#include <u.h>
#include <libc.h>
#include <auth.h>
#include <fcall.h>
#include "../boot/boot.h"
#define PARTSRV "partfs.sdXX"
enum {
Dontpost,
Post,
};
char cputype[64];
char sys[2*64];
char reply[256];
int printcol;
int mflag;
int fflag;
int kflag;
int debugboot;
int nousbboot;
char *bargv[Nbarg];
int bargc;
static void swapproc(void);
static Method *rootserver(char*);
static void kbmap(void);
/*
* we should inherit the standard fds all referring to /dev/cons,
* but we're being paranoid.
*/
static void
opencons(void)
{
close(0);
close(1);
close(2);
bind("#c", "/dev", MBEFORE);
open("/dev/cons", OREAD);
open("/dev/cons", OWRITE);
open("/dev/cons", OWRITE);
}
/*
* init will reinitialize its namespace.
* #ec gets us plan9.ini settings (*var variables).
*/
static void
bindenvsrv(void)
{
bind("#ec", "/env", MREPL);
bind("#e", "/env", MBEFORE|MCREATE);
bind("#s", "/srv/", MREPL|MCREATE);
}
static void
debuginit(int argc, char **argv)
{
int fd;
if(getenv("debugboot"))
debugboot = 1;
if(getenv("nousbboot"))
nousbboot = 1;
#ifdef DEBUG
print("argc=%d\n", argc);
for(fd = 0; fd < argc; fd++)
print("%#p %s ", argv[fd], argv[fd]);
print("\n");
#endif /* DEBUG */
SET(fd);
USED(argc, argv, fd);
}
/*
* read disk partition tables here so that readnvram via factotum
* can see them. ideally we would have this information in
* environment variables before attaching #S, which would then
* parse them and create partitions.
*/
static void
partinit(void)
{
char *rdparts;
rdparts = getenv("readparts");
if(rdparts)
readparts();
free(rdparts);
}
/*
* pick a method and initialize it
*/
static Method *
pickmethod(int argc, char **argv)
{
Method *mp;
if(method[0].name == nil)
fatal("no boot methods");
mp = rootserver(argc ? *argv : 0);
(*mp->config)(mp);
return mp;
}
/*
* authentication agent
* sets hostowner, creating an auth discontinuity
*/
static void
doauth(int cpuflag)
{
dprint("auth...");
authentication(cpuflag);
}
/*
* connect to the root file system
*/
static int
connectroot(Method *mp, int islocal, int ishybrid)
{
int fd, n;
char buf[32];
fd = (*mp->connect)();
if(fd < 0)
fatal("can't connect to file server");
if(getenv("srvold9p"))
fd = old9p(fd);
if(!islocal && !ishybrid){
if(cfs)
fd = (*cfs)(fd);
}
print("version...");
buf[0] = '\0';
n = fversion(fd, 0, buf, sizeof buf);
if(n < 0)
fatal("can't init 9P");
srvcreate("boot", fd);
return fd;
}
/*
* create the name space, mount the root fs
*/
static int
nsinit(int fd, char **rspp)
{
int afd;
char *rp, *rsp;
AuthInfo *ai;
static char rootbuf[64];
if(bind("/", "/", MREPL) < 0)
fatal("bind /");
rp = getenv("rootspec");
if(rp == nil)
rp = "";
afd = fauth(fd, rp);
if(afd >= 0){
ai = auth_proxy(afd, auth_getkey, "proto=p9any role=client");
if(ai == nil)
print("authentication failed (%r), trying mount anyways\n");
}
if(mount(fd, afd, "/root", MREPL|MCREATE, rp) < 0)
fatal("mount /");
rsp = rp;
rp = getenv("rootdir");
if(rp == nil)
rp = rootdir;
if(bind(rp, "/", MAFTER|MCREATE) < 0){
if(strncmp(rp, "/root", 5) == 0){
fprint(2, "boot: couldn't bind $rootdir=%s to root: %r\n", rp);
fatal("second bind /");
}
snprint(rootbuf, sizeof rootbuf, "/root/%s", rp);
rp = rootbuf;
if(bind(rp, "/", MAFTER|MCREATE) < 0){
fprint(2, "boot: couldn't bind $rootdir=%s to root: %r\n", rp);
if(strcmp(rootbuf, "/root//plan9") != 0)
fatal("second bind /");
/* undo installer's work */
fprint(2, "**** warning: remove rootdir=/plan9 "
"entry from plan9.ini\n");
rp = "/root";
if(bind(rp, "/", MAFTER|MCREATE) < 0)
fatal("second bind /");
}
}
setenv("rootdir", rp);
*rspp = rsp;
return afd;
}
static void
execinit(void)
{
int iargc;
char *cmd, cmdbuf[64], *iargv[16];
/* exec init */
cmd = getenv("init");
if(cmd == nil){
sprint(cmdbuf, "/%s/init -%s%s", cputype,
cpuflag ? "c" : "t", mflag ? "m" : "");
cmd = cmdbuf;
}
iargc = tokenize(cmd, iargv, nelem(iargv)-1);
cmd = iargv[0];
/* make iargv[0] basename(iargv[0]) */
if(iargv[0] = strrchr(iargv[0], '/'))
iargv[0]++;
else
iargv[0] = cmd;
iargv[iargc] = nil;
chmod("/srv/" PARTSRV, 0600);
exec(cmd, iargv);
fatal(cmd);
}
void
boot(int argc, char *argv[])
{
int fd, afd, islocal, ishybrid;
char *rsp;
Method *mp;
fmtinstall('r', errfmt);
opencons();
bindenvsrv();
debuginit(argc, argv);
ARGBEGIN{
case 'k':
kflag = 1;
break;
case 'm':
mflag = 1;
break;
case 'f':
fflag = 1;
break;
}ARGEND
readfile("#e/cputype", cputype, sizeof(cputype));
/*
* set up usb keyboard & mouse, if any.
