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/*
* SCCS: @(#)exec.c 1.15 (98/09/01)
*
* UniSoft Ltd., London, England
*
* (C) Copyright 1992 X/Open Company Limited
* (C) Copyright 1994 UniSoft Limited
*
* All rights reserved. No part of this source code may be reproduced,
* stored in a retrieval system, or transmitted, in any form or by any
* means, electronic, mechanical, photocopying, recording or otherwise,
* except as stated in the end-user licence agreement, without the prior
* permission of the copyright owners.
*
* X/Open and the 'X' symbol are trademarks of X/Open Company Limited in
* the UK and other countries.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
/************************************************************************
SCCS: @(#)exec.c 1.15 98/09/01 TETware release 3.3
NAME: exec.c
PRODUCT: TETware
AUTHOR: Andrew Dingwall, UniSoft Ltd.
DATE CREATED: April 1992
DESCRIPTION:
exec request processing functions
MODIFICATIONS:
Andrew Dingwall, UniSoft Ltd., November 1993
enhancements for FIFO transport interface
make sure that a user exec is relative to the current directory
Andrew Dingwall, UniSoft Ltd., August 1996
changed for tetware-style configuration
Andrew Dingwall, UniSoft Ltd., July 1998
Added support for shared API libraries.
Aaron Plattner, April 2010
Fixed warnings when compiled with GCC's -Wall option.
************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <sys/types.h>
# include <unistd.h>
# include <setjmp.h>
# include <signal.h>
# include <sys/wait.h>
#include <errno.h>
#include "dtmac.h"
#include "dtmsg.h"
#include "ptab.h"
#include "sptab.h"
#include "etab.h"
#include "ltoa.h"
#include "error.h"
#include "globals.h"
#include "avmsg.h"
#include "valmsg.h"
#include "bstring.h"
#include "tslib.h"
#include "servlib.h"
#include "dtetlib.h"
#include "tccd.h"
#include "tcclib.h"
/* static function declarations */
static int op_e2 PROTOLIST((struct ptab *));
static int op_e3 PROTOLIST((struct ptab *, struct etab *));
static int op_w2 PROTOLIST((struct ptab *));
static int waitforchild PROTOLIST((int, int));
static SIG_FUNC_T catchalarm PROTOLIST((int));
static int wfc2 PROTOLIST((int, int, time_t));
/*
** op_exec() - fork and exec a process
**
** if the exec failed, a subsequent op_wait will show a process
** exit status of ~0 (255)
*/
void op_exec(pp)
register struct ptab *pp;
{
if ((pp->ptm_rc = op_e2(pp)) == ER_OK) {
((struct valmsg *) pp->ptm_data)->vm_nvalue = OP_EXEC_NVALUE;
pp->ptm_mtype = MT_VALMSG;
pp->ptm_len = valmsgsz(OP_EXEC_NVALUE);
}
else {
pp->ptm_mtype = MT_NODATA;
pp->ptm_len = 0;
}
}
/*
** op_e2() - extend the op_exec() processing
**
** return ER_OK if successful or other ER_* error code on error
*/
static int op_e2(pp)
register struct ptab *pp;
{
register struct avmsg *mp = (struct avmsg *) pp->ptm_data;
register struct sptab *sp = (struct sptab *) pp->pt_sdata;
register struct etab *ep;
register int rc;
/* do a sanity check on the request message */
if (OP_EXEC_NARG(mp) < 1 || !AV_PATH(mp) || !AV_ARG(mp, 0))
return(ER_INVAL);
/* put ti and ts args in the environment for exec */
if (
tet_ti_tcmputenv(pp->ptr_sysid, AV_SNID(mp), AV_XRID(mp),
sp->sp_snames, sp->sp_nsname) < 0 ||
tet_ts_tcmputenv() < 0
) {
return(ER_ERR);
}
