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MyMessage.h
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MyMessage.h
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/*
The MySensors library adds a new layer on top of the RF24 library.
It handles radio network routing, relaying and ids.
Created by Henrik Ekblad <[email protected]>
12/10/14 - Ported to Raspberry Pi by OUJABER Mohamed <[email protected]>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
version 2 as published by the Free Software Foundation.
*/
#ifndef MyMessage_h
#define MyMessage_h
#ifdef __Raspberry_Pi
typedef bool boolean;
typedef char * String;
#define max(a,b) (a>b?a:b)
#define min(a,b) (a<b?a:b)
#endif
#if defined(__cplusplus) && !defined(__Raspberry_Pi)
#include <Arduino.h>
#elif defined(__cplusplus)
#include <string.h>
#include <stdint.h>
#include <cstdlib>
#include <stdlib.h>
#include <cstdlib>
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <getopt.h>
#include <cstdlib>
#include <iostream>
#include <stddef.h>
#endif
#define PROTOCOL_VERSION 2
#define MAX_MESSAGE_LENGTH 32
#define HEADER_SIZE 7
#define MAX_PAYLOAD (MAX_MESSAGE_LENGTH - HEADER_SIZE)
// Message types
typedef enum {
C_PRESENTATION = 0,
C_SET = 1,
C_REQ = 2,
C_INTERNAL = 3,
C_STREAM = 4 // For Firmware and other larger chunks of data that need to be divided into pieces.
} mysensor_command;
// Type of sensor data (for set/req/ack messages)
typedef enum {
V_TEMP,V_HUM, V_LIGHT, V_DIMMER, V_PRESSURE, V_FORECAST, V_RAIN,
V_RAINRATE, V_WIND, V_GUST, V_DIRECTION, V_UV, V_WEIGHT, V_DISTANCE,
V_IMPEDANCE, V_ARMED, V_TRIPPED, V_WATT, V_KWH, V_SCENE_ON, V_SCENE_OFF,
V_HEATER, V_HEATER_SW, V_LIGHT_LEVEL, V_VAR1, V_VAR2, V_VAR3, V_VAR4, V_VAR5,
V_UP, V_DOWN, V_STOP, V_IR_SEND, V_IR_RECEIVE, V_FLOW, V_VOLUME, V_LOCK_STATUS,
V_DUST_LEVEL, V_VOLTAGE, V_CURRENT
} mysensor_data;
// Type of internal messages (for internal messages)
typedef enum {
I_BATTERY_LEVEL, I_TIME, I_VERSION, I_ID_REQUEST, I_ID_RESPONSE,
I_INCLUSION_MODE, I_CONFIG, I_FIND_PARENT, I_FIND_PARENT_RESPONSE,
I_LOG_MESSAGE, I_CHILDREN, I_SKETCH_NAME, I_SKETCH_VERSION,
I_REBOOT, I_GATEWAY_READY
} mysensor_internal;
// Type of sensor (for presentation message)
typedef enum {
S_DOOR, S_MOTION, S_SMOKE, S_LIGHT, S_DIMMER, S_COVER, S_TEMP, S_HUM, S_BARO, S_WIND,
S_RAIN, S_UV, S_WEIGHT, S_POWER, S_HEATER, S_DISTANCE, S_LIGHT_LEVEL, S_ARDUINO_NODE,
S_ARDUINO_REPEATER_NODE, S_LOCK, S_IR, S_WATER, S_AIR_QUALITY, S_CUSTOM, S_DUST,
S_SCENE_CONTROLLER
} mysensor_sensor;
// Type of data stream (for streamed message)
typedef enum {
ST_FIRMWARE_CONFIG_REQUEST, ST_FIRMWARE_CONFIG_RESPONSE, ST_FIRMWARE_REQUEST, ST_FIRMWARE_RESPONSE,
ST_SOUND, ST_IMAGE
} mysensor_stream;
typedef enum {
P_STRING, P_BYTE, P_INT16, P_UINT16, P_LONG32, P_ULONG32, P_CUSTOM, P_FLOAT32
} mysensor_payload;
#define BIT(n) ( 1<<(n) )
// Create a bitmask of length len.
#define BIT_MASK(len) ( BIT(len)-1 )
// Create a bitfield mask of length starting at bit 'start'.
#define BF_MASK(start, len) ( BIT_MASK(len)<<(start) )
// Prepare a bitmask for insertion or combining.
#define BF_PREP(x, start, len) ( ((x)&BIT_MASK(len)) << (start) )
// Extract a bitfield of length len starting at bit 'start' from y.
#define BF_GET(y, start, len) ( ((y)>>(start)) & BIT_MASK(len) )
// Insert a new bitfield value x into y.
