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/*
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xdrv_63_modbus_bridge . ino - modbus bridge support for Tasmota
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Copyright ( C ) 2021 Theo Arends and Jeroenst
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This program is free software : you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
This program 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 General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
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# if defined(USE_MODBUS_BRIDGE)
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/*********************************************************************************************\
* Modbus Bridge using Modbus library ( TasmotaModbus )
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*
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* Can be used trough web / mqtt commands and also via direct TCP connection ( when defined )
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*
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* When USE_MODBUS_BRIDGE_TCP is also defined , this bridge can also be used as an ModbusTCP
* bridge .
*
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* Example Commands :
* - - Read Coils - -
* ModbusSend { " deviceaddress " : 1 , " functioncode " : 1 , " startaddress " : 1 , " type " : " bit " , " count " : 2 }
*
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* - - Read Input Register - -
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* ModbusSend { " deviceaddress " : 1 , " functioncode " : 3 , " startaddress " : 1 , " type " : " uint16 " , " count " : 2 }
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*
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* - - Write multiple coils - -
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* ModbusSend { " deviceaddress " : 1 , " functioncode " : 15 , " startaddress " : 1 , " type " : " bit " , " count " : 4 , " values " : [ 1 , 0 , 1 , 1 ] }
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*
* Info for modbusBridgeTCPServer :
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* https : //ipc2u.com/articles/knowledge-base/detailed-description-of-the-modbus-tcp-protocol-with-command-examples/
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*
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* Info for modbus serial communications :
* https : //ozeki.hu/p_5879-mobdbus-function-code-4-read-input-registers.html
* https : //www.modbustools.com/modbus.html
* https : //ipc2u.com/articles/knowledge-base/modbus-rtu-made-simple-with-detailed-descriptions-and-examples/
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\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# define XDRV_63 63
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# define MBR_MAX_VALUE_LENGTH 30
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# define MBR_BAUDRATE TM_MODBUS_BAUDRATE
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# define MBR_MAX_REGISTERS 64
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# define MBR_RECEIVE_BUFFER_SIZE (MBR_MAX_REGISTERS * 2) + 9 // Addres(1), Function(1), Length(1) or StartAddress(2), N/A or Number of addresses(2),Data(1..n), CRC(2)
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# define D_CMND_MODBUS_SEND "Send"
# define D_CMND_MODBUS_SETBAUDRATE "Baudrate"
# define D_CMND_MODBUS_SETSERIALCONFIG "SerialConfig"
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# define D_JSON_MODBUS_RECEIVED "ModbusReceived"
# define D_JSON_MODBUS_DEVICE_ADDRESS "DeviceAddress"
# define D_JSON_MODBUS_FUNCTION_CODE "FunctionCode"
# define D_JSON_MODBUS_START_ADDRESS "StartAddress"
# define D_JSON_MODBUS_COUNT "Count"
# define D_JSON_MODBUS_ENDIAN "Endian"
# define D_JSON_MODBUS_TYPE "Type" // allready defined
# define D_JSON_MODBUS_VALUES "Values"
# define D_JSON_MODBUS_LENGTH "Length"
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# ifndef USE_MODBUS_BRIDGE_TCP
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const char kModbusBridgeCommands [ ] PROGMEM = " Modbus| " // Prefix
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D_CMND_MODBUS_SEND " | " D_CMND_MODBUS_SETBAUDRATE " | " D_CMND_MODBUS_SETSERIALCONFIG ;
void ( * const ModbusBridgeCommand [ ] ) ( void ) PROGMEM = {
& CmndModbusBridgeSend , & CmndModbusBridgeSetBaudrate , & CmndModbusBridgeSetConfig } ;
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# endif
# ifdef USE_MODBUS_BRIDGE_TCP
# define MODBUS_BRIDGE_TCP_CONNECTIONS 1 // number of maximum parallel connections, only 1 supported with modbus
# define MODBUS_BRIDGE_TCP_BUF_SIZE 255 // size of the buffer, above 132 required for efficient XMODEM
# define D_CMND_MODBUS_TCP_START "TCPStart"
# define D_CMND_MODBUS_TCP_CONNECT "TCPConnect"
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# define D_CMND_MODBUS_TCP_MQTT "TCPMqtt"
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const char kModbusBridgeCommands [ ] PROGMEM = " Modbus| " // Prefix
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D_CMND_MODBUS_TCP_START " | " D_CMND_MODBUS_TCP_CONNECT " | " D_CMND_MODBUS_TCP_MQTT " | " D_CMND_MODBUS_SEND " | " D_CMND_MODBUS_SETBAUDRATE " | " D_CMND_MODBUS_SETSERIALCONFIG ;
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void ( * const ModbusBridgeCommand [ ] ) ( void ) PROGMEM = {
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& CmndModbusTCPStart , & CmndModbusTCPConnect , & CmndModbusTCPMqtt ,
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& CmndModbusBridgeSend , & CmndModbusBridgeSetBaudrate , & CmndModbusBridgeSetConfig } ;
struct ModbusBridgeTCP
{
WiFiServer * server_tcp = nullptr ;
WiFiClient client_tcp [ MODBUS_BRIDGE_TCP_CONNECTIONS ] ;
uint8_t client_next = 0 ;
uint8_t * tcp_buf = nullptr ; // data transfer buffer
IPAddress ip_filter ;
uint16_t tcp_transaction_id = 0 ;
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bool output_mqtt = false ;
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} ;
ModbusBridgeTCP modbusBridgeTCP ;
# endif
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# include <TasmotaModbus.h>
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TasmotaModbus * modbusBridgeModbus = nullptr ;
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enum class ModbusBridgeError
{
noerror = 0 ,
nodataexpected = 1 ,
wrongdeviceaddress = 2 ,
wrongfunctioncode = 3 ,
wrongstartaddress = 4 ,
wrongtype = 5 ,
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wrongdataCount = 6 ,
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wrongcount = 7 ,
tomanydata = 8
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} ;
enum class ModbusBridgeFunctionCode
{
mb_undefined = 0 ,
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mb_readCoilStatus = 1 ,
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mb_readInputStatus = 2 ,
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mb_readHoldingRegisters = 3 ,
mb_readInputRegisters = 4 ,
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mb_writeSingleCoil = 5 ,
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mb_writeSingleRegister = 6 ,
mb_writeMultipleCoils = 15 ,
mb_writeMultipleRegisters = 16
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} ;
enum class ModbusBridgeType
{
mb_undefined ,
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mb_uint8 ,
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mb_uint16 ,
mb_uint32 ,
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mb_int8 ,
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mb_int16 ,
mb_int32 ,
mb_float ,
mb_raw ,
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mb_hex ,
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mb_bit
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} ;
enum class ModbusBridgeEndian
{
mb_undefined ,
mb_msb ,
mb_lsb
} ;
struct ModbusBridge
{
unsigned long polling_window = 0 ;
int in_byte_counter = 0 ;
ModbusBridgeFunctionCode functionCode = ModbusBridgeFunctionCode : : mb_undefined ;
ModbusBridgeType type = ModbusBridgeType : : mb_undefined ;
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ModbusBridgeEndian endian = ModbusBridgeEndian : : mb_undefined ;
