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|
/* $OpenBSD: autoconf.c,v 1.29 1999/01/11 05:11:58 millert Exp $ */
/* $NetBSD: autoconf.c,v 1.73 1997/07/29 09:41:53 fair Exp $ */
/*
* Copyright (c) 1996
* The President and Fellows of Harvard College. All rights reserved.
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This software was developed by the Computer Systems Engineering group
* at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
* contributed to Berkeley.
*
* All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Harvard University.
* This product includes software developed by the University of
* California, Lawrence Berkeley Laboratory.
*
* 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.
*
* @(#)autoconf.c 8.4 (Berkeley) 10/1/93
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/map.h>
#include <sys/buf.h>
#include <sys/disklabel.h>
#include <sys/device.h>
#include <sys/disk.h>
#include <sys/dkstat.h>
#include <sys/conf.h>
#include <sys/dmap.h>
#include <sys/reboot.h>
#include <sys/socket.h>
#include <sys/malloc.h>
#include <sys/queue.h>
#include <net/if.h>
#include <dev/cons.h>
#include <vm/vm.h>
#include <machine/autoconf.h>
#include <machine/bsd_openprom.h>
#ifdef SUN4
#include <machine/oldmon.h>
#include <machine/idprom.h>
#include <sparc/sparc/memreg.h>
#endif
#include <machine/cpu.h>
#include <machine/ctlreg.h>
#include <machine/pmap.h>
#include <sparc/sparc/asm.h>
#include <sparc/sparc/cpuvar.h>
#include <sparc/sparc/timerreg.h>
#ifdef DDB
#include <machine/db_machdep.h>
#include <ddb/db_sym.h>
#include <ddb/db_extern.h>
#endif
/*
* The following several variables are related to
* the configuration process, and are used in initializing
* the machine.
*/
int cold; /* if 1, still working on cold-start */
int fbnode; /* node ID of ROM's console frame buffer */
int optionsnode; /* node ID of ROM's options */
int mmu_3l; /* SUN4_400 models have a 3-level MMU */
#ifdef KGDB
extern int kgdb_debug_panic;
#endif
static int rootnode;
void setroot __P((void));
static char *str2hex __P((char *, int *));
static int getstr __P((char *, int));
static int findblkmajor __P((struct device *));
static struct device *getdisk __P((char *, int, int, dev_t *));
static int mbprint __P((void *, const char *));
static void crazymap __P((char *, int *));
int st_crazymap __P((int));
void swapconf __P((void));
void sync_crash __P((void));
int mainbus_match __P((struct device *, void *, void *));
static void mainbus_attach __P((struct device *, struct device *, void *));
struct bootpath bootpath[8];
int nbootpath;
static void bootpath_build __P((void));
static void bootpath_fake __P((struct bootpath *, char *));
static void bootpath_print __P((struct bootpath *));
int search_prom __P((int, char *));
char mainbus_model[30];
/*
* The mountroot_hook is provided as a mechanism for devices to perform
* a special function if they're the root device, such as the floppy
* drive ejecting the current disk and prompting for a filesystem floppy.
*/
struct mountroot_hook {
LIST_ENTRY(mountroot_hook) mr_link;
struct device *mr_device;
void (*mr_func) __P((struct device *));
};
LIST_HEAD(, mountroot_hook) mrh_list;
/*
* Most configuration on the SPARC is done by matching OPENPROM Forth
* device names with our internal names.
*/
int
matchbyname(parent, vcf, aux)
struct device *parent;
void *aux, *vcf;
{
struct cfdata *cf = vcf;
struct confargs *ca = aux;
if (CPU_ISSUN4) {
printf("WARNING: matchbyname not valid on sun4!");
printf("%s\n", cf->cf_driver->cd_name);
return (0);
}
return (strcmp(cf->cf_driver->cd_name, ca->ca_ra.ra_name) == 0);
}
/*
* Convert hex ASCII string to a value. Returns updated pointer.
* Depends on ASCII order (this *is* machine-dependent code, you know).
*/
static char *
str2hex(str, vp)
register char *str;
register int *vp;
{
register int v, c;
for (v = 0;; v = v * 16 + c, str++) {
c = *(u_char *)str;
if (c <= '9') {
if ((c -= '0') < 0)
break;
} else if (c <= 'F') {
if ((c -= 'A' - 10) < 10)
break;
} else if (c <= 'f') {
if ((c -= 'a' - 10) < 10)
break;
} else
break;
}
*vp = v;
return (str);
}
#ifdef SUN4
struct promvec promvecdat;
struct om_vector *oldpvec = (struct om_vector *)PROM_BASE;
#endif
/*
* locore.s code calls bootstrap() just before calling main(), after double
* mapping the kernel to high memory and setting up the trap base register.
* We must finish mapping the kernel properly and glean any bootstrap info.
*/
void
bootstrap()
{
extern int msgbufmapped;
#if defined(SUN4)
if (CPU_ISSUN4) {
extern void oldmon_w_cmd __P((u_long, char *));
extern struct msgbuf *msgbufp;
/*
* XXX
* Some boot programs mess up physical page 0, which
* is where we want to put the msgbuf. There's some
* room, so shift it over half a page.
*/
msgbufp = (struct msgbuf *)((caddr_t) msgbufp + 4096);
/*
* XXX:
* The promvec is bogus. We need to build a
* fake one from scratch as soon as possible.
*/
bzero(&promvecdat, sizeof promvecdat);
promvec = &promvecdat;
promvec->pv_stdin = oldpvec->inSource;
promvec->pv_stdout = oldpvec->outSink;
promvec->pv_putchar = oldpvec->putChar;
promvec->pv_putstr = oldpvec->fbWriteStr;
promvec->pv_nbgetchar = oldpvec->mayGet;
promvec->pv_getchar = oldpvec->getChar;
promvec->pv_romvec_vers = 0; /* eek! */
promvec->pv_reboot = oldpvec->reBoot;
promvec->pv_abort = oldpvec->abortEntry;
promvec->pv_setctxt = oldpvec->setcxsegmap;
promvec->pv_v0bootargs = (struct v0bootargs **)(oldpvec->bootParam);
promvec->pv_halt = oldpvec->exitToMon;
/*
* Discover parts of the machine memory organization
* that we need this early.
*/
if (oldpvec->romvecVersion >= 2)
*oldpvec->vector_cmd = oldmon_w_cmd;
}
#endif /* SUN4 */
bzero(&cpuinfo, sizeof(struct cpu_softc));
cpuinfo.master = 1;
getcpuinfo(&cpuinfo, 0);
pmap_bootstrap(cpuinfo.mmu_ncontext,
cpuinfo.mmu_nregion,
cpuinfo.mmu_nsegment);
msgbufmapped = 1; /* enable message buffer */
#ifdef KGDB
zs_kgdb_init(); /* XXX */
#endif
#ifdef DDB
db_machine_init();
ddb_init();
#endif
/*
* On sun4ms we have to do some nasty stuff here. We need to map
* in the interrupt registers (since we need to find out where
* they are from the PROM, since they aren't in a fixed place), and
* disable all interrupts. We can't do this easily from locore
* since the PROM is ugly to use from assembly. We also need to map
* in the counter registers because we can't disable the level 14
* (statclock) interrupt, so we need a handler early on (ugh).
