#define PERL_NO_GET_CONTEXT #include "EXTERN.h" #include "perl.h" #include "XSUB.h" /* For older Perls */ #ifndef dTHR # define dTHR int dummy_thr #endif /* dTHR */ /*#define DBG_SUB 1 */ /*#define DBG_TIMER 1 */ #ifdef DBG_SUB # define DBG_SUB_NOTIFY(A,B) warn(A, B) #else # define DBG_SUB_NOTIFY(A,B) /* nothing */ #endif #ifdef DBG_TIMER # define DBG_TIMER_NOTIFY(A) warn(A) #else # define DBG_TIMER_NOTIFY(A) /* nothing */ #endif /* HZ == clock ticks per second */ #ifdef VMS # define HZ ((I32)CLK_TCK) # define DPROF_HZ HZ # include /* prototype for sys$gettim() */ # define Times(ptr) (dprof_times(aTHX_ ptr)) #else # ifndef HZ # ifdef CLK_TCK # define HZ ((I32)CLK_TCK) # else # define HZ 60 # endif # endif # ifdef OS2 /* times() has significant overhead */ # define Times(ptr) (dprof_times(aTHX_ ptr)) # define INCL_DOSPROFILE # define INCL_DOSERRORS # include # define toLongLong(arg) (*(long long*)&(arg)) # define DPROF_HZ g_dprof_ticks # else # define Times(ptr) (times(ptr)) # define DPROF_HZ HZ # endif #endif XS(XS_Devel__DProf_END); /* used by prof_mark() */ /* Everything is built on times(2). See its manpage for a description * of the timings. */ union prof_any { clock_t tms_utime; /* cpu time spent in user space */ clock_t tms_stime; /* cpu time spent in system */ clock_t realtime; /* elapsed real time, in ticks */ char *name; U32 id; opcode ptype; }; typedef union prof_any PROFANY; typedef struct { U32 dprof_ticks; char* out_file_name; /* output file (defaults to tmon.out) */ PerlIO* fp; /* pointer to tmon.out file */ long TIMES_LOCATION; /* Where in the file to store the time totals */ int SAVE_STACK; /* How much data to buffer until end of run */ int prof_pid; /* pid of profiled process */ struct tms prof_start; struct tms prof_end; clock_t rprof_start; /* elapsed real time ticks */ clock_t rprof_end; clock_t wprof_u; clock_t wprof_s; clock_t wprof_r; clock_t otms_utime; clock_t otms_stime; clock_t orealtime; PROFANY* profstack; int profstack_max; int profstack_ix; HV* cv_hash; U32 total; U32 lastid; U32 default_perldb; U32 depth; #ifdef OS2 ULONG frequ; long long start_cnt; #endif #ifdef PERL_IMPLICIT_CONTEXT # define register pTHX; # undef register #endif } prof_state_t; prof_state_t g_prof_state; #define g_dprof_ticks g_prof_state.dprof_ticks #define g_out_file_name g_prof_state.out_file_name #define g_fp g_prof_state.fp #define g_TIMES_LOCATION g_prof_state.TIMES_LOCATION #define g_SAVE_STACK g_prof_state.SAVE_STACK #define g_prof_pid g_prof_state.prof_pid #define g_prof_start g_prof_state.prof_start #define g_prof_end g_prof_state.prof_end #define g_rprof_start g_prof_state.rprof_start #define g_rprof_end g_prof_state.rprof_end #define g_wprof_u g_prof_state.wprof_u #define g_wprof_s g_prof_state.wprof_s #define g_wprof_r g_prof_state.wprof_r #define g_otms_utime g_prof_state.otms_utime #define g_otms_stime g_prof_state.otms_stime #define g_orealtime g_prof_state.orealtime #define g_profstack g_prof_state.profstack #define g_profstack_max g_prof_state.profstack_max #define g_profstack_ix g_prof_state.profstack_ix #define g_cv_hash g_prof_state.cv_hash #define g_total g_prof_state.total #define g_lastid g_prof_state.lastid #define g_default_perldb g_prof_state.default_perldb #define g_depth g_prof_state.depth #ifdef PERL_IMPLICIT_CONTEXT # define g_THX g_prof_state.aTHX #endif #ifdef OS2 # define g_frequ g_prof_state.frequ # define g_start_cnt g_prof_state.start_cnt #endif clock_t dprof_times(pTHX_ struct tms *t) { #ifdef OS2 ULONG rc; QWORD cnt; if (!g_frequ) { if (CheckOSError(DosTmrQueryFreq(&g_frequ))) croak("DosTmrQueryFreq: %s", SvPV(perl_get_sv("!",TRUE),na)); else g_frequ = g_frequ/DPROF_HZ; /* count per tick */ if (CheckOSError(DosTmrQueryTime(&cnt))) croak("DosTmrQueryTime: %s", SvPV(perl_get_sv("!",TRUE),na)); g_start_cnt = toLongLong(cnt); } if (CheckOSError(DosTmrQueryTime(&cnt))) croak("DosTmrQueryTime: %s", SvPV(perl_get_sv("!",TRUE),na)); t->tms_stime = 0; return (t->tms_utime = (toLongLong(cnt) - g_start_cnt)/g_frequ); #else /* !OS2 */ # ifdef VMS clock_t retval; /* Get wall time and convert to 10 ms intervals to * produce the return value dprof expects */ # if defined(__DECC) && defined (__ALPHA) # include uint64 vmstime; _ckvmssts(sys$gettim(&vmstime)); vmstime /= 100000; retval = vmstime & 0x7fffffff; # else /* (Older hw or ccs don't have an atomic 64-bit type, so we * juggle 32-bit ints (and a float) to produce a time_t result * with minimal loss of information.) */ long int vmstime[2],remainder,divisor = 100000; _ckvmssts(sys$gettim((unsigned long int *)vmstime)); vmstime[1] &= 0x7fff; /* prevent overflow in EDIV */ _ckvmssts(lib$ediv(&divisor,vmstime,(long int *)&retval,&remainder)); # endif /* Fill in the struct tms using the CRTL routine . . .*/ times((tbuffer_t *)t); return (clock_t) retval; # else /* !VMS && !OS2 */ return times(t); # endif #endif } static void prof_dumpa(pTHX_ opcode ptype, U32 id) { if (ptype == OP_LEAVESUB) { PerlIO_printf(g_fp,"- %"UVxf"\n", (UV)id); } else if(ptype == OP_ENTERSUB) { PerlIO_printf(g_fp,"+ %"UVxf"\n", (UV)id); } else if(ptype == OP_GOTO) { PerlIO_printf(g_fp,"* %"UVxf"\n", (UV)id); } else if(ptype == OP_DIE) { PerlIO_printf(g_fp,"/ %"UVxf"\n", (UV)id); } else { PerlIO_printf(g_fp,"Profiler unknown prof code %d\n", ptype); } } static void prof_dumps(pTHX_ U32 id, char *pname, char *gname) { PerlIO_printf(g_fp,"& %"UVxf" %s %s\n", (UV)id, pname, gname); } static void prof_dumpt(pTHX_ long tms_utime, long tms_stime, long realtime) { PerlIO_printf(g_fp,"@ %ld %ld %ld\n", tms_utime, tms_stime, realtime); } static void prof_dump_until(pTHX_ long ix) { long base = 0; struct tms t1, t2; clock_t realtime1, realtime2; realtime1 = Times(&t1); while (base < ix) { opcode ptype = g_profstack[base++].ptype; if (ptype == OP_TIME) { long tms_utime = g_profstack[base++].tms_utime; long tms_stime = g_profstack[base++].tms_stime; long realtime = g_profstack[base++].realtime; prof_dumpt(aTHX_ tms_utime, tms_stime, realtime); } else if (ptype == OP_GV) { U32 id = g_profstack[base++].id; char *pname = g_profstack[base++].name; char *gname = g_profstack[base++].name; prof_dumps(aTHX_ id, pname, gname); } else { U32 id = g_profstack[base++].id; prof_dumpa(aTHX_ ptype, id); } } PerlIO_flush(g_fp); realtime2 = Times(&t2); if (realtime2 != realtime1 || t1.tms_utime != t2.tms_utime || t1.tms_stime != t2.tms_stime) { g_wprof_r += realtime2 - realtime1; g_wprof_u += t2.tms_utime - t1.tms_utime; g_wprof_s += t2.tms_stime - t1.tms_stime; PerlIO_printf(g_fp,"+ & Devel::DProf::write\n"); PerlIO_printf(g_fp,"@ %"IVdf" %"IVdf" %"IVdf"\n", /* The (IV) casts are one possibility: * the Painfully Correct Way would be to * have Clock_t_f. */ (IV)(t2.tms_utime - t1.tms_utime), (IV)(t2.tms_stime - t1.tms_stime), (IV)(realtime2 - realtime1)); PerlIO_printf(g_fp,"- & Devel::DProf::write\n"); g_otms_utime = t2.tms_utime; g_otms_stime = t2.tms_stime; g_orealtime = realtime2; PerlIO_flush(g_fp); } } static void prof_mark(pTHX_ opcode ptype) { struct tms t; clock_t realtime, rdelta, udelta, sdelta; char *name, *pv; char *hvname; STRLEN len; SV *sv; U32 id; SV *Sub = GvSV(PL_DBsub); /* name of current sub */ if (g_SAVE_STACK) { if (g_profstack_ix + 5 > g_profstack_max) { g_profstack_max = g_profstack_max * 3 / 2; Renew(g_profstack, g_profstack_max, PROFANY); } } realtime = Times(&t); rdelta = realtime - g_orealtime; udelta = t.tms_utime - g_otms_utime; sdelta = t.tms_stime - g_otms_stime; if (rdelta || udelta || sdelta) { if (g_SAVE_STACK) { g_profstack[g_profstack_ix++].ptype = OP_TIME; g_profstack[g_profstack_ix++].tms_utime = udelta; g_profstack[g_profstack_ix++].tms_stime = sdelta; g_profstack[g_profstack_ix++].realtime = rdelta; } else { /* Write it to disk now so's not to eat up core */ if (g_prof_pid == (int)getpid()) { prof_dumpt(aTHX_ udelta, sdelta, rdelta); PerlIO_flush(g_fp); } } g_orealtime = realtime; g_otms_stime = t.tms_stime; g_otms_utime = t.tms_utime; } { SV **svp; char *gname, *pname; CV *cv; cv = INT2PTR(CV*,SvIVX(Sub)); svp = hv_fetch(g_cv_hash, (char*)&cv, sizeof(CV*), TRUE); if (!SvOK(*svp)) { GV *gv = CvGV(cv); sv_setiv(*svp, id = ++g_lastid); pname = ((GvSTASH(gv) && HvNAME(GvSTASH(gv))) ? HvNAME(GvSTASH(gv)) : "(null)"); gname = GvNAME(gv); if (CvXSUB(cv) == XS_Devel__DProf_END) return; if (g_SAVE_STACK) { /* Store it for later recording -JH */ g_profstack[g_profstack_ix++].ptype = OP_GV; g_profstack[g_profstack_ix++].id = id; g_profstack[g_profstack_ix++].name = pname; g_profstack[g_profstack_ix++].name = gname; } else { /* Write it to disk now so's not to eat up core */ /* Only record the parent's info */ if (g_prof_pid == (int)getpid()) { prof_dumps(aTHX_ id, pname, gname); PerlIO_flush(g_fp); } else PL_perldb = 0; /* Do not debug the kid. */ } } else { id = SvIV(*svp); } } g_total++; if (g_SAVE_STACK) { /* Store it for later recording -JH */ g_profstack[g_profstack_ix++].ptype = ptype; g_profstack[g_profstack_ix++].id = id; /* Only record the parent's info */ if (g_SAVE_STACK < g_profstack_ix) { if (g_prof_pid == (int)getpid()) prof_dump_until(aTHX_ g_profstack_ix); else PL_perldb = 0; /* Do not debug the kid. */ g_profstack_ix = 0; } } else { /* Write it to disk now so's not to eat up core */ /* Only record the parent's info */ if (g_prof_pid == (int)getpid()) { prof_dumpa(aTHX_ ptype, id); PerlIO_flush(g_fp); } else PL_perldb = 0; /* Do not debug the kid. */ } } #ifdef PL_NEEDED # define defstash PL_defstash #endif /* Counts