OpenSolaris_b135/lib/libc/inc/tdb_agent.h
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License, Version 1.0 only
* (the "License"). You may not use this file except in compliance
* with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2003 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#ifndef _TDB_AGENT_H
#define _TDB_AGENT_H
#pragma ident "%Z%%M% %I% %E% SMI"
/*
* Thread debug agent control structures.
*
* This is an implementation-specific header file that is shared
* between libc and libc_db. It is NOT a public header file
* and must never be installed in /usr/include
*/
#include <thread_db.h>
#ifdef __cplusplus
extern "C" {
#endif
/*
* The structure containing per-thread event data.
*/
typedef struct {
td_thr_events_t eventmask; /* Which events are enabled? */
td_event_e eventnum; /* Most recent enabled event */
void *eventdata; /* Param. for most recent event */
} td_evbuf_t;
#ifdef _SYSCALL32
typedef struct {
td_thr_events_t eventmask; /* Which events are enabled? */
td_event_e eventnum; /* Most recent enabled event */
caddr32_t eventdata; /* Param. for most recent event */
} td_evbuf32_t;
#endif /* _SYSCALL32 */
/*
* All of these structures are constrained to have a size of 48 bytes.
* This is so that two 8-byte pointers can be inserted at the front to
* make up a complete tdb_sync_stats_t structure of exactly 64 bytes.
* The 'type' element of each structure identifies the type of the union,
* with values from the following defines.
*/
#define TDB_NONE 0
#define TDB_MUTEX 1
#define TDB_COND 2
#define TDB_RWLOCK 3
#define TDB_SEMA 4
typedef struct {
uint16_t type;
uint16_t unused;
uint_t mutex_lock;
hrtime_t mutex_hold_time;
hrtime_t mutex_sleep_time;
uint_t mutex_sleep;
uint_t mutex_try;
uint_t mutex_try_fail;
uint_t mutex_pad[1];
hrtime_t mutex_begin_hold;
} tdb_mutex_stats_t;
typedef struct {
uint16_t type;
uint16_t unused;
uint_t cond_wait;
uint_t cond_timedwait;
uint_t cond_timedwait_timeout;
hrtime_t cond_wait_sleep_time;
hrtime_t cond_timedwait_sleep_time;
uint_t cond_signal;
uint_t cond_broadcast;
uint_t cond_pad[2];
} tdb_cond_stats_t;
typedef struct {
uint16_t type;
uint16_t unused;
uint_t rw_rdlock;
/* rw_rdlock_sleep is the reader cv's cond_wait count */
/* rw_rdlock_sleep_time is the reader cv's cond_wait_sleep_time */
uint_t rw_rdlock_try;
uint_t rw_rdlock_try_fail;
uint_t rw_pad[1];
uint_t rw_wrlock;
/* rw_wrlock_sleep is the writer cv's cond_wait count */
/* rw_wrlock_sleep_time is the writer cv's cond_wait_sleep_time */
hrtime_t rw_wrlock_hold_time;
uint_t rw_wrlock_try;
uint_t rw_wrlock_try_fail;
hrtime_t rw_wrlock_begin_hold;
} tdb_rwlock_stats_t;
typedef struct {
uint16_t type;
uint16_t unused;
uint_t sema_post;
uint_t sema_wait;
uint_t sema_wait_sleep;
hrtime_t sema_wait_sleep_time;
uint_t sema_trywait;
uint_t sema_trywait_fail;
uint_t sema_max_count;
uint_t sema_min_count;
uint_t sema_pad[2];
} tdb_sema_stats_t;
/*
* An entry in the sync. object hash table.
*/
typedef struct {
uint64_t next;
uint64_t sync_addr;
union {
uint16_t type;
tdb_mutex_stats_t mutex;
tdb_cond_stats_t cond;
tdb_rwlock_stats_t rwlock;
tdb_sema_stats_t sema;
} un;
} tdb_sync_stats_t;
/* peg count values at UINT_MAX */
#define tdb_incr(x) (((x) != UINT_MAX)? (x)++ : 0)
/*
* The tdb_register_sync variable is set to REGISTER_SYNC_ENABLE by a
* debugger to enable synchronization object registration.
* Thereafter, synchronization primitives call tdb_sync_obj_register()
* to put their synchronization objects in the registration hash table.
* In this state, the first call to tdb_sync_obj_register() empties the
* hash table and sets tdb_register_sync to REGISTER_SYNC_ON.
*
* The tdb_register_sync variable is set to REGISTER_SYNC_DISABLE by a
* debugger to disable synchronization object registration.
* In this state, the first call to tdb_sync_obj_register() empties the
* hash table and sets tdb_register_sync to REGISTER_SYNC_OFF.
* Thereafter, synchronization primitives do not call tdb_sync_obj_register().
