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|
/*
* SCCS: @(#)dtcm.c 1.33 (98/09/01)
*
* UniSoft Ltd., London, England
*
* (C) Copyright 1996 X/Open Company 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.
* A copy of the end-user licence agreement is contained in the file
* Licence which accompanies this distribution.
*
* X/Open and the 'X' symbol are trademarks of X/Open Company Limited in
* the UK and other countries.
*/
/*
* Copyright 1990 Open Software Foundation (OSF)
* Copyright 1990 Unix International (UI)
* Copyright 1990 X/Open Company Limited (X/Open)
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted, provided
* that the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of OSF, UI or X/Open not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission. OSF, UI and X/Open make
* no representations about the suitability of this software for any purpose.
* It is provided "as is" without express or implied warranty.
*
* OSF, UI and X/Open DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL OSF, UI or X/Open BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
/************************************************************************
SCCS: @(#)dtcm.c 1.33 98/09/01 TETware release 3.3
NAME: 'C' Test Case Manager
PRODUCT: TETware
AUTHOR: Geoff Clare, UniSoft Ltd.
DATE CREATED: 23 July 1990
SYNOPSIS:
int tet_tcm_main(int argc, char **argv);
int tet_thistest;
DESCRIPTION:
Tcm_main() is the main program for the Test Case Manager (TCM),
called from a different main() wrapper for each API.
The command line contains the invocable components (IC's) to be
executed. All test purposes in the user-supplied tet_testlist[]
array with an icref element corresponding to one of the requested
IC's are called, preceded by a call to the function pointed to
by tet_startup and followed by tet_cleanup (if each is not NULL).
The TCM reads configuration variables from the file specified
by the environment variable TET_CONFIG, provides handling of
unexpected signals on UNIX-like platforms, and reports the start
and end of IC's and the start of test purposes.
Tet_thistest is set to the test purpose number during execution
of each test purpose. Test purposes are numbered in the sequence
of the tet_testlist[] array (starting at 1) regardless of
execution sequence.
MODIFICATIONS:
Geoff Clare, UniSoft Ltd, 6 Sept 1990
New results file format.
If no arguments assume all ICs.
Move tet_error() to resfile.c.
Change handling of ICs with zero TPs.
Geoff Clare, UniSoft Ltd, 28 Sept 1990
When doing all ICs start from lowest defined IC instead of 1.
Geoff Clare, UniSoft Ltd, 28 Nov 1990
Add tet_nosigreset.
Geoff Clare, UniSoft Ltd, 6 Sept 1991
Add call to tet_delreas().
DTET development - this file is based on release 1.10 of the TET
David G. Sawyer and John-Paul Leyland, UniSoft Ltd, June 1992
Andrew Dingwall, UniSoft Ltd., October 1992
Moved tet_root[] and setup to tcmfuncs.c so that tcmchild
processes can see it as well.
Updated Abort, Delete and results processing to work in a DTET
environment.
Geoff Clare, UniSoft Ltd, July-August 1996
Changes for TETWare.
Andrew Dingwall, UniSoft Ltd., August 1996
changes for use with tetware tcc
Geoff Clare, UniSoft Ltd, Sept 1996
Added call to tet_init_blockable_sigs().
Changes for TETWare-Lite.
Geoff Clare, UniSoft Ltd., Oct 1996
Use TET_THR_EQUAL() to compare thread IDs.
Restructured tcm source to avoid "ld -r".
Andrew Dingwall, UniSoft Ltd., June 1997
Changes to support the defined interface between the TCM and
the test case.
Changed the sigsetjmp()/siglongjmp() code so that the signal number
is passed back in a global variable rather than by using the 2nd
argument to siglongjmp();
(apparently the only thing that can be done with the return value of
sigsetjmp() is to perform a comparison on it - for maximum portability
it should not be assigned to a variable).
Geoff Clare, UniSoft Ltd., July 1997
Changes to support NT threads.
Andrew Dingwall, UniSoft Ltd., January 1998
Permit the iclist to include IC 0.
Andrew Dingwall, UniSoft Ltd., February 1998
Use TETware-specific macros to access threads functions and
data items.
Handle an empty iclist correctly.
Andrew Dingwall, UniSoft Ltd., July 1998
Added support for shared API libraries.
