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#include <config.h>
#include <glib/gi18n.h>
#include <glib.h>
#include <gtk/gtk.h>
#include <glibtop/proctime.h>
#include <glibtop/procstate.h>
#include <unistd.h>
#include <stddef.h>
#include <cstring>
#include "util.h"
#include "procman.h"
extern "C" {
#include "e_date.h"
}
static const char*
format_process_state(guint state)
{
const char *status;
switch (state)
{
case GLIBTOP_PROCESS_RUNNING:
status = _("Running");
break;
case GLIBTOP_PROCESS_STOPPED:
status = _("Stopped");
break;
case GLIBTOP_PROCESS_ZOMBIE:
status = _("Zombie");
break;
case GLIBTOP_PROCESS_UNINTERRUPTIBLE:
status = _("Uninterruptible");
break;
default:
status = _("Sleeping");
break;
}
return status;
}
static char *
mnemonic_safe_process_name(const char *process_name)
{
const char *p;
GString *name;
name = g_string_new ("");
for(p = process_name; *p; ++p)
{
g_string_append_c (name, *p);
if(*p == '_')
g_string_append_c (name, '_');
}
return g_string_free (name, FALSE);
}
static inline unsigned divide(unsigned *q, unsigned *r, unsigned d)
{
*q = *r / d;
*r = *r % d;
return *q != 0;
}
/*
* @param d: duration in centiseconds
* @type d: unsigned
*/
static char *
format_duration_for_display(unsigned centiseconds)
{
unsigned weeks = 0, days = 0, hours = 0, minutes = 0, seconds = 0;
(void)(divide(&seconds, ¢iseconds, 100)
&& divide(&minutes, &seconds, 60)
&& divide(&hours, &minutes, 60)
&& divide(&days, &hours, 24)
&& divide(&weeks, &days, 7));
if (weeks)
/* xgettext: weeks, days */
return g_strdup_printf(_("%uw%ud"), weeks, days);
if (days)
/* xgettext: days, hours (0 -> 23) */
return g_strdup_printf(_("%ud%02uh"), days, hours);
if (hours)
/* xgettext: hours (0 -> 23), minutes, seconds */
return g_strdup_printf(_("%u:%02u:%02u"), hours, minutes, seconds);
/* xgettext: minutes, seconds, centiseconds */
return g_strdup_printf(_("%u:%02u.%02u"), minutes, seconds, centiseconds);
}
GtkWidget*
procman_make_label_for_mmaps_or_ofiles(const char *format,
const char *process_name,
unsigned pid)
{
GtkWidget *label;
char *name, *title;
name = mnemonic_safe_process_name (process_name);
title = g_strdup_printf(format, name, pid);
label = gtk_label_new_with_mnemonic (title);
gtk_misc_set_alignment (GTK_MISC (label), 0.0f, 0.5f);
g_free (title);
g_free (name);
return label;
}
/**
* procman::format_size:
* @size:
*
* Formats the file size passed in @bytes in a way that is easy for
* the user to read. Gives the size in bytes, kibibytes, mebibytes or
* gibibytes, choosing whatever is appropriate.
*
* Returns: a newly allocated string with the size ready to be shown.
