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ara-mdk / platform / external / oprofile / e4b944c9df64336e4c2dd87be5653077ff6c415c / . / gui / oprof_start.cpp
blob: 03871367e39572568cef3fe7c142448e210a14d1 [file] [log] [blame]
/**
* @file oprof_start.cpp
* The GUI start main class
*
* @remark Copyright 2002 OProfile authors
* @remark Read the file COPYING
*
* @author Philippe Elie
* @author John Levon
*/
#include <sys/stat.h>
#include <unistd.h>
#include <ctime>
#include <cstdio>
#include <cmath>
#include <sstream>
#include <iostream>
#include <fstream>
#include <algorithm>
#include <qlineedit.h>
#include <qlistview.h>
#include <qcombobox.h>
#include <qlistbox.h>
#include <qfiledialog.h>
#include <qbuttongroup.h>
#include <qcheckbox.h>
#include <qtabwidget.h>
#include <qmessagebox.h>
#include <qvalidator.h>
#include <qlabel.h>
#include <qpushbutton.h>
#include <qheader.h>
#include "config.h"
#include "oprof_start.h"
#include "op_config.h"
#include "op_config_24.h"
#include "string_manip.h"
#include "op_cpufreq.h"
#include "op_alloc_counter.h"
#include "oprof_start_util.h"
#include "file_manip.h"
#include "op_hw_config.h"
using namespace std;
static char const * green_xpm[] = {
"16 16 2 1",
" c None",
". c #00FF00",
" ....... ",
" ........... ",
" ............. ",
" ............. ",
"............... ",
"............... ",
"............... ",
"............... ",
"............... ",
"............... ",
"............... ",
" ............. ",
" ............. ",
" ........... ",
" ....... ",
" " };
static char const * red_xpm[] = {
"16 16 2 1",
" c None",
". c #FF0000",
" ....... ",
" ........... ",
" ............. ",
" ............. ",
"............... ",
"............... ",
"............... ",
"............... ",
"............... ",
"............... ",
"............... ",
" ............. ",
" ............. ",
" ........... ",
" ....... ",
" " };
static QPixmap * green_pixmap;
static QPixmap * red_pixmap;
op_event_descr::op_event_descr()
:
counter_mask(0),
val(0),
unit(0),
min_count(0)
{
}
oprof_start::oprof_start()
:
oprof_start_base(0, 0, false, 0),
event_count_validator(new QIntValidator(event_count_edit)),
current_event(0),
cpu_speed(op_cpu_frequency()),
total_nr_interrupts(0)
{
green_pixmap = new QPixmap(green_xpm);
red_pixmap = new QPixmap(red_xpm);
vector<string> args;
args.push_back("--init");
if (do_exec_command(OP_BINDIR "/opcontrol", args))
exit(EXIT_FAILURE);
cpu_type = op_get_cpu_type();
op_nr_counters = op_get_nr_counters(cpu_type);
if (cpu_type == CPU_TIMER_INT) {
setup_config_tab->removePage(counter_setup_page);
} else {
fill_events();
}
op_interface interface = op_get_interface();
if (interface == OP_INTERFACE_NO_GOOD) {
QMessageBox::warning(this, 0, "Couldn't determine kernel"
" interface version");
exit(EXIT_FAILURE);
}
bool is_26 = interface == OP_INTERFACE_26;
if (is_26) {
note_table_size_edit->hide();
note_table_size_label->hide();
if (!op_file_readable("/dev/oprofile/backtrace_depth")) {
callgraph_depth_label->hide();
callgraph_depth_edit->hide();
}
} else {
callgraph_depth_label->hide();
callgraph_depth_edit->hide();
buffer_watershed_label->hide();
buffer_watershed_edit->hide();
cpu_buffer_size_label->hide();
cpu_buffer_size_edit->hide();
}
// setup the configuration page.
