/* Original work Copyright 2023 Dual Tachyon * https://github.com/DualTachyon * * Modified work Copyright 2024 kamilsss655 * https://github.com/kamilsss655 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "app/dtmf.h" #ifdef ENABLE_FMRADIO #include "app/fm.h" #endif #include "board.h" #include "bsp/dp32g030/gpio.h" #include "bsp/dp32g030/portcon.h" #include "bsp/dp32g030/saradc.h" #include "bsp/dp32g030/syscon.h" #include "driver/adc.h" #include "driver/backlight.h" #ifdef ENABLE_FMRADIO #include "driver/bk1080.h" #endif #include "driver/bk4819.h" #include "driver/crc.h" #include "driver/eeprom.h" #include "driver/flash.h" #include "driver/gpio.h" #include "driver/system.h" #include "driver/st7565.h" #include "frequencies.h" #include "helper/battery.h" #include "misc.h" #include "settings.h" #if defined(ENABLE_OVERLAY) #include "sram-overlay.h" #endif #include "ui/menu.h" #include "ARMCM0.h" static const uint32_t gDefaultFrequencyTable[] = { 14500000, // 14550000, // 43300000, // 43320000, // 43350000 // }; #if defined(ENABLE_OVERLAY) void BOARD_FLASH_Init(void) { FLASH_Init(FLASH_READ_MODE_1_CYCLE); FLASH_ConfigureTrimValues(); SYSTEM_ConfigureClocks(); overlay_FLASH_MainClock = 48000000; overlay_FLASH_ClockMultiplier = 48; FLASH_Init(FLASH_READ_MODE_2_CYCLE); } #endif void BOARD_GPIO_Init(void) { GPIOA->DIR |= 0 // A7 = UART1 TX default as OUTPUT from bootloader! // A8 = UART1 RX default as INPUT from bootloader! // Key pad + I2C | GPIO_DIR_10_BITS_OUTPUT // Key pad + I2C | GPIO_DIR_11_BITS_OUTPUT // Key pad + Voice chip | GPIO_DIR_12_BITS_OUTPUT // Key pad + Voice chip | GPIO_DIR_13_BITS_OUTPUT ; GPIOA->DIR &= ~(0 // Key pad | GPIO_DIR_3_MASK // INPUT // Key pad | GPIO_DIR_4_MASK // INPUT // Key pad | GPIO_DIR_5_MASK // INPUT // Key pad | GPIO_DIR_6_MASK // INPUT ); GPIOB->DIR |= 0 // ST7565 | GPIO_DIR_9_BITS_OUTPUT // ST7565 + SWD IO | GPIO_DIR_11_BITS_OUTPUT // B14 = SWD_CLK assumed INPUT by default // BK1080 | GPIO_DIR_15_BITS_OUTPUT ; GPIOC->DIR |= 0 // BK4819 SCN | GPIO_DIR_0_BITS_OUTPUT // BK4819 SCL | GPIO_DIR_1_BITS_OUTPUT // BK4819 SDA | GPIO_DIR_2_BITS_OUTPUT // Flash light | GPIO_DIR_3_BITS_OUTPUT // Speaker | GPIO_DIR_4_BITS_OUTPUT ; GPIOC->DIR &= ~(0 // PTT button | GPIO_DIR_5_MASK // INPUT ); #if defined(ENABLE_FMRADIO) GPIO_SetBit(&GPIOB->DATA, GPIOB_PIN_BK1080); #endif } void BOARD_PORTCON_Init(void) { // PORT A pin selection PORTCON_PORTA_SEL0 &= ~(0 // Key pad | PORTCON_PORTA_SEL0_A3_MASK // Key pad | PORTCON_PORTA_SEL0_A4_MASK // Key pad | PORTCON_PORTA_SEL0_A5_MASK // Key pad | PORTCON_PORTA_SEL0_A6_MASK ); PORTCON_PORTA_SEL0 |= 0 // Key pad | PORTCON_PORTA_SEL0_A3_BITS_GPIOA3 // Key pad | PORTCON_PORTA_SEL0_A4_BITS_GPIOA4 // Key pad | PORTCON_PORTA_SEL0_A5_BITS_GPIOA5 // Key pad | PORTCON_PORTA_SEL0_A6_BITS_GPIOA6 // UART1 TX, wasn't cleared in previous step / relying on default