esp-open-rtos/extras/ds18b20/ds18b20.h

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#ifndef DRIVER_DS18B20_H_
#define DRIVER_DS18B20_H_
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#include "onewire/onewire.h"
/** @file ds18b20.h
*
* Communicate with the DS18B20 family of one-wire temperature sensor ICs.
*
*/
typedef onewire_addr_t ds18b20_addr_t;
/** An address value which can be used to indicate "any device on the bus" */
#define DS18B20_ANY ONEWIRE_NONE
/** Find the addresses of all DS18B20 devices on the bus.
*
* Scans the bus for all devices and places their addresses in the supplied
* array. If there are more than `addr_count` devices on the bus, only the
* first `addr_count` are recorded.
*
* @param pin The GPIO pin connected to the DS18B20 bus
* @param addr_list A pointer to an array of ds18b20_addr_t values. This
* will be populated with the addresses of the found
* devices.
* @param addr_count Number of slots in the `addr_list` array. At most this
* many addresses will be returned.
*
* @returns The number of devices found. Note that this may be less than,
* equal to, or more than `addr_count`, depending on how many DS18B20 devices
* are attached to the bus.
*/
int ds18b20_scan_devices(int pin, ds18b20_addr_t *addr_list, int addr_count);
/** Tell one or more sensors to perform a temperature measurement and
* conversion (CONVERT_T) operation. This operation can take up to 750ms to
* complete.
*
* If `wait=true`, this routine will automatically drive the pin high for the
* necessary 750ms after issuing the command to ensure parasitically-powered
* devices have enough power to perform the conversion operation (for
* non-parasitically-powered devices, this is not necessary but does not
* hurt). If `wait=false`, this routine will drive the pin high, but will
* then return immediately. It is up to the caller to wait the requisite time
* and then depower the bus using onewire_depower() or by issuing another
* command once conversion is done.
*
* @param pin The GPIO pin connected to the DS18B20 device
* @param addr The 64-bit address of the device on the bus. This can be set
* to ::DS18B20_ANY to send the command to all devices on the bus
* at the same time.
* @param wait Whether to wait for the necessary 750ms for the DS18B20 to
* finish performing the conversion before returning to the
* caller (You will normally want to do this).
*
* @returns `true` if the command was successfully issued, or `false` on error.
*/
bool ds18b20_measure(int pin, ds18b20_addr_t addr, bool wait);
/** Read the value from the last CONVERT_T operation.
*
* This should be called after ds18b20_measure() to fetch the result of the
* temperature measurement.
*
* @param pin The GPIO pin connected to the DS18B20 device
* @param addr The 64-bit address of the device to read. This can be set
* to ::DS18B20_ANY to read any device on the bus (but note
* that this will only work if there is exactly one device
* connected, or they will corrupt each others' transmissions)
*
* @returns The temperature in degrees Celsius, or NaN if there was an error.
*/
float ds18b20_read_temperature(int pin, ds18b20_addr_t addr);
/** Read the value from the last CONVERT_T operation for multiple devices.
*
* This should be called after ds18b20_measure() to fetch the result of the
* temperature measurement.
*
* @param pin The GPIO pin connected to the DS18B20 bus
* @param addr_list A list of addresses for devices to read.
* @param addr_count The number of entries in `addr_list`.
* @param result_list An array of floats to hold the returned temperature
* values. It should have at least `addr_count` entries.
*
* @returns `true` if all temperatures were fetched successfully, or `false`
* if one or more had errors (the temperature for erroring devices will be
* returned as NaN).
*/
bool ds18b20_read_temp_multi(int pin, ds18b20_addr_t *addr_list, int addr_count, float *result_list);
/** Perform a ds18b20_measure() followed by ds18b20_read_temperature()
*
* @param pin The GPIO pin connected to the DS18B20 device
* @param addr The 64-bit address of the device to read. This can be set
* to ::DS18B20_ANY to read any device on the bus (but note
* that this will only work if there is exactly one device
* connected, or they will corrupt each others' transmissions)
*
* @returns The temperature in degrees Celsius, or NaN if there was an error.
*/
float ds18b20_measure_and_read(int pin, ds18b20_addr_t addr);
/** Perform a ds18b20_measure() followed by ds18b20_read_temp_multi()
*
* @param pin The GPIO pin connected to the DS18B20 bus
* @param addr_list A list of addresses for devices to read.
* @param addr_count The number of entries in `addr_list`.
* @param result_list An array of floats to hold the returned temperature
* values. It should have at least `addr_count` entries.
*
* @returns `true` if all temperatures were fetched successfully, or `false`
* if one or more had errors (the temperature for erroring devices will be
* returned as NaN).
*/
bool ds18b20_measure_and_read_multi(int pin, ds18b20_addr_t *addr_list, int addr_count, float *result_list);
/** Read the scratchpad data for a particular DS18B20 device.
*
* This is not generally necessary to do directly. It is done automatically
* as part of ds18b20_read_temperature().
*
* @param pin The GPIO pin connected to the DS18B20 device
* @param addr The 64-bit address of the device to read. This can be set
* to ::DS18B20_ANY to read any device on the bus (but note
* that this will only work if there is exactly one device
* connected, or they will corrupt each others' transmissions)
* @param buffer An 8-byte buffer to hold the read data.
*
* @returns `true` if the data was read successfully, or `false` on error.
*/
bool ds18b20_read_scratchpad(int pin, ds18b20_addr_t addr, uint8_t *buffer);
// The following are obsolete/deprecated APIs
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typedef struct {
uint8_t id;
float value;
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} ds_sensor_t;
// Scan all ds18b20 sensors on bus and return its amount.
// Result are saved in array of ds_sensor_t structure.
uint8_t ds18b20_read_all(uint8_t pin, ds_sensor_t *result);
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// This method is just to demonstrate how to read
// temperature from single dallas chip.
float ds18b20_read_single(uint8_t pin);
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#endif