recuperator fan control with esp32
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/*
* MIT License
*
* Copyright (c) 2017 David Antliff
* Copyright (c) 2017 Chris Morgan <chmorgan@gmail.com>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
/**
* @file
* @brief Interface definitions for the 1-Wire bus component.
*
* This component provides structures and functions that are useful for communicating
* with devices connected to a Maxim Integrated 1-Wire® bus via a single GPIO.
*
* Externally powered and "parasite-powered" devices are supported.
* Please consult your device's datasheet for power requirements.
*/
#ifndef ONE_WIRE_BUS_H
#define ONE_WIRE_BUS_H
#include <stdint.h>
#include <stdbool.h>
#include <stddef.h>
#include "driver/gpio.h"
#ifdef __cplusplus
extern "C" {
#endif
// ROM commands
#define OWB_ROM_SEARCH 0xF0 ///< Perform Search ROM cycle to identify devices on the bus
#define OWB_ROM_READ 0x33 ///< Read device ROM (single device on bus only)
#define OWB_ROM_MATCH 0x55 ///< Address a specific device on the bus by ROM
#define OWB_ROM_SKIP 0xCC ///< Address all devices on the bus simultaneously
#define OWB_ROM_SEARCH_ALARM 0xEC ///< Address all devices on the bus with a set alarm flag
#define OWB_ROM_CODE_STRING_LENGTH (17) ///< Typical length of OneWire bus ROM ID as ASCII hex string, including null terminator
#ifndef GPIO_NUM_NC
# define GPIO_NUM_NC (-1) ///< ESP-IDF prior to v4.x does not define GPIO_NUM_NC
#endif
struct owb_driver;
/**
* @brief Structure containing 1-Wire bus information relevant to a single instance.
*/
typedef struct
{
const struct _OneWireBus_Timing * timing; ///< Pointer to timing information
bool use_crc; ///< True if CRC checks are to be used when retrieving information from a device on the bus
bool use_parasitic_power; ///< True if parasitic-powered devices are expected on the bus
gpio_num_t strong_pullup_gpio; ///< Set if an external strong pull-up circuit is required
const struct owb_driver * driver; ///< Pointer to hardware driver instance
} OneWireBus;
/**
* @brief Represents a 1-Wire ROM Code. This is a sequence of eight bytes, where
* the first byte is the family number, then the following 6 bytes form the
* serial number. The final byte is the CRC8 check byte.
*/
typedef union
{
/// Provides access via field names
struct fields
{
uint8_t family[1]; ///< family identifier (1 byte, LSB - read/write first)
uint8_t serial_number[6]; ///< serial number (6 bytes)
uint8_t crc[1]; ///< CRC check byte (1 byte, MSB - read/write last)
} fields; ///< Provides access via field names
uint8_t bytes[8]; ///< Provides raw byte access
} OneWireBus_ROMCode;
/**
* @brief Represents the state of a device search on the 1-Wire bus.
*
* Pass a pointer to this structure to owb_search_first() and
* owb_search_next() to iterate through detected devices on the bus.
*/
typedef struct
{
OneWireBus_ROMCode rom_code; ///< Device ROM code
int last_discrepancy; ///< Bit index that identifies from which bit the next search discrepancy check should start
int last_family_discrepancy; ///< Bit index that identifies the last discrepancy within the first 8-bit family code of the ROM code
int last_device_flag; ///< Flag to indicate previous search was the last device detected
} OneWireBus_SearchState;
/**
* @brief Represents the result of OWB API functions.
