binutils-gdb/gprofng/libcollector/hwprofile.c

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/* 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. */
/* Hardware counter profiling */
#include "config.h"
#include <alloca.h>
#include <dlfcn.h>
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <errno.h>
#include <sys/syscall.h>
#include <signal.h>
#include <ucontext.h>
#include "gp-defs.h"
#define _STRING_H 1 /* XXX MEZ: temporary workaround */
#include "hwcdrv.h"
#include "collector_module.h"
#include "gp-experiment.h"
#include "libcol_util.h"
#include "hwprofile.h"
#include "ABS.h"
#include "tsd.h"
/* TprintfT(<level>,...) definitions. Adjust per module as needed */
#define DBG_LT0 0 // for high-level configuration, unexpected errors/warnings
#define DBG_LT1 1 // for configuration details, warnings
#define DBG_LT2 2
#define DBG_LT3 3
#define DBG_LT4 4
#define DBG_LT5 5
#define SD_OFF 0 /* before start or after close she shut down process */
#define SD_PENDING 1 /* before running real_detach_experiment() */
#define SD_COMPLETE 2 /* after running real_detach_experiment() */
static int init_interface (CollectorInterface*);
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 real_detach_experiment (void);
static ModuleInterface module_interface ={
SP_HWCNTR_FILE, /* description */
init_interface, /* 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;
/*---------------------------------------------------------------------------*/
/* compile options and workarounds */
/* Solaris: We set ITIMER_REALPROF to ensure that counters get started on
* LWPs that existed before the collector initialization.
*
* In addition, if the appropriate #define's are set, we check for:
* lost-hw-overflow -- the HW counters rollover, but the overflow
* interrupt is not generated (counters keep running)
* lost-sigemt -- the interrupt is received by the kernel,
* which stops the counters, but the kernel fails
* to deliver the signal.
*/
/*---------------------------------------------------------------------------*/
/* typedefs */
typedef enum {
HWCMODE_OFF, /* before start or after close */
HWCMODE_SUSPEND, /* stop_data_collection called */
HWCMODE_ACTIVE, /* counters are defined and after start_data_collection() */
HWCMODE_ABORT /* fatal error occured. Log a message, stop recording */
} hwc_mode_t;
/*---------------------------------------------------------------------------*/
/* prototypes */
static void init_ucontexts (void);
static int hwc_initialize_handlers (void);
static void collector_record_counter (ucontext_t*,
int timecvt,
ABST_type, hrtime_t,
unsigned, uint64_t);
static void collector_hwc_ABORT (int errnum, const char *msg);
static void hwclogwrite0 ();
static void hwclogwrite (Hwcentry *);
static void set_hwc_mode (hwc_mode_t);
static void collector_sigemt_handler (int sig, siginfo_t *si, void *puc);
/*---------------------------------------------------------------------------*/
/* static variables */
/* --- user counter selections and options */
static int hwcdef_has_memspace; /* true to indicate use of extened packets */
static unsigned hwcdef_cnt; /* number of *active* hardware counters */
static unsigned hwcdef_num_sampling_ctrdefs; /* ctrs that use sampling */
static unsigned hwcdef_num_overflow_ctrdefs; /* ctrs that use overflow */
static Hwcentry **hwcdef; /* HWC definitions */
static int cpcN_cpuver = CPUVER_UNDEFINED;
static int hwcdrv_inited; /* Don't call hwcdrv_init() in fork_child */
static hwcdrv_api_t *hwc_driver = NULL;
static unsigned hwprofile_tsd_key = COLLECTOR_TSD_INVALID_KEY;
static int hwprofile_tsd_sz = 0;
static volatile hwc_mode_t hwc_mode = HWCMODE_OFF;
static volatile unsigned int nthreads_in_sighandler = 0;
static volatile unsigned int sd_state = SD_OFF;
/* --- experiment logging state */
