//------------------------------------------------------------------------ // // Model Railroading with Arduino - NmraDcc.h // // Copyright (c) 2008 - 2020 Alex Shepherd // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // //------------------------------------------------------------------------ // // file: NmraDcc.h // author: Alex Shepherd // webpage: http://mrrwa.org/ // history: 2008-03-20 Initial Version // 2011-06-26 Migrated into Arduino library from OpenDCC codebase // 2014 Added getAddr to NmraDcc Geoff Bunza // 2015-11-06 Martin Pischky (martin@pischky.de): // Experimental Version to support 14 speed steps // and new signature of notifyDccSpeed and notifyDccFunc // 2017-11-29 Ken West (kgw4449@gmail.com): // Added method and callback headers. // //------------------------------------------------------------------------ // // purpose: Provide a simplified interface to decode NMRA DCC packets // and build DCC MutliFunction and Stationary Decoders // //------------------------------------------------------------------------ // Uncomment the following Line to Enable Service Mode CV Programming #define NMRA_DCC_PROCESS_SERVICEMODE // Uncomment the following line to Enable MultiFunction Decoder Operations #define NMRA_DCC_PROCESS_MULTIFUNCTION // Uncomment the following line to Enable 14 Speed Step Support //#define NMRA_DCC_ENABLE_14_SPEED_STEP_MODE #if defined(ARDUINO) && ARDUINO >= 100 #include "Arduino.h" #else #include "WProgram.h" #endif #ifndef NMRADCC_IS_IN #define NMRADCC_IS_IN #define NMRADCC_VERSION 206 // Version 2.0.6 #define MAX_DCC_MESSAGE_LEN 6 // including XOR-Byte //#define ALLOW_NESTED_IRQ // uncomment to enable nested IRQ's ( only for AVR! ) typedef struct { uint8_t Size ; uint8_t PreambleBits ; uint8_t Data[MAX_DCC_MESSAGE_LEN] ; } DCC_MSG ; //-------------------------------------------------------------------------- // This section contains the NMRA Assigned DCC Manufacturer Id Codes that // are used in projects // // This value is to be used for CV8 //-------------------------------------------------------------------------- #define MAN_ID_JMRI 0x12 #define MAN_ID_DIY 0x0D #define MAN_ID_SILICON_RAILWAY 0x21 //-------------------------------------------------------------------------- // This section contains the Product/Version Id Codes for projects // // This value is to be used for CV7 // // NOTE: Each Product/Version Id Code needs to be UNIQUE for that particular // the DCC Manufacturer Id Code //-------------------------------------------------------------------------- // Product/Version Id Codes allocated under: MAN_ID_JMRI // Product/Version Id Codes allocated under: MAN_ID_DIY // Standard CV Addresses #define CV_ACCESSORY_DECODER_ADDRESS_LSB 1 #define CV_ACCESSORY_DECODER_ADDRESS_MSB 9 #define CV_MULTIFUNCTION_PRIMARY_ADDRESS 1 #define CV_MULTIFUNCTION_EXTENDED_ADDRESS_MSB 17 #define CV_MULTIFUNCTION_EXTENDED_ADDRESS_LSB 18 #define CV_VERSION_ID 7 #define CV_MANUFACTURER_ID 8 #define CV_29_CONFIG 29 #if defined(ESP32) #include #define MAXCV SPI_FLASH_SEC_SIZE #elif defined(ESP8266) #include #define MAXCV SPI_FLASH_SEC_SIZE #elif defined( __STM32F1__) #define MAXCV (EEPROM_PAGE_SIZE/4 - 1) // number of storage places (CV address could be larger // because STM32 uses virtual adresses) #undef ALLOW_NESTED_IRQ // This is done with NVIC on STM32 #define PRIO_DCC_IRQ 9 #define PRIO_SYSTIC 8 // MUST be higher priority than DCC Irq #elif defined( SEEED_XIAO_M0 ) #define MAXCV 1024 #define E2END (MAXCV * sizeof(int)) #define EMULATED_STORAGE #define HAVE_SPRINTF #else #define MAXCV E2END // the upper limit of the CV value currently defined to max memory. #endif typedef enum { CV29_LOCO_DIR = 0b00000001, /** bit 0: Locomotive Direction: "0" = normal, "1" = reversed */ CV29_F0_LOCATION = 