value! | PORTCON_PORTA_SEL0_A7_BITS_UART1_TX ; PORTCON_PORTA_SEL1 &= ~(0 // Key pad + I2C | PORTCON_PORTA_SEL1_A10_MASK // Key pad + I2C | PORTCON_PORTA_SEL1_A11_MASK // Key pad + Voice chip | PORTCON_PORTA_SEL1_A12_MASK // Key pad + Voice chip | PORTCON_PORTA_SEL1_A13_MASK ); PORTCON_PORTA_SEL1 |= 0 // UART1 RX, wasn't cleared in previous step / relying on default value! | PORTCON_PORTA_SEL1_A8_BITS_UART1_RX // Battery voltage, wasn't cleared in previous step / relying on default value! | PORTCON_PORTA_SEL1_A9_BITS_SARADC_CH4 // Key pad + I2C | PORTCON_PORTA_SEL1_A10_BITS_GPIOA10 // Key pad + I2C | PORTCON_PORTA_SEL1_A11_BITS_GPIOA11 // Key pad + Voice chip | PORTCON_PORTA_SEL1_A12_BITS_GPIOA12 // Key pad + Voice chip | PORTCON_PORTA_SEL1_A13_BITS_GPIOA13 // Battery Current, wasn't cleared in previous step / relying on default value! | PORTCON_PORTA_SEL1_A14_BITS_SARADC_CH9 ; // PORT B pin selection PORTCON_PORTB_SEL0 &= ~(0 // SPI0 SSN | PORTCON_PORTB_SEL0_B7_MASK ); PORTCON_PORTB_SEL0 |= 0 // SPI0 SSN | PORTCON_PORTB_SEL0_B7_BITS_SPI0_SSN ; PORTCON_PORTB_SEL1 &= ~(0 // ST7565 | PORTCON_PORTB_SEL1_B9_MASK // ST7565 + SWD IO | PORTCON_PORTB_SEL1_B11_MASK // SWD CLK | PORTCON_PORTB_SEL1_B14_MASK // BK1080 | PORTCON_PORTB_SEL1_B15_MASK ); PORTCON_PORTB_SEL1 |= 0 // SPI0 CLK, wasn't cleared in previous step / relying on default value! | PORTCON_PORTB_SEL1_B8_BITS_SPI0_CLK // ST7565 | PORTCON_PORTB_SEL1_B9_BITS_GPIOB9 // SPI0 MOSI, wasn't cleared in previous step / relying on default value! | PORTCON_PORTB_SEL1_B10_BITS_SPI0_MOSI #if defined(ENABLE_SWD) // SWD IO | PORTCON_PORTB_SEL1_B11_BITS_SWDIO // SWD CLK | PORTCON_PORTB_SEL1_B14_BITS_SWCLK #else // ST7565 | PORTCON_PORTB_SEL1_B11_BITS_GPIOB11 #endif ; // PORT C pin selection PORTCON_PORTC_SEL0 &= ~(0 // BK4819 SCN | PORTCON_PORTC_SEL0_C0_MASK // BK4819 SCL | PORTCON_PORTC_SEL0_C1_MASK // BK4819 SDA | PORTCON_PORTC_SEL0_C2_MASK // Flash light | PORTCON_PORTC_SEL0_C3_MASK // Speaker | PORTCON_PORTC_SEL0_C4_MASK // PTT button | PORTCON_PORTC_SEL0_C5_MASK ); // PORT A pin configuration PORTCON_PORTA_IE |= 0 // Keypad | PORTCON_PORTA_IE_A3_BITS_ENABLE // Keypad | PORTCON_PORTA_IE_A4_BITS_ENABLE // Keypad | PORTCON_PORTA_IE_A5_BITS_ENABLE // Keypad | PORTCON_PORTA_IE_A6_BITS_ENABLE // A7 = UART1 TX disabled by default // UART1 RX | PORTCON_PORTA_IE_A8_BITS_ENABLE ; PORTCON_PORTA_IE &= ~(0 // Keypad + I2C | PORTCON_PORTA_IE_A10_MASK // Keypad + I2C | PORTCON_PORTA_IE_A11_MASK // Keypad + Voice chip | PORTCON_PORTA_IE_A12_MASK // Keypad + Voice chip | PORTCON_PORTA_IE_A13_MASK ); PORTCON_PORTA_PU |= 0 // Keypad | PORTCON_PORTA_PU_A3_BITS_ENABLE // Keypad | PORTCON_PORTA_PU_A4_BITS_ENABLE // Keypad | PORTCON_PORTA_PU_A5_BITS_ENABLE // Keypad | PORTCON_PORTA_PU_A6_BITS_ENABLE ; PORTCON_PORTA_PU &= ~(0 // Keypad + I2C | PORTCON_PORTA_PU_A10_MASK // Keypad + I2C | PORTCON_PORTA_PU_A11_MASK // Keypad + Voice chip | PORTCON_PORTA_PU_A12_MASK // Keypad + Voice chip | PORTCON_PORTA_PU_A13_MASK ); PORTCON_PORTA_PD &= ~(0 // Keypad | PORTCON_PORTA_PD_A3_MASK // Keypad | PORTCON_PORTA_PD_A4_MASK // Keypad | PORTCON_PORTA_PD_A5_MASK // Keypad | PORTCON_PORTA_PD_A6_MASK // Keypad + I2C | PORTCON_PORTA_PD_A10_MASK // Keypad + I2C | PORTCON_PORTA_PD_A11_MASK // Keypad + Voice chip | PORTCON_PORTA_PD_A12_MASK // Keypad + Voice chip | PORTCON_PORTA_PD_A13_MASK ); PORTCON_PORTA_OD |= 0 // Keypad | PORTCON_PORTA_OD_A3_BITS_ENABLE // Keypad | PORTCON_PORTA_OD_A4_BITS_ENABLE // Keypad | PORTCON_PORTA_OD_A5_BITS_ENABLE // Keypad | PORTCON_PORTA_OD_A6_BITS_ENABLE ; PORTCON_PORTA_OD &= ~(0 // Keypad + I2C | PORTCON_PORTA_OD_A10_MASK // Keypad + I2C | PORTCON_PORTA_OD_A11_MASK // Keypad + Voice chip | PORTCON_PORTA_OD_A12_MASK // Keypad + Voice chip | PORTCON_PORTA_OD_A13_MASK ); // PORT B pin configuration PORTCON_PORTB_IE |= 0 | PORTCON_PORTB_IE_B14_BITS_ENABLE ; PORTCON_PORTB_IE &= ~(0 // Back light | PORTCON_PORTB_IE_B6_MASK // UART1 | PORTCON_PORTB_IE_B7_MASK | PORTCON_PORTB_IE_B8_MASK // ST7565 | PORTCON_PORTB_IE_B9_MASK // SPI0 MOSI | PORTCON_PORTB_IE_B10_MASK #if !defined(ENABLE_SWD) // ST7565 | PORTCON_PORTB_IE_B11_MASK #endif // BK1080 | PORTCON_PORTB_IE_B15_MASK ); PORTCON_PORTB_PU &= ~(0 // Back light | PORTCON_PORTB_PU_B6_MASK // ST7565 | PORTCON_PORTB_PU_B9_MASK // ST7565 + SWD IO | PORTCON_PORTB_PU_B11_MASK // SWD CLK | PORTCON_PORTB_PU_B14_MASK // BK1080 | PORTCON_PORTB_PU_B15_MASK ); PORTCON_PORTB_PD &= ~(0 // Back light | PORTCON_PORTB_PD_B6_MASK // ST7565 | PORTCON_PORTB_PD_B9_MASK // ST7565 + SWD IO | PORTCON_PORTB_PD_B11_MASK // SWD CLK | PORTCON_PORTB_PD_B14_MASK // BK1080 | PORTCON_PORTB_PD_B15_MASK ); PORTCON_PORTB_OD &= ~(0 // Back light | PORTCON_PORTB_OD_B6_MASK // ST7565 | PORTCON_PORTB_OD_B9_MASK // ST7565 + SWD IO | PORTCON_PORTB_OD_B11_MASK // BK1080 | PORTCON_PORTB_OD_B15_MASK ); PORTCON_PORTB_OD |= 0 // SWD CLK | PORTCON_PORTB_OD_B14_BITS_ENABLE ; // PORT C pin configuration PORTCON_PORTC_IE |= 0 // PTT button | PORTCON_PORTC_IE_C5_BITS_ENABLE ; PORTCON_PORTC_IE &= ~(0 // BK4819 SCN | PORTCON_PORTC_IE_C0_MASK // BK4819 SCL | PORTCON_PORTC_IE_C1_MASK // BK4819 SDA | PORTCON_PORTC_IE_C2_MASK // Flash Light | PORTCON_PORTC_IE_C3_MASK // Speaker | PORTCON_PORTC_IE_C4_MASK ); PORTCON_PORTC_PU |= 0 // PTT button | PORTCON_PORTC_PU_C5_BITS_ENABLE ; PORTCON_PORTC_PU &= ~(0 // BK4819 SCN | PORTCON_PORTC_PU_C0_MASK // BK4819 SCL | PORTCON_PORTC_PU_C1_MASK // BK4819 SDA | PORTCON_PORTC_PU_C2_MASK // Flash Light | PORTCON_PORTC_PU_C3_MASK // Speaker | PORTCON_PORTC_PU_C4_MASK ); PORTCON_PORTC_PD &= ~(0 // BK4819 SCN | PORTCON_PORTC_PD_C0_MASK // BK4819 SCL | PORTCON_PORTC_PD_C1_MASK // BK4819 SDA | PORTCON_PORTC_PD_C2_MASK // Flash Light | PORTCON_PORTC_PD_C3_MASK // Speaker | PORTCON_PORTC_PD_C4_MASK // PTT Button | PORTCON_PORTC_PD_C5_MASK ); PORTCON_PORTC_OD &= ~(0 // BK4819 SCN | PORTCON_PORTC_OD_C0_MASK // BK4819 SCL | PORTCON_PORTC_OD_C1_MASK // BK4819 SDA | PORTCON_PORTC_OD_C2_MASK // Flash Light | PORTCON_PORTC_OD_C3_MASK // Speaker | PORTCON_PORTC_OD_C4_MASK ); PORTCON_PORTC_OD |= 0 // BK4819 SCN | PORTCON_PORTC_OD_C0_BITS_DISABLE // BK4819 SCL | PORTCON_PORTC_OD_C1_BITS_DISABLE // BK4819 SDA | PORTCON_PORTC_OD_C2_BITS_DISABLE // Flash Light | PORTCON_PORTC_OD_C3_BITS_DISABLE // Speaker | PORTCON_PORTC_OD_C4_BITS_DISABLE // PTT button | PORTCON_PORTC_OD_C5_BITS_ENABLE ; } void BOARD_ADC_Init(void) { ADC_Config_t Config; Config.CLK_SEL = SYSCON_CLK_SEL_W_SARADC_SMPL_VALUE_DIV2; Config.CH_SEL = ADC_CH4 | ADC_CH9; Config.AVG = SARADC_CFG_AVG_VALUE_8_SAMPLE; Config.CONT = SARADC_CFG_CONT_VALUE_SINGLE; Config.MEM_MODE = SARADC_CFG_MEM_MODE_VALUE_CHANNEL; Config.SMPL_CLK = SARADC_CFG_SMPL_CLK_VALUE_INTERNAL; Config.SMPL_WIN = SARADC_CFG_SMPL_WIN_VALUE_15_CYCLE; Config.SMPL_SETUP = SARADC_CFG_SMPL_SETUP_VALUE_1_CYCLE; Config.ADC_TRIG = SARADC_CFG_ADC_TRIG_VALUE_CPU; Config.CALIB_KD_VALID = SARADC_CALIB_KD_VALID_VALUE_YES; Config.CALIB_OFFSET_VALID = SARADC_CALIB_OFFSET_VALID_VALUE_YES; Config.DMA_EN = SARADC_CFG_DMA_EN_VALUE_DISABLE; Config.IE_CHx_EOC = SARADC_IE_CHx_EOC_VALUE_NONE; Config.IE_FIFO_FULL = SARADC_IE_FIFO_FULL_VALUE_DISABLE; Config.IE_FIFO_HFULL = SARADC_IE_FIFO_HFULL_VALUE_DISABLE; ADC_Configure(&Config); ADC_Enable(); ADC_SoftReset(); } void BOARD_ADC_GetBatteryInfo(uint16_t *pVoltage) { ADC_Start(); while (!ADC_CheckEndOfConversion(ADC_CH9)) {} *pVoltage = ADC_GetValue(ADC_CH4); } void BOARD_Init(void) { BOARD_PORTCON_Init(); BOARD_GPIO_Init(); BACKLIGHT_InitHardware(); BOARD_ADC_Init(); ST7565_Init(true); CRC_Init(); } void BOARD_EEPROM_Init(void) { unsigned int i; uint8_t Data[16]; memset(Data, 0, sizeof(Data)); // 0E70..0E77 EEPROM_ReadBuffer(0x0E70, Data, 8); gEeprom.CHAN_1_CALL = IS_MR_CHANNEL(Data[0]) ? Data[0] : MR_CHANNEL_FIRST; gEeprom.SQUELCH_LEVEL = (Data[1] < 10) ? Data[1] : 1; gEeprom.TX_TIMEOUT_TIMER = (Data[2] < 11) ? Data[2] : 1; #ifdef ENABLE_NOAA gEeprom.NOAA_AUTO_SCAN = (Data[3] < 2) ? Data[3] : false; #endif gEeprom.KEY_LOCK = (Data[4] < 2) ? Data[4] : false; #ifdef ENABLE_VOX gEeprom.VOX_SWITCH = (Data[5] < 2) ? Data[5] : false; gEeprom.VOX_LEVEL = (Data[6] < 10) ? Data[6] : 1; #endif gEeprom.MIC_SENSITIVITY = (Data[7] < 5) ? Data[7] : 4; // 0E78..0E7F EEPROM_ReadBuffer(0x0E78, Data, 8); gEeprom.BACKLIGHT_MAX = (Data[0] & 0xF) <= 10 ? (Data[0] & 0xF) : 10; gEeprom.BACKLIGHT_MIN = (Data[0] >> 4) < gEeprom.BACKLIGHT_MAX ? (Data[0] >> 4) : 0; #ifdef ENABLE_BLMIN_TMP_OFF gEeprom.BACKLIGHT_MIN_STAT = BLMIN_STAT_ON; #endif gEeprom.CHANNEL_DISPLAY_MODE = (Data[1] < 4) ? Data[1] : MDF_FREQUENCY; // 4 instead of 3 - extra display mode