/* Copyright (C) 2021 Free Software Foundation, Inc.
Contributed by Oracle.
This file is part of GNU Binutils.
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 3, 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, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
/*
* Synchronization events
*/
#include "config.h"
#include <alloca.h>
#include <dlfcn.h>
#include <unistd.h>
#include <semaphore.h> /* sem_wait() */
#include <stdlib.h>
#include <string.h>
#include <sys/param.h>
#include <pthread.h>
#include "gp-defs.h"
#include "collector_module.h"
#include "gp-experiment.h"
#include "data_pckts.h"
#include "i18n.h"
#include "tsd.h"
#include "cc_libcollector.h"
/* TprintfT(<level>,...) definitions. Adjust per module as needed */
#define DBG_LT0 0 // for high-level configuration, unexpected errors/warnings
#define DBG_LTT 0 // for interposition on GLIBC functions
#define DBG_LT1 1 // for configuration details, warnings
#define DBG_LT2 2
#define DBG_LT3 3
/* define the packet that will be written out */
typedef struct Sync_packet
{ /* Synchronization delay tracing packet */
Common_packet comm;
hrtime_t requested; /* time of synchronization request */
Vaddr_type objp; /* vaddr of synchronization object */
} Sync_packet;
static int open_experiment (const char *);
static int start_data_collection (void);
static int stop_data_collection (void);
static int close_experiment (void);
static int detach_experiment (void);
static int init_thread_intf ();
static int sync_calibrate ();
static ModuleInterface module_interface ={
SP_SYNCTRACE_FILE, /* description */
NULL, /* initInterface */
open_experiment, /* openExperiment */
start_data_collection, /* startDataCollection */
stop_data_collection, /* stopDataCollection */
close_experiment, /* closeExperiment */
detach_experiment /* detachExperiment (fork child) */
};
static CollectorInterface *collector_interface = NULL;
static int sync_mode = 0;
static long sync_scope = 0;
static int sync_native = 0;
static int sync_java = 0;
static CollectorModule sync_hndl = COLLECTOR_MODULE_ERR;
static unsigned sync_key = COLLECTOR_TSD_INVALID_KEY;
static long sync_threshold = -1; /* calibrate the value */
static int init_thread_intf_started = 0;
static int init_thread_intf_finished = 0;
#define CHCK_NREENTRANCE(x) (!sync_native || !sync_mode || ((x) = collector_interface->getKey( sync_key )) == NULL || (*(x) != 0))
#define RECHCK_NREENTRANCE(x) (!sync_native || !sync_mode || ((x) = collector_interface->getKey( sync_key )) == NULL || (*(x) == 0))
#define CHCK_JREENTRANCE(x) (!sync_java || !sync_mode || ((x) = collector_interface->getKey( sync_key )) == NULL || (*(x) != 0))
#define RECHCK_JREENTRANCE(x) (!sync_java || !sync_mode || ((x) = collector_interface->getKey( sync_key )) == NULL || (*(x) == 0))
#define PUSH_REENTRANCE(x) ((*(x))++)
#define POP_REENTRANCE(x) ((*(x))--)
#define CALL_REAL(x) (*(int(*)())__real_##x)
#define NULL_PTR(x) ( __real_##x == NULL )
#define gethrtime collector_interface->getHiResTime
#ifdef DEBUG
#define Tprintf(...) if (collector_interface) collector_interface->writeDebugInfo( 0, __VA_ARGS__ )
#define TprintfT(...) if (collector_interface) collector_interface->writeDebugInfo( 1, __VA_ARGS__ )
#else
#define Tprintf(...)
#define TprintfT(...)
#endif
/*
* In most cases, the functions which require interposition are implemented as
* weak symbols corresponding to an associated internal function named with a
* leading underscore: e.g., mutex_lock() is simply an alias for _mutex_lock().
* For the wait functions, however, the published version (used by applications)
* is distinct from the internal version (used by system libraries), i.e.,
* cond_wait() is an alias for _cond_wait_cancel() rather than _cond_wait().
