// Copyright (C) 2023, Mark Qvist // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with this program. If not, see . #include "Graphics.h" #include #include #include #include "Fonts/Org_01.h" #define DISP_W 128 #define DISP_H 64 #if BOARD_MODEL == BOARD_RNODE_NG_20 || BOARD_MODEL == BOARD_LORA32_V2_0 #define DISP_RST -1 #define DISP_ADDR 0x3C #elif BOARD_MODEL == BOARD_TBEAM #define DISP_RST 13 #define DISP_ADDR 0x3C #define DISP_CUSTOM_ADDR true #elif BOARD_MODEL == BOARD_HELTEC32_V2 || BOARD_MODEL == BOARD_LORA32_V1_0 #define DISP_RST 16 #define DISP_ADDR 0x3C #define SCL_OLED 15 #define SDA_OLED 4 #elif BOARD_MODEL == BOARD_HELTEC32_V3 #define DISP_RST 21 #define DISP_ADDR 0x3C #define SCL_OLED 18 #define SDA_OLED 17 #elif BOARD_MODEL == BOARD_RNODE_NG_21 #define DISP_RST -1 #define DISP_ADDR 0x3C #elif BOARD_MODEL == BOARD_RNODE_NG_22 #define DISP_RST 21 #define DISP_ADDR 0x3C #define SCL_OLED 17 #define SDA_OLED 18 #else #define DISP_RST -1 #define DISP_ADDR 0x3C #define DISP_CUSTOM_ADDR true #endif #define SMALL_FONT &Org_01 Adafruit_SSD1306 display(DISP_W, DISP_H, &Wire, DISP_RST); #define DISP_MODE_UNKNOWN 0x00 #define DISP_MODE_LANDSCAPE 0x01 #define DISP_MODE_PORTRAIT 0x02 #define DISP_PIN_SIZE 6 #define DISPLAY_BLANKING_TIMEOUT 15*1000 uint8_t disp_mode = DISP_MODE_UNKNOWN; uint8_t disp_ext_fb = false; unsigned char fb[512]; uint32_t last_disp_update = 0; uint32_t last_unblank_event = 0; uint32_t display_blanking_timeout = DISPLAY_BLANKING_TIMEOUT; uint8_t display_unblank_intensity = display_intensity; uint8_t disp_target_fps = 7; int disp_update_interval = 1000/disp_target_fps; uint32_t last_page_flip = 0; int page_interval = 4000; bool device_signatures_ok(); bool device_firmware_ok(); #define WATERFALL_SIZE 46 int waterfall[WATERFALL_SIZE]; int waterfall_head = 0; int p_ad_x = 0; int p_ad_y = 0; int p_as_x = 0; int p_as_y = 0; GFXcanvas1 stat_area(64, 64); GFXcanvas1 disp_area(64, 64); void update_area_positions() { if (disp_mode == DISP_MODE_PORTRAIT) { p_ad_x = 0; p_ad_y = 0; p_as_x = 0; p_as_y = 64; } else if (disp_mode == DISP_MODE_LANDSCAPE) { p_ad_x = 0; p_ad_y = 0; p_as_x = 64; p_as_y = 0; } } uint8_t display_contrast = 0x00; void set_contrast(Adafruit_SSD1306 *display, uint8_t contrast) { display->ssd1306_command(SSD1306_SETCONTRAST); display->ssd1306_command(contrast); } bool display_init() { #if HAS_DISPLAY #if BOARD_MODEL == BOARD_RNODE_NG_20 || BOARD_MODEL == BOARD_LORA32_V2_0 int pin_display_en = 16; digitalWrite(pin_display_en, LOW); delay(50); digitalWrite(pin_display_en, HIGH); #elif BOARD_MODEL == BOARD_RNODE_NG_22 Wire.begin(SDA_OLED, SCL_OLED); #elif BOARD_MODEL == BOARD_HELTEC32_V2 Wire.begin(SDA_OLED, SCL_OLED); #elif BOARD_MODEL == BOARD_HELTEC32_V3 // enable vext / pin 36 pinMode(Vext, OUTPUT); digitalWrite(Vext, LOW); delay(50); int pin_display_en = 21; pinMode(pin_display_en, OUTPUT); digitalWrite(pin_display_en, LOW); delay(50); digitalWrite(pin_display_en, HIGH); delay(50); Wire.begin(SDA_OLED, SCL_OLED); #elif BOARD_MODEL == BOARD_LORA32_V1_0 int pin_display_en = 16; digitalWrite(pin_display_en, LOW); delay(50); digitalWrite(pin_display_en, HIGH); Wire.begin(SDA_OLED, SCL_OLED); #endif #if DISP_CUSTOM_ADDR == true #if HAS_EEPROM uint8_t display_address = EEPROM.read(eeprom_addr(ADDR_CONF_DADR)); #elif