac->amiga_unit); 2181.1Smw printf (" [%d/%d]", hw->hw_manufacturer, hw->hw_product); 2191.1Smw if (ac->amiga_flags) 2201.1Smw printf(", flags 0x%x", ac->amiga_flags); 2211.1Smw printf("\n"); 2221.1Smw find_slaves(ac); 2231.1Smw } else 2241.1Smw ac->amiga_addr = oaddr; 2251.1Smw return(1); 2261.1Smw} 2271.1Smw 2281.1Smwfind_device(hw) 2291.1Smw register struct amiga_hw *hw; 2301.1Smw{ 2311.1Smw register struct amiga_device *ad; 2321.1Smw struct amiga_device *match_d; 2331.1Smw caddr_t oaddr; 2341.1Smw int sc; 2351.1Smw 2361.1Smw#ifdef DEBUG 2371.1Smw if (acdebug) 2381.1Smw printf("find_device: hw: [%d/%d] (%x), type %x...", 2391.1Smw hw->hw_manufacturer, hw->hw_product, 2401.1Smw hw->hw_kva, hw->hw_type); 2411.1Smw#endif 2421.1Smw match_d = NULL; 2431.1Smw for (ad = amiga_dinit; ad->amiga_driver; ad++) { 2441.1Smw if (ad->amiga_alive) 2451.1Smw continue; 2461.1Smw /* Must not be a slave */ 2471.1Smw if (ad->amiga_cdriver) 2481.1Smw continue; 2491.1Smw 2501.3Smw /* 2511.3Smw * XXX: A graphics device that was found as part of the 2521.3Smw * console init will have the amiga_addr field already set 2531.3Smw * (i.e. no longer the select code). Gotta perform a 2541.3Smw * slightly different check for an exact match. 2551.3Smw */ 2561.3Smw if (HW_ISDEV(hw, D_BITMAP) && iszorro2kva(ad->amiga_addr)) 2571.3Smw { 2581.3Smw if (ad->amiga_addr == hw->hw_kva) 2591.3Smw { 2601.3Smw match_d = ad; 2611.3Smw break; 2621.3Smw } 2631.3Smw continue; 2641.3Smw } 2651.1Smw sc = (int) ad->amiga_addr; 2661.1Smw /* 2671.1Smw * Exact match; all done. 2681.1Smw */ 2691.1Smw if (sc > 0 && sc == ((hw->hw_manufacturer << 16) | hw->hw_product)) { 2701.1Smw match_d = ad; 2711.1Smw break; 2721.1Smw } 2731.1Smw /* 2741.1Smw * Wildcard; possible match so remember first instance 2751.1Smw * but continue looking for exact match. 2761.1Smw */ 2771.1Smw if (sc == 0 && same_hw_device(hw, ad) && match_d == NULL) 2781.1Smw match_d = ad; 2791.1Smw } 2801.1Smw#ifdef DEBUG 2811.1Smw if (acdebug) { 2821.1Smw if (match_d) 2831.1Smw printf("found %s%d\n", 2841.1Smw match_d->amiga_driver->d_name, 2851.1Smw match_d->amiga_unit); 2861.1Smw else 2871.1Smw printf("not found\n"); 2881.1Smw } 2891.1Smw#endif 2901.1Smw /* 2911.1Smw * Didn't find an ioconf entry for this piece 2921.1Smw * of hardware, just ignore it. 2931.1Smw */ 2941.1Smw if (match_d == NULL) 2951.1Smw return(0); 2961.1Smw /* 2971.1Smw * Found a match, attempt to initialize. 2981.1Smw * Note, we can still fail if HW won't initialize. 2991.1Smw */ 3001.1Smw ad = match_d; 3011.1Smw oaddr = ad->amiga_addr; 3021.1Smw ad->amiga_addr = hw->hw_kva; 3031.3Smw ad->amiga_serno = hw->hw_serno; 3041.3Smw ad->amiga_size = hw->hw_size; 3051.1Smw if ((*ad->amiga_driver->d_init)(ad)) { 3061.1Smw ad->amiga_alive = 1; 3071.1Smw printf("%s%d", ad->amiga_driver->d_name, ad->amiga_unit); 3081.1Smw printf (" [%d/%d]", hw->hw_manufacturer, hw->hw_product); 3091.1Smw if (ad->amiga_flags) 3101.1Smw printf(", flags 0x%x", ad->amiga_flags); 3111.1Smw printf("\n"); 3121.1Smw } else 3131.1Smw ad->amiga_addr = oaddr; 3141.1Smw return(1); 3151.1Smw} 3161.1Smw 3171.1Smwfind_slaves(ac) 3181.1Smw struct amiga_ctlr *ac; 3191.1Smw{ 3201.1Smw if (dr_type(ac->amiga_driver, "floppy")) 3211.1Smw find_busslaves(ac, 4); 3221.5Smw else if (dr_type(ac->amiga_driver, "a3000scsi") 3231.5Smw || dr_type(ac->amiga_driver, "a2091scsi") 3241.5Smw || dr_type(ac->amiga_driver, "GVPIIscsi") 3251.5Smw || dr_type(ac->amiga_driver, "Zeusscsi") 3261.5Smw || dr_type(ac->amiga_driver, "Magnumscsi")) 3271.1Smw find_busslaves(ac, 7); 3281.1Smw} 3291.1Smw 3301.1Smw/* 3311.1Smw */ 3321.1Smwfind_busslaves(ac, maxslaves) 3331.1Smw register