overhead of prof_mark and extra XS call. */ static void test_time(pTHX_ clock_t *r, clock_t *u, clock_t *s) { dTHR; CV *cv = perl_get_cv("Devel::DProf::NONESUCH_noxs", FALSE); int i, j, k = 0; HV *oldstash = PL_curstash; struct tms t1, t2; clock_t realtime1, realtime2; U32 ototal = g_total; U32 ostack = g_SAVE_STACK; U32 operldb = PL_perldb; g_SAVE_STACK = 1000000; realtime1 = Times(&t1); while (k < 2) { i = 0; /* Disable debugging of perl_call_sv on second pass: */ PL_curstash = (k == 0 ? PL_defstash : PL_debstash); PL_perldb = g_default_perldb; while (++i <= 100) { j = 0; g_profstack_ix = 0; /* Do not let the stack grow */ while (++j <= 100) { /* prof_mark(aTHX_ OP_ENTERSUB); */ PUSHMARK(PL_stack_sp); perl_call_sv((SV*)cv, G_SCALAR); PL_stack_sp--; /* prof_mark(aTHX_ OP_LEAVESUB); */ } } PL_curstash = oldstash; if (k == 0) { /* Put time with debugging */ realtime2 = Times(&t2); *r = realtime2 - realtime1; *u = t2.tms_utime - t1.tms_utime; *s = t2.tms_stime - t1.tms_stime; } else { /* Subtract time without debug */ realtime1 = Times(&t1); *r -= realtime1 - realtime2; *u -= t1.tms_utime - t2.tms_utime; *s -= t1.tms_stime - t2.tms_stime; } k++; } g_total = ototal; g_SAVE_STACK = ostack; PL_perldb = operldb; } static void prof_recordheader(pTHX) { clock_t r, u, s; /* g_fp is opened in the BOOT section */ PerlIO_printf(g_fp, "#fOrTyTwO\n"); PerlIO_printf(g_fp, "$hz=%"IVdf";\n", (IV)DPROF_HZ); PerlIO_printf(g_fp, "$XS_VERSION='DProf %s';\n", XS_VERSION); PerlIO_printf(g_fp, "# All values are given in HZ\n"); test_time(aTHX_ &r, &u, &s); PerlIO_printf(g_fp, "$over_utime=%"IVdf"; $over_stime=%"IVdf"; $over_rtime=%"IVdf";\n", /* The (IV) casts are one possibility: * the Painfully Correct Way would be to * have Clock_t_f. */ (IV)u, (IV)s, (IV)r); PerlIO_printf(g_fp, "$over_tests=10000;\n"); g_TIMES_LOCATION = PerlIO_tell(g_fp); /* Pad with whitespace. */ /* This should be enough even for very large numbers. */ PerlIO_printf(g_fp, "%*s\n", 240 , ""); PerlIO_printf(g_fp, "\n"); PerlIO_printf(g_fp, "PART2\n"); PerlIO_flush(g_fp); } static void prof_record(pTHX) { /* g_fp is opened in the BOOT section */ /* Now that we know the runtimes, fill them in at the recorded location -JH */ clock_t r, u, s; if (g_SAVE_STACK) { prof_dump_until(aTHX_ g_profstack_ix); } PerlIO_seek(g_fp, g_TIMES_LOCATION, SEEK_SET); /* Write into reserved 240 bytes: */ PerlIO_printf(g_fp, "$rrun_utime=%"IVdf"; $rrun_stime=%"IVdf"; $rrun_rtime=%"IVdf";", /* The (IV) casts are one possibility: * the Painfully Correct Way would be to * have Clock_t_f. */ (IV)(g_prof_end.tms_utime-g_prof_start.tms_utime-g_wprof_u), (IV)(g_prof_end.tms_stime-g_prof_start.tms_stime-g_wprof_s), (IV)(g_rprof_end-g_rprof_start-g_wprof_r)); PerlIO_printf(g_fp, "\n$total_marks=%"IVdf, (IV)g_total); PerlIO_close(g_fp); } #define NONESUCH() static void check_depth(pTHX_ void *foo) { U32 need_depth = (U32)foo; if (need_depth != g_depth) { if (need_depth > g_depth) { warn("garbled call depth when profiling"); } else { I32 marks = g_depth - need_depth; /* warn("Check_depth: got %d, expected %d\n", g_depth, need_depth); */ while (marks--) { prof_mark(aTHX_ OP_DIE); } g_depth = need_depth; } } } #define for_real #ifdef for_real XS(XS_DB_sub) { dXSARGS; dORIGMARK; SV *Sub = GvSV(PL_DBsub); /* name of current sub */ #ifdef PERL_IMPLICIT_CONTEXT /* profile only the interpreter that loaded us */ if (g_THX != aTHX) { PUSHMARK(ORIGMARK); perl_call_sv(INT2PTR(SV*,SvIV(Sub)), GIMME | G_NODEBUG); } else #endif { HV *oldstash = PL_curstash; DBG_SUB_NOTIFY("XS DBsub(%s)\n", SvPV(Sub, na)); SAVEDESTRUCTOR_X(check_depth, (void*)g_depth); g_depth++; prof_mark(aTHX_ OP_ENTERSUB); PUSHMARK(ORIGMARK); perl_call_sv(INT2PTR(SV*,SvIV(Sub)), GIMME | G_NODEBUG); prof_mark(aTHX_ OP_LEAVESUB); g_depth--; } return; } XS(XS_DB_goto) { #ifdef PERL_IMPLICIT_CONTEXT if (g_THX == aTHX) #endif { prof_mark(aTHX_ OP_GOTO); return; } } #endif /* for_real */ #ifdef testing MODULE = Devel::DProf PACKAGE = DB void sub(...) PPCODE: { dORIGMARK; HV *oldstash = PL_curstash; SV *Sub = GvSV(PL_DBsub); /* name of current sub */ /* SP -= items; added by xsubpp */ DBG_SUB_NOTIFY("XS DBsub(%s)\n", SvPV(Sub, na)); sv_setiv(PL_DBsingle, 0); /* disable DB single-stepping */ prof_mark(aTHX_ OP_ENTERSUB); PUSHMARK(ORIGMARK); PL_curstash = PL_debstash; /* To disable debugging of perl_call_sv */ perl_call_sv(Sub, GIMME); PL_curstash = oldstash; prof_mark(aTHX_ OP_LEAVESUB); SPAGAIN; /* PUTBACK; added by xsubpp */ } #endif /* testing */ MODULE = Devel::DProf PACKAGE = Devel::DProf void END() PPCODE: { if (PL_DBsub) { /* maybe the process forked--we want only * the parent's profile. */ if ( #ifdef PERL_IMPLICIT_CONTEXT g_THX == aTHX && #endif g_prof_pid == (int)getpid()) { g_rprof_end = Times(&g_prof_end); DBG_TIMER_NOTIFY("Profiler timer is off.\n"); prof_record(aTHX); } } } void NONESUCH() BOOT: { g_TIMES_LOCATION = 42; g_SAVE_STACK = 1<<14; g_profstack_max = 128; #ifdef PERL_IMPLICIT_CONTEXT g_THX = aTHX; #endif /* Before we go anywhere make sure we were invoked * properly, else we'll dump core. */ if (!PL_DBsub) croak("DProf: run perl with -d to use DProf.\n"); /* When we hook up the XS DB::sub we'll be redefining * the DB::sub from the PM file. Turn off warnings * while we do this. */ { I32 warn_tmp = PL_dowarn; PL_dowarn = 0; newXS("DB::sub", XS_DB_sub, file); newXS("DB::goto", XS_DB_goto, file); PL_dowarn = warn_tmp; } sv_setiv(PL_DBsingle, 0); /* disable DB single-stepping */ { char *buffer = getenv("PERL_DPROF_BUFFER"); if (buffer) { g_SAVE_STACK = atoi(buffer); } buffer = getenv("PERL_DPROF_TICKS"); if (buffer) { g_dprof_ticks = atoi(buffer); /* Used under OS/2 only */ } else { g_dprof_ticks = HZ; } buffer = getenv("PERL_DPROF_OUT_FILE_NAME"); g_out_file_name = savepv(buffer ? buffer : "tmon.out"); } if ((g_fp = PerlIO_open(g_out_file_name, "w")) == NULL) croak("DProf: unable to write '%s', errno = %d\n", g_out_file_name, errno); g_default_perldb = PERLDBf_NONAME | PERLDBf_SUB | PERLDBf_GOTO; g_cv_hash = newHV(); g_prof_pid = (int)getpid(); New(0, g_profstack, g_profstack_max, PROFANY); prof_recordheader(aTHX); DBG_TIMER_NOTIFY("Profiler timer is on.\n"); g_orealtime = g_rprof_start = Times(&g_prof_start); g_otms_utime = g_prof_start.tms_utime; g_otms_stime = g_prof_start.tms_stime; PL_perldb = g_default_perldb; }