static CollectorModule expr_hndl = COLLECTOR_MODULE_ERR;
static ucontext_t expr_dummy_uc; // used for hacked "collector" frames
static ucontext_t expr_out_of_range_uc; // used for "out-of-range" frames
static ucontext_t expr_frozen_uc; // used for "frozen" frames
static ucontext_t expr_nopc_uc; // used for not-program-related frames
static ucontext_t expr_lostcounts_uc; // used for lost_counts frames
/* --- signal handler state */
static struct sigaction old_sigemt_handler; //overwritten in fork-child
/*---------------------------------------------------------------------------*/
/* macros */
#define COUNTERS_ENABLED() (hwcdef_cnt)
#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
/*---------------------------------------------------------------------------*/
/* Initialization routines */
static hwcdrv_api_t *
get_hwc_driver ()
{
if (hwc_driver == NULL)
hwc_driver = __collector_get_hwcdrv ();
return hwc_driver;
}
static void init_module () __attribute__ ((constructor));
static void
init_module ()
{
__collector_dlsym_guard = 1;
RegModuleFunc reg_module = (RegModuleFunc) dlsym (RTLD_DEFAULT, "__collector_register_module");
__collector_dlsym_guard = 0;
if (reg_module == NULL)
{
TprintfT (0, "hwprofile: init_module FAILED - reg_module = NULL\n");
return;
}
expr_hndl = reg_module (&module_interface);
if (expr_hndl == COLLECTOR_MODULE_ERR)
{
TprintfT (0, "hwprofile: ERROR: handle not created.\n");
if (collector_interface)
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">data handle not created</event>\n",
SP_JCMD_CERROR, COL_ERROR_HWCINIT);
}
}
static int
init_interface (CollectorInterface *_collector_interface)
{
collector_interface = _collector_interface;
return COL_ERROR_NONE;
}
static void *
hwprofile_get_tsd ()
{
return collector_interface->getKey (hwprofile_tsd_key);
}
static int
open_experiment (const char *exp)
{
if (collector_interface == NULL)
{
TprintfT (0, "hwprofile: ERROR: collector_interface is null.\n");
return COL_ERROR_HWCINIT;
}
const char *params = collector_interface->getParams ();
while (params)
{
if (__collector_strStartWith (params, "h:*") == 0)
{
/* HWC counters set by default */
collector_interface->writeLog ("<%s %s=\"1\"/>\n",
SP_TAG_SETTING, SP_JCMD_HWC_DEFAULT);
params += 3;
break;
}
else if (__collector_strStartWith (params, "h:") == 0)
{
params += 2;
break;
}
params = CALL_UTIL (strchr)(params, ';');
if (params)
params++;
}
if (params == NULL) /* HWC profiling not specified */
return COL_ERROR_HWCINIT;
char *s = CALL_UTIL (strchr)(params, (int) ';');
int sz = s ? s - params : CALL_UTIL (strlen)(params);
char *defstring = (char*) alloca (sz + 1);
CALL_UTIL (strlcpy)(defstring, params, sz + 1);
TprintfT (0, "hwprofile: open_experiment %s -- %s\n", exp, defstring);
int err = COL_ERROR_NONE;
/* init counter library */
if (!hwcdrv_inited)
{ /* do not call hwcdrv_init() from fork-child */
hwcdrv_inited = 1;
get_hwc_driver ();
if (hwc_driver->hwcdrv_init (collector_hwc_ABORT, &hwprofile_tsd_sz) == 0)
{
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_CERROR, COL_ERROR_HWCINIT, defstring);
TprintfT (0, "hwprofile: ERROR: hwcfuncs_init() failed\n");
return COL_ERROR_HWCINIT;
}
if (hwc_driver->hwcdrv_enable_mt (hwprofile_get_tsd))
{
// It is OK to call hwcdrv_enable_mt() before tsd key is created
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_CERROR, COL_ERROR_HWCINIT, defstring);
TprintfT (0, "hwprofile: ERROR: hwcdrv_enable_mt() failed\n");
return COL_ERROR_HWCINIT;
}
hwc_driver->hwcdrv_get_info (&cpcN_cpuver, NULL, NULL, NULL, NULL);
if (cpcN_cpuver < 0)
{
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_CERROR, COL_ERROR_HWCINIT, defstring);
TprintfT (0, "hwprofile: ERROR: hwcdrv_get_info() failed\n");
return COL_ERROR_HWCINIT;
}
}
if (hwprofile_tsd_sz)
{