************************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <sys/types.h>
# include <unistd.h>
# include <setjmp.h>
# include <signal.h>
#include <string.h>
#include <errno.h>
#include "dtmac.h"
#include "tet_api.h"
#include "error.h"
#include "dtmsg.h"
#include "ltoa.h"
#include "bstring.h"
#include "dtthr.h"
#include "alarm.h"
#include "synreq.h"
#include "tcmfuncs.h"
#include "servlib.h"
#include "dtetlib.h"
#include "sigsafe.h"
#include "apilib.h"
#ifdef TET_LITE /* -LITE-CUT-LINE- */
# define TET_VERSION "3.3-lite"
#else /* -START-LITE-CUT- */
# define TET_VERSION "3.3"
#endif /* -END-LITE-CUT- */
#define KILLWAIT 10
/*
** the IC list
**
** an entry appears in the IC list for each IC number or range of
** IC numbers that are to be executed
*/
/* structure of an entry in the IC list */
struct iclist {
int ic_start; /* low IC number in a range */
int ic_end; /* high IC number in a range */
};
/* the IC list itself */
static struct iclist *iclist;
static int liclist, niclist;
static pid_t toppid;
static int sigreset = 1;
static int signum;
static sigjmp_buf skipjmp;
#ifdef TET_THREADS
static int start_errno;
static int start_child;
static int start_alrm_flag;
static long start_block;
static long start_sequence;
#endif /* TET_THREADS */
/* static function declarations */
static void build_icl2 PROTOLIST((char *, int, int));
static void build_icl3 PROTOLIST((char *, int, int));
static void build_iclist PROTOLIST((char **, int));
static int call_1tp PROTOLIST((int, int, int));
static int call_tps PROTOLIST((int, int *));
static struct iclist *iclalloc PROTOLIST((void));
static int split PROTOLIST((char *, char **, int, int));
#ifndef TET_LITE /* -START-LITE-CUT- */
static void XSync_report PROTOLIST((int, char *));
#endif /* -END-LITE-CUT- */
static void sigskip PROTOLIST((int));
static void sigabandon PROTOLIST((int));
static void sigterm PROTOLIST((void));
static void setsigs PROTOLIST((void (*) PROTOLIST((int))));
static char buf[256];
/* ARGSUSED */
int
tet_tcm_main(argc, argv)
int argc;
char **argv;
{
char *cp;
struct iclist *icp;
int iccount, tpcount, icnum, rc, status = TET_EXIT_SUCCESS;
char *tsname, *tcname;
#ifndef TET_LITE /* -START-LITE-CUT */
int nsys;
#endif /* -END-LITE-CUT- */
tet_pname = argv[0]; /* used by tet_error() */
/* save current PID for checking when unexpected signals
cause a longjmp() to main test loop */
toppid = GETPID();
#ifdef TET_THREADS
/* save initial thread ID for checking on unexpected signals */
tet_start_tid = TET_THR_SELF();
/* set up thread-specific data */
if (TET_THR_KEYCREATE(&tet_errno_key) != 0 ||
TET_THR_KEYCREATE(&tet_child_key) != 0 ||
TET_THR_KEYCREATE(&tet_alrm_flag_key) != 0 ||
TET_THR_KEYCREATE(&tet_block_key) != 0 ||
TET_THR_KEYCREATE(&tet_sequence_key) != 0)
{
/* can't use tet_error() yet */
(void) fprintf(stderr,
"%s: TET_THR_KEYCREATE() failed in TCM startup",
tet_pname);
exit(EXIT_FAILURE);
}
TET_THR_SETSPECIFIC(tet_errno_key, (void *) &start_errno);
TET_THR_SETSPECIFIC(tet_child_key, (void *) &start_child);
TET_THR_SETSPECIFIC(tet_alrm_flag_key, (void *) &start_alrm_flag);
TET_THR_SETSPECIFIC(tet_block_key, (void *) &start_block);
TET_THR_SETSPECIFIC(tet_sequence_key, (void *) &start_sequence);
