/* Copyright 2023 Dual Tachyon * https://github.com/DualTachyon * * 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. */ #ifndef SETTINGS_H #define SETTINGS_H #include #include #include "frequencies.h" #include "radio.h" enum pwr_on_display_mode_e { PWR_ON_DISPLAY_MODE_FULL_SCREEN = 0, PWR_ON_DISPLAY_MODE_MESSAGE, PWR_ON_DISPLAY_MODE_VOLTAGE, PWR_ON_DISPLAY_MODE_NONE }; typedef enum pwr_on_display_mode_e pwr_on_display_mode_t; enum { FREQ_LOCK_NORMAL = 0, FREQ_LOCK_FCC, FREQ_LOCK_CE, FREQ_LOCK_GB, FREQ_LOCK_430, FREQ_LOCK_438, FREQ_LOCK_446, #ifdef ENABLE_TX_UNLOCK FREQ_LOCK_TX_UNLOCK, #endif FREQ_LOCK_LAST }; enum { SCAN_RESUME_TIME = 0, SCAN_RESUME_CARRIER, SCAN_RESUME_STOP }; enum { CROSS_BAND_OFF = 0, CROSS_BAND_CHAN_A, CROSS_BAND_CHAN_B }; enum { DUAL_WATCH_OFF = 0, DUAL_WATCH_CHAN_A, DUAL_WATCH_CHAN_B }; #define MAX_TX_OFFSET 100000000 enum { TX_OFFSET_FREQ_DIR_OFF = 0, TX_OFFSET_FREQ_DIR_ADD, TX_OFFSET_FREQ_DIR_SUB, TX_OFFSET_FREQ_DIR_LAST }; enum { OUTPUT_POWER_LOW = 0, OUTPUT_POWER_MID, OUTPUT_POWER_HIGH }; enum { ACTION_OPT_NONE = 0, ACTION_OPT_FLASHLIGHT, ACTION_OPT_POWER, ACTION_OPT_MONITOR, ACTION_OPT_SCAN, ACTION_OPT_VOX, ACTION_OPT_ALARM, ACTION_OPT_FM, ACTION_OPT_1750, ACTION_OPT_LEN }; #ifdef ENABLE_VOICE enum voice_prompt_e { VOICE_PROMPT_OFF = 0, VOICE_PROMPT_CHINESE, VOICE_PROMPT_ENGLISH }; typedef enum voice_prompt_e voice_prompt_t; #endif enum alarm_mode_e { ALARM_MODE_SITE = 0, ALARM_MODE_TONE }; typedef enum alarm_mode_e alarm_mode_t; enum roger_mode_e { ROGER_MODE_OFF = 0, ROGER_MODE_ROGER, ROGER_MODE_MDC }; typedef enum roger_mode_e roger_mode_t; enum mdf_display_mode_e { MDF_FREQUENCY = 0, MDF_CHANNEL, MDF_NAME, MDF_NAME_FREQ }; typedef enum mdf_display_mode_e mdf_display_mode_t; // ************************************************ // this is the full eeprom structure, both config and calibration areas // // am going to use this to replace ALL the currently scattered values // // this will also make AIRCOPY safe as we'll first save the incoming transfer // into this ram area. // Then, IF the transfer completes withput error, we'll copy it in one go to eeprom // if channel is used, all unused bits are '0's // if channel not used, all bytes are 0xff // // 16 bytes typedef struct { // [0] uint32_t frequency; // // [4] uint32_t tx_offset; // // [8] uint8_t rx_ctcss_cdcss_code; // // [9] uint8_t tx_ctcss_cdcss_code; // // [10] uint8_t rx_ctcss_cdcss_type:2; // uint8_t unused1:2; // uint8_t tx_ctcss_cdcss_type:2; // uint8_t unused2:2; // // [11] uint8_t tx_offset_dir:2; // #ifdef ENABLE_MDC1200 uint8_t mdc1200_mode:2; // #else uint8_t unused3:2; // #endif #if 0 uint8_t am_mode:1; // uint8_t unused4:3; // #else uint8_t am_mode:2; // uint8_t unused4:2; // #endif // [12] uint8_t frequency_reverse:1; // reverse repeater uint8_t channel_bandwidth:1; // wide/narrow uint8_t tx_power:2; // 0, 1 or 2 .. L, M or H uint8_t busy_channel_lock:1; // #if 0 // QS uint8_t unused5:3; // #else // 1of11 uint8_t unused5:1; // uint8_t compand:2; // 0 = off, 1 = TX, 2 = RX, 3 = TX/RX #endif // [13] uint8_t dtmf_decoding_enable:1; // uint8_t dtmf_ptt_id_tx_mode:3; // uint8_t unused6:4; // // [14] uint8_t step_setting; // // [15] uint8_t scrambler:4; // #if 0 // QS uint8_t