* starts partfs on first disk, if any, to permit nvram on usb.
*/
if (!nousbboot)
usbinit(Dontpost);
dprint("pickmethod...");
mp = pickmethod(argc, argv);
islocal = strcmp(mp->name, "local") == 0;
ishybrid = strcmp(mp->name, "hybrid") == 0;
kbmap(); /* load keymap if it's there. */
/* don't trigger aoe until the network has been configured */
dprint("bind #æ...");
bind("#æ", "/dev", MAFTER); /* nvram could be here */
dprint("bind #S...");
bind("#S", "/dev", MAFTER); /* nvram could be here */
dprint("partinit...");
partinit();
doauth(cpuflag); /* authentication usually changes hostowner */
rfork(RFNAMEG); /* leave existing subprocs in own namespace */
if (!nousbboot)
usbinit(Post); /* restart partfs under the new hostowner id */
fd = connectroot(mp, islocal, ishybrid);
afd = nsinit(fd, &rsp);
close(fd);
settime(islocal, afd, rsp);
if(afd > 0)
close(afd);
swapproc();
execinit();
exits("failed to exec init");
}
static Method*
findmethod(char *a)
{
Method *mp;
int i, j;
char *cp;
if((i = strlen(a)) == 0)
return nil;
cp = strchr(a, '!');
if(cp)
i = cp - a;
for(mp = method; mp->name; mp++){
j = strlen(mp->name);
if(j > i)
j = i;
if(strncmp(a, mp->name, j) == 0)
break;
}
if(mp->name)
return mp;
return nil;
}
/*
* ask user from whence cometh the root file system
*/
static Method*
rootserver(char *arg)
{
char prompt[256];
Method *mp;
char *cp;
int n;
/* look for required reply */
dprint("read #e/nobootprompt...");
readfile("#e/nobootprompt", reply, sizeof(reply));
if(reply[0]){
mp = findmethod(reply);
if(mp)
goto HaveMethod;
print("boot method %s not found\n", reply);
reply[0] = 0;
}
/* make list of methods */
mp = method;
n = sprint(prompt, "root is from (%s", mp->name);
for(mp++; mp->name; mp++)
n += sprint(prompt+n, ", %s", mp->name);
sprint(prompt+n, ")");
/* create default reply */
dprint("read #e/bootargs...");
readfile("#e/bootargs", reply, sizeof(reply));
if(reply[0] == 0 && arg != 0)
strcpy(reply, arg);
if(reply[0]){
mp = findmethod(reply);
if(mp == 0)
reply[0] = 0;
}
if(reply[0] == 0)
strcpy(reply, method->name);
/* parse replies */
do{
dprint("outin...");
outin(prompt, reply, sizeof(reply));
mp = findmethod(reply);
}while(mp == nil);
HaveMethod:
bargc = tokenize(reply, bargv, Nbarg-2);
bargv[bargc] = nil;
cp = strchr(reply, '!');
if(cp)
strcpy(sys, cp+1);
dprint("pickmethod done\n");
return mp;
}
static void
swapproc(void)
{
int fd;
fd = open("#c/swap", OWRITE);
if(fd < 0){
warning("opening #c/swap");
return;
}
if(write(fd, "start", 5) <= 0)
warning("starting swap kproc");
close(fd);
}
int
old9p(int fd)
{
int p[2];
if(pipe(p) < 0)
fatal("pipe");
print("srvold9p...");
switch(fork()) {
case -1:
fatal("rfork srvold9p");
case 0:
dup(fd, 1);
close(fd);
dup(p[0], 0);
close(p[0]);
close(p[1]);
execl("/srvold9p", "srvold9p", "-s", 0);
fatal("exec srvold9p");
default:
close(fd);
close(p[0]);
}
return p[1];
}
static void
kbmap(void)
{
char *f;
int n, in, out;
char buf[1024];
f = getenv("kbmap");
if(f == nil)
return;
if(bind("#κ", "/dev", MAFTER) < 0){
warning("can't bind #κ");
return;
}
in = open(f, OREAD);
if(in < 0){
warning("can't open kbd map");
return;
}
out = open("/dev/kbmap", OWRITE);
if(out < 0) {
warning("can't open /dev/kbmap");
close(in);
return;
}
while((n = read(in, buf, sizeof(buf))) > 0)
if(write(out, buf, n) != n){
warning("write to /dev/kbmap failed");
break;
}
close(in);
close(out);
}
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