*/
static void *__real_strtol = NULL;
static void *__real_fprintf = NULL;
static void *__real___collector_jprofile_enable_synctrace = NULL;
static void *__real_pthread_mutex_lock = NULL;
static void *__real_pthread_mutex_unlock = NULL; /* not interposed, used in calibrate */
static void *__real_pthread_cond_wait = NULL;
static void *__real_pthread_cond_timedwait = NULL;
static void *__real_pthread_join = NULL;
static void *__real_sem_wait = NULL;
static void *__real_pthread_cond_wait_2_3_2 = NULL;
static void *__real_pthread_cond_timedwait_2_3_2 = NULL;
#if WSIZE(32)
static void *__real_sem_wait_2_1 = NULL;
static void *__real_sem_wait_2_0 = NULL;
static void *__real_pthread_cond_wait_2_0 = NULL;
static void *__real_pthread_cond_timedwait_2_0 = NULL;
#elif WSIZE(64)
#if ARCH(Intel)
static void *__real_pthread_cond_wait_2_2_5 = NULL;
static void *__real_pthread_cond_timedwait_2_2_5 = NULL;
#elif ARCH(SPARC)
static void *__real_pthread_cond_wait_2_2 = NULL;
static void *__real_pthread_cond_timedwait_2_2 = NULL;
#endif /* ARCH() */
#endif /* WSIZE() */
static void
collector_memset (void *s, int c, size_t n)
{
unsigned char *s1 = s;
while (n--)
*s1++ = (unsigned char) c;
}
void
__collector_module_init (CollectorInterface *_collector_interface)
{
if (_collector_interface == NULL)
return;
collector_interface = _collector_interface;
TprintfT (0, "synctrace: __collector_module_init\n");
sync_hndl = collector_interface->registerModule (&module_interface);
/* Initialize next module */
ModuleInitFunc next_init = (ModuleInitFunc) dlsym (RTLD_NEXT, "__collector_module_init");
if (next_init != NULL)
next_init (_collector_interface);
}
static int
open_experiment (const char *exp)
{
long thresh = 0;
if (init_thread_intf_finished == 0)
init_thread_intf ();
if (collector_interface == NULL)
{
Tprintf (0, "synctrace: collector_interface is null.\n");
return COL_ERROR_SYNCINIT;
}
if (sync_hndl == COLLECTOR_MODULE_ERR)
{
Tprintf (0, "synctrace: handle create failed.\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">data handle not created</event>\n",
SP_JCMD_CERROR, COL_ERROR_SYNCINIT);
return COL_ERROR_SYNCINIT;
}
TprintfT (0, "synctrace: open_experiment %s\n", exp);
char *params = (char *) collector_interface->getParams ();
while (params)
{
if ((params[0] == 's') && (params[1] == ':'))
{
char *ptr = params + 2;
Tprintf (DBG_LT1, "synctrace: open_experiment s: parameter = %s\n", ptr);
while (*ptr != ',' && *ptr != ';')
ptr++;
sync_scope = 0;
if (*ptr == ',')
{
sync_scope = CALL_REAL (strtol) (ptr + 1, NULL, 0);
switch (sync_scope)
{
case 1:
sync_java = 0;
sync_native = 1;
break;
case 2:
sync_java = 1;
sync_native = 0;
break;
default:
case 3:
sync_native = 1;
sync_java = 1;
break;
}
Tprintf (0, "\tsynctrace: sync_scope found as %ld\n", sync_scope);
}
else
{
/* the old-style descriptor, without scope */
/* if there was no comma, use the old default */
sync_scope = 3;
sync_java = 1;
sync_native = 1;
Tprintf (0, "\tsynctrace: sync_scope not found set to %ld\n", sync_scope);
}
if (__real___collector_jprofile_enable_synctrace == NULL)
sync_java = 0;
thresh = CALL_REAL (strtol)(params + 2, NULL, 0);
break; /* from the loop to find the "s:thresh,scope" entry */
}
else
params++;
}
if (params == NULL) /* Sync data collection not specified */
return COL_ERROR_SYNCINIT;
if (thresh < 0) /* calibrate the threshold, keep it as a negative number */
thresh = -sync_calibrate ();
sync_key = collector_interface->createKey (sizeof ( int), NULL, NULL);
if (sync_key == (unsigned) - 1)
{
Tprintf (0, "synctrace: TSD key create failed.\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">TSD key not created</event>\n",
SP_JCMD_CERROR, COL_ERROR_SYNCINIT);
return COL_ERROR_SYNCINIT;
}
/* if Java synctrace was requested, tell the jprofile module */
if (sync_java)
{
