mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-18 16:53:45 +00:00
658 lines
23 KiB
C
658 lines
23 KiB
C
/*
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Unitemp - Universal temperature reader
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Copyright (C) 2022 Victor Nikitchuk (https://github.com/quen0n)
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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#include "Sensors.h"
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#include <furi_hal_power.h>
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//Порты ввода/вывода, которые не были обозначены в общем списке
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const GpioPin SWC_10 = {.pin = LL_GPIO_PIN_14, .port = GPIOA};
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const GpioPin SIO_12 = {.pin = LL_GPIO_PIN_13, .port = GPIOA};
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const GpioPin TX_13 = {.pin = LL_GPIO_PIN_6, .port = GPIOB};
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const GpioPin RX_14 = {.pin = LL_GPIO_PIN_7, .port = GPIOB};
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//Количество доступных портов ввода/вывода
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#define GPIO_ITEMS (sizeof(GPIOList) / sizeof(GPIO))
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//Количество интерфейсов
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#define INTERFACES_TYPES_COUNT (int)(sizeof(interfaces) / sizeof(const Interface*))
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//Количество типов датчиков
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#define SENSOR_TYPES_COUNT (int)(sizeof(sensorTypes) / sizeof(const SensorType*))
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//Перечень достуных портов ввода/вывода
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static const GPIO GPIOList[] = {
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{2, "2 (A7)", &gpio_ext_pa7},
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{3, "3 (A6)", &gpio_ext_pa6},
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{4, "4 (A4)", &gpio_ext_pa4},
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{5, "5 (B3)", &gpio_ext_pb3},
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{6, "6 (B2)", &gpio_ext_pb2},
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{7, "7 (C3)", &gpio_ext_pc3},
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{10, " 10(SWC) ", &SWC_10},
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{12, "12 (SIO)", &SIO_12},
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{13, "13 (TX)", &TX_13},
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{14, "14 (RX)", &RX_14},
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{15, "15 (C1)", &gpio_ext_pc1},
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{16, "16 (C0)", &gpio_ext_pc0},
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{17, "17 (1W)", &ibutton_gpio}};
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//Список интерфейсов, которые прикреплены к GPIO (определяется индексом)
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//NULL - порт свободен, указатель на интерфейс - порт занят этим интерфейсом
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static const Interface* gpio_interfaces_list[GPIO_ITEMS] = {0};
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const Interface SINGLE_WIRE = {
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.name = "Single wire",
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.allocator = unitemp_singlewire_alloc,
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.mem_releaser = unitemp_singlewire_free,
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.updater = unitemp_singlewire_update};
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const Interface I2C = {
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.name = "I2C",
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.allocator = unitemp_I2C_sensor_alloc,
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.mem_releaser = unitemp_I2C_sensor_free,
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.updater = unitemp_I2C_sensor_update};
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const Interface ONE_WIRE = {
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.name = "One wire",
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.allocator = unitemp_onewire_sensor_alloc,
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.mem_releaser = unitemp_onewire_sensor_free,
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.updater = unitemp_onewire_sensor_update};
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//Перечень интерфейсов подключения
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//static const Interface* interfaces[] = {&SINGLE_WIRE, &I2C, &ONE_WIRE};
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//Перечень датчиков
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static const SensorType* sensorTypes[] = {
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&DHT11,
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&DHT12_SW,
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&DHT20,
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&DHT21,
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&DHT22,
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&Dallas,
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&AM2320_SW,
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&AM2320_I2C,
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&AHT10,
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&SHT30,
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&GXHT30,
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&LM75,
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&BMP180,
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&BMP280,
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&BME280};
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const SensorType* unitemp_sensors_getTypeFromInt(uint8_t index) {
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if(index > SENSOR_TYPES_COUNT) return NULL;
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return sensorTypes[index];
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}
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const SensorType* unitemp_sensors_getTypeFromStr(char* str) {
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UNUSED(str);