*/
typedef enum
{
OWB_STATUS_NOT_SET = -1, ///< A status value has not been set
OWB_STATUS_OK = 0, ///< Operation succeeded
OWB_STATUS_NOT_INITIALIZED, ///< Function was passed an uninitialised variable
OWB_STATUS_PARAMETER_NULL, ///< Function was passed a null pointer
OWB_STATUS_DEVICE_NOT_RESPONDING, ///< No response received from the addressed device or devices
OWB_STATUS_CRC_FAILED, ///< CRC failed on data received from a device or devices
OWB_STATUS_TOO_MANY_BITS, ///< Attempt to write an incorrect number of bits to the One Wire Bus
OWB_STATUS_HW_ERROR ///< A hardware error occurred
} owb_status;
/** NOTE: Driver assumes that (*init) was called prior to any other methods */
struct owb_driver
{
/** Driver identification **/
const char* name;
/** Pointer to driver uninitialization function **/
owb_status (*uninitialize)(const OneWireBus * bus);
/** Pointer to driver reset functio **/
owb_status (*reset)(const OneWireBus * bus, bool *is_present);
/** NOTE: The data is shifted out of the low bits, eg. it is written in the order of lsb to msb */
owb_status (*write_bits)(const OneWireBus *bus, uint8_t out, int number_of_bits_to_write);
/** NOTE: Data is read into the high bits, eg. each bit read is shifted down before the next bit is read */
owb_status (*read_bits)(const OneWireBus *bus, uint8_t *in, int number_of_bits_to_read);
};
/// @cond ignore
#define container_of(ptr, type, member) ({ \
const typeof( ((type *)0)->member ) *__mptr = (ptr); \
(type *)( (char *)__mptr - offsetof(type,member) );})
/// @endcond
/**
* @brief call to release resources after completing use of the OneWireBus
* @param[in] bus Pointer to initialised bus instance.
* @return status
*/
owb_status owb_uninitialize(OneWireBus * bus);
/**
* @brief Enable or disable use of CRC checks on device communications.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] use_crc True to enable CRC checks, false to disable.
* @return status
*/
owb_status owb_use_crc(OneWireBus * bus, bool use_crc);
/**
* @brief Enable or disable use of parasitic power on the One Wire Bus.
* This affects how devices signal on the bus, as devices cannot
* signal by pulling the bus low when it is pulled high.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] use_parasitic_power True to enable parasitic power, false to disable.
* @return status
*/
owb_status owb_use_parasitic_power(OneWireBus * bus, bool use_parasitic_power);
/**
* @brief Enable or disable use of extra GPIO to activate strong pull-up circuit.
* This only has effect if parasitic power mode is enabled.
* signal by pulling the bus low when it is pulled high.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] gpio Set to GPIO number to use, or GPIO_NUM_NC to disable.
* @return status
*/
owb_status owb_use_strong_pullup_gpio(OneWireBus * bus, gpio_num_t gpio);
/**
* @brief Read ROM code from device - only works when there is a single device on the bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[out] rom_code the value read from the device's rom
* @return status
*/
owb_status owb_read_rom(const OneWireBus * bus, OneWireBus_ROMCode * rom_code);
/**
* @brief Verify the device specified by ROM code is present.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] rom_code ROM code to verify.
* @param[out] is_present Set to true if a device is present, false if not
* @return status
*/
owb_status owb_verify_rom(const OneWireBus * bus, OneWireBus_ROMCode rom_code, bool * is_present);
/**
* @brief Reset the 1-Wire bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[out] is_present set to true if at least one device is present on the bus
* @return status
*/
owb_status owb_reset(const OneWireBus * bus, bool * is_present);
/**
* @brief Read a single bit from the 1-Wire bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[out] out The bit value read from the bus.
* @return status
*/
owb_status owb_read_bit(const OneWireBus * bus, uint8_t * out);
/**
* @brief Read a single byte from the 1-Wire bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[out] out The byte value read from the bus (lsb only).
* @return status
*/
owb_status owb_read_byte(const OneWireBus * bus, uint8_t * out);
/**
* @brief Read a number of bytes from the 1-Wire bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[in, out] buffer Pointer to buffer to receive read data.
* @param[in] len Number of bytes to read, must not exceed length of receive buffer.
* @return status.