kernel_filename_edit->setText(config.kernel_filename.c_str());
no_vmlinux->setChecked(config.no_kernel);
buffer_size_edit->setText(QString().setNum(config.buffer_size));
buffer_watershed_edit->setText(QString().setNum(config.buffer_watershed));
cpu_buffer_size_edit->setText(QString().setNum(config.cpu_buffer_size));
note_table_size_edit->setText(QString().setNum(config.note_table_size));
callgraph_depth_edit->setText(QString().setNum(config.callgraph_depth));
verbose->setChecked(config.verbose);
separate_lib_cb->setChecked(config.separate_lib);
separate_kernel_cb->setChecked(config.separate_kernel);
separate_cpu_cb->setChecked(config.separate_cpu);
separate_thread_cb->setChecked(config.separate_thread);
// the unit mask check boxes
hide_masks();
event_count_edit->setValidator(event_count_validator);
QIntValidator * iv;
iv = new QIntValidator(OP_MIN_BUF_SIZE, OP_MAX_BUF_SIZE, buffer_size_edit);
buffer_size_edit->setValidator(iv);
iv = new QIntValidator(OP_MIN_NOTE_TABLE_SIZE, OP_MAX_NOTE_TABLE_SIZE, note_table_size_edit);
note_table_size_edit->setValidator(iv);
iv = new QIntValidator(0, INT_MAX, callgraph_depth_edit);
callgraph_depth_edit->setValidator(iv);
iv = new QIntValidator(0, INT_MAX, buffer_watershed_edit);
buffer_watershed_edit->setValidator(iv);
iv = new QIntValidator(0, OP_MAX_CPU_BUF_SIZE, cpu_buffer_size_edit);
cpu_buffer_size_edit->setValidator(iv);
// daemon status timer
startTimer(5000);
timerEvent(0);
resize(minimumSizeHint());
// force the pixmap re-draw
event_selected();
}
void oprof_start::fill_events()
{
// we need to build the event descr stuff before loading the
// configuration because we use locate_event to get an event descr
// from its name.
struct list_head * pos;
struct list_head * events = op_events(cpu_type);
list_for_each(pos, events) {
struct op_event * event = list_entry(pos, struct op_event, event_next);
op_event_descr descr;
descr.counter_mask = event->counter_mask;
descr.val = event->val;
if (event->unit->num) {
descr.unit = event->unit;
} else {
descr.unit = 0;
}
descr.name = event->name;
descr.help_str = event->desc;
descr.min_count = event->min_count;
for (uint ctr = 0; ctr < op_nr_counters; ++ctr) {
uint count;
if (!(descr.counter_mask & (1 << ctr)))
continue;
if (cpu_type == CPU_RTC) {
count = 1024;
} else {
/* setting to cpu Hz / 2000 gives a safe value for
* all events, and a good one for most.
*/
if (cpu_speed)
count = int(cpu_speed * 500);
else
count = descr.min_count * 100;
}
event_cfgs[descr.name].count = count;
event_cfgs[descr.name].umask = 0;
if (descr.unit)
event_cfgs[descr.name].umask = descr.unit->default_mask;
event_cfgs[descr.name].os_ring_count = 1;
event_cfgs[descr.name].user_ring_count = 1;
}
v_events.push_back(descr);
}
events_list->header()->hide();
events_list->setSorting(-1);
fill_events_listbox();
read_set_events();
// FIXME: why this ?