TprintfT (0, "synctrace: enabling Java synctrace\n");
CALL_REAL (__collector_jprofile_enable_synctrace)();
}
collector_interface->writeLog ("<profile name=\"%s\" threshold=\"%ld\" scope=\"%ld\">\n",
SP_JCMD_SYNCTRACE, thresh, sync_scope);
collector_interface->writeLog (" <profdata fname=\"%s\"/>\n",
module_interface.description);
/* Record Sync_packet description */
Sync_packet *pp = NULL;
collector_interface->writeLog (" <profpckt kind=\"%d\" uname=\"Synchronization tracing data\">\n", SYNC_PCKT);
collector_interface->writeLog (" <field name=\"LWPID\" uname=\"Lightweight process id\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.lwp_id, sizeof (pp->comm.lwp_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"THRID\" uname=\"Thread number\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.thr_id, sizeof (pp->comm.thr_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"CPUID\" uname=\"CPU id\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.cpu_id, sizeof (pp->comm.cpu_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"TSTAMP\" uname=\"High resolution timestamp\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.tstamp, sizeof (pp->comm.tstamp) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"FRINFO\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.frinfo, sizeof (pp->comm.frinfo) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"SRQST\" uname=\"Synchronization start time\" offset=\"%d\" type=\"%s\"/>\n",
&pp->requested, sizeof (pp->requested) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"SOBJ\" uname=\"Synchronization object address\" offset=\"%d\" type=\"%s\"/>\n",
&pp->objp, sizeof (pp->objp) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" </profpckt>\n");
collector_interface->writeLog ("</profile>\n");
/* Convert threshold from microsec to nanosec */
sync_threshold = (thresh > 0 ? thresh : -thresh) * 1000;
TprintfT (0, "synctrace: open_experiment complete %ld\n", sync_threshold);
return COL_ERROR_NONE;
}
static int
start_data_collection (void)
{
sync_mode = 1;
TprintfT (0, "synctrace: start_data_collection\n");
return 0;
}
static int
stop_data_collection (void)
{
sync_mode = 0;
TprintfT (0, "synctrace: stop_data_collection\n");
return 0;
}
static int
close_experiment (void)
{
sync_mode = 0;
sync_threshold = -1;
sync_key = COLLECTOR_TSD_INVALID_KEY;
TprintfT (0, "synctrace: close_experiment\n");
return 0;
}
/* fork child. Clean up state but don't write to experiment */
static int
detach_experiment (void)
{
sync_mode = 0;
sync_threshold = -1;
sync_key = COLLECTOR_TSD_INVALID_KEY;
TprintfT (0, "synctrace: detach_experiment\n");
return 0;
}
#define NUM_ITER 100 /* number of iterations in calibration */
#define NUM_WARMUP 3 /* number of warm up iterations */
static int
sync_calibrate ()
{
pthread_mutex_t mt = PTHREAD_MUTEX_INITIALIZER;
hrtime_t bt, at, delta;
hrtime_t avg, max, min;
int i;
int ret;
avg = (hrtime_t) 0;
min = max = (hrtime_t) 0;
for (i = 0; i < NUM_ITER + NUM_WARMUP; i++)
{
/* Here we simulate a real call */
bt = gethrtime ();
ret = CALL_REAL (pthread_mutex_lock)(&mt);
at = gethrtime ();
CALL_REAL (pthread_mutex_unlock)(&mt);
if (i < NUM_WARMUP) /* skip these iterations */
continue;
/* add the time of this one */
delta = at - bt;
avg += delta;
if (min == 0)
min = delta;
if (delta < min)
min = delta;
if (delta > max)
max = delta;
}
/* compute average time */
avg = avg / NUM_ITER;
/* pretty simple, let's see how it works */
if (max < 6 * avg)
max = 6 * avg;
/* round up to the nearest microsecond */
ret = (int) ((max + 999) / 1000);
return ret;
}
static int
init_thread_intf ()
{
void *dlflag = RTLD_NEXT;
int err = 0;
/* if we detect recursion/reentrance, SEGV so we can get a stack */
init_thread_intf_started++;
if (!init_thread_intf_finished && init_thread_intf_started >= 3)
{
/* pull the plug if recursion occurs... */