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if(str == NULL) return NULL;
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for(uint8_t i = 0; i < unitemp_sensors_getTypesCount(); i++) {
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if(!strcmp(str, sensorTypes[i]->typename)) {
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return sensorTypes[i];
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}
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}
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return NULL;
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}
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uint8_t unitemp_sensors_getTypesCount(void) {
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return SENSOR_TYPES_COUNT;
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}
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const SensorType** unitemp_sensors_getTypes(void) {
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return sensorTypes;
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}
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int unitemp_getIntFromType(const SensorType* type) {
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for(int i = 0; i < SENSOR_TYPES_COUNT; i++) {
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if(!strcmp(type->typename, sensorTypes[i]->typename)) {
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return i;
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}
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}
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return 255;
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}
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const GPIO* unitemp_gpio_getFromInt(uint8_t name) {
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for(uint8_t i = 0; i < GPIO_ITEMS; i++) {
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if(GPIOList[i].num == name) {
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return &GPIOList[i];
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}
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}
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return NULL;
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}
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const GPIO* unitemp_gpio_getFromIndex(uint8_t index) {
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return &GPIOList[index];
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}
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uint8_t unitemp_gpio_toInt(const GPIO* gpio) {
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if(gpio == NULL) return 255;
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for(uint8_t i = 0; i < GPIO_ITEMS; i++) {
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if(GPIOList[i].pin->pin == gpio->pin->pin && GPIOList[i].pin->port == gpio->pin->port) {
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return GPIOList[i].num;
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}
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}
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return 255;
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}
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uint8_t unitemp_gpio_to_index(const GpioPin* gpio) {
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if(gpio == NULL) return 255;
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for(uint8_t i = 0; i < GPIO_ITEMS; i++) {
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if(GPIOList[i].pin->pin == gpio->pin && GPIOList[i].pin->port == gpio->port) {
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return i;
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}
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}
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return 255;
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}
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uint8_t unitemp_gpio_getAviablePortsCount(const Interface* interface, const GPIO* extraport) {
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uint8_t aviable_ports_count = 0;
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for(uint8_t i = 0; i < GPIO_ITEMS; i++) {
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//Проверка для one wire
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if(interface == &ONE_WIRE) {
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if(((gpio_interfaces_list[i] == NULL || gpio_interfaces_list[i] == &ONE_WIRE) &&
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(i != 12)) || //Почему-то не работает на 17 порте
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(unitemp_gpio_getFromIndex(i) == extraport)) {
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aviable_ports_count++;
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}
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}
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//Проверка для single wire
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if(interface == &SINGLE_WIRE) {
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if(gpio_interfaces_list[i] == NULL || (unitemp_gpio_getFromIndex(i) == extraport)) {
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aviable_ports_count++;
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}
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}
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if(interface == &I2C) {
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//У I2C два фиксированых порта
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return 0;
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}
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}
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return aviable_ports_count;
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}
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void unitemp_gpio_lock(const GPIO* gpio, const Interface* interface) {
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uint8_t i = unitemp_gpio_to_index(gpio->pin);
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if(i == 255) return;
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gpio_interfaces_list[i] = interface;
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}
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void unitemp_gpio_unlock(const GPIO* gpio) {
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uint8_t i = unitemp_gpio_to_index(gpio->pin);