MCU_VARIANT == MCU_NRF52 uint8_t display_address = eeprom_read(eeprom_addr(ADDR_CONF_DADR)); #endif if (display_address == 0xFF) display_address = DISP_ADDR; #else uint8_t display_address = DISP_ADDR; #endif #if HAS_EEPROM if (EEPROM.read(eeprom_addr(ADDR_CONF_BSET)) == CONF_OK_BYTE) { uint8_t db_timeout = EEPROM.read(eeprom_addr(ADDR_CONF_DBLK)); if (db_timeout == 0x00) { display_blanking_enabled = false; } else { display_blanking_enabled = true; display_blanking_timeout = db_timeout*1000; } } #endif if(!display.begin(SSD1306_SWITCHCAPVCC, display_address)) { return false; } else { set_contrast(&display, display_contrast); #if BOARD_MODEL == BOARD_RNODE_NG_20 disp_mode = DISP_MODE_PORTRAIT; display.setRotation(3); #elif BOARD_MODEL == BOARD_RNODE_NG_21 disp_mode = DISP_MODE_PORTRAIT; display.setRotation(3); #elif BOARD_MODEL == BOARD_LORA32_V1_0 disp_mode = DISP_MODE_PORTRAIT; display.setRotation(3); #elif BOARD_MODEL == BOARD_LORA32_V2_0 disp_mode = DISP_MODE_PORTRAIT; display.setRotation(3); #elif BOARD_MODEL == BOARD_LORA32_V2_1 disp_mode = DISP_MODE_LANDSCAPE; display.setRotation(0); #elif BOARD_MODEL == BOARD_TBEAM disp_mode = DISP_MODE_LANDSCAPE; display.setRotation(0); #elif BOARD_MODEL == BOARD_HELTEC32_V2 disp_mode = DISP_MODE_PORTRAIT; display.setRotation(1); #elif BOARD_MODEL == BOARD_HELTEC32_V3 disp_mode = DISP_MODE_PORTRAIT; // Antenna conx up display.setRotation(1); // USB-C up // display.setRotation(3); #else disp_mode = DISP_MODE_PORTRAIT; display.setRotation(3); #endif update_area_positions(); for (int i = 0; i < WATERFALL_SIZE; i++) { waterfall[i] = 0; } last_page_flip = millis(); stat_area.cp437(true); disp_area.cp437(true); display.cp437(true); #if HAS_EEPROM #if MCU_VARIANT != MCU_NRF52 display_intensity = EEPROM.read(eeprom_addr(ADDR_CONF_DINT)); #else display_intensity = eeprom_read(eeprom_addr(ADDR_CONF_DINT)); #endif #endif return true; } #else return false; #endif } void draw_cable_icon(int px, int py) { if (cable_state == CABLE_STATE_DISCONNECTED) { stat_area.drawBitmap(px, py, bm_cable+0*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } else if (cable_state == CABLE_STATE_CONNECTED) { stat_area.drawBitmap(px, py, bm_cable+1*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } } void draw_bt_icon(int px, int py) { if (bt_state == BT_STATE_OFF) { stat_area.drawBitmap(px, py, bm_bt+0*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } else if (bt_state == BT_STATE_ON) { stat_area.drawBitmap(px, py, bm_bt+1*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } else if (bt_state == BT_STATE_PAIRING) { stat_area.drawBitmap(px, py, bm_bt+2*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } else if (bt_state == BT_STATE_CONNECTED) { stat_area.drawBitmap(px, py, bm_bt+3*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } else { stat_area.drawBitmap(px, py, bm_bt+0*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } } void draw_lora_icon(int px, int py) { if (radio_online) { stat_area.drawBitmap(px, py, bm_rf+1*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } else { stat_area.drawBitmap(px, py, bm_rf+0*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } } void draw_mw_icon(int px, int py) { if (mw_radio_online) { stat_area.drawBitmap(px, py, bm_rf+3*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } else { stat_area.drawBitmap(px, py, bm_rf+2*32, 16, 16, SSD1306_WHITE, SSD1306_BLACK); } } uint8_t charge_tick = 0; void draw_battery_bars(int px, int py) { if (pmu_ready) { if (battery_ready) { if (battery_installed) { float battery_value = battery_percent; if (battery_state == BATTERY_STATE_CHARGING) { battery_value = charge_tick; charge_tick += 3; if (charge_tick > 100) charge_tick = 0; } if (battery_indeterminate && battery_state == BATTERY_STATE_CHARGING) { stat_area.fillRect(px-2, py-2, 18, 7, SSD1306_BLACK); stat_area.drawBitmap(px-2, py-2, bm_plug, 17, 7, SSD1306_WHITE, SSD1306_BLACK); } else { if (battery_state == BATTERY_STATE_CHARGED) { stat_area.fillRect(px-2, py-2, 18, 7, SSD1306_BLACK); stat_area.drawBitmap(px-2, py-2, bm_plug, 17, 7, SSD1306_WHITE, SSD1306_BLACK); } else { // stat_area.fillRect(px, py, 14, 3, SSD1306_BLACK); stat_area.fillRect(px-2, py-2, 18, 7, SSD1306_BLACK); stat_area.drawRect(px-2, py-2, 17, 7, SSD1306_WHITE); stat_area.drawLine(px+15, py, px+15, py+3, SSD1306_WHITE); if (battery_value > 7) stat_area.drawLine(px, py, px, py+2, SSD1306_WHITE); if (battery_value > 20) stat_area.drawLine(px+1*2, py, px+1*2, py+2, SSD1306_WHITE); if (battery_value > 33) stat_area.drawLine(px+2*2, py, px+2*2, py+2, SSD1306_WHITE); if (battery_value > 46) stat_area.drawLine(px+3*2, py, px+3*2, py+2, SSD1306_WHITE); if (battery_value > 59) stat_area.drawLine(px+4*2, py, px+4*2, py+2, SSD1306_WHITE); if (battery_value > 72) stat_area.drawLine(px+5*2, py, px+5*2, py+2, SSD1306_WHITE); if (battery_value > 85) stat_area.drawLine(px+6*2, py, px+6*2, py+2, SSD1306_WHITE); } } } else { stat_area.fillRect(px-2, py-2, 18, 7, SSD1306_BLACK); stat_area.drawBitmap(px-2, py-2, bm_plug, 17, 7, SSD1306_WHITE, SSD1306_BLACK); } } } else { stat_area.fillRect(px-2, py-2, 18, 7, SSD1306_BLACK); stat_area.drawBitmap(px-2, py-2, bm_plug, 17, 7, SSD1306_WHITE, SSD1306_BLACK); } } #define Q_SNR_STEP 2.0 #define Q_SNR_MIN_BASE -9.0 #define Q_SNR_MAX 6.0 void draw_quality_bars(int px, int py) { signed char t_snr = (signed int)last_snr_raw; int snr_int = (int)t_snr; float snr_min = Q_SNR_MIN_BASE-(int)lora_sf*Q_SNR_STEP; float snr_span = (Q_SNR_MAX-snr_min); float snr = ((int)snr_int) * 0.25; float quality = ((snr-snr_min)/(snr_span))*100; if (quality > 100.0) quality = 100.0; if (quality < 0.0) quality = 0.0; stat_area.fillRect(px, py, 13, 7, SSD1306_BLACK); // Serial.printf("Last SNR: %.2f\n, quality: %.2f\n", snr, quality); if (quality > 0) stat_area.drawLine(px+0*2, py+7, px+0*2, py+6, SSD1306_WHITE); if (quality > 15) stat_area.drawLine(px+1*2, py+7, px+1*2, py+5, SSD1306_WHITE); if (quality > 30) stat_area.drawLine(px+2*2, py+7, px+2*2, py+4, SSD1306_WHITE); if (quality > 45) stat_area.drawLine(px+3*2, py+7, px+3*2, py+3, SSD1306_WHITE); if (quality > 60) stat_area.drawLine(px+4*2, py+7, px+4*2, py+2, SSD1306_WHITE); if (quality > 75) stat_area.drawLine(px+5*2, py+7, px+5*2, py+1, SSD1306_WHITE); if (quality > 90) stat_area.drawLine(px+6*2, py+7, px+6*2, py+0, SSD1306_WHITE); } #define S_RSSI_MIN -135.0 #define S_RSSI_MAX -75.0 #define S_RSSI_SPAN (S_RSSI_MAX-S_RSSI_MIN) void draw_signal_bars(int px, int py) { int rssi_val = last_rssi; if (rssi_val < S_RSSI_MIN) rssi_val = S_RSSI_MIN; if (rssi_val > S_RSSI_MAX) rssi_val = S_RSSI_MAX; int signal = ((rssi_val - S_RSSI_MIN)*(1.0/S_RSSI_SPAN))*100.0; if (signal > 100.0) signal = 100.0; if (signal < 0.0) signal = 0.0; stat_area.fillRect(px, py, 13, 7, SSD1306_BLACK); // Serial.printf("Last SNR: %.2f\n, quality: %.2f\n", snr, quality); if (signal > 85) stat_area.drawLine(px+0*2, py+7, px+0*2, py+0, SSD1306_WHITE); if (signal > 72) stat_area.drawLine(px+1*2, py+7, px+1*2, py+1, SSD1306_WHITE); if (signal > 59) stat_area.drawLine(px+2*2, py+7, px+2*2, py+2, SSD1306_WHITE); if (signal > 46) stat_area.drawLine(px+3*2, py+7, px+3*2, py+3, SSD1306_WHITE); if (signal > 33) stat_area.drawLine(px+4*2, py+7, px+4*2, py+4, SSD1306_WHITE); if (signal > 20) stat_area.drawLine(px+5*2, py+7, px+5*2, py+5, SSD1306_WHITE); if (signal > 7) stat_area.drawLine(px+6*2, py+7, px+6*2, py+6, SSD1306_WHITE); } #define WF_RSSI_MAX -60 #define WF_RSSI_MIN -135 #define WF_RSSI_SPAN (WF_RSSI_MAX-WF_RSSI_MIN) #define WF_PIXEL_WIDTH 10 void draw_waterfall(int px, int py) { int rssi_val = current_rssi; if (rssi_val < WF_RSSI_MIN) rssi_val = WF_RSSI_MIN; if (rssi_val > WF_RSSI_MAX) rssi_val = WF_RSSI_MAX; int rssi_normalised = ((rssi_val - WF_RSSI_MIN)*(1.0/WF_RSSI_SPAN))*WF_PIXEL_WIDTH; waterfall[waterfall_head++] = rssi_normalised; if (waterfall_head >= WATERFALL_SIZE) waterfall_head = 0; stat_area.fillRect(px,py,WF_PIXEL_WIDTH, WATERFALL_SIZE, SSD1306_BLACK); for (int i = 0; i < WATERFALL_SIZE; i++){ int wi = (waterfall_head+i)%WATERFALL_SIZE; int ws = waterfall[wi]; if (ws > 0) { stat_area.drawLine(px, py+i, px+ws-1, py+i, SSD1306_WHITE); } } } bool stat_area_intialised = false; void draw_stat_area() { if (device_init_done) { if (!stat_area_intialised) { stat_area.drawBitmap(0, 0, bm_frame, 64, 64, SSD1306_WHITE, SSD1306_BLACK); stat_area_intialised = true; } draw_cable_icon(3, 8); draw_bt_icon(3, 30); draw_lora_icon(45, 8); draw_mw_icon(45, 30); draw_battery_bars(4, 58); if (radio_online) { draw_quality_bars(28, 56); draw_signal_bars(44, 56); draw_waterfall(27, 4); } } } void update_stat_area() { if (eeprom_ok && !firmware_update_mode && !console_active) { draw_stat_area(); if (disp_mode == DISP_MODE_PORTRAIT) { display.drawBitmap(p_as_x, p_as_y, stat_area.getBuffer(), stat_area.width(), stat_area.height(), SSD1306_WHITE, SSD1306_BLACK); } else if (disp_mode == DISP_MODE_LANDSCAPE) { display.drawBitmap(p_as_x+2, p_as_y, stat_area.getBuffer(), stat_area.width(), stat_area.height(), SSD1306_WHITE, SSD1306_BLACK); if (device_init_done && !disp_ext_fb) display.drawLine(p_as_x, 0, p_as_x, 64, SSD1306_WHITE); } } else { if (firmware_update_mode) { display.drawBitmap(p_as_x, p_as_y, bm_updating, stat_area.width(), stat_area.height(), SSD1306_BLACK, SSD1306_WHITE); } else if (console_active && device_init_done) { display.drawBitmap(p_as_x, p_as_y, bm_console, stat_area.width(), stat_area.height(), SSD1306_BLACK, SSD1306_WHITE); if (disp_mode == DISP_MODE_LANDSCAPE) { display.drawLine(p_as_x, 0, p_as_x, 64, SSD1306_WHITE); } } } } #define START_PAGE 0 const uint8_t pages = 3; uint8_t disp_page = START_PAGE; void draw_disp_area() { if (!device_init_done || firmware_update_mode) { uint8_t p_by = 37; if (disp_mode == DISP_MODE_LANDSCAPE || firmware_update_mode) { p_by = 18; disp_area.fillRect(0, 