helgrind/hg_basics.h - platform/external/valgrind - Git at Google


 /*--------------------------------------------------------------------*/
 /*--- Basic definitions for all of Helgrind.                       ---*/
 /*---                                                  hg_basics.h ---*/
 /*--------------------------------------------------------------------*/

 /*
    This file is part of Helgrind, a Valgrind tool for detecting errors
    in threaded programs.

    Copyright (C) 2007-2013 OpenWorks Ltd
       info@open-works.co.uk

    This program is free software; you can redistribute it and/or
    modify it under the terms of the GNU General Public License as
    published by the Free Software Foundation; either version 2 of the
    License, or (at your option) any later version.

    This program is distributed in the hope that it will be useful, but
    WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
    02111-1307, USA.

    The GNU General Public License is contained in the file COPYING.
 */

 #ifndef __HG_BASICS_H
 #define __HG_BASICS_H


 /*----------------------------------------------------------------*/
 /*--- Very basic stuff                                         ---*/
 /*----------------------------------------------------------------*/

 #define HG_(str) VGAPPEND(vgHelgrind_,str)

 void*  HG_(zalloc) ( const HChar* cc, SizeT n );
 void   HG_(free)   ( void* p );
 HChar* HG_(strdup) ( const HChar* cc, const HChar* s );

 static inline Bool HG_(is_sane_ThreadId) ( ThreadId coretid ) {
    return coretid >= 0 && coretid < VG_N_THREADS;
 }


 /*----------------------------------------------------------------*/
 /*--- Command line options                                     ---*/
 /*----------------------------------------------------------------*/

 /* Flags for controlling for which events sanity checking is done */
 #define SCE_THREADS  (1<<0)  // Sanity check at thread create/join
 #define SCE_LOCKS    (1<<1)  // Sanity check at lock events
 #define SCE_BIGRANGE (1<<2)  // Sanity check at big mem range events
 #define SCE_ACCESS   (1<<3)  // Sanity check at mem accesses
 #define SCE_LAOG     (1<<4)  // Sanity check at significant LAOG events

 #define SCE_BIGRANGE_T 256  // big mem range minimum size


 /* Enable/disable lock order checking.  Sometimes it produces a lot of
    errors, possibly genuine, which nevertheless can be very
    annoying. */
 extern Bool HG_(clo_track_lockorders);

 /* When comparing race errors for equality, should the race address be
    taken into account?  For users, no, but for verification purposes
    (regtesting) this is sometimes important. */
 extern Bool HG_(clo_cmp_race_err_addrs);

 /* Controls how much history to collect, in order to show conflicting
    accesses.  There are three levels:

    0: "none": don't collect any history.  Fastest, but means we can
       only show one of the two stacks in a race.

    1: "approx": collect one stack trace per (notional) segment, that
       is, collect a stack trace for a thread every time its vector
       clock changes.  This faciliates showing the bounds of the
       conflicting segment(s), with relatively small overhead.

    2: "full": collect a stack trace every time the constraints for a
       location change.  This facilitates showing both stack traces in
       a race, although can be very expensive in time and space
       (depends on the rate that threads "drag" locations across
       vector-clock-change boundaries ("dragovers").  This involves
       collecting and storing large numbers of call stacks just in case
       we might need to show them later, and so is expensive (although
       very useful). */
 extern UWord HG_(clo_history_level);

 /* When doing "full" history collection, this determines the size of
    the conflicting-access cache, measured in terms of maximum possible
    number of elements in the previous-access map.  Must be between 10k
    amd 10 million.  Default is 1 million. */
 extern UWord HG_(clo_conflict_cache_size);

 /* Sanity check level.  This is an or-ing of
    SCE_{THREADS,LOCKS,BIGRANGE,ACCESS,LAOG}. */
 extern Word HG_(clo_sanity_flags);

 /* Treat heap frees as if the memory was written immediately prior to
    the free.  This shakes out races in which memory is referenced by
    one thread, and freed by another, and there's no observable
    synchronisation event to guarantee that the reference happens
    before the free. */
 extern Bool HG_(clo_free_is_write);

 /* Controls the application of VTS pruning.  There are three levels:

    0: "never": VTS pruning is never done

    1: "auto": (the default): VTS pruning is sometimes done after VTS
       GCs, just frequently enough to keep space use under control, as
       determined by heuristics in libhb_core.c.