abort ();
}
/* lookup fprint to print fatal error message */
void *ptr = dlsym (RTLD_DEFAULT, "fprintf");
if (ptr)
{
__real_fprintf = (void *) ptr;
}
else
{
abort ();
}
/* find the __collector_jprofile_enable_synctrace routine in jprofile module */
ptr = dlsym (RTLD_DEFAULT, "__collector_jprofile_enable_synctrace");
if (ptr)
__real___collector_jprofile_enable_synctrace = (void *) ptr;
else
{
#if defined(GPROFNG_JAVA_PROFILING)
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT __collector_jprofile_enable_synctrace\n");
err = COL_ERROR_SYNCINIT;
#endif
sync_java = 0;
}
#if WSIZE(32)
/* ########################################## begin WSIZE(32) */
/* IMPORTANT!! The GLIBC_* versions below must match those in the er_sync.*.mapfile ! */
dlflag = RTLD_NEXT;
ptr = dlvsym (dlflag, "pthread_mutex_lock", "GLIBC_2.0");
if (ptr == NULL)
{
/* We are probably dlopened after libthread/libc,
* try to search in the previously loaded objects
*/
dlflag = RTLD_DEFAULT;
ptr = dlvsym (dlflag, "pthread_mutex_lock", "GLIBC_2.0");
if (ptr != NULL)
{
__real_pthread_mutex_lock = ptr;
Tprintf (0, "synctrace: WARNING: init_thread_intf() using RTLD_DEFAULT for OS sync routines\n");
}
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_mutex_lock\n");
err = COL_ERROR_SYNCINIT;
}
}
else
__real_pthread_mutex_lock = ptr;
ptr = dlvsym (dlflag, "pthread_mutex_unlock", "GLIBC_2.0");
if (ptr)
__real_pthread_mutex_unlock = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_mutex_unlock\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_wait", "GLIBC_2.3.2");
if (ptr)
__real_pthread_cond_wait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_wait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_timedwait", "GLIBC_2.3.2");
if (ptr)
__real_pthread_cond_timedwait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_timedwait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_join", "GLIBC_2.0");
if (ptr)
__real_pthread_join = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_join\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "sem_wait", "GLIBC_2.1");
if (ptr)
__real_sem_wait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT sem_wait\n");
err = COL_ERROR_SYNCINIT;
}
#if ARCH(Intel)
/* ############## Intel specific additional pointers for 32-bits */
ptr = __real_sem_wait_2_1 = __real_sem_wait;
ptr = dlvsym (dlflag, "sem_wait", "GLIBC_2.0");
if (ptr)
__real_sem_wait_2_0 = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT sem_wait_2_0\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_wait", "GLIBC_2.0");
if (ptr)
__real_pthread_cond_wait_2_0 = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_wait_2_0\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_timedwait", "GLIBC_2.0");
if (ptr)
__real_pthread_cond_timedwait_2_0 = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT __real_pthread_cond_timedwait_2_0\n");
err = COL_ERROR_SYNCINIT;
}
#endif /* ARCH(Intel) */
#else /* WSIZE(64) */
/* # most versions are different between platforms */
/* # the few that are common are set after the ARCH ifdef */
#if ARCH(Aarch64)
dlflag = RTLD_NEXT;
#define GLIBC_N "GLIBC_2.17"
__real_pthread_mutex_lock = dlvsym(dlflag, "pthread_mutex_lock", GLIBC_N);
__real_pthread_mutex_unlock = dlvsym(dlflag, "pthread_mutex_unlock", GLIBC_N);
__real_pthread_cond_wait = dlvsym(dlflag, "pthread_cond_wait", GLIBC_N);
__real_pthread_cond_timedwait = dlvsym(dlflag, "pthread_cond_timedwait", GLIBC_N);
__real_pthread_join = dlvsym(dlflag, "pthread_join", GLIBC_N);
__real_sem_wait = dlvsym(dlflag, "sem_wait", GLIBC_N);
#elif ARCH(Intel)
dlflag = RTLD_NEXT;
ptr = dlvsym (dlflag, "pthread_mutex_lock", "GLIBC_2.2.5");
if (ptr == NULL)
{
/* We are probably dlopened after libthread/libc,
* try to search in the previously loaded objects
*/
dlflag = RTLD_DEFAULT;