hwprofile_tsd_key = collector_interface->createKey (hwprofile_tsd_sz, NULL, NULL);
if (hwprofile_tsd_key == COLLECTOR_TSD_INVALID_KEY)
{
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_CERROR, COL_ERROR_HWCINIT, defstring);
TprintfT (0, "hwprofile: ERROR: TSD createKey failed\n");
return COL_ERROR_HWCINIT;
}
}
hwcdef_cnt = 0;
hwcdef_has_memspace = 0;
/* create counters based on hwcdef[] */
err = __collector_hwcfuncs_bind_descriptor (defstring);
if (err)
{
err = err == HWCFUNCS_ERROR_HWCINIT ? COL_ERROR_HWCINIT : COL_ERROR_HWCARGS;
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_CERROR, err, defstring);
TprintfT (0, "hwprofile: ERROR: open_experiment() failed, RC=%d \n", err);
return err;
}
/* generate an array of counter structures for each requested counter */
hwcdef = __collector_hwcfuncs_get_ctrs (&hwcdef_cnt);
hwcdef_num_sampling_ctrdefs = hwcdef_num_overflow_ctrdefs = 0;
int idx;
for (idx = 0; idx < hwcdef_cnt; idx++)
{
if (HWCENTRY_USES_SAMPLING (hwcdef[idx]))
{
hwcdef_num_sampling_ctrdefs++;
}
else
{
hwcdef_num_overflow_ctrdefs++;
}
}
init_ucontexts ();
/* initialize the SIGEMT handler, and the periodic HWC checker */
err = hwc_initialize_handlers ();
if (err != COL_ERROR_NONE)
{
hwcdef_cnt = 0;
TprintfT (0, "hwprofile: ERROR: open_experiment() failed, RC=%d \n", err);
/* log written by hwc_initialize_handlers() */
return err;
}
for (idx = 0; idx < hwcdef_cnt; idx++)
if (ABST_BACKTRACK_ENABLED (hwcdef[idx]->memop))
hwcdef_has_memspace = 1;
/* record the hwc definitions in the log, based on the counter array */
hwclogwrite0 ();
for (idx = 0; idx < hwcdef_cnt; idx++)
hwclogwrite (hwcdef[idx]);
return COL_ERROR_NONE;
}
int
__collector_ext_hwc_lwp_init ()
{
return get_hwc_driver ()->hwcdrv_lwp_init ();
}
void
__collector_ext_hwc_lwp_fini ()
{
get_hwc_driver ()->hwcdrv_lwp_fini ();
}
int
__collector_ext_hwc_lwp_suspend ()
{
return get_hwc_driver ()->hwcdrv_lwp_suspend ();
}
int
__collector_ext_hwc_lwp_resume ()
{
return get_hwc_driver ()->hwcdrv_lwp_resume ();
}
/* Dummy routine, used to provide a context for non-program related profiles */
void
__collector_not_program_related () { }
/* Dummy routine, used to provide a context for lost counts (perf_events) */
void
__collector_hwc_samples_lost () { }
/* Dummy routine, used to provide a context */
void
__collector_hwcs_frozen () { }
/* Dummy routine, used to provide a context */
void
__collector_hwcs_out_of_range () { }
/* initialize some structures */
static void
init_ucontexts (void)
{
/* initialize dummy context for "collector" frames */
getcontext (&expr_dummy_uc);
SETFUNCTIONCONTEXT (&expr_dummy_uc, NULL);
/* initialize dummy context for "out-of-range" frames */
getcontext (&expr_out_of_range_uc);
SETFUNCTIONCONTEXT (&expr_out_of_range_uc, &__collector_hwcs_out_of_range);
/* initialize dummy context for "frozen" frames */
getcontext (&expr_frozen_uc);
SETFUNCTIONCONTEXT (&expr_frozen_uc, &__collector_hwcs_frozen);
/* initialize dummy context for non-program-related frames */
getcontext (&expr_nopc_uc);
SETFUNCTIONCONTEXT (&expr_nopc_uc, &__collector_not_program_related);
/* initialize dummy context for lost-counts-related frames */
getcontext (&expr_lostcounts_uc);
SETFUNCTIONCONTEXT (&expr_lostcounts_uc, &__collector_hwc_samples_lost);
}
/* initialize the signal handler */
static int
hwc_initialize_handlers (void)
{
/* install the signal handler for SIGEMT */
struct sigaction oact;
if (__collector_sigaction (HWCFUNCS_SIGNAL, NULL, &oact) != 0)
{
TprintfT (0, "hwc_initialize_handlers(): ERROR: hwc_initialize_handlers(): __collector_sigaction() failed to get oact\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">old handler could not be determined</event>\n", SP_JCMD_CERROR, COL_ERROR_HWCINIT);
return COL_ERROR_HWCINIT;
}
if (oact.sa_sigaction == collector_sigemt_handler)
{
