rpl/src/rpl.c - diff

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Diff for /rpl/src/rpl.c between versions 1.59 and 1.100

version 1.59, 2011/04/11 12:10:12	version 1.100, 2011/11/28 21:42:04
Line 1	Line 1
/*	/*
================================================================================	================================================================================
RPL/2 (R) version 4.1.0.prerelease.0	RPL/2 (R) version 4.1.5
Copyright (C) 1989-2011 Dr. BERTRAND Joël	Copyright (C) 1989-2011 Dr. BERTRAND Joël

This file is part of RPL/2.	This file is part of RPL/2.
Line 23	Line 23
#define MAIN_RPL	#define MAIN_RPL
#include "rpl-conv.h"	#include "rpl-conv.h"

#ifdef IPCS_SYSV
#ifndef OS2
unsigned char *chemin_semaphores_SysV;
#endif
#endif


/*	/*
================================================================================	================================================================================
Line 42 rplinit(int argc, char *argv[], unsigned	Line 36 rplinit(int argc, char *argv[], unsigned
# include "copyright-conv.h"	# include "copyright-conv.h"
# include "licence-conv.h"	# include "licence-conv.h"

	# ifdef HAVE_STACK_OVERFLOW_RECOVERY
	char pile_signaux[SIGSTKSZ];
	# endif

file *f_source;	file *f_source;

int erreur_historique;	int erreur_historique;
int option_P;	int option_P;
int status;

logical1 core;	logical1 core;
logical1 debug;	logical1 debug;
Line 106 rplinit(int argc, char *argv[], unsigned	Line 103 rplinit(int argc, char *argv[], unsigned
volatile unsigned char traitement_fichier_temporaire;	volatile unsigned char traitement_fichier_temporaire;

errno = 0;	errno = 0;
	s_queue_signaux = NULL;
# ifdef DMALLOC	routine_recursive = 0;
atexit(dmalloc_shutdown());	pid_processus_pere = getpid();
# endif

# ifdef DEBUG_MEMOIRE	# ifdef DEBUG_MEMOIRE
debug_memoire_initialisation();	debug_memoire_initialisation();
Line 119 rplinit(int argc, char *argv[], unsigned	Line 115 rplinit(int argc, char *argv[], unsigned
setvbuf(stderr, NULL, _IOLBF, 0);	setvbuf(stderr, NULL, _IOLBF, 0);

# ifndef SEMAPHORES_NOMMES	# ifndef SEMAPHORES_NOMMES
sem_init(&semaphore_liste_threads, 0, 1);
sem_init(&semaphore_gestionnaires_signaux, 0, 0);	sem_init(&semaphore_gestionnaires_signaux, 0, 0);
sem_init(&semaphore_gestionnaires_signaux_atomique, 0, 1);
# else	# else
semaphore_liste_threads = sem_init2(1, sem_liste_threads);	semaphore_gestionnaires_signaux = sem_init2(0, getpid(), SEM_SIGNAUX);
semaphore_gestionnaires_signaux = sem_init2(0, sem_gestionnaires_signaux);
semaphore_gestionnaires_signaux_atomique = sem_init2(1,	if (semaphore_gestionnaires_signaux == SEM_FAILED)
sem_gestionnaires_signaux_atomique);

if ((semaphore_liste_threads == SEM_FAILED) \|\|
(semaphore_gestionnaires_signaux == SEM_FAILED) \|\|
(semaphore_gestionnaires_signaux_atomique == SEM_FAILED))
{	{
erreur = d_es_allocation_memoire;	erreur = d_es_allocation_memoire;

Line 187 rplinit(int argc, char *argv[], unsigned	Line 176 rplinit(int argc, char *argv[], unsigned
(*s_etat_processus).langue = 'E';	(*s_etat_processus).langue = 'E';
}	}

	initialisation_contexte_cas(s_etat_processus);

(*s_etat_processus).exception = d_ep;	(*s_etat_processus).exception = d_ep;
(*s_etat_processus).erreur_systeme = d_es;	(*s_etat_processus).erreur_systeme = d_es;
(*s_etat_processus).erreur_execution = d_ex;	(*s_etat_processus).erreur_execution = d_ex;
Line 205 rplinit(int argc, char *argv[], unsigned	Line 196 rplinit(int argc, char *argv[], unsigned
pthread_mutexattr_destroy(&attributs_mutex);	pthread_mutexattr_destroy(&attributs_mutex);

