drd/drd_clientobj.h - platform/external/valgrind - Git at Google

 /*
   This file is part of drd, a thread error detector.

   Copyright (C) 2006-2013 Bart Van Assche <bvanassche@acm.org>.

   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 __DRD_CLIENTOBJ_H
 #define __DRD_CLIENTOBJ_H


 #include "drd_basics.h"          /* DrdThreadId */
 #include "drd_clientreq.h"       /* MutexT */
 #include "pub_tool_basics.h"
 #include "pub_tool_execontext.h" /* ExeContext */
 #include "pub_tool_oset.h"
 #include "pub_tool_xarray.h"


 /* Forward declarations. */

 union drd_clientobj;


 /* Type definitions. */

 typedef enum {
    ClientMutex     = 1,
    ClientCondvar   = 2,
    ClientHbvar     = 3,
    ClientSemaphore = 4,
    ClientBarrier   = 5,
    ClientRwlock    = 6,
 } ObjType;

 struct any
 {
    Addr        a1;
    ObjType     type;
    void        (*cleanup)(union drd_clientobj*);
    void        (*delete_thread)(union drd_clientobj*, DrdThreadId);
    ExeContext* first_observed_at;
 };

 struct mutex_info
 {
    Addr            a1;
    ObjType         type;
    void            (*cleanup)(union drd_clientobj*);
    void            (*delete_thread)(union drd_clientobj*, DrdThreadId);
    ExeContext*     first_observed_at;
    MutexT          mutex_type;      // pthread_mutex_t or pthread_spinlock_t.
    int             recursion_count; // 0 if free, >= 1 if locked.
    DrdThreadId     owner;           // owner if locked, last owner if free.
    struct segment* last_locked_segment;
    ULong           acquiry_time_ms;
    ExeContext*     acquired_at;
 };

 struct cond_info
 {
    Addr        a1;
    ObjType     type;
    void        (*cleanup)(union drd_clientobj*);
    void        (*delete_thread)(union drd_clientobj*, DrdThreadId);
    ExeContext* first_observed_at;
    int         waiter_count;
    Addr        mutex; // Client mutex specified in pthread_cond_wait() call, and
             // null if no client threads are currently waiting on this cond.var.
 };

 struct hb_info
 {
    Addr        a1;
    ObjType     type;
    void        (*cleanup)(union drd_clientobj*);
    void        (*delete_thread)(union drd_clientobj*, DrdThreadId);
    ExeContext* first_observed_at;
    OSet*       oset;  // Per-thread order annotation information.
 };

 struct semaphore_info
 {
    Addr        a1;
    ObjType     type;
    void        (*cleanup)(union drd_clientobj*);
    void        (*delete_thread)(union drd_clientobj*, DrdThreadId);
    ExeContext* first_observed_at;
    UInt        waits_to_skip;     // Number of sem_wait() calls to skip
    // (due to the value assigned by sem_init()).
    UInt        value;             // Semaphore value.
    UWord       waiters;           // Number of threads inside sem_wait().
    DrdThreadId last_sem_post_tid; // Thread ID associated with last sem_post().
    XArray*     last_sem_post_seg; // array of Segment*, used as a stack.
 };

 struct barrier_info
 {
    Addr     a1;
    ObjType  type;
    void     (*cleanup)(union drd_clientobj*);
    void     (*delete_thread)(union drd_clientobj*, DrdThreadId);
    ExeContext* first_observed_at;
    BarrierT barrier_type;      // pthread_barrier or gomp_barrier.
    Word     count;             // Participant count in a barrier wait.
    Word     pre_iteration;     // pre barrier completion count modulo two.
    Word     post_iteration;    // post barrier completion count modulo two.
    Word     pre_waiters_left;  // number of waiters left for a complete barrier.
    Word     post_waiters_left; // number of waiters left for a complete barrier.
    OSet*    oset[2];           // Per-thread barrier information for the latest
                                // two barrier iterations.
 };

 struct rwlock_info
 {
    Addr        a1;
    ObjType     type;
    void        (*cleanup)(union drd_clientobj*);
    void        (*delete_thread)(union drd_clientobj*, DrdThreadId);
    ExeContext* first_observed_at;
    RwLockT     rwlock_type;
    OSet*       thread_info;
    ULong       acquiry_time_ms;
    ExeContext* acquired_at;
 };

 typedef union drd_clientobj
 {
    struct any            any;
    struct mutex_info     mutex;
    struct cond_info      cond;
    struct hb_info        hb;
    struct semaphore_info semaphore;
    struct barrier_info   barrier;
    struct rwlock_info    rwlock;
 } DrdClientobj;


 /* Function declarations. */

 void DRD_(clientobj_set_trace)(const Bool trace);
 void DRD_(clientobj_init)(void);
 void DRD_(clientobj_cleanup)(void);
 DrdClientobj* DRD_(clientobj_get_any)(const Addr addr);
 DrdClientobj* DRD_(clientobj_get)(const Addr addr, const ObjType t);
 Bool DRD_(clientobj_present)(const Addr a1, const Addr a2);
 DrdClientobj* DRD_(clientobj_add)(const Addr a1, const ObjType t);
 Bool DRD_(clientobj_remove)(const Addr addr, const ObjType t);
 void DRD_(clientobj_stop_using_mem)(const Addr a1, const Addr a2);
 void DRD_(clientobj_delete_thread)(const DrdThreadId tid);
 const HChar* DRD_(clientobj_type_name)(const ObjType t);


 #endif /* __DRD_CLIENTOBJ_H */
	/*
	This file is part of drd, a thread error detector.