*
* NOTE: We *demand* the psl to stay at splhigh() at least until
* we get here. The system _cannot_ take interrupts until we map
* the interrupt registers.
*/
#if defined(SUN4M)
#define getpte4m(va) lda(((va) & 0xFFFFF000) | ASI_SRMMUFP_L3, ASI_SRMMUFP)
/* First we'll do the interrupt registers */
if (CPU_ISSUN4M) {
register int node;
struct romaux ra;
register u_int pte;
register int i;
extern void setpte4m __P((u_int, u_int));
extern struct timer_4m *timerreg_4m;
extern struct counter_4m *counterreg_4m;
if ((node = opennode("/obio/interrupt")) == 0)
if ((node=search_prom(findroot(),"interrupt"))==0)
panic("bootstrap: could not get interrupt "
"node from prom");
if (!romprop(&ra, "interrupt", node))
panic("bootstrap: could not get interrupt properties");
if (ra.ra_nvaddrs < 2)
panic("bootstrap: less than 2 interrupt regs. available");
if (ra.ra_nvaddrs > 5)
panic("bootstrap: cannot support capability of > 4 CPUs");
for (i = 0; i < ra.ra_nvaddrs - 1; i++) {
pte = getpte4m((u_int)ra.ra_vaddrs[i]);
if ((pte & SRMMU_TETYPE) != SRMMU_TEPTE)
panic("bootstrap: PROM has invalid mapping for "
"processor interrupt register %d",i);
pte |= PPROT_S;
/* Duplicate existing mapping */
setpte4m(PI_INTR_VA + (_MAXNBPG * i), pte);
}
/*
* That was the processor register...now get system register;
* it is the last returned by the PROM
*/
pte = getpte4m((u_int)ra.ra_vaddrs[i]);
if ((pte & SRMMU_TETYPE) != SRMMU_TEPTE)
panic("bootstrap: PROM has invalid mapping for system "
"interrupt register");
pte |= PPROT_S;
setpte4m(SI_INTR_VA, pte);
/* Now disable interrupts */
ienab_bis(SINTR_MA);
/* Send all interrupts to primary processor */
*((u_int *)ICR_ITR) = 0;
#ifdef DEBUG
/* printf("SINTR: mask: 0x%x, pend: 0x%x\n", *(int*)ICR_SI_MASK,
*(int*)ICR_SI_PEND);
*/
#endif
/*
* Now map in the counters
* (XXX: fix for multiple CPUs! We assume 1)
* The processor register is the first; the system is the last.
* See also timerattach() in clock.c.
* This shouldn't be necessary; we ought to keep interrupts off
* and/or disable the (level 14) counter...
*/
if ((node = opennode("/obio/counter")) == 0)
if ((node=search_prom(findroot(),"counter"))==0)
panic("bootstrap: could not find counter in OPENPROM");
if (!romprop(&ra, "counter", node))
panic("bootstrap: could not find counter properties");
counterreg_4m = (struct counter_4m *)ra.ra_vaddrs[0];
timerreg_4m = (struct timer_4m *)ra.ra_vaddrs[ra.ra_nvaddrs-1];
}
#endif /* SUN4M */
if (CPU_ISSUN4OR4C) {
/* Map Interrupt Enable Register */
pmap_enter(pmap_kernel(), INTRREG_VA,
INT_ENABLE_REG_PHYSADR | PMAP_NC | PMAP_OBIO,
VM_PROT_READ | VM_PROT_WRITE, 1);
/* Disable all interrupts */
*((unsigned char *)INTRREG_VA) = 0;
}
}
/*
* bootpath_build: build a bootpath. Used when booting a generic
* kernel to find our root device. Newer proms give us a bootpath,
* for older proms we have to create one. An element in a bootpath
* has 4 fields: name (device name), val[0], val[1], and val[2]. Note that:
* Interpretation of val[] is device-dependent. Some examples:
*
* if (val[0] == -1) {
* val[1] is a unit number (happens most often with old proms)
* } else {
* [sbus device] val[0] is a sbus slot, and val[1] is an sbus offset
* [scsi disk] val[0] is target, val[1] is lun, val[2] is partition
* [scsi tape] val[0] is target, val[1] is lun, val[2] is file #
* }
*
*/
static void
bootpath_build()
{
register char *cp, *pp;
register struct bootpath *bp;
/*
* On SS1s, promvec->pv_v0bootargs->ba_argv[1] contains the flags
* that were given after the boot command. On SS2s, pv_v0bootargs
* is NULL but *promvec->pv_v2bootargs.v2_bootargs points to
* "vmunix -s" or whatever.
* XXX DO THIS BEFORE pmap_boostrap?
*/
bzero(bootpath, sizeof(bootpath));
bp = bootpath;
if (promvec->pv_romvec_vers < 2) {
/*
* Grab boot device name and values. build fake bootpath.
*/
cp = (*promvec->pv_v0bootargs)->ba_argv[0];
if (cp != NULL)
bootpath_fake(bp, cp);
bootpath_print(bootpath);
/* Setup pointer to boot flags */
cp = (*promvec->pv_v0bootargs)->ba_argv[1];
if (cp == NULL || *cp != '-')
return;
} else {
/*
* Grab boot path from PROM
*/
cp = *promvec->pv_v2bootargs.v2_bootpath;
while (cp != NULL && *cp == '/') {
/* Step over '/' */
++cp;
/* Extract name */
pp = bp->name;
while (*cp != '@' && *cp != '/' && *cp != '\0')
*pp++ = *cp++;
*pp = '\0';
if (*cp == '@') {
cp = str2hex(++cp, &bp->val[0]);
if (*cp == ',')
cp = str2hex(++cp, &bp->val[1]);
if (*cp == ':')
/* XXX - we handle just one char */
bp->val[2] = *++cp - 'a', ++cp;
} else {
bp->val[0] = -1; /* no #'s: assume unit 0, no
sbus offset/adddress */
}
++bp;
++nbootpath;
}
bp->name[0] = 0;
bootpath_print(bootpath);
/* Setup pointer to boot flags */
cp = *promvec->pv_v2bootargs.v2_bootargs;
if (cp == NULL)
return;
while (*cp != '-')
if (*cp++ == '\0')
return;
}
for (;;) {
switch (*++cp) {
case '\0':
return;
case 'a':
boothowto |= RB_ASKNAME;
break;
case 'b':
boothowto |= RB_DFLTROOT;
break;
case 'd': /* kgdb - always on zs XXX */
#ifdef KGDB
boothowto |= RB_KDB; /* XXX unused */
kgdb_debug_panic = 1;
kgdb_connect(1);
#elif DDB
Debugger();
#else
printf("kernel not compiled with KGDB\n");
#endif
break;
case 's':
boothowto |= RB_SINGLE;
break;
}
}
}
/*
* Fake a ROM generated bootpath.
