/* 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.
 */

#ifndef RADIO_H
#define RADIO_H

#include <stdbool.h>
#include <stdint.h>

#include "dcs.h"
#include "frequencies.h"

enum {
	RADIO_CHANNEL_UP   = 0x01u,
	RADIO_CHANNEL_DOWN = 0xFFu,
};

enum {
  BANDWIDTH_WIDE = 0U,
  BANDWIDTH_NARROW = 1U,
  BANDWIDTH_NARROWAVIATION = 2U,
  BANDWIDTH_NARROWER = 3U,
  BANDWIDTH_NARROWEST = 4U
};

enum PTT_ID_t {
	PTT_ID_OFF = 0,    // OFF
	PTT_ID_TX_UP,      // BEGIN OF TX
	PTT_ID_TX_DOWN,    // END OF TX
	PTT_ID_BOTH,       // BOTH
	PTT_ID_APOLLO      // Apolo quindar tones
};
typedef enum PTT_ID_t PTT_ID_t;

enum VfoState_t
{
	VFO_STATE_NORMAL = 0,
	VFO_STATE_BUSY,
	VFO_STATE_BAT_LOW,
	VFO_STATE_TX_DISABLE,
	VFO_STATE_TIMEOUT,
	VFO_STATE_ALARM,
	VFO_STATE_VOLTAGE_HIGH
};
typedef enum VfoState_t VfoState_t;

typedef enum {
	MODULATION_FM,
	MODULATION_AM,
	MODULATION_USB,

#ifdef ENABLE_BYP_RAW_DEMODULATORS
	MODULATION_BYP,
	MODULATION_RAW,
#endif

	MODULATION_UKNOWN
} ModulationMode_t;

extern const char gModulationStr[MODULATION_UKNOWN][4];

extern const char *bwNames[5];

typedef struct
{
	uint32_t       Frequency;
	DCS_CodeType_t CodeType;
	uint8_t        Code;
	uint8_t        Padding[2];
} FREQ_Config_t;

typedef struct VFO_Info_t
{
	FREQ_Config_t  freq_config_RX;
	FREQ_Config_t  freq_config_TX;

	// this is for a purpose of the FrequencyReverse function
	// it points to freq_config_RX normally and to freq_config_TX if reverse function is active
	//
	FREQ_Config_t *pRX;

	// this is for a purpose of the FrequencyReverse function
	// it points to freq_config_TX normally and to freq_config_RX if reverse function is active
	FREQ_Config_t *pTX;

	uint32_t       TX_OFFSET_FREQUENCY;
	uint16_t       StepFrequency;

	uint8_t        CHANNEL_SAVE;

	uint8_t        TX_OFFSET_FREQUENCY_DIRECTION;

	uint8_t        SquelchOpenRSSIThresh;
	uint8_t        SquelchOpenNoiseThresh;
	uint8_t        SquelchCloseGlitchThresh;
	uint8_t        SquelchCloseRSSIThresh;
	uint8_t        SquelchCloseNoiseThresh;
	uint8_t        SquelchOpenGlitchThresh;

	STEP_Setting_t STEP_SETTING;
	uint8_t        OUTPUT_POWER;
	uint8_t        TXP_CalculatedSetting;
	bool           FrequencyReverse;

	uint8_t        SCRAMBLING_TYPE;
	uint8_t        CHANNEL_BANDWIDTH;

	uint8_t        SCANLIST1_PARTICIPATION;
	uint8_t        SCANLIST2_PARTICIPATION;

	uint8_t        Band;
#ifdef ENABLE_DTMF_CALLING
	uint8_t        DTMF_DECODING_ENABLE;
#endif
	PTT_ID_t       DTMF_PTT_ID_TX_MODE;

	uint8_t        BUSY_CHANNEL_LOCK;

	ModulationMode_t    Modulation;

	uint8_t        Compander;

	char           Name[16];
} VFO_Info_t;

// Settings of the main VFO that is selected by the user
// The pointer follows gEeprom.TX_VFO index
extern VFO_Info_t    *gTxVfo;

// Settings of the actual VFO that is now used for RX,
// It is being alternated by dual watch, and flipped by crossband
// The pointer follows gEeprom.RX_VFO
extern VFO_Info_t    *gRxVfo;

// Equal to gTxVfo unless dual watch changes it on incomming transmition (this can only happen when XB off and DW on)
extern VFO_Info_t    *gCurrentVfo;

extern DCS_CodeType_t gCurrentCodeType;

extern VfoState_t     VfoState[2];

// determines whether mic should be muted during TX (i.e during FSK modem TX)
extern bool           gMuteMic;

bool       RADIO_CheckValidChannel(uint16_t ChNum, bool bCheckScanList, uint8_t   RadioNum);
uint8_t    RADIO_FindNextChannel(uint8_t ChNum, int8_t Direction, bool bCheckScanList, uint8_t   RadioNum);
void       RADIO_InitInfo(VFO_Info_t *pInfo, const uint8_t ChannelSave, const uint32_t Frequency);
void       RADIO_ConfigureChannel(const unsigned int VFO, const unsigned int configure);
void       RADIO_ConfigureSquelchAndOutputPower(VFO_Info_t *pInfo);
void       RADIO_ApplyTxOffset(VFO_Info_t *pInfo);
void       RADIO_SelectVfos(void);
void       RADIO_SetupRegisters(bool bSwitchToFunction0);
#ifdef ENABLE_NOAA
	void   RADIO_ConfigureNOAA(void);
#endif
void       RADIO_SetTxParameters(void);
void       RADIO_SetModulation(ModulationMode_t modulation);
void       RADIO_SetVfoState(VfoState_t State);
VfoState_t RADIO_GetVfoState();
void       RADIO_PrepareTX(void);
void       RADIO_EnableCxCSS(void);
void       RADIO_PrepareCssTX(void);
void       RADIO_SendEndOfTransmission(bool playRoger);
#endif

#ifdef ENABLE_SPECTRUM_CHANNEL_SCAN
	uint8_t RADIO_ValidMemoryChannelsCount(bool bCheckScanList, uint8_t VFO);
#endif