/* signal handler is already in place; we are probably in a fork-child */
TprintfT (DBG_LT1, "hwc_initialize_handlers(): hwc_initialize_handlers() collector_sigemt_handler already installed\n");
}
else
{
/* set our signal handler */
struct sigaction c_act;
CALL_UTIL (memset)(&c_act, 0, sizeof c_act);
sigemptyset (&c_act.sa_mask);
sigaddset (&c_act.sa_mask, SIGPROF); /* block SIGPROF delivery in handler */
/* XXXX should probably also block sample_sig & pause_sig */
c_act.sa_sigaction = collector_sigemt_handler; /* note: used to set sa_handler instead */
c_act.sa_flags = SA_RESTART | SA_SIGINFO;
if (__collector_sigaction (HWCFUNCS_SIGNAL, &c_act, &old_sigemt_handler) != 0)
{
TprintfT (0, "hwc_initialize_handlers(): ERROR: hwc_initialize_handlers(): __collector_sigaction() failed to set cact\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">event handler could not be installed</event>\n", SP_JCMD_CERROR, COL_ERROR_HWCINIT);
return COL_ERROR_HWCINIT;
}
}
return COL_ERROR_NONE;
}
static int
close_experiment (void)
{
/* note: stop_data_collection() should have already been called by
* collector_close_experiment()
*/
if (!COUNTERS_ENABLED ())
return COL_ERROR_NONE;
detach_experiment ();
/* cpc or libperfctr may still generate sigemts for a while */
/* verify that SIGEMT handler is still installed */
/* (still required with sigaction interposition and management,
since interposition is not done for attach experiments)
*/
struct sigaction curr;
if (__collector_sigaction (HWCFUNCS_SIGNAL, NULL, &curr) == -1)
{
TprintfT (0, "hwprofile close_experiment: ERROR: hwc sigaction check failed: errno=%d\n", errno);
}
else if (curr.sa_sigaction != collector_sigemt_handler)
{
TprintfT (DBG_LT1, "hwprofile close_experiment: WARNING: collector sigemt handler replaced by 0x%p!\n", curr.sa_handler);
(void) collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">0x%p</event>\n",
SP_JCMD_CWARN, COL_WARN_SIGEMT, curr.sa_handler);
}
else
TprintfT (DBG_LT1, "hwprofile close_experiment: collector sigemt handler integrity verified!\n");
TprintfT (0, "hwprofile: close_experiment\n");
return 0;
}
static int
detach_experiment (void)
{
/* fork child. Clean up state but don't write to experiment */
/* note: stop_data_collection() has already been called by the fork_prologue */
// detach_experiment() can be called asynchronously
// from anywhere, even from within a sigemt handler
// via DBX detach.
// Important: stop_data_collection() _must_ be called
// before detach_experiment() is called.
if (!COUNTERS_ENABLED ())
return COL_ERROR_NONE;
TprintfT (0, "hwprofile: detach_experiment()\n");
if (SD_OFF != __collector_cas_32 (&sd_state, SD_OFF, SD_PENDING))
return 0;
// one and only one call should ever make it here here.
if (hwc_mode == HWCMODE_ACTIVE)
{
TprintfT (0, "hwprofile: ERROR: stop_data_collection() should have been called before detach_experiment()\n");
stop_data_collection ();
}
// Assumption: The only calls to sigemt_handler
// we should see at this point
// will be those that were already in-flight before
// stop_new_sigemts() was called.
if (nthreads_in_sighandler > 0)
{
// sigemt handlers should see
// SD_PENDING and should call real_detach_experiment()
// when the last handler is finished.
TprintfT (DBG_LT1, "hwprofile: detach in the middle of signal handler.\n");
return 0;
}
// If we get here, there should be no remaining
// sigemt handlers. However, we don't really know
// if there were ever any in flight, so call
// real_detach_experiment() here:
return real_detach_experiment (); // multiple calls to this OK
}
static int
real_detach_experiment (void)
{
/*multiple calls to this routine are OK.*/
if (SD_PENDING != __collector_cas_32 (&sd_state, SD_PENDING, SD_COMPLETE))
return 0;
// only the first caller to this routine should get here.