*/
owb_status owb_read_bytes(const OneWireBus * bus, uint8_t * buffer, unsigned int len);
/**
* @brief Write a bit to the 1-Wire bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] bit Value to write (lsb only).
* @return status
*/
owb_status owb_write_bit(const OneWireBus * bus, uint8_t bit);
/**
* @brief Write a single byte to the 1-Wire bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] data Byte value to write to bus.
* @return status
*/
owb_status owb_write_byte(const OneWireBus * bus, uint8_t data);
/**
* @brief Write a number of bytes to the 1-Wire bus.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] buffer Pointer to buffer to write data from.
* @param[in] len Number of bytes to write.
* @return status
*/
owb_status owb_write_bytes(const OneWireBus * bus, const uint8_t * buffer, size_t len);
/**
* @brief Write a ROM code to the 1-Wire bus ensuring LSB is sent first.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] rom_code ROM code to write to bus.
* @return status
*/
owb_status owb_write_rom_code(const OneWireBus * bus, OneWireBus_ROMCode rom_code);
/**
* @brief 1-Wire 8-bit CRC lookup.
* @param[in] crc Starting CRC value. Pass in prior CRC to accumulate.
* @param[in] data Byte to feed into CRC.
* @return Resultant CRC value.
* Should be zero if last byte was the CRC byte and the CRC matches.
*/
uint8_t owb_crc8_byte(uint8_t crc, uint8_t data);
/**
* @brief 1-Wire 8-bit CRC lookup with accumulation over a block of bytes.
* @param[in] crc Starting CRC value. Pass in prior CRC to accumulate.
* @param[in] data Array of bytes to feed into CRC.
* @param[in] len Length of data array in bytes.
* @return Resultant CRC value.
* Should be zero if last byte was the CRC byte and the CRC matches.
*/
uint8_t owb_crc8_bytes(uint8_t crc, const uint8_t * data, size_t len);
/**
* @brief Locates the first device on the 1-Wire bus, if present.
* @param[in] bus Pointer to initialised bus instance.
* @param[in,out] state Pointer to an existing search state structure.
* @param[out] found_device True if a device is found, false if no devices are found.
* If a device is found, the ROM Code can be obtained from the state.
* @return status
*/
owb_status owb_search_first(const OneWireBus * bus, OneWireBus_SearchState * state, bool *found_device);
/**
* @brief Locates the next device on the 1-Wire bus, if present, starting from
* the provided state. Further calls will yield additional devices, if present.
* @param[in] bus Pointer to initialised bus instance.
* @param[in,out] state Pointer to an existing search state structure.
* @param[out] found_device True if a device is found, false if no devices are found.
* If a device is found, the ROM Code can be obtained from the state.
* @return status
*/
owb_status owb_search_next(const OneWireBus * bus, OneWireBus_SearchState * state, bool *found_device);
/**
* @brief Create a string representation of a ROM code, most significant byte (CRC8) first.
* @param[in] rom_code The ROM code to convert to string representation.
* @param[out] buffer The destination for the string representation. It will be null terminated.
* @param[in] len The length of the buffer in bytes. 64-bit ROM codes require 16 characters
* to represent as a string, plus a null terminator, for 17 bytes.
* See OWB_ROM_CODE_STRING_LENGTH.
* @return pointer to the byte beyond the last byte written
*/
char * owb_string_from_rom_code(OneWireBus_ROMCode rom_code, char * buffer, size_t len);
/**
* @brief Enable or disable the strong-pullup GPIO, if configured.
* @param[in] bus Pointer to initialised bus instance.
* @param[in] enable If true, enable the external strong pull-up by setting the GPIO high.
* If false, disable the external strong pull-up by setting the GPIO low.
* @return status
*/
owb_status owb_set_strong_pullup(const OneWireBus * bus, bool enable);
#include "owb_gpio.h"
#include "owb_rmt.h"
#ifdef __cplusplus
}
#endif
#endif // ONE_WIRE_BUS_H