T-DeckLoader/.pio/libdeps/esp32s3box/GFX Library for Arduino/examples/WiFiAnalyzer/RTLWiFiAnalyzerUTF8/RTLWiFiAnalyzerUTF8.ino

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2024-06-09 05:14:09 +00:00
/*******************************************************************************
* Rtl WiFi Analyzer
* For RTL872x only.
*
* Add realtek ameba core support to Arduino IDE:
* https://github.com/ambiot/ambd_arduino
*
* Old patch realtek ameba core variant.cpp to RTL8720DN pinout:
* https://github.com/mikey60/BW16-RTL8720DN-Module-Arduino
*
* Defalult pin list for non display dev kit:
* RTL8720 BW16 old patch core : CS: 18, DC: 17, RST: 2, BL: 23
* RTL8720_BW16 Official core : CS: 9, DC: 8, RST: 6, BL: 3
* RTL8722 dev board : CS: 18, DC: 17, RST: 22, BL: 23
* RTL8722_mini dev board : CS: 12, DC: 14, RST: 15, BL: 13
******************************************************************************/
#define SCAN_INTERVAL 3000
#include <U8g2lib.h>
#include <Arduino_GFX_Library.h>
#define GFX_BL DF_GFX_BL // default backlight pin, you may replace DF_GFX_BL to actual backlight pin
/* More data bus class: https://github.com/moononournation/Arduino_GFX/wiki/Data-Bus-Class */
Arduino_DataBus *bus = create_default_Arduino_DataBus();
/* More display class: https://github.com/moononournation/Arduino_GFX/wiki/Display-Class */
Arduino_GFX *gfx = new Arduino_ILI9341(bus, DF_GFX_RST, 3 /* rotation */, false /* IPS */);
#include <lwip_netconf.h>
#include <wifi_conf.h>
#include <wifi_constants.h>
#include <wifi_structures.h>
#include <wl_definitions.h>
#include <wl_types.h>
int16_t w, h, text_size, banner_height, graph24_baseline, graph50_baseline, graph_baseline, graph_height, channel24_width, channel50_width, channel_width, signal_width;
// RSSI RANGE
#define RSSI_CEILING -40
#define RSSI_FLOOR -100
// Channel legend mapping
uint16_t channel_legend[] = {
1, 2, 3, 4, 5, 6, 7, // 1, 2, 3, 4, 5, 6, 7,
8, 9, 10, 11, 12, 13, 14, // 8, 9, 10, 11, 12, 13, 14,
32, 0, 0, 0, 40, 0, 0, // 32, 34, 36, 38, 40, 42, 44,
0, 48, 0, 0, 0, 56, 0, // 46, 48, 50, 52, 54, 56, 58,
0, 0, 64, 0, 0, 0, // 60, 62, 64, 68,N/A, 96,
100, 0, 0, 0, 108, 0, 0, //100,102,104,106,108,110,112,
0, 116, 0, 0, 0, 124, 0, //114,116,118,120,122,124,126,
0, 0, 132, 0, 0, 0, 140, //128,N/A,132,134,136,138,140,
0, 0, 0, 149, 0, 0, 0, //142,144,N/A,149,151,153,155,
157, 0, 0, 0, 165, 0, 0, //157,159,161,163,165,167,169,
0, 173}; //171,173
// Channel color mapping
uint16_t channel_color[] = {
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, WHITE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE, YELLOW, GREEN, CYAN, BLUE, MAGENTA,
RED, ORANGE};
uint16_t channelIdx(int channel)
{
if (channel <= 14) // 2.4 GHz, channel 1-14
{
return channel - 1;
}
if (channel <= 64) // 5 GHz, channel 32 - 64
{
return 14 + ((channel - 32) / 2);
}
if (channel == 68)
{
return 31;
}
if (channel == 96)
{
return 33;
}
if (channel <= 144) // channel 98 - 144