if (cpu_type == CPU_RTC)
events_list->setCurrentItem(events_list->firstChild());
load_config_file();
}
namespace {
/// find the first item with the given text in column 0 or return NULL
QListViewItem * findItem(QListView * view, char const * name)
{
// Qt 2.3.1 does not have QListView::findItem()
QListViewItem * item = view->firstChild();
while (item && strcmp(item->text(0).latin1(), name))
item = item->nextSibling();
return item;
}
};
void oprof_start::setup_default_event()
{
struct op_default_event_descr descr;
op_default_event(cpu_type, &descr);
event_cfgs[descr.name].umask = descr.um;
event_cfgs[descr.name].count = descr.count;
event_cfgs[descr.name].user_ring_count = 1;
event_cfgs[descr.name].os_ring_count = 1;
QListViewItem * item = findItem(events_list, descr.name);
if (item)
item->setSelected(true);
}
void oprof_start::read_set_events()
{
string name = get_config_filename(".oprofile/daemonrc");
ifstream in(name.c_str());
if (!in) {
setup_default_event();
return;
}
string str;
bool one_enabled = false;
while (getline(in, str)) {
string const val = split(str, '=');
string const name = str;
if (!is_prefix(name, "CHOSEN_EVENTS_"))
continue;
one_enabled = true;
// CHOSEN_EVENTS_#nr=CPU_CLK_UNHALTED:10000:0:1:1
vector<string> parts = separate_token(val, ':');
if (parts.size() != 5 && parts.size() != 2) {
cerr << "invalid configuration file\n";
// FIXME
exit(EXIT_FAILURE);
}
string ev_name = parts[0];
event_cfgs[ev_name].count =
op_lexical_cast<unsigned int>(parts[1]);
// CPU_CLK_UNHALTED:10000 is also valid
if (parts.size() == 5) {
event_cfgs[ev_name].umask =
op_lexical_cast<unsigned int>(parts[2]);
event_cfgs[ev_name].user_ring_count =
op_lexical_cast<unsigned int>(parts[3]);
event_cfgs[ev_name].os_ring_count =
op_lexical_cast<unsigned int>(parts[4]);
} else {
event_cfgs[ev_name].umask = 0;
event_cfgs[ev_name].user_ring_count = 1;
event_cfgs[ev_name].os_ring_count = 1;
}
QListViewItem * item = findItem(events_list, ev_name.c_str());
if (item)
item->setSelected(true);
}
// use default event if none set
if (!one_enabled)
setup_default_event();
}
void oprof_start::load_config_file()
{
string name = get_config_filename(".oprofile/daemonrc");
ifstream in(name.c_str());
if (!in) {
if (!check_and_create_config_dir())
return;
ofstream out(name.c_str());
if (!out) {
QMessageBox::warning(this, 0, "Unable to open configuration "
"file ~/.oprofile/daemonrc");
}
return;
}
in >> config;
}
// user request a "normal" exit so save the config file.
void oprof_start::accept()
{
// record the previous settings
record_selected_event_config();
save_config();
QDialog::accept();
}
void oprof_start::closeEvent(QCloseEvent *)
{
accept();
}
void oprof_start::timerEvent(QTimerEvent *)
{
static time_t last = time(0);
daemon_status dstat;
flush_profiler_data_btn->setEnabled(dstat.running);
stop_profiler_btn->setEnabled(dstat.running);
start_profiler_btn->setEnabled(!dstat.running);
reset_sample_files_btn->setEnabled(!dstat.running);
if (!dstat.running) {
daemon_label->setText("Profiler is not running.");
return;
}
ostringstream ss;
ss << "Profiler running:";
time_t curr = time(0);
total_nr_interrupts += dstat.nr_interrupts;
if (curr - last)
ss << " (" << dstat.nr_interrupts / (curr - last) << " interrupts / second, total " << total_nr_interrupts << ")";
daemon_label->setText(ss.str().c_str());
last = curr;
}
void oprof_start::fill_events_listbox()
{
setUpdatesEnabled(false);
for (vector<op_event_descr>::reverse_iterator cit = v_events.rbegin();
cit != v_events.rend(); ++cit) {
new QListViewItem(events_list, cit->name.c_str());
}
setUpdatesEnabled(true);
update();
}
void oprof_start::display_event(op_event_descr const & descr)
{
setUpdatesEnabled(false);
setup_unit_masks(descr);
os_ring_count_cb->setEnabled(true);
user_ring_count_cb->setEnabled(true);
event_count_edit->setEnabled(true);
event_setting & cfg = event_cfgs[descr.name];
os_ring_count_cb->setChecked(cfg.os_ring_count);
user_ring_count_cb->setChecked(cfg.user_ring_count);
QString count_text;
count_text.setNum(cfg.count);
event_count_edit->setText(count_text);
event_count_validator->setRange(descr.min_count, max_perf_count());
setUpdatesEnabled(true);
update();
}
bool oprof_start::is_selectable_event(QListViewItem * item)
{
if (item->isSelected())
return true;
selected_events.insert(item);
bool ret = false;
if (alloc_selected_events())
ret = true;
selected_events.erase(item);
return ret;
}
void oprof_start::draw_event_list()
{
QListViewItem * cur;
for (cur = events_list->firstChild(); cur; cur = cur->nextSibling()) {
if (is_selectable_event(cur))
cur->setPixmap(0, *green_pixmap);
else
cur->setPixmap(0, *red_pixmap);
}
}
bool oprof_start::alloc_selected_events() const
{
vector<op_event const *> events;
set<QListViewItem *>::const_iterator it;
for (it = selected_events.begin(); it != selected_events.end(); ++it)
events.push_back(find_event_by_name((*it)->text(0).latin1(),0,0));
size_t * map =
map_event_to_counter(&events[0], events.size(), cpu_type);
if (!map)
return false;
free(map);
return true;
}
void oprof_start::event_selected()
{
// The deal is simple: QT lack of a way to know what item was the last
// (de)selected item so we record a set of selected items and diff
// it in the appropriate way with the previous list of selected items.