* The argument `cp' points to a string such as "xd(0,0,0)netbsd"
*/
static void
bootpath_fake(bp, cp)
struct bootpath *bp;
char *cp;
{
register char *pp;
int v0val[3];
#define BP_APPEND(BP,N,V0,V1,V2) { \
strcpy((BP)->name, N); \
(BP)->val[0] = (V0); \
(BP)->val[1] = (V1); \
(BP)->val[2] = (V2); \
(BP)++; \
nbootpath++; \
}
#if defined(SUN4)
if (CPU_ISSUN4M) {
printf("twas brillig..\n");
return;
}
#endif
pp = cp + 2;
v0val[0] = v0val[1] = v0val[2] = 0;
if (*pp == '(' /* for vi: ) */
&& *(pp = str2hex(++pp, &v0val[0])) == ','
&& *(pp = str2hex(++pp, &v0val[1])) == ',')
(void)str2hex(++pp, &v0val[2]);
#if defined(SUN4)
if (CPU_ISSUN4) {
char tmpname[8];
/*
* xylogics VME dev: xd, xy, xt
* fake looks like: /vmel0/xdc0/xd@1,0
*/
if (cp[0] == 'x') {
if (cp[1] == 'd') {/* xd? */
BP_APPEND(bp, "vmel", -1, 0, 0);
} else {
BP_APPEND(bp, "vmes", -1, 0, 0);
}
sprintf(tmpname,"x%cc", cp[1]); /* e.g. xdc */
BP_APPEND(bp, tmpname,-1, v0val[0], 0);
sprintf(tmpname,"%c%c", cp[0], cp[1]);
BP_APPEND(bp, tmpname,v0val[1], v0val[2], 0); /* e.g. xd */
return;
}
/*
* ethernet: ie, le (rom supports only obio?)
* fake looks like: /obio0/le0
*/
if ((cp[0] == 'i' || cp[0] == 'l') && cp[1] == 'e') {
BP_APPEND(bp, "obio", -1, 0, 0);
sprintf(tmpname,"%c%c", cp[0], cp[1]);
BP_APPEND(bp, tmpname, -1, 0, 0);
return;
}
/*
* scsi: sd, st, sr
* assume: 4/100 = sw: /obio0/sw0/sd@0,0:a
* 4/200 & 4/400 = si/sc: /vmes0/si0/sd@0,0:a
* 4/300 = esp: /obio0/esp0/sd@0,0:a
* (note we expect sc to mimic an si...)
*/
if (cp[0] == 's' &&
(cp[1] == 'd' || cp[1] == 't' || cp[1] == 'r')) {
int target, lun;
switch (cpuinfo.cpu_type) {
case CPUTYP_4_200:
case CPUTYP_4_400:
BP_APPEND(bp, "vmes", -1, 0, 0);
BP_APPEND(bp, "si", -1, v0val[0], 0);
break;
case CPUTYP_4_100:
BP_APPEND(bp, "obio", -1, 0, 0);
BP_APPEND(bp, "sw", -1, v0val[0], 0);
break;
case CPUTYP_4_300:
BP_APPEND(bp, "obio", -1, 0, 0);
BP_APPEND(bp, "esp", -1, v0val[0], 0);
break;
default:
panic("bootpath_fake: unknown system type %d",
cpuinfo.cpu_type);
}
/*
* Deal with target/lun encodings.
* Note: more special casing in dk_establish().
*/
if (oldpvec->monId[0] > '1') {
target = v0val[1] >> 3; /* new format */
lun = v0val[1] & 0x7;
} else {
target = v0val[1] >> 2; /* old format */
lun = v0val[1] & 0x3;
}
sprintf(tmpname, "%c%c", cp[0], cp[1]);
BP_APPEND(bp, tmpname, target, lun, v0val[2]);
return;
}
return; /* didn't grok bootpath, no change */
}
#endif /* SUN4 */
#if defined(SUN4C)
/*
* sun4c stuff
*/
/*
* floppy: fd
* fake looks like: /fd@0,0:a
*/
if (cp[0] == 'f' && cp[1] == 'd') {
/*
* Assume `fd(c,u,p)' means:
* partition `p' on floppy drive `u' on controller `c'
*/
BP_APPEND(bp, "fd", v0val[0], v0val[1], v0val[2]);
return;
}
/*
* ethernet: le
* fake looks like: /sbus0/le0
*/
if (cp[0] == 'l' && cp[1] == 'e') {
BP_APPEND(bp, "sbus", -1, 0, 0);
BP_APPEND(bp, "le", -1, v0val[0], 0);
return;
}
/*
* scsi: sd, st, sr
* fake looks like: /sbus0/esp0/sd@3,0:a
*/
if (cp[0] == 's' && (cp[1] == 'd' || cp[1] == 't' || cp[1] == 'r')) {
char tmpname[8];
int target, lun;
BP_APPEND(bp, "sbus", -1, 0, 0);
BP_APPEND(bp, "esp", -1, v0val[0], 0);
if (cp[1] == 'r')
sprintf(tmpname, "cd"); /* netbsd uses 'cd', not 'sr'*/
else
sprintf(tmpname,"%c%c", cp[0], cp[1]);
/* XXX - is TARGET/LUN encoded in v0val[1]? */
target = v0val[1];
lun = 0;
BP_APPEND(bp, tmpname, target, lun, v0val[2]);
return;
}
#endif /* SUN4C */
/*
* unknown; return
*/
#undef BP_APPEND
}
/*
* print out the bootpath
* the %x isn't 0x%x because the Sun EPROMs do it this way, and
* consistency with the EPROMs is probably better here.
*/
static void
bootpath_print(bp)
struct bootpath *bp;
{
printf("bootpath: ");
while (bp->name[0]) {
if (bp->val[0] == -1)
printf("/%s%x", bp->name, bp->val[1]);
else
printf("/%s@%x,%x", bp->name, bp->val[0], bp->val[1]);
if (bp->val[2] != 0)
printf(":%c", bp->val[2] + 'a');
bp++;
}
printf("\n");
}
/*
* save or read a bootpath pointer from the boothpath store.
*
* XXX. required because of SCSI... we don't have control over the "sd"
* device, so we can't set boot device there. we patch in with
* dk_establish(), and use this to recover the bootpath.
*/
struct bootpath *
bootpath_store(storep, bp)
int storep;
struct bootpath *bp;
{
static struct bootpath *save;
struct bootpath *retval;
retval = save;
if (storep)
save = bp;
return (retval);
}
/*
* Set up the sd target mappings for non SUN4 PROMs.
* Find out about the real SCSI target, given the PROM's idea of the
* target of the (boot) device (i.e., the value in bp->v0val[0]).
*/
static void
crazymap(prop, map)
char *prop;
int *map;
{
int i;
char *propval;
if (!CPU_ISSUN4 && promvec->pv_romvec_vers < 2) {
/*
* Machines with real v0 proms have an `s[dt]-targets' property
* which contains the mapping for us to use. v2 proms donot
* require remapping.
*/
propval = getpropstring(optionsnode, prop);
if (propval == NULL || strlen(propval) != 8) {
build_default_map:
printf("WARNING: %s map is bogus, using default\n",
prop);
for (i = 0; i < 8; ++i)
map[i] = i;
i = map[0];
map[0] = map[3];
map[3] = i;
return;
}
for (i = 0; i < 8; ++i) {
map[i] = propval[i] - '0';
if (map[i] < 0 ||
map[i] >= 8)
goto build_default_map;
}
} else {
/*
* Set up the identity mapping for old sun4 monitors
* and v[2-] OpenPROMs. Note: dkestablish() does the
* SCSI-target juggling for sun4 monitors.