hwcdef_cnt = 0; /* since now deinstalled */
hwcdef = NULL;
set_hwc_mode (HWCMODE_OFF);
if (SD_COMPLETE != __collector_cas_32 (&sd_state, SD_COMPLETE, SD_OFF))
{
TprintfT (0, "hwprofile: ERROR: unexpected sd_state in real_detach_experiment()\n");
sd_state = SD_OFF;
}
hwprofile_tsd_key = COLLECTOR_TSD_INVALID_KEY;
TprintfT (DBG_LT0, "hwprofile: real_detach_experiment() detached from experiment.\n");
return 0;
}
/*---------------------------------------------------------------------------*/
/* Record counter values. */
/* <value> should already be adjusted to be "zero-based" (counting up from 0).*/
static void
collector_record_counter_internal (ucontext_t *ucp, int timecvt,
ABST_type ABS_memop, hrtime_t time,
unsigned tag, uint64_t value, uint64_t pc,
uint64_t va, uint64_t latency,
uint64_t data_source)
{
MHwcntr_packet pckt;
CALL_UTIL (memset)(&pckt, 0, sizeof ( MHwcntr_packet));
pckt.comm.tstamp = time;
pckt.tag = tag;
if (timecvt > 1)
{
if (HWCVAL_HAS_ERR (value))
{
value = HWCVAL_CLR_ERR (value);
value *= timecvt;
value = HWCVAL_SET_ERR (value);
}
else
value *= timecvt;
}
pckt.interval = value;
pckt.comm.type = HW_PCKT;
pckt.comm.tsize = sizeof (Hwcntr_packet);
TprintfT (DBG_LT4, "hwprofile: %llu sample %lld tag %u recorded\n",
(unsigned long long) time, (long long) value, tag);
if (ABS_memop == ABST_NOPC)
ucp = &expr_nopc_uc;
pckt.comm.frinfo = collector_interface->getFrameInfo (expr_hndl, pckt.comm.tstamp, FRINFO_FROM_UC, ucp);
collector_interface->writeDataRecord (expr_hndl, (Common_packet*) & pckt);
}
static void
collector_record_counter (ucontext_t *ucp, int timecvt, ABST_type ABS_memop,
hrtime_t time, unsigned tag, uint64_t value)
{
collector_record_counter_internal (ucp, timecvt, ABS_memop, time, tag, value,
HWCFUNCS_INVALID_U64, HWCFUNCS_INVALID_U64,
HWCFUNCS_INVALID_U64, HWCFUNCS_INVALID_U64);
}
/*---------------------------------------------------------------------------*/
/* Signal handlers */
/* SIGEMT -- relayed from libcpc, when the counter overflows */
/* Generates the appropriate event or events, and resets the counters */
static void
collector_sigemt_handler (int sig, siginfo_t *si, void *puc)
{
int rc;
hwc_event_t sample, lost_samples;
if (sig != HWCFUNCS_SIGNAL)
{
TprintfT (0, "hwprofile: ERROR: %s: unexpected signal %d\n", "collector_sigemt_handler", sig);
return;
}
if (!COUNTERS_ENABLED ())
{ /* apparently deinstalled */
TprintfT (0, "hwprofile: WARNING: SIGEMT detected after close_experiment()\n");
/* kills future sigemts since hwcdrv_sighlr_restart() not called */
return;
}
/* Typically, we expect HWC overflow signals to come from the kernel: si_code > 0.
* On Linux, however, dbx might be "forwarding" a signal using tkill()/tgkill().