**/
gchar*
procman::format_size(guint64 size, guint64 max_size, bool want_bits)
{
enum {
K_INDEX,
M_INDEX,
G_INDEX,
T_INDEX
};
struct Format {
guint64 factor;
const char* string;
};
const Format all_formats[2][4] = {
{ { G_GUINT64_CONSTANT(1) << 10, N_("%.1f KiB") },
{ G_GUINT64_CONSTANT(1) << 20, N_("%.1f MiB") },
{ G_GUINT64_CONSTANT(1) << 30, N_("%.1f GiB") },
{ G_GUINT64_CONSTANT(1) << 40, N_("%.1f TiB") } },
{ { G_GUINT64_CONSTANT(1000), N_("%.1f kbit") },
{ G_GUINT64_CONSTANT(1000000), N_("%.1f Mbit") },
{ G_GUINT64_CONSTANT(1000000000), N_("%.1f Gbit") },
{ G_GUINT64_CONSTANT(1000000000000), N_("%.1f Tbit") } }
};
const Format (&formats)[4] = all_formats[want_bits ? 1 : 0];
if (want_bits) {
size *= 8;
max_size *= 8;
}
if (max_size == 0)
max_size = size;
if (max_size < formats[K_INDEX].factor) {
const char *format = (want_bits
? dngettext(GETTEXT_PACKAGE, "%u bit", "%u bits", (guint) size)
: dngettext(GETTEXT_PACKAGE, "%u byte", "%u bytes",(guint) size));
return g_strdup_printf (format, (guint) size);
} else {
guint64 factor;
const char* format = NULL;
if (max_size < formats[M_INDEX].factor) {
factor = formats[K_INDEX].factor;
format = formats[K_INDEX].string;
} else if (max_size < formats[G_INDEX].factor) {
factor = formats[M_INDEX].factor;
format = formats[M_INDEX].string;
} else if (max_size < formats[T_INDEX].factor) {
factor = formats[G_INDEX].factor;
format = formats[G_INDEX].string;
} else {
factor = formats[T_INDEX].factor;
format = formats[T_INDEX].string;
}
return g_strdup_printf(_(format), size / (double)factor);
}
}
gboolean
load_symbols(const char *module, ...)
{
GModule *mod;
gboolean found_all = TRUE;
va_list args;
mod = g_module_open(module, static_cast<GModuleFlags>(G_MODULE_BIND_LAZY | G_MODULE_BIND_LOCAL));
if (!mod)
return FALSE;
procman_debug("Found %s", module);
va_start(args, module);
while (1) {
const char *name;
void **symbol;
name = va_arg(args, char*);
if (!name)
break;
symbol = va_arg(args, void**);
if (g_module_symbol(mod, name, symbol)) {
procman_debug("Loaded %s from %s", name, module);
}
else {
procman_debug("Could not load %s from %s", name, module);
found_all = FALSE;
break;
}
}
va_end(args);
if (found_all)
g_module_make_resident(mod);
else
g_module_close(mod);
return found_all;
}
static gboolean
is_debug_enabled(void)
{
static gboolean init;
static gboolean enabled;
if (!init) {
enabled = g_getenv("MATE_SYSTEM_MONITOR_DEBUG") != NULL;
init = TRUE;
}
return enabled;
}
static double get_relative_time(void)
{
static unsigned long start_time;
GTimeVal tv;
if (G_UNLIKELY(!start_time)) {
glibtop_proc_time buf;
glibtop_get_proc_time(&buf, getpid());
start_time = buf.start_time;
}
g_get_current_time(&tv);
return (tv.tv_sec - start_time) + 1e-6 * tv.tv_usec;
}
void
procman_debug_real(const char *file, int line, const char *func,
const char *format, ...)
{
va_list args;
char *msg;
if (G_LIKELY(!is_debug_enabled()))
return;
va_start(args, format);
msg = g_strdup_vprintf(format, args);
va_end(args);
g_debug("[%.3f %s:%d %s] %s", get_relative_time(), file, line, func, msg);
g_free(msg);
}
namespace procman
{
void size_cell_data_func(GtkTreeViewColumn *, GtkCellRenderer *renderer,
GtkTreeModel *model, GtkTreeIter *iter,
gpointer user_data)
{
const guint index = GPOINTER_TO_UINT(user_data);
guint64 size;
GValue value = { 0 };
gtk_tree_model_get_value(model, iter, index, &value);
switch (G_VALUE_TYPE(&value)) {
case G_TYPE_ULONG:
size = g_value_get_ulong(&value);
break;
case G_TYPE_UINT64:
size = g_value_get_uint64(&value);
break;
default:
g_assert_not_reached();
}
g_value_unset(&value);
char *str = procman::format_size(size);