/* initialise all mutexes */
tet_mtx_init();
#endif
/* blockable signals reported "unexpected" if caught (updated later) */
tet_init_blockable_sigs();
/* set tet_activity from environment */
cp = getenv("TET_ACTIVITY");
if (cp == NULL || *cp == '\0')
tet_activity = 0;
else
tet_activity = atol(cp);
/* get the test suite and test case names from environment */
tsname = getenv("TET_TSNAME");
if (!tsname)
tsname = "";
tcname = getenv("TET_TCNAME");
if (!tcname)
tcname = tet_pname;
#ifdef TET_LITE
/* open execution results file (do early, so tet_error() can use it) */
tet_openres(argv[0]);
#endif /* TET_LITE */
/* initialise the server and transport stuff */
tet_tcminit(argc, argv);
/* read in configuration variables */
tet_config();
/* set current context to process ID */
tet_setcontext();
/* build the list of ICs to be executed */
build_iclist(argv + 1, argc - 1);
/* count the number of ICs in the list */
iccount = 0;
for (icp = iclist; icp < iclist + niclist; icp++) {
TRACE3(tet_Ttcm, 8, "IC list element: start = %s, end = %s",
tet_i2a(icp->ic_start), tet_i2a(icp->ic_end));
for (icnum = icp->ic_start; icnum <= icp->ic_end; icnum++)
if (tet_isdefic(icnum))
iccount++;
}
/* count number of IC's to be executed and output on TCM Start line */
tet_tcmstart(TET_VERSION, iccount);
/* unexpected signals are fatal during startup */
setsigs(sigabandon);
#ifndef TET_LITE /* -START-LITE-CUT- */
/* Do an auto sync -> use ic = -1, tp = 1 */
tet_init_synreq();
nsys = tet_Nsname;
if (tet_tcm_async(MK_ASPNO(-1, 1, S_ICSTART), SV_YES, SV_SYNC_TIMEOUT,
tet_synreq, &nsys) < 0) {
tet_error(tet_sderrno,
"startup function Auto Sync failed");
tet_exit(EXIT_FAILURE);
}
/* now, analyse the results of an unsuccessful auto sync */
if (tet_sderrno != ER_OK) {
XSync_report(nsys, "startup");
tet_exit(EXIT_FAILURE);
}
#endif /* -END-LITE-CUT- */
/* call user-supplied startup function */
if (tet_startup != NULL)
{
(*tet_startup)();
#ifdef TET_THREADS
tet_cln_threads(0);
tet_mtx_destroy();
tet_mtx_init();
#endif
}
/* see whether tet_nosigreset was set in startup function */
if (tet_nosigreset)
sigreset = 0;
/* execute ICs specified on command line */
for (icp = iclist; icp < iclist + niclist; icp++)
for (icnum = icp->ic_start; icnum <= icp->ic_end; icnum++)
if (tet_isdefic(icnum)) {
int ret;
tpcount = tet_gettpcount(icnum);
rc = tet_icstart(icnum, tpcount);
ASSERT_LITE(rc == 0);
if (rc < 0)
tet_docleanup(EXIT_FAILURE);
ret = call_tps(icnum, &tpcount);
printf("%s%s (%d/%d): %s\n",
tsname, tcname,
icnum, icp->ic_end,
tet_get_code(ret, NULL));
status = tet_addstatus(status,
tet_resulttostatus(ret));
tet_icend(icnum, tpcount);
}
/* unexpected signals are fatal during cleanup */
setsigs(sigabandon);
/* call the user-supplied cleanup routine (if any) and exit */
tet_docleanup(status);
/* NOTREACHED */
return(EXIT_SUCCESS);
}
/*
** call_tps() - call each test purpose function in the specified
** invocable component
**
** return the number of TPs actually executed
*/
static int call_tps(icnum, tpcount)
int icnum, *tpcount;
{
int testcount, testnum, tpnum, result = TET_PASS;
#ifndef TET_LITE /* -START-LITE-CUT- */
long spno;
#endif /* -END-LITE-CUT- */
ASSERT(tpcount)
TRACE3(tet_Ttcm, 6, "call_tps(): icnum = %s, tpcount = %s",