*/
for (i = 0; i < 8; ++i)
map[i] = i;
}
}
int
sd_crazymap(n)
int n;
{
static int prom_sd_crazymap[8]; /* static: compute only once! */
static int init = 0;
if (init == 0) {
crazymap("sd-targets", prom_sd_crazymap);
init = 1;
}
return prom_sd_crazymap[n];
}
int
st_crazymap(n)
int n;
{
static int prom_st_crazymap[8]; /* static: compute only once! */
static int init = 0;
if (init == 0) {
crazymap("st-targets", prom_st_crazymap);
init = 1;
}
return prom_st_crazymap[n];
}
/*
* Determine mass storage and memory configuration for a machine.
* We get the PROM's root device and make sure we understand it, then
* attach it as `mainbus0'. We also set up to handle the PROM `sync'
* command.
*/
void
configure()
{
struct confargs oca;
register int node = 0;
register char *cp;
/* Initialize the mountroot_hook list. */
LIST_INIT(&mrh_list);
/* build the bootpath */
bootpath_build();
#if defined(SUN4)
if (CPU_ISSUN4) {
extern struct cfdata cfdata[];
extern struct cfdriver memreg_cd, obio_cd;
struct cfdata *cf, *memregcf = NULL;
register short *p;
struct rom_reg rr;
for (cf = cfdata; memregcf==NULL && cf->cf_driver; cf++) {
if (cf->cf_driver != &memreg_cd ||
cf->cf_loc[0] == -1) /* avoid sun4m memreg0 */
continue;
/*
* On the 4/100 obio addresses must be mapped at
* 0x0YYYYYYY, but alias higher up (we avoid the
* alias condition because it causes pmap difficulties)
* XXX: We also assume that 4/[23]00 obio addresses
* must be 0xZYYYYYYY, where (Z != 0)
* make sure we get the correct memreg cfdriver!
*/
if (cpuinfo.cpu_type == CPUTYP_4_100 &&
(cf->cf_loc[0] & 0xf0000000))
continue;
if (cpuinfo.cpu_type != CPUTYP_4_100 &&
!(cf->cf_loc[0] & 0xf0000000))
continue;
for (p = cf->cf_parents; memregcf==NULL && *p >= 0; p++)
if (cfdata[*p].cf_driver == &obio_cd)
memregcf = cf;
}
if (memregcf == NULL)
panic("configure: no memreg found!");
rr.rr_iospace = PMAP_OBIO;
rr.rr_paddr = (void *)memregcf->cf_loc[0];
rr.rr_len = NBPG;
par_err_reg = (u_int *)bus_map(&rr, NBPG);
if (par_err_reg == NULL)
panic("configure: ROM hasn't mapped memreg!");
}
#endif
#if defined(SUN4C)
if (CPU_ISSUN4C) {
node = findroot();
cp = getpropstring(node, "device_type");
if (strcmp(cp, "cpu") != 0)
panic("PROM root device type = %s (need CPU)", cp);
}
#endif
#if defined(SUN4M)
if (CPU_ISSUN4M)
node = findroot();
#endif
*promvec->pv_synchook = sync_crash;
oca.ca_ra.ra_node = node;
oca.ca_ra.ra_name = cp = "mainbus";
if (config_rootfound(cp, (void *)&oca) == NULL)
panic("mainbus not configured");
/* Enable device interrupts */
#if defined(SUN4M)
if (CPU_ISSUN4M)
ienab_bic(SINTR_MA);
#endif
#if defined(SUN4) || defined(SUN4C)
if (CPU_ISSUN4OR4C)
ienab_bis(IE_ALLIE);
#endif
(void)spl0();
/*
* Configure swap area and related system
* parameter based on device(s) used.
*/
setroot();
swapconf();
cold = 0;
}
/*
* Console `sync' command. SunOS just does a `panic: zero' so I guess
* no one really wants anything fancy...
*/
void
sync_crash()
{
panic("PROM sync command");
}
char *
clockfreq(freq)
register int freq;
{
register char *p;
static char buf[10];
freq /= 1000;
sprintf(buf, "%d", freq / 1000);
freq %= 1000;
if (freq) {
freq += 1000; /* now in 1000..1999 */
p = buf + strlen(buf);
sprintf(p, "%d", freq);
*p = '.'; /* now buf = %d.%3d */
}
return (buf);
}
/* ARGSUSED */
static int
mbprint(aux, name)
void *aux;
const char *name;
{
register struct confargs *ca = aux;
if (name)
printf("%s at %s", ca->ca_ra.ra_name, name);
if (ca->ca_ra.ra_paddr)
printf(" %saddr 0x%x", ca->ca_ra.ra_iospace ? "io" : "",
(int)ca->ca_ra.ra_paddr);
return (UNCONF);
}
int
findroot()
{
register int node;
if ((node = rootnode) == 0 && (node = nextsibling(0)) == 0)
panic("no PROM root device");
rootnode = node;
return (node);
}
/*
* Given a `first child' node number, locate the node with the given name.
* Return the node number, or 0 if not found.
*/
int
findnode(first, name)
int first;
register const char *name;
{
register int node;
for (node = first; node; node = nextsibling(node))
if (strcmp(getpropstring(node, "name"), name) == 0)
return (node);
return (0);
}
/*
* Fill in a romaux. Returns 1 on success, 0 if the register property
* was not the right size.
*/
int
romprop(rp, cp, node)
register struct romaux *rp;
const char *cp;
register int node;
{
register int len;
union { char regbuf[256]; struct rom_reg rr[RA_MAXREG]; } u;
static const char pl[] = "property length";
bzero(u.regbuf, sizeof u);
len = getprop(node, "reg", (void *)u.regbuf, sizeof(u.regbuf));
if (len == -1 &&
node_has_property(node, "device_type") &&
strcmp(getpropstring(node, "device_type"), "hierarchical") == 0)
len = 0;
if (len % sizeof(struct rom_reg)) {
printf("%s \"reg\" %s = %d (need multiple of %d)\n",
cp, pl, len, sizeof(struct rom_reg));
return (0);
}
if (len > RA_MAXREG * sizeof(struct rom_reg))
printf("warning: %s \"reg\" %s %d > %d, excess ignored\n",
cp, pl, len, RA_MAXREG * sizeof(struct rom_reg));
rp->ra_node = node;
rp->ra_name = cp;
rp->ra_nreg = len / sizeof(struct rom_reg);
bcopy(u.rr, rp->ra_reg, len);
len = getprop(node, "address", (void *)rp->ra_vaddrs,
sizeof(rp->ra_vaddrs));
if (len == -1) {
rp->ra_vaddr = 0; /* XXX - driver compat */
len = 0;
}
if (len & 3) {
printf("%s \"address\" %s = %d (need multiple of 4)\n",
cp, pl, len);
len = 0;
}
rp->ra_nvaddrs = len >> 2;
len = getprop(node, "intr", (void *)&rp->ra_intr, sizeof rp->ra_intr);
if (len == -1)
len = 0;
if (len & 7) {
printf("%s \"intr\" %s = %d (need multiple of 8)\n",
cp, pl, len);
len = 0;
}
rp->ra_nintr = len >>= 3;
/* SPARCstation interrupts are not hardware-vectored */
while (--len >= 0) {
if (rp->ra_intr[len].int_vec) {
printf("WARNING: %s interrupt %d has nonzero vector\n",
cp, len);
break;
}
#if defined(SUN4M)
if (CPU_ISSUN4M) {
/* What's in these high bits anyway? */
rp->ra_intr[len].int_pri &= 0xf;
/* Look at "interrupts" property too? */
}
#endif
}
return (1);
}
int
mainbus_match(parent, self, aux)
struct device *parent;
void *self;
void *aux;
{
struct cfdata *cf = self;
register struct confargs *ca = aux;
register struct romaux *ra = &ca->ca_ra;
return (strcmp(cf->cf_driver->cd_name, ra->ra_name) == 0);
}
int autoconf_nzs = 0; /* must be global so obio.c can see it */
/*
* Attach the mainbus.