	Copyright (C) 2006-2013 Bart Van Assche <bvanassche@acm.org>.

	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 __DRD_CLIENTOBJ_H
	#define __DRD_CLIENTOBJ_H


	#include "drd_basics.h" /* DrdThreadId */
	#include "drd_clientreq.h" /* MutexT */
	#include "pub_tool_basics.h"
	#include "pub_tool_execontext.h" /* ExeContext */
	#include "pub_tool_oset.h"
	#include "pub_tool_xarray.h"


	/* Forward declarations. */

	union drd_clientobj;


	/* Type definitions. */

	typedef enum {
	ClientMutex = 1,
	ClientCondvar = 2,
	ClientHbvar = 3,
	ClientSemaphore = 4,
	ClientBarrier = 5,
	ClientRwlock = 6,
	} ObjType;

	struct any
	{
	Addr a1;
	ObjType type;
	void (cleanup)(union drd_clientobj);
	void (delete_thread)(union drd_clientobj, DrdThreadId);
	ExeContext* first_observed_at;
	};

	struct mutex_info
	{
	Addr a1;
	ObjType type;
	void (cleanup)(union drd_clientobj);
	void (delete_thread)(union drd_clientobj, DrdThreadId);
	ExeContext* first_observed_at;
	MutexT mutex_type; // pthread_mutex_t or pthread_spinlock_t.
	int recursion_count; // 0 if free, >= 1 if locked.
	DrdThreadId owner; // owner if locked, last owner if free.
	struct segment* last_locked_segment;
	ULong acquiry_time_ms;
	ExeContext* acquired_at;
	};

	struct cond_info
	{
	Addr a1;
	ObjType type;
	void (cleanup)(union drd_clientobj);
	void (delete_thread)(union drd_clientobj, DrdThreadId);
	ExeContext* first_observed_at;
	int waiter_count;
	Addr mutex; // Client mutex specified in pthread_cond_wait() call, and
	// null if no client threads are currently waiting on this cond.var.
	};

	struct hb_info
	{
	Addr a1;
	ObjType type;
	void (cleanup)(union drd_clientobj);
	void (delete_thread)(union drd_clientobj, DrdThreadId);
	ExeContext* first_observed_at;
	OSet* oset; // Per-thread order annotation information.
	};

	struct semaphore_info
	{
	Addr a1;
	ObjType type;
	void (cleanup)(union drd_clientobj);
	void (delete_thread)(union drd_clientobj, DrdThreadId);
	ExeContext* first_observed_at;
	UInt waits_to_skip; // Number of sem_wait() calls to skip
	// (due to the value assigned by sem_init()).
	UInt value; // Semaphore value.
	UWord waiters; // Number of threads inside sem_wait().
	DrdThreadId last_sem_post_tid; // Thread ID associated with last sem_post().
	XArray* last_sem_post_seg; // array of Segment*, used as a stack.
	};

	struct barrier_info
	{
	Addr a1;
	ObjType type;
	void (cleanup)(union drd_clientobj);
	void (delete_thread)(union drd_clientobj, DrdThreadId);
	ExeContext* first_observed_at;
	BarrierT barrier_type; // pthread_barrier or gomp_barrier.
	Word count; // Participant count in a barrier wait.
	Word pre_iteration; // pre barrier completion count modulo two.
	Word post_iteration; // post barrier completion count modulo two.
	Word pre_waiters_left; // number of waiters left for a complete barrier.
	Word post_waiters_left; // number of waiters left for a complete barrier.
	OSet* oset[2]; // Per-thread barrier information for the latest
	// two barrier iterations.
	};

	struct rwlock_info
	{
	Addr a1;
	ObjType type;
	void (cleanup)(union drd_clientobj);
	void (delete_thread)(union drd_clientobj, DrdThreadId);
	ExeContext* first_observed_at;
	RwLockT rwlock_type;
	OSet* thread_info;
	ULong acquiry_time_ms;
	ExeContext* acquired_at;
	};

	typedef union drd_clientobj
	{
	struct any any;
	struct mutex_info mutex;
	struct cond_info cond;
	struct hb_info hb;
	struct semaphore_info semaphore;
	struct barrier_info barrier;
	struct rwlock_info rwlock;
	} DrdClientobj;


	/* Function declarations. */

	void DRD_(clientobj_set_trace)(const Bool trace);
	void DRD_(clientobj_init)(void);
	void DRD_(clientobj_cleanup)(void);
	DrdClientobj* DRD_(clientobj_get_any)(const Addr addr);
	DrdClientobj* DRD_(clientobj_get)(const Addr addr, const ObjType t);
	Bool DRD_(clientobj_present)(const Addr a1, const Addr a2);
	DrdClientobj* DRD_(clientobj_add)(const Addr a1, const ObjType t);
	Bool DRD_(clientobj_remove)(const Addr addr, const ObjType t);
	void DRD_(clientobj_stop_using_mem)(const Addr a1, const Addr a2);
	void DRD_(clientobj_delete_thread)(const DrdThreadId tid);
	const HChar* DRD_(clientobj_type_name)(const ObjType t);


	#endif /* __DRD_CLIENTOBJ_H */