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uint16_t dataCount = 0 ; // Number of bits or registers to read/write
uint16_t byteCount = 0 ; // Number of bytes to read/write
uint16_t startAddress = 0 ; // First address to read/write
uint8_t deviceAddress = 0 ; // Modbus address of device to read
uint8_t count = 0 ; // Number of values to read / write
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bool raw = false ;
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uint8_t * buffer = nullptr ; // Buffer for storing read / write data
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} ;
ModbusBridge modbusBridge ;
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/********************************************************************************************/
//
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// Helper functions
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//
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uint16_t ModbusBridgeSwapEndian16 ( uint16_t num )
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{
return ( num > > 8 ) | ( num < < 8 ) ;
}
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void ModbusBridgeAllocError ( const char * s )
{
AddLog ( LOG_LEVEL_ERROR , PSTR ( " MBS: could not allocate %s buffer " ) , s ) ;
}
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/********************************************************************************************/
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//
// Applies serial configuration to modbus serial port
//
bool ModbusBridgeBegin ( void )
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{
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if ( ( Settings - > modbus_sbaudrate < 1 ) | | ( Settings - > modbus_sbaudrate > ( 115200 / 300 ) ) )
Settings - > modbus_sbaudrate = ( uint8_t ) ( ( uint32_t ) MBR_BAUDRATE / 300 ) ;
if ( Settings - > modbus_sconfig > TS_SERIAL_8O2 )
Settings - > modbus_sconfig = TS_SERIAL_8N1 ;
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int result = modbusBridgeModbus - > Begin ( Settings - > modbus_sbaudrate * 300 , ConvertSerialConfig ( Settings - > modbus_sconfig ) ) ; // Reinitialize modbus port with new baud rate
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if ( result )
{
if ( 2 = = result )
{
ClaimSerial ( ) ;
}
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " MBS: MBR %s ser init at %d baud " ) , ( 2 = = result ? " HW " : " SW " ) , Settings - > modbus_sbaudrate * 300 ) ;
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}
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modbusBridge . buffer = ( uint8_t * ) malloc ( MBR_RECEIVE_BUFFER_SIZE ) ;
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return result ;
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}
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void ModbusBridgeSetConfig ( uint32_t serial_config )
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{
if ( serial_config > TS_SERIAL_8O2 )
{
serial_config = TS_SERIAL_8N1 ;
}
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if ( serial_config ! = Settings - > modbus_sconfig )
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{
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Settings - > modbus_sconfig = serial_config ;
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ModbusBridgeBegin ( ) ;
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}
}
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void ModbusBridgeSetBaudrate ( uint32_t baudrate )
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{
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if ( ( baudrate > = 300 ) & & ( baudrate < = 115200 ) )
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{
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if ( baudrate / 300 ! = Settings - > modbus_sbaudrate )
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{
Settings - > modbus_sbaudrate = baudrate / 300 ;
ModbusBridgeBegin ( ) ;
}
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}
}
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/********************************************************************************************/
//
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// Handles data received from tasmota modbus wrapper and send this to (TCP and/or) MQTT client
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//
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void ModbusBridgeHandle ( void )
{
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bool data_ready = modbusBridgeModbus - > ReceiveReady ( ) ;
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if ( data_ready )
{
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if ( modbusBridge . byteCount = = 0 ) modbusBridge . byteCount = modbusBridge . dataCount * 2 ;
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if ( nullptr = = modbusBridge . buffer ) // If buffer is not initialized do not process received data
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{
ModbusBridgeAllocError ( PSTR ( " read " ) ) ;
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modbusBridge . dataCount = 0 ;
modbusBridge . byteCount = 0 ;
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return ;
}
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memset ( modbusBridge . buffer , 0 , MBR_RECEIVE_BUFFER_SIZE ) ;
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uint32_t error = modbusBridgeModbus - > ReceiveBuffer ( modbusBridge . buffer , 0 , MBR_RECEIVE_BUFFER_SIZE - 9 ) ;
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# ifdef USE_MODBUS_BRIDGE_TCP
for ( uint32_t i = 0 ; i < nitems ( modbusBridgeTCP . client_tcp ) ; i + + )
{
WiFiClient & client = modbusBridgeTCP . client_tcp [ i ] ;
if ( client )
{
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uint8_t header [ 9 ] ;
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uint8_t nrOfBytes = 8 ;
header [ 0 ] = modbusBridgeTCP . tcp_transaction_id > > 8 ;
header [ 1 ] = modbusBridgeTCP . tcp_transaction_id ;
header [ 2 ] = 0 ;
header [ 3 ] = 0 ;
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header [ 6 ] = modbusBridge . buffer [ 0 ] ; // Send slave address
header [ 7 ] = modbusBridge . buffer [ 1 ] ; // Send function code
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if ( error )
{
header [ 4 ] = 0 ; // Message Length Hi-Byte
header [ 5 ] = 3 ; // Message Length Low-Byte
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header [ 7 ] = modbusBridge . buffer [ 1 ] | 0x80 ; // Send function code
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header [ 8 ] = error ;
nrOfBytes + = 1 ;
client . write ( header , 9 ) ;
}
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else if ( modbusBridge . buffer [ 1 ] < = 4 )
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{
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uint8_t received_data_bytes = modbusBridgeModbus - > ReceiveCount ( ) - 5 ;
header [ 4 ] = received_data_bytes > > 8 ;
header [ 5 ] = received_data_bytes + 3 ;
header [ 8 ] = received_data_bytes ;
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client . write ( header , 9 ) ;
nrOfBytes + = 1 ;
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client . write ( modbusBridge . buffer + 3 , received_data_bytes ) ; // Don't send CRC
nrOfBytes + = received_data_bytes ;
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}
else
{
header [ 4 ] = 0 ; // Message Length Hi-Byte
header [ 5 ] = 6 ; // Message Length Low-Byte
client . write ( header , 8 ) ;
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client . write ( modbusBridge . buffer + 2 , 4 ) ; // Don't send CRC
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nrOfBytes + = 4 ;
}
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client . flush ( ) ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " MBS: MBRTCP from Modbus deviceAddress %d, writing %d bytes to client " ) , modbusBridge . buffer [ 0 ] , nrOfBytes ) ;
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}
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}
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# endif
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modbusBridge . byteCount = 0 ;
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if ( error )