*
* Our main job is to attach the CPU (the root node we got in configure())
* and iterate down the list of `mainbus devices' (children of that node).
* We also record the `node id' of the default frame buffer, if any.
*/
static void
mainbus_attach(parent, dev, aux)
struct device *parent, *dev;
void *aux;
{
struct confargs oca;
register const char *const *ssp, *sp = NULL;
struct confargs *ca = aux;
#if defined(SUN4C) || defined(SUN4M)
register int node0, node;
const char *const *openboot_special;
#define L1A_HACK /* XXX hack to allow L1-A during autoconf */
#ifdef L1A_HACK
int audio = 0;
#endif
#endif
#if defined(SUN4)
static const char *const oldmon_special[] = {
"vmel",
"vmes",
"led",
NULL
};
#endif /* SUN4 */
#if defined(SUN4C)
static const char *const openboot_special4c[] = {
/* find these first (end with empty string) */
"memory-error", /* as early as convenient, in case of error */
"eeprom",
"counter-timer",
"auxiliary-io",
"",
/* ignore these (end with NULL) */
"aliases",
"interrupt-enable",
"memory",
"openprom",
"options",
"packages",
"virtual-memory",
NULL
};
#else
#define openboot_special4c ((void *)0)
#endif
#if defined(SUN4M)
static const char *const openboot_special4m[] = {
/* find these first */
"obio", /* smart enough to get eeprom/etc mapped */
"",
/* ignore these (end with NULL) */
/*
* These are _root_ devices to ignore. Others must be handled
* elsewhere.
*/
"SUNW,sx", /* XXX: no driver for SX yet */
"eccmemctl",
"virtual-memory",
"aliases",
"memory",
"openprom",
"options",
"packages",
/* we also skip any nodes with device_type == "cpu" */
NULL
};
#else
#define openboot_special4m ((void *)0)
#endif
if (CPU_ISSUN4)
sprintf(mainbus_model, "SUN-4/%d series", cpuinfo.classlvl);
else
strcat(mainbus_model, getpropstring(ca->ca_ra.ra_node, "name"));
printf(": %s\n", mainbus_model);
/*
* Locate and configure the ``early'' devices. These must be
* configured before we can do the rest. For instance, the
* EEPROM contains the Ethernet address for the LANCE chip.
* If the device cannot be located or configured, panic.
*/
#if defined(SUN4)
if (CPU_ISSUN4) {
/* Configure the CPU. */
bzero(&oca, sizeof(oca));
oca.ca_ra.ra_name = "cpu";
(void)config_found(dev, (void *)&oca, mbprint);
/* Start at the beginning of the bootpath */
bzero(&oca, sizeof(oca));
oca.ca_ra.ra_bp = bootpath;
oca.ca_bustype = BUS_MAIN;
oca.ca_ra.ra_name = "obio";
if (config_found(dev, (void *)&oca, mbprint) == NULL)
panic("obio missing");
for (ssp = oldmon_special; (sp = *ssp) != NULL; ssp++) {
oca.ca_bustype = BUS_MAIN;
oca.ca_ra.ra_name = sp;
(void)config_found(dev, (void *)&oca, mbprint);
}
return;
}
#endif
/*
* The rest of this routine is for OBP machines exclusively.
*/
#if defined(SUN4C) || defined(SUN4M)
openboot_special = CPU_ISSUN4M
? openboot_special4m
: openboot_special4c;
node = ca->ca_ra.ra_node; /* i.e., the root node */
/* the first early device to be configured is the cpu */
if (CPU_ISSUN4M) {
/* XXX - what to do on multiprocessor machines? */
register const char *cp;
for (node = firstchild(node); node; node = nextsibling(node)) {
cp = getpropstring(node, "device_type");
if (strcmp(cp, "cpu") == 0) {
bzero(&oca, sizeof(oca));
oca.ca_ra.ra_node = node;
oca.ca_ra.ra_name = "cpu";
oca.ca_ra.ra_paddr = 0;
oca.ca_ra.ra_nreg = 0;
config_found(dev, (void *)&oca, mbprint);
}
}
} else if (CPU_ISSUN4C) {
bzero(&oca, sizeof(oca));
oca.ca_ra.ra_node = node;
oca.ca_ra.ra_name = "cpu";
oca.ca_ra.ra_paddr = 0;
oca.ca_ra.ra_nreg = 0;
config_found(dev, (void *)&oca, mbprint);
}
node = ca->ca_ra.ra_node; /* re-init root node */
if (promvec->pv_romvec_vers <= 2)
/* remember which frame buffer, if any, is to be /dev/fb */
fbnode = getpropint(node, "fb", 0);
/* Find the "options" node */
node0 = firstchild(node);
optionsnode = findnode(node0, "options");
if (optionsnode == 0)
panic("no options in OPENPROM");
/* Start at the beginning of the bootpath */
oca.ca_ra.ra_bp = bootpath;
for (ssp = openboot_special; *(sp = *ssp) != 0; ssp++) {
if ((node = findnode(node0, sp)) == 0) {
printf("could not find %s in OPENPROM\n", sp);
panic(sp);
}
oca.ca_bustype = BUS_MAIN;
if (!romprop(&oca.ca_ra, sp, node) ||
(config_found(dev, (void *)&oca, mbprint) == NULL))
panic(sp);
}
/*
* Configure the rest of the devices, in PROM order. Skip
* PROM entries that are not for devices, or which must be
* done before we get here.