0, disp_area.width(), disp_area.height(), SSD1306_BLACK); } if (!device_init_done) disp_area.drawBitmap(0, p_by, bm_boot, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); if (firmware_update_mode) disp_area.drawBitmap(0, p_by, bm_fw_update, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } else { if (!disp_ext_fb or bt_ssp_pin != 0) { if (radio_online && display_diagnostics) { disp_area.fillRect(0,8,disp_area.width(),37, SSD1306_BLACK); disp_area.fillRect(0,37,disp_area.width(),27, SSD1306_WHITE); disp_area.setFont(SMALL_FONT); disp_area.setTextWrap(false); disp_area.setTextColor(SSD1306_WHITE); disp_area.setCursor(2, 13); disp_area.print("On"); disp_area.setCursor(14, 13); disp_area.print("@"); disp_area.setCursor(21, 13); disp_area.printf("%.1fKbps", (float)lora_bitrate/1000.0); //disp_area.setCursor(31, 23-1); disp_area.setCursor(2, 23-1); disp_area.print("Airtime:"); disp_area.setCursor(11, 33-1); if (total_channel_util < 0.099) { //disp_area.printf("%.1f%%", total_channel_util*100.0); disp_area.printf("%.1f%%", airtime*100.0); } else { //disp_area.printf("%.0f%%", total_channel_util*100.0); disp_area.printf("%.0f%%", airtime*100.0); } disp_area.drawBitmap(2, 26-1, bm_hg_low, 5, 9, SSD1306_WHITE, SSD1306_BLACK); disp_area.setCursor(32+11, 33-1); if (longterm_channel_util < 0.099) { //disp_area.printf("%.1f%%", longterm_channel_util*100.0); disp_area.printf("%.1f%%", longterm_airtime*100.0); } else { //disp_area.printf("%.0f%%", longterm_channel_util*100.0); disp_area.printf("%.0f%%", longterm_airtime*100.0); } disp_area.drawBitmap(32+2, 26-1, bm_hg_high, 5, 9, SSD1306_WHITE, SSD1306_BLACK); disp_area.setTextColor(SSD1306_BLACK); disp_area.setCursor(2, 46); disp_area.print("Channel"); disp_area.setCursor(38, 46); disp_area.print("Load:"); disp_area.setCursor(11, 57); if (total_channel_util < 0.099) { //disp_area.printf("%.1f%%", airtime*100.0); disp_area.printf("%.1f%%", total_channel_util*100.0); } else { //disp_area.printf("%.0f%%", airtime*100.0); disp_area.printf("%.0f%%", total_channel_util*100.0); } disp_area.drawBitmap(2, 50, bm_hg_low, 5, 9, SSD1306_BLACK, SSD1306_WHITE); disp_area.setCursor(32+11, 57); if (longterm_channel_util < 0.099) { //disp_area.printf("%.1f%%", longterm_airtime*100.0); disp_area.printf("%.1f%%", longterm_channel_util*100.0); } else { //disp_area.printf("%.0f%%", longterm_airtime*100.0); disp_area.printf("%.0f%%", longterm_channel_util*100.0); } disp_area.drawBitmap(32+2, 50, bm_hg_high, 5, 9, SSD1306_BLACK, SSD1306_WHITE); } else { if (device_signatures_ok()) { disp_area.drawBitmap(0, 0, bm_def_lc, disp_area.width(), 37, SSD1306_WHITE, SSD1306_BLACK); } else { disp_area.drawBitmap(0, 0, bm_def, disp_area.width(), 37, SSD1306_WHITE, SSD1306_BLACK); } } if (!hw_ready || radio_error || !device_firmware_ok()) { if (!device_firmware_ok()) { disp_area.drawBitmap(0, 37, bm_fw_corrupt, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } else { if (!modem_installed) { disp_area.drawBitmap(0, 37, bm_no_radio, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } else { disp_area.drawBitmap(0, 37, bm_hwfail, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } } } else if (bt_state == BT_STATE_PAIRING and bt_ssp_pin != 0) { char *pin_str = (char*)malloc(DISP_PIN_SIZE+1); sprintf(pin_str, "%06d", bt_ssp_pin); disp_area.drawBitmap(0, 