{
AddLog ( LOG_LEVEL_DEBUG , PSTR ( " MBS: MBR Driver receive error %d " ) , error ) ;
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modbusBridge . dataCount = 0 ;
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return ;
}
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ModbusBridgeError errorcode = ModbusBridgeError : : noerror ;
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if ( modbusBridge . deviceAddress = = 0 )
{
# ifdef USE_MODBUS_BRIDGE_TCP
// If tcp client connected don't log error and exit this function (do not process)
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if ( nitems ( modbusBridgeTCP . client_tcp ) & & ! modbusBridgeTCP . output_mqtt )
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{
return ;
}
# endif
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errorcode = ModbusBridgeError : : nodataexpected ;
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}
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else if ( modbusBridge . deviceAddress ! = ( uint8_t ) modbusBridge . buffer [ 0 ] )
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errorcode = ModbusBridgeError : : wrongdeviceaddress ;
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else if ( ( uint8_t ) modbusBridge . functionCode ! = ( uint8_t ) modbusBridge . buffer [ 1 ] )
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errorcode = ModbusBridgeError : : wrongfunctioncode ;
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else if ( ( uint8_t ) modbusBridge . functionCode < 5 )
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{
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// Do not check buffer[2] but received bytes for correct length but use the nr of received bytes
uint8_t received_data_bytes = modbusBridgeModbus - > ReceiveCount ( ) - 5 ;
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if ( ( uint8_t ) modbusBridge . functionCode < 3 )
{
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// Check if returned number of bits matches the requested number of bits
if ( ( uint8_t ) ( ( ( modbusBridge . dataCount - 1 ) > > 3 ) + 1 ) > received_data_bytes )
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errorcode = ModbusBridgeError : : wrongdataCount ;
}
else
{
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if ( ( modbusBridge . type = = ModbusBridgeType : : mb_int8 | | modbusBridge . type = = ModbusBridgeType : : mb_uint8 ) & & ( ( uint8_t ) modbusBridge . dataCount > received_data_bytes ) )
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errorcode = ModbusBridgeError : : wrongdataCount ;
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else if ( ( modbusBridge . type = = ModbusBridgeType : : mb_bit ) & & ( ( uint8_t ) modbusBridge . dataCount > received_data_bytes ) )
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errorcode = ModbusBridgeError : : wrongdataCount ;
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else if ( ( modbusBridge . type = = ModbusBridgeType : : mb_int16 | | modbusBridge . type = = ModbusBridgeType : : mb_uint16 ) & & ( ( uint8_t ) modbusBridge . dataCount > received_data_bytes ) )
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errorcode = ModbusBridgeError : : wrongdataCount ;
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else if ( ( modbusBridge . type = = ModbusBridgeType : : mb_int32 | | modbusBridge . type = = ModbusBridgeType : : mb_uint32 | | modbusBridge . type = = ModbusBridgeType : : mb_float ) & & ( ( uint8_t ) modbusBridge . dataCount > received_data_bytes ) )
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errorcode = ModbusBridgeError : : wrongdataCount ;
}
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}
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if ( errorcode = = ModbusBridgeError : : noerror )
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{
if ( modbusBridge . type = = ModbusBridgeType : : mb_raw )
{
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// Ouput raw data as decimal bytes
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Response_P ( PSTR ( " { \" " D_JSON_MODBUS_RECEIVED " \" :{ \" RAW \" :[ " ) ) ;
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for ( uint8_t i = 0 ; i < modbusBridgeModbus - > ReceiveCount ( ) ; i + + )
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{
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ResponseAppend_P ( PSTR ( " %d " ) , modbusBridge . buffer [ i ] ) ;
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if ( i < modbusBridgeModbus - > ReceiveCount ( ) - 1 )
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ResponseAppend_P ( PSTR ( " , " ) ) ;
}
ResponseAppend_P ( PSTR ( " ]} " ) ) ;
ResponseJsonEnd ( ) ;
MqttPublishPrefixTopicRulesProcess_P ( RESULT_OR_TELE , PSTR ( D_JSON_MODBUS_RECEIVED ) ) ;
}
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else if ( modbusBridge . type = = ModbusBridgeType : : mb_hex )
{
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// Output raw data as hexadecimal bytes
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Response_P ( PSTR ( " { \" " D_JSON_MODBUS_RECEIVED " \" :{ \" HEX \" :[ " ) ) ;
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for ( uint8_t i = 0 ; i < modbusBridgeModbus - > ReceiveCount ( ) ; i + + )
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{
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ResponseAppend_P ( PSTR ( " 0x%02X " ) , modbusBridge . buffer [ i ] ) ;
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if ( i < modbusBridgeModbus - > ReceiveCount ( ) - 1 )
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ResponseAppend_P ( PSTR ( " , " ) ) ;
}
ResponseAppend_P ( PSTR ( " ]} " ) ) ;
ResponseJsonEnd ( ) ;
MqttPublishPrefixTopicRulesProcess_P ( RESULT_OR_TELE , PSTR ( D_JSON_MODBUS_RECEIVED ) ) ;
}
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else if ( ( modbusBridge . buffer [ 1 ] > 0 ) & & ( modbusBridge . buffer [ 1 ] < 7 ) )
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{
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// Read and process Registers
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uint8_t dataOffset = 3 ;
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Response_P ( PSTR ( " { \" " D_JSON_MODBUS_RECEIVED " \" :{ " ) ) ;
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ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_DEVICE_ADDRESS " \" :%d, " ) , modbusBridge . buffer [ 0 ] ) ;
ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_FUNCTION_CODE " \" :%d, " ) , modbusBridge . buffer [ 1 ] ) ;
if ( modbusBridge . buffer [ 1 ] < 5 )
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{
ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_START_ADDRESS " \" :%d, " ) , modbusBridge . startAddress ) ;
}
else
{
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ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_START_ADDRESS " \" :%d, " ) , ( modbusBridge . buffer [ 2 ] < < 8 ) + modbusBridge . buffer [ 3 ] ) ;
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dataOffset = 4 ;
}
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ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_LENGTH " \" :%d, " ) , modbusBridgeModbus - > ReceiveCount ( ) ) ;
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ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_COUNT " \" :%d, " ) , modbusBridge . count ) ;
ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_VALUES " \" :[ " ) ) ;
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uint8_t data_count = modbusBridge . count ;
if ( ( uint8_t ) modbusBridge . functionCode < 3 )
{
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// Calculate number of values to return in bitmode
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if ( modbusBridge . type = = ModbusBridgeType : : mb_int8 | | modbusBridge . type = = ModbusBridgeType : : mb_uint8 )
data_count = ( uint8_t ) ( ( ( modbusBridge . count - 1 ) > > 3 ) + 1 ) ;
else if ( modbusBridge . type = = ModbusBridgeType : : mb_int16 | | modbusBridge . type = = ModbusBridgeType : : mb_uint16 )
data_count = ( uint8_t ) ( ( ( modbusBridge . count - 1 ) > > 4 ) + 1 ) ;