struct amiga_ctlr *ac; 3341.1Smw int maxslaves; 3351.1Smw{ 3361.1Smw register int s; 3371.1Smw register struct amiga_device *ad; 3381.1Smw struct amiga_device *match_s; 3391.1Smw int new_s, new_c, old_s, old_c; 3401.1Smw int rescan; 3411.1Smw 3421.1Smw#ifdef DEBUG 3431.1Smw if (acdebug) 3441.1Smw printf("find_busslaves: for %s%d\n", 3451.1Smw ac->amiga_driver->d_name, ac->amiga_unit); 3461.1Smw#endif 3471.1Smw for (s = 0; s < maxslaves; s++) { 3481.1Smw rescan = 1; 3491.1Smw match_s = NULL; 3501.1Smw for (ad = amiga_dinit; ad->amiga_driver; ad++) { 3511.1Smw /* 3521.1Smw * Rule out the easy ones: 3531.1Smw * 1. slave already assigned or not a slave 3541.1Smw * 2. not of the proper type 3551.1Smw * 3. controller specified but not this one 3561.1Smw * 4. slave specified but not this one 3571.1Smw */ 3581.1Smw if (ad->amiga_alive || ad->amiga_cdriver == NULL) 3591.1Smw continue; 3601.1Smw if (!dr_type(ac->amiga_driver, ad->amiga_cdriver->d_name)) 3611.1Smw continue; 3621.1Smw if (ad->amiga_ctlr >= 0 && ad->amiga_ctlr != ac->amiga_unit) 3631.1Smw continue; 3641.1Smw if (ad->amiga_slave >= 0 && ad->amiga_slave != s) 3651.1Smw continue; 3661.1Smw /* 3671.1Smw * Case 0: first possible match. 3681.1Smw * Remember it and keep looking for better. 3691.1Smw */ 3701.1Smw if (match_s == NULL) { 3711.1Smw match_s = ad; 3721.1Smw new_c = ac->amiga_unit; 3731.1Smw new_s = s; 3741.1Smw continue; 3751.1Smw } 3761.1Smw /* 3771.1Smw * Case 1: exact match. 3781.1Smw * All done. Note that we do not attempt any other 3791.1Smw * matches if this one fails. This allows us to 3801.1Smw * "reserve" locations for dynamic addition of 3811.1Smw * disk/tape drives by fully qualifing the location. 3821.1Smw */ 3831.1Smw if (ad->amiga_slave == s && ad->amiga_ctlr == ac->amiga_unit) { 3841.1Smw match_s = ad; 3851.1Smw rescan = 0; 3861.1Smw break; 3871.1Smw } 3881.1Smw /* 3891.1Smw * Case 2: right controller, wildcarded slave. 3901.1Smw * Remember first and keep looking for an exact match. 3911.1Smw */ 3921.1Smw if (ad->amiga_ctlr == ac->amiga_unit && 3931.1Smw match_s->amiga_ctlr < 0) { 3941.1Smw match_s = ad; 3951.1Smw new_s = s; 3961.1Smw continue; 3971.1Smw } 3981.1Smw /* 3991.1Smw * Case 3: right slave, wildcarded controller. 4001.1Smw * Remember and keep looking for a better match. 4011.1Smw */ 4021.1Smw if (ad->amiga_slave == s && 4031.1Smw match_s->amiga_ctlr < 0 && match_s->amiga_slave < 0) { 4041.1Smw match_s = ad; 4051.1Smw new_c = ac->amiga_unit; 4061.1Smw continue; 4071.1Smw } 4081.1Smw /* 4091.1Smw * OW: we had a totally wildcarded spec. 4101.1Smw * If we got this far, we have found a possible 4111.1Smw * match already (match_s != NULL) so there is no 4121.1Smw * reason to remember this one. 4131.1Smw */ 4141.1Smw continue; 4151.1Smw } 4161.1Smw /* 4171.1Smw * Found a match. We need to set amiga_ctlr/amiga_slave properly 4181.1Smw * for the init routines but we also need to remember all 4191.1Smw * the old values in case this doesn't pan out. 4201.1Smw */ 4211.1Smw if (match_s) { 4221.1Smw ad = match_s; 4231.1Smw old_c = ad->amiga_ctlr; 4241.1Smw old_s = ad->amiga_slave; 4251.1Smw if (ad->amiga_ctlr < 0) 4261.1Smw ad->amiga_ctlr = new_c; 4271.1Smw if (ad->amiga_slave < 0) 4281.1Smw ad->amiga_slave = new_s; 4291.1Smw#ifdef DEBUG 4301.1Smw if (acdebug) 4311.1Smw printf("looking for %s%d at slave %d...", 4321.1Smw ad->amiga_driver->d_name, 4331.1Smw ad->amiga_unit, ad->amiga_slave); 4341.1Smw#endif 4351.1Smw 4361.1Smw if ((*ad->amiga_driver->d_init)(ad)) { 4371.1Smw#ifdef DEBUG 4381.1Smw if (acdebug) 4391.1Smw printf("found\n"); 4401.1Smw#endif 4411.1Smw printf("%s%d at %s%d, slave %d", 4421.1Smw