# ifndef SEMAPHORES_NOMMES	# ifndef SEMAPHORES_NOMMES
sem_init(&((*s_etat_processus).semaphore_fork), 0, 0);	sem_init(&((*s_etat_processus).semaphore_fork), 0, 0);
# else	# else
if (((*s_etat_processus).semaphore_fork = sem_init2(0, sem_fork)) ==	if (((*s_etat_processus).semaphore_fork = sem_init3(0, getpid(),
SEM_FAILED)	pthread_self(), SEM_FORK)) == SEM_FAILED)
{
if ((*s_etat_processus).langue == 'F')
{
uprintf("+++Système : Mémoire insuffisante\n");
}
else
{	{
uprintf("+++System : Not enough memory\n");	if ((*s_etat_processus).langue == 'F')
}	{
	uprintf("+++Système : Mémoire insuffisante\n");
	}
	else
	{
	uprintf("+++System : Not enough memory\n");
	}

return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}
# endif	# endif

pthread_mutexattr_init(&attributs_mutex);	pthread_mutexattr_init(&attributs_mutex);
Line 244 rplinit(int argc, char *argv[], unsigned	Line 235 rplinit(int argc, char *argv[], unsigned
(*s_etat_processus).chemin_fichiers_temporaires =	(*s_etat_processus).chemin_fichiers_temporaires =
recherche_chemin_fichiers_temporaires(s_etat_processus);	recherche_chemin_fichiers_temporaires(s_etat_processus);

# ifdef IPCS_SYSV
# ifndef OS2
chemin_semaphores_SysV = (*s_etat_processus).chemin_fichiers_temporaires;
# endif
# endif

# ifdef _BROKEN_SIGINFO
creation_fifos_signaux(s_etat_processus);
# ifdef return
# undef return
# endif
# define return destruction_fifos_signaux(s_etat_processus); return
# endif

insertion_thread(s_etat_processus, d_vrai);	insertion_thread(s_etat_processus, d_vrai);
	creation_queue_signaux(s_etat_processus);

# ifndef OS2	# ifndef OS2
localisation_courante(s_etat_processus);	localisation_courante(s_etat_processus);
Line 340 rplinit(int argc, char *argv[], unsigned	Line 318 rplinit(int argc, char *argv[], unsigned
home = "";	home = "";
}	}

// Initialisation d'une clef	# ifdef HAVE_STACK_OVERFLOW_RECOVERY
	if (stackoverflow_install_handler(interruption_depassement_pile,
if (pthread_key_create(&semaphore_fork_processus_courant, NULL) != 0)	pile_signaux, sizeof(pile_signaux)) != 0)
{
if ((*s_etat_processus).langue == 'F')
{
printf("+++Système : Mémoire insuffisante\n");
}
else
{
printf("+++System : Not enough memory\n");
}

return(EXIT_FAILURE);
}

# ifndef SEMAPHORES_NOMMES
if (pthread_setspecific(semaphore_fork_processus_courant,
&((*s_etat_processus).semaphore_fork)) != 0)
# else
if (pthread_setspecific(semaphore_fork_processus_courant,
(*s_etat_processus).semaphore_fork) != 0)
# endif
{
if ((*s_etat_processus).langue == 'F')
{	{
printf("+++Système : Mémoire insuffisante\n");	erreur = d_es_signal;
}
else
{
printf("+++System : Not enough memory\n");
}

return(EXIT_FAILURE);	if ((*s_etat_processus).langue == 'F')
}	{
	printf("+++Système : Initialisation de la pile alternative "
// Initialisation d'une pile de signal pour récupérer les	"impossible\n");
// débordement de pile	}
	else
# if !defined(Cygwin) && !defined(OpenBSD)	{
if (((*s_etat_processus).pile_signal.ss_sp =	printf("+++System : Initialization of alternate "
malloc((*s_etat_processus).pile_signal.ss_size =	"stack failed\n");
SIGSTKSZ)) == NULL)	}
{
erreur = d_es_allocation_memoire;

if ((*s_etat_processus).langue == 'F')	return(EXIT_FAILURE);
{
printf("+++Système : Mémoire insuffisante\n");
}
else
{
printf("+++System : Not enough memory\n");
}	}
	# else
return(EXIT_FAILURE);
}

(*s_etat_processus).pile_signal.ss_flags = 0;

if (sigaltstack(&((*s_etat_processus).pile_signal), NULL) != 0)
{
erreur = d_es_signal;

if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
{	{
printf("+++Système : Initialisation de la pile spécifique de signal"	printf("+++Attention : Le système ne supporte pas de pile "
" impossible\n");	"alternative\n");
}	}
else	else
{	{
printf("+++System : Initialization of signal stack failed\n");	printf("+++Warning : Operating system does not support alternate "
	"stack\n");
}	}

return(EXIT_FAILURE);
}
# endif	# endif

# ifndef _BROKEN_SIGINFO
action.sa_sigaction = interruption1;
# else
action.sa_handler = interruption1;	action.sa_handler = interruption1;
# endif	action.sa_flags = 0;
action.sa_flags = SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGINT, &action, NULL) != 0)	if (sigaction(SIGINT, &action, NULL) != 0)
{	{
Line 442 rplinit(int argc, char *argv[], unsigned	Line 370 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

if (sigaction(SIGTERM, &action, NULL) != 0)	signal_test = SIGTEST;
	kill(getpid(), SIGINT);

	if (signal_test != SIGINT)
{	{
erreur = d_es_signal;	erreur = d_es_signal;