0b00000010, /** bit 1: F0 location: "0" = bit 4 in Speed and Direction instructions, "1" = bit 4 in function group one instruction */ CV29_APS = 0b00000100, /** bit 2: Alternate Power Source (APS) "0" = NMRA Digital only, "1" = Alternate power source set by CV12 */ CV29_RAILCOM_ENABLE = 0b00001000, /** bit 3: BiDi ( RailCom ) is active */ CV29_SPEED_TABLE_ENABLE = 0b00010000, /** bit 4: STE, Speed Table Enable, "0" = values in CVs 2, 4 and 6, "1" = Custom table selected by CV 25 */ CV29_EXT_ADDRESSING = 0b00100000, /** bit 5: "0" = one byte addressing, "1" = two byte addressing */ CV29_OUTPUT_ADDRESS_MODE = 0b01000000, /** bit 6: "0" = Decoder Address Mode "1" = Output Address Mode */ CV29_ACCESSORY_DECODER = 0b10000000, /** bit 7: "0" = Multi-Function Decoder Mode "1" = Accessory Decoder Mode */ } CV_29_BITS; typedef enum { #ifdef NMRA_DCC_ENABLE_14_SPEED_STEP_MODE SPEED_STEP_14 = 15, /**< ESTOP=0, 1 to 15 */ #endif SPEED_STEP_28 = 29, /**< ESTOP=0, 1 to 29 */ SPEED_STEP_128 = 127 /**< ESTOP=0, 1 to 127 */ } DCC_SPEED_STEPS; typedef enum { DCC_DIR_REV = 0, /** The locomotive to go in the reverse direction */ DCC_DIR_FWD = 1, /** The locomotive should move in the forward direction */ } DCC_DIRECTION; typedef enum { DCC_ADDR_SHORT, /** Short address is used. The range is 0 to 127. */ DCC_ADDR_LONG, /** Long Address is used. The range is 1 to 10239 */ } DCC_ADDR_TYPE; typedef enum { FN_0_4 = 1, FN_5_8, FN_9_12, FN_13_20, FN_21_28, #ifdef NMRA_DCC_ENABLE_14_SPEED_STEP_MODE FN_0 /** function light is controlled by base line package (14 speed steps) */ #endif } FN_GROUP; #define FN_BIT_00 0x10 #define FN_BIT_01 0x01 #define FN_BIT_02 0x02 #define FN_BIT_03 0x04 #define FN_BIT_04 0x08 #define FN_BIT_05 0x01 #define FN_BIT_06 0x02 #define FN_BIT_07 0x04 #define FN_BIT_08 0x08 #define FN_BIT_09 0x01 #define FN_BIT_10 0x02 #define FN_BIT_11 0x04 #define FN_BIT_12 0x08 #define FN_BIT_13 0x01 #define FN_BIT_14 0x02 #define FN_BIT_15 0x04 #define FN_BIT_16 0x08 #define FN_BIT_17 0x10 #define FN_BIT_18 0x20 #define FN_BIT_19 0x40 #define FN_BIT_20 0x80 #define FN_BIT_21 0x01 #define FN_BIT_22 0x02 #define FN_BIT_23 0x04 #define FN_BIT_24 0x08 #define FN_BIT_25 0x10 #define FN_BIT_26 0x20 #define FN_BIT_27 0x40 #define FN_BIT_28 0x80 //#define DCC_DBGVAR #ifdef DCC_DBGVAR typedef struct countOf_t { unsigned long Tel; unsigned long Err; }countOf_t ; extern struct countOf_t countOf; #endif class NmraDcc { private: DCC_MSG Msg ; public: NmraDcc(); // Flag values to be logically ORed together and passed into the init() method #define FLAGS_MY_ADDRESS_ONLY 0x01 // Only process DCC Packets with My Address #define FLAGS_AUTO_FACTORY_DEFAULT 0x02 // Call notifyCVResetFactoryDefault() if CV 7 & 8 == 255 #define FLAGS_SETCV_CALLED 0x10 // only used internally !! #define FLAGS_OUTPUT_ADDRESS_MODE 0x40 // CV 29/541 bit 6 #define FLAGS_DCC_ACCESSORY_DECODER 0x80 // CV 29/541 bit 7 // Flag Bits that are cloned from CV29 relating the DCC Accessory Decoder #define FLAGS_CV29_BITS (FLAGS_OUTPUT_ADDRESS_MODE | FLAGS_DCC_ACCESSORY_DECODER) // Amount of sample times to see if DCC is present #define DCC_SAMPLE_COUNT 100 /*+ * pin() is called from setup() and sets up the pin used to receive DCC packets. * * Inputs: * ExtIntNum - Interrupt number of the pin. Use digitalPinToInterrupt(ExtIntPinNum). * ExtIntPinNum - Input pin number. * EnablePullup - Set true to enable the pins pullup resistor. * * Returns: * None. */ void pin( uint8_t ExtIntNum, uint8_t ExtIntPinNum, uint8_t EnablePullup); /*+ * pin() is called from setup() and sets up the pin used to receive DCC packets. * This relies on the internal function: digitalPinToInterrupt() to map the input pin number to the right interrupt * * Inputs: * ExtIntPinNum - Input pin number. * EnablePullup - Set true to enable