ad->amiga_driver->d_name, ad->amiga_unit, 4431.1Smw ac->amiga_driver->d_name, ad->amiga_ctlr, 4441.1Smw ad->amiga_slave); 4451.1Smw if (ad->amiga_flags) 4461.1Smw printf(" flags 0x%x", ad->amiga_flags); 4471.1Smw printf("\n"); 4481.1Smw ad->amiga_alive = 1; 4491.1Smw if (ad->amiga_dk && dkn < DK_NDRIVE) 4501.1Smw ad->amiga_dk = dkn++; 4511.1Smw else 4521.1Smw ad->amiga_dk = -1; 4531.1Smw rescan = 1; 4541.7Schopps /* 4551.7Schopps * The init on this unit suceeded, so we need to 4561.7Schopps * mark the same device/unit on other hardware 4571.7Schopps * controllers as "alive" since we can't reuse 4581.7Schopps * the same unit for that device driver. mlh 4591.7Schopps */ 4601.7Schopps for (ad = amiga_dinit; ad->amiga_driver; ad++) { 4611.7Schopps if (ad->amiga_driver == match_s->amiga_driver && 4621.7Schopps ad->amiga_unit == match_s->amiga_unit) 4631.7Schopps ad->amiga_alive = 2; 4641.7Schopps } 4651.1Smw } else { 4661.1Smw#ifdef DEBUG 4671.1Smw if (acdebug) 4681.1Smw printf("not found\n"); 4691.1Smw#endif 4701.1Smw ad->amiga_ctlr = old_c; 4711.1Smw ad->amiga_slave = old_s; 4721.1Smw } 4731.1Smw /* 4741.1Smw * XXX: This should be handled better. 4751.1Smw * Re-scan a slave. There are two reasons to do this. 4761.1Smw * 1. It is possible to have both a tape and disk 4771.1Smw * (e.g. 7946) or two disks (e.g. 9122) at the 4781.1Smw * same slave address. Here we need to rescan 4791.1Smw * looking only at entries with a different 4801.1Smw * physical unit number (amiga_flags). 4811.1Smw * 2. It is possible that an init failed because the 4821.1Smw * slave was there but of the wrong type. In this 4831.1Smw * case it may still be possible to match the slave 4841.1Smw * to another ioconf entry of a different type. 4851.1Smw * Here we need to rescan looking only at entries 4861.1Smw * of different types. 4871.1Smw * In both cases we avoid looking at undesirable 4881.1Smw * ioconf entries of the same type by setting their 4891.1Smw * alive fields to -1. 4901.1Smw */ 4911.1Smw if (rescan) { 4921.1Smw for (ad = amiga_dinit; ad->amiga_driver; ad++) { 4931.1Smw if (ad->amiga_alive) 4941.1Smw continue; 4951.1Smw if (match_s->amiga_alive == 1) { /* 1 */ 4961.1Smw if (ad->amiga_flags == match_s->amiga_flags) 4971.1Smw ad->amiga_alive = -1; 4981.1Smw } else { /* 2 */ 4991.1Smw if (ad->amiga_driver == match_s->amiga_driver) 5001.1Smw ad->amiga_alive = -1; 5011.1Smw } 5021.1Smw } 5031.1Smw s--; 5041.1Smw continue; 5051.1Smw } 5061.1Smw } 5071.1Smw /* 5081.1Smw * Reset bogon alive fields prior to attempting next slave 5091.1Smw */ 5101.1Smw for (ad = amiga_dinit; ad->amiga_driver; ad++) 5111.1Smw if (ad->amiga_alive == -1) 5121.1Smw ad->amiga_alive = 0; 5131.1Smw } 5141.1Smw} 5151.1Smw 5161.1Smwsame_hw_device(hw, ad) 5171.1Smw struct amiga_hw *hw; 5181.1Smw struct amiga_device *ad; 5191.1Smw{ 5201.1Smw int found = 0; 5211.1Smw 5221.1Smw switch (hw->hw_type & ~B_MASK) { 5231.1Smw case C_FLOPPY: 5241.1Smw found = dr_type(ad->amiga_driver, "floppy"); 5251.1Smw break; 5261.1Smw case C_SCSI: 5271.3Smw found = (dr_type(ad->amiga_driver, "a3000scsi") 5281.3Smw || dr_type(ad->amiga_driver, "a2091scsi") 5291.5Smw || dr_type(ad->amiga_driver, "GVPIIscsi") 5301.5Smw || dr_type(ad->amiga_driver, "Zeusscsi") 5311.5Smw || dr_type(ad->amiga_driver, "Magnumscsi")); 5321.1Smw break; 5331.1Smw case D_BITMAP: 5341.1Smw found = dr_type(ad->amiga_driver, "grf"); 5351.1Smw break; 5361.1Smw case D_LAN: 5371.1Smw found = dr_type(ad->amiga_driver, "le"); 5381.1Smw break; 5391.1Smw case D_COMMSER: 5401.1Smw found = dr_type(ad->amiga_driver, "ser"); 5411.1Smw break; 5421.3Smw case D_CLOCK: 5431.3Smw found = dr_type(ad->amiga_driver, "rtclock"); 5441.4Smw break; 5451.4Smw case D_PPORT: 5461.4Smw found = dr_type(ad->amiga_driver, "par"); 5471.3Smw break; 5481.1Smw default: 5491.1Smw break; 5501.1Smw } 5511.1Smw return(found); 5521.1Smw} 5531.1Smw 5541.1Smwchar notmappedmsg[] = "WARNING: no space to map IO card, ignored\n"; 5551.1Smw 5561.1Smw/* 5571.1Smw * Scan the IO space looking for devices. 