Line 459 rplinit(int argc, char *argv[], unsigned	Line 390 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	if (sigaction(SIGTERM, &action, NULL) != 0)
action.sa_sigaction = interruption2;
# else
action.sa_handler = interruption2;
# endif
action.sa_flags = SA_NODEFER \| SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGTSTP, &action, NULL) != 0)
{
if ((*s_etat_processus).langue == 'F')
{
printf("+++Système : Initialisation des signaux POSIX "
"impossible\n");
}
else
{
printf("+++System : Initialization of POSIX signals failed\n");
}

return(EXIT_FAILURE);
}

# ifndef _BROKEN_SIGINFO
action.sa_sigaction = interruption4;
# else
action.sa_handler = interruption4;
# endif
// SIGCONT ne doit pas pouvoir être appelé depuis son gestionnaire.
action.sa_flags = SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGSTART, &action, NULL) != 0)
{	{
if ((*s_etat_processus).langue == 'F')	erreur = d_es_signal;
{
printf("+++Système : Initialisation des signaux POSIX "
"impossible\n");
}
else
{
printf("+++System : Initialization of POSIX signals failed\n");
}

return(EXIT_FAILURE);
}

if (sigaction(SIGCONT, &action, NULL) != 0)
{
if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
{	{
printf("+++Système : Initialisation des signaux POSIX "	printf("+++Système : Initialisation des signaux POSIX "
Line 519 rplinit(int argc, char *argv[], unsigned	Line 407 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	signal_test = SIGTEST;
action.sa_sigaction = interruption5;	kill(getpid(), SIGTERM);
# else
action.sa_handler = interruption5;
# endif
action.sa_flags = SA_NODEFER \| SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGFSTOP, &action, NULL) != 0)	if (signal_test != SIGTERM)
{	{
erreur = d_es_signal;	erreur = d_es_signal;

Line 543 rplinit(int argc, char *argv[], unsigned	Line 427 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	action.sa_handler = interruption2;
action.sa_sigaction = interruption11;	action.sa_flags = 0;
# else
action.sa_handler = interruption11;
# endif
action.sa_flags = SA_NODEFER \| SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGFABORT, &action, NULL) != 0)	if (sigaction(SIGTSTP, &action, NULL) != 0)
{	{
erreur = d_es_signal;

if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
{	{
printf("+++Système : Initialisation des signaux POSIX "	printf("+++Système : Initialisation des signaux POSIX "
Line 567 rplinit(int argc, char *argv[], unsigned	Line 445 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	signal_test = SIGTEST;
action.sa_sigaction = interruption8;	kill(getpid(), SIGTSTP);
# else
action.sa_handler = interruption8;
# endif
action.sa_flags = SA_NODEFER \| SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGURG, &action, NULL) != 0)	if (signal_test != SIGTSTP)
{	{
erreur = d_es_signal;	erreur = d_es_signal;

Line 591 rplinit(int argc, char *argv[], unsigned	Line 465 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	action.sa_handler = interruption5;
action.sa_sigaction = interruption7;	action.sa_flags = 0;
# else
action.sa_handler = interruption7;
# endif
action.sa_flags = SA_NODEFER \| SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGPIPE, &action, NULL) != 0)	if (sigaction(SIGPIPE, &action, NULL) != 0)
{	{
Line 615 rplinit(int argc, char *argv[], unsigned	Line 485 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	signal_test = SIGTEST;
action.sa_sigaction = interruption6;	kill(getpid(), SIGPIPE);
# else
action.sa_handler = interruption6;
# endif
action.sa_flags = SA_ONSTACK \| SA_SIGINFO \| SA_NODEFER;

if (sigaction(SIGINJECT, &action, NULL) != 0)	if (signal_test != SIGPIPE)
{	{
erreur = d_es_signal;	erreur = d_es_signal;

Line 639 rplinit(int argc, char *argv[], unsigned	Line 505 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	action.sa_handler = interruption1;
action.sa_sigaction = interruption9;	action.sa_flags = 0;
# else
action.sa_handler = interruption9;
# endif
action.sa_flags = SA_ONSTACK \| SA_SIGINFO \| SA_NODEFER;

if (sigaction(SIGABORT, &action, NULL) != 0)	if (sigaction(SIGUSR1, &action, NULL) != 0)
{	{
erreur = d_es_signal;	erreur = d_es_signal;

