added images, calling all attack detection algos

This commit is contained in:
karthikmurakonda 2022-10-29 19:35:38 +05:30
parent 0a45563c3f
commit 313b97f39a
9 changed files with 254 additions and 134 deletions

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@ -495,7 +495,8 @@
<object class="GtkLabel" id="legend_label1">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="label" translatable="yes">&gt;6900V</property>
<property name="label" translatable="yes">&gt;65600V or
&lt; 65300</property>
</object>
<packing>
<property name="left-attach">1</property>
@ -530,8 +531,8 @@
<object class="GtkLabel">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="label" translatable="yes">&lt;6800V
&lt;6300V</property>
<property name="label" translatable="yes">&lt;65600V
&gt;65300V</property>
</object>
<packing>
<property name="left-attach">1</property>
@ -761,6 +762,7 @@
<object class="GtkLabel" id="legend_label3">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="label" translatable="yes">&gt; 0.5</property>
</object>
<packing>
<property name="left-attach">1</property>
@ -795,7 +797,7 @@
<object class="GtkLabel">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="label" translatable="yes">Normal</property>
<property name="label" translatable="yes">&lt; 0.5</property>
</object>
<packing>
<property name="left-attach">1</property>

View File

@ -326,7 +326,6 @@
<property name="can-focus">False</property>
<child>
<object class="GtkBox" id="mlad">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="orientation">vertical</property>
<child>
@ -592,6 +591,7 @@
</child>
<child>
<object class="GtkBox" id="mlfreq">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="orientation">vertical</property>
<child>
@ -629,7 +629,7 @@
<object class="GtkLabel" id="legend_label2">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="label" translatable="yes">Attack/Event</property>
<property name="label" translatable="yes">Deviation &gt; 0.5 mHz</property>
</object>
<packing>
<property name="left-attach">1</property>
@ -664,7 +664,7 @@
<object class="GtkLabel">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="label" translatable="yes">Normal</property>
<property name="label" translatable="yes">deviation &lt; 0.5mHz</property>
</object>
<packing>
<property name="left-attach">1</property>
@ -761,7 +761,6 @@
<object class="GtkLabel" id="legend_label3">
<property name="visible">True</property>
<property name="can-focus">False</property>
<property name="label" translatable="yes">Attack/Event</property>
</object>
<packing>
<property name="left-attach">1</property>

View File

@ -17,7 +17,9 @@ struct vis_data{
GdkColor color;
OsmGpsMapImage *last_image; // TODO:
GTimeVal last_update_time;
LiveChartSerie *serie;
LiveChartSerie *serie_vol;
LiveChartSerie *serie_freq;
LiveChartSerie *serie_dfreq;
struct vis_data *next;
};

View File

@ -42,7 +42,6 @@ struct _UtData
};
UtData *utdata;
LiveChartSerie *serie;
// global variables
int curr_measurement;