ptr = dlvsym (dlflag, "pthread_mutex_lock", "GLIBC_2.2.5");
if (ptr != NULL)
{
__real_pthread_mutex_lock = ptr;
Tprintf (0, "synctrace: WARNING: init_thread_intf() using RTLD_DEFAULT for Solaris sync routines\n");
}
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_mutex_lock\n");
err = COL_ERROR_SYNCINIT;
}
}
else
__real_pthread_mutex_lock = ptr;
ptr = dlvsym (dlflag, "pthread_mutex_unlock", "GLIBC_2.2.5");
if (ptr)
__real_pthread_mutex_unlock = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_mutex_unlock\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_wait", "GLIBC_2.3.2");
if (ptr)
__real_pthread_cond_wait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_wait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_timedwait", "GLIBC_2.3.2");
if (ptr)
__real_pthread_cond_timedwait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_timedwait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_join", "GLIBC_2.2.5");
if (ptr)
__real_pthread_join = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_join\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "sem_wait", "GLIBC_2.2.5");
if (ptr)
__real_sem_wait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT sem_wait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_wait", "GLIBC_2.2.5");
if (ptr)
__real_pthread_cond_wait_2_2_5 = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_wait_2_2_5\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_timedwait", "GLIBC_2.2.5");
if (ptr)
__real_pthread_cond_timedwait_2_2_5 = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_timedwait_2_2_5\n");
err = COL_ERROR_SYNCINIT;
}
#elif ARCH(SPARC)
dlflag = RTLD_NEXT;
ptr = dlvsym (dlflag, "pthread_mutex_lock", "GLIBC_2.2");
if (ptr == NULL)
{
/* We are probably dlopened after libthread/libc,
* try to search in the previously loaded objects
*/
dlflag = RTLD_DEFAULT;
ptr = dlvsym (dlflag, "pthread_mutex_lock", "GLIBC_2.2");
if (ptr != NULL)
{
__real_pthread_mutex_lock = ptr;
Tprintf (0, "synctrace: WARNING: init_thread_intf() using RTLD_DEFAULT for Solaris sync routines\n");
}
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT mutex_lock\n");
err = COL_ERROR_SYNCINIT;
}
}
else
__real_pthread_mutex_lock = ptr;
ptr = dlvsym (dlflag, "pthread_mutex_unlock", "GLIBC_2.2");
if (ptr)
__real_pthread_mutex_unlock = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_mutex_unlock\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_wait", "GLIBC_2.3.2");
if (ptr)
__real_pthread_cond_wait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_wait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_timedwait", "GLIBC_2.3.2");
if (ptr)
__real_pthread_cond_timedwait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_timedwait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_join", "GLIBC_2.2");
if (ptr)
__real_pthread_join = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_join\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "sem_wait", "GLIBC_2.2");
if (ptr)
__real_sem_wait = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT sem_wait\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_wait", "GLIBC_2.2");
if (ptr)
__real_pthread_cond_wait_2_2 = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_wait_2_2_5\n");
err = COL_ERROR_SYNCINIT;
}
ptr = dlvsym (dlflag, "pthread_cond_timedwait", "GLIBC_2.2");
if (ptr)
__real_pthread_cond_timedwait_2_2 = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT pthread_cond_timedwait_2_2\n");
err = COL_ERROR_SYNCINIT;
}
#endif /* ARCH() */
#endif /* WSIZE(64) */
/* the pointers that are common to 32- and 64-bits, and to SPARC and Intel */
__real_pthread_cond_wait_2_3_2 = __real_pthread_cond_wait;
__real_pthread_cond_timedwait_2_3_2 = __real_pthread_cond_timedwait;
ptr = dlsym (dlflag, "strtol");
if (ptr)
__real_strtol = (void *) ptr;
else