Line 663 rplinit(int argc, char *argv[], unsigned	Line 525 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	signal_test = SIGTEST;
action.sa_sigaction = interruption1;	kill(getpid(), SIGUSR1);
# else
action.sa_handler = interruption1;
# endif
action.sa_flags = SA_NODEFER \| SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGALRM, &action, NULL) != 0)	if (signal_test != SIGUSR1)
{	{
erreur = d_es_signal;	erreur = d_es_signal;

Line 687 rplinit(int argc, char *argv[], unsigned	Line 545 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

# ifndef _BROKEN_SIGINFO	signal_test = SIGTEST + 1;
action.sa_sigaction = interruption3;
# else
action.sa_handler = interruption3;
# endif
action.sa_flags = SA_NODEFER \| SA_ONSTACK \| SA_SIGINFO;

erreur = d_absence_erreur;	erreur = d_absence_erreur;
core = d_faux;	core = d_faux;
Line 740 rplinit(int argc, char *argv[], unsigned	Line 593 rplinit(int argc, char *argv[], unsigned
option_t = d_faux;	option_t = d_faux;
option_v = d_faux;	option_v = d_faux;

	// Lorsque le programme est appelé depuis un shebang, argv[0] contient
	// le chemin du programme et argv[1] tous les arguments.
	// argv[2] contient quant à lui le nom du script RPL/2.
	//
	// Exemple :
	// argv[0] : /usr/local/bin/rpl
	// argv[1] : -csdp -t 800
	// argv[2] : ./on_exit.rpl

while((--argc) > 0)	while((--argc) > 0)
{	{
if ((*(++argv))[0] == '-')	if ((*(++argv))[0] == '-')
Line 1535 rplinit(int argc, char *argv[], unsigned	Line 1397 rplinit(int argc, char *argv[], unsigned
break;	break;
}	}

	case '-':
	case ' ':
	{
	break;
	}

default :	default :
{	{
if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
Line 1579 rplinit(int argc, char *argv[], unsigned	Line 1447 rplinit(int argc, char *argv[], unsigned
}	}
}	}

	/*
	* Dans le cas où le programme est appelé avec l'option -d,
	* on ne récupère par les signaux de violation d'accès. On
	* tente simplement la récupération des dépassements de pile.
	*/

if (debug == d_faux)	if (debug == d_faux)
{	{

	# ifdef HAVE_SIGSEGV_RECOVERY
	if (sigsegv_install_handler(interruption_violation_access) != 0)
	{
	erreur = d_es_signal;

	if ((*s_etat_processus).langue == 'F')
	{
	printf("+++Système : Initialisation de la pile alternative "
	"impossible\n");
	}
	else
	{
	printf("+++System : Initialization of alternate "
	"stack failed\n");
	}

	return(EXIT_FAILURE);
	}
	# else
	action.sa_handler = interruption3;
	action.sa_flags = 0;

if (sigaction(SIGSEGV, &action, NULL) != 0)	if (sigaction(SIGSEGV, &action, NULL) != 0)
{	{
if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
Line 1597 rplinit(int argc, char *argv[], unsigned	Line 1494 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

	signal_test = SIGTEST;
	kill(getpid(), SIGSEGV);

	if (signal_test != SIGSEGV)
	{
	erreur = d_es_signal;

	if ((*s_etat_processus).langue == 'F')
	{
	printf("+++Système : Initialisation des signaux POSIX "
	"impossible\n");
	}
	else
	{
	printf("+++System : Initialization of POSIX signals "
	"failed\n");
	}

	return(EXIT_FAILURE);
	}
	# endif

if (sigaction(SIGBUS, &action, NULL) != 0)	if (sigaction(SIGBUS, &action, NULL) != 0)
{	{
if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
Line 1612 rplinit(int argc, char *argv[], unsigned	Line 1531 rplinit(int argc, char *argv[], unsigned

return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

	signal_test = SIGTEST;
	kill(getpid(), SIGBUS);

	if (signal_test != SIGBUS)
	{
	erreur = d_es_signal;

	if ((*s_etat_processus).langue == 'F')
	{
	printf("+++Système : Initialisation des signaux POSIX "
	"impossible\n");
	}
	else
	{
	printf("+++System : Initialization of POSIX signals "
	"failed\n");
	}

	return(EXIT_FAILURE);
	}

}	}

if (option_n == d_vrai)	if (option_n == d_vrai)
{	{
# ifndef _BROKEN_SIGINFO	action.sa_handler = interruption4;
action.sa_sigaction = interruption10;	action.sa_flags = 0;
# else
action.sa_handler = interruption10;
# endif
action.sa_flags = SA_ONSTACK \| SA_SIGINFO;