#define BF_SET(y, x, start, len) ( y= ((y) &~ BF_MASK(start, len)) | BF_PREP(x, start, len) )
// Getters/setters for special bit fields in header
#define mSetVersion(_msg,_version) BF_SET(_msg.version_length, _version, 0, 3)
#define mGetVersion(_msg) BF_GET(_msg.version_length, 0, 3)
#define mSetLength(_msg,_length) BF_SET(_msg.version_length, _length, 3, 5)
#define mGetLength(_msg) BF_GET(_msg.version_length, 3, 5)
#define mSetCommand(_msg,_command) BF_SET(_msg.command_ack_payload, _command, 0, 3)
#define mGetCommand(_msg) BF_GET(_msg.command_ack_payload, 0, 3)
#define mSetRequestAck(_msg,_rack) BF_SET(_msg.command_ack_payload, _rack, 3, 1)
#define mGetRequestAck(_msg) BF_GET(_msg.command_ack_payload, 3, 1)
#define mSetAck(_msg,_ackMsg) BF_SET(_msg.command_ack_payload, _ackMsg, 4, 1)
#define mGetAck(_msg) BF_GET(_msg.command_ack_payload, 4, 1)
#define mSetPayloadType(_msg, _pt) BF_SET(_msg.command_ack_payload, _pt, 5, 3)
#define mGetPayloadType(_msg) BF_GET(_msg.command_ack_payload, 5, 3)
// internal access for special fields
#define miGetCommand() BF_GET(command_ack_payload, 0, 3)
#define miSetLength(_length) BF_SET(version_length, _length, 3, 5)
#define miGetLength() BF_GET(version_length, 3, 5)
#define miSetRequestAck(_rack) BF_SET(command_ack_payload, _rack, 3, 1)
#define miGetRequestAck() BF_GET(command_ack_payload, 3, 1)
#define miSetAck(_ack) BF_SET(command_ack_payload, _ack, 4, 1)
#define miGetAck() BF_GET(command_ack_payload, 4, 1)
#define miSetPayloadType(_pt) BF_SET(command_ack_payload, _pt, 5, 3)
#define miGetPayloadType() BF_GET(command_ack_payload, 5, 3)
#ifdef __cplusplus
class MyMessage
{
private:
char* getCustomString(char *buffer) const;
public:
// Constructors
MyMessage();
MyMessage(uint8_t sensor, uint8_t type);
char i2h(uint8_t i) const;
/**
* If payload is something else than P_STRING you can have the payload value converted
* into string representation by supplying a buffer with the minimum size of
* 2*MAX_PAYLOAD+1. This is to be able to fit hex-conversion of a full binary payload.
*/
char* getStream(char *buffer) const;
char* getString(char *buffer) const;
const char* getString() const;
void* getCustom() const;
uint8_t getByte() const;
bool getBool() const;
float getFloat() const;
long getLong() const;
unsigned long getULong() const;
int getInt() const;
unsigned int getUInt() const;
// Getter for ack-flag. True if this is an ack message.
bool isAck() const;
// Setters for building message "on the fly"
MyMessage& setType(uint8_t type);
MyMessage& setSensor(uint8_t sensor);
MyMessage& setDestination(uint8_t destination);
// Setters for payload
MyMessage& set(void* payload, uint8_t length);
MyMessage& set(const char* value);
MyMessage& set(uint8_t value);
MyMessage& set(float value, uint8_t decimals);
MyMessage& set(unsigned long value);
MyMessage& set(long value);
MyMessage& set(unsigned int value);
MyMessage& set(int value);
#else
typedef union {
struct
{
#endif
uint8_t last; // 8 bit - Id of last node this message passed
uint8_t sender; // 8 bit - Id of sender node (origin)
uint8_t destination; // 8 bit - Id of destination node
uint8_t version_length; // 3 bit - Protocol version
// 5 bit - Length of payload
uint8_t command_ack_payload; // 3 bit - Command type
// 1 bit - Request an ack - Indicator that receiver should send an ack back.
// 1 bit - Is ack messsage - Indicator that this is the actual ack message.
// 3 bit - Payload data type
uint8_t type; // 8 bit - Type varies depending on command
uint8_t sensor; // 8 bit - Id of sensor that this message concerns.
// Each message can transfer a payload. We add one extra byte for string
// terminator \0 to be "printable" this is not transferred OTA
// This union is used to simplify the construction of the binary data types transferred.
union {
uint8_t bValue;
unsigned long ulValue;
long lValue;
unsigned int uiValue;
int iValue;
struct { // Float messages
float fValue;
uint8_t fPrecision; // Number of decimals when serializing
};
struct { // Presentation messages
uint8_t version; // Library version
uint8_t sensorType; // Sensor type hint for controller, see table above
};
char data[MAX_PAYLOAD + 1];
} __attribute__((packed));
#ifdef __cplusplus
} __attribute__((packed));
#else
};
uint8_t array[HEADER_SIZE + MAX_PAYLOAD + 1];
} __attribute__((packed)) MyMessage;
#endif
#endif