ref: efbc81f6f60f7e0e25e6e7055873f1a30359b3b1
dir: /kern/pgrp.c/
#include "u.h"
#include "lib.h"
#include "dat.h"
#include "fns.h"
#include "error.h"
static Ref pgrpid;
static Ref mountid;
#ifdef NOTDEF
void
pgrpnote(ulong noteid, char *a, long n, int flag)
{
Proc *p, *ep;
char buf[ERRMAX];
if(n >= ERRMAX-1)
error(Etoobig);
memmove(buf, a, n);
buf[n] = 0;
p = proctab(0);
ep = p+conf.nproc;
for(; p < ep; p++) {
if(p->state == Dead)
continue;
if(up != p && p->noteid == noteid && p->kp == 0) {
qlock(&p->debug);
if(p->pid == 0 || p->noteid != noteid){
qunlock(&p->debug);
continue;
}
if(!waserror()) {
postnote(p, 0, buf, flag);
poperror();
}
qunlock(&p->debug);
}
}
}
#endif
Pgrp*
newpgrp(void)
{
Pgrp *p;
p = smalloc(sizeof(Pgrp));
p->ref.ref = 1;
p->pgrpid = incref(&pgrpid);
return p;
}
Rgrp*
newrgrp(void)
{
Rgrp *r;
r = smalloc(sizeof(Rgrp));
r->ref.ref = 1;
return r;
}
void
closergrp(Rgrp *r)
{
if(decref(&r->ref) == 0)
free(r);
}
void
closepgrp(Pgrp *p)
{
Mhead **h, **e, *f, *next;
if(decref(&p->ref) != 0)
return;
qlock(&p->debug);
wlock(&p->ns);
p->pgrpid = -1;
e = &p->mnthash[MNTHASH];
for(h = p->mnthash; h < e; h++) {
for(f = *h; f; f = next) {
wlock(&f->lock);
cclose(f->from);
mountfree(f->mount);
f->mount = nil;
next = f->hash;
wunlock(&f->lock);
putmhead(f);
}
}
wunlock(&p->ns);
qunlock(&p->debug);
free(p);
}
void
pgrpinsert(Mount **order, Mount *m)
{
Mount *f;
m->order = 0;
if(*order == 0) {
*order = m;
return;
}
for(f = *order; f; f = f->order) {
if(m->mountid < f->mountid) {
m->order = f;
*order = m;
return;
}
order = &f->order;
}
*order = m;
}
/*
* pgrpcpy MUST preserve the mountid allocation order of the parent group
*/
void
pgrpcpy(Pgrp *to, Pgrp *from)
{
int i;
Mount *n, *m, **link, *order;
Mhead *f, **tom, **l, *mh;
wlock(&from->ns);
order = 0;
tom = to->mnthash;
for(i = 0; i < MNTHASH; i++) {
l = tom++;
for(f = from->mnthash[i]; f; f = f->hash) {
rlock(&f->lock);
mh = newmhead(f->from);
*l = mh;
l = &mh->hash;
link = &mh->mount;
for(m = f->mount; m; m = m->next) {
n = newmount(mh, m->to, m->mflag, m->spec);
m->copy = n;
pgrpinsert(&order, m);
*link = n;
link = &n->next;
}
runlock(&f->lock);
}
}
/*
* Allocate mount ids in the same sequence as the parent group
*/
lock(&mountid.lk);
for(m = order; m; m = m->order)
m->copy->mountid = mountid.ref++;
unlock(&mountid.lk);
wunlock(&from->ns);
}
Fgrp*
dupfgrp(Fgrp *f)
{
Fgrp *new;
Chan *c;
int i;
new = smalloc(sizeof(Fgrp));
if(f == nil){
new->fd = smalloc(DELTAFD*sizeof(Chan*));
new->nfd = DELTAFD;
new->ref.ref = 1;
return new;
}
lock(&f->ref.lk);
/* Make new fd list shorter if possible, preserving quantization */
new->nfd = f->maxfd+1;
i = new->nfd%DELTAFD;
if(i != 0)
new->nfd += DELTAFD - i;
new->fd = malloc(new->nfd*sizeof(Chan*));
if(new->fd == 0){
unlock(&f->ref.lk);
error("no memory for fgrp");
}
new->ref.ref = 1;
new->maxfd = f->maxfd;
for(i = 0; i <= f->maxfd; i++) {
if((c = f->fd[i])){
incref(&c->ref);
new->fd[i] = c;
}
}
unlock(&f->ref.lk);
return new;
}
void
closefgrp(Fgrp *f)
{
int i;
Chan *c;
if(f == 0)
return;
if(decref(&f->ref) != 0)
return;
for(i = 0; i <= f->maxfd; i++)
if((c = f->fd[i]))
cclose(c);
free(f->fd);
free(f);
}
Mount*
newmount(Mhead *mh, Chan *to, int flag, char *spec)
{
Mount *m;
m = smalloc(sizeof(Mount));
m->to = to;
m->head = mh;
incref(&to->ref);
m->mountid = incref(&mountid);
m->mflag = flag;
if(spec != 0)
kstrdup(&m->spec, spec);
return m;
}
void
mountfree(Mount *m)
{
Mount *f;
while(m) {
f = m->next;
cclose(m->to);
m->mountid = 0;
free(m->spec);
free(m);
m = f;
}
}
#ifdef NOTDEF
void
resrcwait(char *reason)
{
char *p;
if(up == 0)
panic("resrcwait");
p = up->psstate;
if(reason) {
up->psstate = reason;
print("%s\n", reason);
}
tsleep(&up->sleep, return0, 0, 300);
up->psstate = p;
}
#endif