if (sigaction(SIGHUP, &action, NULL) != 0)	if (sigaction(SIGHUP, &action, NULL) != 0)
{	{
Line 1837 rplinit(int argc, char *argv[], unsigned	Line 1774 rplinit(int argc, char *argv[], unsigned
(*s_etat_processus).affichage_arguments = 'N';	(*s_etat_processus).affichage_arguments = 'N';
(*s_etat_processus).autorisation_conversion_chaine = 'Y';	(*s_etat_processus).autorisation_conversion_chaine = 'Y';
(*s_etat_processus).autorisation_evaluation_nom = 'Y';	(*s_etat_processus).autorisation_evaluation_nom = 'Y';
(*s_etat_processus).autorisation_nom_implicite = 'Y';
	if (mode_interactif == d_vrai)
	{
	(*s_etat_processus).autorisation_nom_implicite = 'Y';
	}
	else
	{
	(*s_etat_processus).autorisation_nom_implicite = 'N';
	}

(*s_etat_processus).autorisation_empilement_programme = 'N';	(*s_etat_processus).autorisation_empilement_programme = 'N';
(*s_etat_processus).requete_arret = 'N';	(*s_etat_processus).requete_arret = 'N';
(*s_etat_processus).evaluation_forcee = 'N';	(*s_etat_processus).evaluation_forcee = 'N';
Line 1853 rplinit(int argc, char *argv[], unsigned	Line 1799 rplinit(int argc, char *argv[], unsigned
(*s_etat_processus).l_base_pile = NULL;	(*s_etat_processus).l_base_pile = NULL;
(*s_etat_processus).l_base_pile_last = NULL;	(*s_etat_processus).l_base_pile_last = NULL;

(*s_etat_processus).s_liste_variables = NULL;	(*s_etat_processus).s_arbre_variables = NULL;
	(*s_etat_processus).l_liste_variables_par_niveau = NULL;
(*s_etat_processus).gel_liste_variables = d_faux;	(*s_etat_processus).gel_liste_variables = d_faux;
(*s_etat_processus).nombre_variables = 0;	(*s_etat_processus).pointeur_variable_courante = NULL;
(*s_etat_processus).nombre_variables_allouees = 0;
(*s_etat_processus).s_liste_variables_statiques = NULL;	(*s_etat_processus).s_liste_variables_statiques = NULL;
(*s_etat_processus).nombre_variables_statiques = 0;	(*s_etat_processus).nombre_variables_statiques = 0;
(*s_etat_processus).nombre_variables_statiques_allouees = 0;	(*s_etat_processus).nombre_variables_statiques_allouees = 0;
Line 1864 rplinit(int argc, char *argv[], unsigned	Line 1810 rplinit(int argc, char *argv[], unsigned
(*s_etat_processus).niveau_initial = 0;	(*s_etat_processus).niveau_initial = 0;
(*s_etat_processus).creation_variables_statiques = d_faux;	(*s_etat_processus).creation_variables_statiques = d_faux;
(*s_etat_processus).creation_variables_partagees = d_faux;	(*s_etat_processus).creation_variables_partagees = d_faux;
(*s_etat_processus).position_variable_courante = 0;
(*s_etat_processus).position_variable_statique_courante = 0;	(*s_etat_processus).position_variable_statique_courante = 0;

(*s_etat_processus).s_bibliotheques = NULL;	(*s_etat_processus).s_bibliotheques = NULL;
Line 2007 rplinit(int argc, char *argv[], unsigned	Line 1952 rplinit(int argc, char *argv[], unsigned
(*s_etat_processus).var_volatile_recursivite = 0;	(*s_etat_processus).var_volatile_recursivite = 0;
(*s_etat_processus).var_volatile_exception_gsl = 0;	(*s_etat_processus).var_volatile_exception_gsl = 0;
(*s_etat_processus).arret_depuis_abort = 0;	(*s_etat_processus).arret_depuis_abort = 0;
	(*s_etat_processus).pointeur_signal_lecture = 0;
	(*s_etat_processus).pointeur_signal_ecriture = 0;

initialisation_allocateur(s_etat_processus);	initialisation_allocateur(s_etat_processus);
initialisation_drapeaux(s_etat_processus);	initialisation_drapeaux(s_etat_processus);
	initialisation_variables(s_etat_processus);
	initialisation_instructions(s_etat_processus);

if ((*s_etat_processus).erreur_systeme != d_es)	if ((*s_etat_processus).erreur_systeme != d_es)
{	{
Line 2395 rplinit(int argc, char *argv[], unsigned	Line 2344 rplinit(int argc, char *argv[], unsigned
(*s_etat_processus).position_courante = 0;	(*s_etat_processus).position_courante = 0;
(*s_etat_processus).traitement_cycle_exit = 'N';	(*s_etat_processus).traitement_cycle_exit = 'N';