tet_i2a(icnum), tet_i2a(*tpcount));
testcount = 0;
for (tpnum = 1; tpnum <= *tpcount; tpnum++) {
#ifndef TET_LITE /* -START-LITE-CUT- */
spno = MK_ASPNO(0, tpnum, S_TPSTART);
if (EX_TPNO(spno) != tpnum) {
tet_error(0, "too many TPs defined in this IC");
break;
}
#endif /* -END-LITE-CUT- */
testnum = tet_gettestnum(icnum, tpnum);
result = tet_addresult(result,
call_1tp(icnum, tpnum, testnum));
testcount++;
}
*tpcount = testcount;
return(result);
}
/*
** call_1tp() - call a single test purpose function
*/
static int call_1tp(icnum, tpnum, testnum)
int icnum, tpnum, testnum;
{
int result;
TRACE4(tet_Ttcm, 6, "call_1tp(): icnum = %s, tpnum = %s, testnum = %s",
tet_i2a(icnum), tet_i2a(tpnum), tet_i2a(testnum));
/* there is no signal handling in WIN32 */
/* establish the return point for an unexpected signal */
if (sigsetjmp(skipjmp, 1) != 0)
{
/* we've caught an unexpected signal! */
(void) sprintf(buf, "unexpected signal %d (%s) received",
signum, tet_signame(signum));
tet_infoline(buf);
tet_result(TET_UNRESOLVED);
if (tet_child > 0)
{
(void) tet_killw(tet_child, KILLWAIT);
tet_child = 0;
}
# ifdef TET_THREADS
tet_cln_threads(signum);
tet_mtx_destroy();
tet_mtx_init();
# endif /* TET_THREADS */
/* if this is not the top level process, don't fall
through to TCM test purpose loop! */
if (GETPID() != toppid)
exit(EXIT_FAILURE);
if (signum == SIGTERM)
sigterm();
}
else
{
/*
** normal (non-signal) processing of a TP function
*/
/* output test start message */
tet_tpstart(icnum, tpnum, testnum);
/* set global current test purpose indicator */
tet_thistest = testnum;
/* see if this TP has been deleted */
if (tet_reason(testnum) != NULL)
{
/* TP deleted in this TCM */
TRACE2(tet_Ttcm, 4, "TP %s deleted on this system",
tet_i2a(testnum));
tet_infoline(tet_reason(testnum));
tet_result(TET_UNINITIATED);
}
#ifndef TET_LITE /* -START-LITE-CUT- */
else if (tet_XSync_del != 0)
{
/* TP deleted in another TCM */
TRACE2(tet_Ttcm, 4, "TP %s deleted on another system",
tet_i2a(testnum));
tet_result(TET_UNINITIATED);
tet_XSync_del = 0;
}
#endif /* -END-LITE-CUT- */
else
{
/* unexpected signals skip current test
NOTE: this is done before every test function
to ensure no "local" signal handlers are left
in place when skipping to the next test.
This safety feature can be disabled by setting
tet_nosigreset in the tet_startup function,
in which case unexpected signals in later
tests could go unnoticed. */
if (sigreset)
setsigs(sigskip);
/* call the user-supplied test function */
TRACE3(tet_Ttcm, 1,
"about to call tet_invoketp(%s, %s)",
tet_i2a(icnum), tet_i2a(tpnum));
(void) tet_invoketp(icnum, tpnum);
#ifdef TET_THREADS
tet_cln_threads(0);
tet_mtx_destroy();
tet_mtx_init();
#endif
TRACE3(tet_Ttcm, 2, "tet_invoketp(%s, %s) RETURN",
tet_i2a(icnum), tet_i2a(tpnum));
}
}
/*
** finally, output the test result -
** if the action code for the result is ABORT, call the user-supplied
** cleanup function and exit
*/
if ((result = tet_tpend(icnum, tpnum, testnum)) < 0)
tet_docleanup(EXIT_FAILURE);
return result;
}
static void
sigabandon(sig)
int sig;
{
static char mbuf[132];
if (sig == SIGTERM)
sigterm();
# ifdef TET_THREADS
if (!TET_THR_EQUAL(TET_THR_SELF(), tet_start_tid))