unused7:4; // #else // 1of11 uint8_t squelch_level:4; // 0 ~ 9 per channel squelch, 0 = use main squelch level #endif } __attribute__((packed)) t_channel; // typedef struct { uint8_t band:4; // why do QS have these bits ? band can/is computed from the frequency uint8_t unused:2; // uint8_t scanlist2:1; // set if in scan list 2 uint8_t scanlist1:1; // set if in scan list 1 } __attribute__((packed)) t_channel_attr; // // 512 bytes typedef struct { // 0x1E00 struct { uint8_t open_rssi_thresh[10]; // uint8_t unused1[6]; // 0xff's uint8_t close_rssi_thresh[10]; // uint8_t unused2[6]; // 0xff's uint8_t open_noise_thresh[10]; // uint8_t unused3[6]; // 0xff's uint8_t close_noise_thresh[10]; // uint8_t unused4[6]; // 0xff's uint8_t open_glitch_thresh[10]; // uint8_t unused5[6]; // 0xff's uint8_t close_glitch_thresh[10]; // uint8_t unused6[6]; // 0xff's } __attribute__((packed)) squelch_band_4567[6]; // // 0x1E60 struct { uint8_t open_rssi_thresh[10]; // uint8_t unused1[6]; // 0xff's uint8_t close_rssi_thresh[10]; // uint8_t unused2[6]; // 0xff's uint8_t open_noise_thresh[10]; // uint8_t unused3[6]; // 0xff's uint8_t close_noise_thresh[10]; // uint8_t unused4[6]; // 0xff's uint8_t open_glitch_thresh[10]; // uint8_t unused5[6]; // 0xff's uint8_t close_glitch_thresh[10]; // uint8_t unused6[6]; // 0xff's } __attribute__((packed)) squelch_band_123[6]; // // 0x1EC0 uint16_t rssi_band_4567[4]; // RSSI bargraph thresholds .. (dBm + 160) * 2 uint16_t rssi_band_123[4]; // RSSI bargraph thresholds .. (dBm + 160) * 2 // 0x1ED0 struct { uint8_t low[3]; // uint8_t mid[3]; // uint8_t high[3]; // uint8_t unused[7]; // 0xff's } tx_band_power[7]; // // 0x1F40 uint16_t battery[6]; // uint8_t unused1[4]; // 0xff's // 0x1F50 struct { uint16_t threshold[10]; // uint8_t unused[4]; // 0xff's } __attribute__((packed)) vox[2]; // // 0x1F80 uint8_t mic_gain_dB2[5]; // uint8_t unused4[3]; // int16_t bk4819_xtal_freq_low; // uint16_t unknown2; // uint16_t unknown3; // uint8_t volume_gain; // uint8_t dac_gain; // uint8_t unused5[8 * 10]; // 0xff's } __attribute__((packed)) t_calibration; // user configuration typedef struct { // 0x0000 t_channel channel[200]; // unused channels are set to all '0xff' // 0x0C80 union { // 2 VFO's (upper/lower) per band, 7 frequency bands t_channel vfo[14]; // struct { // t_channel a; // t_channel b; // } __attribute__((packed)) vfo_band[7]; // } __attribute__((packed)); // // 0x0D60 t_channel_attr channel_attr[200]; // uint8_t unused1[8]; // 0xff's // 0x0E30 uint8_t unused2[16]; // 0xff's // 0x0E40 uint16_t fm_channel[20]; // uint8_t unused3[8]; // 0xff's // 0x0E70 uint8_t call1; // uint8_t squelch_level; // uint8_t tx_timeout; // uint8_t noaa_auto_scan; // uint8_t key_lock; // uint8_t vox_switch; // uint8_t vox_level; // uint8_t mic_sensitivity; // #ifdef ENABLE_CONTRAST uint8_t lcd_contrast; // 1of11 #else uint8_t unused4; // 0xff's #endif uint8_t channel_display_mode; // uint8_t cross_vfo; // uint8_t battery_save_ratio; // uint8_t dual_watch; // uint8_t backlight_time; // uint8_t tail_tone_elimination; // uint8_t vfo_open; // // 0x0E80 uint8_t screen_channel_a; // uint8_t channel_a; // uint8_t freq_channel_a; // uint8_t screen_channel_b; // uint8_t channel_b; // uint8_t