freebsd-nq/usr.sbin/config/config.y

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%union {
char *str;
int val;
struct file_list *file;
struct idlst *lst;
}
%token AND
%token ANY
%token ARGS
%token AT
%token BIO
%token COMMA
%token CONFIG
%token CONTROLLER
%token CPU
%token CSR
%token DEVICE
%token DISK
%token DRIVE
%token DRQ
%token DST
%token DUMPS
%token EQUALS
%token FLAGS
%token HZ
%token IDENT
%token INTERLEAVE
%token IOMEM
%token IOSIZ
%token IRQ
%token MACHINE
%token MAJOR
%token MASTER
%token MAXUSERS
%token MINOR
%token MINUS
%token NET
%token NEXUS
%token ON
%token OPTIONS
%token MAKEOPTIONS
%token PORT
%token PRIORITY
%token PSEUDO_DEVICE
%token ROOT
%token SEMICOLON
%token SEQUENTIAL
%token SIZE
%token SLAVE
%token SWAP
%token TIMEZONE
%token TTY
%token TRACE
%token VECTOR
%token <str> ID
%token <val> NUMBER
%token <val> FPNUMBER
%type <str> Save_id
%type <str> Opt_value
%type <str> Dev
%type <lst> Id_list
%type <val> optional_size
%type <val> optional_sflag
%type <str> device_name
%type <val> major_minor
%type <val> arg_device_spec
%type <val> root_device_spec root_device_specs
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%type <val> dump_device_spec
%type <file> swap_device_spec
%type <file> comp_device_spec
%{
/*
* Copyright (c) 1988, 1993
* 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.
*
* @(#)config.y 8.1 (Berkeley) 6/6/93
*/
#include "config.h"
#include <ctype.h>
#include <stdio.h>
#include <err.h>
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struct device cur;
struct device *curp = 0;
char *temp_id;
char *val_id;
%}
%%
Configuration:
Many_specs
= { verifysystemspecs(); }
;
Many_specs:
Many_specs Spec
|
/* lambda */
;
Spec:
Device_spec SEMICOLON
= { newdev(&cur); } |
Config_spec SEMICOLON
|
TRACE SEMICOLON
= { do_trace = !do_trace; } |
SEMICOLON
|
error SEMICOLON
;
Config_spec:
MACHINE Save_id
= {
if (!strcmp($2, "vax")) {
machine = MACHINE_VAX;
machinename = "vax";
} else if (!strcmp($2, "tahoe")) {
machine = MACHINE_TAHOE;
machinename = "tahoe";
} else if (!strcmp($2, "hp300")) {
machine = MACHINE_HP300;
machinename = "hp300";
} else if (!strcmp($2, "i386")) {
machine = MACHINE_I386;
machinename = "i386";
} else if (!strcmp($2, "mips")) {
machine = MACHINE_MIPS;
machinename = "mips";
} else if (!strcmp($2, "pmax")) {
machine = MACHINE_PMAX;
machinename = "pmax";
} else if (!strcmp($2, "luna68k")) {
machine = MACHINE_LUNA68K;
machinename = "luna68k";
} else if (!strcmp($2, "news3400")) {
machine = MACHINE_NEWS3400;
machinename = "news3400";
} else
yyerror("Unknown machine type");
} |
CPU Save_id
= {
struct cputype *cp =
(struct cputype *)malloc(sizeof (struct cputype));
cp->cpu_name = ns($2);
cp->cpu_next = cputype;
cputype = cp;
free(temp_id);
} |
OPTIONS Opt_list
|
MAKEOPTIONS Mkopt_list
|
IDENT ID
= { ident = ns($2); } |
System_spec
|
HZ NUMBER
= { yyerror("HZ specification obsolete; delete"); } |
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TIMEZONE NUMBER
= { zone = 60 * $2; check_tz(); } |
TIMEZONE NUMBER DST NUMBER
= { zone = 60 * $2; dst = $4; check_tz(); } |
TIMEZONE NUMBER DST
= { zone = 60 * $2; dst = 1; check_tz(); } |
TIMEZONE FPNUMBER
= { zone = $2; check_tz(); } |