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if(i == 255) return;
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gpio_interfaces_list[i] = NULL;
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}
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const GPIO*
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unitemp_gpio_getAviablePort(const Interface* interface, uint8_t index, const GPIO* extraport) {
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//Проверка для I2C
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if(interface == &I2C) {
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if((gpio_interfaces_list[10] == NULL || gpio_interfaces_list[10] == &I2C) &&
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(gpio_interfaces_list[11] == NULL || gpio_interfaces_list[11] == &I2C)) {
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//Возврат истины
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return unitemp_gpio_getFromIndex(0);
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} else {
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//Возврат лжи
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return NULL;
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}
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}
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uint8_t aviable_index = 0;
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for(uint8_t i = 0; i < GPIO_ITEMS; i++) {
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//Проверка для one wire
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if(interface == &ONE_WIRE) {
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//Почему-то не работает на 17 порте
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if(((gpio_interfaces_list[i] == NULL || gpio_interfaces_list[i] == &ONE_WIRE) &&
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(i != 12)) || //Почему-то не работает на 17 порте
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(unitemp_gpio_getFromIndex(i) == extraport)) {
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if(aviable_index == index) {
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return unitemp_gpio_getFromIndex(i);
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} else {
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aviable_index++;
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}
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}
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}
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//Проверка для single wire
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if(interface == &SINGLE_WIRE) {
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if(gpio_interfaces_list[i] == NULL || unitemp_gpio_getFromIndex(i) == extraport) {
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if(aviable_index == index) {
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return unitemp_gpio_getFromIndex(i);
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} else {
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aviable_index++;
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}
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}
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}
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}
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return NULL;
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}
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void unitemp_sensor_delete(Sensor* sensor) {
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for(uint8_t i = 0; i < app->sensors_count; i++) {
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if(app->sensors[i] == sensor) {
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app->sensors[i]->status = UT_SENSORSTATUS_INACTIVE;
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unitemp_sensors_save();
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unitemp_sensors_reload();
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return;
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}
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}
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}
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Sensor* unitemp_sensor_getActive(uint8_t index) {
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uint8_t aviable_index = 0;
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for(uint8_t i = 0; i < app->sensors_count; i++) {
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if(app->sensors[i]->status != UT_SENSORSTATUS_INACTIVE) {
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if(aviable_index == index) {
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return app->sensors[i];
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} else {
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aviable_index++;
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}
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}
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}
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return NULL;
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}
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uint8_t unitemp_sensors_getCount(void) {
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if(app->sensors == NULL) return 0;
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return app->sensors_count;
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}
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uint8_t unitemp_sensors_getActiveCount(void) {
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if(app->sensors == NULL) return 0;
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uint8_t counter = 0;
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for(uint8_t i = 0; i < unitemp_sensors_getCount(); i++) {
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if(app->sensors[i]->status != UT_SENSORSTATUS_INACTIVE) counter++;
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}
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return counter;
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}
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void unitemp_sensors_add(Sensor* sensor) {
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app->sensors =
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(Sensor**)realloc(app->sensors, (unitemp_sensors_getCount() + 1) * sizeof(Sensor*));