freq_channel_b; // uint8_t noaa_channel_a; // uint8_t noaa_channel_b; // uint8_t fm_selected_frequency; // uint8_t fm_selected_channel; // uint8_t fm_channel_mode; // uint8_t unused5[5]; // 0xff's // 0x0E90 uint8_t beep_control; // uint8_t key1_short; // uint8_t key1_long; // uint8_t key2_short; // uint8_t key2_long; // uint8_t carrier_search_mode; // sc_rev; uint8_t auto_key_lock; // uint8_t display_mode; // uint32_t power_on_password; // #ifdef ENABLE_MDC1200 uint16_t mdc1200_id; // 1of11 uint8_t unused6[2]; // 0xff's #else uint8_t unused6[4]; // 0xff's #endif // 0x0EA0 uint8_t voice_prompt; // uint8_t unused7[7]; // 0xff's uint8_t alarm_mode; // uint8_t roger_mode; // uint8_t repeater_tail_tone_elimination; // rp_ste uint8_t tx_channel; // #ifdef ENABLE_AIRCOPY uint32_t air_copy_freq; // 1of11 #else uint8_t unused8[4]; // 0xff's #endif // 0x0EB0 char welcome_line1[16]; // char welcome_line2[16]; // // 0x0ED0 uint8_t dtmf_side_tone; // uint8_t dtmf_separate_code; // uint8_t dtmf_group_call_code; // uint8_t dtmf_rsp; // uint8_t dtmf_auto_reset_time; // uint8_t dtmf_preload_time; // uint8_t dtmf_first_code_time; // uint8_t dtmf_hash_code_time; // uint8_t dtmf_code_time; // uint8_t dtmf_code_interval; // uint8_t dtmf_permit_kill; // uint8_t unused9[5]; // 0xff's // 0x0EE0 uint8_t dtmf_ani_id[8]; // uint8_t dtmf_kill_code[8]; // uint8_t dtmf_revive_code[8]; // uint8_t dtmf_key_up_code[16]; // uint8_t dtmf_key_down_code[16]; // // 0x0F18 uint8_t s_list_default; // uint8_t priority1_enable; // uint8_t priority1_channel1; // uint8_t priority1_channel2; // uint8_t priority2_enable; // uint8_t priority2_channel1; // uint8_t priority2_channel2; // uint8_t unused10; // 0xff's // 0x0F20 uint8_t unused11[16]; // 0xff's // 0x0F30 uint8_t aes_key[16]; // disabled = all 0xff // 0x0F40 uint8_t freq_lock; // uint8_t enable_tx_350:1; // 1 = 350MHz ~ 400MHz TX is enabled uint8_t unused11a:7; // uint8_t radio_disabled:1; // 1 = radio is disabled uint8_t unused11b:7; // uint8_t enable_tx_200:1; // 1 = 174MHz ~ 350MHz TX enabled uint8_t unused11c:7; // uint8_t enable_tx_470:1; // 1 = >= 470MHz TX enabled uint8_t unused11d:7; // uint8_t enable_350:1; // 1 = 350HMz ~ 400MHz enabled uint8_t unused11e:7; // uint8_t enable_scrambler:1; // uint8_t enable_rssi_bar:1; // 1of11 uint8_t unused11f:6; // #if 0 // QS uint8_t unused12[9]; // 0xff's #else // 1of11 uint8_t tx_enable:1; // 0 = completely disable TX, 1 = allow TX uint8_t dtmf_live_decoder:1; // 1 = enable on-screen live DTMF decoder uint8_t battery_text:2; // 0 = no battery text, 1 = voltage, 2 = percent .. on the status bar uint8_t mic_bar:1; // 1 = on-screen TX audio level uint8_t am_fix:1; // 1 = enable RX AM fix uint8_t backlight_on_tx_rx:2; // 0 = no backlight when TX/RX, 1 = when TX, 2 = when RX, 3 = both RX/TX uint8_t scan_hold_time; // ticks we stay paused for on an RX'ed signal when scanning uint8_t unused12[7]; // 0xff's #endif // 0x0F50 struct { char name[10]; uint8_t unused[6]; // 0xff's } __attribute__((packed)) channel_name[200]; // 0x1BD0 uint8_t unused13[16 * 3]; // 0xff's .. free to use // 0x1C00 struct { char name[8]; uint8_t number[8]; } __attribute__((packed)) dtmf_contact[16]; } __attribute__((packed)) t_config; // entire eeprom typedef