TIMEZONE FPNUMBER DST NUMBER
= { zone = $2; dst = $4; check_tz(); } |
TIMEZONE FPNUMBER DST
= { zone = $2; dst = 1; check_tz(); } |
TIMEZONE MINUS NUMBER
= { zone = -60 * $3; check_tz(); } |
TIMEZONE MINUS NUMBER DST NUMBER
= { zone = -60 * $3; dst = $5; check_tz(); } |
TIMEZONE MINUS NUMBER DST
= { zone = -60 * $3; dst = 1; check_tz(); } |
TIMEZONE MINUS FPNUMBER
= { zone = -$3; check_tz(); } |
TIMEZONE MINUS FPNUMBER DST NUMBER
= { zone = -$3; dst = $5; check_tz(); } |
TIMEZONE MINUS FPNUMBER DST
= { zone = -$3; dst = 1; check_tz(); } |
MAXUSERS NUMBER
= { maxusers = $2; };
System_spec:
System_id System_parameter_list
= { checksystemspec(*confp); }
;
System_id:
CONFIG Save_id
= { mkconf($2); }
;
System_parameter_list:
System_parameter_list System_parameter
| System_parameter
;
System_parameter:
addr_spec
| swap_spec
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| root_spec
| dump_spec
| arg_spec
;
addr_spec:
AT NUMBER
= { loadaddress = $2; };
;
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swap_spec:
SWAP optional_on swap_device_list
;
swap_device_list:
swap_device_list AND swap_device
| swap_device
;
swap_device:
swap_device_spec optional_size optional_sflag
= { mkswap(*confp, $1, $2, $3); }
;
swap_device_spec:
device_name
= {
struct file_list *fl = newflist(SWAPSPEC);
if (eq($1, "generic"))
fl->f_fn = $1;
else {
fl->f_swapdev = nametodev($1, 0, 'b');
fl->f_fn = devtoname(fl->f_swapdev);
}
$$ = fl;
}
| major_minor
= {
struct file_list *fl = newflist(SWAPSPEC);
fl->f_swapdev = $1;
fl->f_fn = devtoname($1);
$$ = fl;
}
;
root_spec:
ROOT optional_on root_device_specs
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= {
struct file_list *fl = *confp;
if (fl && fl->f_rootdev != NODEV)
yyerror("extraneous root device specification");
else
fl->f_rootdev = $3;
}
;
root_device_specs:
root_device_spec AND root_device_specs
= {
warnx("extraneous root devices ignored");
$$ = $1;
}
| root_device_spec
;
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root_device_spec:
device_name
= { $$ = nametodev($1, 0, 'a'); }
| major_minor
;
dump_spec:
DUMPS optional_on dump_device_spec
= {
struct file_list *fl = *confp;
if (fl && fl->f_dumpdev != NODEV)
yyerror("extraneous dump device specification");
else
fl->f_dumpdev = $3;
}
;
dump_device_spec:
device_name
= { $$ = nametodev($1, 0, 'b'); }
| major_minor
;
arg_spec:
ARGS optional_on arg_device_spec
= { yyerror("arg device specification obsolete, ignored"); }
;
arg_device_spec:
device_name
= { $$ = nametodev($1, 0, 'b'); }
| major_minor
;
major_minor:
MAJOR NUMBER MINOR NUMBER
= { $$ = makedev($2, $4); }
;
optional_on:
ON
| /* empty */
;
optional_size:
SIZE NUMBER
= { $$ = $2; }
| /* empty */
= { $$ = 0; }
;
optional_sflag:
SEQUENTIAL
= { $$ = 2; }
| /* empty */
= { $$ = 0; }
;
device_name:
Save_id
= { $$ = $1; }
| Save_id NUMBER
= {
char buf[80];
(void) sprintf(buf, "%s%d", $1, $2);
$$ = ns(buf); free($1);
}
| Save_id NUMBER ID
= {
char buf[80];
(void) sprintf(buf, "%s%d%s", $1, $2, $3);
$$ = ns(buf); free($1);
}
;
Opt_list:
Opt_list COMMA Option
|
Option
;
Option:
Save_id
= {
struct opt *op = (struct opt *)malloc(sizeof (struct opt));
op->op_name = ns($1);
op->op_next = opt;
op->op_value = 0;