    2: "always": VTS pruning is done after every VTS GC.  This is
       mostly a big time waster, but minimises space use. */
 extern UWord HG_(clo_vts_pruning);

 /* When False, race checking ignores memory references which are to
    the stack, which speeds things up a bit.  Default: True. */
 extern Bool HG_(clo_check_stack_refs);

 #endif /* ! __HG_BASICS_H */

 /*--------------------------------------------------------------------*/
 /*--- end                                              hg_basics.h ---*/
 /*--------------------------------------------------------------------*/

	/--------------------------------------------------------------------/
	/--- Basic definitions for all of Helgrind. ---/
	/--- hg_basics.h ---/
	/--------------------------------------------------------------------/

	/*
	This file is part of Helgrind, a Valgrind tool for detecting errors
	in threaded programs.

	Copyright (C) 2007-2013 OpenWorks Ltd
	info@open-works.co.uk

	This program is free software; you can redistribute it and/or
	modify it under the terms of the GNU General Public License as
	published by the Free Software Foundation; either version 2 of the
	License, or (at your option) any later version.

	This program is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
	02111-1307, USA.

	The GNU General Public License is contained in the file COPYING.
	*/

	#ifndef __HG_BASICS_H
	#define __HG_BASICS_H


	/----------------------------------------------------------------/
	/--- Very basic stuff ---/
	/----------------------------------------------------------------/

	#define HG_(str) VGAPPEND(vgHelgrind_,str)

	void* HG_(zalloc) ( const HChar* cc, SizeT n );
	void HG_(free) ( void* p );
	HChar* HG_(strdup) ( const HChar* cc, const HChar* s );

	static inline Bool HG_(is_sane_ThreadId) ( ThreadId coretid ) {
	return coretid >= 0 && coretid < VG_N_THREADS;
	}


	/----------------------------------------------------------------/
	/--- Command line options ---/
	/----------------------------------------------------------------/

	/* Flags for controlling for which events sanity checking is done */
	#define SCE_THREADS (1<<0) // Sanity check at thread create/join
	#define SCE_LOCKS (1<<1) // Sanity check at lock events
	#define SCE_BIGRANGE (1<<2) // Sanity check at big mem range events
	#define SCE_ACCESS (1<<3) // Sanity check at mem accesses
	#define SCE_LAOG (1<<4) // Sanity check at significant LAOG events

	#define SCE_BIGRANGE_T 256 // big mem range minimum size


	/* Enable/disable lock order checking. Sometimes it produces a lot of
	errors, possibly genuine, which nevertheless can be very
	annoying. */
	extern Bool HG_(clo_track_lockorders);

	/* When comparing race errors for equality, should the race address be
	taken into account? For users, no, but for verification purposes
	(regtesting) this is sometimes important. */
	extern Bool HG_(clo_cmp_race_err_addrs);

	/* Controls how much history to collect, in order to show conflicting
	accesses. There are three levels:

	0: "none": don't collect any history. Fastest, but means we can
	only show one of the two stacks in a race.

	1: "approx": collect one stack trace per (notional) segment, that
	is, collect a stack trace for a thread every time its vector
	clock changes. This faciliates showing the bounds of the
	conflicting segment(s), with relatively small overhead.

	2: "full": collect a stack trace every time the constraints for a
	location change. This facilitates showing both stack traces in
	a race, although can be very expensive in time and space
	(depends on the rate that threads "drag" locations across
	vector-clock-change boundaries ("dragovers"). This involves
	collecting and storing large numbers of call stacks just in case
	we might need to show them later, and so is expensive (although
	very useful). */
	extern UWord HG_(clo_history_level);

	/* When doing "full" history collection, this determines the size of
	the conflicting-access cache, measured in terms of maximum possible
	number of elements in the previous-access map. Must be between 10k
	amd 10 million. Default is 1 million. */
	extern UWord HG_(clo_conflict_cache_size);

	/* Sanity check level. This is an or-ing of
	SCE_{THREADS,LOCKS,BIGRANGE,ACCESS,LAOG}. */
	extern Word HG_(clo_sanity_flags);

	/* Treat heap frees as if the memory was written immediately prior to
	the free. This shakes out races in which memory is referenced by
	one thread, and freed by another, and there's no observable
	synchronisation event to guarantee that the reference happens
	before the free. */
	extern Bool HG_(clo_free_is_write);

	/* Controls the application of VTS pruning. There are three levels:

	0: "never": VTS pruning is never done

	1: "auto": (the default): VTS pruning is sometimes done after VTS
	GCs, just frequently enough to keep space use under control, as
	determined by heuristics in libhb_core.c.

	2: "always": VTS pruning is done after every VTS GC. This is
	mostly a big time waster, but minimises space use. */
	extern UWord HG_(clo_vts_pruning);

	/* When False, race checking ignores memory references which are to
	the stack, which speeds things up a bit. Default: True. */
	extern Bool HG_(clo_check_stack_refs);

	#endif /* ! __HG_BASICS_H */

	/--------------------------------------------------------------------/
	/--- end hg_basics.h ---/
	/--------------------------------------------------------------------/