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app->sensors[unitemp_sensors_getCount()] = sensor;
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app->sensors_count++;
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}
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bool unitemp_sensors_load(void) {
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#ifdef UNITEMP_DEBUG
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FURI_LOG_D(APP_NAME, "Loading sensors...");
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#endif
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//Выделение памяти на поток
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app->file_stream = file_stream_alloc(app->storage);
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//Переменная пути к файлу
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FuriString* filepath = furi_string_alloc();
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//Составление пути к файлу
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furi_string_printf(filepath, "%s/%s", APP_PATH_FOLDER, APP_FILENAME_SENSORS);
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//Открытие потока к файлу с датчиками
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if(!file_stream_open(
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app->file_stream, furi_string_get_cstr(filepath), FSAM_READ_WRITE, FSOM_OPEN_EXISTING)) {
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if(file_stream_get_error(app->file_stream) == FSE_NOT_EXIST) {
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FURI_LOG_W(APP_NAME, "Missing sensors file");
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//Закрытие потока и освобождение памяти
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file_stream_close(app->file_stream);
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stream_free(app->file_stream);
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return false;
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} else {
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FURI_LOG_E(
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APP_NAME,
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"An error occurred while loading the sensors file: %d",
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file_stream_get_error(app->file_stream));
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//Закрытие потока и освобождение памяти
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file_stream_close(app->file_stream);
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stream_free(app->file_stream);
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return false;
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}
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}
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//Вычисление размера файла
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uint16_t file_size = stream_size(app->file_stream);
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//Если файл пустой, то:
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if(file_size == (uint8_t)0) {
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FURI_LOG_W(APP_NAME, "Sensors file is empty");
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//Закрытие потока и освобождение памяти
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file_stream_close(app->file_stream);
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stream_free(app->file_stream);
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return false;
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}
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//Выделение памяти под загрузку файла
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uint8_t* file_buf = malloc(file_size);
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//Опустошение буфера файла
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memset(file_buf, 0, file_size);
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//Загрузка файла
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if(stream_read(app->file_stream, file_buf, file_size) != file_size) {
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//Выход при ошибке чтения
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FURI_LOG_E(APP_NAME, "Error reading sensors file");
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//Закрытие потока и освобождение памяти
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file_stream_close(app->file_stream);
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stream_free(app->file_stream);
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free(file_buf);
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return false;
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}
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//Указатель на начало строки
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FuriString* file = furi_string_alloc_set_str((char*)file_buf);
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//Сколько байт до конца строки
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size_t line_end = 0;
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while(line_end != ((size_t)-1) && line_end != (size_t)(file_size - 1)) {
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//Имя датчика
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char name[11] = {0};
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//Тип датчика
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char type[11] = {0};
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//Смещение по температуре
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int temp_offset = 0;
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//Смещение по строке для отделения аргументов
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int offset = 0;
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//Чтение из строки
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sscanf(((char*)(file_buf + line_end)), "%s %s %d %n", name, type, &temp_offset, &offset);
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//Ограничение длины имени
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name[10] = '\0';
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//Замена ? на пробел
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for(uint8_t i = 0; i < 10; i++) {
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if(name[i] == '?') name[i] = ' ';
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}