/* get an etab element to hold the exec'd process details */
if ((ep = etalloc()) == (struct etab *) 0)
return(ER_ERR);
if ((rc = op_e3(pp, ep)) == ER_OK)
etadd(ep);
else
etfree(ep);
return(rc);
}
/*
** op_e3() - extend the op_exec() processing some more
**
** return ER_OK if successful or other ER_* error code on error
*/
static int op_e3(pp, ep)
struct ptab *pp;
struct etab *ep;
{
register char *dp = pp->ptm_data;
register int rc;
char *path;
int flag, pid;
register char *p;
char *dir, *tet_execute;
int done;
#define mp ((struct avmsg *) dp) /* ptr to request message */
/* make sure that the buffer is big enough for the reply message */
if (BUFCHK(&pp->ptm_data, &pp->pt_mdlen, valmsgsz(OP_EXEC_NVALUE)) < 0)
return(ER_ERR);
dp = pp->ptm_data;
/*
** change directory if so required:
** for user execs, cd to TET_EXECUTE if one has been specified,
** otherwise to TET_ROOT
*/
dir = (char *) 0;
switch (AV_FLAG(mp)) {
case AV_EXEC_USER:
tet_execute = getenv("TET_EXECUTE");
if (tet_execute && *tet_execute) {
TRACE2(tet_Ttccd, 4, "chdir to TET_EXECUTE: \"%s\"",
tet_execute);
dir = tet_execute;
}
else if (tet_root[0]) {
TRACE2(tet_Ttccd, 4, "chdir to TET_ROOT: \"%s\"",
tet_root);
dir = tet_root;
}
break;
}
if (dir && CHDIR(dir) < 0)
error(errno, "can't chdir to", dir);
/* make sure that a user exec is relative to the current directory */
switch (AV_FLAG(mp)) {
case AV_EXEC_USER:
p = AV_PATH(mp);
do {
done = 1;
while (isdirsep(*p)) {
p++;
done = 0;
}
while (*p == '.' && isdirsep(*(p + 1))) {
p += 2;
done = 0;
}
while (*p == '.' && *(p + 1) == '.' && isdirsep(*(p + 2))) {
p += 3;
done = 0;
}
} while (!done);
path = p;
break;
default:
path = AV_PATH(mp);
break;
}
/* add a null-terminating arg (just to make sure) */
AV_ARG(mp, OP_EXEC_NARG(mp) - 1) = (char *) 0;
/* translate the flag argument for tcf_exec() */
switch (AV_FLAG(mp)) {
case AV_EXEC_TEST:
flag = TCF_EXEC_TEST;
break;
case AV_EXEC_USER:
flag = TCF_EXEC_USER;
break;
default:
flag = TCF_EXEC_MISC;
break;
}
/* call the tcc action function to do the exec */
rc = tcf_exec(path, &AV_ARG(mp, 0), AV_OUTFILE(mp), AV_SNID(mp),
flag, &pid);
#undef mp
#define rp ((struct valmsg *) dp) /* ptr to reply message */
if (rc == ER_OK) {
VM_PID(rp) = (long) pid;
ep->et_ptab = pp;
ep->et_pid = pid;
ep->et_state = ES_RUNNING;
}
return(rc);
#undef rp
}
/*
** tcc_exec_signals() - restore default signal handling in the
** child process before an exec
**
** this function is called from tcf_exec() in tcclib
*/
void tcc_exec_signals()
{
(void) signal(SIGHUP, SIG_DFL);
(void) signal(SIGINT, SIG_DFL);
(void) signal(SIGQUIT, SIG_DFL);
(void) signal(SIGTSTP, SIG_DFL);
(void) signal(SIGTTIN, SIG_DFL);
(void) signal(SIGTTOU, SIG_DFL);
}
/*
** op_wait() - wait for a process
**
** some possible message returns are:
** wait timed out: rc = ER_TIMEDOUT
** timeout = 0 and proc not terminated: rc = ER_WAIT
** proc not started by OP_EXEC: rc = ER_PID
** ok with status in VM_STATUS: rc = ER_OK
*/
void op_wait(pp)
register struct ptab *pp;
{
if ((pp->ptm_rc = op_w2(pp)) == ER_OK) {
((struct valmsg *) pp->ptm_data)->vm_nvalue = OP_WAIT_NVALUE;
pp->ptm_mtype = MT_VALMSG;
pp->ptm_len = valmsgsz(OP_WAIT_NVALUE);
}
else {
pp->ptm_mtype = MT_NODATA;
pp->ptm_len = 0;
}
}
/*