View File

@ -37,8 +37,6 @@ gboolean update_images(gpointer* pars){
//printf("map_vis A: %Lf, B: %Lf,C: %Lf\n",A,B,C);
//gboolean green = kmeans(df);
if (curr_measurement==0)
{
int i = 0, k = 0;
float freq,vol_magnitude,angle, dfreq;
unsigned char freq_fmt, anal_fmt, phas_fmt, polar_fmt;
@ -84,25 +82,6 @@ gboolean update_images(gpointer* pars){
float imaginary = to_intconvertor(last2bytes);
printf("vol = %f imag = %f\n",vol_magnitude, imaginary);
live_chart_serie_add(serie, freq);
// check lower layer details to get longitude and lattitude.
// pthread_mutex_lock(&mutex_Lower_Layer_Details);
// LLptr = LLfirst;
// match = 0;
// while(LLptr != NULL){
// printf("pmuid = %d\n",LLptr->pmuid);
// if(LLptr->pmuid == id){
// match = 1;
// lat = LLptr->latitude;
// lon = LLptr->longitude;
// printf("lat = %f; lon = %f\n",lat,lon);
// break;
// }
// LLptr = LLptr->next;
// }
// pthread_mutex_unlock(&mutex_Lower_Layer_Details);
vis_ptr = vis_data_head;
match = 0;
while(vis_ptr != NULL){
@ -115,23 +94,83 @@ gboolean update_images(gpointer* pars){
vis_ptr = vis_ptr->next;
}
lat = vis_ptr->lat;
lon = vis_ptr->lon;
live_chart_serie_add(vis_ptr->serie_freq, freq);
live_chart_serie_add(vis_ptr->serie_vol, vol_magnitude);
live_chart_serie_add(vis_ptr->serie_dfreq, dfreq);
if(match == 1 && cfg_match == 1){
printf("lat = %f, lon = %f, freq = %f\n",lat,lon,freq);
if(parameters->g_last_image != 0){
osm_gps_map_image_remove(parameters->util_map, parameters->g_last_image);
if(vis_ptr->last_image != 0){
osm_gps_map_image_remove(parameters->util_map, vis_ptr->last_image);
}
if (DTWvolDistance(df)){
parameters->g_last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
if(curr_measurement == 0){
if(vol_magnitude > 65600 || vol_magnitude < 65300){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map, lat, lon, parameters->g_red_image);
}else{
parameters->g_last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map, lat, lon, parameters->g_green_image);
}
}else if(curr_measurement == 1){
if (freq > 300){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
}else{
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
}
}else if(curr_measurement == 2){
if (dfreq < 0.5){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
}else{
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
}
}else if(curr_measurement == 3){
if(algorithm==0 && dimmension == 0){
if (!attack_detect_vol(df)){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
}else{
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
}
}else if (algorithm==0 && dimmension == 1){
if (!attack_detect_freq(df)){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
}else{
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
}
}else if (algorithm==0 && dimmension == 2){
if (!attack_detect_freq_vol(df)){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
}else{
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
}
}else if (algorithm==1 && dimmension == 0){
}else if (algorithm==1 && dimmension == 1){
}else if (algorithm==1 && dimmension == 2){
}else if (algorithm==2 && dimmension == 0){
if(!DTWvolDistance(df)){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
}else{
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
}
}else if (algorithm==2 && dimmension == 1){
if(!DTWfreqDistance(df)){
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_red_image);
}else{
vis_ptr->last_image = osm_gps_map_image_add(parameters->util_map,lat, lon, parameters->g_green_image);
}
}else if (algorithm==2 && dimmension == 2){
}
}
}
df = df->dnext;
// i++;
k++;
}
}
pthread_mutex_unlock(&mutex_on_TSB);
gtk_widget_queue_draw(GTK_WIDGET(parameters->util_map));