opt = op;
free(temp_id);
} |
Save_id EQUALS Opt_value
= {
struct opt *op = (struct opt *)malloc(sizeof (struct opt));
op->op_name = ns($1);
op->op_next = opt;
op->op_value = ns($3);
opt = op;
free(temp_id);
free(val_id);
} ;
Opt_value:
ID
= { $$ = val_id = ns($1); } |
NUMBER
= {
char nb[16];
(void) sprintf(nb, "%d", $1);
$$ = val_id = ns(nb);
} ;
Save_id:
ID
= { $$ = temp_id = ns($1); }
;
Mkopt_list:
Mkopt_list COMMA Mkoption
|
Mkoption
;
Mkoption:
Save_id EQUALS Opt_value
= {
struct opt *op = (struct opt *)malloc(sizeof (struct opt));
op->op_name = ns($1);
op->op_next = mkopt;
op->op_value = ns($3);
mkopt = op;
free(temp_id);
free(val_id);
} ;
Dev:
ID
= { $$ = ns($1); }
;
Device_spec:
DEVICE Dev_name Dev_info Int_spec
= { cur.d_type = DEVICE; } |
MASTER Dev_name Dev_info Int_spec
= { cur.d_type = MASTER; } |
DISK Dev_name Dev_info Int_spec
= { cur.d_dk = 1; cur.d_type = DEVICE; } |
CONTROLLER Dev_name Dev_info Int_spec
= { cur.d_type = CONTROLLER; } |
PSEUDO_DEVICE Init_dev Dev
= {
cur.d_name = $3;
cur.d_type = PSEUDO_DEVICE;
} |
PSEUDO_DEVICE Init_dev Dev NUMBER
= {
cur.d_name = $3;
cur.d_type = PSEUDO_DEVICE;
cur.d_slave = $4;
} |
PSEUDO_DEVICE Dev_name Cdev_init Cdev_info
= {
if (!eq(cur.d_name, "cd"))
yyerror("improper spec for pseudo-device");
seen_cd = 1;
cur.d_type = DEVICE;
verifycomp(*compp);
};
Cdev_init:
/* lambda */
= { mkcomp(&cur); };
Cdev_info:
optional_on comp_device_list comp_option_list
;
comp_device_list:
comp_device_list AND comp_device
| comp_device
;
comp_device:
comp_device_spec
= { addcomp(*compp, $1); }
;
comp_device_spec:
device_name
= {
struct file_list *fl = newflist(COMPSPEC);
fl->f_compdev = nametodev($1, 0, 'c');
fl->f_fn = devtoname(fl->f_compdev);
$$ = fl;
}
| major_minor
= {
struct file_list *fl = newflist(COMPSPEC);
fl->f_compdev = $1;
fl->f_fn = devtoname($1);
$$ = fl;
}
;
comp_option_list:
comp_option_list comp_option
|
/* lambda */
;
comp_option:
INTERLEAVE NUMBER
= { cur.d_pri = $2; } |
FLAGS NUMBER
= { cur.d_flags = $2; };
Dev_name:
Init_dev Dev NUMBER
= {
cur.d_name = $2;
if (eq($2, "mba"))
seen_mba = 1;
else if (eq($2, "uba"))
seen_uba = 1;
else if (eq($2, "vba"))
seen_vba = 1;
else if (eq($2, "isa"))
seen_isa = 1;
cur.d_unit = $3;
};
Init_dev:
/* lambda */
= { init_dev(&cur); };
Dev_info:
Con_info Info_list
|
/* lambda */
;
Con_info:
AT Dev NUMBER
= {
if (eq(cur.d_name, "mba") || eq(cur.d_name, "uba")) {
(void) sprintf(errbuf,
"%s must be connected to a nexus", cur.d_name);
yyerror(errbuf);
}
cur.d_conn = connect($2, $3);
} |
AT NEXUS NUMBER
= { check_nexus(&cur, $3); cur.d_conn = TO_NEXUS; };
Info_list:
Info_list Info
|
/* lambda */
;
Info:
CSR NUMBER
= { cur.d_addr = $2; } |
DRIVE NUMBER
= { cur.d_drive = $2; } |
SLAVE NUMBER
= {
if (cur.d_conn != 0 && cur.d_conn != TO_NEXUS &&
cur.d_conn->d_type == MASTER)
cur.d_slave = $2;
else
yyerror("can't specify slave--not to master");
} |
IRQ NUMBER
= { cur.d_irq = $2; } |
DRQ NUMBER
= { cur.d_drq = $2; } |
IOMEM NUMBER
= { cur.d_maddr = $2; } |
IOSIZ NUMBER
= { cur.d_msize = $2; } |
PORT device_name
= { cur.d_port = ns($2); } |
PORT NUMBER
= { cur.d_portn = $2; } |
TTY
= { cur.d_mask = "tty"; } |
BIO
= { cur.d_mask = "bio"; } |
NET
= { cur.d_mask = "net"; } |