** op_w2() - extend the op_wait() processing
**
** return ER_OK if successful or other ER_* error code on error
*/
static int op_w2(pp)
register struct ptab *pp;
{
register struct valmsg *mp = (struct valmsg *) pp->ptm_data;
register struct etab *ep;
register int rc;
TRACE3(tet_Ttccd, 4, "op_wait: pid = %s, timeout = %s",
tet_l2a(VM_PID(mp)), tet_l2a(VM_WTIMEOUT(mp)));
/* do a sanity check on the request message */
if ((int) mp->vm_nvalue != OP_WAIT_NVALUE)
return(ER_INVAL);
/* make sure that the buffer is big enough for the reply */
if (BUFCHK(&pp->ptm_data, &pp->pt_mdlen, valmsgsz(OP_WAIT_NVALUE)) < 0)
return(ER_ERR);
mp = (struct valmsg *) pp->ptm_data;
/* find exec table entry for this process */
if ((ep = etfind((int) VM_PID(mp))) == (struct etab *) 0 ||
ep->et_ptab != pp) {
TRACE1(tet_Ttccd, 4, "can't find proc in exec table");
return(ER_PID);
}
/* wait for the process to terminate if necessary */
if (ep->et_state != ES_TERMINATED) {
rc = waitforchild((int) VM_PID(mp), (int) VM_WTIMEOUT(mp));
TRACE2(tet_Ttccd, 4, "waitforchild() returned %s",
tet_ptrepcode(rc));
}
else {
rc = ER_OK;
TRACE1(tet_Ttccd, 4, "proc already terminated");
}
/* handle return code */
switch (rc) {
case ER_WAIT:
case ER_TIMEDOUT:
break;
case ER_OK:
VM_STATUS(mp) = (long) ((unsigned) ep->et_status);
TRACE3(tet_Ttccd, 4, "op_wait: return status = %s, signal %s",
tet_l2a((VM_STATUS(mp) >> 8) & 0xff),
tet_l2a(VM_STATUS(mp) & 0xff));
/* fall through */
/* case ER_PID: */
default:
etrm(ep);
etfree(ep);
}
TRACE2(tet_Ttccd, 4, "op_w2() returning %s", tet_ptrepcode(rc));
return(rc);
}
/*
** op_kill() - send signal to process
**
*/
void op_kill(pp)
register struct ptab *pp;
{
register struct valmsg *mp = (struct valmsg *) pp->ptm_data;
register struct etab *ep;
register int signum, rc;
TRACE3(tet_Ttccd, 4, "op_kill: pid = %s, signum = %s",
tet_l2a(VM_PID(mp)), tet_l2a(VM_SIGNUM(mp)));
/* all reply messages contain no data */
pp->ptm_mtype = MT_NODATA;
pp->ptm_len = 0;
/* do a sanity check on the request message */
if ((int) mp->vm_nvalue != OP_KILL_NVALUE) {
pp->ptm_rc = ER_INVAL;
return;
}
/* make sure that the process to be killed was started by
the requester */
if ((ep = etfind((int) VM_PID(mp))) == (struct etab *) 0 ||
ep->et_ptab != pp) {
TRACE1(tet_Ttccd, 4, "can't find proc in exec table");
pp->ptm_rc = ER_PID;
return;
}
/* map the machine-independent signal number to its local equivalent */
if ((signum = tet_unmapsignal((int) VM_SIGNUM(mp))) < 0) {
pp->ptm_rc = ER_SIGNUM;
return;
}
#ifndef NOTRACE
if (signum != (int) VM_SIGNUM(mp))
TRACE3(tet_Ttccd, 4, "unmapsig(%s) returns signal %s",
tet_l2a(VM_SIGNUM(mp)), tet_i2a(signum));
#endif
/* do the kill */
if (KILL((int) VM_PID(mp), signum) < 0)
switch (errno) {
case EINVAL:
rc = ER_SIGNUM;
break;
case ESRCH:
rc = ER_PID;
break;
case EPERM:
rc = ER_PERM;
break;
default:
error(errno, "kill failed on pid", tet_l2a(VM_PID(mp)));
rc = ER_ERR;
break;
}
else
rc = ER_OK;
pp->ptm_rc = rc;
}
/*
** tet_ss_ptalloc() - allocate server-specific data element in a ptab
** structure
**
** return 0 if successful or -1 on error
*/
int tet_ss_ptalloc(pp)
struct ptab *pp;
{
register struct sptab *sp;
errno = 0;
if ((sp = (struct sptab *) malloc(sizeof *sp)) == (struct sptab *) 0) {
error(errno, "can't get memory for ss data", (char *) 0);
pp->pt_sdata = (char *) 0;