View File

@ -7,10 +7,14 @@
#include "livechart.h"
#include "connections.h"
// TODO: change this when in production
#define UI_fILE "./assets/utility_tools.ui"
#define RED_IMAGE "./assets/red.png"
#define GREEN_IMAGE "./assets/green.png"
#define YELLOW_IMAGE "./assets/yellow.png"
#define BLUE_IMAGE "./assets/blue.png"
#define GREY_IMAGE "./assets/grey.png"
#define PINK_IMAGE "./assets/pink.png"
// void change_image(OsmGpsMap *map, float lat, float lon, OsmGpsMapImage *image)
// {
@ -132,9 +136,16 @@ void on_voltage_clicked(GtkButton *but, gpointer udata)
curr_measurement = 0;
gtk_widget_show(utdata->ml_vol);
gtk_widget_show(utdata->graph_layoutvol);
gtk_widget_show(utdata->swvol);
gtk_widget_hide(utdata->ml_freq);
gtk_widget_hide(utdata->ml_dfreq);
gtk_widget_hide(utdata->ml_ad);
gtk_widget_hide(utdata->graph_layoutfreq);
gtk_widget_hide(utdata->graph_layoutdfreq);
gtk_widget_hide(utdata->swfreq);
gtk_widget_hide(utdata->swdfreq);
gtk_widget_hide(utdata->algorithm);
gtk_widget_hide(utdata->dimmension);
@ -153,9 +164,17 @@ void on_frequency_clicked(GtkButton *but, gpointer udata)
curr_measurement = 1;
gtk_widget_show(utdata->ml_freq);
gtk_widget_show(utdata->graph_layoutfreq);
gtk_widget_show(utdata->swfreq);
gtk_widget_hide(utdata->ml_vol);
gtk_widget_hide(utdata->ml_dfreq);
gtk_widget_hide(utdata->ml_ad);
gtk_widget_hide(utdata->swdfreq);
gtk_widget_hide(utdata->swvol);
gtk_widget_hide(utdata->graph_layoutdfreq);
gtk_widget_hide(utdata->graph_layoutvol);
gtk_widget_hide(utdata->algorithm);
gtk_widget_hide(utdata->dimmension);
@ -175,9 +194,16 @@ void on_dfreq_clicked(GtkButton *but, gpointer udata)
curr_measurement = 2;
gtk_widget_show(utdata->ml_dfreq);
gtk_widget_show(utdata->graph_layoutdfreq);
gtk_widget_show(utdata->swdfreq);
gtk_widget_hide(utdata->ml_vol);
gtk_widget_hide(utdata->ml_freq);
gtk_widget_hide(utdata->ml_ad);
gtk_widget_hide(utdata->graph_layoutfreq);
gtk_widget_hide(utdata->graph_layoutvol);
gtk_widget_hide(utdata->swvol);
gtk_widget_hide(utdata->swfreq);
gtk_widget_hide(utdata->algorithm);
@ -210,6 +236,12 @@ void on_attack_detection_clicked(GtkButton *but, gpointer udata)
gtk_widget_hide(utdata->ml_vol);
gtk_widget_hide(utdata->ml_freq);
gtk_widget_hide(utdata->ml_dfreq);
gtk_widget_hide(utdata->swvol);
gtk_widget_hide(utdata->swfreq);
gtk_widget_hide(utdata->swdfreq);
gtk_widget_hide(utdata->graph_layoutdfreq);
gtk_widget_hide(utdata->graph_layoutfreq);
gtk_widget_hide(utdata->graph_layoutvol);
printf("Attack Detection\n");
}
@ -234,6 +266,11 @@ void utility_tools(GtkButton *but, gpointer udata)
{
GdkPixbuf *g_red_image;
GdkPixbuf *g_green_image;
GdkPixbuf *g_yellow_image;
GdkPixbuf *g_blue_image;
GdkPixbuf *g_pink_image;
GdkPixbuf *g_grey_image;
OsmGpsMapImage *g_last_image;
// -------------------
GtkBuilder *builder;
@ -268,7 +305,6 @@ void utility_tools(GtkButton *but, gpointer udata)
utdata->swvol = GTK_WIDGET(gtk_builder_get_object(builder, "swvol"));
utdata->swfreq = GTK_WIDGET(gtk_builder_get_object(builder, "swfreq"));
utdata->swdfreq = GTK_WIDGET(gtk_builder_get_object(builder, "swdfreq"));
utdata->swad = GTK_WIDGET(gtk_builder_get_object(builder, "swad"));
gtk_widget_set_sensitive(utdata->voltage, FALSE);
gtk_widget_set_visible(utdata->algorithm, FALSE);
@ -287,6 +323,7 @@ void utility_tools(GtkButton *but, gpointer udata)
g_red_image = gdk_pixbuf_new_from_file_at_size(RED_IMAGE, 24, 24, NULL);