{
(void) TET_THR_KILL(tet_start_tid, sig);
TET_THR_EXIT((void *)0);
}
# endif /* TET_THREADS */
(void) sprintf(mbuf,
"Abandoning testset: caught unexpected signal %d (%s)",
sig, tet_signame(sig));
tet_error(0, mbuf);
# ifdef TET_LITE /* -LITE-CUT-LINE- */
if (tet_tmpresfile != NULL)
(void) UNLINK(tet_tmpresfile);
# endif /* -LITE-CUT-LINE- */
/* log off all the servers and exit */
tet_exit(EXIT_FAILURE);
}
static void
sigterm()
{
/* Cleanup and exit if SIGTERM received */
char *msg = "Abandoning test case: received signal SIGTERM";
/* terminate [per-thread] child, if any */
if (tet_child > 0)
{
(void) tet_killw(tet_child, KILLWAIT);
tet_child = 0;
}
# ifdef TET_THREADS
if (!TET_THR_EQUAL(TET_THR_SELF(), tet_start_tid))
{
(void) TET_THR_KILL(tet_start_tid, SIGTERM);
TET_THR_EXIT((void *)0);
}
/* only main thread gets to here */
tet_cln_threads(SIGTERM);
# endif /* TET_THREADS */
tet_error(0, msg);
# ifdef TET_LITE /* -LITE-CUT-LINE- */
if (tet_tmpresfile != NULL)
(void) UNLINK(tet_tmpresfile);
# endif /* TET_LITE */ /* -LITE-CUT-LINE- */
/* call user-supplied cleanup function */
if (tet_cleanup != NULL)
{
tet_thistest = 0;
#ifndef TET_THREADS
tet_block = 0;
#else
tet_next_block = 0;
#endif
tet_setblock();
(*tet_cleanup)();
# ifdef TET_THREADS
tet_cln_threads(0);
tet_mtx_destroy();
tet_mtx_init(); /* needed by tet_exit() */
# endif /* TET_THREADS */
}
/* log off all the servers and exit */
tet_exit(EXIT_FAILURE);
}
static void
sigskip(sig)
int sig;
{
/*
* Catch unexpected signals and (in main thread) longjmp() to
* skipjmp where the setjmp() return value will be non-zero with
* the signal number in signum.
*/
# ifdef TET_THREADS
if (!TET_THR_EQUAL(TET_THR_SELF(), tet_start_tid))
{
(void) TET_THR_KILL(tet_start_tid, sig);
TET_THR_EXIT((void *)0);
}
# endif /* TET_THREADS */
signum = sig;
siglongjmp(skipjmp, 1);
}
static void
sig_init(var, set)
char *var;
sigset_t *set;
{
/* initialise signal set from list in specified variable */
/* note that this routine uses strtok() which will alter the
contents of the list variable */
char *list, *sname;
int snum;
(void) sigemptyset(set);
list = tet_getvar(var);
if (list == NULL)
return;
for (sname = strtok(list, ", "); sname != NULL;
sname = strtok((char *) NULL, ", "))
{
snum = atoi(sname);
/* Check it's not a standard signal */
if (strncmp(tet_signame(snum), "SIG", (size_t)3) == 0)
{
(void) sprintf(buf,
"warning: illegal entry \"%s\" in %s ignored",
sname, var);
tet_error(0, buf);
}
else if (sigaddset(set, snum) == -1)
{
(void) sprintf(buf,
"warning: sigaddset() failed on entry \"%s\" in %s",
sname, var);
tet_error(0, buf);
}
}
}
static void
setsigs(func)
void (*func)();
{
/*
* Sets all signals except SIGKILL, SIGSTOP and SIGCHLD
* to be caught by "func", except that signals specified in
* TET_SIG_IGN are ignored and signals specified in
* TET_SIG_LEAVE are left alone.
*/
int i;
struct sigaction sig;
static sigset_t sig_ign;
static sigset_t sig_leave;
static int init_done = 0;
if (!init_done)
{
sig_init("TET_SIG_IGN", &sig_ign);
sig_init("TET_SIG_LEAVE", &sig_leave);
init_done = 1;
}
(void) sigemptyset(&tet_blockable_sigs);
/* NSIG is not provided by POSIX.1: it must be defined via
an extra feature-test macro, or on the compiler command line */