{
CALL_REAL (fprintf)(stderr, "synctrace_init COL_ERROR_SYNCINIT strtol\n");
err = COL_ERROR_SYNCINIT;
}
init_thread_intf_finished++;
TprintfT (0, "synctrace init_thread_intf complete\n");
return err;
}
/* These next two routines are used from jprofile to record Java synctrace data */
void
__collector_jsync_begin ()
{
int *guard;
if (CHCK_JREENTRANCE (guard))
{
Tprintf (DBG_LT1, "__collector_jsync_begin: skipped\n");
return;
}
Tprintf (DBG_LT1, "__collector_jsync_begin: start event\n");
PUSH_REENTRANCE (guard);
}
void
__collector_jsync_end (hrtime_t reqt, void *object)
{
int *guard;
if (RECHCK_JREENTRANCE (guard))
{
Tprintf (DBG_LT1, "__collector_jsync_end: skipped\n");
return;
}
hrtime_t grnt = gethrtime ();
if (grnt - reqt >= sync_threshold)
{
Sync_packet spacket;
collector_memset (&spacket, 0, sizeof (Sync_packet));
spacket.comm.tsize = sizeof (Sync_packet);
spacket.comm.tstamp = grnt;
spacket.requested = reqt;
spacket.objp = (intptr_t) object;
spacket.comm.frinfo = collector_interface->getFrameInfo (sync_hndl, spacket.comm.tstamp, FRINFO_FROM_STACK_ARG, &spacket);
collector_interface->writeDataRecord (sync_hndl, (Common_packet*) & spacket);
}
Tprintf (DBG_LT1, "__collector_jsync_begin: end event\n");
POP_REENTRANCE (guard);
}
/*-------------------------------------------------------- pthread_mutex_lock */
int
pthread_mutex_lock (pthread_mutex_t *mp)
{
int *guard;
if (NULL_PTR (pthread_mutex_lock))
init_thread_intf ();
if (CHCK_NREENTRANCE (guard))
return CALL_REAL (pthread_mutex_lock)(mp);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
int ret = CALL_REAL (pthread_mutex_lock)(mp);
if (RECHCK_NREENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
if (grnt - reqt >= sync_threshold)
{
Sync_packet spacket;
collector_memset (&spacket, 0, sizeof (Sync_packet));
spacket.comm.tsize = sizeof (Sync_packet);
spacket.comm.tstamp = grnt;
spacket.requested = reqt;
spacket.objp = (intptr_t) mp;
spacket.comm.frinfo = collector_interface->getFrameInfo (sync_hndl, spacket.comm.tstamp, FRINFO_FROM_STACK, &spacket);
collector_interface->writeDataRecord (sync_hndl, (Common_packet*) & spacket);
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- pthread_cond_wait */
// map interposed symbol versions
static int
__collector_pthread_cond_wait_symver (int(real_pthread_cond_wait) (), pthread_cond_t *cond, pthread_mutex_t *mutex);
#if ARCH(Intel) || ARCH(SPARC)
SYMVER_ATTRIBUTE (__collector_pthread_cond_wait_2_3_2,
pthread_cond_wait@@GLIBC_2.3.2)
#endif
int
__collector_pthread_cond_wait_2_3_2 (pthread_cond_t *cond, pthread_mutex_t *mutex)
{
if (NULL_PTR (pthread_cond_wait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_wait_2_3_2@%p\n", CALL_REAL (pthread_cond_wait_2_3_2));
return __collector_pthread_cond_wait_symver (CALL_REAL (pthread_cond_wait_2_3_2), cond, mutex);
}
#if WSIZE(32)
SYMVER_ATTRIBUTE (__collector_pthread_cond_wait_2_0,
pthread_cond_wait@GLIBC_2.0)
int
__collector_pthread_cond_wait_2_0 (pthread_cond_t *cond, pthread_mutex_t *mutex)
{
if (NULL_PTR (pthread_cond_wait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_wait_2_0@%p\n", CALL_REAL (pthread_cond_wait_2_0));
return __collector_pthread_cond_wait_symver (CALL_REAL (pthread_cond_wait_2_0), cond, mutex);
}
#else // WSIZE(64)
#if ARCH(Intel)
SYMVER_ATTRIBUTE (__collector_pthread_cond_wait_2_2_5,
pthread_cond_wait@GLIBC_2.2.5)
int
__collector_pthread_cond_wait_2_2_5 (pthread_cond_t *cond, pthread_mutex_t *mutex)
{
if (NULL_PTR (pthread_cond_wait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_wait_2_2_5@%p\n", CALL_REAL (pthread_cond_wait_2_2_5));
return __collector_pthread_cond_wait_symver (CALL_REAL (pthread_cond_wait_2_2_5), cond, mutex);
}
#elif ARCH(SPARC)
SYMVER_ATTRIBUTE (__collector_pthread_cond_wait_2_2,
pthread_cond_wait@GLIBC_2.2)
int