*/
for (node = node0; node; node = nextsibling(node)) {
register const char *cp;
#if defined(SUN4M)
if (CPU_ISSUN4M) /* skip the CPUs */
if (node_has_property(node, "device_type") &&
!strcmp(getpropstring(node, "device_type"), "cpu"))
continue;
#endif
cp = getpropstring(node, "name");
for (ssp = openboot_special; (sp = *ssp) != NULL; ssp++)
if (strcmp(cp, sp) == 0)
break;
if (sp == NULL && romprop(&oca.ca_ra, cp, node)) {
#ifdef L1A_HACK
if (strcmp(cp, "audio") == 0)
audio = 1;
if (strcmp(cp, "zs") == 0)
autoconf_nzs++;
if (/*audio &&*/ autoconf_nzs >= 2) /*XXX*/
(void) splx(11 << 8); /*XXX*/
#endif
oca.ca_bustype = BUS_MAIN;
(void) config_found(dev, (void *)&oca, mbprint);
}
}
#endif /* SUN4C || SUN4M */
}
struct cfattach mainbus_ca = {
sizeof(struct device), mainbus_match, mainbus_attach
};
struct cfdriver mainbus_cd = {
NULL, "mainbus", DV_DULL
};
/*
* findzs() is called from the zs driver (which is, at least in theory,
* generic to any machine with a Zilog ZSCC chip). It should return the
* address of the corresponding zs channel. It may not fail, and it
* may be called before the VM code can be used. Here we count on the
* FORTH PROM to map in the required zs chips.
*/
void *
findzs(zs)
int zs;
{
#if defined(SUN4)
#define ZS0_PHYS 0xf1000000
#define ZS1_PHYS 0xf0000000
#define ZS2_PHYS 0xe0000000
if (CPU_ISSUN4) {
struct rom_reg rr;
register void *vaddr;
switch (zs) {
case 0:
rr.rr_paddr = (void *)ZS0_PHYS;
break;
case 1:
rr.rr_paddr = (void *)ZS1_PHYS;
break;
case 2:
rr.rr_paddr = (void *)ZS2_PHYS;
break;
default:
panic("findzs: unknown zs device %d", zs);
}
rr.rr_iospace = PMAP_OBIO;
rr.rr_len = NBPG;
vaddr = bus_map(&rr, NBPG);
if (vaddr)
return (vaddr);
}
#endif
#if defined(SUN4C) || defined(SUN4M)
if (CPU_ISSUN4COR4M) {
register int node, addr;
node = firstchild(findroot());
if (CPU_ISSUN4M) { /* zs is in "obio" tree on Sun4M */
node = findnode(node, "obio");
if (!node)
panic("findzs: no obio node");
node = firstchild(node);
}
while ((node = findnode(node, "zs")) != 0) {
if (getpropint(node, "slave", -1) == zs) {
if ((addr = getpropint(node, "address", 0)) == 0)
panic("findzs: zs%d not mapped by PROM", zs);
return ((void *)addr);
}
node = nextsibling(node);
}
}
#endif
panic("findzs: cannot find zs%d", zs);
/* NOTREACHED */
}
int
makememarr(ap, max, which)
register struct memarr *ap;
int max, which;
{
#if defined(SUN4C) || defined(SUN4M)
struct v2rmi {
int zero;
int addr;
int len;
} v2rmi[200]; /* version 2 rom meminfo layout */
#define MAXMEMINFO (sizeof(v2rmi) / sizeof(*v2rmi))
register struct v0mlist *mp;
register int i, node, len;
char *prop;
#endif
#if defined(SUN4)
if (CPU_ISSUN4) {
switch (which) {
case MEMARR_AVAILPHYS:
ap[0].addr = 0;
ap[0].len = *oldpvec->memoryAvail;
break;
case MEMARR_TOTALPHYS:
ap[0].addr = 0;
ap[0].len = *oldpvec->memorySize;
break;
default:
printf("pre_panic: makememarr");
break;
}
return (1);
}
#endif
#if defined(SUN4C) || defined(SUN4M)
switch (i = promvec->pv_romvec_vers) {
case 0:
/*
* Version 0 PROMs use a linked list to describe these
* guys.
*/
switch (which) {
case MEMARR_AVAILPHYS:
mp = *promvec->pv_v0mem.v0_physavail;
break;
case MEMARR_TOTALPHYS:
mp = *promvec->pv_v0mem.v0_phystot;
break;
default:
panic("makememarr");
}
for (i = 0; mp != NULL; mp = mp->next, i++) {
if (i >= max)
goto overflow;
ap->addr = (u_int)mp->addr;
ap->len = mp->nbytes;
ap++;
}
break;
default:
printf("makememarr: hope version %d PROM is like version 2\n",
i);
/* FALLTHROUGH */
case 3:
case 2:
/*
* Version 2 PROMs use a property array to describe them.
*/
if (max > MAXMEMINFO) {
printf("makememarr: limited to %d\n", MAXMEMINFO);
max = MAXMEMINFO;
}
if ((node = findnode(firstchild(findroot()), "memory")) == 0)
panic("makememarr: cannot find \"memory\" node");
switch (which) {
case MEMARR_AVAILPHYS:
prop = "available";
break;
case MEMARR_TOTALPHYS:
prop = "reg";
break;
default:
panic("makememarr");
}
len = getprop(node, prop, (void *)v2rmi, sizeof v2rmi) /
sizeof(struct v2rmi);
for (i = 0; i < len; i++) {
if (i >= max)
goto overflow;
ap->addr = v2rmi[i].addr;
ap->len = v2rmi[i].len;
ap++;
}
break;
}
/*
* Success! (Hooray)
*/
if (i == 0)
panic("makememarr: no memory found");
return (i);
overflow:
/*
* Oops, there are more things in the PROM than our caller
* provided space for. Truncate any extras.
*/
printf("makememarr: WARNING: lost some memory\n");
return (i);
#endif
}
/*
* Internal form of getprop(). Returns the actual length.
*/
int
getprop(node, name, buf, bufsiz)
int node;
char *name;
void *buf;
register int bufsiz;
{
#if defined(SUN4C) || defined(SUN4M)
register struct nodeops *no;
register int len;
#endif
#if defined(SUN4)
if (CPU_ISSUN4) {
printf("WARNING: getprop not valid on sun4! %s\n", name);
return (0);
}
#endif
#if defined(SUN4C) || defined(SUN4M)
no = promvec->pv_nodeops;
len = no->no_proplen(node, name);
if (len > bufsiz) {
printf("node 0x%x property %s length %d > %d\n",
node, name, len, bufsiz);
#ifdef DEBUG
panic("getprop");
#else
return (0);
#endif
}
no->no_getprop(node, name, buf);
return (len);
#endif
}
/*
* Internal form of proplen(). Returns the property length.
*/
int
getproplen(node, name)
int node;
char *name;
{
register struct nodeops *no = promvec->pv_nodeops;
return (no->no_proplen(node, name));
}
/*
* Return a string property. There is a (small) limit on the length;
* the string is fetched into a static buffer which is overwritten on
* subsequent calls.
*/
char *
getpropstring(node, name)
int node;
char *name;
{
register int len;
static char stringbuf[32];
len = getprop(node, name, (void *)stringbuf, sizeof stringbuf - 1);
if (len == -1)
len = 0;
stringbuf[len] = '\0'; /* usually unnecessary */
return (stringbuf);
}
/*
* Fetch an integer (or pointer) property.
* The return value is the property, or the default if there was none.