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char* args = ((char*)(file_buf + line_end + offset));
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const SensorType* stype = unitemp_sensors_getTypeFromStr(type);
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//Проверка типа датчика
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if(stype != NULL && sizeof(name) > 0 && sizeof(name) <= 11) {
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Sensor* sensor =
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unitemp_sensor_alloc(name, unitemp_sensors_getTypeFromStr(type), args);
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if(sensor != NULL) {
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sensor->temp_offset = temp_offset;
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unitemp_sensors_add(sensor);
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} else {
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FURI_LOG_E(APP_NAME, "Failed sensor (%s:%s) mem allocation", name, type);
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}
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} else {
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FURI_LOG_E(APP_NAME, "Unsupported sensor name (%s) or sensor type (%s)", name, type);
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}
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//Вычисление конца строки
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line_end = furi_string_search_char(file, '\n', line_end + 1);
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}
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free(file_buf);
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file_stream_close(app->file_stream);
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stream_free(app->file_stream);
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FURI_LOG_I(APP_NAME, "Sensors have been successfully loaded");
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return true;
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}
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bool unitemp_sensors_save(void) {
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#ifdef UNITEMP_DEBUG
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FURI_LOG_D(APP_NAME, "Saving sensors...");
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#endif
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//Выделение памяти для потока
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app->file_stream = file_stream_alloc(app->storage);
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//Переменная пути к файлу
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FuriString* filepath = furi_string_alloc();
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//Составление пути к файлу
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furi_string_printf(filepath, "%s/%s", APP_PATH_FOLDER, APP_FILENAME_SENSORS);
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//Создание папки плагина
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storage_common_mkdir(app->storage, APP_PATH_FOLDER);
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//Открытие потока
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if(!file_stream_open(
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app->file_stream, furi_string_get_cstr(filepath), FSAM_READ_WRITE, FSOM_CREATE_ALWAYS)) {
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FURI_LOG_E(
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APP_NAME,
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"An error occurred while saving the sensors file: %d",
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file_stream_get_error(app->file_stream));
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//Закрытие потока и освобождение памяти
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file_stream_close(app->file_stream);
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stream_free(app->file_stream);
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return false;
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}
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//Сохранение датчиков
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for(uint8_t i = 0; i < unitemp_sensors_getActiveCount(); i++) {
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Sensor* sensor = unitemp_sensor_getActive(i);
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//Замена пробела на ?
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for(uint8_t i = 0; i < 10; i++) {
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if(sensor->name[i] == ' ') sensor->name[i] = '?';
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}
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stream_write_format(
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app->file_stream,
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"%s %s %d ",
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sensor->name,
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sensor->type->typename,
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sensor->temp_offset);
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if(sensor->type->interface == &SINGLE_WIRE) {
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stream_write_format(
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app->file_stream, "%d\n", unitemp_singlewire_sensorGetGPIO(sensor)->num);
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}
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if(sensor->type->interface == &I2C) {
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stream_write_format(
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app->file_stream, "%X\n", ((I2CSensor*)sensor->instance)->currentI2CAdr);
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}
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if(sensor->type->interface == &ONE_WIRE) {
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stream_write_format(
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app->file_stream,
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"%d %02X%02X%02X%02X%02X%02X%02X%02X\n",
|
||
((OneWireSensor*)sensor->instance)->bus->gpio->num,
|
||
((OneWireSensor*)sensor->instance)->deviceID[0],
|
||
((OneWireSensor*)sensor->instance)->deviceID[1],
|
||
((OneWireSensor*)sensor->instance)->deviceID[2],
|
||
((OneWireSensor*)sensor->instance)->deviceID[3],