{
return 34 + ((channel - 100) / 2);
}
// channel 149 - 177
return 58 + ((channel - 149) / 2);
}
uint8_t _networkCount;
char _networkSsid[WL_NETWORKS_LIST_MAXNUM][WL_SSID_MAX_LENGTH];
int32_t _networkRssi[WL_NETWORKS_LIST_MAXNUM];
uint32_t _networkEncr[WL_NETWORKS_LIST_MAXNUM];
uint8_t _networkChannel[WL_NETWORKS_LIST_MAXNUM];
char _networkMac[WL_NETWORKS_LIST_MAXNUM][18];
rtw_result_t wifidrv_scan_result_handler(rtw_scan_handler_result_t *malloced_scan_result)
{
rtw_scan_result_t *record;
if (malloced_scan_result->scan_complete != RTW_TRUE)
{
record = &malloced_scan_result->ap_details;
record->SSID.val[record->SSID.len] = 0; /* Ensure the SSID is null terminated */
if (_networkCount < WL_NETWORKS_LIST_MAXNUM)
{
strcpy(_networkSsid[_networkCount], (char *)record->SSID.val);
_networkRssi[_networkCount] = record->signal_strength;
_networkEncr[_networkCount] = record->security;
_networkChannel[_networkCount] = record->channel;
sprintf(_networkMac[_networkCount], "%02X:%02X:%02X:%02X:%02X:%02X",
record->BSSID.octet[0], record->BSSID.octet[1], record->BSSID.octet[2],
record->BSSID.octet[3], record->BSSID.octet[4], record->BSSID.octet[5]);
_networkCount++;
}
}
return RTW_SUCCESS;
}
int8_t scanNetworks()
{
uint8_t attempts = 10;
_networkCount = 0;
if (wifi_scan_networks(wifidrv_scan_result_handler, NULL) != RTW_SUCCESS)
{
return WL_FAILURE;
}
do
{
delay(SCAN_INTERVAL);
} while ((_networkCount == 0) && (--attempts > 0));
return _networkCount;
}
void setup()
{
Serial.begin(115200);
// Serial.setDebugOutput(true);
// while(!Serial);
Serial.println("Arduino_GFX RTL WiFi Analyzer UTF8 example");
LwIP_Init();
wifi_on(RTW_MODE_STA);
#ifdef GFX_EXTRA_PRE_INIT
GFX_EXTRA_PRE_INIT();
#endif
#if defined(LCD_PWR_PIN)
pinMode(LCD_PWR_PIN, OUTPUT); // sets the pin as output
digitalWrite(LCD_PWR_PIN, HIGH); // power on
#endif
#ifdef GFX_BL
pinMode(GFX_BL, OUTPUT);
digitalWrite(GFX_BL, HIGH);
#endif
// Init Display
if (!gfx->begin())
{
Serial.println("gfx->begin() failed!");
}
gfx->setUTF8Print(true); // enable UTF8 support for the Arduino print() function
gfx->setFont(u8g2_font_unifont_t_chinese);
w = gfx->width();
h = gfx->height();
banner_height = 16;
graph_height = ((gfx->height() - banner_height) / 2) - (3 * 16);
graph24_baseline = banner_height + graph_height + 16;
graph50_baseline = graph24_baseline + graph_height + (3 * 16);
channel24_width = w / 17;
channel50_width = w / 62;
// direct draw banner to output display
gfx->fillScreen(BLACK);
gfx->setTextColor(GREEN);
gfx->setCursor(0, 14);
gfx->print("RTL");
gfx->setTextColor(WHITE);
gfx->print(" WiFi分析儀");
}
void loop()
{
uint8_t ap_count_list[] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
int32_t peak_list[] = {RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR, RSSI_FLOOR};
int16_t peak_id_list[] = {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1};
int32_t channel;
int16_t idx;
int32_t rssi;
String ssid;
uint16_t color;