set<QListViewItem *> current_selection;
QListViewItem * cur;
for (cur = events_list->firstChild(); cur; cur = cur->nextSibling()) {
if (cur->isSelected())
current_selection.insert(cur);
}
// First remove the deselected item.
vector<QListViewItem *> new_deselected;
set_difference(selected_events.begin(), selected_events.end(),
current_selection.begin(), current_selection.end(),
back_inserter(new_deselected));
vector<QListViewItem *>::const_iterator it;
for (it = new_deselected.begin(); it != new_deselected.end(); ++it)
selected_events.erase(*it);
// Now try to add the newly selected item if enough HW resource exists
vector<QListViewItem *> new_selected;
set_difference(current_selection.begin(), current_selection.end(),
selected_events.begin(), selected_events.end(),
back_inserter(new_selected));
for (it = new_selected.begin(); it != new_selected.end(); ++it) {
selected_events.insert(*it);
if (!alloc_selected_events()) {
(*it)->setSelected(false);
selected_events.erase(*it);
} else {
current_event = *it;
}
}
draw_event_list();
if (current_event)
display_event(locate_event(current_event->text(0).latin1()));
}
void oprof_start::event_over(QListViewItem * item)
{
op_event_descr const & descr = locate_event(item->text(0).latin1());
string help_str = descr.help_str.c_str();
if (!is_selectable_event(item)) {
help_str += " conflicts with:";
set<QListViewItem *>::const_iterator it;
for (it = selected_events.begin();
it != selected_events.end(); ) {
QListViewItem * temp = *it;
selected_events.erase(it++);
if (is_selectable_event(item)) {
help_str += " ";
help_str += temp->text(0).latin1();
}
selected_events.insert(temp);
}
}
event_help_label->setText(help_str.c_str());
}
/// select the kernel image filename
void oprof_start::choose_kernel_filename()
{
string name = kernel_filename_edit->text().latin1();
string result = do_open_file_or_dir(name, false);
if (!result.empty())
kernel_filename_edit->setText(result.c_str());
}
// this record the current selected event setting in the event_cfg[] stuff.
// FIXME: need validation?
void oprof_start::record_selected_event_config()
{
if (!current_event)
return;
string name(current_event->text(0).latin1());
event_setting & cfg = event_cfgs[name];
op_event_descr const & curr = locate_event(name);
cfg.count = event_count_edit->text().toUInt();
cfg.os_ring_count = os_ring_count_cb->isChecked();
cfg.user_ring_count = user_ring_count_cb->isChecked();
cfg.umask = get_unit_mask(curr);
}
// validate and save the configuration (The qt validator installed
// are not sufficient to do the validation)
bool oprof_start::record_config()
{
config.kernel_filename = kernel_filename_edit->text().latin1();
config.no_kernel = no_vmlinux->isChecked();
uint temp = buffer_size_edit->text().toUInt();
if (temp < OP_MIN_BUF_SIZE || temp > OP_MAX_BUF_SIZE) {
ostringstream error;
error << "buffer size out of range: " << temp
<< " valid range is [" << OP_MIN_BUF_SIZE << ", "
<< OP_MAX_BUF_SIZE << "]";
QMessageBox::warning(this, 0, error.str().c_str());
return false;
}
config.buffer_size = temp;
temp = buffer_watershed_edit->text().toUInt();
// watershed above half of buffer size make little sense.