* For more information on what si_code values can be expected on Linux, check:
* cmn_components/Collector_Interface/hwcdrv_pcl.c hwcdrv_overflow()
* cmn_components/Collector_Interface/hwcdrv_perfctr.c hdrv_perfctr_overflow()
*/
if (puc == NULL || si == NULL || (si->si_code <= 0 && si->si_code != SI_TKILL))
{
TprintfT (DBG_LT3, "hwprofile: collector_sigemt_handler SIG%02d\n", sig);
if (old_sigemt_handler.sa_handler == SIG_DFL)
__collector_SIGDFL_handler (HWCFUNCS_SIGNAL);
else if (old_sigemt_handler.sa_handler != SIG_IGN &&
old_sigemt_handler.sa_sigaction != &collector_sigemt_handler)
{
/* Redirect the signal to the previous signal handler */
(old_sigemt_handler.sa_sigaction)(sig, si, puc);
TprintfT (DBG_LT1, "hwprofile: collector_sigemt_handler SIG%02d redirected to original handler\n", sig);
}
return;
}
rc = get_hwc_driver ()->hwcdrv_overflow (si, &sample, &lost_samples);
if (rc)
{
/* hwcdrv_sighlr_restart() should not be called */
TprintfT (0, "hwprofile: ERROR: collector_sigemt_handler: hwcdrv_overflow() failed\n");
return;
}
if (hwc_mode == HWCMODE_ACTIVE)
{
/* record the event only if counters are active */
/* The following has been copied from dispatcher.c */
#if ARCH(SPARC)
/* 23340823 signal handler third argument should point to a ucontext_t */
/* Convert sigcontext to ucontext_t on sparc-Linux */
ucontext_t uctxmem;
struct sigcontext *sctx = (struct sigcontext*) puc;
ucontext_t *uctx = &uctxmem;
uctx->uc_link = NULL;
#if WSIZE(32)
uctx->uc_mcontext.gregs[REG_PC] = sctx->si_regs.pc;
__collector_memcpy (&uctx->uc_mcontext.gregs[3],
sctx->si_regs.u_regs,
sizeof (sctx->si_regs.u_regs));
#else
uctx->uc_mcontext.mc_gregs[MC_PC] = sctx->sigc_regs.tpc;
__collector_memcpy (&uctx->uc_mcontext.mc_gregs[3],
sctx->sigc_regs.u_regs,
sizeof (sctx->sigc_regs.u_regs));
#endif /* WSIZE() */
#else
ucontext_t *uctx = (ucontext_t*) puc;
#endif /* ARCH() */
for (int ii = 0; ii < hwcdef_cnt; ii++)
if (lost_samples.ce_pic[ii])
collector_record_counter (&expr_lostcounts_uc, hwcdef[ii]->timecvt,
hwcdef[ii]->memop, lost_samples.ce_hrt,
hwcdef[ii]->sort_order, lost_samples.ce_pic[ii]);
for (int ii = 0; ii < hwcdef_cnt; ii++)
if (sample.ce_pic[ii])
collector_record_counter (uctx, hwcdef[ii]->timecvt,
hwcdef[ii]->memop, sample.ce_hrt,
hwcdef[ii]->sort_order, sample.ce_pic[ii]);
}
rc = get_hwc_driver ()->hwcdrv_sighlr_restart (NULL);
}
/* SIGPROF -- not installed as handler, but
* __collector_ext_hwc_check: called by (SIGPROF) dispatcher.
* Periodical check of integrity of HWC count/signal mechanism,
* as required for various chip/system bugs/workarounds.
*/
void
__collector_ext_hwc_check (siginfo_t *info, ucontext_t *vcontext) { }
/*---------------------------------------------------------------------------*/
int
collector_sigemt_sigaction (const struct sigaction *nact,
struct sigaction *oact)
{
struct sigaction oact_check;
/* Error codes and messages that refer to HWC are tricky.
* E.g., HWC profiling might not even be on; we might
* encounter an error here simply because the user is
* trying to set a handler for a signal that happens to
* be HWCFUNCS_SIGNAL, which we aren't even using.
*/
if (__collector_sigaction (HWCFUNCS_SIGNAL, NULL, &oact_check) != 0)
{
TprintfT (0, "hwprofile: ERROR: collector_sigemt_sigaction(): request to set handler for signal %d, but check on existing handler failed\n", HWCFUNCS_SIGNAL);
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">old handler for signal %d could not be determined</event>\n", SP_JCMD_CERROR, COL_ERROR_HWCINIT, HWCFUNCS_SIGNAL);
return COL_ERROR_HWCINIT;
}
if (oact_check.sa_sigaction == collector_sigemt_handler)
{
/* dispatcher is in place, so nact/oact apply to old_sigemt_handler */
if (oact != NULL)
{
oact->sa_handler = old_sigemt_handler.sa_handler;
oact->sa_mask = old_sigemt_handler.sa_mask;
oact->sa_flags = old_sigemt_handler.sa_flags;
}
if (nact != NULL)
{
old_sigemt_handler.sa_handler = nact->sa_handler;
old_sigemt_handler.sa_mask = nact->sa_mask;
old_sigemt_handler.sa_flags = nact->sa_flags;
}
return COL_ERROR_NONE;
}
else /* no dispatcher in place, so just act like normal sigaction() */
return __collector_sigaction (HWCFUNCS_SIGNAL, nact, oact);
}
static void
collector_hwc_ABORT (int errnum, const char *msg)
{