else if ( modbusBridge . type = = ModbusBridgeType : : mb_int32 | | modbusBridge . type = = ModbusBridgeType : : mb_uint32 | | modbusBridge . type = = ModbusBridgeType : : mb_float )
data_count = ( uint8_t ) ( ( ( modbusBridge . count - 1 ) > > 5 ) + 1 ) ;
}
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// Copy modbus data to requested variables type
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for ( uint8_t count = 0 ; count < data_count ; count + + )
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{
char svalue [ MBR_MAX_VALUE_LENGTH + 1 ] = " " ;
if ( modbusBridge . type = = ModbusBridgeType : : mb_float )
{
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// Convert next 4 bytes to float
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float value = 0 ;
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if ( modbusBridge . endian = = ModbusBridgeEndian : : mb_lsb )
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{
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// In lsb mode swap bytes
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if ( modbusBridge . buffer [ 2 ] - ( count * 4 ) )
( ( uint8_t * ) & value ) [ 0 ] = modbusBridge . buffer [ dataOffset + ( count * 4 ) ] ; // Get float values
if ( ( modbusBridge . buffer [ 2 ] - ( count * 4 ) ) > > 1 )
( ( uint8_t * ) & value ) [ 1 ] = modbusBridge . buffer [ dataOffset + 1 + ( count * 4 ) ] ;
if ( ( modbusBridge . buffer [ 2 ] - ( count * 4 ) - 1 ) > > 1 )
( ( uint8_t * ) & value ) [ 2 ] = modbusBridge . buffer [ dataOffset + 2 + ( count * 4 ) ] ;
if ( ( modbusBridge . buffer [ 2 ] - ( count * 4 ) ) > > 2 )
( ( uint8_t * ) & value ) [ 3 ] = modbusBridge . buffer [ dataOffset + 3 + ( count * 4 ) ] ;
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}
else
{
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( ( uint8_t * ) & value ) [ 3 ] = modbusBridge . buffer [ dataOffset + ( count * 4 ) ] ; // Get float values
( ( uint8_t * ) & value ) [ 2 ] = modbusBridge . buffer [ dataOffset + 1 + ( count * 4 ) ] ;
( ( uint8_t * ) & value ) [ 1 ] = modbusBridge . buffer [ dataOffset + 2 + ( count * 4 ) ] ;
( ( uint8_t * ) & value ) [ 0 ] = modbusBridge . buffer [ dataOffset + 3 + ( count * 4 ) ] ;
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}
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ext_snprintf_P ( svalue , sizeof ( svalue ) , " %*_f " , 10 , & value ) ;
}
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else if ( modbusBridge . type = = ModbusBridgeType : : mb_bit )
{
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uint8_t bits_left = modbusBridge . count - ( ( count / 8 ) * 8 ) ;
uint8_t value = 0 ;
if ( bits_left < 8 )
{
uint8_t bits_skip = 8 - bits_left ;
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value = ( uint8_t ) ( modbusBridge . buffer [ dataOffset + ( ( count + bits_skip ) > > 3 ) ] ) ;
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}
else
{
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value = ( uint8_t ) ( modbusBridge . buffer [ dataOffset + ( count > > 3 ) ] ) ;
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}
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snprintf ( svalue , MBR_MAX_VALUE_LENGTH , " %d " , ( ( value > > ( count & 7 ) ) & 1 ) ) ;
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}
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else
{
if ( ( modbusBridge . type = = ModbusBridgeType : : mb_int32 ) | |
( modbusBridge . type = = ModbusBridgeType : : mb_uint32 ) )
{
uint32_t value = 0 ;
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if ( modbusBridge . endian = = ModbusBridgeEndian : : mb_lsb )
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{
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// In lsb mode swap bytes
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if ( modbusBridge . buffer [ 2 ] - ( count * 4 ) )
( ( uint8_t * ) & value ) [ 0 ] = modbusBridge . buffer [ dataOffset + ( count * 4 ) ] ; // Get uint values
if ( modbusBridge . buffer [ 2 ] - ( ( count * 4 ) - 1 ) )
( ( uint8_t * ) & value ) [ 1 ] = modbusBridge . buffer [ dataOffset + 1 + ( count * 4 ) ] ;
if ( modbusBridge . buffer [ 2 ] - ( ( count * 4 ) - 2 ) )
( ( uint8_t * ) & value ) [ 2 ] = modbusBridge . buffer [ dataOffset + 2 + ( count * 4 ) ] ;
if ( modbusBridge . buffer [ 2 ] - ( ( count * 4 ) - 3 ) )
( ( uint8_t * ) & value ) [ 3 ] = modbusBridge . buffer [ dataOffset + 3 + ( count * 4 ) ] ;
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}
else
{
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( ( uint8_t * ) & value ) [ 3 ] = modbusBridge . buffer [ dataOffset + ( count * 4 ) ] ; // Get uint values
( ( uint8_t * ) & value ) [ 2 ] = modbusBridge . buffer [ dataOffset + 1 + ( count * 4 ) ] ;
( ( uint8_t * ) & value ) [ 1 ] = modbusBridge . buffer [ dataOffset + 2 + ( count * 4 ) ] ;
( ( uint8_t * ) & value ) [ 0 ] = modbusBridge . buffer [ dataOffset + 3 + ( count * 4 ) ] ;
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}
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if ( modbusBridge . type = = ModbusBridgeType : : mb_int32 )
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snprintf ( svalue , MBR_MAX_VALUE_LENGTH , " %d " , ( int32_t ) value ) ;
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else
snprintf ( svalue , MBR_MAX_VALUE_LENGTH , " %u " , value ) ;
}
else if ( ( modbusBridge . type = = ModbusBridgeType : : mb_int16 ) | |
( modbusBridge . type = = ModbusBridgeType : : mb_uint16 ) )
{
uint16_t value = 0 ;
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if ( modbusBridge . endian = = ModbusBridgeEndian : : mb_lsb )
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{
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// In lsb mode swap bytes
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if ( modbusBridge . buffer [ 2 ] - ( count * 2 ) )
( ( uint8_t * ) & value ) [ 0 ] = modbusBridge . buffer [ dataOffset + ( count * 2 ) ] ;
if ( modbusBridge . buffer [ 2 ] - ( ( count * 2 ) - 1 ) )
( ( uint8_t * ) & value ) [ 1 ] = modbusBridge . buffer [ dataOffset + 1 + ( count * 2 ) ] ;
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}
else
{
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( ( uint8_t * ) & value ) [ 1 ] = modbusBridge . buffer [ dataOffset + ( count * 2 ) ] ;
( ( uint8_t * ) & value ) [ 0 ] = modbusBridge . buffer [ dataOffset + 1 + ( count * 2 ) ] ;
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}
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if ( modbusBridge . type = = ModbusBridgeType : : mb_int16 )
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snprintf ( svalue , MBR_MAX_VALUE_LENGTH , " %d " , ( int16_t ) value ) ;
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else
snprintf ( svalue , MBR_MAX_VALUE_LENGTH , " %u " , value ) ;
}
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else if ( ( modbusBridge . type = = ModbusBridgeType : : mb_int8 ) | |
( modbusBridge . type = = ModbusBridgeType : : mb_uint8 ) )
{
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uint8_t value = modbusBridge . buffer [ dataOffset + ( count * 1 ) ] ;
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if ( modbusBridge . type = = ModbusBridgeType : : mb_int8 )
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snprintf ( svalue , MBR_MAX_VALUE_LENGTH , " %d " , ( int8_t ) value ) ;
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else
snprintf ( svalue , MBR_MAX_VALUE_LENGTH , " %u " , value ) ;
}
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}
ResponseAppend_P ( PSTR ( " %s " ) , svalue ) ;
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if ( count < data_count - 1 )
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ResponseAppend_P ( PSTR ( " , " ) ) ;
}
ResponseAppend_P ( PSTR ( " ]} " ) ) ;
ResponseJsonEnd ( ) ;
if ( errorcode = = ModbusBridgeError : : noerror )
MqttPublishPrefixTopicRulesProcess_P ( RESULT_OR_TELE , PSTR ( D_JSON_MODBUS_RECEIVED ) ) ;
}
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else if ( ( modbusBridge . buffer [ 1 ] = = 15 ) | | ( modbusBridge . buffer [ 1 ] = = 16 ) ) // Write Multiple Registers
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{
Response_P ( PSTR ( " { \" " D_JSON_MODBUS_RECEIVED " \" :{ " ) ) ;