g_green_image = gdk_pixbuf_new_from_file_at_size(GREEN_IMAGE, 24, 24, NULL);
g_grey_image = gdk_pixbuf_new_from_file_at_size(GREY_IMAGE, 24, 24, NULL);
utdata->util_map = g_object_new(OSM_TYPE_GPS_MAP,
"map-source", OSM_GPS_MAP_SOURCE_OSMC_TRAILS,
@ -297,14 +334,14 @@ void utility_tools(GtkButton *but, gpointer udata)
osm_gps_map_set_center_and_zoom(utdata->util_map, 15.4589, 75.0078, 10);
// TODO: add the points to window.
g_last_image = osm_gps_map_image_add(utdata->util_map, 15.4589, 75.0078, g_red_image);
g_last_image = osm_gps_map_image_add(utdata->util_map, 15.518597, 74.925584, g_green_image);
// g_last_image = osm_gps_map_image_add(utdata->util_map, 15.4589, 75.0078, g_red_image);
// g_last_image = osm_gps_map_image_add(utdata->util_map, 15.518597, 74.925584, g_green_image);
curr_measurement = 0;
algorithm = 0;
dimmension = 0;
myParameters parameters = {utdata->util_map, g_red_image, g_green_image, g_last_image};
myParameters parameters = {utdata->util_map, g_red_image, g_green_image, g_grey_image, g_last_image};
gpointer data = (gpointer)&parameters;
gtk_widget_set_size_request(GTK_WIDGET(utdata->util_map), 600, 500);
@ -312,52 +349,93 @@ void utility_tools(GtkButton *but, gpointer udata)
gtk_container_add(utdata->map_layout, GTK_WIDGET(utdata->util_map));
// add live chart
serie = live_chart_serie_new("IIT", (LiveChartSerieRenderer*)live_chart_line_new(live_chart_values_new(10000)));
// live_chart set color to the serie
GdkRGBA color = getIndexColor(0);
live_chart_path_set_color(live_chart_serie_get_line(serie), &color);
// serie = live_chart_serie_new("IIT", (LiveChartSerieRenderer*)live_chart_line_new(live_chart_values_new(10000)));
// // live_chart set color to the serie
// GdkRGBA color = getIndexColor(0);
// live_chart_path_set_color(live_chart_serie_get_line(serie), &color);
// iterate over llptr and load the map_vis_head structure
// vis_data_head = (struct map_vis_head *)malloc(sizeof(struct vis_data));
LiveChartConfig *config_vol = live_chart_config_new();
live_chart_yaxis_set_unit(config_vol->y_axis, "V");
live_chart_xaxis_set_tick_interval(config_vol->x_axis, 20);
live_chart_xaxis_set_tick_length(config_vol->x_axis, 100);
live_chart_yaxis_update_bounds(config_vol->y_axis, 1);
live_chart_path_set_visible(config_vol->x_axis->lines, FALSE);
LiveChartChart *chart_vol = live_chart_chart_new(config_vol);
LiveChartConfig *config_freq = live_chart_config_new();
live_chart_yaxis_set_unit(config_freq->y_axis, "mHz");
live_chart_xaxis_set_tick_interval(config_freq->x_axis, 20);
live_chart_xaxis_set_tick_length(config_freq->x_axis, 100);
live_chart_yaxis_update_bounds(config_freq->y_axis, 1);
live_chart_path_set_visible(config_freq->x_axis->lines, FALSE);
LiveChartChart *chart_freq = live_chart_chart_new(config_freq);
LiveChartConfig *config_dfreq = live_chart_config_new();
live_chart_yaxis_set_unit(config_dfreq->y_axis, "mHz");
live_chart_xaxis_set_tick_interval(config_dfreq->x_axis, 20);
live_chart_xaxis_set_tick_length(config_dfreq->x_axis, 100);
live_chart_yaxis_update_bounds(config_dfreq->y_axis, 1);
live_chart_path_set_visible(config_dfreq->x_axis->lines, FALSE);
LiveChartChart *chart_dfreq = live_chart_chart_new(config_dfreq);
// live_chart_chart_add_serie(chart, serie);
struct Lower_Layer_Details *llptr = LLfirst;
struct vis_data * visptr = vis_data_head;
vis_data_head = (struct vis_data *)malloc(sizeof(struct vis_data));