__collector_pthread_cond_wait_2_2 (pthread_cond_t *cond, pthread_mutex_t *mutex)
{
if (NULL_PTR (pthread_cond_wait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_wait_2_2@%p\n", CALL_REAL (pthread_cond_wait_2_2));
return __collector_pthread_cond_wait_symver (CALL_REAL (pthread_cond_wait_2_2), cond, mutex);
}
#endif // ARCH()
#endif // WSIZE()
static int
__collector_pthread_cond_wait_symver (int(real_pthread_cond_wait) (), pthread_cond_t *cond, pthread_mutex_t *mutex)
{
int *guard;
if (NULL_PTR (pthread_cond_wait))
init_thread_intf ();
if (CHCK_NREENTRANCE (guard))
return (real_pthread_cond_wait) (cond, mutex);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
int ret = -1;
ret = (real_pthread_cond_wait) (cond, mutex);
if (RECHCK_NREENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
if (grnt - reqt >= sync_threshold)
{
Sync_packet spacket;
collector_memset (&spacket, 0, sizeof (Sync_packet));
spacket.comm.tsize = sizeof (Sync_packet);
spacket.comm.tstamp = grnt;
spacket.requested = reqt;
spacket.objp = (intptr_t) mutex;
spacket.comm.frinfo = collector_interface->getFrameInfo (sync_hndl, spacket.comm.tstamp, FRINFO_FROM_STACK_ARG, &spacket);
collector_interface->writeDataRecord (sync_hndl, (Common_packet*) & spacket);
}
POP_REENTRANCE (guard);
return ret;
}
/*---------------------------------------------------- pthread_cond_timedwait */
// map interposed symbol versions
static int
__collector_pthread_cond_timedwait_symver (int(real_pthread_cond_timedwait) (),
pthread_cond_t *cond,
pthread_mutex_t *mutex,
const struct timespec *abstime);
#if ARCH(Intel) || ARCH(SPARC)
SYMVER_ATTRIBUTE (__collector_pthread_cond_timedwait_2_3_2,
pthread_cond_timedwait@@GLIBC_2.3.2)
#endif // ARCH()
int
__collector_pthread_cond_timedwait_2_3_2 (pthread_cond_t *cond,
pthread_mutex_t *mutex,
const struct timespec *abstime)
{
if (NULL_PTR (pthread_cond_timedwait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_timedwait_2_3_2@%p\n", CALL_REAL (pthread_cond_timedwait_2_3_2));
return __collector_pthread_cond_timedwait_symver (CALL_REAL (pthread_cond_timedwait_2_3_2), cond, mutex, abstime);
}
#if WSIZE(32)
SYMVER_ATTRIBUTE (__collector_pthread_cond_timedwait_2_0,
pthread_cond_timedwait@GLIBC_2.0)
int
__collector_pthread_cond_timedwait_2_0 (pthread_cond_t *cond,
pthread_mutex_t *mutex,
const struct timespec *abstime)
{
if (NULL_PTR (pthread_cond_timedwait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_timedwait_2_0@%p\n", CALL_REAL (pthread_cond_timedwait_2_0));
return __collector_pthread_cond_timedwait_symver (CALL_REAL (pthread_cond_timedwait_2_0), cond, mutex, abstime);
}
#else // WSIZE(64)
#if ARCH(Intel)
SYMVER_ATTRIBUTE (__collector_pthread_cond_timedwait_2_2_5,
pthread_cond_timedwait@GLIBC_2.2.5)
int
__collector_pthread_cond_timedwait_2_2_5 (pthread_cond_t *cond,
pthread_mutex_t *mutex,
const struct timespec *abstime)
{
if (NULL_PTR (pthread_cond_timedwait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_timedwait_2_2_5@%p\n", CALL_REAL (pthread_cond_timedwait_2_2_5));
return __collector_pthread_cond_timedwait_symver (CALL_REAL (pthread_cond_timedwait_2_2_5), cond, mutex, abstime);
}
#elif ARCH(SPARC)
SYMVER_ATTRIBUTE (__collector_pthread_cond_timedwait_2_2,
pthread_cond_timedwait@GLIBC_2.2)
int
__collector_pthread_cond_timedwait_2_2 (pthread_cond_t *cond,
pthread_mutex_t *mutex,
const struct timespec *abstime)
{
if (NULL_PTR (pthread_cond_timedwait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_pthread_cond_timedwait_2_2@%p\n", CALL_REAL (pthread_cond_timedwait_2_2));
return __collector_pthread_cond_timedwait_symver (CALL_REAL (pthread_cond_timedwait_2_2), cond, mutex, abstime);
}
#endif // ARCH()
#endif // WSIZE()
static int
__collector_pthread_cond_timedwait_symver (int(real_pthread_cond_timedwait) (),
pthread_cond_t *cond,