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ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_DEVICE_ADDRESS " \" :%d, " ) , modbusBridge . buffer [ 0 ] ) ;
ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_FUNCTION_CODE " \" :%d, " ) , modbusBridge . buffer [ 1 ] ) ;
ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_START_ADDRESS " \" :%d, " ) , ( modbusBridge . buffer [ 2 ] < < 8 ) + modbusBridge . buffer [ 3 ] ) ;
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ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_LENGTH " \" :%d, " ) , modbusBridgeModbus - > ReceiveCount ( ) ) ;
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ResponseAppend_P ( PSTR ( " \" " D_JSON_MODBUS_COUNT " \" :%d " ) , ( modbusBridge . buffer [ 4 ] < < 8 ) + modbusBridge . buffer [ 5 ] ) ;
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ResponseAppend_P ( PSTR ( " } " ) ) ;
ResponseJsonEnd ( ) ;
if ( errorcode = = ModbusBridgeError : : noerror )
MqttPublishPrefixTopicRulesProcess_P ( RESULT_OR_TELE , PSTR ( D_JSON_MODBUS_RECEIVED ) ) ;
}
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else
errorcode = ModbusBridgeError : : wrongfunctioncode ;
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}
if ( errorcode ! = ModbusBridgeError : : noerror )
{
AddLog ( LOG_LEVEL_DEBUG , PSTR ( " MBS: MBR Recv Error %d " ) , ( uint8_t ) errorcode ) ;
}
modbusBridge . deviceAddress = 0 ;
}
}
/********************************************************************************************/
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//
// Inits the tasmota modbus driver, sets serialport and if TCP enabled allocates a TCP buffer
//
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void ModbusBridgeInit ( void )
{
if ( PinUsed ( GPIO_MBR_RX ) & & PinUsed ( GPIO_MBR_TX ) )
{
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modbusBridgeModbus = new TasmotaModbus ( Pin ( GPIO_MBR_RX ) , Pin ( GPIO_MBR_TX ) , Pin ( GPIO_MBR_TX_ENA ) ) ;
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ModbusBridgeBegin ( ) ;
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# ifdef USE_MODBUS_BRIDGE_TCP
// If TCP bridge is enabled allocate a TCP receive buffer
modbusBridgeTCP . tcp_buf = ( uint8_t * ) malloc ( MODBUS_BRIDGE_TCP_BUF_SIZE ) ;
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if ( nullptr = = modbusBridgeTCP . tcp_buf )
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{
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ModbusBridgeAllocError ( PSTR ( " TCP " ) ) ;
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return ;
}
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# ifdef MODBUS_BRIDGE_TCP_DEFAULT_PORT
else
{
AddLog ( LOG_LEVEL_INFO , PSTR ( " MBS: MBRTCP Starting server on port %d " ) , MODBUS_BRIDGE_TCP_DEFAULT_PORT ) ;
modbusBridgeTCP . server_tcp = new WiFiServer ( MODBUS_BRIDGE_TCP_DEFAULT_PORT ) ;
modbusBridgeTCP . server_tcp - > begin ( ) ; // start TCP server
modbusBridgeTCP . server_tcp - > setNoDelay ( true ) ;
}
# endif
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# endif
}
}
# ifdef USE_MODBUS_BRIDGE_TCP
/********************************************************************************************/
//
// Handles data for TCP server and TCP client. Sends requests to Modbus Devices
//
void ModbusTCPHandle ( void )
{
uint8_t c ;
bool busy ; // did we transfer some data?
int32_t buf_len ;
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if ( ! modbusBridgeModbus )
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return ;
// check for a new client connection
if ( ( modbusBridgeTCP . server_tcp ) & & ( modbusBridgeTCP . server_tcp - > hasClient ( ) ) )
{
WiFiClient new_client = modbusBridgeTCP . server_tcp - > available ( ) ;
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_TCP " MBS: MBRTCP Got connection from %s " ) , new_client . remoteIP ( ) . toString ( ) . c_str ( ) ) ;
// Check for IP filtering if it's enabled.
if ( modbusBridgeTCP . ip_filter )
{
if ( modbusBridgeTCP . ip_filter ! = new_client . remoteIP ( ) )
{
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_TCP " MBS: MBRTCP Rejected due to filtering " ) ) ;
new_client . stop ( ) ;
}
else
{
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_TCP " MBS: MBRTCP Allowed through filter " ) ) ;
}
}
// find an empty slot
uint32_t i ;
for ( i = 0 ; i < nitems ( modbusBridgeTCP . client_tcp ) ; i + + )
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{
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WiFiClient & client = modbusBridgeTCP . client_tcp [ i ] ;
if ( ! client )
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{
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client = new_client ;
break ;
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}
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}
if ( i > = nitems ( modbusBridgeTCP . client_tcp ) )
{
i = modbusBridgeTCP . client_next + + % nitems ( modbusBridgeTCP . client_tcp ) ;
WiFiClient & client = modbusBridgeTCP . client_tcp [ i ] ;
client . stop ( ) ;
client = new_client ;
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}
}
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do
{
busy = false ; // exit loop if no data was transferred
// handle data received from TCP
for ( uint32_t i = 0 ; i < nitems ( modbusBridgeTCP . client_tcp ) ; i + + )
{
WiFiClient & client = modbusBridgeTCP . client_tcp [ i ] ;
buf_len = 0 ;
while ( client & & ( buf_len < MODBUS_BRIDGE_TCP_BUF_SIZE ) & & ( client . available ( ) ) )
{
c = client . read ( ) ;
if ( c > = 0 )
{
modbusBridgeTCP . tcp_buf [ buf_len + + ] = c ;
busy = true ;
}
}
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if ( buf_len > = 12 )
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{
uint8_t mbdeviceaddress = ( uint8_t ) modbusBridgeTCP . tcp_buf [ 6 ] ;
uint8_t mbfunctioncode = ( uint8_t ) modbusBridgeTCP . tcp_buf [ 7 ] ;
uint16_t mbstartaddress = ( uint16_t ) ( ( ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 8 ] ) < < 8 ) | ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 9 ] ) ) ;
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uint16_t * writeData = NULL ;
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uint16_t count = 0 ;
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modbusBridgeTCP . tcp_transaction_id = ( uint16_t ) ( ( ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 0 ] ) < < 8 ) | ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 1 ] ) ) ;
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if ( mbfunctioncode < = 2 ) // Multiple Coils, Inputs
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{
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count = ( uint16_t ) ( ( ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 10 ] ) < < 8 ) | ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 11 ] ) ) ;
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modbusBridge . byteCount = ( ( count - 1 ) > > 3 ) + 1 ;
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modbusBridge . dataCount = count ;
modbusBridge . type = ModbusBridgeType : : mb_bit ;
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}
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else if ( mbfunctioncode < = 4 ) // Multiple Holding or input registers
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{
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count = ( uint16_t ) ( ( ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 10 ] ) < < 8 ) | ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 11 ] ) ) ;
modbusBridge . byteCount = count * 2 ;
modbusBridge . dataCount = count ;
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modbusBridge . type = ModbusBridgeType : : mb_uint16 ;
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}
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else // Write coil(s) or register(s)
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{
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// For functioncode 15 & 16 ignore bytecount, modbusBridgeModbus does calculate this
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uint8_t dataStartByte = mbfunctioncode < = 6 ? 10 : 13 ;
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uint16_t byteCount = ( buf_len - dataStartByte ) ;
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modbusBridge . byteCount = 2 ;