the pins pullup resistor. * * Returns: * None. */ #ifdef digitalPinToInterrupt void pin( uint8_t ExtIntPinNum, uint8_t EnablePullup); #endif /*+ * init() is called from setup() after the pin() command is called. * It initializes the NmDcc object and makes it ready to process packets. * * Inputs: * ManufacturerId - Manufacturer ID returned in CV 8. * Commonly MAN_ID_DIY. * VersionId - Version ID returned in CV 7. * Flags - ORed flags beginning with FLAGS_... * FLAGS_MY_ADDRESS_ONLY - Only process packets with My Address. * FLAGS_DCC_ACCESSORY_DECODER - Decoder is an accessory decoder. * FLAGS_OUTPUT_ADDRESS_MODE - This flag applies to accessory decoders only. * Accessory decoders normally have 4 paired outputs * and a single address refers to all 4 outputs. * Setting FLAGS_OUTPUT_ADDRESS_MODE causes each * address to refer to a single output. * OpsModeAddressBaseCV - Ops Mode base address. Set it to 0? * * Returns: * None. */ void init( uint8_t ManufacturerId, uint8_t VersionId, uint8_t Flags, uint8_t OpsModeAddressBaseCV ); /*+ * DCC_present( int full_scale ) See if the DCC signal is present * * Input: * adc_full_scale - the full scale reading of ADC if analog pin. * - should be set to 0 if digital pin. * * Returns: * true if DCC is detected, false otherwise */ bool DCC_present( int adc_full_scale ) ; /*+ * initAccessoryDecoder() is called from setup() for accessory decoders. * It calls init() with FLAGS_DCC_ACCESSORY_DECODER ORed into Flags. * * Inputs: * ManufacturerId - Manufacturer ID returned in CV 8. * Commonly MAN_ID_DIY. * VersionId - Version ID returned in CV 7. * Flags - ORed flags beginning with FLAGS_... * FLAGS_DCC_ACCESSORY_DECODER will be set for init() call. * OpsModeAddressBaseCV - Ops Mode base address. Set it to 0? * * Returns: * None. */ void initAccessoryDecoder( uint8_t ManufacturerId, uint8_t VersionId, uint8_t Flags, uint8_t OpsModeAddressBaseCV ); /*+ * process() is called from loop() to process DCC packets. * It must be called very frequently to keep up with the packets. * * Inputs: * None. * * Returns: * 1 - Packet succesfully parsed on this call to process(). * 0 - Packet not ready or received packet had an error. */ uint8_t process(); /*+ * getCV() returns the selected CV value. * * Inputs: * CV - CV number. It must point to a valid CV. * * Returns: * Value - CV value. Invalid CV numbers will return an undefined result * since nothing will have been set in that EEPROM position. * Calls notifyCVRead() if it is defined. */ uint8_t getCV( uint16_t CV ); /*+ * setCV() sets the value of a CV. * * Inputs: * CV - CV number. It must point to a valid CV. * Value - CV value. * * Returns: * Value - CV value set by this call. * since nothing will have been set in that EEPROM position. * Calls notifyCVWrite() if it is defined. * Calls notifyCVChange() if the value is changed by this call. */ uint8_t setCV( uint16_t CV, uint8_t Value); /*+ * setAccDecDCCAddrNextReceived() enables/disables the setting of the board address from the next received turnout command * * Inputs: * enable- boolean to enable or disable the mode * * Returns: */ void setAccDecDCCAddrNextReceived(uint8_t enable); /*+ * isSetCVReady() returns 1 if EEPROM is ready to write. * * Inputs: * CV - CV number. It must point to a valid CV. * Value - CV value. * * Returns: * ready - 1 if ready to write, 0 otherwise. AVR processor will block * for several ms. for each write cycle so you should check this to avoid blocks. * Note: It returns the value returned by notifyIsSetCVReady() if it is defined. * Calls notifyIsSetCVReady() if it is defined. */ uint8_t isSetCVReady( void ); /*+ * getAddr() return the currently active decoder address. * based on decoder type and current address size. * * Inputs: * None. * * Returns: * Adr - The current decoder