*/
int
getpropint(node, name, deflt)
int node;
char *name;
int deflt;
{
register int len;
char intbuf[16];
len = getprop(node, name, (void *)intbuf, sizeof intbuf);
if (len != 4)
return (deflt);
return (*(int *)intbuf);
}
/*
* OPENPROM functions. These are here mainly to hide the OPENPROM interface
* from the rest of the kernel.
*/
int
firstchild(node)
int node;
{
return (promvec->pv_nodeops->no_child(node));
}
int
nextsibling(node)
int node;
{
return (promvec->pv_nodeops->no_nextnode(node));
}
u_int hexatoi __P((const char *));
/* The following recursively searches a PROM tree for a given node */
int
search_prom(rootnode, name)
register int rootnode;
register char *name;
{
register int rtnnode;
register int node = rootnode;
if (node == findroot() || !strcmp("hierarchical",
getpropstring(node, "device_type")))
node = firstchild(node);
if (!node)
panic("search_prom: null node");
do {
if (strcmp(getpropstring(node, "name"),name) == 0)
return node;
if (node_has_property(node,"device_type") &&
(!strcmp(getpropstring(node, "device_type"),"hierarchical")
|| !strcmp(getpropstring(node, "name"),"iommu"))
&& (rtnnode = search_prom(node, name)) != 0)
return rtnnode;
} while ((node = nextsibling(node)));
return 0;
}
/* The following are used primarily in consinit() */
int
opennode(path) /* translate phys. device path to node */
register char *path;
{
register int fd;
if (promvec->pv_romvec_vers < 2) {
printf("WARNING: opennode not valid on sun4! %s\n", path);
return (0);
}
fd = promvec->pv_v2devops.v2_open(path);
if (fd == 0)
return 0;
return promvec->pv_v2devops.v2_fd_phandle(fd);
}
int
node_has_property(node, prop) /* returns 1 if node has given property */
register int node;
register const char *prop;
{
return ((*promvec->pv_nodeops->no_proplen)(node, (caddr_t)prop) != -1);
}
#ifdef RASTERCONSOLE
/* Pass a string to the FORTH PROM to be interpreted */
void
rominterpret(s)
register char *s;
{
if (promvec->pv_romvec_vers < 2)
promvec->pv_fortheval.v0_eval(strlen(s), s);
else
promvec->pv_fortheval.v2_eval(s);
}
/*
* Try to figure out where the PROM stores the cursor row & column
* variables. Returns nonzero on error.
*/
int
romgetcursoraddr(rowp, colp)
register int **rowp, **colp;
{
char buf[100];
/*
* line# and column# are global in older proms (rom vector < 2)
* and in some newer proms. They are local in version 2.9. The
* correct cutoff point is unknown, as yet; we use 2.9 here.
*/
if (promvec->pv_romvec_vers < 2 || promvec->pv_printrev < 0x00020009)
sprintf(buf,
"' line# >body >user %lx ! ' column# >body >user %lx !",
(u_long)rowp, (u_long)colp);
else
sprintf(buf,
"stdout @ is my-self addr line# %lx ! addr column# %lx !",
(u_long)rowp, (u_long)colp);
*rowp = *colp = NULL;
rominterpret(buf);
return (*rowp == NULL || *colp == NULL);
}
#endif
void
romhalt()
{
if (CPU_ISSUN4COR4M)
*promvec->pv_synchook = NULL;
promvec->pv_halt();
panic("PROM exit failed");
}
void
romboot(str)
char *str;
{
if (CPU_ISSUN4COR4M)
*promvec->pv_synchook = NULL;
promvec->pv_reboot(str);
panic("PROM boot failed");
}
void
callrom()
{
#if 0 /* sun4c FORTH PROMs do this for us */
if (CPU_ISSUN4)
fb_unblank();
#endif
promvec->pv_abort();
}
/*
* Configure swap space and related parameters.
*/
void
swapconf()
{
register struct swdevt *swp;
register int nblks;
for (swp = swdevt; swp->sw_dev != NODEV; swp++)
if (bdevsw[major(swp->sw_dev)].d_psize) {
nblks =
(*bdevsw[major(swp->sw_dev)].d_psize)(swp->sw_dev);
if (nblks != -1 &&
(swp->sw_nblks == 0 || swp->sw_nblks > nblks))
swp->sw_nblks = nblks;
swp->sw_nblks = ctod(dtoc(swp->sw_nblks));
}
dumpconf();
}
#if 0 /* Unused */
dev_t bootdev;
#endif
struct nam2blk {
char *name;
int maj;
} nam2blk[] = {
{ "xy", 3 },
{ "sd", 7 },
{ "xd", 10 },
{ "st", 11 },
{ "fd", 16 },
{ "rd", 17 },
{ "cd", 18 },
};
static int
findblkmajor(dv)
struct device *dv;
{
char *name = dv->dv_xname;
register int i;
for (i = 0; i < sizeof(nam2blk)/sizeof(nam2blk[0]); ++i)
if (strncmp(name, nam2blk[i].name, strlen(nam2blk[0].name)) == 0)
return (nam2blk[i].maj);
return (-1);
}
static struct device *
getdisk(str, len, defpart, devp)
char *str;
int len, defpart;
dev_t *devp;
{
register struct device *dv;
if ((dv = parsedisk(str, len, defpart, devp)) == NULL) {
printf("use one of:");
for (dv = alldevs.tqh_first; dv != NULL;
dv = dv->dv_list.tqe_next) {
if (dv->dv_class == DV_DISK)
printf(" %s[a-h]", dv->dv_xname);
#ifdef NFSCLIENT
if (dv->dv_class == DV_IFNET)
printf(" %s", dv->dv_xname);
#endif
}
printf("\n");
}
return (dv);
}
struct device *
parsedisk(str, len, defpart, devp)
char *str;
int len, defpart;
dev_t *devp;
{
register struct device *dv;
register char *cp, c;
int majdev, unit, part;
if (len == 0)
return (NULL);
cp = str + len - 1;
c = *cp;
if (c >= 'a' && (c - 'a') < MAXPARTITIONS) {
part = c - 'a';
*cp = '\0';
} else
part = defpart;
for (dv = alldevs.tqh_first; dv != NULL; dv = dv->dv_list.tqe_next) {
if (dv->dv_class == DV_DISK &&
strcmp(str, dv->dv_xname) == 0) {
majdev = findblkmajor(dv);
unit = dv->dv_unit;
if (majdev < 0)
panic("parsedisk");
*devp = MAKEDISKDEV(majdev, unit, part);
break;
}
#ifdef NFSCLIENT
if (dv->dv_class == DV_IFNET &&
strcmp(str, dv->dv_xname) == 0) {
*devp = NODEV;
break;
}
#endif
}
*cp = c;
return (dv);
}
void
mountroot_hook_establish(func, dev)
void (*func) __P((struct device *));
struct device *dev;
{
struct mountroot_hook *mrhp;
mrhp = (struct mountroot_hook *)malloc(sizeof(struct mountroot_hook),
M_DEVBUF, M_NOWAIT);
if (mrhp == NULL)
panic("no memory for mountroot_hook");
bzero(mrhp, sizeof(struct mountroot_hook));
mrhp->mr_device = dev;
mrhp->mr_func = func;
LIST_INSERT_HEAD(&mrh_list, mrhp, mr_link);
}
/*
* Attempt to find the device from which we were booted.