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modbusBridge . dataCount = 1 ;
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modbusBridge . type = ModbusBridgeType : : mb_uint16 ;
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writeData = ( uint16_t * ) malloc ( ( byteCount / 2 ) + 1 ) ;
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if ( nullptr = = writeData )
{
ModbusBridgeAllocError ( PSTR ( " write " ) ) ;
return ;
}
2022-11-06 09:23:05 +00:00
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if ( ( mbfunctioncode = = 15 ) | | ( mbfunctioncode = = 16 ) ) count = ( uint16_t ) ( ( ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 10 ] ) < < 8 ) | ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ 11 ] ) ) ;
else count = 1 ;
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for ( uint16_t dataPointer = 0 ; dataPointer < byteCount ; dataPointer + + )
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{
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if ( dataPointer % 2 = = 0 )
{
writeData [ dataPointer / 2 ] = ( uint16_t ) ( ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ dataStartByte + dataPointer ] ) < < 8 ) ;
}
else
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{
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writeData [ dataPointer / 2 ] | = ( ( uint16_t ) modbusBridgeTCP . tcp_buf [ dataStartByte + dataPointer ] ) ;
}
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}
}
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AddLog ( LOG_LEVEL_DEBUG_MORE , PSTR ( " MBS: MBRTCP to Modbus TransactionId:%d, deviceAddress:%d, functionCode:%d, startAddress:%d, count:%d, recvCount:%d, recvBytes:%d " ) ,
modbusBridgeTCP . tcp_transaction_id , mbdeviceaddress , mbfunctioncode , mbstartaddress , count , modbusBridge . dataCount , modbusBridge . byteCount ) ;
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2022-11-06 09:23:05 +00:00
modbusBridgeModbus - > Send ( mbdeviceaddress , mbfunctioncode , mbstartaddress , count , writeData ) ;
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if ( modbusBridgeTCP . output_mqtt )
{
modbusBridge . deviceAddress = mbdeviceaddress ;
modbusBridge . functionCode = ( ModbusBridgeFunctionCode ) mbfunctioncode ;
modbusBridge . startAddress = mbstartaddress ;
modbusBridge . count = count ;
}
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free ( writeData ) ;
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}
}
yield ( ) ; // avoid WDT if heavy traffic
} while ( busy ) ;
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}
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# endif
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/*********************************************************************************************\
* Commands
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void CmndModbusBridgeSend ( void )
{
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uint16_t * writeData = NULL ;
uint8_t writeDataSize = 0 ;
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bool bitMode = false ;
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ModbusBridgeError errorcode = ModbusBridgeError : : noerror ;
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JsonParser parser ( XdrvMailbox . data ) ;
JsonParserObject root = parser . getRootObject ( ) ;
if ( ! root )
return ;
modbusBridge . deviceAddress = root . getUInt ( PSTR ( D_JSON_MODBUS_DEVICE_ADDRESS ) , 0 ) ;
uint8_t functionCode = root . getUInt ( PSTR ( D_JSON_MODBUS_FUNCTION_CODE ) , 0 ) ;
modbusBridge . startAddress = root . getULong ( PSTR ( D_JSON_MODBUS_START_ADDRESS ) , 0 ) ;
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const char * stype = root . getStr ( PSTR ( D_JSON_MODBUS_TYPE ) , " uint8 " ) ;
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modbusBridge . count = root . getUInt ( PSTR ( D_JSON_MODBUS_COUNT ) , 1 ) ; // Number of values to read / write
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const char * sendian = root . getStr ( PSTR ( D_JSON_MODBUS_ENDIAN ) , " undefined " ) ;
modbusBridge . endian = ModbusBridgeEndian : : mb_undefined ;
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// If functioncode is 1, 2 or 15, the count is not the number of registers but the number
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// of bits to read or write, so calculate the number data bytes to read/write.
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if ( ( functionCode = = 1 ) | | ( functionCode = = 2 ) | | ( functionCode = = 15 ) )
{
bitMode = true ;
modbusBridge . endian = ModbusBridgeEndian : : mb_lsb ;
}
// Change endianess when specified
if ( strcmp ( sendian , " msb " ) = = 0 ) modbusBridge . endian = ModbusBridgeEndian : : mb_msb ;
if ( strcmp ( sendian , " lsb " ) = = 0 ) modbusBridge . endian = ModbusBridgeEndian : : mb_lsb ;
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if ( modbusBridge . deviceAddress = = 0 )
errorcode = ModbusBridgeError : : wrongdeviceaddress ;
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else if ( ( functionCode > ( uint8_t ) ModbusBridgeFunctionCode : : mb_writeSingleRegister ) & &
( functionCode ! = ( uint8_t ) ModbusBridgeFunctionCode : : mb_writeMultipleCoils ) & &
( functionCode ! = ( uint8_t ) ModbusBridgeFunctionCode : : mb_writeMultipleRegisters ) )
errorcode = ModbusBridgeError : : wrongfunctioncode ; // Invalid function code
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else
{
modbusBridge . functionCode = static_cast < ModbusBridgeFunctionCode > ( functionCode ) ;
if ( modbusBridge . functionCode = = ModbusBridgeFunctionCode : : mb_undefined )
errorcode = ModbusBridgeError : : wrongfunctioncode ;
}
modbusBridge . type = ModbusBridgeType : : mb_undefined ;
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if ( bitMode ) modbusBridge . byteCount = ( modbusBridge . count + 7 ) / 8 ;
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if ( strcmp ( stype , " int8 " ) = = 0 )
{
modbusBridge . type = ModbusBridgeType : : mb_int8 ;
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modbusBridge . dataCount = bitMode ? modbusBridge . count : ( ( modbusBridge . count - 1 ) / 2 ) + 1 ;
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}
else if ( strcmp ( stype , " int16 " ) = = 0 )
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{
modbusBridge . type = ModbusBridgeType : : mb_int16 ;
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modbusBridge . dataCount = modbusBridge . count ;
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}
else if ( strcmp ( stype , " int32 " ) = = 0 )
{
modbusBridge . type = ModbusBridgeType : : mb_int32 ;
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modbusBridge . dataCount = bitMode ? modbusBridge . count : 2 * modbusBridge . count ;
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}
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else if ( ( strcmp ( stype , " uint8 " ) = = 0 ) )
{
modbusBridge . type = ModbusBridgeType : : mb_uint8 ;
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modbusBridge . dataCount = bitMode ? modbusBridge . count : ( ( modbusBridge . count - 1 ) / 2 ) + 1 ;
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}
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else if ( ( strcmp ( stype , " uint16 " ) = = 0 ) | | ( strcmp ( stype , " " ) = = 0 ) ) // Default is uint16
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{
modbusBridge . type = ModbusBridgeType : : mb_uint16 ;
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modbusBridge . dataCount = modbusBridge . count ;
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}
else if ( strcmp ( stype , " uint32 " ) = = 0 )
{
modbusBridge . type = ModbusBridgeType : : mb_uint32 ;
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modbusBridge . dataCount = bitMode ? modbusBridge . count : 2 * modbusBridge . count ;
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}
else if ( strcmp ( stype , " float " ) = = 0 )
{
modbusBridge . type = ModbusBridgeType : : mb_float ;
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modbusBridge . dataCount = bitMode ? 2 * modbusBridge . count : modbusBridge . count ;
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}
else if ( strcmp ( stype , " raw " ) = = 0 )