5581.1Smw */ 5591.1Smwfind_devs() 5601.1Smw{ 5611.1Smw short sc; 5621.1Smw u_char *id_reg; 5631.1Smw register caddr_t addr; 5641.1Smw register struct amiga_hw *hw; 5651.1Smw int didmap, sctop; 5661.1Smw extern int num_ConfigDev; 5671.1Smw extern struct ConfigDev *ConfigDev; 5681.1Smw struct ConfigDev *cd; 5691.1Smw 5701.1Smw#if 0 5711.1Smw /* 5721.1Smw * Initialize IO resource map for iomap(). 5731.1Smw */ 5741.1Smw rminit(extiomap, (long)EIOMAPSIZE, (long)1, "extio", EIOMAPSIZE/16); 5751.1Smw#endif 5761.1Smw hw = sc_table; 5771.1Smw 5781.1Smw /* first enter builtin devices */ 5791.1Smw 5801.5Smw if (is_a4000 ()) 5811.5Smw { 5821.5Smw /* The A4000 appears to use the same realtime clock as the A3000. 5831.5Smw Add the IDE controller when that information becomes available. 5841.5Smw */ 5851.5Smw 5861.6Schopps hw->hw_pa = (caddr_t) 0xdc0000; 5871.5Smw hw->hw_size = NBPG; 5881.5Smw hw->hw_kva = zorro2map (0xdc0000); 5891.5Smw hw->hw_manufacturer = MANUF_BUILTIN; 5901.5Smw hw->hw_product = PROD_BUILTIN_CLOCK; 5911.5Smw hw->hw_type = B_BUILTIN | D_CLOCK; 5921.5Smw hw->hw_serno = 0; 5931.5Smw hw++; 5941.5Smw } 5951.5Smw else if (is_a3000 ()) 5961.3Smw { 5971.3Smw /* hm, this doesn't belong here... */ 5981.3Smw volatile u_char *magic_reset_reg = zorro2map (0xde0002); 5991.3Smw /* this bit makes the next reset look like a powerup reset, Amiga 6001.3Smw Unix sets this bit, and perhaps it will enable 16M machines to 6011.3Smw boot again... */ 6021.3Smw *magic_reset_reg |= 0x80; 6031.3Smw 6041.6Schopps hw->hw_pa = (caddr_t) 0xdd0000; 6051.3Smw hw->hw_size = NBPG; 6061.3Smw hw->hw_kva = zorro2map (0xdd0000); 6071.3Smw hw->hw_manufacturer = MANUF_BUILTIN; 6081.3Smw hw->hw_product = PROD_BUILTIN_SCSI; 6091.3Smw hw->hw_type = B_BUILTIN | C_SCSI; 6101.3Smw hw->hw_serno = 0; 6111.3Smw hw++; 6121.1Smw 6131.6Schopps hw->hw_pa = (caddr_t) 0xdc0000; 6141.3Smw hw->hw_size = NBPG; 6151.3Smw hw->hw_kva = zorro2map (0xdc0000); 6161.3Smw hw->hw_manufacturer = MANUF_BUILTIN; 6171.3Smw hw->hw_product = PROD_BUILTIN_CLOCK; 6181.3Smw hw->hw_type = B_BUILTIN | D_CLOCK; 6191.3Smw hw->hw_serno = 0; 6201.3Smw hw++; 6211.3Smw } 6221.3Smw else 6231.3Smw { 6241.3Smw /* what about other Amigas? Oh well.. */ 6251.6Schopps hw->hw_pa = (caddr_t) 0xdc0000; 6261.3Smw hw->hw_size = NBPG; 6271.3Smw hw->hw_kva = zorro2map (0xdc0000); 6281.3Smw hw->hw_manufacturer = MANUF_BUILTIN; 6291.3Smw hw->hw_product = PROD_BUILTIN_CLOCK2; 6301.3Smw hw->hw_type = B_BUILTIN | D_CLOCK; 6311.3Smw hw->hw_serno = 0; 6321.3Smw hw++; 6331.3Smw } 6341.1Smw 6351.1Smw hw->hw_pa = 0; 6361.1Smw hw->hw_size = 0; 6371.6Schopps hw->hw_kva = (caddr_t) CUSTOMbase; 6381.1Smw hw->hw_manufacturer = MANUF_BUILTIN; 6391.1Smw hw->hw_product = PROD_BUILTIN_FLOPPY; 6401.1Smw hw->hw_type = B_BUILTIN | C_FLOPPY; 6411.3Smw hw->hw_serno = 0; 6421.1Smw hw++; 6431.1Smw 6441.1Smw hw->hw_pa = 0; 6451.1Smw hw->hw_size = 0; 6461.6Schopps hw->hw_kva = (caddr_t) CUSTOMbase; 6471.1Smw hw->hw_manufacturer = MANUF_BUILTIN; 6481.1Smw hw->hw_product = PROD_BUILTIN_KEYBOARD; 6491.1Smw hw->hw_type = B_BUILTIN | D_KEYBOARD; 6501.3Smw hw->hw_serno = 0; 6511.1Smw hw++; 6521.1Smw 6531.1Smw hw->hw_pa = 0; 6541.1Smw hw->hw_size = 0; 6551.6Schopps hw->hw_kva = (caddr_t) CUSTOMbase; 6561.1Smw hw->hw_manufacturer = MANUF_BUILTIN; 6571.1Smw