/* 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. */ #include #include "misc.h" const uint32_t *gUpperLimitFrequencyBandTable; const uint32_t *gLowerLimitFrequencyBandTable; bool gSetting_350TX; bool gSetting_KILLED; bool gSetting_200TX; bool gSetting_500TX; bool gSetting_350EN; uint8_t gSetting_F_LOCK; bool gSetting_ScrambleEnable; const uint32_t gDefaultAesKey[4] = { 0x4AA5CC60, 0x0312CC5F, 0xFFD2DABB, 0x6BBA7F92, }; uint32_t gCustomAesKey[4]; bool bHasCustomAesKey; uint32_t gChallenge[4]; uint8_t gTryCount; uint8_t gEEPROM_1EC0_0[8]; uint8_t gEEPROM_1EC0_1[8]; uint8_t gEEPROM_1EC0_2[8]; uint8_t gEEPROM_1EC0_3[8]; uint16_t gEEPROM_RSSI_CALIB[3][4]; uint16_t gEEPROM_1F8A; uint16_t gEEPROM_1F8C; uint8_t gMR_ChannelAttributes[207]; volatile bool gNextTimeslice500ms; volatile uint16_t gBatterySaveCountdown = 1000; volatile uint16_t gDualWatchCountdown; volatile uint16_t gTxTimerCountdown; volatile uint16_t gTailNoteEliminationCountdown; volatile uint16_t gNOAA_Countdown; bool gEnableSpeaker; uint8_t gKeyLockCountdown; uint8_t gRTTECountdown; bool bIsInLockScreen; uint8_t gUpdateStatus; uint8_t gFoundCTCSS; uint8_t gFoundCDCSS; bool gEndOfRxDetectedMaybe; uint8_t gVFO_RSSI_Level[2]; uint8_t gReducedService; uint8_t gBatteryVoltageIndex; CssScanMode_t gCssScanMode; bool gUpdateRSSI; AlarmState_t gAlarmState; uint8_t gVoltageMenuCountdown; bool gPttWasReleased; bool gPttWasPressed; uint8_t gKeypadLocked; bool gFlagReconfigureVfos; uint8_t gVfoConfigureMode; bool gFlagResetVfos; bool gRequestSaveVFO; uint8_t gRequestSaveChannel; bool gRequestSaveSettings; bool gRequestSaveFM; bool gFlagPrepareTX; bool gFlagAcceptSetting; bool gFlagRefreshSetting; bool gFlagSaveVfo; bool gFlagSaveSettings; bool gFlagSaveChannel; bool gFlagSaveFM; uint8_t gDTMF_RequestPending; bool g_CDCSS_Lost; uint8_t gCDCSSCodeType; bool g_CTCSS_Lost; bool g_CxCSS_TAIL_Found; bool g_VOX_Lost; bool g_SquelchLost; uint8_t gFlashLightState; bool gVOX_NoiseDetected; uint16_t gVoxResumeCountdown; uint16_t gVoxPauseCountdown; volatile uint16_t gFlashLightBlinkCounter; bool gFlagEndTransmission; uint16_t gLowBatteryCountdown; uint8_t gNextMrChannel; ReceptionMode_t gRxReceptionMode; uint8_t gRestoreMrChannel; uint8_t gCurrentScanList; uint8_t gPreviousMrChannel; uint32_t gRestoreFrequency; uint8_t gRxVfoIsActive; uint8_t gAlarmToneCounter; uint16_t gAlarmRunningCounter; bool gKeyBeingHeld; bool gPttIsPressed; uint8_t gPttDebounceCounter; uint8_t gMenuListCount; uint8_t gBackupCROSS_BAND_RX_TX; uint8_t gScanDelay; uint8_t gAircopySendCountdown; uint8_t gFSKWriteIndex; uint8_t gNeverUsed; bool gIsNoaaMode; volatile bool gNextTimeslice; uint8_t gNoaaChannel; bool gUpdateDisplay; bool gF_LOCK; uint8_t gShowChPrefix; volatile uint16_t gSystickCountdown2; volatile uint8_t gFoundCDCSSCountdown; volatile uint8_t gFoundCTCSSCountdown; volatile uint16_t gVoxStopCountdown; volatile bool gTxTimeoutReached; volatile bool gNextTimeslice40ms; volatile bool gSchedulePowerSave; volatile bool gBatterySaveCountdownExpired; volatile bool gScheduleDualWatch = true; volatile bool gScheduleNOAA = true; volatile bool gFlagTteComplete; volatile bool gScheduleFM; uint16_t gCurrentRSSI; uint8_t gIsLocked = 0xFF; // -------- void NUMBER_Get(char *pDigits, uint32_t *pInteger) { uint32_t Value; uint32_t Multiplier; uint8_t i; Multiplier = 10000000; Value = 0; for (i = 0; i < 8; i++) { if (pDigits[i] > 9) { break; } Value += pDigits[i] * Multiplier; Multiplier /= 10U; } *pInteger = Value; } void NUMBER_ToDigits(uint32_t Value, char *pDigits) { uint8_t i; for (i = 0; i < 8; i++) { uint32_t Result = Value / 10U; pDigits[7 - i] = Value - (Result * 10U); Value = Result; } } uint8_t NUMBER_AddWithWraparound(uint8_t Base, int8_t Add, uint8_t LowerLimit, uint8_t UpperLimit) { Base += Add; if (Base == 0xFF || Base < LowerLimit) { return UpperLimit; } if (Base > UpperLimit) { return LowerLimit; } return Base; }