{
modbusBridge . type = ModbusBridgeType : : mb_raw ;
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modbusBridge . dataCount = bitMode ? modbusBridge . count : ( ( modbusBridge . count - 1 ) / 2 ) + 1 ;
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}
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else if ( strcmp ( stype , " hex " ) = = 0 )
{
modbusBridge . type = ModbusBridgeType : : mb_hex ;
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modbusBridge . dataCount = bitMode ? modbusBridge . count : ( ( modbusBridge . count - 1 ) / 2 ) + 1 ;
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}
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else if ( strcmp ( stype , " bit " ) = = 0 )
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{
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modbusBridge . type = ModbusBridgeType : : mb_bit ;
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modbusBridge . dataCount = bitMode ? modbusBridge . count : ( ( modbusBridge . count - 1 ) / 16 ) + 1 ;
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}
else
errorcode = ModbusBridgeError : : wrongtype ;
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// Prevent buffer overflow due to usage of to many registers
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if ( ( ! bitMode ) & & ( modbusBridge . dataCount > MBR_MAX_REGISTERS ) )
errorcode = ModbusBridgeError : : wrongcount ;
if ( ( bitMode ) & & ( modbusBridge . dataCount > MBR_MAX_REGISTERS * 8 ) )
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errorcode = ModbusBridgeError : : wrongcount ;
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// Get Json data for writing
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JsonParserArray jsonDataArray = root [ PSTR ( D_JSON_MODBUS_VALUES ) ] . getArray ( ) ;
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writeDataSize = jsonDataArray . size ( ) ;
// Check if number of supplied data items is valid
switch ( modbusBridge . functionCode )
{
case ModbusBridgeFunctionCode : : mb_writeMultipleCoils :
// In writeMultipleCoil mode the amount of given data bits is less or equal to the count
switch ( modbusBridge . type )
{
case ModbusBridgeType : : mb_bit :
if ( modbusBridge . count > writeDataSize ) errorcode = ModbusBridgeError : : wrongcount ;
break ;
case ModbusBridgeType : : mb_uint8 :
case ModbusBridgeType : : mb_int8 :
case ModbusBridgeType : : mb_raw :
case ModbusBridgeType : : mb_hex :
if ( modbusBridge . count > writeDataSize * 8 ) errorcode = ModbusBridgeError : : wrongcount ;
break ;
case ModbusBridgeType : : mb_uint16 :
case ModbusBridgeType : : mb_int16 :
if ( modbusBridge . count > writeDataSize * 16 ) errorcode = ModbusBridgeError : : wrongcount ;
break ;
case ModbusBridgeType : : mb_uint32 :
case ModbusBridgeType : : mb_int32 :
if ( modbusBridge . count > writeDataSize * 32 ) errorcode = ModbusBridgeError : : wrongcount ;
break ;
}
break ;
case ModbusBridgeFunctionCode : : mb_writeSingleRegister :
case ModbusBridgeFunctionCode : : mb_writeSingleCoil :
if ( modbusBridge . count ! = 1 ) errorcode = ModbusBridgeError : : wrongcount ;
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break ;
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case ModbusBridgeFunctionCode : : mb_writeMultipleRegisters :
if ( modbusBridge . count ! = writeDataSize ) errorcode = ModbusBridgeError : : wrongcount ;
break ;
}
// If write data is specified in JSON copy it into writeData array
if ( ( errorcode = = ModbusBridgeError : : noerror ) & & ( jsonDataArray . isArray ( ) ) )
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{
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if ( modbusBridge . dataCount > 40 )
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{
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errorcode = ModbusBridgeError : : tomanydata ;
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}
else
{
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writeData = ( uint16_t * ) malloc ( modbusBridge . dataCount ) ;
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if ( nullptr = = writeData )
{
ModbusBridgeAllocError ( PSTR ( " write " ) ) ;
return ;
}
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for ( uint8_t jsonDataArrayPointer = 0 ; jsonDataArrayPointer < writeDataSize ; jsonDataArrayPointer + + )
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{
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if ( errorcode ! = ModbusBridgeError : : noerror ) break ;
switch ( modbusBridge . type )
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{
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case ModbusBridgeType : : mb_bit :
{
// Initialize current data/register to 0
if ( jsonDataArrayPointer % 16 = = 0 )
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{
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writeData [ jsonDataArrayPointer / 15 ] = 0 ;
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}
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// Swap low and high bytes according to modbus specification
uint16_t bitValue = ( jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) = = 1 ) ? 1 : 0 ;
uint8_t bitPointer = ( jsonDataArrayPointer % 16 ) + 8 ;
if ( bitPointer > 15 ) bitPointer - = 16 ;
writeData [ jsonDataArrayPointer / 16 ] + = bitValue < < bitPointer ;
}
break ;
case ModbusBridgeType : : mb_int8 :
if ( jsonDataArrayPointer % 2 )
writeData [ jsonDataArrayPointer / 2 ] + = ( int8_t ) jsonDataArray [ jsonDataArrayPointer ] . getInt ( 0 ) ;
else
writeData [ jsonDataArrayPointer / 2 ] = ( int8_t ) jsonDataArray [ jsonDataArrayPointer / 2 ] . getInt ( 0 ) < < 8 ;
if ( modbusBridge . dataCount ! = writeDataSize / 2 ) errorcode = ModbusBridgeError : : wrongcount ;
break ;
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case ModbusBridgeType : : mb_hex :
case ModbusBridgeType : : mb_raw :
case ModbusBridgeType : : mb_uint8 :
if ( jsonDataArrayPointer % 2 )
writeData [ jsonDataArrayPointer / 2 ] + = ( uint8_t ) jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) ;
else
writeData [ jsonDataArrayPointer / 2 ] = ( uint8_t ) jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) < < 8 ;
if ( modbusBridge . dataCount ! = writeDataSize / 2 ) errorcode = ModbusBridgeError : : wrongcount ;
break ;
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case ModbusBridgeType : : mb_int16 :
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writeData [ jsonDataArrayPointer ] = modbusBridge . endian ! = ModbusBridgeEndian : : mb_lsb ? jsonDataArray [ jsonDataArrayPointer ] . getInt ( 0 )
: ModbusBridgeSwapEndian16 ( jsonDataArray [ jsonDataArrayPointer ] . getInt ( 0 ) ) ;
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break ;
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case ModbusBridgeType : : mb_uint16 :
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writeData [ jsonDataArrayPointer ] = modbusBridge . endian ! = ModbusBridgeEndian : : mb_lsb ? jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 )
: ModbusBridgeSwapEndian16 ( jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) ) ;
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break ;
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case ModbusBridgeType : : mb_int32 :
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writeData [ ( jsonDataArrayPointer * 2 ) ] = modbusBridge . endian ! = ModbusBridgeEndian : : mb_lsb ? ModbusBridgeSwapEndian16 ( jsonDataArray [ jsonDataArrayPointer ] . getInt ( 0 ) )
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: ( int16_t ) ( jsonDataArray [ jsonDataArrayPointer ] . getInt ( 0 ) > > 16 ) ;
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writeData [ ( jsonDataArrayPointer * 2 ) + 1 ] = modbusBridge . endian ! = ModbusBridgeEndian : : mb_lsb ? ModbusBridgeSwapEndian16 ( jsonDataArray [ jsonDataArrayPointer ] . getInt ( 0 ) > > 16 )
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: ( uint16_t ) ( jsonDataArray [ jsonDataArrayPointer ] . getInt ( 0 ) ) ;
break ;
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case ModbusBridgeType : : mb_uint32 :