if (temp > config.buffer_size / 2) {
ostringstream error;
error << "buffer watershed out of range: " << temp
<< " valid range is [0 (use default), buffer size/2] "
<< "generally 0.25 * buffer size is fine";
QMessageBox::warning(this, 0, error.str().c_str());
return false;
}
config.buffer_watershed = temp;
temp = cpu_buffer_size_edit->text().toUInt();
if ((temp != 0 && temp < OP_MIN_CPU_BUF_SIZE) ||
temp > OP_MAX_CPU_BUF_SIZE) {
ostringstream error;
error << "cpu buffer size out of range: " << temp
<< " valid range is [" << OP_MIN_CPU_BUF_SIZE << ", "
<< OP_MAX_CPU_BUF_SIZE << "] (size = 0: use default)";
QMessageBox::warning(this, 0, error.str().c_str());
return false;
}
config.cpu_buffer_size = temp;
temp = note_table_size_edit->text().toUInt();
if (temp < OP_MIN_NOTE_TABLE_SIZE || temp > OP_MAX_NOTE_TABLE_SIZE) {
ostringstream error;
error << "note table size out of range: " << temp
<< " valid range is [" << OP_MIN_NOTE_TABLE_SIZE << ", "
<< OP_MAX_NOTE_TABLE_SIZE << "]";
QMessageBox::warning(this, 0, error.str().c_str());
return false;
}
config.note_table_size = temp;
temp = callgraph_depth_edit->text().toUInt();
if (temp > INT_MAX) {
ostringstream error;
error << "callgraph depth out of range: " << temp
<< " valid range is [" << 0 << ", "
<< INT_MAX << "]";
QMessageBox::warning(this, 0, error.str().c_str());
return false;
}
config.callgraph_depth = temp;
config.verbose = verbose->isChecked();
config.separate_lib = separate_lib_cb->isChecked();
config.separate_kernel = separate_kernel_cb->isChecked();
config.separate_cpu = separate_cpu_cb->isChecked();
config.separate_thread = separate_thread_cb->isChecked();
return true;
}
void oprof_start::get_unit_mask_part(op_event_descr const & descr, uint num,
bool selected, uint & mask)
{
if (!selected)
return;
if (num >= descr.unit->num)
return;
if (descr.unit->unit_type_mask == utm_bitmask)
mask |= descr.unit->um[num].value;
else
mask = descr.unit->um[num].value;
}
// return the unit mask selected through the unit mask check box
uint oprof_start::get_unit_mask(op_event_descr const & descr)
{
uint mask = 0;
if (!descr.unit)
return 0;
// mandatory mask is transparent for user.