gEeprom.CROSS_BAND_RX_TX = (Data[2] < 3) ? Data[2] : CROSS_BAND_OFF; gEeprom.BATTERY_SAVE = (Data[3] < 5) ? Data[3] : 4; gEeprom.DUAL_WATCH = (Data[4] < 3) ? Data[4] : DUAL_WATCH_CHAN_A; gEeprom.BACKLIGHT_TIME = (Data[5] < ARRAY_SIZE(gSubMenu_BACKLIGHT)) ? Data[5] : 3; gEeprom.VFO_OPEN = (Data[7] < 2) ? Data[7] : true; // 0E80..0E87 EEPROM_ReadBuffer(0x0E80, Data, 8); gEeprom.ScreenChannel[0] = IS_VALID_CHANNEL(Data[0]) ? Data[0] : (FREQ_CHANNEL_FIRST + BAND6_400MHz); gEeprom.ScreenChannel[1] = IS_VALID_CHANNEL(Data[3]) ? Data[3] : (FREQ_CHANNEL_FIRST + BAND6_400MHz); gEeprom.MrChannel[0] = IS_MR_CHANNEL(Data[1]) ? Data[1] : MR_CHANNEL_FIRST; gEeprom.MrChannel[1] = IS_MR_CHANNEL(Data[4]) ? Data[4] : MR_CHANNEL_FIRST; gEeprom.FreqChannel[0] = IS_FREQ_CHANNEL(Data[2]) ? Data[2] : (FREQ_CHANNEL_FIRST + BAND6_400MHz); gEeprom.FreqChannel[1] = IS_FREQ_CHANNEL(Data[5]) ? Data[5] : (FREQ_CHANNEL_FIRST + BAND6_400MHz); #ifdef ENABLE_NOAA gEeprom.NoaaChannel[0] = IS_NOAA_CHANNEL(Data[6]) ? Data[6] : NOAA_CHANNEL_FIRST; gEeprom.NoaaChannel[1] = IS_NOAA_CHANNEL(Data[7]) ? Data[7] : NOAA_CHANNEL_FIRST; #endif #ifdef ENABLE_FMRADIO EEPROM_ReadBuffer(0x0E88, Data, 8); memmove(&gEeprom.FM_FrequencyPlaying, Data, 2); // validate that its within the supported range if(gEeprom.FM_FrequencyPlaying < FM_RADIO_MIN_FREQ || gEeprom.FM_FrequencyPlaying > FM_RADIO_MAX_FREQ) gEeprom.FM_FrequencyPlaying = FM_RADIO_MIN_FREQ; #endif // 0E90..0E97 EEPROM_ReadBuffer(0x0E90, Data, 8); gEeprom.BEEP_CONTROL = Data[0] & 1; gEeprom.KEY_M_LONG_PRESS_ACTION = ((Data[0] >> 1) < ACTION_OPT_LEN) ? (Data[0] >> 1) : ACTION_OPT_NONE; gEeprom.KEY_1_SHORT_PRESS_ACTION = (Data[1] < ACTION_OPT_LEN) ? Data[1] : ACTION_OPT_MONITOR; gEeprom.KEY_1_LONG_PRESS_ACTION = (Data[2] < ACTION_OPT_LEN) ? Data[2] : ACTION_OPT_FLASHLIGHT; gEeprom.KEY_2_SHORT_PRESS_ACTION = (Data[3] < ACTION_OPT_LEN) ? Data[3] : ACTION_OPT_SCAN; gEeprom.KEY_2_LONG_PRESS_ACTION = (Data[4] < ACTION_OPT_LEN) ? Data[4] : ACTION_OPT_NONE; gEeprom.SCAN_RESUME_MODE = (Data[5] < 3) ? Data[5] : SCAN_RESUME_CO; gEeprom.AUTO_KEYPAD_LOCK = (Data[6] < 2) ? Data[6] : false; gEeprom.POWER_ON_DISPLAY_MODE = (Data[7] < 4) ? Data[7] : POWER_ON_DISPLAY_MODE_VOLTAGE; // 0E98..0E9F #ifdef ENABLE_PWRON_PASSWORD EEPROM_ReadBuffer(0x0E98, Data, 8); memmove(&gEeprom.POWER_ON_PASSWORD, Data, 4); #endif // 0EA0..0EA7 EEPROM_ReadBuffer(0x0EA0, Data, 8); #ifdef ENABLE_VOX gEeprom.VOX_DELAY = (Data[0] < 11) ? Data[0] : 4; #endif gEeprom.RX_AGC = (Data[1] < RX_AGC_LEN) ? Data[1] : RX_AGC_SLOW; #ifdef ENABLE_PWRON_PASSWORD gEeprom.PASSWORD_WRONG_ATTEMPTS = (Data[2] > PASSWORD_MAX_RETRIES) ? PASSWORD_MAX_RETRIES : Data[2]; #endif #ifdef ENABLE_MESSENGER gEeprom.MESSENGER_CONFIG.