address based on decoder type(Multifunction, Accessory) * and short or long address selection for Multifunction decoders. */ uint16_t getAddr(void); /*+ * getX() return debugging data if DCC_DEBUG is defined. * You would really need to be modifying the library to need them. * * Inputs: * None. * * Returns: * getIntCount - Init to 0 and apparently never incremented? * getTickCount - Init to 0 and incremented each time interrupt handler * completes without an error. * getBitCount - Bit count of valid packet, 0 otherwise. Only valid until * start of the next packet. * getState - Current WAIT_... state as defined by DccRxWaitState in NmraDcc.cpp. * getNestedIrqCount - Init to 0 and incremented each time the interrupt handler * is called before the previous interrupt was complete. * This is an error indication and may indicate the system * is not handling packets fast enough or some other error is occurring. */ // #define DCC_DEBUG #ifdef DCC_DEBUG int getIntCount(void); uint8_t getTickCount(void); uint8_t getBitCount(void); uint8_t getState(void); uint8_t getNestedIrqCount(void); #endif }; /************************************************************************************ Call-back functions ************************************************************************************/ #if defined (__cplusplus) extern "C" { #endif /*+ * notifyDccReset(uint8_t hardReset) Callback for a DCC reset command. * * Inputs: * hardReset - 0 normal reset command. * 1 hard reset command. * * Returns: * None */ extern void notifyDccReset(uint8_t hardReset ) __attribute__ ((weak)); /*+ * notifyDccIdle() Callback for a DCC idle command. * * Inputs: * None * * Returns: * None */ extern void notifyDccIdle(void) __attribute__ ((weak)); /*+ * notifyDccSpeed() Callback for a multifunction decoder speed command. * The received speed and direction are unpacked to separate values. * * Inputs: * Addr - Active decoder address. * AddrType - DCC_ADDR_SHORT or DCC_ADDR_LONG. * Speed - Decoder speed. 0 = Emergency stop * 1 = Regular stop * 2 to SpeedSteps = Speed step 1 to max. * Dir - DCC_DIR_REV or DCC_DIR_FWD * SpeedSteps - Highest speed, SPEED_STEP_14 = 15 * SPEED_STEP_28 = 29 * SPEED_STEP_128 = 127 * * Returns: * None */ extern void notifyDccSpeed( uint16_t Addr, DCC_ADDR_TYPE AddrType, uint8_t Speed, DCC_DIRECTION Dir, DCC_SPEED_STEPS SpeedSteps ) __attribute__ ((weak)); /*+ * notifyDccSpeedRaw() Callback for a multifunction decoder speed command. * The value in Raw is the unpacked speed command. * * Inputs: * Addr - Active decoder address. * AddrType - DCC_ADDR_SHORT or DCC_ADDR_LONG. * Raw - Raw decoder speed command. * * Returns: * None */ extern void notifyDccSpeedRaw( uint16_t Addr, DCC_ADDR_TYPE AddrType, uint8_t Raw) __attribute__ ((weak)); /*+ * notifyDccFunc() Callback for a multifunction decoder function command. * * Inputs: * Addr - Active decoder address. * AddrType - DCC_ADDR_SHORT or DCC_ADDR_LONG. * FuncGrp - Function group. FN_0 - 14 speed step headlight function. * Mask FN_BIT_00. * FN_0_4 - Functions 0 to 4. Mask FN_BIT_00 - FN_BIT_04 * FN_5_8 - Functions 5 to 8. Mask FN_BIT_05 - FN_BIT_08 * FN_9_12 - Functions 9 to 12. Mask FN_BIT_09 - FN_BIT_12 * FN_13_20 - Functions 13 to 20. Mask FN_BIT_13 - FN_BIT_20 * FN_21_28 - Functions 21 to 28. Mask FN_BIT_21 - FN_BIT_28 * FuncState - Function state. Bitmask where active functions have a 1 at that bit. * You must & FuncState with the appropriate * FN_BIT_nn value to isolate a given bit. * * Returns: * None */ extern void notifyDccFunc( uint16_t Addr, DCC_ADDR_TYPE AddrType, FN_GROUP FuncGrp, uint8_t FuncState) __attribute__ ((weak)); /*+ * notifyDccAccTurnoutBoard() Board oriented callback for a turnout accessory decoder. * Most useful when CV29_OUTPUT_ADDRESS_MODE is not set. * Decoders of