FLAGS NUMBER
= { cur.d_flags = $2; };
Int_spec:
VECTOR Id_list
= { cur.d_vec = $2; } |
PRIORITY NUMBER
= { cur.d_pri = $2; } |
/* lambda */
;
Id_list:
Save_id
= {
struct idlst *a = (struct idlst *)malloc(sizeof(struct idlst));
a->id = $1; a->id_next = 0; $$ = a;
} |
Save_id Id_list =
{
struct idlst *a = (struct idlst *)malloc(sizeof(struct idlst));
a->id = $1; a->id_next = $2; $$ = a;
};
%%
yyerror(s)
char *s;
{
fprintf(stderr, "config: line %d: %s\n", yyline + 1, s);
}
/*
* return the passed string in a new space
*/
char *
ns(str)
register char *str;
{
register char *cp;
cp = malloc((unsigned)(strlen(str)+1));
(void) strcpy(cp, str);
return (cp);
}
/*
* add a device to the list of devices
*/
newdev(dp)
register struct device *dp;
{
register struct device *np;
np = (struct device *) malloc(sizeof *np);
*np = *dp;
np->d_next = 0;
if (curp == 0)
dtab = np;
else
curp->d_next = np;
curp = np;
}
/*
* note that a configuration should be made
*/
mkconf(sysname)
char *sysname;
{
register struct file_list *fl, **flp;
fl = (struct file_list *) malloc(sizeof *fl);
fl->f_type = SYSTEMSPEC;
fl->f_needs = sysname;
fl->f_rootdev = NODEV;
fl->f_dumpdev = NODEV;
fl->f_fn = 0;
fl->f_next = 0;
for (flp = confp; *flp; flp = &(*flp)->f_next)
;
*flp = fl;
confp = flp;
}
struct file_list *
newflist(ftype)
u_char ftype;
{
struct file_list *fl = (struct file_list *)malloc(sizeof (*fl));
fl->f_type = ftype;
fl->f_next = 0;
fl->f_swapdev = NODEV;
fl->f_swapsize = 0;
fl->f_needs = 0;
fl->f_fn = 0;
return (fl);
}
/*
* Add a swap device to the system's configuration
*/
mkswap(system, fl, size, flag)
struct file_list *system, *fl;
int size, flag;
{
register struct file_list **flp;
char name[80];
if (system == 0 || system->f_type != SYSTEMSPEC) {
yyerror("\"swap\" spec precedes \"config\" specification");
return;
}
if (size < 0) {
yyerror("illegal swap partition size");
return;
}
/*
* Append swap description to the end of the list.
*/
flp = &system->f_next;
for (; *flp && (*flp)->f_type == SWAPSPEC; flp = &(*flp)->f_next)
;
fl->f_next = *flp;
*flp = fl;
fl->f_swapsize = size;
fl->f_swapflag = flag;
/*
* If first swap device for this system,
* set up f_fn field to insure swap
* files are created with unique names.
*/
if (system->f_fn)
return;
if (eq(fl->f_fn, "generic"))
system->f_fn = ns(fl->f_fn);
else
system->f_fn = ns(system->f_needs);
}
mkcomp(dp)
register struct device *dp;
{
register struct file_list *fl, **flp;
char buf[80];
fl = (struct file_list *) malloc(sizeof *fl);
fl->f_type = COMPDEVICE;
fl->f_compinfo = dp->d_unit;
fl->f_fn = ns(dp->d_name);
(void) sprintf(buf, "%s%d", dp->d_name, dp->d_unit);
fl->f_needs = ns(buf);
fl->f_next = 0;
for (flp = compp; *flp; flp = &(*flp)->f_next)
;
*flp = fl;
compp = flp;
}
addcomp(compdev, fl)
struct file_list *compdev, *fl;
{
register struct file_list **flp;
char name[80];
if (compdev == 0 || compdev->f_type != COMPDEVICE) {
yyerror("component spec precedes device specification");
return;
}
/*
* Append description to the end of the list.
*/
flp = &compdev->f_next;
for (; *flp && (*flp)->f_type == COMPSPEC; flp = &(*flp)->f_next)
;
fl->f_next = *flp;
*flp = fl;
}
/*
* find the pointer to connect to the given device and number.