return(-1);
}
TRACE2(tet_Tbuf, 6, "allocate sptab = %s", tet_i2x(sp));
bzero((char *) sp, sizeof *sp);
sp->sp_snames = (int *) 0;
sp->sp_nsname = 0;
pp->pt_sdata = (char *) sp;
return(0);
}
/*
** tet_ss_ptfree() - free server-specific data element in a ptab structure
*/
void tet_ss_ptfree(pp)
struct ptab *pp;
{
register struct sptab *sp = (struct sptab *) pp->pt_sdata;
TRACE2(tet_Tbuf, 6, "free sptab = %s", tet_i2x(sp));
if (sp) {
if (sp->sp_snames) {
TRACE2(tet_Tbuf, 6, "free snames = %s",
tet_i2x(sp->sp_snames));
free((char *) sp->sp_snames);
}
free((char *) sp);
pp->pt_sdata = (char *) 0;
}
}
/*
** waitforchild() - wait for child processes to terminate, or until
** timeout expires
**
** return ER_OK if successful or other ER_* error code on error
*/
static jmp_buf wait_env;
static int wait_timedout;
static int waitforchild(pid, timeout)
int pid;
register int timeout;
{
register int rc;
register SIG_T (*sig_save)();
register unsigned alarm_save;
register time_t interval, start;
/* remember current time */
start = time((time_t *) 0);
/* remember alarm state and signal disposition */
if (timeout > 0) {
alarm_save = alarm(0);
sig_save = signal(SIGALRM, catchalarm);
}
/* mark current place for timeout processing */
wait_timedout = 0;
rc = setjmp(wait_env) ? ER_TIMEDOUT : wfc2(pid, timeout, start);
/* restore previous alarm and signal disposition,
allowing for elapsed time spent in wfc2() */
if (timeout > 0) {
if (alarm_save != 0) {
interval = time((time_t *) 0) - start;
if ((unsigned) interval < alarm_save - 1)
alarm_save -= (unsigned) interval;
else
alarm_save = 2;
}
(void) alarm(alarm_save);
(void) signal(SIGALRM, (SIG_FUNC_T (*)()) sig_save);
}
return(rc);
}
/*
** wfc2() - extend the waitforchild() processing
**
** return ER_OK if successful or other ER_* error code on error
** or if the timeout expires
*/
static int wfc2(pid, timeout, start)
int pid;
register int timeout;
time_t start;
{
register struct etab *ep;
register int rc, tleft, save_errno;
int status;
/* reap all terminated children until pid is found, storing
exit status in the exec table */
tleft = timeout > 0 ? timeout : 0;
for (;;) {
status = 0;
if (timeout > 0)
(void) alarm((unsigned) TET_MAX(tleft, 2));
rc = tet_dowait3(&status, timeout ? 0 : WNOHANG);
save_errno = errno;
if (timeout > 0)
(void) alarm(0);
TRACE4(tet_Ttccd, 4,
"wait3 returned pid = %s, status = %s, signal %s",
tet_i2a(rc), tet_i2a((status >> 8) & 0xff),
tet_i2a(status & 0xff));
if (!rc)
return(ER_WAIT);
else if (rc < 0)
switch (save_errno) {
case ECHILD:
return(ER_PID);
case EINTR:
if (wait_timedout) {
wait_timedout = 0;
return(ER_TIMEDOUT);
}
else if ((rc = tet_maperrno(save_errno)) != ER_ERR)
return(rc);
/* else fall through */
default:
error(save_errno, "wait failed for pid",
tet_i2a(pid));
return(ER_ERR);
}
if ((ep = etfind(rc)) != (struct etab *) 0) {
ep->et_state = ES_TERMINATED;
ep->et_status = tet_mapstatus(status);
}
if (rc == pid)
return(ER_OK);
if (timeout > 0 && (tleft -= time((time_t *) 0) - start) < 1)
return(ER_TIMEDOUT);
}
}
/*
** catchalarm() - SIGALRM signal handler
*/
/* ARGSUSED */
static SIG_FUNC_T catchalarm(sig)
int sig;
{
(void) signal(SIGALRM, SIG_IGN);
wait_timedout = 1;
longjmp(wait_env, 1);
}
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