#include "rc.h"
#include "getflags.h"
#include "exec.h"
#include "io.h"
#include "fns.h"
int havefork = 0;
static char **
rcargv(char *s)
{
int argc;
char **argv;
word *p;
p = vlook("*")->val;
argv = malloc((count(p)+6)*sizeof(char*));
argc = 0;
argv[argc++] = argv0;
if(flag['e'])
argv[argc++] = "-Se";
else
argv[argc++] = "-S";
argv[argc++] = "-c";
argv[argc++] = s;
for(p = vlook("*")->val; p; p = p->next)
argv[argc++] = p->word;
argv[argc] = 0;
return argv;
}
void
Xasync(void)
{
uint pid;
char buf[20], **argv;
Updenv();
argv = rcargv(runq->code[runq->pc].s);
pid = ForkExecute(argv0, argv, -1, 1, 2);
free(argv);
if(pid == 0) {
Xerror("proc failed");
return;
}
runq->pc++;
sprint(buf, "%d", pid);
setvar("apid", newword(buf, (word *)0));
}
enum { Stralloc = 100, };
void
Xbackq(void)
{
char **argv;
int l, n, pw, inc, pid;
int pfd[2];
char *s, *wd, *ewd, *stop;
struct io *f;
var *ifs = vlook("ifs");
word *v, *nextv;
Rune r;
stop = "";
pw = 0;
if(runq->argv && runq->argv->words){
stop = runq->argv->words->word;
pw = 1;
}
if(pipe(pfd)<0){
Xerror("can't make pipe");
return;
}
Updenv();
argv = rcargv(runq->code[runq->pc].s);
pid = ForkExecute(argv0, argv, -1, pfd[1], 2);
free(argv);
close(pfd[1]);
if(pid == 0) {
Xerror("proc failed");
close(pfd[0]);
return;
}
f = openfd(pfd[0]);
s = wd = ewd = 0;
v = 0;
inc = Stralloc;
for(;;){
/* always eat 4 byte runes */
if(s+2*UTFmax>=ewd){
l = s-wd;
wd = erealloc(wd, l+inc);
ewd = wd+l+inc-1;
s = wd+l;
inc *= 2;
}
if((n = rutf(s, &r, f))==EOF)
break;
s[n] = 0;
if(strstr(stop, s)){
if(s!=wd){
*s='\0';
v = newword(wd, v);
s = wd;
}
}else
s += n;
}
if(s!=wd){
*s='\0';
v = newword(wd, v);
}
if(wd)
efree(wd);
closeio(f);
Waitfor(pid, 1);
if(pw)
popword(); /* ditch split in "stop" */
/* 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++;
}
void
Xpipe(void)
{
thread *p=runq;
int pc=p->pc, pid;
int rfd=p->code[pc+1].i;
int pfd[2];
char **argv;
if(pipe(pfd)<0){
Xerror1("can't get pipe");
return;
}
Updenv();
argv = rcargv(runq->code[pc+2].s);
pid = ForkExecute(argv0, argv, 0, pfd[1], 2);
free(argv);
close(pfd[1]);
if(pid == 0) {
Xerror("proc failed");
close(pfd[0]);
return;
}
start(p->code, pc+4, runq->local);
pushredir(ROPEN, pfd[0], rfd);
p->pc=p->code[pc+3].i;
p->pid=pid;
}
void
Xpipefd(void)
{
Abort();
}
void
Xsubshell(void)
{
char **argv;
int pid;
Updenv();
argv = rcargv(runq->code[runq->pc].s);
pid = ForkExecute(argv0, argv, -1, 1, 2);
free(argv);
if(pid < 0) {
Xerror("proc failed");
return;
}
Waitfor(pid, 1);
runq->pc++;
}
/*
* start a process running the cmd on the stack and return its pid.
*/
int
execforkexec(void)
{
char **argv;
char file[1024];
int nc;
word *path;
int pid;
if(runq->argv->words==0)
return -1;
argv = mkargv(runq->argv->words);
for(path = searchpath(runq->argv->words->word);path;path = path->next){
nc = strlen(path->word);
if(nc < sizeof file - 1){ /* 1 for / */
strcpy(file, path->word);
if(file[0]){
strcat(file, "/");
nc++;
}
if(nc+strlen(argv[1])<sizeof(file)){
strcat(file, argv[1]);
pid = ForkExecute(file, argv+1, mapfd(0), mapfd(1), mapfd(2));
if(pid >= 0){
free(argv);
return pid;
}
}
}
}
free(argv);
return -1;
}
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