int16_t height, offset, text_width;
int n = scanNetworks();
// clear old graph
gfx->fillRect(0, banner_height, w, h - banner_height, BLACK);
if (n == 0)
{
gfx->setTextColor(WHITE);
gfx->setCursor(0, banner_height + 14);
gfx->println("找不到WiFi");
}
else
{
for (int i = 0; i < n; i++)
{
channel = _networkChannel[i];
idx = channelIdx(channel);
rssi = _networkRssi[i];
// channel peak stat
if (peak_list[idx] < rssi)
{
peak_list[idx] = rssi;
peak_id_list[idx] = i;
}
ap_count_list[idx]++;
}
// plot found WiFi info
for (int i = 0; i < n; i++)
{
channel = _networkChannel[i];
idx = channelIdx(channel);
rssi = _networkRssi[i];
color = channel_color[idx];
height = constrain(map(rssi, RSSI_FLOOR, RSSI_CEILING, 1, graph_height), 1, graph_height);
if (idx < 14)
{
graph_baseline = graph24_baseline;
channel_width = channel24_width;
signal_width = channel24_width * 2;
offset = (idx + 2) * channel24_width;
}
else
{
graph_baseline = graph50_baseline;
channel_width = channel50_width;
signal_width = channel50_width * 2;
offset = (idx - 14 + 2) * channel50_width;
}
// trim rssi with RSSI_FLOOR
if (rssi < RSSI_FLOOR)
{
rssi = RSSI_FLOOR;
}
// plot chart
gfx->startWrite();
gfx->writeEllipseHelper(offset, graph_baseline + 1, signal_width, height, 0b0011, color);
gfx->endWrite();
if (i == peak_id_list[idx])
{
// Print SSID, signal strengh and if not encrypted
String ssid = _networkSsid[i];
if (ssid.length() == 0)
{
ssid = _networkMac[i];
}
text_width = (ssid.length() + 6) * 8;
if (text_width > w)
{
offset = 0;
}
else
{
offset -= signal_width;
if ((offset + text_width) > w)
{
offset = w - text_width;
}
}
gfx->setTextColor(color);
gfx->setCursor(offset, graph_baseline - height - 2);
gfx->print(ssid);
gfx->print('(');
gfx->print(rssi);
gfx->print(')');
if (_networkEncr[i] == RTW_SECURITY_OPEN)
{
gfx->print('*');
}
}
}
}
// draw 2.4 GHz graph base axle
gfx->drawFastHLine(0, graph24_baseline, 320, WHITE);
for (idx = 0; idx < 14; idx++)
{
channel = channel_legend[idx];
offset = (idx + 2) * channel24_width;
if (channel > 0)
{
gfx->setTextColor(channel_color[idx]);
gfx->setCursor(offset - ((channel < 10) ? 4 : 8), graph24_baseline + 14);
gfx->print(channel);
}
if (ap_count_list[idx] > 0)
{
gfx->setTextColor(LIGHTGREY);
gfx->setCursor(offset - ((ap_count_list[idx] < 10) ? 4 : 8), graph24_baseline + 16 + 14);
gfx->print(ap_count_list[idx]);
}
}
// draw 5 GHz graph base axle
gfx->drawFastHLine(0, graph50_baseline, 320, WHITE);
for (idx = 14; idx < 71; idx++)
{
channel = channel_legend[idx];
offset = (idx - 14 + 2) * channel50_width;
if (channel > 0)
{
gfx->setTextColor(channel_color[idx]);
gfx->setCursor(offset - ((channel < 100) ? 8 : 12), graph50_baseline + 14);
gfx->print(channel);
}
if (ap_count_list[idx] > 0)
{
gfx->setTextColor(DARKGREY);
gfx->setCursor(offset - ((ap_count_list[idx] < 10) ? 4 : 8), graph50_baseline + 16 + 14);
gfx->print(ap_count_list[idx]);
}
}
// Wait a bit before scanning again
delay(SCAN_INTERVAL);
}