*
* Sync object *_destroy() functions always call tdb_sync_obj_deregister().
*/
typedef uint8_t register_sync_t;
#define REGISTER_SYNC_OFF 0 /* registration is off */
#define REGISTER_SYNC_ON 1 /* registration is on */
#define REGISTER_SYNC_DISABLE 2 /* request to disable registration */
#define REGISTER_SYNC_ENABLE 3 /* request to enable registration */
extern tdb_sync_stats_t *tdb_sync_obj_register(void *, int *);
extern void tdb_sync_obj_deregister(void *);
/*
* Definitions for acquiring pointers to synch object statistics blocks
* contained in the synchronization object registration hash table.
*/
extern tdb_mutex_stats_t *tdb_mutex_stats(mutex_t *);
extern tdb_cond_stats_t *tdb_cond_stats(cond_t *);
extern tdb_rwlock_stats_t *tdb_rwlock_stats(rwlock_t *);
extern tdb_sema_stats_t *tdb_sema_stats(sema_t *);
#define REGISTER_SYNC(udp) (udp)->uberflags.uf_tdb_register_sync
#define MUTEX_STATS(mp, udp) \
(REGISTER_SYNC(udp)? tdb_mutex_stats(mp): NULL)
#define COND_STATS(cvp, udp) \
(REGISTER_SYNC(udp)? tdb_cond_stats(cvp): NULL)
#define RWLOCK_STATS(rwlp, udp) \
(REGISTER_SYNC(udp)? tdb_rwlock_stats(rwlp): NULL)
#define SEMA_STATS(sp, udp) \
(REGISTER_SYNC(udp)? tdb_sema_stats(sp): NULL)
/*
* Parameters of the synchronization object registration hash table.
*/
#define TDB_HASH_SHIFT 15 /* 32K hash table entries */
#define TDB_HASH_SIZE (1 << TDB_HASH_SHIFT)
#define TDB_HASH_MASK (TDB_HASH_SIZE - 1)
/*
* uberdata.tdb_hash_lock protects all synchronization object
* hash table data structures.
* uberdata.tdb_hash_lock_stats is a special tdb_sync_stats structure
* reserved for tdb_hash_lock.
*/
typedef void (*tdb_ev_func_t)(void);
/*
* Uberdata for thread debug interfaces (known to libc_db).
*/
typedef struct {
/*
* Pointer to the hash table of sync_addr_t descriptors.
* This holds the addresses of all of the synchronization variables
* that the library has seen since tracking was enabled by a debugger.
*/
uint64_t *tdb_sync_addr_hash;
/*
* The number of entries in the hash table.
*/
uint_t tdb_register_count;
int tdb_hash_alloc_failed;
/*
* The free list of sync_addr_t descriptors.
* When the free list is used up, it is replenished using mmap().
* sync_addr_t descriptors are never freed, though they may be
* removed from the hash table and returned to the free list.
*/
tdb_sync_stats_t *tdb_sync_addr_free;
tdb_sync_stats_t *tdb_sync_addr_last;
size_t tdb_sync_alloc;
/*
* The set of globally enabled events to report to libc_db.
*/
td_thr_events_t tdb_ev_global_mask;
/*
* The array of event function pointers.
*/
const tdb_ev_func_t *tdb_events;
} tdb_t;
#ifdef _SYSCALL32
typedef struct {
caddr32_t tdb_sync_addr_hash;
uint_t tdb_register_count;
int tdb_hash_alloc_failed;
caddr32_t tdb_sync_addr_free;
caddr32_t tdb_sync_addr_last;
size32_t tdb_sync_alloc;
td_thr_events_t tdb_ev_global_mask;
caddr32_t tdb_events;
} tdb32_t;
#endif /* _SYSCALL32 */
/*
* This will have to change if event numbers exceed 31.
* Note that we only test tdb_ev_global_mask.event_bits[0] below.
*/
#define __td_event_report(ulwp, event, udp) \
(((ulwp)->ul_td_events_enable && \
td_eventismember(&(ulwp)->ul_td_evbuf.eventmask, (event))) || \
((udp)->tdb.tdb_ev_global_mask.event_bits[0] && \
td_eventismember(&(udp)->tdb.tdb_ev_global_mask, (event))))
/*
* Event "reporting" functions. A thread reports an event by calling
* one of these empty functions; a debugger can set a breakpoint
* at the address of any of these functions to determine that an
* event is being reported.
*/
extern const tdb_ev_func_t tdb_events[TD_MAX_EVENT_NUM - TD_MIN_EVENT_NUM + 1];
#define tdb_event(event, udp) \
(*(udp)->tdb.tdb_events[(event) - TD_MIN_EVENT_NUM])()
#ifdef __cplusplus
}
#endif
#endif /* _TDB_AGENT_H */