* returns 0 if no such device and prints an error message
*/
struct device *
connect(dev, num)
register char *dev;
register int num;
{
register struct device *dp;
struct device *huhcon();
if (num == QUES)
return (huhcon(dev));
for (dp = dtab; dp != 0; dp = dp->d_next) {
if ((num != dp->d_unit) || !eq(dev, dp->d_name))
continue;
if (dp->d_type != CONTROLLER && dp->d_type != MASTER) {
(void) sprintf(errbuf,
"%s connected to non-controller", dev);
yyerror(errbuf);
return (0);
}
return (dp);
}
(void) sprintf(errbuf, "%s %d not defined", dev, num);
yyerror(errbuf);
return (0);
}
/*
* connect to an unspecific thing
*/
struct device *
huhcon(dev)
register char *dev;
{
register struct device *dp, *dcp;
struct device rdev;
int oldtype;
/*
* First make certain that there are some of these to wildcard on
*/
for (dp = dtab; dp != 0; dp = dp->d_next)
if (eq(dp->d_name, dev))
break;
if (dp == 0) {
(void) sprintf(errbuf, "no %s's to wildcard", dev);
yyerror(errbuf);
return (0);
}
oldtype = dp->d_type;
dcp = dp->d_conn;
/*
* Now see if there is already a wildcard entry for this device
* (e.g. Search for a "uba ?")
*/
for (; dp != 0; dp = dp->d_next)
if (eq(dev, dp->d_name) && dp->d_unit == -1)
break;
/*
* If there isn't, make one because everything needs to be connected
* to something.
*/
if (dp == 0) {
dp = &rdev;
init_dev(dp);
dp->d_unit = QUES;
dp->d_name = ns(dev);
dp->d_type = oldtype;
newdev(dp);
dp = curp;
/*
* Connect it to the same thing that other similar things are
* connected to, but make sure it is a wildcard unit
* (e.g. up connected to sc ?, here we make connect sc? to a
* uba?). If other things like this are on the NEXUS or
* if they aren't connected to anything, then make the same
* connection, else call ourself to connect to another
* unspecific device.
*/
if (dcp == TO_NEXUS || dcp == 0)
dp->d_conn = dcp;
else
dp->d_conn = connect(dcp->d_name, QUES);
}
return (dp);
}
init_dev(dp)
register struct device *dp;
{
dp->d_name = "OHNO!!!";
dp->d_type = DEVICE;
dp->d_conn = 0;
dp->d_vec = 0;
dp->d_addr = dp->d_flags = dp->d_dk = 0;
dp->d_pri = -1;
dp->d_slave = dp->d_drive = dp->d_unit = UNKNOWN;
dp->d_port = (char *)0;
dp->d_portn = 0;
dp->d_irq = -1;
dp->d_drq = -1;
dp->d_maddr = 0;
dp->d_msize = 0;
dp->d_mask = "null";
}
/*
* make certain that this is a reasonable type of thing to connect to a nexus
*/
check_nexus(dev, num)
register struct device *dev;
int num;
{
switch (machine) {
case MACHINE_VAX:
if (!eq(dev->d_name, "uba") && !eq(dev->d_name, "mba") &&
!eq(dev->d_name, "bi"))
yyerror("only uba's, mba's, and bi's should be connected to the nexus");
if (num != QUES)
yyerror("can't give specific nexus numbers");
break;
case MACHINE_TAHOE:
if (!eq(dev->d_name, "vba"))
yyerror("only vba's should be connected to the nexus");
break;
case MACHINE_HP300:
case MACHINE_LUNA68K:
if (num != QUES)
dev->d_addr = num;
break;
case MACHINE_I386:
if (!eq(dev->d_name, "isa"))
yyerror("only isa's should be connected to the nexus");
break;
case MACHINE_NEWS3400:
if (!eq(dev->d_name, "iop") && !eq(dev->d_name, "hb") &&
!eq(dev->d_name, "vme"))
yyerror("only iop's, hb's and vme's should be connected to the nexus");
break;
}
}
/*
* Check the timezone to make certain it is sensible
*/
check_tz()
{
if (zone != 0 || dst != 0)
yyerror("timezone specification is no longer permitted");
1994-05-26 05:23:31 +00:00
else
hadtz = 1;
}
/*
* Check system specification and apply defaulting
* rules on root, argument, dump, and swap devices.