hw->hw_product = PROD_BUILTIN_PPORT; 6581.1Smw hw->hw_type = B_BUILTIN | D_PPORT; 6591.3Smw hw->hw_serno = 0; 6601.1Smw hw++; 6611.1Smw 6621.1Smw hw->hw_pa = 0; 6631.1Smw hw->hw_size = 0; 6641.6Schopps hw->hw_kva = (caddr_t) CUSTOMbase; 6651.1Smw hw->hw_manufacturer = MANUF_BUILTIN; 6661.1Smw hw->hw_product = PROD_BUILTIN_DISPLAY; 6671.1Smw hw->hw_type = B_BUILTIN | D_BITMAP; 6681.3Smw hw->hw_serno = 0; 6691.3Smw hw++; 6701.3Smw 6711.3Smw hw->hw_pa = 0; 6721.3Smw hw->hw_size = 0; 6731.6Schopps hw->hw_kva = (caddr_t) CUSTOMbase; 6741.3Smw hw->hw_manufacturer = MANUF_BUILTIN; 6751.3Smw hw->hw_product = PROD_BUILTIN_RS232; 6761.3Smw hw->hw_type = B_BUILTIN | D_COMMSER; 6771.3Smw hw->hw_serno = 0; 6781.1Smw hw++; 6791.3Smw 6801.1Smw /* and afterwards add Zorro II/III devices passed by the loader */ 6811.1Smw 6821.1Smw for (sc = 0, cd = ConfigDev; sc < num_ConfigDev; sc++, cd++) 6831.1Smw { 6841.1Smw hw->hw_pa = cd->cd_BoardAddr; 6851.1Smw hw->hw_size = cd->cd_BoardSize; 6861.3Smw /* ADD ZORRO3 SUPPORT HERE !! */ 6871.3Smw hw->hw_kva = iszorro2pa(cd->cd_BoardAddr) ? zorro2map (cd->cd_BoardAddr) : 0; 6881.1Smw hw->hw_manufacturer = cd->cd_Rom.er_Manufacturer; 6891.1Smw hw->hw_product = cd->cd_Rom.er_Product; 6901.3Smw hw->hw_serno = cd->cd_Rom.er_SerialNumber; 6911.1Smw 6921.1Smw switch (hw->hw_manufacturer) 6931.1Smw { 6941.1Smw case MANUF_CBM_1: 6951.1Smw switch (hw->hw_product) 6961.1Smw { 6971.1Smw case PROD_CBM_1_A2088: 6981.1Smw hw->hw_type = B_ZORROII | D_MISC; 6991.1Smw break; 7001.1Smw 7011.1Smw default: 7021.1Smw continue; 7031.1Smw } 7041.3Smw break; 7051.3Smw 7061.3Smw case MANUF_CBM_2: 7071.3Smw switch (hw->hw_product) 7081.3Smw { 7091.3Smw case PROD_CBM_2_A2091: 7101.3Smw hw->hw_type = B_ZORROII | C_SCSI; 7111.3Smw break; 7121.3Smw 7131.3Smw case PROD_CBM_2_A2065: 7141.3Smw hw->hw_type = B_ZORROII | D_LAN; 7151.3Smw /* the ethernet board uses bytes 1 to 3 for ID, set byte 0 to indicate 7161.3Smw whether Commodore or Ameristar board. */ 7171.3Smw hw->hw_serno = (hw->hw_serno & 0x00ffffff) | 0x01000000; 7181.3Smw break; 7191.3Smw 7201.3Smw default: 7211.3Smw continue; 7221.3Smw } 7231.3Smw break; 7241.3Smw 7251.3Smw case MANUF_AMERISTAR: 7261.3Smw switch (hw->hw_product) 7271.3Smw { 7281.3Smw case PROD_AMERISTAR_ETHER: 7291.3Smw hw->hw_type = B_ZORROII | D_LAN; 7301.3Smw /* the ethernet board uses bytes 1 to 3 for ID, set byte 0 to indicate 7311.3Smw whether Commodore or Ameristar board. */ 7321.3Smw hw->hw_serno = (hw->hw_serno & 0x00ffffff) | 0x02000000; 7331.3Smw break; 7341.3Smw 7351.3Smw default: 7361.3Smw continue; 7371.3Smw } 7381.3Smw break; 7391.3Smw 7401.1Smw case MANUF_UNILOWELL: 7411.1Smw switch (hw->hw_product) 7421.1Smw { 7431.1Smw case PROD_UNILOWELL_A2410: 7441.1Smw hw->hw_type = B_ZORROII | D_BITMAP; 7451.1Smw break; 7461.1Smw 7471.1Smw default: 7481.1Smw continue; 7491.1Smw } 7501.3Smw break; 7511.3Smw 7521.3Smw case MANUF_MACROSYSTEM: 7531.3Smw switch (hw->hw_product) 7541.3Smw { 7551.3Smw case PROD_MACROSYSTEM_RETINA: 7561.3Smw hw->hw_type = B_ZORROII | D_BITMAP; 7571.3Smw break; 7581.3Smw 7591.3Smw default: 7601.3Smw continue; 7611.3Smw } 7621.3Smw break; 7631.3Smw 7641.3Smw case MANUF_GVP: 7651.3Smw switch (hw->hw_product) 7661.3Smw { 7671.3Smw case PROD_GVP_SERIES_II: 7681.5Smw /* Kludge for I/O extender: 7691.5Smw if er_notused != 0, it's a SCSI controller 7701.5Smw if er_notused == 0, it's either an I/O extender or might 7711.5Smw possibly be a SCSI controller with autoboot disabled */ 7721.5Smw if (cd->cd_Rom.er_notused) 7731.5Smw hw->hw_type = B_ZORROII | C_SCSI; 7741.5Smw else 7751.5Smw hw->hw_type = B_ZORROII | D_COMMSER; 7761.3Smw break; 7771.3Smw 