if (descr.unit->unit_type_mask == utm_mandatory) {
mask = descr.unit->default_mask;
return mask;
}
get_unit_mask_part(descr, 0, check0->isChecked(), mask);
get_unit_mask_part(descr, 1, check1->isChecked(), mask);
get_unit_mask_part(descr, 2, check2->isChecked(), mask);
get_unit_mask_part(descr, 3, check3->isChecked(), mask);
get_unit_mask_part(descr, 4, check4->isChecked(), mask);
get_unit_mask_part(descr, 5, check5->isChecked(), mask);
get_unit_mask_part(descr, 6, check6->isChecked(), mask);
get_unit_mask_part(descr, 7, check7->isChecked(), mask);
get_unit_mask_part(descr, 8, check8->isChecked(), mask);
get_unit_mask_part(descr, 9, check9->isChecked(), mask);
get_unit_mask_part(descr, 10, check10->isChecked(), mask);
get_unit_mask_part(descr, 11, check11->isChecked(), mask);
get_unit_mask_part(descr, 12, check12->isChecked(), mask);
get_unit_mask_part(descr, 13, check13->isChecked(), mask);
get_unit_mask_part(descr, 14, check14->isChecked(), mask);
get_unit_mask_part(descr, 15, check15->isChecked(), mask);
return mask;
}
void oprof_start::hide_masks()
{
check0->hide();
check1->hide();
check2->hide();
check3->hide();
check4->hide();
check5->hide();
check6->hide();
check7->hide();
check8->hide();
check9->hide();
check10->hide();
check11->hide();
check12->hide();
check13->hide();
check14->hide();
check15->hide();
}
void oprof_start::setup_unit_masks(op_event_descr const & descr)
{
op_unit_mask const * um = descr.unit;
hide_masks();
if (!um || um->unit_type_mask == utm_mandatory)
return;
event_setting & cfg = event_cfgs[descr.name];
unit_mask_group->setExclusive(um->unit_type_mask == utm_exclusive);
for (size_t i = 0; i < um->num ; ++i) {
QCheckBox * check = 0;
switch (i) {
case 0: check = check0; break;
case 1: check = check1; break;
case 2: check = check2; break;
case 3: check = check3; break;
case 4: check = check4; break;
case 5: check = check5; break;
case 6: check = check6; break;
case 7: check = check7; break;
case 8: check = check8; break;
case 9: check = check9; break;
case 10: check = check10; break;
case 11: check = check11; break;
case 12: check = check12; break;
case 13: check = check13; break;
case 14: check = check14; break;
case 15: check = check15; break;
}
check->setText(um->um[i].desc);
if (um->unit_type_mask == utm_exclusive)
check->setChecked(cfg.umask == um->um[i].value);
else
check->setChecked(cfg.umask & um->um[i].value);
check->show();
}
unit_mask_group->setMinimumSize(unit_mask_group->sizeHint());
setup_config_tab->setMinimumSize(setup_config_tab->sizeHint());
}
uint oprof_start::max_perf_count() const
{
return cpu_type == CPU_RTC ? OP_MAX_RTC_COUNT : OP_MAX_PERF_COUNT;
}
void oprof_start::on_flush_profiler_data()
{
vector<string> args;
args.push_back("--dump");
if (daemon_status().running)
do_exec_command(OP_BINDIR "/opcontrol", args);
else
QMessageBox::warning(this, 0, "The profiler is not started.");
}
// user is happy of its setting.
void oprof_start::on_start_profiler()
{
// save the current settings
record_selected_event_config();
bool one_enable = false;
QListViewItem * cur;
for (cur = events_list->firstChild(); cur; cur = cur->nextSibling()) {
if (!cur->isSelected())
continue;
// the missing reference is intended: gcc 2.91.66 can compile
// "op_event_descr const & descr = ..." w/o a warning
op_event_descr const descr =
locate_event(cur->text(0).latin1());
event_setting & cfg = event_cfgs[cur->text(0).latin1()];
one_enable = true;
if (!cfg.os_ring_count && !cfg.user_ring_count) {
QMessageBox::warning(this, 0, "You must select to "
"profile at least one of user binaries/kernel");
return;
}
if (cfg.count < descr.min_count ||
cfg.count > max_perf_count()) {
ostringstream out;
out << "event " << descr.name << " count of range: "
<< cfg.count << " must be in [ "
<< descr.min_count << ", "
<< max_perf_count()
<< "]";
QMessageBox::warning(this, 0, out.str().c_str());
return;
}
if (descr.unit &&
descr.unit->unit_type_mask == utm_bitmask &&
cfg.umask == 0) {
ostringstream out;
out << "event " << descr.name << " invalid unit mask: "
<< cfg.umask << endl;
QMessageBox::warning(this, 0, out.str().c_str());
return;
}
}
if (one_enable == false && cpu_type != CPU_TIMER_INT) {
QMessageBox::warning(this, 0, "No counters enabled.\n");
return;
}
if (daemon_status().running) {
// gcc 2.91 work around
int user_choice = 0;
user_choice =
QMessageBox::warning(this, 0,
"Profiler already started:\n\n"
"stop and restart it?",
"&Restart", "&Cancel", 0, 0, 1);
if (user_choice == 1)
return;
// this flush profiler data also.