*/
checksystemspec(fl)
register struct file_list *fl;
{
char buf[BUFSIZ];
register struct file_list *swap;
int generic;
if (fl == 0 || fl->f_type != SYSTEMSPEC) {
yyerror("internal error, bad system specification");
exit(1);
}
swap = fl->f_next;
generic = swap && swap->f_type == SWAPSPEC && eq(swap->f_fn, "generic");
if (fl->f_rootdev == NODEV && !generic) {
yyerror("no root device specified");
exit(1);
}
/*
* Default swap area to be in 'b' partition of root's
* device. If root specified to be other than on 'a'
* partition, give warning, something probably amiss.
*/
if (swap == 0 || swap->f_type != SWAPSPEC) {
dev_t dev;
swap = newflist(SWAPSPEC);
dev = fl->f_rootdev;
if (minor(dev) & 07) {
(void) sprintf(buf,
"Warning, swap defaulted to 'b' partition with root on '%c' partition",
(minor(dev) & 07) + 'a');
yyerror(buf);
}
swap->f_swapdev =
makedev(major(dev), (minor(dev) &~ 07) | ('b' - 'a'));
swap->f_fn = devtoname(swap->f_swapdev);
mkswap(fl, swap, 0);
}
/*
* Make sure a generic swap isn't specified, along with
* other stuff (user must really be confused).
*/
if (generic) {
if (fl->f_rootdev != NODEV)
yyerror("root device specified with generic swap");
if (fl->f_dumpdev != NODEV)
yyerror("dump device specified with generic swap");
return;
}
/*
* Default dump device and warn if place is not a
* swap area.
*/
if (fl->f_dumpdev == NODEV)
fl->f_dumpdev = swap->f_swapdev;
if (fl->f_dumpdev != swap->f_swapdev) {
struct file_list *p = swap->f_next;
for (; p && p->f_type == SWAPSPEC; p = p->f_next)
if (fl->f_dumpdev == p->f_swapdev)
return;
(void) sprintf(buf,
"Warning: dump device is not a swap partition");
yyerror(buf);
}
}
/*
* Verify all devices specified in the system specification
* are present in the device specifications.
*/
verifysystemspecs()
{
register struct file_list *fl;
dev_t checked[50], *verifyswap();
register dev_t *pchecked = checked;
for (fl = conf_list; fl; fl = fl->f_next) {
if (fl->f_type != SYSTEMSPEC)
continue;
if (!finddev(fl->f_rootdev))
deverror(fl->f_needs, "root");
*pchecked++ = fl->f_rootdev;
pchecked = verifyswap(fl->f_next, checked, pchecked);
#define samedev(dev1, dev2) \
((minor(dev1) &~ 07) != (minor(dev2) &~ 07))
if (!alreadychecked(fl->f_dumpdev, checked, pchecked)) {
if (!finddev(fl->f_dumpdev))
deverror(fl->f_needs, "dump");
*pchecked++ = fl->f_dumpdev;
}
}
}
/*
* Do as above, but for swap devices.
*/
dev_t *
verifyswap(fl, checked, pchecked)
register struct file_list *fl;
dev_t checked[];
register dev_t *pchecked;
{
for (;fl && fl->f_type == SWAPSPEC; fl = fl->f_next) {
if (eq(fl->f_fn, "generic"))
continue;
if (alreadychecked(fl->f_swapdev, checked, pchecked))
continue;
if (!finddev(fl->f_swapdev))
fprintf(stderr,
"config: swap device %s not configured", fl->f_fn);
*pchecked++ = fl->f_swapdev;
}
return (pchecked);
}
/*
* Verify that components of a compound device have themselves been config'ed
*/
verifycomp(fl)
register struct file_list *fl;
{
char *dname = fl->f_needs;
for (fl = fl->f_next; fl; fl = fl->f_next) {
if (fl->f_type != COMPSPEC || finddev(fl->f_compdev))
continue;
fprintf(stderr,
"config: %s: component device %s not configured\n",
dname, fl->f_needs);
}
}
/*
* Has a device already been checked
* for it's existence in the configuration?
*/
alreadychecked(dev, list, last)
dev_t dev, list[];
register dev_t *last;
{
register dev_t *p;
for (p = list; p < last; p++)
if (samedev(*p, dev))
return (1);
return (0);
}
deverror(systemname, devtype)
char *systemname, *devtype;
{
fprintf(stderr, "config: %s: %s device not configured\n",
systemname, devtype);
}
/*
* Look for the device in the list of
* configured hardware devices. Must
* take into account stuff wildcarded.
*/
/*ARGSUSED*/
finddev(dev)
dev_t dev;
{
/* punt on this right now */
return (1);
}