__val = Data[3]; #endif // 0EA8..0EAF EEPROM_ReadBuffer(0x0EA8, Data, 8); #ifdef ENABLE_ALARM gEeprom.ALARM_MODE = (Data[0] < 2) ? Data[0] : true; #endif gEeprom.ROGER = (Data[1] < 3) ? Data[1] : ROGER_MODE_OFF; // Data[2] empty slot gEeprom.TX_VFO = (Data[3] < 2) ? Data[3] : 0; gEeprom.BATTERY_TYPE = (Data[4] < BATTERY_TYPE_UNKNOWN) ? Data[4] : BATTERY_TYPE_1600_MAH; gEeprom.SQL_TONE = (Data[5] < ARRAY_SIZE(CTCSS_Options)) ? Data[5] : 50; // 0ED0..0ED7 EEPROM_ReadBuffer(0x0ED0, Data, 8); gEeprom.DTMF_SIDE_TONE = (Data[0] < 2) ? Data[0] : true; #ifdef ENABLE_DTMF_CALLING gEeprom.DTMF_SEPARATE_CODE = DTMF_ValidateCodes((char *)(Data + 1), 1) ? Data[1] : '*'; gEeprom.DTMF_GROUP_CALL_CODE = DTMF_ValidateCodes((char *)(Data + 2), 1) ? Data[2] : '#'; gEeprom.DTMF_DECODE_RESPONSE = (Data[3] < 4) ? Data[3] : 0; gEeprom.DTMF_auto_reset_time = (Data[4] < 61) ? Data[4] : (Data[4] >= 5) ? Data[4] : 10; #endif gEeprom.DTMF_PRELOAD_TIME = (Data[5] < 101) ? Data[5] * 10 : 300; gEeprom.DTMF_FIRST_CODE_PERSIST_TIME = (Data[6] < 101) ? Data[6] * 10 : 100; gEeprom.DTMF_HASH_CODE_PERSIST_TIME = (Data[7] < 101) ? Data[7] * 10 : 100; // 0ED8..0EDF EEPROM_ReadBuffer(0x0ED8, Data, 8); gEeprom.DTMF_CODE_PERSIST_TIME = (Data[0] < 101) ? Data[0] * 10 : 100; gEeprom.DTMF_CODE_INTERVAL_TIME = (Data[1] < 101) ? Data[1] * 10 : 100; #ifdef ENABLE_DTMF_CALLING gEeprom.PERMIT_REMOTE_KILL = (Data[2] < 2) ? Data[2] : true; // 0EE0..0EE7 EEPROM_ReadBuffer(0x0EE0, Data, 8); if (DTMF_ValidateCodes((char *)Data, 8)) memmove(gEeprom.ANI_DTMF_ID, Data, 8); else { memset(gEeprom.ANI_DTMF_ID, 0, sizeof(gEeprom.ANI_DTMF_ID)); strcpy(gEeprom.ANI_DTMF_ID, "123"); } // 0EE8..0EEF EEPROM_ReadBuffer(0x0EE8, Data, 8); if (DTMF_ValidateCodes((char *)Data, 8)) memmove(gEeprom.KILL_CODE, Data, 8); else { memset(gEeprom.KILL_CODE, 0, sizeof(gEeprom.KILL_CODE)); strcpy(gEeprom.KILL_CODE, "ABCD9"); } // 0EF0..0EF7 EEPROM_ReadBuffer(0x0EF0, Data, 8); if (DTMF_ValidateCodes((char *)Data, 8)) memmove(gEeprom.REVIVE_CODE, Data, 8); else { memset(gEeprom.REVIVE_CODE, 0, sizeof(gEeprom.REVIVE_CODE)); strcpy(gEeprom.REVIVE_CODE, "9DCBA"); } #endif // 0EF8..0F07 EEPROM_ReadBuffer(0x0EF8, Data, 16); if (DTMF_ValidateCodes((char *)Data, 16)) memmove(gEeprom.DTMF_UP_CODE, Data, 16); else { memset(gEeprom.DTMF_UP_CODE, 0, sizeof(gEeprom.DTMF_UP_CODE)); strcpy(gEeprom.DTMF_UP_CODE, "12345"); } // 0F08..0F17 EEPROM_ReadBuffer(0x0F08, Data, 16); if (DTMF_ValidateCodes((char *)Data, 16)) memmove(gEeprom.DTMF_DOWN_CODE, Data, 16); else { memset(gEeprom.DTMF_DOWN_CODE, 0, sizeof(gEeprom.DTMF_DOWN_CODE)); strcpy(gEeprom.DTMF_DOWN_CODE, "54321"); } // 0F18..0F1F EEPROM_ReadBuffer(0x0F18, Data, 8); // gEeprom.SCAN_LIST_DEFAULT = (Data[0] < 2) ? Data[0] : false; gEeprom.SCAN_LIST_DEFAULT = (Data[0] < 3) ? Data[0] : false; // we now have 'all' channel scan option for (i = 0; i < 2; i++) { const unsigned int j = 1 + (i * 3); gEeprom.SCAN_LIST_ENABLED[i] = (Data[j + 0] < 2) ? Data[j] : false; gEeprom.SCANLIST_PRIORITY_CH1[i] = Data[j + 1]; gEeprom.SCANLIST_PRIORITY_CH2[i] = Data[j + 2]; } // 0F40..0F47 EEPROM_ReadBuffer(0x0F40, Data, 8); gSetting_F_LOCK = (Data[0] < F_LOCK_LEN) ? Data[0] : F_LOCK_DEF; gSetting_350TX = (Data[1] < 2) ? Data[1] : false; // was true #ifdef ENABLE_DTMF_CALLING gSetting_KILLED = (Data[2] < 2) ? Data[2] : false; #endif gSetting_200TX = (Data[3] < 2) ? Data[3] : false; gSetting_500TX = (Data[4] < 2) ? Data[4] : false; gSetting_350EN = (Data[5] < 2) ? Data[5] : true; gSetting_ScrambleEnable = (Data[6] < 2) ? Data[6] : true; //gSetting_TX_EN = (Data[7] & (1u << 0)) ? true : false; gSetting_live_DTMF_decoder = (Data[7] & (1u << 1)) ? true : false; gSetting_battery_text = (((Data[7] >> 2) & 3u) <= 2) ? (Data[7] >> 2) & 3 : 2; gSetting_backlight_on_tx_rx = (Data[7] >> 6) & 3u; // Read RxOffset setting EEPROM_ReadBuffer(RX_OFFSET_ADDR, Data, 4); memmove(&gEeprom.RX_OFFSET, Data, 4); // Make sure it inits with some sane value gEeprom.RX_OFFSET = gEeprom.RX_OFFSET > RX_OFFSET_MAX ? 0 : gEeprom.RX_OFFSET; if (!gEeprom.VFO_OPEN) { gEeprom.ScreenChannel[0] = gEeprom.MrChannel[0]; gEeprom.ScreenChannel[1] = gEeprom.MrChannel[1]; } // 0D60..0E27 EEPROM_ReadBuffer(0x0D60, gMR_ChannelAttributes, sizeof(gMR_ChannelAttributes)); for(uint16_t i = 0; i < sizeof(gMR_ChannelAttributes); i++) { ChannelAttributes_t *att = &gMR_ChannelAttributes[i]; if(att->__val == 0xff){ att->__val = 0; att->band = 0xf; } } #ifdef ENABLE_ENCRYPTION // 0F30..0F3F - load encryption key EEPROM_ReadBuffer(0x0F30, gEeprom.ENC_KEY, sizeof(gEeprom.ENC_KEY)); #endif #ifdef ENABLE_SPECTRUM_SHOW_CHANNEL_NAME BOARD_gMR_LoadChannels(); #endif } #ifdef ENABLE_SPECTRUM_SHOW_CHANNEL_NAME // Load channel frequencies, names into global memory lookup table void BOARD_gMR_LoadChannels() { uint8_t i; uint32_t freq_buf; for (i = MR_CHANNEL_FIRST; i <= MR_CHANNEL_LAST; i++) { freq_buf = BOARD_fetchChannelFrequency(i); gMR_ChannelFrequencyAttributes[i].Frequency = RX_freq_check(freq_buf) == -1 ? 0 : freq_buf; SETTINGS_FetchChannelName(gMR_ChannelFrequencyAttributes[i].Name, i); } } #endif void BOARD_EEPROM_LoadCalibration(void) { // uint8_t Mic; EEPROM_ReadBuffer(0x1EC0, gEEPROM_RSSI_CALIB[3], 8); memcpy(gEEPROM_RSSI_CALIB[4], gEEPROM_RSSI_CALIB[3], 8); memcpy(gEEPROM_RSSI_CALIB[5], gEEPROM_RSSI_CALIB[3], 8); memcpy(gEEPROM_RSSI_CALIB[6], gEEPROM_RSSI_CALIB[3], 8); EEPROM_ReadBuffer(0x1EC8, gEEPROM_RSSI_CALIB[0], 8); memcpy(gEEPROM_RSSI_CALIB[1], gEEPROM_RSSI_CALIB[0], 8); memcpy(gEEPROM_RSSI_CALIB[2], gEEPROM_RSSI_CALIB[0], 8); EEPROM_ReadBuffer(0x1F40, gBatteryCalibration, 12); if (gBatteryCalibration[0] >= 5000) { gBatteryCalibration[0] = 1900; gBatteryCalibration[1] = 2000; } gBatteryCalibration[5] = 2300; #ifdef ENABLE_VOX // fixed and improved VOX sensitivity, based on calibration data gEeprom.VOX1_THRESHOLD = 205-(20*gEeprom.VOX_LEVEL); gEeprom.VOX0_THRESHOLD = 215-(20*gEeprom.VOX_LEVEL); #endif //EEPROM_ReadBuffer(0x1F80 + gEeprom.MIC_SENSITIVITY, &Mic, 1); //gEeprom.MIC_SENSITIVITY_TUNING = (Mic < 32) ? Mic : 15; gEeprom.MIC_SENSITIVITY_TUNING = gMicGain_dB2[gEeprom.MIC_SENSITIVITY]; { struct { int16_t BK4819_XtalFreqLow; uint16_t EEPROM_1F8A; uint16_t EEPROM_1F8C; uint8_t VOLUME_GAIN; uint8_t DAC_GAIN; } __attribute__((packed)) Misc; // radio 1 .. 