if ((*s_etat_processus).nombre_variables == 0)	if ((*s_etat_processus).s_arbre_variables == NULL)
{	{
if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
{	{
Line 2455 rplinit(int argc, char *argv[], unsigned	Line 2404 rplinit(int argc, char *argv[], unsigned
return(EXIT_FAILURE);	return(EXIT_FAILURE);
}	}

if ((*s_etat_processus).s_liste_variables	if (((s_etat_processus).pointeur_variable_courante)
[(*s_etat_processus)	.niveau != 0)
.position_variable_courante].niveau != 0)
{	{
if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
{	{
Line 2543 rplinit(int argc, char *argv[], unsigned	Line 2491 rplinit(int argc, char *argv[], unsigned

fflush(stdout);	fflush(stdout);

initialisation_instructions(s_etat_processus);

if (arguments != NULL)	if (arguments != NULL)
{	{
tampon = (*s_etat_processus).definitions_chainees;	tampon = (*s_etat_processus).definitions_chainees;
Line 2761 rplinit(int argc, char *argv[], unsigned	Line 2707 rplinit(int argc, char *argv[], unsigned
if (setjmp(contexte_initial) == 0)	if (setjmp(contexte_initial) == 0)
{	{
erreur = sequenceur(s_etat_processus);	erreur = sequenceur(s_etat_processus);

	if (erreur == d_absence_erreur)
	{
	if (((*s_etat_processus).var_volatile_alarme
	== 0) && ((*s_etat_processus)
	.arret_depuis_abort == 0) &&
	((*s_etat_processus).at_exit
	!= NULL))
	{
	erreur = evaluation(s_etat_processus,
	(*s_etat_processus).at_exit,
	'E');
	}
	}
}	}
}	}
else	else
Line 2768 rplinit(int argc, char *argv[], unsigned	Line 2728 rplinit(int argc, char *argv[], unsigned
if (setjmp(contexte_initial) == 0)	if (setjmp(contexte_initial) == 0)
{	{
erreur = sequenceur_optimise(s_etat_processus);	erreur = sequenceur_optimise(s_etat_processus);
}
}

if (erreur == d_absence_erreur)	if (erreur == d_absence_erreur)
{	{
if (((*s_etat_processus).var_volatile_alarme == 0)	if (((*s_etat_processus).var_volatile_alarme
&& ((*s_etat_processus).arret_depuis_abort	== 0) && ((*s_etat_processus)
== 0) && ((*s_etat_processus).at_exit	.arret_depuis_abort == 0) &&
!= NULL))	((*s_etat_processus).at_exit
{	!= NULL))
erreur = evaluation(s_etat_processus,	{
(*s_etat_processus).at_exit, 'E');	erreur = evaluation(s_etat_processus,
	(*s_etat_processus).at_exit,
	'E');
	}
	}
}	}
}	}
}	}
Line 2795 rplinit(int argc, char *argv[], unsigned	Line 2757 rplinit(int argc, char *argv[], unsigned
l_element_courant = (*s_etat_processus).liste_mutexes;	l_element_courant = (*s_etat_processus).liste_mutexes;
while(l_element_courant != NULL)	while(l_element_courant != NULL)
{	{
pthread_mutex_trylock(&((((struct_mutex )
((((struct_liste_chainee *)
l_element_courant)).donnee).objet)).mutex));
pthread_mutex_unlock(&((((struct_mutex )
((((struct_liste_chainee *)
l_element_courant)).donnee).objet)).mutex));
pthread_mutex_destroy(&((((struct_mutex )
((((struct_liste_chainee *)
l_element_courant)).donnee).objet)).mutex));