7781.3Smw case PROD_GVP_IV24: 7791.3Smw hw->hw_type = B_ZORROII | D_BITMAP; 7801.3Smw break; 7811.3Smw 7821.3Smw default: 7831.3Smw continue; 7841.3Smw } 7851.3Smw break; 7861.3Smw 7871.5Smw case MANUF_PPI: 7881.5Smw switch (hw->hw_product) 7891.5Smw { 7901.5Smw case PROD_PPI_ZEUS: 7911.5Smw hw->hw_type = B_ZORROII | C_SCSI; 7921.5Smw break; 7931.5Smw 7941.5Smw default: 7951.5Smw continue; 7961.5Smw } 7971.5Smw break; 7981.5Smw 7991.5Smw case MANUF_CSA: 8001.5Smw switch (hw->hw_product) 8011.5Smw { 8021.5Smw case PROD_CSA_MAGNUM: 8031.5Smw hw->hw_type = B_ZORROII | C_SCSI; 8041.5Smw break; 8051.5Smw 8061.5Smw default: 8071.5Smw continue; 8081.5Smw } 8091.5Smw break; 8101.5Smw 8111.1Smw default: 8121.1Smw continue; 8131.1Smw } 8141.1Smw 8151.1Smw hw++; 8161.1Smw } 8171.1Smw} 8181.1Smw 8191.1Smw#if 0 8201.1Smw/* 8211.1Smw * Allocate/deallocate a cache-inhibited range of kernel virtual address 8221.1Smw * space mapping the indicated physical address range [pa - pa+size) 8231.1Smw */ 8241.1Smwcaddr_t 8251.1Smwiomap(pa, size) 8261.1Smw caddr_t pa; 8271.1Smw int size; 8281.1Smw{ 8291.1Smw int ix, npf; 8301.1Smw caddr_t kva; 8311.1Smw 8321.1Smw#ifdef DEBUG 8331.1Smw if (((int)pa & PGOFSET) || (size & PGOFSET)) 8341.1Smw panic("iomap: unaligned"); 8351.1Smw#endif 8361.1Smw npf = btoc(size); 8371.1Smw ix = rmalloc(extiomap, npf); 8381.1Smw if (ix == 0) 8391.1Smw return(0); 8401.1Smw kva = extiobase + ctob(ix-1); 8411.1Smw physaccess(kva, pa, size, PG_RW|PG_CI); 8421.1Smw return(kva); 8431.1Smw} 8441.1Smw 8451.1Smwiounmap(kva, size) 8461.1Smw caddr_t kva; 8471.1Smw int size; 8481.1Smw{ 8491.1Smw int ix; 8501.1Smw 8511.1Smw#ifdef DEBUG 8521.1Smw if (((int)kva & PGOFSET) || (size & PGOFSET)) 8531.1Smw panic("iounmap: unaligned"); 8541.1Smw if (kva < extiobase || kva >= extiobase + ctob(EIOMAPSIZE)) 8551.1Smw panic("iounmap: bad address"); 8561.1Smw#endif 8571.1Smw physunaccess(kva, size); 8581.1Smw ix = btoc(kva - extiobase) + 1; 8591.1Smw rmfree(extiomap, btoc(size), ix); 8601.1Smw} 8611.1Smw#endif 8621.1Smw 8631.1Smw#if NCD > 0 8641.9Schopps#include <amiga/dev/cdvar.h> 8651.1Smw 8661.1Smwfind_cdevices() 8671.1Smw{ 8681.1Smw register struct cddevice *cd; 8691.1Smw 8701.1Smw for (cd = cddevice; cd->cd_unit >= 0; cd++) { 8711.1Smw /* 8721.1Smw * XXX 8731.1Smw * Assign disk index first so that init routine 8741.1Smw * can use it (saves having the driver drag around 8751.1Smw * the cddevice pointer just to set up the dk_* 8761.1Smw * info in the open routine). 8771.1Smw */ 8781.1Smw if (dkn < DK_NDRIVE) 8791.1Smw cd->cd_dk = dkn++; 8801.1Smw else 8811.1Smw cd->cd_dk = -1; 8821.1Smw if (cdinit(cd)) 8831.1Smw printf("cd%d configured\n", cd->cd_unit); 8841.1Smw else if (cd->cd_dk >= 0) { 8851.1Smw cd->cd_dk = -1; 8861.1Smw dkn--; 8871.1Smw } 8881.1Smw } 8891.1Smw} 8901.1Smw#endif 8911.1Smw 8921.1Smw#if 0 8931.1Smwisrinit() 8941.1Smw{ 8951.1Smw register int i; 8961.1Smw 8971.1Smw for (i = 0; i < NISR; i++) 8981.1Smw isrqueue[i].isr_forw = isrqueue[i].isr_back = &isrqueue[i]; 8991.1Smw} 9001.1Smw 9011.1Smwvoid 9021.1Smwisrlink(isr) 9031.1Smw register struct isr *isr; 9041.1Smw{ 9051.1Smw int i = ISRIPL(isr->isr_ipl); 9061.1Smw 9071.1Smw if (i < 0 || i >= NISR) { 9081.1Smw printf("bad IPL %d\n", i); 9091.1Smw panic("configure"); 9101.1Smw } 9111.1Smw insque(isr, isrqueue[i].isr_back); 9121.1Smw} 9131.1Smw#endif 9141.1Smw 9151.1Smw/* 9161.1Smw * Configure swap space and related parameters. 