this type have 4 paired turnout outputs per board. * OutputPower is 1 if the power is on, and 0 otherwise. * * Inputs: * BoardAddr - Per board address. Equivalent to CV 1 LSB & CV 9 MSB. * OutputPair - Output pair number. It has a range of 0 to 3. * Equivalent to upper 2 bits of the 3 DDD bits in the accessory packet. * Direction - Turnout direction. It has a value of 0 or 1. * It is equivalent to bit 0 of the 3 DDD bits in the accessory packet. * OutputPower - Output On/Off. Equivalent to packet C bit. It has these values: * 0 - Output pair is off. * 1 - Output pair is on. * * Returns: * None */ extern void notifyDccAccTurnoutBoard( uint16_t BoardAddr, uint8_t OutputPair, uint8_t Direction, uint8_t OutputPower ) __attribute__ ((weak)); /*+ * notifyDccAccTurnoutOutput() Output oriented callback for a turnout accessory decoder. * Most useful when CV29_OUTPUT_ADDRESS_MODE is not set. * Decoders of this type have 4 paired turnout outputs per board. * OutputPower is 1 if the power is on, and 0 otherwise. * * Inputs: * Addr - Per output address. There will be 4 Addr addresses * per board for a standard accessory decoder with 4 output pairs. * Direction - Turnout direction. It has a value of 0 or 1. * Equivalent to bit 0 of the 3 DDD bits in the accessory packet. * OutputPower - Output On/Off. Equivalent to packet C bit. It has these values: * 0 - Output is off. * 1 - Output is on. * * Returns: * None */ extern void notifyDccAccTurnoutOutput( uint16_t Addr, uint8_t Direction, uint8_t OutputPower ) __attribute__ ((weak)); /*+ * notifyDccAccBoardAddrSet() Board oriented callback for a turnout accessory decoder. * This notification is when a new Board Address is set to the * address of the next DCC Turnout Packet that is received * * This is enabled via the setAccDecDCCAddrNextReceived() method above * * Inputs: * BoardAddr - Per board address. Equivalent to CV 1 LSB & CV 9 MSB. * per board for a standard accessory decoder with 4 output pairs. * * Returns: * None */ extern void notifyDccAccBoardAddrSet( uint16_t BoardAddr) __attribute__ ((weak)); /*+ * notifyDccAccOutputAddrSet() Output oriented callback for a turnout accessory decoder. * This notification is when a new Output Address is set to the * address of the next DCC Turnout Packet that is received * * This is enabled via the setAccDecDCCAddrNextReceived() method above * * Inputs: * Addr - Per output address. There will be 4 Addr addresses * per board for a standard accessory decoder with 4 output pairs. * * Returns: * None */ extern void notifyDccAccOutputAddrSet( uint16_t Addr) __attribute__ ((weak)); /*+ * notifyDccSigOutputState() Callback for a signal aspect accessory decoder. * Defined in S-9.2.1 as the Extended Accessory Decoder Control Packet. * * Inputs: * Addr - Decoder address. * State - 6 bit command equivalent to S-9.2.1 00XXXXXX. * * Returns: * None */ extern void notifyDccSigOutputState( uint16_t Addr, uint8_t State) __attribute__ ((weak)); /*+ * notifyDccMsg() Raw DCC packet callback. * Called with raw DCC packet bytes. * * Inputs: * Msg - Pointer to DCC_MSG structure. The values are: * Msg->Size - Number of Data bytes in the packet. * Msg->PreambleBits - Number of preamble bits in the packet. * Msg->Data[] - Array of data bytes in the packet. * * Returns: * None */ extern void notifyDccMsg( DCC_MSG * Msg ) __attribute__ ((weak)); /*+ * notifyCVValid() Callback to determine if a given CV is valid. * This is called when the library needs to determine * if a CV is valid. Note: If defined, this callback * MUST determine if a CV is valid and return the * appropriate value. If this callback is not defined, * the library will determine validity. * * Inputs: * CV - CV number. * Writable - 1 for CV writes. 