struct vis_data * temp_visptr = vis_data_head;
int index = 0;
while (llptr != NULL)
{
visptr = (struct vis_data *)malloc(sizeof(struct vis_data));
visptr->id = llptr->pmuid;
visptr->lat = llptr->latitude;
visptr->lon = llptr->longitude;
visptr->last_image = osm_gps_map_image_add(utdata->util_map, llptr->latitude, llptr->longitude, g_red_image); // TODO: change the image
visptr->serie = live_chart_serie_new(llptr->ip, (LiveChartSerieRenderer*)live_chart_line_new(live_chart_values_new(10000)));
// live_chart set color to the serie
printf("\ncat\n");
temp_visptr->id = llptr->pmuid;
temp_visptr->lat = llptr->latitude;
temp_visptr->lon = llptr->longitude;
temp_visptr->last_image = osm_gps_map_image_add(utdata->util_map, llptr->latitude, llptr->longitude, g_grey_image); // TODO: change the image
temp_visptr->serie_freq = live_chart_serie_new(llptr->ip, (LiveChartSerieRenderer*)live_chart_line_new(live_chart_values_new(10000)));
GdkRGBA color = getIndexColor(index);
live_chart_path_set_color(live_chart_serie_get_line(visptr->serie), &color);
visptr->next = NULL;
visptr = visptr->next;
live_chart_path_set_color(live_chart_serie_get_line(temp_visptr->serie_freq), &color);
live_chart_chart_add_serie(chart_freq, temp_visptr->serie_freq);
temp_visptr->serie_vol = live_chart_serie_new(llptr->ip, (LiveChartSerieRenderer*)live_chart_line_new(live_chart_values_new(10000)));
live_chart_path_set_color(live_chart_serie_get_line(temp_visptr->serie_vol), &color);
live_chart_chart_add_serie(chart_vol, temp_visptr->serie_vol);
temp_visptr->serie_dfreq = live_chart_serie_new(llptr->ip, (LiveChartSerieRenderer*)live_chart_line_new(live_chart_values_new(10000)));
live_chart_path_set_color(live_chart_serie_get_line(temp_visptr->serie_dfreq), &color);
live_chart_chart_add_serie(chart_dfreq, temp_visptr->serie_dfreq);
temp_visptr->next = (struct vis_data *)malloc(sizeof(struct vis_data));
temp_visptr = temp_visptr->next;
index++;
llptr = llptr->next;
}
temp_visptr->next = NULL;
guint pid = g_timeout_add(20, (GSourceFunc)update_images, data);
LiveChartConfig *config = live_chart_config_new();
live_chart_yaxis_set_unit(config->y_axis, "mHz");
live_chart_xaxis_set_tick_interval(config->x_axis, 20);
live_chart_xaxis_set_tick_length(config->x_axis, 100);
live_chart_yaxis_update_bounds(config->y_axis, 1);
live_chart_path_set_visible(config->x_axis->lines, FALSE);
LiveChartChart *chart = live_chart_chart_new(config);
live_chart_chart_add_serie(chart, serie);
// gtk_widget_set_hexpand(GTK_WIDGET(chart), TRUE);
// gtk_widget_set_vexpand(GTK_WIDGET(chart), TRUE);
gtk_widget_set_size_request(GTK_WIDGET(chart), 600, 150);
gtk_widget_set_size_request(GTK_WIDGET(chart_freq), 600, 150);
gtk_widget_set_size_request(GTK_WIDGET(chart_vol), 600, 150);
gtk_widget_set_size_request(GTK_WIDGET(chart_dfreq), 600, 150);
gtk_container_add(utdata->graph_layoutvol, GTK_WIDGET(chart_vol));
gtk_container_add(utdata->graph_layoutfreq, GTK_WIDGET(chart_freq));
gtk_container_add(utdata->graph_layoutdfreq, GTK_WIDGET(chart_dfreq));
gtk_container_add(utdata->graph_layoutvol, GTK_WIDGET(chart));
@ -383,7 +461,8 @@ void utility_tools(GtkButton *but, gpointer udata)
gtk_widget_hide(utdata->ml_ad);
gtk_widget_hide(utdata->swfreq);
gtk_widget_hide(utdata->swdfreq);
gtk_widget_hide(utdata->swad);
gtk_widget_hide(utdata->graph_layoutdfreq);
gtk_widget_hide(utdata->graph_layoutfreq);
gtk_main();
}