TprintfT (0, "hwprofile: collector_hwc_ABORT: [%d] %s\n", errnum, msg);
if (hwc_mode == HWCMODE_ABORT) /* HWC collection already aborted! */
return;
set_hwc_mode (HWCMODE_ABORT); /* set global flag to disable handlers and indicate abort */
/* Write the error message to the experiment */
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">%s: errno=%d</event>\n",
SP_JCMD_CERROR, COL_ERROR_HWCFAIL, msg, errnum);
#ifdef REAL_DEBUG
abort ();
#else
TprintfT (0, "hwprofile: Continuing without HWC collection...\n");
#endif
}
static int
start_data_collection (void)
{
hwc_mode_t old_mode = hwc_mode;
if (!COUNTERS_ENABLED ())
return COL_ERROR_NONE;
TprintfT (0, "hwprofile: start_data_collection (hwc_mode=%d)\n", old_mode);
switch (old_mode)
{
case HWCMODE_OFF:
if (get_hwc_driver ()->hwcdrv_start ())
{
TprintfT (0, "hwprofile: ERROR: start_data_collection() failed in hwcdrv_start()\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">%s: errno=%d</event>\n",
SP_JCMD_CERROR, COL_ERROR_HWCFAIL,
"start_data_collection()", errno);
return COL_ERROR_HWCINIT;
}
set_hwc_mode (HWCMODE_ACTIVE); /* start handling events on signals */
break;
case HWCMODE_SUSPEND:
if (get_hwc_driver ()->hwcdrv_lwp_resume ())
{
TprintfT (0, "hwprofile: ERROR: start_data_collection() failed in hwcdrv_lwp_resume()\n");
/* ignore errors from lwp_resume() */
}
set_hwc_mode (HWCMODE_ACTIVE); /* start handling events on signals */
break;
default:
TprintfT (0, "hwprofile: ERROR: start_data_collection() invalid mode\n");
return COL_ERROR_HWCINIT;
}
return COL_ERROR_NONE;
}
static int
stop_data_collection (void)
{
hwc_mode_t old_mode = hwc_mode;
if (!COUNTERS_ENABLED ())
return COL_ERROR_NONE;
TprintfT (0, "hwprofile: stop_data_collection (hwc_mode=%d)\n", old_mode);
switch (old_mode)
{
case HWCMODE_SUSPEND:
return COL_ERROR_NONE;
case HWCMODE_ACTIVE:
set_hwc_mode (HWCMODE_SUSPEND); /* stop handling signals */
break;
default:
/* Don't change the mode, but attempt to suspend anyway... */
break;
}
if (get_hwc_driver ()->hwcdrv_lwp_suspend ())
/* ignore errors from lwp_suspend() */
TprintfT (0, "hwprofile: ERROR: stop_data_collection() failed in hwcdrv_lwp_suspend()\n");
/*
* hwcdrv_lwp_suspend() cannot guarantee that all SIGEMTs will stop
* but hwc_mode will prevent logging and counters will overflow once
* then stay frozen.
*/
/* There may still be pending SIGEMTs so don't reset the SIG_DFL handler.
*/
/* see comment in dispatcher.c */
/* ret = __collector_sigaction( SIGEMT, &old_sigemt_handler, NULL ); */
return COL_ERROR_NONE;
}
/*---------------------------------------------------------------------------*/
/* utilities */
static void
set_hwc_mode (hwc_mode_t md)
{
TprintfT (DBG_LT1, "hwprofile: set_hwc_mode(%d)\n", md);
hwc_mode = md;
}
int
__collector_ext_hwc_active ()
{
return (hwc_mode == HWCMODE_ACTIVE);
}
static void
hwclogwrite0 ()
{
collector_interface->writeLog ("<profdata fname=\"%s\"/>\n",
module_interface.description);
/* Record Hwcntr_packet description */
Hwcntr_packet *pp = NULL;
collector_interface->writeLog ("<profpckt kind=\"%d\" uname=\"" STXT ("Hardware counter profiling data") "\">\n", HW_PCKT);
collector_interface->writeLog (" <field name=\"LWPID\" uname=\"" STXT ("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=\"" STXT ("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=\"" STXT ("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=\"" STXT ("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=\"HWCTAG\" uname=\"" STXT ("Hardware counter index") "\" offset=\"%d\" type=\"%s\"/>\n",
&pp->tag, sizeof (pp->tag) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"HWCINT\" uname=\"" STXT ("Hardware counter interval") "\" offset=\"%d\" type=\"%s\"/>\n",
&pp->interval, sizeof (pp->interval) == 4 ? "INT32" : "INT64");
collector_interface->writeLog ("</profpckt>\n");
if (hwcdef_has_memspace)
{
/* Record MHwcntr_packet description */
MHwcntr_packet *xpp = NULL;
collector_interface->writeLog ("<profpckt kind=\"%d\" uname=\"" STXT ("Hardware counter profiling data") "\">\n", MHWC_PCKT);
