fis-gtm/sr_unix/deferred_signal_handler.c

/****************************************************************
 *								*
 *	Copyright 2001, 2013 Fidelity Information Services, Inc	*
 *								*
 *	This source code contains the intellectual property	*
 *	of its copyright holder(s), and is made available	*
 *	under a license.  If you do not know the terms of	*
 *	the license, please stop and do not read further.	*
 *								*
 ****************************************************************/

/* Perform necessary functions for signal handling that was deferred */
#include "mdef.h"

#include "gtm_stdlib.h"		/* for exit() */

#include <signal.h>

#include "error.h"
#include "gtmsiginfo.h"
#include "gtmimagename.h"
#include "send_msg.h"
#include "gtmio.h"
#include "have_crit.h"
#include "deferred_signal_handler.h"
#include "gtmmsg.h"
#ifdef DEBUG
#include "wcs_sleep.h"
#include "wbox_test_init.h"
#include "gt_timer.h"
#include "io.h"
#endif

GBLREF	int4			exi_condition;
GBLREF	void			(*call_on_signal)();
GBLREF	int			forced_exit_err;
GBLREF	uint4			process_id;
GBLREF	gtmsiginfo_t		signal_info;
GBLREF	gtmImageName		gtmImageNames[];
GBLREF	enum gtmImageTypes	image_type;
GBLREF	boolean_t		exit_handler_active;
GBLREF	boolean_t		gtm_quiet_halt;
GBLREF	volatile int4           gtmMallocDepth;         /* Recursion indicator */
GBLREF  intrpt_state_t          intrpt_ok_state;

error_def(ERR_FORCEDHALT);
error_def(ERR_KILLBYSIG);
error_def(ERR_KILLBYSIGSINFO1);
error_def(ERR_KILLBYSIGSINFO2);
error_def(ERR_KILLBYSIGSINFO3);
error_def(ERR_KILLBYSIGUINFO);

void deferred_signal_handler(void)
{
	void (*signal_routine)();
	DCL_THREADGBL_ACCESS;

	SETUP_THREADGBL_ACCESS;
	/* To avoid nested calls to this routine, progress the forced_exit state. */
	SET_FORCED_EXIT_STATE_ALREADY_EXITING;