pthread_mutex_t *mutex,
const struct timespec *abstime)
{
int *guard;
if (NULL_PTR (pthread_cond_timedwait))
init_thread_intf ();
if (CHCK_NREENTRANCE (guard))
return (real_pthread_cond_timedwait) (cond, mutex, abstime);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
int ret = -1;
ret = (real_pthread_cond_timedwait) (cond, mutex, abstime);
if (RECHCK_NREENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
if (grnt - reqt >= sync_threshold)
{
Sync_packet spacket;
collector_memset (&spacket, 0, sizeof ( Sync_packet));
spacket.comm.tsize = sizeof ( Sync_packet);
spacket.comm.tstamp = grnt;
spacket.requested = reqt;
spacket.objp = (intptr_t) mutex;
spacket.comm.frinfo = collector_interface->getFrameInfo (sync_hndl, spacket.comm.tstamp, FRINFO_FROM_STACK_ARG, &spacket);
collector_interface->writeDataRecord (sync_hndl, (Common_packet*) & spacket);
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- pthread_join */
int
pthread_join (pthread_t target_thread, void **status)
{
int *guard;
if (NULL_PTR (pthread_join))
init_thread_intf ();
if (CHCK_NREENTRANCE (guard))
return CALL_REAL (pthread_join)(target_thread, status);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
int ret = CALL_REAL (pthread_join)(target_thread, status);
if (RECHCK_NREENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
if (grnt - reqt >= sync_threshold)
{
Sync_packet spacket;
collector_memset (&spacket, 0, sizeof ( Sync_packet));
spacket.comm.tsize = sizeof ( Sync_packet);
spacket.comm.tstamp = grnt;
spacket.requested = reqt;
spacket.objp = (Vaddr_type) target_thread;
spacket.comm.frinfo = collector_interface->getFrameInfo (sync_hndl, spacket.comm.tstamp, FRINFO_FROM_STACK, &spacket);
collector_interface->writeDataRecord (sync_hndl, (Common_packet*) & spacket);
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- sem_wait */
// map interposed symbol versions
#if ARCH(Intel) && WSIZE(32)
static int
__collector_sem_wait_symver (int(real_sem_wait) (), sem_t *sp);
SYMVER_ATTRIBUTE (__collector_sem_wait_2_1, sem_wait@@GLIBC_2.1)
int
__collector_sem_wait_2_1 (sem_t *sp)
{
if (NULL_PTR (sem_wait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_sem_wait_2_1@%p\n", CALL_REAL (sem_wait_2_1));
return __collector_sem_wait_symver (CALL_REAL (sem_wait_2_1), sp);
}
SYMVER_ATTRIBUTE (__collector_sem_wait_2_0, sem_wait@GLIBC_2.0)
int
__collector_sem_wait_2_0 (sem_t *sp)
{
if (NULL_PTR (sem_wait))
init_thread_intf ();
TprintfT (DBG_LTT, "linetrace: GLIBC: __collector_sem_wait_2_0@%p\n", CALL_REAL (sem_wait_2_0));
return __collector_sem_wait_symver (CALL_REAL (sem_wait_2_0), sp);
}
#endif
#if ARCH(Intel) && WSIZE(32)
static int
__collector_sem_wait_symver (int(real_sem_wait) (), sem_t *sp)
{
#else
int
sem_wait (sem_t *sp)
{
#endif
int *guard;
if (NULL_PTR (sem_wait))
init_thread_intf ();
if (CHCK_NREENTRANCE (guard))
{
#if ARCH(Intel) && WSIZE(32)
return (real_sem_wait) (sp);
#else
return CALL_REAL (sem_wait)(sp);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
int ret = -1;
#if ARCH(Intel) && WSIZE(32)
ret = (real_sem_wait) (sp);
#else
ret = CALL_REAL (sem_wait)(sp);
#endif
if (RECHCK_NREENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
if (grnt - reqt >= sync_threshold)
{
Sync_packet spacket;
collector_memset (&spacket, 0, sizeof ( Sync_packet));
spacket.comm.tsize = sizeof ( Sync_packet);
spacket.comm.tstamp = grnt;
spacket.requested = reqt;
spacket.objp = (intptr_t) sp;
#if ARCH(Intel) && WSIZE(32)
spacket.comm.frinfo = collector_interface->getFrameInfo (sync_hndl, spacket.comm.tstamp, FRINFO_FROM_STACK_ARG, &spacket);
#else
spacket.comm.frinfo = collector_interface->getFrameInfo (sync_hndl, spacket.comm.tstamp, FRINFO_FROM_STACK, &spacket);
#endif
collector_interface->writeDataRecord (sync_hndl, (Common_packet*) & spacket);
}
POP_REENTRANCE (guard);
return ret;
}