/* Copyright (C) 2021-2023 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. */ #include "config.h" #include #include #include #include "Data_window.h" #include "Exp_Layout.h" #include "Table.h" #include "Ovw_data.h" #include "Sample.h" #include "data_pckts.h" #include "util.h" #include "i18n.h" void Ovw_data::sum (Ovw_data *data) { Ovw_item data_totals = data->get_totals (); if (totals == NULL) { totals = reset_item (new Ovw_item); *totals = data_totals; totals->start.tv_sec = totals->end.tv_sec = -1; totals->start.tv_nsec = totals->end.tv_nsec = 0; } else { tsadd (&totals->duration, &data_totals.duration); tsadd (&totals->tlwp, &data_totals.tlwp); if (tstodouble (totals->duration) != 0) totals->nlwp = tstodouble (totals->tlwp) / tstodouble (totals->duration); for (int i = 0, size = totals->size; i < size; i++) tsadd (&totals->values[i].t, &data_totals.values[i].t); } } Ovw_data::Ovw_item * Ovw_data::reset_item (Ovw_data::Ovw_item *item) { memset (item, 0, sizeof (*item)); return item; } Ovw_data::Ovw_item Ovw_data::get_totals () { // This routine will return the totals values for item in the sample. // Compute maximums and totals only once, and save the result. // On subsequent calls, just return the saved result. // If maximums is NULL, then totals is also NULL if (totals != NULL) return *totals; timestruc_t zero = {0, 0}; totals = reset_item (new Ovw_item); totals->start.tv_sec = MAXINT; // new totals->start.tv_nsec = MAXINT; // new totals->start_label = totals->end_label = NTXT ("Total"); totals->type = VT_HRTIME; int nsampsel = 0; for (int index = 0; index < size (); index++) { Ovw_item item = fetch (index); nsampsel++; // Compute totals for (int i = 0; i < OVW_NUMVALS + 1; i++) tsadd (&totals->values[i].t, &item.values[i].t); int_max (&totals->states, item.states); tsadd (&totals->total.t, &item.total.t); int_max (&totals->size, item.size); tsadd (&totals->duration, &item.duration); tsadd (&totals->tlwp, &item.tlwp); totals->number += item.number; if (tscmp (&totals->start, &item.start) > 0) totals->start = item.start; if (tscmp (&totals->end, &item.end) < 0) totals->end = item.end; } if (totals->start.tv_sec == MAXINT && totals->start.tv_nsec == MAXINT) totals->start = zero; totals->nlwp = tstodouble (totals->tlwp) / tstodouble (totals->duration); if (nsampsel == 0) { totals->size = OVW_NUMVALS + 1; totals->start.tv_sec = totals->end.tv_sec = -1; totals->start.tv_nsec = totals->end.tv_nsec = 0; totals->nlwp = -1; } return *totals; } Ovw_data::Ovw_item Ovw_data::get_labels () { Ovw_item ovw_item; Value *values; memset (&ovw_item, 0, sizeof (Ovw_item)); values = &ovw_item.values[0]; char *stateUNames[/*LMS_NUM_STATES*/] = LMS_STATE_USTRINGS; values[0].l = dbe_strdup (GTXT ("Leftover")); values[OVW_LMS_USER + 1].l = stateUNames[LMS_USER]; values[OVW_LMS_SYSTEM + 1].l = stateUNames[LMS_SYSTEM]; values[OVW_LMS_WAIT_CPU + 1].l = stateUNames[LMS_WAIT_CPU]; values[OVW_LMS_USER_LOCK + 1].l = stateUNames[LMS_USER_LOCK]; values[OVW_LMS_TFAULT + 1].l = stateUNames[LMS_TFAULT]; values[OVW_LMS_DFAULT + 1].l = stateUNames[LMS_DFAULT]; values[OVW_LMS_KFAULT + 1].l = stateUNames[LMS_KFAULT]; values[OVW_LMS_SLEEP + 1].l = stateUNames[LMS_SLEEP]; values[OVW_LMS_STOPPED + 1].l = stateUNames[LMS_STOPPED]; values[OVW_LMS_TRAP + 1].l = stateUNames[LMS_TRAP]; ovw_item.size = OVW_NUMVALS + 1; ovw_item.states = 0; ovw_item.type = VT_LABEL; return ovw_item; } Ovw_data::Ovw_data () { packets = NULL; ovw_items = new Vector; totals = NULL; } Ovw_data::Ovw_data (DataView *_packets, hrtime_t exp_start) { packets = _packets; ovw_items = new Vector; totals = NULL; long npackets = packets->getSize (); for (long index = 0; index < npackets; index++) { Ovw_item *ovw_item = new Ovw_item; memset (ovw_item, 0, sizeof (Ovw_item)); Sample *sample = (Sample*) packets->getObjValue (PROP_SMPLOBJ, index); extract_data (ovw_item, sample); hr2timestruc (&ovw_item->start, sample->get_start_time () - exp_start); hr2timestruc (&ovw_item->end, sample->get_end_time () - exp_start); // No need to check for duration, as duration has to be > 0. // If not, it would have been found out in yyparse. tssub (&ovw_item->duration, &ovw_item->end, &ovw_item->start); ovw_item->number = sample->get_number (); ovw_item->start_label = sample->get_start_label (); ovw_item->end_label = sample->get_end_label (); int size = ovw_item->size; for (int j = 0; j < size; j++) tsadd (&ovw_item->tlwp, &ovw_item->values[j].t); if (tstodouble (ovw_item->duration) != 0) ovw_item->nlwp = tstodouble (ovw_item->tlwp) / tstodouble (ovw_item->duration); ovw_items->append (ovw_item); } } Ovw_data::~Ovw_data () { ovw_items->destroy (); delete ovw_items; delete totals; } void Ovw_data::extract_data (Ovw_data::Ovw_item *ovw_item, Sample *sample) { // This routine break out the data in "data" into buckets in "ovw_item" int index; int states; timestruc_t sum, rtime; timestruc_t zero = {0, 0}; Value *values; PrUsage *prusage = sample->get_usage (); if (prusage == NULL) prusage = new PrUsage; values = &ovw_item->values[0]; hr2timestruc (&values[OVW_LMS_USER + 1].t, prusage->pr_utime); hr2timestruc (&values[OVW_LMS_SYSTEM + 1].t, prusage->pr_stime); hr2timestruc (&values[OVW_LMS_WAIT_CPU + 1].t, prusage->pr_wtime); hr2timestruc (&values[OVW_LMS_USER_LOCK + 1].t, prusage->pr_ltime); hr2timestruc (&values[OVW_LMS_TFAULT + 1].t, prusage->pr_tftime); hr2timestruc (&values[OVW_LMS_DFAULT + 1].t, prusage->pr_dftime); hr2timestruc (&values[OVW_LMS_TRAP + 1].t, prusage->pr_ttime); hr2timestruc (&values[OVW_LMS_KFAULT + 1].t, prusage->pr_kftime); hr2timestruc (&values[OVW_LMS_SLEEP + 1].t, prusage->pr_slptime); hr2timestruc (&values[OVW_LMS_STOPPED + 1].t, prusage->pr_stoptime); ovw_item->size = OVW_NUMVALS + 1; //XXX: Compute values[0] as rtime - sum_of(other_times) sum = zero; states = 0; for (index = 1; index < ovw_item->size; index++) { if (values[index].t.tv_sec != 0 || values[index].t.tv_nsec != 0) states++; tsadd (&sum, &values[index].t); } // If the sum of all times is greater than rtime then adjust // rtime to be equal to sum and also adjust the pr_rtime field hr2timestruc (&rtime, prusage->pr_rtime); if (tscmp (&sum, &rtime) > 0) { ovw_item->total.t = sum; values[0].t = zero; } else { ovw_item->total.t = rtime; tssub (&rtime, &rtime, &sum); tsadd (&values[0].t, &rtime); states++; } ovw_item->type = VT_HRTIME; ovw_item->states = states; }