	if (exit_handler_active)
	{
		assert(FALSE);	/* at this point in time (June 2003) there is no way we know of to get here, hence the assert */
		return;	/* since anyway we are exiting currently, resume exit handling instead of reissuing another one */
	}
	/* For signals that get a delayed response so we can get out of crit, we also delay the messages.
	 * This routine will output those delayed messages from the appropriate structures to both the
	 * user and the system console.
	 */
	/* note can't use switch here because ERR_xxx are not defined as constants */
	if (ERR_KILLBYSIG == forced_exit_err)
	{
		send_msg_csa(CSA_ARG(NULL) VARLSTCNT(6) ERR_KILLBYSIG, 4, GTMIMAGENAMETXT(image_type),
			process_id, signal_info.signal);
		gtm_putmsg_csa(CSA_ARG(NULL) VARLSTCNT(6) ERR_KILLBYSIG, 4, GTMIMAGENAMETXT(image_type),
			process_id, signal_info.signal);
	} else if (ERR_KILLBYSIGUINFO == forced_exit_err)
	{
		send_msg_csa(CSA_ARG(NULL) VARLSTCNT(8) ERR_KILLBYSIGUINFO, 6, GTMIMAGENAMETXT(image_type), process_id,
						signal_info.signal, signal_info.send_pid, signal_info.send_uid);
		gtm_putmsg_csa(CSA_ARG(NULL) VARLSTCNT(8) ERR_KILLBYSIGUINFO, 6, GTMIMAGENAMETXT(image_type), process_id,
						signal_info.signal, signal_info.send_pid, signal_info.send_uid);
	} else if (ERR_KILLBYSIGSINFO1 == forced_exit_err)
	{
		send_msg_csa(CSA_ARG(NULL) VARLSTCNT(8) ERR_KILLBYSIGSINFO1, 6, GTMIMAGENAMETXT(image_type),
			 process_id, signal_info.signal, signal_info.int_iadr, signal_info.bad_vadr);
		gtm_putmsg_csa(CSA_ARG(NULL) VARLSTCNT(8) ERR_KILLBYSIGSINFO1, 6, GTMIMAGENAMETXT(image_type),
			   process_id, signal_info.signal, signal_info.int_iadr, signal_info.bad_vadr);
	} else if (ERR_KILLBYSIGSINFO2 == forced_exit_err)
	{
		send_msg_csa(CSA_ARG(NULL) VARLSTCNT(7) ERR_KILLBYSIGSINFO2, 5, GTMIMAGENAMETXT(image_type),
			 process_id, signal_info.signal, signal_info.int_iadr);
		gtm_putmsg_csa(CSA_ARG(NULL) VARLSTCNT(7) ERR_KILLBYSIGSINFO2, 5, GTMIMAGENAMETXT(image_type),
			   process_id, signal_info.signal, signal_info.int_iadr);
	} else if (ERR_KILLBYSIGSINFO3 == forced_exit_err)
	{
		send_msg_csa(CSA_ARG(NULL) VARLSTCNT(7) ERR_KILLBYSIGSINFO3, 5, GTMIMAGENAMETXT(image_type),
			 process_id, signal_info.signal, signal_info.bad_vadr);
		gtm_putmsg_csa(CSA_ARG(NULL) VARLSTCNT(7) ERR_KILLBYSIGSINFO3, 5, GTMIMAGENAMETXT(image_type),
			   process_id, signal_info.signal, signal_info.bad_vadr);
	} else if (ERR_FORCEDHALT != forced_exit_err || !gtm_quiet_halt)
	{	/* No HALT messages if quiet halt is requested */
		send_msg_csa(CSA_ARG(NULL) VARLSTCNT(1) forced_exit_err);
		gtm_putmsg_csa(CSA_ARG(NULL) VARLSTCNT(1) forced_exit_err);
	}
	assert(OK_TO_INTERRUPT);
	/* Signal intent to exit BEFORE driving condition handlers. This avoids checks that will otherwise fail (for example
	 * if mdb_condition_handler/preemptive_db_clnup gets called below, that could invoke the RESET_GV_TARGET macro which in turn
	 * would assert that gv_target->gd_csa is equal to cs_addrs. This could not be true in case we were in mainline code
	 * that was interrupted by the flush timer for a different region which in turn was interrupted by an external signal
	 * that would drive us to exit. Setting the "process_exiting" variable causes those csa checks to pass.
	 */
	SET_PROCESS_EXITING_TRUE;
#	ifdef DEBUG
	if (gtm_white_box_test_case_enabled && (WBTEST_DEFERRED_TIMERS == gtm_white_box_test_case_number)
		&& (2 == gtm_white_box_test_case_count))
	{
		DEFER_INTERRUPTS(INTRPT_NO_TIMER_EVENTS);
		DBGFPF((stderr, "DEFERRED_SIGNAL_HANDLER: will sleep for 20 seconds\n"));
		LONG_SLEEP(20);
		DBGFPF((stderr, "DEFERRED_SIGNAL_HANDLER: done sleeping\n"));
		ENABLE_INTERRUPTS(INTRPT_NO_TIMER_EVENTS);
	}
#	endif
	/* If any special routines are registered to be driven on a signal, drive them now */
	if ((0 != exi_condition) && (NULL != call_on_signal))
	{
		signal_routine = call_on_signal;
		call_on_signal = NULL;		/* So we don't recursively call ourselves */
		(*signal_routine)();
	}
	/* Note, we do not drive create_fatal_error zshow_dmp() in this routine since any deferrable signals are
	 * by definition not fatal.
	 */
	exit(-exi_condition);
}