liberation(s_etat_processus,	liberation(s_etat_processus,
(((struct_liste_chainee )	(((struct_liste_chainee )
l_element_courant)).donnee);	l_element_courant)).donnee);
Line 2896 rplinit(int argc, char *argv[], unsigned	Line 2848 rplinit(int argc, char *argv[], unsigned
{	{
if ((*s_etat_processus).var_volatile_alarme != 0)	if ((*s_etat_processus).var_volatile_alarme != 0)
{	{
kill(((((struct_processus_fils *)	envoi_signal_processus(
	((((struct_processus_fils *)
((((struct_liste_chainee *)	((((struct_liste_chainee *)
l_element_courant)).donnee).objet))	l_element_courant)).donnee).objet))
.thread).pid, SIGURG);	.thread).pid, rpl_sigurg);
}	}
else	else
{	{
if ((*s_etat_processus).arret_depuis_abort	if ((*s_etat_processus).arret_depuis_abort
== -1)	== -1)
{	{
kill(((((struct_processus_fils *)	envoi_signal_processus(
	((((struct_processus_fils *)
((((struct_liste_chainee *)	((((struct_liste_chainee *)
l_element_courant)).donnee).objet))	l_element_courant)).donnee).objet))
.thread).pid, SIGFABORT);	.thread).pid, rpl_sigabort);
}	}
else	else
{	{
kill(((((struct_processus_fils *)	envoi_signal_processus(
	((((struct_processus_fils *)
((((struct_liste_chainee *)	((((struct_liste_chainee *)
l_element_courant)).donnee).objet))	l_element_courant)).donnee).objet))
.thread).pid, SIGFSTOP);	.thread).pid, rpl_sigstop);
}	}
}	}
}	}
Line 2935 rplinit(int argc, char *argv[], unsigned	Line 2890 rplinit(int argc, char *argv[], unsigned
if ((*s_etat_processus).var_volatile_alarme	if ((*s_etat_processus).var_volatile_alarme
!= 0)	!= 0)
{	{
pthread_kill(((((struct_processus_fils *)	envoi_signal_thread(
	((((struct_processus_fils *)
((((struct_liste_chainee *)	((((struct_liste_chainee *)
l_element_courant)).donnee).objet))	l_element_courant)).donnee).objet))
.thread).tid, SIGURG);	.thread).tid, rpl_sigurg);
}	}
else	else
{	{
if ((*s_etat_processus).arret_depuis_abort	if ((*s_etat_processus).arret_depuis_abort
== -1)	== -1)
{	{
pthread_kill(	envoi_signal_thread(
((((struct_processus_fils *)	((((struct_processus_fils *)
((((struct_liste_chainee *)	((((struct_liste_chainee *)
l_element_courant)).donnee)	l_element_courant)).donnee)
.objet)).thread).tid,	.objet)).thread).tid,
SIGFABORT);	rpl_sigabort);
}	}
else	else
{	{
pthread_kill(	envoi_signal_thread(
((((struct_processus_fils *)	((((struct_processus_fils *)
((((struct_liste_chainee *)	((((struct_liste_chainee *)
l_element_courant)).donnee)	l_element_courant)).donnee)
.objet)).thread).tid,	.objet)).thread).tid,
SIGFSTOP);	rpl_sigstop);
}	}
}	}
}	}
Line 2988 rplinit(int argc, char *argv[], unsigned	Line 2944 rplinit(int argc, char *argv[], unsigned

while((*s_etat_processus).l_base_pile_processus != NULL)	while((*s_etat_processus).l_base_pile_processus != NULL)
{	{
status = 0;

l_element_courant = (void *)	l_element_courant = (void *)
(*s_etat_processus).l_base_pile_processus;	(*s_etat_processus).l_base_pile_processus;

Line 3014 rplinit(int argc, char *argv[], unsigned	Line 2968 rplinit(int argc, char *argv[], unsigned
.thread).nombre_objets_dans_pipe--;	.thread).nombre_objets_dans_pipe--;

action.sa_handler = SIG_IGN;	action.sa_handler = SIG_IGN;
action.sa_flags = SA_ONSTACK;	action.sa_flags = 0;

if (sigaction(SIGPIPE, &action, &registre)	if (sigaction(SIGPIPE, &action, &registre)
!= 0)	!= 0)
Line 3060 rplinit(int argc, char *argv[], unsigned	Line 3014 rplinit(int argc, char *argv[], unsigned
}	}

nanosleep(&attente, NULL);	nanosleep(&attente, NULL);
	scrutation_interruptions(s_etat_processus);
pthread_mutex_lock(&((*s_etat_processus).mutex));	pthread_mutex_lock(&((*s_etat_processus).mutex));
}	}

Line 3213 rplinit(int argc, char *argv[], unsigned	Line 3168 rplinit(int argc, char *argv[], unsigned
* le libérer...	* le libérer...
*/	*/

for(i = 0; i < (*s_etat_processus).nombre_variables; i++)	liberation_arbre_variables(s_etat_processus,
{	(*s_etat_processus).s_arbre_variables, d_vrai);
liberation(s_etat_processus,	free((*s_etat_processus).pointeurs_caracteres_variables);
(*s_etat_processus).s_liste_variables[i].objet);
free((*s_etat_processus).s_liste_variables[i].nom);
}

free((*s_etat_processus).s_liste_variables);

for(i = 0; i < (*s_etat_processus)	for(i = 0; i < (*s_etat_processus)
.nombre_variables_statiques; i++)	.nombre_variables_statiques; i++)
Line 3595 rplinit(int argc, char *argv[], unsigned	Line 3545 rplinit(int argc, char *argv[], unsigned
sem_destroy(&((*s_etat_processus).semaphore_fork));	sem_destroy(&((*s_etat_processus).semaphore_fork));
# else	# else
sem_post((*s_etat_processus).semaphore_fork);	sem_post((*s_etat_processus).semaphore_fork);
sem_destroy2((*s_etat_processus).semaphore_fork, sem_fork);	sem_destroy3((*s_etat_processus).semaphore_fork, getpid(), pthread_self(),
	SEM_FORK);
# endif	# endif

free((*s_etat_processus).localisation);	free((*s_etat_processus).localisation);