37, bm_pairing, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); for (int i = 0; i < DISP_PIN_SIZE; i++) { uint8_t numeric = pin_str[i]-48; uint8_t offset = numeric*5; disp_area.drawBitmap(7+9*i, 37+16, bm_n_uh+offset, 8, 5, SSD1306_WHITE, SSD1306_BLACK); } free(pin_str); } else { if (millis()-last_page_flip >= page_interval) { disp_page = (++disp_page%pages); last_page_flip = millis(); if (not community_fw and disp_page == 0) disp_page = 1; } if (radio_online) { if (!display_diagnostics) { disp_area.drawBitmap(0, 37, bm_online, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } } else { if (disp_page == 0) { if (true || device_signatures_ok()) { disp_area.drawBitmap(0, 37, bm_checks, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } else { disp_area.drawBitmap(0, 37, bm_nfr, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } } else if (disp_page == 1) { if (!console_active) { disp_area.drawBitmap(0, 37, bm_hwok, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } else { disp_area.drawBitmap(0, 37, bm_console_active, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); } } else if (disp_page == 2) { disp_area.drawBitmap(0, 37, bm_version, disp_area.width(), 27, SSD1306_WHITE, SSD1306_BLACK); char *v_str = (char*)malloc(3+1); sprintf(v_str, "%01d%02d", MAJ_VERS, MIN_VERS); for (int i = 0; i < 3; i++) { uint8_t numeric = v_str[i]-48; uint8_t bm_offset = numeric*5; uint8_t dxp = 20; if (i == 1) dxp += 9*1+4; if (i == 2) dxp += 9*2+4; disp_area.drawBitmap(dxp, 37+16, bm_n_uh+bm_offset, 8, 5, SSD1306_WHITE, SSD1306_BLACK); } free(v_str); disp_area.drawLine(27, 37+19, 28, 37+19, SSD1306_BLACK); disp_area.drawLine(27, 37+20, 28, 37+20, SSD1306_BLACK); } } } } else { disp_area.drawBitmap(0, 0, fb, disp_area.width(), disp_area.height(), SSD1306_WHITE, SSD1306_BLACK); } } } void update_disp_area() { draw_disp_area(); display.drawBitmap(p_ad_x, p_ad_y, disp_area.getBuffer(), disp_area.width(), disp_area.height(), SSD1306_WHITE, SSD1306_BLACK); if (disp_mode == DISP_MODE_LANDSCAPE) { if (device_init_done && !firmware_update_mode && !disp_ext_fb) { display.drawLine(0, 0, 0, 63, SSD1306_WHITE); } } } void update_display(bool blank = false) { if (display_blanking_enabled && millis()-last_unblank_event >= display_blanking_timeout) { blank = true; if (display_intensity != 0) { display_unblank_intensity = display_intensity; } display_intensity = 0; } else { if (display_unblank_intensity != 0x00) { display_intensity = display_unblank_intensity; display_unblank_intensity = 0x00; } } if (blank) { if (millis()-last_disp_update >= disp_update_interval) { if (display_contrast != display_intensity) { display_contrast = display_intensity; set_contrast(&display, display_contrast); } display.clearDisplay(); display.display(); last_disp_update = millis(); } } else { if (millis()-last_disp_update >= disp_update_interval) { if (display_contrast != display_intensity) { display_contrast = display_intensity; set_contrast(&display, display_contrast); } display.clearDisplay(); update_stat_area(); update_disp_area(); display.display(); last_disp_update = millis(); } } } void display_unblank() { last_unblank_event = millis(); } void ext_fb_enable() { disp_ext_fb = true; } void ext_fb_disable() { disp_ext_fb = false; }