g_object_set(renderer, "text", str, NULL);
g_free(str);
}
/*
Same as above but handles size == 0 as not available
*/
void size_na_cell_data_func(GtkTreeViewColumn *, GtkCellRenderer *renderer,
GtkTreeModel *model, GtkTreeIter *iter,
gpointer user_data)
{
const guint index = GPOINTER_TO_UINT(user_data);
guint64 size;
GValue value = { 0 };
gtk_tree_model_get_value(model, iter, index, &value);
switch (G_VALUE_TYPE(&value)) {
case G_TYPE_ULONG:
size = g_value_get_ulong(&value);
break;
case G_TYPE_UINT64:
size = g_value_get_uint64(&value);
break;
default:
g_assert_not_reached();
}
g_value_unset(&value);
if (size == 0)
g_object_set(renderer, "markup", _("<i>N/A</i>"), NULL);
else {
char *str = procman::format_size(size);
g_object_set(renderer, "text", str, NULL);
g_free(str);
}
}
void duration_cell_data_func(GtkTreeViewColumn *, GtkCellRenderer *renderer,
GtkTreeModel *model, GtkTreeIter *iter,
gpointer user_data)
{
const guint index = GPOINTER_TO_UINT(user_data);
unsigned time;
GValue value = { 0 };
gtk_tree_model_get_value(model, iter, index, &value);
switch (G_VALUE_TYPE(&value)) {
case G_TYPE_ULONG:
time = g_value_get_ulong(&value);
break;
case G_TYPE_UINT64:
time = g_value_get_uint64(&value);
break;
default:
g_assert_not_reached();
}
g_value_unset(&value);
time = 100 * time / ProcData::get_instance()->frequency;
char *str = format_duration_for_display(time);
g_object_set(renderer, "text", str, NULL);
g_free(str);
}
void time_cell_data_func(GtkTreeViewColumn *, GtkCellRenderer *renderer,
GtkTreeModel *model, GtkTreeIter *iter,
gpointer user_data)
{
const guint index = GPOINTER_TO_UINT(user_data);
time_t time;
GValue value = { 0 };
gtk_tree_model_get_value(model, iter, index, &value);
switch (G_VALUE_TYPE(&value)) {
case G_TYPE_ULONG:
time = g_value_get_ulong(&value);
break;
default:
g_assert_not_reached();
}
g_value_unset(&value);
char *str = procman_format_date_for_display(time);
g_object_set(renderer, "text", str, NULL);
g_free(str);
}
void status_cell_data_func(GtkTreeViewColumn *, GtkCellRenderer *renderer,
GtkTreeModel *model, GtkTreeIter *iter,
gpointer user_data)
{
const guint index = GPOINTER_TO_UINT(user_data);
guint state;
GValue value = { 0 };
gtk_tree_model_get_value(model, iter, index, &value);
switch (G_VALUE_TYPE(&value)) {
case G_TYPE_UINT:
state = g_value_get_uint(&value);
break;
default:
g_assert_not_reached();
}
g_value_unset(&value);
const char *str = format_process_state(state);
g_object_set(renderer, "text", str, NULL);
}
template<>
void tree_store_update<const char>(GtkTreeModel* model, GtkTreeIter* iter, int column, const char* new_value)
{
char* current_value;
gtk_tree_model_get(model, iter, column, ¤t_value, -1);
if (!current_value or std::strcmp(current_value, new_value) != 0)
gtk_tree_store_set(GTK_TREE_STORE(model), iter, column, new_value, -1);
g_free(current_value);
}
std::string format_rate(guint64 rate, guint64 max_rate, bool want_bits)
{
char* bytes = procman::format_size(rate, max_rate, want_bits);
// xgettext: rate, 10MiB/s or 10Mbit/s
std::string formatted_rate(make_string(g_strdup_printf(_("%s/s"), bytes)));
g_free(bytes);
return formatted_rate;
}
std::string format_network(guint64 rate, guint64 max_rate)
{
char* bytes = procman::format_size(rate, max_rate, ProcData::get_instance()->config.network_in_bits);
std::string formatted(bytes);
g_free(bytes);
return formatted;
}
std::string format_network_rate(guint64 rate, guint64 max_rate)
{
char* bytes = procman::format_size(rate, max_rate, ProcData::get_instance()->config.network_in_bits);
std::string formatted(bytes);
g_free(bytes);
return formatted;
}
}
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