# ifndef SEMAPHORES_NOMMES	pthread_mutex_destroy(&mutex_liste_threads);
sem_destroy(&semaphore_liste_threads);	pthread_mutex_destroy(&mutex_gestionnaires_signaux_atomique);
# else
sem_destroy2(semaphore_liste_threads, sem_liste_threads);
# endif
# ifndef SEMAPHORES_NOMMES	# ifndef SEMAPHORES_NOMMES
sem_post(&semaphore_gestionnaires_signaux);	sem_post(&semaphore_gestionnaires_signaux);
sem_destroy(&semaphore_gestionnaires_signaux);	sem_destroy(&semaphore_gestionnaires_signaux);
sem_destroy(&semaphore_gestionnaires_signaux_atomique);
# else	# else
sem_post(semaphore_gestionnaires_signaux);	sem_post(semaphore_gestionnaires_signaux);
sem_destroy2(semaphore_gestionnaires_signaux, sem_gestionnaires_signaux);	sem_destroy2(semaphore_gestionnaires_signaux, getpid(), SEM_SIGNAUX);
sem_destroy2(semaphore_gestionnaires_signaux_atomique,
sem_gestionnaires_signaux_atomique);
# endif	# endif

# ifdef _BROKEN_SIGINFO	destruction_queue_signaux(s_etat_processus);
destruction_fifos_signaux(s_etat_processus);	liberation_contexte_cas(s_etat_processus);
# undef return
# endif

free((*s_etat_processus).chemin_fichiers_temporaires);	free((*s_etat_processus).chemin_fichiers_temporaires);
free(s_etat_processus);	free(s_etat_processus);
Line 3629 rplinit(int argc, char *argv[], unsigned	Line 3573 rplinit(int argc, char *argv[], unsigned
analyse_post_mortem();	analyse_post_mortem();
# endif	# endif

	# ifdef HAVE_STACK_OVERFLOW_RECOVERY
	stackoverflow_deinstall_handler();
	# endif

	# ifdef HAVE_SIGSEGV_RECOVERY
	if (debug == d_faux)
	{
	sigsegv_deinstall_handler();
	}
	# endif

return((erreur == d_absence_erreur) ? EXIT_SUCCESS : EXIT_FAILURE);	return((erreur == d_absence_erreur) ? EXIT_SUCCESS : EXIT_FAILURE);
}	}

Line 3684 informations(struct_processus *s_etat_pr	Line 3639 informations(struct_processus *s_etat_pr
return;	return;
}	}


	logical1
	controle_integrite(struct_processus *s_etat_processus,
	unsigned char executable_candidat, unsigned char executable)
	{
	unsigned char *md5;
	unsigned char *sha1;

	if (strcmp(executable, "rplpp") == 0)
	{
	md5 = rplpp_md5;
	sha1 = rplpp_sha1;
	}
	else if (strcmp(executable, "rplfile") == 0)
	{
	md5 = rplfile_md5;
	sha1 = rplfile_sha1;
	}
	else if (strcmp(executable, "rpliconv") == 0)
	{
	md5 = rpliconv_md5;
	sha1 = rpliconv_sha1;
	}
	else if (strcmp(executable, "rplawk") == 0)
	{
	md5 = rplawk_md5;
	sha1 = rplawk_sha1;
	}
	else if (strcmp(executable, "rplconvert") == 0)
	{
	md5 = rplconvert_md5;
	sha1 = rplconvert_sha1;
	}
	else
	{
	return(d_faux);
	}

	if (controle(s_etat_processus, executable_candidat, "md5", md5) != d_vrai)
	{
	return(d_faux);
	}

	if (controle(s_etat_processus, executable_candidat, "sha1", sha1) != d_vrai)
	{
	return(d_faux);
	}

	return(d_vrai);
	}


	unsigned char *
	date_compilation()
	{
	unsigned char *date;

	if ((date = malloc((strlen(d_date_en_rpl) + 1) * sizeof(unsigned char)))
	== NULL)
	{
	return(NULL);
	}

	strcpy(date, d_date_en_rpl);

	return(date);
	}

// vim: ts=4	// vim: ts=4

CVSweb interface <joel.bertrand@systella.fr>

Removed from v.1.59
changed lines
	Added in v.1.100