04 00 46 00 50 00 2C 0E // radio 2 .. 05 00 46 00 50 00 2C 0E EEPROM_ReadBuffer(0x1F88, &Misc, 8); gEeprom.BK4819_XTAL_FREQ_LOW = (Misc.BK4819_XtalFreqLow >= -1000 && Misc.BK4819_XtalFreqLow <= 1000) ? Misc.BK4819_XtalFreqLow : 0; gEEPROM_1F8A = Misc.EEPROM_1F8A & 0x01FF; gEEPROM_1F8C = Misc.EEPROM_1F8C & 0x01FF; gEeprom.VOLUME_GAIN = (Misc.VOLUME_GAIN < 64) ? Misc.VOLUME_GAIN : 58; gEeprom.DAC_GAIN = (Misc.DAC_GAIN < 16) ? Misc.DAC_GAIN : 8; BK4819_WriteRegister(BK4819_REG_3B, 22656 + gEeprom.BK4819_XTAL_FREQ_LOW); // BK4819_WriteRegister(BK4819_REG_3C, gEeprom.BK4819_XTAL_FREQ_HIGH); } } uint32_t BOARD_fetchChannelFrequency(const int channel) { struct { uint32_t frequency; uint32_t offset; } __attribute__((packed)) info; EEPROM_ReadBuffer(channel * 16, &info, sizeof(info)); return info.frequency; } #ifdef ENABLE_SPECTRUM_SHOW_CHANNEL_NAME int BOARD_gMR_fetchChannel(const uint32_t freq) { for (int i = MR_CHANNEL_FIRST; i <= MR_CHANNEL_LAST; i++) { if (gMR_ChannelFrequencyAttributes[i].Frequency == freq) return i; } // Return -1 if no channel found return -1; } #endif void BOARD_FactoryReset(bool bIsAll) { uint16_t i; uint8_t Template[8]; memset(Template, 0xFF, sizeof(Template)); for (i = 0x0C80; i < 0x1E00; i += 8) { if ( !(i >= 0x0EE0 && i < 0x0F18) && // ANI ID + DTMF codes !(i >= 0x0F30 && i < 0x0F50) && // ENCRYPTION KEY + F LOCK + Scramble Enable !(i >= 0x1C00 && i < 0x1E00) && // DTMF contacts !(i >= 0x0EB0 && i < 0x0ED0) && // Welcome strings !(i >= 0x0EA0 && i < 0x0EA8) && // Voice Prompt (bIsAll || ( !(i >= 0x0D60 && i < 0x0E28) && // MR Channel Attributes !(i >= 0x0F18 && i < 0x0F30) && // Scan List !(i >= 0x0F50 && i < 0x1C00) && // MR Channel Names !(i >= 0x0E40 && i < 0x0E70) && // FM Channels !(i >= 0x0E88 && i < 0x0E90) // FM settings )) ) { EEPROM_WriteBuffer(i, Template, true); } } if (bIsAll) { RADIO_InitInfo(gRxVfo, FREQ_CHANNEL_FIRST + BAND6_400MHz, 43350000); gEeprom.RX_OFFSET = 0; #ifdef ENABLE_PWRON_PASSWORD gEeprom.POWER_ON_PASSWORD = PASSWORD_OFF; gEeprom.PASSWORD_WRONG_ATTEMPTS = 0; #endif SETTINGS_SaveSettings(); // set the first few memory channels for (i = 0; i < ARRAY_SIZE(gDefaultFrequencyTable); i++) { const uint32_t Frequency = gDefaultFrequencyTable[i]; gRxVfo->freq_config_RX.Frequency = Frequency; gRxVfo->freq_config_TX.Frequency = Frequency; gRxVfo->Band = FREQUENCY_GetBand(Frequency); SETTINGS_SaveChannel(MR_CHANNEL_FIRST + i, 0, gRxVfo, 2); } // reboot device NVIC_SystemReset(); } }