libmodbus VC2019编译后modbus.dll，32位

/* * Copyright © Stéphane Raimbault <stephane.raimbault@gmail.com> * * SPDX-License-Identifier: LGPL-2.1-or-later */ #ifndef MODBUS_H #define MODBUS_H // clang-format off /* Add this for macros that defined unix flavor */ #if (defined(__unix__) || defined(unix)) && !defined(USG) # include <sys/param.h> #endif #ifndef _MSC_VER # include <stdint.h> #else # include "stdint.h" #endif #include "modbus-version.h" #if defined(_MSC_VER) # if defined(DLLBUILD) /* define DLLBUILD when building the DLL */ # define MODBUS_API __declspec(dllexport) # else # define MODBUS_API __declspec(dllimport) # endif #else # define MODBUS_API #endif #ifdef __cplusplus # define MODBUS_BEGIN_DECLS extern "C" { # define MODBUS_END_DECLS } #else # define MODBUS_BEGIN_DECLS # define MODBUS_END_DECLS #endif // clang-format on MODBUS_BEGIN_DECLS #ifndef FALSE #define FALSE 0 #endif #ifndef TRUE #define TRUE 1 #endif #ifndef OFF #define OFF 0 #endif #ifndef ON #define ON 1 #endif /* Modbus function codes */ #define MODBUS_FC_READ_COILS 0x01 #define MODBUS_FC_READ_DISCRETE_INPUTS 0x02 #define MODBUS_FC_READ_HOLDING_REGISTERS 0x03 #define MODBUS_FC_READ_INPUT_REGISTERS 0x04 #define MODBUS_FC_WRITE_SINGLE_COIL 0x05 #define MODBUS_FC_WRITE_SINGLE_REGISTER 0x06 #define MODBUS_FC_READ_EXCEPTION_STATUS 0x07 #define MODBUS_FC_WRITE_MULTIPLE_COILS 0x0F #define MODBUS_FC_WRITE_MULTIPLE_REGISTERS 0x10 #define MODBUS_FC_REPORT_SLAVE_ID 0x11 #define MODBUS_FC_MASK_WRITE_REGISTER 0x16 #define MODBUS_FC_WRITE_AND_READ_REGISTERS 0x17 #define MODBUS_BROADCAST_ADDRESS 0 /* Modbus_Application_Protocol_V1_1b.pdf (chapter 6 section 1 page 12) * Quantity of Coils to read (2 bytes): 1 to 2000 (0x7D0) * (chapter 6 section 11 page 29) * Quantity of Coils to write (2 bytes): 1 to 1968 (0x7B0) */ #define MODBUS_MAX_READ_BITS 2000 #define MODBUS_MAX_WRITE_BITS 1968 /* Modbus_Application_Protocol_V1_1b.pdf (chapter 6 section 3 page 15) * Quantity of Registers to read (2 bytes): 1 to 125 (0x7D) * (chapter 6 section 12 page 31) * Quantity of Registers to write (2 bytes) 1 to 123 (0x7B) * (chapter 6 section 17 page 38) * Quantity of Registers to write in R/W registers (2 bytes) 1 to 121 (0x79) */ #define MODBUS_MAX_READ_REGISTERS 125 #define MODBUS_MAX_WRITE_REGISTERS 123 #define MODBUS_MAX_WR_WRITE_REGISTERS 121 #define MODBUS_MAX_WR_READ_REGISTERS 125 /* The size of the MODBUS PDU is limited by the size constraint inherited from * the first MODBUS implementation on Serial Line network (max. RS485 ADU = 256 * bytes). Therefore, MODBUS PDU for serial line communication = 256 - Server * address (1 byte) - CRC (2 bytes) = 253 bytes. */ #define MODBUS_MAX_PDU_LENGTH 253 /* Consequently: * - RTU MODBUS ADU = 253 bytes + Server address (1 byte) + CRC (2 bytes) = 256 * bytes. * - TCP MODBUS ADU = 253 bytes + MBAP (7 bytes) = 260 bytes. * so the maximum of both backend in 260 bytes. This size can used to allocate * an array of bytes to store responses and it will be compatible with the two * backends. */ #define MODBUS_MAX_ADU_LENGTH 260 /* Random number to avoid errno conflicts */ #define MODBUS_ENOBASE 112345678 /* Protocol exceptions */ enum { MODBUS_EXCEPTION_ILLEGAL_FUNCTION = 0x01, MODBUS_EXCEPTION_ILLEGAL_DATA_ADDRESS, MODBUS_EXCEPTION_ILLEGAL_DATA_VALUE, MODBUS_EXCEPTION_SLAVE_OR_SERVER_FAILURE, MODBUS_EXCEPTION_ACKNOWLEDGE, MODBUS_EXCEPTION_SLAVE_OR_SERVER_BUSY, MODBUS_EXCEPTION_NEGATIVE_ACKNOWLEDGE, MODBUS_EXCEPTION_MEMORY_PARITY, MODBUS_EXCEPTION_NOT_DEFINED, MODBUS_EXCEPTION_GATEWAY_PATH, MODBUS_EXCEPTION_GATEWAY_TARGET, MODBUS_EXCEPTION_MAX }; #define EMBXILFUN (MODBUS_ENOBASE + MODBUS_EXCEPTION_ILLEGAL_FUNCTION) #define EMBXILADD (MODBUS_ENOBASE + MODBUS_EXCEPTION_ILLEGAL_DATA_ADDRESS) #define EMBXILVAL (MODBUS_ENOBASE + MODBUS_EXCEPTION_ILLEGAL_DATA_VALUE) #define EMBXSFAIL (MODBUS_ENOBASE + MODBUS_EXCEPTION_SLAVE_OR_SERVER_FAILURE) #define EMBXACK (MODBUS_ENOBASE + MODBUS_EXCEPTION_ACKNOWLEDGE) #define EMBXSBUSY (MODBUS_ENOBASE + MODBUS_EXCEPTION_SLAVE_OR_SERVER_BUSY) #define EMBXNACK (MODBUS_ENOBASE + MODBUS_EXCEPTION_NEGATIVE_ACKNOWLEDGE) #define EMBXMEMPAR (MODBUS_ENOBASE + MODBUS_EXCEPTION_MEMORY_PARITY) #define EMBXGPATH (MODBUS_ENOBASE + MODBUS_EXCEPTION_GATEWAY_PATH) #define EMBXGTAR (MODBUS_ENOBASE + MODBUS_EXCEPTION_GATEWAY_TARGET) /* Native libmodbus error codes */ #define EMBBADCRC (EMBXGTAR + 1) #define EMBBADDATA (EMBXGTAR + 2) #define EMBBADEXC (EMBXGTAR + 3) #define EMBUNKEXC (EMBXGTAR + 4) #define EMBMDATA (EMBXGTAR + 5) #define EMBBADSLAVE (EMBXGTAR + 6) extern const unsigned int libmodbus_version_major; extern const unsigned int libmodbus_version_minor; extern const unsigned int libmodbus_version_micro; typedef struct _modbus modbus_t; typedef struct _modbus_mapping_t { int nb_bits; int start_bits; int nb_input_bits; int start_input_bits; int nb_input_registers; int start_input_registers; int nb_registers; int start_registers; uint8_t *tab_bits; uint8_t *tab_input_bits; uint16_t *tab_input_registers; uint16_t *tab_registers; } modbus_mapping_t; typedef enum { MODBUS_ERROR_RECOVERY_NONE = 0, MODBUS_ERROR_RECOVERY_LINK = (1 << 1), MODBUS_ERROR_RECOVERY_PROTOCOL = (1 << 2) } modbus_error_recovery_mode; typedef enum { MODBUS_QUIRK_NONE = 0, MODBUS_QUIRK_MAX_SLAVE = (1 << 1), MODBUS_QUIRK_REPLY_TO_BROADCAST = (1 << 2), MODBUS_QUIRK_ALL = 0xFF } modbus_quirks; MODBUS_API int modbus_set_slave(modbus_t *ctx, int slave); MODBUS_API int modbus_get_slave(modbus_t *ctx); MODBUS_API int modbus_set_error_recovery(modbus_t *ctx, modbus_error_recovery_mode error_recovery); MODBUS_API int modbus_set_socket(modbus_t *ctx, int s); MODBUS_API int modbus_get_socket(modbus_t *ctx); MODBUS_API int modbus_get_response_timeout(modbus_t *ctx, uint32_t *to_sec, uint32_t *to_usec); MODBUS_API int modbus_set_response_timeout(modbus_t *ctx, uint32_t to_sec, uint32_t to_usec); MODBUS_API int modbus_get_byte_timeout(modbus_t *ctx, uint32_t *to_sec, uint32_t *to_usec); MODBUS_API int modbus_set_byte_timeout(modbus_t *ctx, uint32_t to_sec, uint32_t to_usec); MODBUS_API int modbus_get_indication_timeout(modbus_t *ctx, uint32_t *to_sec, uint32_t *to_usec); MODBUS_API int modbus_set_indication_timeout(modbus_t *ctx, uint32_t to_sec, uint32_t to_usec); MODBUS_API int modbus_get_header_length(modbus_t *ctx); MODBUS_API int modbus_connect(modbus_t *ctx); MODBUS_API void modbus_close(modbus_t *ctx); MODBUS_API void modbus_free(modbus_t *ctx); MODBUS_API int modbus_flush(modbus_t *ctx); MODBUS_API int modbus_set_debug(modbus_t *ctx, int flag); MODBUS_API const char *modbus_strerror(int errnum); MODBUS_API int modbus_read_bits(modbus_t *ctx, int addr, int nb, uint8_t *dest); MODBUS_API int modbus_read_input_bits(modbus_t *ctx, int addr, int nb, uint8_t *dest); MODBUS_API int modbus_read_registers(modbus_t *ctx, int addr, int nb, uint16_t *dest); MODBUS_API int modbus_read_input_registers(modbus_t *ctx, int addr, int nb, uint16_t *dest); MODBUS_API int modbus_write_bit(modbus_t *ctx, int coil_addr, int status); MODBUS_API int modbus_write_register(modbus_t *ctx, int reg_addr, const uint16_t value); MODBUS_API int modbus_write_bits(modbus_t *ctx, int addr, int nb, const uint8_t *data); MODBUS_API int modbus_write_registers(modbus_t *ctx, int addr, int nb, const uint16_t *data); MODBUS_API int modbus_mask_write_register(modbus_t *ctx, int addr, uint16_t and_mask, uint16_t or_mask); MODBUS_API int modbus_write_and_read_registers(modbus_t *ctx, int write_addr, int write_nb, const uint16_t *src, int read_addr,