for (i = 1; i < NSIG; i++)
{
if (i == SIGKILL || i == SIGSTOP || i == SIGCHLD
|| sigismember(&sig_leave, i))
continue;
if (sigismember(&sig_ign, i))
sig.sa_handler = SIG_IGN;
else
sig.sa_handler = func;
sig.sa_flags = 0;
(void) sigemptyset(&sig.sa_mask);
if (sigaction(i, &sig, (struct sigaction *)NULL) == 0 &&
# ifdef SIGBUS
i != SIGBUS &&
# endif
i != SIGSEGV && i != SIGILL && i != SIGFPE)
(void) sigaddset(&tet_blockable_sigs, i);
}
}
/*
** tet_docleanup() - call the user-supplied cleanup function (if any)
** and exit
*/
void tet_docleanup(status)
int status;
{
#ifndef TET_LITE /* -START-LITE-CUT- */
int nsys;
/* Do an auto sync -> use ic = tet_iclast + 1, tp = 1 */
ASSERT(tet_synreq);
nsys = tet_Nsname;
if (tet_tcm_async(MK_ASPNO(tet_iclast + 1, 1, S_TPSTART), SV_YES,
SV_SYNC_TIMEOUT, tet_synreq, &nsys) < 0) {
tet_error(tet_sderrno,
"cleanup function Auto Sync failed");
tet_exit(EXIT_FAILURE);
}
/* analyse the results of an unsuccessful auto sync */
if (tet_sderrno != ER_OK) {
XSync_report(nsys, "cleanup");
tet_exit(EXIT_FAILURE);
}
#endif /* -END-LITE-CUT- */
/* call user-supplied cleanup function */
if (tet_cleanup != NULL)
{
tet_thistest = 0;
#ifndef TET_THREADS
tet_block = 0;
#else
tet_next_block = 0;
#endif
tet_setblock();
(*tet_cleanup)();
#ifdef TET_THREADS
tet_cln_threads(0);
tet_mtx_destroy();
tet_mtx_init();
#endif
}
tet_exit(status);
}
#ifndef TET_LITE /* -START-LITE-CUT- */
/*
** XSync_report() - analyse the results of the startup and cleanup
** tet_tcm_async() calls
*/
static void XSync_report(nsys, functype)
register int nsys;
char *functype;
{
register struct synreq *sp;
char errmsg[128];
for (sp = tet_synreq; sp < tet_synreq + nsys; sp++)
switch (sp->sy_state) {
case SS_SYNCYES:
break;
default:
(void) sprintf(errmsg,
"%s function Auto Sync error, sysid = %d, state = %s",
functype, sp->sy_sysid,
tet_systate(sp->sy_state));
tet_error(tet_sderrno, errmsg);
break;
}
}
#endif /* -END-LITE-CUT- */
/*
** build_iclist() - build the list of ICs to be executed
**
** the IC specifications are taken from TCM command line;
** each specification can contain one or more comma-separated elements;
** each element can be an IC number (n), a range of IC numbers (m-n),
** or the word "all"
**
** when an element consists of a range of IC numbers (m-n),
** a missing m means the lowest numbered IC defined in the test case
** and a missing n means the highest numbered IC defined in the
** test case
**
** when the word "all" appears and is not the first element, it means
** all of the ICs beyond the highest IC specified in the previous element
*/
static void build_iclist(icspec, nicspec)
char **icspec;
int nicspec;
{
static char fmt[] = "tet_get%sic() returns %d but tet_isdefic(%d) returns FALSE!";
char msg[sizeof fmt + (LNUMSZ * 2)];
int icmin, icmax;
int err;
#ifndef TET_LITE /* -START-LITE-CUT- */
long spno;
#endif /* -END-LITE-CUT- */
/* determin the lowest and highest IC defined in this test case */
icmin = tet_getminic();
icmax = tet_getmaxic();
TRACE3(tet_Ttcm, 8, "build_iclist(): icmin = %s, icmax = %s",
tet_i2a(icmin), tet_i2a(icmax));
/* return now if the iclist is empty */
if (icmin <= 0 && icmax == icmin && !tet_isdefic(icmin))
return;