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writeData [ ( jsonDataArrayPointer * 2 ) ] = modbusBridge . endian ! = ModbusBridgeEndian : : mb_lsb ? ModbusBridgeSwapEndian16 ( jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) )
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: ( uint16_t ) ( jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) > > 16 ) ;
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writeData [ ( jsonDataArrayPointer * 2 ) + 1 ] = modbusBridge . endian ! = ModbusBridgeEndian : : mb_lsb ? ModbusBridgeSwapEndian16 ( jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) > > 16 )
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: ( uint16_t ) ( jsonDataArray [ jsonDataArrayPointer ] . getUInt ( 0 ) ) ;
break ;
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case ModbusBridgeType : : mb_float :
// TODO
default :
errorcode = ModbusBridgeError : : wrongtype ;
break ;
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}
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}
}
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// Adapt data according to modbus protocol
if ( modbusBridge . functionCode = = ModbusBridgeFunctionCode : : mb_writeSingleCoil )
{
writeData [ 0 ] = writeData [ 0 ] ? 0xFF00 : 0x0000 ; // High Byte
}
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}
// Handle errorcode and exit function when an error has occured
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if ( errorcode ! = ModbusBridgeError : : noerror )
{
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " MBS: MBR Send Error %u " ) , ( uint8_t ) errorcode ) ;
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free ( writeData ) ;
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return ;
}
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// If writing a single coil or single register, the register count is always 1. We also prevent writing data out of range
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if ( ( modbusBridge . functionCode = = ModbusBridgeFunctionCode : : mb_writeSingleCoil ) | | ( modbusBridge . functionCode = = ModbusBridgeFunctionCode : : mb_writeSingleRegister ) )
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modbusBridge . dataCount = 1 ;
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uint8_t error = modbusBridgeModbus - > Send ( modbusBridge . deviceAddress , ( uint8_t ) modbusBridge . functionCode , modbusBridge . startAddress , modbusBridge . dataCount , writeData ) ;
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free ( writeData ) ;
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if ( error )
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{
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " MBS: MBR Driver send error %u " ) , error ) ;
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return ;
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}
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ResponseCmndDone ( ) ;
}
void CmndModbusBridgeSetBaudrate ( void )
{
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ModbusBridgeSetBaudrate ( XdrvMailbox . payload ) ;
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ResponseCmndNumber ( Settings - > modbus_sbaudrate * 300 ) ;
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}
void CmndModbusBridgeSetConfig ( void )
{
// See TasmotaModusConfig for possible options
// ModbusConfig 0..23 where 3 equals 8N1
// ModbusConfig 8N1
if ( XdrvMailbox . data_len > 0 )
{
if ( XdrvMailbox . data_len < 3 )
{ // Use 0..23 as serial config option
if ( ( XdrvMailbox . payload > = TS_SERIAL_5N1 ) & & ( XdrvMailbox . payload < = TS_SERIAL_8O2 ) )
{
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ModbusBridgeSetConfig ( XdrvMailbox . payload ) ;
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}
}
else if ( ( XdrvMailbox . payload > = 5 ) & & ( XdrvMailbox . payload < = 8 ) )
{
int8_t serial_config = ParseSerialConfig ( XdrvMailbox . data ) ;
if ( serial_config > = 0 )
{
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ModbusBridgeSetConfig ( serial_config ) ;
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}
}
}
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ResponseCmndChar ( GetSerialConfig ( Settings - > modbus_sconfig ) . c_str ( ) ) ;
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}
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# ifdef USE_MODBUS_BRIDGE_TCP
//
// Command `TCPStart`
// Params: port,<IPv4 allow>
//
void CmndModbusTCPStart ( void )
{
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if ( ! modbusBridgeModbus )
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{
return ;
}
int32_t tcp_port = XdrvMailbox . payload ;
if ( ArgC ( ) = = 2 )
{
char sub_string [ XdrvMailbox . data_len ] ;
modbusBridgeTCP . ip_filter . fromString ( ArgV ( sub_string , 2 ) ) ;
}
else
{
// Disable whitelist if previously set
modbusBridgeTCP . ip_filter = ( uint32_t ) 0 ;
}
if ( modbusBridgeTCP . server_tcp )
{
AddLog ( LOG_LEVEL_INFO , PSTR ( " MBS: MBRTCP Stopping server " ) ) ;
modbusBridgeTCP . server_tcp - > stop ( ) ;
delete modbusBridgeTCP . server_tcp ;
modbusBridgeTCP . server_tcp = nullptr ;
for ( uint32_t i = 0 ; i < nitems ( modbusBridgeTCP . client_tcp ) ; i + + )
{
WiFiClient & client = modbusBridgeTCP . client_tcp [ i ] ;
client . stop ( ) ;
}
}
if ( tcp_port > 0 )
{
AddLog ( LOG_LEVEL_INFO , PSTR ( " MBS: MBRTCP Starting server on port %d " ) , tcp_port ) ;
if ( modbusBridgeTCP . ip_filter )
{
AddLog ( LOG_LEVEL_INFO , PSTR ( " MBS: MBRTCP Filtering %s " ) , modbusBridgeTCP . ip_filter . toString ( ) . c_str ( ) ) ;
}
modbusBridgeTCP . server_tcp = new WiFiServer ( tcp_port ) ;
modbusBridgeTCP . server_tcp - > begin ( ) ; // start TCP server
modbusBridgeTCP . server_tcp - > setNoDelay ( true ) ;
}
ResponseCmndDone ( ) ;
}
//
// Command `Connect`
// Params: port,<IPv4>
//
void CmndModbusTCPConnect ( void )
{
int32_t tcp_port = XdrvMailbox . payload ;
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if ( ! modbusBridgeModbus )
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{
return ;
}
if ( ArgC ( ) = = 2 )
{
char sub_string [ XdrvMailbox . data_len ] ;
WiFiClient new_client ;
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_TCP " MBS: MBRTCP Connecting to %s on port %d " ) , ArgV ( sub_string , 2 ) , tcp_port ) ;
if ( new_client . connect ( ArgV ( sub_string , 2 ) , tcp_port ) )
{
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_TCP " MBS: MBRTCP connected! " ) ) ;
}
else
{
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_TCP " MBS: MBRTCP error connecting! " ) ) ;
}
// find an empty slot
uint32_t i ;
for ( i = 0 ; i < nitems ( modbusBridgeTCP . client_tcp ) ; i + + )
{
WiFiClient & client = modbusBridgeTCP . client_tcp [ i ] ;
if ( ! client )
{
client = new_client ;
break ;
}
}
if ( i > = nitems ( modbusBridgeTCP . client_tcp ) )
{
i = modbusBridgeTCP . client_next + + % nitems ( modbusBridgeTCP . client_tcp ) ;
WiFiClient & client = modbusBridgeTCP . client_tcp [ i ] ;
client . stop ( ) ;
client = new_client ;
}
}
else
{
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_TCP " MBS: MBR Usage: port,ip_address " ) ) ;
}
ResponseCmndDone ( ) ;
}
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void CmndModbusTCPMqtt ( void )
{
modbusBridgeTCP . output_mqtt = XdrvMailbox . payload ;
ResponseCmndDone ( ) ;
}
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# endif
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/*********************************************************************************************\
* Interface
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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bool Xdrv63 ( uint32_t function )
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{
bool result = false ;
if ( FUNC_PRE_INIT = = function )
{
ModbusBridgeInit ( ) ;
}
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else if ( modbusBridgeModbus )
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{
switch ( function )
{
case FUNC_COMMAND :
result = DecodeCommand ( kModbusBridgeCommands , ModbusBridgeCommand ) ;
break ;
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case FUNC_LOOP :
ModbusBridgeHandle ( ) ;
# ifdef USE_MODBUS_BRIDGE_TCP
ModbusTCPHandle ( ) ;
# endif
break ;
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}
}
return result ;
}
# endif // USE_MODBUS_BRIDGE