struct { // 0x0000 t_config config; // radios user config // 0x1D00 uint8_t unused14[256]; // does this belong to the config, or the calibration, or neither ? // 0x1E00 t_calibration calibration; // calibration settings .. we DO NOT pass this through aircopy, it's radio specific } __attribute__((packed)) t_eeprom; // 8192 bytes of eeprom // ************************************************ // this and all the other variables are going to be replaced with the above t_eeprom typedef struct { uint8_t screen_channel[2]; uint8_t freq_channel[2]; uint8_t user_channel[2]; #ifdef ENABLE_NOAA uint8_t noaa_channel[2]; #endif uint8_t rx_vfo; uint8_t tx_vfo; uint8_t field7_0xa; uint8_t field8_0xb; #ifdef ENABLE_FMRADIO uint16_t fm_selected_frequency; uint8_t fm_selected_channel; bool fm_channel_mode; uint16_t fm_frequency_playing; #endif uint8_t squelch_level; uint8_t tx_timeout_timer; #ifdef ENABLE_KEYLOCK bool key_lock; #endif bool vox_switch; uint8_t vox_level; #ifdef ENABLE_VOICE voice_prompt_t voice_prompt; #endif bool beep_control; uint8_t channel_display_mode; bool tail_note_elimination; bool vfo_open; uint8_t dual_watch; uint8_t cross_vfo_rx_tx; uint8_t battery_save; uint8_t backlight; uint8_t scan_resume_mode; uint8_t scan_list_default; bool scan_list_enabled[2]; uint8_t scan_list_priority_ch1[2]; uint8_t scan_list_priority_ch2[2]; #ifdef ENABLE_MDC1200 uint16_t mdc1200_id; #endif bool auto_keypad_lock; #if defined(ENABLE_ALARM) || defined(ENABLE_TX1750) alarm_mode_t alarm_mode; #endif pwr_on_display_mode_t pwr_on_display_mode; roger_mode_t roger_mode; uint8_t repeater_tail_tone_elimination; uint8_t key1_short_press_action; uint8_t key1_long_press_action; uint8_t key2_short_press_action; uint8_t key2_long_press_action; uint8_t mic_sensitivity; uint8_t mic_sensitivity_tuning; uint8_t chan_1_call; char ani_dtmf_id[8]; char kill_code[8]; char revive_code[8]; char dtmf_key_up_code[16]; char dtmf_key_down_code[16]; char dtmf_separate_code; char dtmf_group_call_code; uint8_t dtmf_decode_response; uint8_t dtmf_auto_reset_time; uint16_t dtmf_preload_time; uint16_t dtmf_first_code_persist_time; uint16_t dtmf_hash_code_persist_time; uint16_t dtmf_code_persist_time; uint16_t dtmf_code_interval_time; bool dtmf_side_tone; bool permit_remote_kill; int16_t BK4819_xtal_freq_low; #ifdef ENABLE_NOAA bool noaa_auto_scan; #endif uint8_t volume_gain; uint8_t dac_gain; vfo_info_t vfo_info[2]; uint32_t power_on_password; uint16_t vox1_threshold; uint16_t vox0_threshold; uint8_t scan_hold_time_500ms; // uint8_t field29_0x26; // uint8_t field30_0x27; // uint8_t field37_0x32; // uint8_t field38_0x33; // uint8_t field57_0x6c; // uint8_t field58_0x6d; // uint8_t field60_0x7e; // uint8_t field61_0x7f; // uint8_t field77_0x95; // uint8_t field78_0x96; // uint8_t field79_0x97; } eeprom_config_t; extern eeprom_config_t g_eeprom; #ifdef ENABLE_FMRADIO void SETTINGS_save_fm(void); #endif void SETTINGS_save_vfo_indices(void); //void SETTINGS_restore_calibration(void); void SETTINGS_save(void); void SETTINGS_save_channel(const unsigned int channel, const unsigned int vfo, const vfo_info_t *p_vfo, const unsigned int mode); void SETTINGS_save_chan_attribs_name(const unsigned int channel, const vfo_info_t *p_vfo); #endif