|
||
((OneWireSensor*)sensor->instance)->deviceID[4],
|
||
((OneWireSensor*)sensor->instance)->deviceID[5],
|
||
((OneWireSensor*)sensor->instance)->deviceID[6],
|
||
((OneWireSensor*)sensor->instance)->deviceID[7]);
|
||
}
|
||
}
|
||
|
||
//Закрытие потока и освобождение памяти
|
||
file_stream_close(app->file_stream);
|
||
stream_free(app->file_stream);
|
||
|
||
FURI_LOG_I(APP_NAME, "Sensors have been successfully saved");
|
||
return true;
|
||
}
|
||
void unitemp_sensors_reload(void) {
|
||
unitemp_sensors_deInit();
|
||
unitemp_sensors_free();
|
||
|
||
unitemp_sensors_load();
|
||
unitemp_sensors_init();
|
||
}
|
||
|
||
bool unitemp_sensor_isContains(Sensor* sensor) {
|
||
for(uint8_t i = 0; i < unitemp_sensors_getCount(); i++) {
|
||
if(app->sensors[i] == sensor) return true;
|
||
}
|
||
return false;
|
||
}
|
||
|
||
Sensor* unitemp_sensor_alloc(char* name, const SensorType* type, char* args) {
|
||
if(name == NULL || type == NULL) return NULL;
|
||
bool status = false;
|
||
//Выделение памяти под датчик
|
||
Sensor* sensor = malloc(sizeof(Sensor));
|
||
if(sensor == NULL) {
|
||
FURI_LOG_E(APP_NAME, "Sensor %s allocation error", name);
|
||
return false;
|
||
}
|
||
|
||
//Выделение памяти под имя
|
||
sensor->name = malloc(11);
|
||
if(sensor->name == NULL) {
|
||
FURI_LOG_E(APP_NAME, "Sensor %s name allocation error", name);
|
||
return false;
|
||
}
|
||
//Запись имени датчка
|
||
strcpy(sensor->name, name);
|
||
//Тип датчика
|
||
sensor->type = type;
|
||
//Статус датчика по умолчанию - ошибка
|
||
sensor->status = UT_SENSORSTATUS_ERROR;
|
||
//Время последнего опроса
|
||
sensor->lastPollingTime =
|
||
furi_get_tick() - 10000; //чтобы первый опрос произошёл как можно раньше
|
||
|
||
sensor->temp = -128.0f;
|
||
sensor->hum = -128.0f;
|
||
sensor->pressure = -128.0f;
|
||
sensor->temp_offset = 0;
|
||
//Выделение памяти под инстанс датчика в зависимости от его интерфейса
|
||
status = sensor->type->interface->allocator(sensor, args);
|
||
|
||
//Выход если датчик успешно развёрнут
|
||
if(status) {
|
||
FURI_LOG_I(APP_NAME, "Sensor %s allocated", name);
|
||
return sensor;
|
||
}
|
||
//Выход с очисткой если память для датчика не была выделена
|
||
free(sensor->name);
|
||
free(sensor);
|
||
FURI_LOG_E(APP_NAME, "Sensor %s(%s) allocation error", name, type->typename);
|
||
return NULL;
|
||
}
|
||
|
||
void unitemp_sensor_free(Sensor* sensor) {
|
||
if(sensor == NULL) {
|
||
FURI_LOG_E(APP_NAME, "Null pointer sensor releasing");
|
||
return;
|
||
}
|
||
if(sensor->type == NULL) {
|
||
FURI_LOG_E(APP_NAME, "Sensor type is null");
|
||
return;
|
||
}
|
||
if(sensor->type->mem_releaser == NULL) {
|
||
FURI_LOG_E(APP_NAME, "Sensor releaser is null");
|
||
return;
|
||
}
|
||
bool status = false;
|
||
//Высвобождение памяти под инстанс
|
||
status = sensor->type->interface->mem_releaser(sensor);
|
||
UNUSED(status);
|
||
#ifdef UNITEMP_DEBUG
|
||
|
||
if(status) {
|
||
FURI_LOG_D(APP_NAME, "Sensor %s memory successfully released", sensor->name);
|
||
} else {
|
||
FURI_LOG_E(APP_NAME, "Sensor %s memory is not released", sensor->name);
|
||
}
|
||
#endif
|
||
free(sensor->name);
|
||
//free(sensor);
|
||
}
|
||
|
||
void unitemp_sensors_free(void) {
|
||
for(uint8_t i = 0; i < unitemp_sensors_getCount(); i++) {
|
||
unitemp_sensor_free(app->sensors[i]);
|
||
}
|
||
app->sensors_count = 0;
|
||
}
|
||
|
||
bool unitemp_sensors_init(void) {
|
||
bool result = true;
|
||
|
||
//Перебор датчиков из списка
|
||
for(uint8_t i = 0; i < unitemp_sensors_getCount(); i++) {
|
||
//Включение 5V если на порту 1 FZ его нет
|
||
//Может пропасть при отключении USB
|
||
if(furi_hal_power_is_otg_enabled() != true) {
|
||
furi_hal_power_enable_otg();
|
||
#ifdef UNITEMP_DEBUG
|
||
FURI_LOG_D(APP_NAME, "OTG enabled");
|
||
#endif
|
||
}
|
||
if(!(*app->sensors[i]->type->initializer)(app->sensors[i])) {
|
||
FURI_LOG_E(
|
||
APP_NAME,
|
||
"An error occurred during sensor initialization %s",
|
||
app->sensors[i]->name);
|
||
result = false;
|
||
}
|
||
#ifdef UNITEMP_DEBUG
|
||
FURI_LOG_D(APP_NAME, "Sensor %s successfully initialized", app->sensors[i]->name);
|
||
#endif
|
||
}
|
||
app->sensors_ready = true;
|
||
return result;
|
||
}
|
||
|
||
bool unitemp_sensors_deInit(void) {
|
||
bool result = true;
|
||
//Выключение 5 В если до этого оно не было включено
|
||
if(app->settings.lastOTGState != true) {
|
||
furi_hal_power_disable_otg();
|
||
#ifdef UNITEMP_DEBUG
|
||
FURI_LOG_D(APP_NAME, "OTG disabled");
|
||
#endif
|
||
}
|
||
|
||
//Перебор датчиков из списка
|
||
for(uint8_t i = 0; i < unitemp_sensors_getCount(); i++) {
|
||
if(!(*app->sensors[i]->type->deinitializer)(app->sensors[i])) {
|
||
FURI_LOG_E(
|
||
APP_NAME,
|
||
"An error occurred during sensor deinitialization %s",
|
||
app->sensors[i]->name);
|
||
result = false;
|
||
}
|
||
}
|
||
return result;
|
||
}
|
||
|
||
UnitempStatus unitemp_sensor_updateData(Sensor* sensor) {
|
||
if(sensor == NULL) return UT_SENSORSTATUS_ERROR;
|
||
|
||
//Проверка на допустимость опроса датчика
|
||
if(furi_get_tick() - sensor->lastPollingTime < sensor->type->pollingInterval) {
|
||
//Возврат ошибки если последний опрос датчика был неудачным
|
||
if(sensor->status == UT_SENSORSTATUS_TIMEOUT) {
|
||
return UT_SENSORSTATUS_TIMEOUT;
|
||
}
|
||
return UT_SENSORSTATUS_EARLYPOOL;
|
||
}
|
||
|
||
sensor->lastPollingTime = furi_get_tick();
|
||
|
||
if(!furi_hal_power_is_otg_enabled()) {
|
||
furi_hal_power_enable_otg();
|
||
}
|
||
|
||
sensor->status = sensor->type->interface->updater(sensor);
|
||
|
||
#ifdef UNITEMP_DEBUG
|
||
if(sensor->status != UT_SENSORSTATUS_OK && sensor->status != UT_SENSORSTATUS_POLLING)
|
||
FURI_LOG_D(APP_NAME, "Sensor %s update status %d", sensor->name, sensor->status);
|
||
#endif
|
||
|
||
if(app->settings.temp_unit == UT_TEMP_FAHRENHEIT && sensor->status == UT_SENSORSTATUS_OK)
|
||
uintemp_celsiumToFarengate(sensor);
|
||
if(sensor->status == UT_SENSORSTATUS_OK) {
|
||
sensor->temp += sensor->temp_offset / 10.f;
|
||
if(app->settings.pressure_unit == UT_PRESSURE_MM_HG) {
|
||
unitemp_pascalToMmHg(sensor);
|
||
} else if(app->settings.pressure_unit == UT_PRESSURE_IN_HG) {
|
||
unitemp_pascalToInHg(sensor);
|
||
} else if(app->settings.pressure_unit == UT_PRESSURE_KPA) {
|
||
unitemp_pascalToKPa(sensor);
|
||
}
|
||
}
|
||
return sensor->status;
|
||
}
|
||
|
||
void unitemp_sensors_updateValues(void) {
|
||
for(uint8_t i = 0; i < unitemp_sensors_getCount(); i++) {
|
||
unitemp_sensor_updateData(unitemp_sensor_getActive(i));
|
||
}
|
||
}
|