9171.1Smw */ 9181.1Smwswapconf() 9191.1Smw{ 9201.1Smw register struct swdevt *swp; 9211.1Smw register int nblks; 9221.1Smw 9231.1Smw for (swp = swdevt; swp->sw_dev; swp++) 9241.1Smw { 9251.1Smw if (bdevsw[major(swp->sw_dev)].d_psize) { 9261.1Smw nblks = 9271.1Smw (*bdevsw[major(swp->sw_dev)].d_psize)(swp->sw_dev); 9281.1Smw if (nblks != -1 && 9291.1Smw (swp->sw_nblks == 0 || swp->sw_nblks > nblks)) 9301.1Smw { 9311.1Smw swp->sw_nblks = nblks; 9321.1Smw/* printf ("swap: dev %x = %d\n", swp->sw_dev, nblks);*/ 9331.1Smw } 9341.1Smw } 9351.1Smw } 9361.1Smw dumpconf(); 9371.1Smw 9381.1Smw printf ("\n"); 9391.1Smw} 9401.1Smw 9411.1Smw#define DOSWAP /* Change swdevt and dumpdev too */ 9421.1Smwu_long bootdev; /* should be dev_t, but not until 32 bits */ 9431.1Smw 9441.1Smwstatic char devname[][2] = { 9451.1Smw 0,0, /* 0 = ct */ 9461.1Smw 0,0, /* 1 = xx */ 9471.1Smw 'r','d', /* 2 = rd */ 9481.1Smw 0,0, /* 3 = sw */ 9491.1Smw 's','d', /* 4 = sd */ 9501.5Smw 'r','z', /* 5 = sz */ 9511.1Smw}; 9521.1Smw 9531.1Smw#define PARTITIONMASK 0x7 9541.1Smw#define PARTITIONSHIFT 3 9551.1Smw 9561.1Smw/* 9571.1Smw * Attempt to find the device from which we were booted. 9581.1Smw * If we can do so, and not instructed not to do so, 9591.1Smw * change rootdev to correspond to the load device. 9601.1Smw */ 9611.1Smwsetroot() 9621.1Smw{ 9631.1Smw register struct amiga_ctlr *ac; 9641.1Smw register struct amiga_device *ad; 9651.1Smw int majdev, mindev, unit, part, adaptor; 9661.1Smw dev_t temp, orootdev; 9671.1Smw struct swdevt *swp; 9681.1Smw 9691.3Smw#ifdef DEBUG 9701.3Smw if (acdebug > 1) 9711.3Smw printf ("setroot: boothowto = 0x%x, bootdev = 0x%x\n", boothowto, bootdev); 9721.3Smw#endif 9731.1Smw 9741.1Smw if (boothowto & RB_DFLTROOT || 9751.1Smw (bootdev & B_MAGICMASK) != (u_long)B_DEVMAGIC) 9761.3Smw { 9771.3Smw#ifdef DEBUG 9781.3Smw if (acdebug > 1) 9791.3Smw printf ("returning due to: bad boothowto\n"); 9801.3Smw#endif 9811.3Smw return; 9821.3Smw } 9831.1Smw majdev = (bootdev >> B_TYPESHIFT) & B_TYPEMASK; 9841.1Smw if (majdev > sizeof(devname) / sizeof(devname[0])) 9851.3Smw { 9861.3Smw#ifdef DEBUG 9871.3Smw if (acdebug > 1) 9881.3Smw printf ("returning due to: majdev (%d) > maxdevs (%d)\n", 9891.3Smw majdev, sizeof(devname) / sizeof(devname[0])); 9901.3Smw#endif 9911.3Smw return; 9921.3Smw } 9931.1Smw adaptor = (bootdev >> B_ADAPTORSHIFT) & B_ADAPTORMASK; 9941.1Smw part = (bootdev >> B_PARTITIONSHIFT) & B_PARTITIONMASK; 9951.1Smw unit = (bootdev >> B_UNITSHIFT) & B_UNITMASK; 9961.3Smw 9971.3Smw /* First, find the controller type which support this device. 9981.3Smw 9991.3Smw Can have more than one controller for the same device, with 10001.3Smw just one of them configured, so test for ad->amiga_cdriver != 0 10011.3Smw too. */ 10021.3Smw 10031.1Smw for (ad = amiga_dinit; ad->amiga_driver; ad++) 10041.3Smw { 10051.3Smw if (ad->amiga_driver->d_name[0] != devname[majdev][0] 10061.3Smw || ad->amiga_driver->d_name[1] != devname[majdev][1]) 10071.3Smw continue; 10081.3Smw 10091.3Smw /* 10101.3Smw * Next, find the controller of that type corresponding to 10111.3Smw * the adaptor number. 10121.3Smw */ 10131.3Smw for (ac = amiga_cinit; ac->amiga_driver; ac++) 10141.3Smw if (ac->amiga_alive && ac->amiga_unit == adaptor && 10151.3Smw ac->amiga_driver == ad->amiga_cdriver) 10161.3Smw goto found_it; 10171.3Smw } 10181.3Smw 10191.3Smw/* could also place after test, but I'd like to be on the safe side */ 10201.3Smwfound_it: 10211.1Smw if (ad->amiga_driver == 0) 10221.3Smw { 10231.3Smw#ifdef DEBUG 10241.3Smw if (acdebug > 1) 10251.3Smw printf ("returning due to: amiga_driver == 0\n"); 10261.3Smw#endif 10271.3Smw return; 10281.3Smw } 10291.3Smw 10301.1Smw /* 10311.1Smw * Finally, find the device in question attached to that controller. 