* If we can do so, and not instructed not to do so,
* change rootdev to correspond to the load device.
*
* XXX Actually, swap and root must be on the same type of device,
* (ie. DV_DISK or DV_IFNET) because of how (*mountroot) is written.
* That should be fixed.
*/
void
setroot()
{
register struct swdevt *swp;
register struct device *dv;
register int len, majdev, unit, part;
dev_t nrootdev, nswapdev = NODEV;
char buf[128];
dev_t temp;
struct mountroot_hook *mrhp;
struct device *bootdv;
struct bootpath *bp;
#if defined(NFSCLIENT)
extern char *nfsbootdevname;
#endif
bp = nbootpath == 0 ? NULL : &bootpath[nbootpath-1];
bootdv = (bp == NULL) ? NULL : bp->dev;
/*
* If `swap generic' and we couldn't determine boot device,
* ask the user.
*/
if (mountroot == NULL && bootdv == NULL)
boothowto |= RB_ASKNAME;
if (boothowto & RB_ASKNAME) {
for (;;) {
printf("root device ");
if (bootdv != NULL)
printf("(default %s%c)",
bootdv->dv_xname,
bootdv->dv_class == DV_DISK
? bp->val[2]+'a' : ' ');
printf(": ");
len = getstr(buf, sizeof(buf));
if (len == 0 && bootdv != NULL) {
strcpy(buf, bootdv->dv_xname);
len = strlen(buf);
}
if (len > 0 && buf[len - 1] == '*') {
buf[--len] = '\0';
dv = getdisk(buf, len, 1, &nrootdev);
if (dv != NULL) {
bootdv = dv;
nswapdev = nrootdev;
goto gotswap;
}
}
dv = getdisk(buf, len, bp?bp->val[2]:0, &nrootdev);
if (dv != NULL) {
bootdv = dv;
break;
}
}
/*
* because swap must be on same device as root, for
* network devices this is easy.
*/
if (bootdv->dv_class == DV_IFNET) {
goto gotswap;
}
for (;;) {
printf("swap device ");
if (bootdv != NULL)
printf("(default %s%c)",
bootdv->dv_xname,
bootdv->dv_class == DV_DISK?'b':' ');
printf(": ");
len = getstr(buf, sizeof(buf));
if (len == 0 && bootdv != NULL) {
switch (bootdv->dv_class) {
case DV_IFNET:
nswapdev = NODEV;
break;
case DV_DISK:
nswapdev = MAKEDISKDEV(major(nrootdev),
DISKUNIT(nrootdev), 1);
break;
case DV_TAPE:
case DV_TTY:
case DV_DULL:
case DV_CPU:
break;
}
break;
}
dv = getdisk(buf, len, 1, &nswapdev);
if (dv) {
if (dv->dv_class == DV_IFNET)
nswapdev = NODEV;
break;
}
}
gotswap:
rootdev = nrootdev;
dumpdev = nswapdev;
swdevt[0].sw_dev = nswapdev;
swdevt[1].sw_dev = NODEV;
} else if (mountroot == NULL) {
/*
* `swap generic': Use the device the ROM told us to use.
*/
majdev = findblkmajor(bootdv);
if (majdev >= 0) {
/*
* Root and swap are on a disk.
* val[2] of the boot device is the partition number.
* Assume swap is on partition b.
*/
part = bp->val[2];
unit = bootdv->dv_unit;
rootdev = MAKEDISKDEV(majdev, unit, part);
nswapdev = dumpdev = MAKEDISKDEV(major(rootdev),
DISKUNIT(rootdev), 1);
} else {
/*
* Root and swap are on a net.
*/
nswapdev = dumpdev = NODEV;
}
swdevt[0].sw_dev = nswapdev;
swdevt[1].sw_dev = NODEV;
} else {
/*
* `root DEV swap DEV': honour rootdev/swdevt.
* rootdev/swdevt/mountroot already properly set.
*/
majdev = major(rootdev);
unit = DISKUNIT(rootdev);
part = DISKPART(rootdev);
goto gotroot;
}
switch (bootdv->dv_class) {
#if defined(NFSCLIENT)
case DV_IFNET:
mountroot = nfs_mountroot;
nfsbootdevname = bootdv->dv_xname;
return;
#endif
case DV_DISK:
mountroot = dk_mountroot;
majdev = major(rootdev);
unit = DISKUNIT(rootdev);
part = DISKPART(rootdev);
printf("root on %s%c\n", bootdv->dv_xname,
part + 'a');
break;
default:
printf("can't figure root, hope your kernel is right\n");
return;
}
/*
* Make the swap partition on the root drive the primary swap.
*/
temp = NODEV;
for (swp = swdevt; swp->sw_dev != NODEV; swp++) {
if (majdev == major(swp->sw_dev) &&
unit == DISKUNIT(swp->sw_dev)) {
temp = swdevt[0].sw_dev;
swdevt[0].sw_dev = swp->sw_dev;
swp->sw_dev = temp;
break;
}
}
if (swp->sw_dev != NODEV) {
/*
* If dumpdev was the same as the old primary swap device,
* move it to the new primary swap device.
*/
if (temp == dumpdev)
dumpdev = swdevt[0].sw_dev;
}
gotroot:
/*
* Find mountroot hook and execute.
*/
for (mrhp = mrh_list.lh_first; mrhp != NULL;
mrhp = mrhp->mr_link.le_next)
if (mrhp->mr_device == bootdv) {
if (findblkmajor(mrhp->mr_device) == major(rootdev))
(*mrhp->mr_func)(bootdv);
else
(*mrhp->mr_func)(NULL);
break;
}
}
static int
getstr(cp, size)
register char *cp;
register int size;
{
register char *lp;
register int c;
register int len;
lp = cp;
len = 0;
for (;;) {
c = cngetc();
switch (c) {
case '\n':
case '\r':
printf("\n");
*lp++ = '\0';
return (len);
case '\b':
case '\177':
case '#':
if (len) {
--len;
--lp;
printf("\b \b");
}
continue;
case '@':
case 'u'&037:
len = 0;
lp = cp;
printf("\n");
continue;
default:
if (len + 1 >= size || c < ' ') {
printf("\007");
continue;
}
printf("%c", c);
++len;
*lp++ = c;
}
}
}
/*
* find a device matching "name" and unit number
*/
struct device *
getdevunit(name, unit)
char *name;
int unit;
{
struct device *dev = alldevs.tqh_first;
char num[10], fullname[16];
int lunit;
/* compute length of name and decimal expansion of unit number */
sprintf(num, "%d", unit);
lunit = strlen(num);
if (strlen(name) + lunit >= sizeof(fullname) - 1)
panic("config_attach: device name too long");
strcpy(fullname, name);
strcat(fullname, num);
while (strcmp(dev->dv_xname, fullname) != 0) {
if ((dev = dev->dv_list.tqe_next) == NULL)
return NULL;
}
return dev;
}
u_int
hexatoi(nptr) /* atoi assuming hex, no 0x */
const char *nptr;
{
u_int retval;
str2hex((char *)nptr, &retval);
return retval;
}
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