0 for CV reads. * * Returns: * 1 - CV is valid. * 0 - CV is not valid. */ extern uint8_t notifyCVValid( uint16_t CV, uint8_t Writable ) __attribute__ ((weak)); /*+ * notifyCVRead() Callback to read a CV. * This is called when the library needs to read * a CV. Note: If defined, this callback * MUST return the value of the CV. * If this callback is not defined, * the library will read the CV from EEPROM. * * Inputs: * CV - CV number. * * Returns: * Value - Value of the CV. */ extern uint8_t notifyCVRead( uint16_t CV) __attribute__ ((weak)); /*+ * notifyCVWrite() Callback to write a value to a CV. * This is called when the library needs to write * a CV. Note: If defined, this callback * MUST write the Value to the CV and return the value of the CV. * If this callback is not defined, * the library will read the CV from EEPROM. * * Inputs: * CV - CV number. * Value - Value of the CV. * * Returns: * Value - Value of the CV. */ extern uint8_t notifyCVWrite( uint16_t CV, uint8_t Value) __attribute__ ((weak)); /*+ * notifyIsSetCVReady() Callback to to determine if CVs can be written. * This is called when the library needs to determine * is ready to write without blocking or failing. * Note: If defined, this callback * MUST determine if a CV write would block or fail * return the appropriate value. * If this callback is not defined, * the library determines if a write to the EEPROM * would block. * * Inputs: * None * * Returns: * 1 - CV is ready to be written. * 0 - CV is not ready to be written. */ extern uint8_t notifyIsSetCVReady(void) __attribute__ ((weak)); /*+ * notifyCVChange() Called when a CV value is changed. * This is called whenever a CV's value is changed. * notifyDccCVChange() Called only when a CV value is changed by a Dcc packet or a internal lib function. * it is NOT called if the CV is changed by means of the setCV() method. * Note: It is not called if notifyCVWrite() is defined * or if the value in the EEPROM is the same as the value * in the write command. * * Inputs: * CV - CV number. * Value - Value of the CV. * * Returns: * None */ extern void notifyCVChange( uint16_t CV, uint8_t Value) __attribute__ ((weak)); extern void notifyDccCVChange( uint16_t CV, uint8_t Value) __attribute__ ((weak)); /*+ * notifyCVResetFactoryDefault() Called when CVs must be reset. * This is called when CVs must be reset * to their factory defaults. This callback * should write the factory default value of * relevent CVs using the setCV() method. * setCV() must not block whens this is called. * Test with isSetCVReady() prior to calling setCV() * * Inputs: * None * * * Returns: * None */ extern void notifyCVResetFactoryDefault(void) __attribute__ ((weak)); /*+ * notifyCVAck() Called when a CV write must be acknowledged. * This callback must increase the current drawn by this * decoder by at least 60mA for 6ms +/- 1ms. * * Inputs: * None * * * Returns: * None */ extern void notifyCVAck(void) __attribute__ ((weak)); /*+ * notifyAdvancedCVAck() Called when a CV write must be acknowledged via Advanced Acknowledgement. * This callback must send the Advanced Acknowledgement via RailComm. * * Inputs: * None * * * Returns: * None */ extern void notifyAdvancedCVAck(void) __attribute__ ((weak)); /*+ * notifyServiceMode(bool) Called when state of 'inServiceMode' changes * * Inputs: * bool state of inServiceMode * * * Returns: * None */ extern void notifyServiceMode(bool) __attribute__ ((weak)); // Deprecated, only for backward compatibility with version 1.4.2. // Don't use in new designs. These functions may be dropped in future versions extern void notifyDccAccState( uint16_t Addr, uint16_t BoardAddr, uint8_t OutputAddr, uint8_t State ) __attribute__ ((weak)); extern void notifyDccSigState( uint16_t Addr, uint8_t OutputIndex, uint8_t State) __attribute__ ((weak)); #if defined (__cplusplus) } #endif #endif