#include "rc.h"
#include "getflags.h"
#include "exec.h"
#include "io.h"
#include "fns.h"
int havefork = 1;
void
Xasync(void)
{
int null = open("/dev/null", 0);
int pid;
char npid[10];
if(null<0){
Xerror("Can't open /dev/null\n");
return;
}
switch(pid = rfork(RFFDG|RFPROC|RFNOTEG)){
case -1:
close(null);
Xerror("try again");
break;
case 0:
clearwaitpids();
pushredir(ROPEN, null, 0);
start(runq->code, runq->pc+1, runq->local);
runq->ret = 0;
break;
default:
addwaitpid(pid);
close(null);
runq->pc = runq->code[runq->pc].i;
inttoascii(npid, pid);
setvar("apid", newword(npid, (word *)0));
break;
}
}
void
Xpipe(void)
{
struct thread *p = runq;
int pc = p->pc, forkid;
int lfd = p->code[pc++].i;
int rfd = p->code[pc++].i;
int pfd[2];
if(pipe(pfd)<0){
Xerror("can't get pipe");
return;
}
switch(forkid = fork()){
case -1:
Xerror("try again");
break;
case 0:
clearwaitpids();
start(p->code, pc+2, runq->local);
runq->ret = 0;
close(pfd[PRD]);
pushredir(ROPEN, pfd[PWR], lfd);
break;
default:
addwaitpid(forkid);
start(p->code, p->code[pc].i, runq->local);
close(pfd[PWR]);
pushredir(ROPEN, pfd[PRD], rfd);
p->pc = p->code[pc+1].i;
p->pid = forkid;
break;
}
}
/*
* Who should wait for the exit from the fork?
*/
void
Xbackq(void)
{
int c, pid;
int pfd[2];
char wd[NTOK + 1];
char *s, *ewd = &wd[NTOK], *stop;
struct io *f;
var *ifs = vlook("ifs");
word *v, *nextv;
stop = ifs->val? ifs->val->word: "";
if(pipe(pfd)<0){
Xerror("can't make pipe");
return;
}
switch(pid = fork()){
case -1:
Xerror("try again");
close(pfd[PRD]);
close(pfd[PWR]);
return;
case 0:
clearwaitpids();
close(pfd[PRD]);
start(runq->code, runq->pc+1, runq->local);
pushredir(ROPEN, pfd[PWR], 1);
return;
default:
addwaitpid(pid);
close(pfd[PWR]);
f = openfd(pfd[PRD]);
s = wd;
v = 0;
/*
* this isn't quite right for utf. stop could have utf
* in it, and we're processing the input as bytes, not
* utf encodings of runes. further, if we run out of
* room in wd, we can chop in the middle of a utf encoding
* (not to mention stepping on one of the bytes).
* presotto's Strings seem like the right data structure here.
*/
while((c = rchr(f))!=EOF){
if(strchr(stop, c) || s==ewd){
if(s!=wd){
*s='\0';
v = newword(wd, v);
s = wd;
}
}
else *s++=c;
}
if(s!=wd){
*s='\0';
v = newword(wd, v);
}
closeio(f);
Waitfor(pid, 0);
/* v points to reversed arglist -- reverse it onto argv */
while(v){
nextv = v->next;
v->next = runq->argv->words;
runq->argv->words = v;
v = nextv;
}
runq->pc = runq->code[runq->pc].i;
return;
}
}
void
Xpipefd(void)
{
struct thread *p = runq;
int pc = p->pc, pid;
char name[40];
int pfd[2];
int sidefd, mainfd;
if(pipe(pfd)<0){
Xerror("can't get pipe");
return;
}
if(p->code[pc].i==READ){
sidefd = pfd[PWR];
mainfd = pfd[PRD];
}
else{
sidefd = pfd[PRD];
mainfd = pfd[PWR];
}
switch(pid = fork()){
case -1:
Xerror("try again");
break;
case 0:
clearwaitpids();
start(p->code, pc+2, runq->local);
close(mainfd);
pushredir(ROPEN, sidefd, p->code[pc].i==READ?1:0);
runq->ret = 0;
break;
default:
addwaitpid(pid);
close(sidefd);
pushredir(ROPEN, mainfd, mainfd); /* isn't this a noop? */
strcpy(name, Fdprefix);
inttoascii(name+strlen(name), mainfd);
pushword(name);
p->pc = p->code[pc+1].i;
break;
}
}
void
Xsubshell(void)
{
int pid;
switch(pid = fork()){
case -1:
Xerror("try again");
break;
case 0:
clearwaitpids();
start(runq->code, runq->pc+1, runq->local);
runq->ret = 0;
break;
default:
addwaitpid(pid);
Waitfor(pid, 1);
runq->pc = runq->code[runq->pc].i;
break;
}
}
int
execforkexec(void)
{
int pid;
int n;
char buf[ERRMAX];
switch(pid = fork()){
case -1:
return -1;
case 0:
clearwaitpids();
pushword("exec");
execexec();
strcpy(buf, "can't exec: ");
n = strlen(buf);
errstr(buf+n, ERRMAX-n);
Exit(buf);
}
addwaitpid(pid);
return pid;
}
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