collector_interface->writeLog (" <field name=\"LWPID\" uname=\"" STXT ("Lightweight process id") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->comm.lwp_id, sizeof (xpp->comm.lwp_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"THRID\" uname=\"" STXT ("Thread number") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->comm.thr_id, sizeof (xpp->comm.thr_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"CPUID\" uname=\"" STXT ("CPU id") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->comm.cpu_id, sizeof (xpp->comm.cpu_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"TSTAMP\" uname=\"" STXT ("High resolution timestamp") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->comm.tstamp, sizeof (xpp->comm.tstamp) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"FRINFO\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->comm.frinfo, sizeof (xpp->comm.frinfo) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"HWCTAG\" uname=\"" STXT ("Hardware counter index") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->tag, sizeof (xpp->tag) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"HWCINT\" uname=\"" STXT ("Hardware counter interval") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->interval, sizeof (xpp->interval) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"VADDR\" uname=\"" STXT ("Virtual address (data)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->ea_vaddr, sizeof (xpp->ea_vaddr) == 4 ? "UINT32" : "UINT64");
collector_interface->writeLog (" <field name=\"PADDR\" uname=\"" STXT ("Physical address (data)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->ea_paddr, sizeof (xpp->ea_paddr) == 4 ? "UINT32" : "UINT64");
collector_interface->writeLog (" <field name=\"VIRTPC\" uname=\"" STXT ("Virtual address (instruction)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->pc_vaddr, sizeof (xpp->pc_vaddr) == 4 ? "UINT32" : "UINT64");
collector_interface->writeLog (" <field name=\"PHYSPC\" uname=\"" STXT ("Physical address (instruction)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->pc_paddr, sizeof (xpp->pc_paddr) == 4 ? "UINT32" : "UINT64");
collector_interface->writeLog (" <field name=\"EA_PAGESIZE\" uname=\"" STXT ("Page size (data)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->ea_pagesz, sizeof (xpp->ea_pagesz) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"PC_PAGESIZE\" uname=\"" STXT ("Page size (instruction)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->pc_pagesz, sizeof (xpp->pc_pagesz) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"EA_LGRP\" uname=\"" STXT ("Page locality group (data)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->ea_lgrp, sizeof (xpp->ea_lgrp) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"PC_LGRP\" uname=\"" STXT ("Page locality group (instruction)") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->pc_lgrp, sizeof (xpp->pc_lgrp) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"LWP_LGRP_HOME\" uname=\"" STXT ("LWP home lgroup id") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->lgrp_lwp, sizeof (xpp->lgrp_lwp) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"PS_LGRP_HOME\" uname=\"" STXT ("Process home lgroup id") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->lgrp_ps, sizeof (xpp->lgrp_ps) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"MEM_LAT\" uname=\"" STXT ("Memory Latency Cycles") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->latency, sizeof (xpp->latency) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"MEM_SRC\" uname=\"" STXT ("Memory Data Source") "\" offset=\"%d\" type=\"%s\"/>\n",
&xpp->data_source, sizeof (xpp->data_source) == 4 ? "INT32" : "INT64");
collector_interface->writeLog ("</profpckt>\n");
}
}
static void
hwclogwrite (Hwcentry * ctr)
{
TprintfT (DBG_LT1, "hwprofile: writeLog(%s %u %s %d %u %d)\n",
SP_JCMD_HW_COUNTER, cpcN_cpuver, ctr->name ? ctr->name : "NULL",
ctr->val, ctr->sort_order, ctr->memop);
collector_interface->writeLog ("<profile name=\"%s\"", SP_JCMD_HW_COUNTER);
collector_interface->writeLog (" cpuver=\"%u\"", cpcN_cpuver);
collector_interface->writeLog (" hwcname=\"%s\"", ctr->name);
collector_interface->writeLog (" int_name=\"%s\"", ctr->int_name);
collector_interface->writeLog (" interval=\"%d\"", ctr->val);
collector_interface->writeLog (" tag=\"%u\"", ctr->sort_order);
collector_interface->writeLog (" memop=\"%d\"", ctr->memop);
collector_interface->writeLog ("/>\n");
}