10321.1Smw */ 10331.1Smw for (ad = amiga_dinit; ad->amiga_driver; ad++) 10341.1Smw if (ad->amiga_alive && ad->amiga_slave == unit && 10351.1Smw ad->amiga_cdriver == ac->amiga_driver && 10361.1Smw ad->amiga_ctlr == ac->amiga_unit) 10371.1Smw break; 10381.1Smw if (ad->amiga_driver == 0) 10391.3Smw { 10401.3Smw#ifdef DEBUG 10411.3Smw if (acdebug > 1) 10421.3Smw printf ("returning due to: no device\n"); 10431.3Smw#endif 10441.3Smw return; 10451.3Smw } 10461.1Smw mindev = ad->amiga_unit; 10471.1Smw /* 10481.1Smw * Form a new rootdev 10491.1Smw */ 10501.1Smw mindev = (mindev << PARTITIONSHIFT) + part; 10511.1Smw orootdev = rootdev; 10521.1Smw rootdev = makedev(majdev, mindev); 10531.1Smw /* 10541.1Smw * If the original rootdev is the same as the one 10551.1Smw * just calculated, don't need to adjust the swap configuration. 10561.1Smw */ 10571.1Smw if (rootdev == orootdev) 10581.3Smw { 10591.3Smw#ifdef DEBUG 10601.3Smw if (acdebug > 1) 10611.3Smw printf ("returning due to: new root == old root\n"); 10621.3Smw#endif 10631.3Smw return; 10641.3Smw } 10651.3Smw 10661.3Smw 10671.1Smw 10681.1Smw printf("Changing root device to %c%c%d%c\n", 10691.1Smw devname[majdev][0], devname[majdev][1], 10701.1Smw mindev >> PARTITIONSHIFT, part + 'a'); 10711.1Smw 10721.1Smw#ifdef DOSWAP 10731.1Smw mindev &= ~PARTITIONMASK; 10741.1Smw for (swp = swdevt; swp->sw_dev; swp++) { 10751.1Smw if (majdev == major(swp->sw_dev) && 10761.1Smw mindev == (minor(swp->sw_dev) & ~PARTITIONMASK)) { 10771.1Smw temp = swdevt[0].sw_dev; 10781.1Smw swdevt[0].sw_dev = swp->sw_dev; 10791.1Smw swp->sw_dev = temp; 10801.1Smw break; 10811.1Smw } 10821.1Smw } 10831.1Smw if (swp->sw_dev == 0) 10841.1Smw return; 10851.1Smw 10861.1Smw /* 10871.1Smw * If dumpdev was the same as the old primary swap 10881.1Smw * device, move it to the new primary swap device. 10891.1Smw */ 10901.1Smw if (temp == dumpdev) 10911.1Smw dumpdev = swdevt[0].sw_dev; 10921.1Smw#endif 10931.3Smw} 10941.3Smw 10951.3Smw/* try to determine, of this machine is an A3000, which has a builtin 10961.3Smw realtime clock and scsi controller, so that this hardware is only 10971.3Smw included as "configured" if this IS an A3000 */ 10981.5Smw 10991.5Smwint a3000_flag = 1; /* patchable */ 11001.5Smw#ifdef A4000 11011.5Smwint a4000_flag = 1; /* patchable - default to A4000 */ 11021.5Smw#else 11031.5Smwint a4000_flag = 0; /* patchable */ 11041.5Smw#endif 11051.5Smw 11061.3Smwint 11071.3Smwis_a3000 () 11081.3Smw{ 11091.3Smw /* this is a dirty kludge.. but how do you do this RIGHT ? :-) */ 11101.3Smw extern long orig_fastram_start; 11111.5Smw short sc; 11121.5Smw extern int num_ConfigDev; 11131.5Smw extern struct ConfigDev *ConfigDev; 11141.5Smw struct ConfigDev *cd; 11151.3Smw 11161.3Smw /* where is fastram on the A4000 ?? */ 11171.5Smw /* if fastram is below 0x07000000, assume it's not an A3000 */ 11181.5Smw if (orig_fastram_start < 0x07000000) 11191.5Smw return (0); 11201.5Smw 11211.5Smw /* OK, fastram starts at or above 0x07000000, check specific machines */ 11221.5Smw for (sc = 0, cd = ConfigDev; sc < num_ConfigDev; sc++, cd++) { 11231.5Smw switch (cd->cd_Rom.er_Manufacturer) { 11241.5Smw case MANUF_PPI: /* Progressive Peripherals, Inc */ 11251.5Smw switch (cd->cd_Rom.er_Product) { 11261.5Smw#if 0 11271.5Smw case PROD_PPI_MECURY: /* PPI Mecury - it's an A3000 */ 11281.5Smw return (1); 11291.5Smw case PROD_PPI_2000: 11301.5Smw case PROD_PPI_500: 11311.5Smw#endif 11321.5Smw case PROD_PPI_ZEUS: 11331.5Smw return (0); 11341.5Smw } 11351.5Smw } 11361.5Smw } 11371.5Smw /* assume it's an A3000 */ 11381.5Smw return (a3000_flag); 11391.5Smw} 11401.5Smw 11411.5Smwint 11421.5Smwis_a4000 () 11431.5Smw{ 11441.5Smw /* This is a real dirty kludge.. */ 11451.5Smw return (a4000_flag); 11461.1Smw} 1147