on_stop_profiler();
}
vector<string> args;
// save_config validate and setup the config
if (save_config()) {
// now actually start
args.push_back("--start");
if (config.verbose)
args.push_back("--verbose");
do_exec_command(OP_BINDIR "/opcontrol", args);
}
total_nr_interrupts = 0;
timerEvent(0);
}
bool oprof_start::save_config()
{
if (!record_config())
return false;
vector<string> args;
// saving config is done by running opcontrol --setup with appropriate
// setted parameters so we use the same config file as command line
// tools
args.push_back("--setup");
bool one_enabled = false;
vector<string> tmpargs;
tmpargs.push_back("--setup");
QListViewItem * cur;
for (cur = events_list->firstChild(); cur; cur = cur->nextSibling()) {
if (!cur->isSelected())
continue;
event_setting & cfg = event_cfgs[cur->text(0).latin1()];
op_event_descr const & descr =
locate_event(cur->text(0).latin1());
one_enabled = true;
string arg = "--event=" + descr.name;
arg += ":" + op_lexical_cast<string>(cfg.count);
arg += ":" + op_lexical_cast<string>(cfg.umask);
arg += ":" + op_lexical_cast<string>(cfg.os_ring_count);
arg += ":" + op_lexical_cast<string>(cfg.user_ring_count);
tmpargs.push_back(arg);
}
// only set counters if at least one is enabled
if (one_enabled)
args = tmpargs;
if (config.no_kernel) {
args.push_back("--no-vmlinux");
} else {
args.push_back("--vmlinux=" + config.kernel_filename);
}
args.push_back("--buffer-size=" +
op_lexical_cast<string>(config.buffer_size));
if (op_get_interface() == OP_INTERFACE_24) {
args.push_back("--note-table-size=" +
op_lexical_cast<string>(config.note_table_size));
} else {
args.push_back("--buffer-watershed=" +
op_lexical_cast<string>(config.buffer_watershed));
args.push_back("--cpu-buffer-size=" +
op_lexical_cast<string>(config.cpu_buffer_size));
if (op_file_readable("/dev/oprofile/backtrace_depth")) {
args.push_back("--callgraph=" +
op_lexical_cast<string>(config.callgraph_depth));
}
}
string sep = "--separate=";
if (config.separate_lib)
sep += "library,";
if (config.separate_kernel)
sep += "kernel,";
if (config.separate_cpu)
sep += "cpu,";
if (config.separate_thread)
sep += "thread,";
if (sep == "--separate=")
sep += "none";
args.push_back(sep);
// 2.95 work-around, it didn't like return !do_exec_command()
bool ret = !do_exec_command(OP_BINDIR "/opcontrol", args);
return ret;
}
// flush and stop the profiler if it was started.
void oprof_start::on_stop_profiler()
{
vector<string> args;
args.push_back("--shutdown");
if (daemon_status().running)
do_exec_command(OP_BINDIR "/opcontrol", args);
else
QMessageBox::warning(this, 0, "The profiler is already stopped.");
timerEvent(0);
}
void oprof_start::on_separate_kernel_cb_changed(int state)
{
if (state == 2)
separate_lib_cb->setChecked(true);
}
void oprof_start::on_reset_sample_files()
{
int ret = QMessageBox::warning(this, 0, "Are you sure you want to "
"reset your last profile session ?", "Yes", "No", 0, 0, 1);
if (!ret) {
vector<string> args;
args.push_back("--reset");
if (!do_exec_command(OP_BINDIR "/opcontrol", args))
// the next timer event will overwrite the message
daemon_label->setText("Last profile session reseted.");
else
QMessageBox::warning(this, 0,
"Can't reset profiling session.");
}
}
/// function object for matching against name
class event_name_eq {
string name_;
public:
explicit event_name_eq(string const & s) : name_(s) {}
bool operator()(op_event_descr const & d) const {
return d.name == name_;
}
};
// helper to retrieve an event descr through its name.
op_event_descr const & oprof_start::locate_event(string const & name) const
{
return *(find_if(v_events.begin(), v_events.end(), event_name_eq(name)));
}