/*
** ensure that tet_isdefic() says that icmin and icmax have been
** defined!
*/
err = 0;
if (!tet_isdefic(icmin)) {
(void) sprintf(msg, fmt, "min", icmin, icmin);
tet_error(0, msg);
err = 1;
}
if (!tet_isdefic(icmax)) {
(void) sprintf(msg, fmt, "max", icmax, icmax);
tet_error(0, msg);
icmax = 1;
err = 1;
}
#ifndef TET_LITE /* -START-LITE-CUT- */
/* ensure that the largest IC is within bounds */
tet_iclast = icmax;
spno = MK_ASPNO(tet_iclast + 1, 0, S_ICSTART);
if (spno < 0L || EX_ICNO(spno) != tet_iclast + 1) {
tet_error(0, "the largest IC number defined in this test case is too big");
err = 1;
}
#endif /* -END-LITE-CUT- */
if (err)
tet_exit(EXIT_FAILURE);
/*
** if we have one or more IC specifications, use them to build the
** IC list; otherwise, build the list from all the ICs defined
** in this test case
*/
if (nicspec > 0)
while (nicspec-- > 0)
build_icl2(*icspec++, icmin, icmax);
else
build_icl3("all", icmin, icmax);
}
/*
** build_icl2() - extend the build_iclist() processing for
** a group of elements in a single specification
*/
static void build_icl2(icspec, icmin, icmax)
char *icspec;
int icmin, icmax;
{
char buf[(LNUMSZ * 2) + 2];
register char *p;
TRACE2(tet_Ttcm, 8, "build_icl2(): icspec = \"%s\"", icspec);
/* process each comma-separated element in turn */
while (*icspec) {
for (p = icspec; *p; p++)
if (*p == ',')
break;
(void) sprintf(buf, "%.*s",
TET_MIN((int) (p - icspec), (int) sizeof buf - 1),
icspec);
build_icl3(buf, icmin, icmax);
icspec = p;
if (*icspec)
icspec++;
}
}
/*
** build_icl3() - extend the build_iclist() processing some more
**
** process an individual IC number or number range
*/
static void build_icl3(icspec, icmin, icmax)
char *icspec;
int icmin, icmax;
{
static int last_icend = -1;
int icstart, icend;
struct iclist *icp;
char *flds[2];
static char fmt[] = "IC %d is not defined for this test case";
char msg[sizeof fmt + LNUMSZ];
TRACE2(tet_Ttcm, 8, "build_icl3(): icspec = \"%s\"", icspec);
/*
** if the element is "all" and ICs exist beyond the highest IC
** in the last element, add the rest of the ICs to the list
** and return
*/
if (!strcmp(icspec, "all")) {
if (last_icend == -1 || last_icend < icmax) {
icp = iclalloc();
icstart = TET_MAX(icmin, last_icend + 1);
icend = icmax;
if (last_icend >= 0)
while (icstart < icend && !tet_isdefic(icstart))
icstart++;
icp->ic_start = icstart;
icp->ic_end = icend;
last_icend = icp->ic_end;
}
return;
}
/*
** here if the element is a number or a number range
**
** split the element into '-' separated fields and extract the
** number from each one
*/
switch (split(icspec, flds, (int) (sizeof flds / sizeof flds[0]), '-')) {
case 1:
icend = icstart = atoi(flds[0]);
break;
case 2:
icstart = *flds[0] ? atoi(flds[0]) : icmin;
icend = *flds[1] ? atoi(flds[1]) : icmax;
break;
default:
return;
}
/*
** find the lowest defined IC that is greater than or equal to
** the specified start IC
**
** print a diagnostic if the specified start IC does not exist
*/
if (!tet_isdefic(icstart)) {
(void) sprintf(msg, fmt, icstart);
tet_error(0, msg);
while (++icstart <= icend)
if (tet_isdefic(icstart))
break;
}
/*
** return now if no ICs within the specified range have been defined
** in the test case
*/
if (icstart > icend)
return;
/*
** here, the IC referenced by the (possibly modified) icstart
** is known to be defined
**
** find the highest defined IC that is less than or equal to
** the specified end IC
**
** print a diagnostic if the specified end IC does not exist
*/
if (icstart != icend && !tet_isdefic(icend)) {
(void) sprintf(msg, fmt, icend);
tet_error(0, msg);
while (--icend > icstart)
if (tet_isdefic(icend))
break;
}
/*
** here we have a known good start and end IC
** (which might be the same)
**
** add the IC range to the list and return
*/
icp = iclalloc();
icp->ic_start = icstart;
icp->ic_end = icend;
last_icend = icp->ic_end;
}
/*
** iclalloc() - allocate an IC list element and return a pointer thereto
*/
static struct iclist *iclalloc()
{
register struct iclist *icp;
if (BUFCHK((char **) &iclist, &liclist, (niclist + 1) * sizeof *iclist) < 0)
tet_exit(EXIT_FAILURE);
icp = iclist + niclist++;
bzero((char *) icp, sizeof *icp);
return(icp);
}
/*
** split() - split a string up into at most maxargs fields,
** discarding excess fields
**
** return the number of fields found
*/
static int split(s, argv, maxargs, delim)
register char *s, **argv;
register int maxargs, delim;
{
register char **ap = argv;
if (!*s || maxargs <= 0)
return(0);
*ap++ = s;
while (*s) {
if (*s == (char) delim) {
*s++ = '\0';
if (ap < argv + maxargs)
*ap++ = s;
else
break;
}
else
s++;
}
return(ap - argv);
}
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