From 4790bcedc7c92edc3c1a628491f042d3bc48c486 Mon Sep 17 00:00:00 2001 From: Smile <140771579+xsmilexxxl@users.noreply.github.com> Date: Sat, 26 Oct 2024 20:24:39 +0800 Subject: [PATCH] Add files via upload --- components/esp-idf-bmx280/CMakeLists.txt | 6 + components/esp-idf-bmx280/Kconfig | 137 +++++ components/esp-idf-bmx280/LICENSE | 21 + components/esp-idf-bmx280/README.md | 73 +++ components/esp-idf-bmx280/bmx280.c | 529 ++++++++++++++++++ components/esp-idf-bmx280/include/bmx280.h | 125 +++++ .../esp-idf-bmx280/include/bmx280_bits.h | 170 ++++++ 7 files changed, 1061 insertions(+) create mode 100644 components/esp-idf-bmx280/CMakeLists.txt create mode 100644 components/esp-idf-bmx280/Kconfig create mode 100644 components/esp-idf-bmx280/LICENSE create mode 100644 components/esp-idf-bmx280/README.md create mode 100644 components/esp-idf-bmx280/bmx280.c create mode 100644 components/esp-idf-bmx280/include/bmx280.h create mode 100644 components/esp-idf-bmx280/include/bmx280_bits.h diff --git a/components/esp-idf-bmx280/CMakeLists.txt b/components/esp-idf-bmx280/CMakeLists.txt new file mode 100644 index 000000000000..0fe4285c62b3 --- /dev/null +++ b/components/esp-idf-bmx280/CMakeLists.txt @@ -0,0 +1,6 @@ + +idf_component_register( + SRCS bmx280.c + INCLUDE_DIRS "include" + REQUIRES driver +) diff --git a/components/esp-idf-bmx280/Kconfig b/components/esp-idf-bmx280/Kconfig new file mode 100644 index 000000000000..9721ffcae978 --- /dev/null +++ b/components/esp-idf-bmx280/Kconfig @@ -0,0 +1,137 @@ +menu "BMX280 Options" + choice BMX280_EXPECT_DEVICE + prompt "Installed Sensor Model" + help + Set to the model of the sensor you are using (if you know it). + default BMX280_EXPECT_DETECT + config BMX280_EXPECT_DETECT + bool "Auto" + config BMX280_EXPECT_BME280 + bool "BME280" + config BMX280_EXPECT_BMP280 + bool "BMP280" + endchoice + + choice BMX280_ADDRESS + prompt "I2C Slave Address" + help + Set the slave address of the sensor if you know it. The driver can + automatically detect it if you don't know. + default BMX280_ADDRESS_DETECT + config BMX280_ADDRESS_DETECT + bool "Auto" + config BMX280_ADDERSS_LO + bool "0x76 (SDO LOW)" + config BMX280_ADDERSS_HI + bool "0x77 (SDO HIGH)" + endchoice + + config BMX280_TIMEOUT + int "Read/Write Timeout" + default 5 + help + Number of ticks to wait for I2C read/write operations. + + menu "Default Configuration" + choice BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING + prompt "Temperature Oversampling" + default BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X2 + help + Refer to BMP280/BME280 Datasheet for more information. + config BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_NONE + bool "None" + config BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X1 + bool "x1" + config BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X2 + bool "x2" + config BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X4 + bool "x4" + config BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X8 + bool "x8" + config BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X16 + bool "x16" + endchoice + + choice BMX280_DEFAULT_PRESSURE_OVERSAMPLING + prompt "Pressure Oversampling" + default BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X16 + help + Refer to BMP280/BME280 Datasheet for more information. + config BMX280_DEFAULT_PRESSURE_OVERSAMPLING_NONE + bool "None" + config BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X1 + bool "x1" + config BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X2 + bool "x2" + config BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X4 + bool "x4" + config BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X8 + bool "x8" + config BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X16 + bool "x16" + endchoice + + choice BMX280_DEFAULT_STANDBY + prompt "Cyclic Measurement Standby Time" + default BMX280_DEFAULT_STANDBY_0M5 + help + Refer to BMP280/BME280 Datasheet for more information. + config BMX280_DEFAULT_STANDBY_0M5 + bool "0.5ms" + config BMX280_DEFAULT_STANDBY_62M5 + bool "62.5ms" + config BMX280_DEFAULT_STANDBY_125M + bool "125ms" + config BMX280_DEFAULT_STANDBY_250M + bool "250ms" + config BMX280_DEFAULT_STANDBY_500M + bool "500ms" + config BMX280_DEFAULT_STANDBY_1000M + bool "1000ms" + config BMX280_DEFAULT_STANDBY_10M + bool "BMP280: 2000ms // BME280: 10ms" + config BMX280_DEFAULT_STANDBY_20M + bool "BMP280: 4000ms // BME280: 20ms" + endchoice + + choice BMX280_DEFAULT_IIR + prompt "IIR Filter Sensitivity" + default BMX280_DEFAULT_IIR_X16 + help + Refer to BMP280/BME280 Datasheet for more information. + config BMX280_DEFAULT_IIR_NONE + bool "Filter Off" + config BMX280_DEFAULT_IIR_X2 + bool "x2" + config BMX280_DEFAULT_IIR_X4 + bool "x4" + config BMX280_DEFAULT_IIR_X8 + bool "x8" + config BMX280_DEFAULT_IIR_X16 + bool "x16" + endchoice + + menu "BME280 Specific Options" + depends on !(BMX280_EXPECT_BMP280) + + choice BMX280_DEFAULT_HUMIDITY_OVERSAMPLING + prompt "Humidity Oversampling" + default BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X1 + help + Refer to BME280 Datasheet for more information. + config BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_NONE + bool "None" + config BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X1 + bool "x1" + config BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X2 + bool "x2" + config BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X4 + bool "x4" + config BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X8 + bool "x8" + config BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X16 + bool "x16" + endchoice + endmenu + endmenu +endmenu \ No newline at end of file diff --git a/components/esp-idf-bmx280/LICENSE b/components/esp-idf-bmx280/LICENSE new file mode 100644 index 000000000000..114cb8c83cf3 --- /dev/null +++ b/components/esp-idf-bmx280/LICENSE @@ -0,0 +1,21 @@ +MIT License + +Copyright (c) 2020 Halit Utku Maden + +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. diff --git a/components/esp-idf-bmx280/README.md b/components/esp-idf-bmx280/README.md new file mode 100644 index 000000000000..6f77c249c435 --- /dev/null +++ b/components/esp-idf-bmx280/README.md @@ -0,0 +1,73 @@ +BMX280 for ESP-IDF +================== +BMX280 is a basic I2C based driver for ESP32 devices licensed mostly under MIT. +(See caption "License" for details.) + +Usage +----- +Clone this repository or add it as a submodule into your components directory. +Add the module as a requirement to your main module, or other modules. + +Example Code +------------ +```c +#include "esp_log.h" +#include "bmx280.h" + +void app_main(void) +{ + // Entry Point + //ESP_ERROR_CHECK(nvs_flash_init()); + i2c_config_t i2c_cfg = { + .mode = I2C_MODE_MASTER, + .sda_io_num = GPIO_NUM_17, + .scl_io_num = GPIO_NUM_16, + .sda_pullup_en = false, + .scl_pullup_en = false, + + .master = { + .clk_speed = 100000 + } + }; + + ESP_ERROR_CHECK(i2c_param_config(I2C_NUM_0, &i2c_cfg)); + ESP_ERROR_CHECK(i2c_driver_install(I2C_NUM_0, I2C_MODE_MASTER, 0, 0, 0)); + + bmx280_t* bmx280 = bmx280_create(I2C_NUM_0); + + if (!bmx280) { + ESP_LOGE("test", "Could not create bmx280 driver."); + return; + } + + ESP_ERROR_CHECK(bmx280_init(bmx280)); + + bmx280_config_t bmx_cfg = BMX280_DEFAULT_CONFIG; + ESP_ERROR_CHECK(bmx280_configure(bmx280, &bmx_cfg)); + + while (1) + { + ESP_ERROR_CHECK(bmx280_setMode(bmx280, BMX280_MODE_FORCE)); + do { + vTaskDelay(pdMS_TO_TICKS(1)); + } while(bmx280_isSampling(bmx280)); + + float temp = 0, pres = 0, hum = 0; + ESP_ERROR_CHECK(bmx280_readoutFloat(bmx280, &temp, &pres, &hum)); + + ESP_LOGI("test", "Read Values: temp = %f, pres = %f, hum = %f", temp, pres, hum); + } +} +``` + +License +------- +This repository contains a lot of code I have written which is licensed under +MIT, however there are sections modified from the BME280 datasheet which is +unclearly licensed. + +The unclearly licensed section is clearly marked with two comments. Any code +between `// HERE BE DRAGONS` and `// END OF DRAGONS` contains modified versions +of the Bosch Sensortec code. + +Please take note of this in production. \ No newline at end of file diff --git a/components/esp-idf-bmx280/bmx280.c b/components/esp-idf-bmx280/bmx280.c new file mode 100644 index 000000000000..89bc7b6811ec --- /dev/null +++ b/components/esp-idf-bmx280/bmx280.c @@ -0,0 +1,529 @@ +/** + * BMX280 - BME280和BMP280驱动程序,适用于Espressif ESP-32。 + * + * MIT 许可协议 + * + * 版权所有 (C) 2020 Halit Utku Maden + * 请通过 联系我 + */ + +// 法律声明: +// 以下代码段在“// HERE BE DRAGONS”标题下方和“// END OF DRAGONS”标题上方 +// 包含由博世(Bosch)Sensortec GmbH拥有的代码的修改版本, +// 该代码未明确许可,因此本存储库的MIT许可不涵盖此代码。 +// 使用者需自行承担风险。 + +#include "bmx280.h" +#include "esp_log.h" + +#include +#include +#include + +// [BME280] 湿度最低有效字节的寄存器地址。 +#define BMX280_REG_HUMI_LSB 0xFE +// [BME280] 湿度最高有效字节的寄存器地址。 +#define BMX280_REG_HUMI_MSB 0xFD + +// 温度分数字节的寄存器地址。 +#define BMX280_REG_TEMP_XSB 0xFC +// 温度最低有效字节的寄存器地址。 +#define BMX280_REG_TEMP_LSB 0xFB +// 温度最高有效字节的寄存器地址。 +#define BMX280_REG_TEMP_MSB 0xFA + +// 压力分数字节的寄存器地址。 +#define BMX280_REG_PRES_XSB 0xF9 +// 压力最低有效字节的寄存器地址。 +// 注册地址的压力最低有效字节。 +#define BMX280_REG_PRES_LSB 0xF8 +// 注册地址的压力最高有效字节。 +#define BMX280_REG_PRES_MSB 0xF7 + +// 注册地址的传感器配置。 +#define BMX280_REG_CONFIG 0xF5 +// 注册地址的传感器测量控制。 +#define BMX280_REG_MESCTL 0xF4 +// 注册地址的传感器状态。 +#define BMX280_REG_STATUS 0xF3 +// [BME280] 湿度控制的寄存器地址。 +#define BMX280_REG_HUMCTL 0xF2 + +// [BME280] 校准常量的寄存器地址。(高库) +#define BMX280_REG_CAL_HI 0xE1 +// 校准常量的寄存器地址。(低库) +#define BMX280_REG_CAL_LO 0x88 + +// 注册地址的传感器复位。 +#define BMX280_REG_RESET 0xE0 +// 芯片复位向量。 +#define BMX280_RESET_VEC 0xB6 + +// 注册地址的芯片识别号。 +#define BMX280_REG_CHPID 0xD0 +// BME280的REG_CHPID值 +#define BME280_ID 0x60 +// BMP280(工程样品1)的REG_CHPID值 +#define BMP280_ID0 0x56 +// BMP280(工程样品2)的REG_CHPID值 +#define BMP280_ID1 0x57 +// BMP280(生产)的REG_CHPID值 +#define BMP280_ID2 0x58 + +struct bmx280_t { + // I2C端口。 + i2c_port_t i2c_port; + // 传感器的从地址。 + uint8_t slave; + // 传感器的芯片ID。 + uint8_t chip_id; + // 补偿数据 + struct { + uint16_t T1; + int16_t T2; + int16_t T3; + uint16_t P1; + int16_t P2; + int16_t P3; + int16_t P4; + int16_t P5; + int16_t P6; + int16_t P7; + int16_t P8; + int16_t P9; +#if !(CONFIG_BMX280_EXPECT_BMP280) + uint8_t H1; + int16_t H2; + uint8_t H3; + int16_t H4; + int16_t H5; + int8_t H6; +#endif + } cmps; + // 存储与温度成比例的变量。 + int32_t t_fine; +}; + +/** + * 宏定义:识别芯片ID是否为BME280或BMP280 + * @note 仅在验证芯片为BME280或BMP280时使用。 + * @see bmx280_verify + * @param chip_id 芯片ID。 + */ +#define bmx280_isBME(chip_id) ((chip_id) == BME280_ID) + +/** + * 宏定义:验证芯片ID与预期值是否匹配。 + * @note 当需要验证芯片为BME280或BMP280时使用。 + * @see bmx280_isBME + * @param chip_id 芯片ID。 + */ +#define bmx280_verify(chip_id) \ + (((chip_id) == BME280_ID) || ((chip_id) == BMP280_ID2) || ((chip_id) == BMP280_ID1) || ((chip_id) == BMP280_ID0)) + +/** + * 如果未找到传感器,则返回false。 + * @param bmx280 驱动程序结构。 + */ +#define bmx280_validate(bmx280) (!(bmx280->slave == 0xDE && bmx280->chip_id == 0xAD)) + +/** + * 从传感器读取数据。 + * @param bmx280 驱动程序结构。 + * @param addr 寄存器地址。 + * @param dout 读取的数据。 + * @param size 读取的字节数。 + * @returns 错误代码。 + */ +static esp_err_t bmx280_read(bmx280_t *bmx280, uint8_t addr, uint8_t *dout, size_t size) { + esp_err_t err; + i2c_cmd_handle_t cmd = i2c_cmd_link_create(); + if (cmd) { + // 写入寄存器地址 + i2c_master_start(cmd); + i2c_master_write_byte(cmd, bmx280->slave | I2C_MASTER_WRITE, true); + i2c_master_write_byte(cmd, addr, true); + + // 读取寄存器 + i2c_master_start(cmd); + i2c_master_write_byte(cmd, bmx280->slave | I2C_MASTER_READ, true); + i2c_master_read(cmd, dout, size, I2C_MASTER_LAST_NACK); + i2c_master_stop(cmd); + + err = i2c_master_cmd_begin(bmx280->i2c_port, cmd, CONFIG_BMX280_TIMEOUT); + i2c_cmd_link_delete(cmd); + return err; + } else { + return ESP_ERR_NO_MEM; + } +} + +static esp_err_t bmx280_write(bmx280_t *bmx280, uint8_t addr, const uint8_t *din, size_t size) { + esp_err_t err; + i2c_cmd_handle_t cmd = i2c_cmd_link_create(); + if (cmd) { + for (int i = 0; i < size; i++) { + i2c_master_start(cmd); + i2c_master_write_byte(cmd, bmx280->slave | I2C_MASTER_WRITE, true); + // 寄存器 + i2c_master_write_byte(cmd, addr + i, true); + // 数据 + i2c_master_write_byte(cmd, din[i], true); + } + i2c_master_stop(cmd); + + err = i2c_master_cmd_begin(bmx280->i2c_port, cmd, CONFIG_BMX280_TIMEOUT); + i2c_cmd_link_delete(cmd); + return err; + } else { + return ESP_ERR_NO_MEM; + } +} + +static esp_err_t bmx280_probe_address(bmx280_t *bmx280) { + esp_err_t err = bmx280_read(bmx280, BMX280_REG_CHPID, &bmx280->chip_id, sizeof bmx280->chip_id); + + if (err == ESP_OK) { + if ( +#if CONFIG_BMX280_EXPECT_BME280 + bmx280->chip_id == BME280_ID +#elif CONFIG_BMX280_EXPECT_BMP280 + bmx280->chip_id == BMP280_ID2 || bmx280->chip_id == BMP280_ID1 || bmx280->chip_id == BMP280_ID0 +#else + bmx280_verify(bmx280->chip_id) +#endif + ) { + ESP_LOGI("bmx280", "探测成功: 地址=%hhx, ID=%hhx", bmx280->slave, bmx280->chip_id); + return ESP_OK; + } else { + err = ESP_ERR_NOT_FOUND; + } + } + + ESP_LOGW("bmx280", "探测失败: 地址=%hhx, ID=%hhx, 原因=%s", bmx280->slave, bmx280->chip_id, esp_err_to_name(err)); + return err; +} + +static esp_err_t bmx280_probe(bmx280_t *bmx280) { + ESP_LOGI("bmx280", "在I2C %d上探测BMP280/BME280传感器", bmx280->i2c_port); + +#if CONFIG_BMX280_ADDRESS_HI + bmx280->slave = 0xEE; + return bmx280_probe_address(bmx280); +#elif CONFIG_BMX280_ADDRESS_LO + bmx280->slave = 0xEC; + return bmx280_probe_address(bmx280); +#else + esp_err_t err; + bmx280->slave = 0xEC; + if ((err = bmx280_probe_address(bmx280)) != ESP_OK) { + bmx280->slave = 0xEE; + if ((err = bmx280_probe_address(bmx280)) != ESP_OK) { + ESP_LOGE("bmx280", "未找到传感器。"); + bmx280->slave = 0xDE; + bmx280->chip_id = 0xAD; + } + } + return err; +#endif +} + +static esp_err_t bmx280_reset(bmx280_t *bmx280) { + const static uint8_t din[] = {BMX280_RESET_VEC}; + return bmx280_write(bmx280, BMX280_REG_RESET, din, sizeof din); +} + +static esp_err_t bmx280_calibrate(bmx280_t *bmx280) { + // 诚实地说,最好的做法是将高库和低库的内容读取到一个缓冲区, + // 然后将其放入校准值中,使代码端序无关, + // 并克服结构对齐问题。 + // 此外,BME280的高库是奇怪的。 + + ESP_LOGI("bmx280", "读取校准值..."); + + esp_err_t err; + uint8_t buf[26]; + + // 低库 + err = bmx280_read(bmx280, BMX280_REG_CAL_LO, buf, sizeof buf); + + if (err != ESP_OK) + return err; + + ESP_LOGI("bmx280", "读取低库成功。"); + + bmx280->cmps.T1 = buf[0] | (buf[1] << 8); + bmx280->cmps.T2 = buf[2] | (buf[3] << 8); + bmx280->cmps.T3 = buf[4] | (buf[5] << 8); + bmx280->cmps.P1 = buf[6] | (buf[7] << 8); + bmx280->cmps.P2 = buf[8] | (buf[9] << 8); + bmx280->cmps.P3 = buf[10] | (buf[11] << 8); + bmx280->cmps.P4 = buf[12] | (buf[13] << 8); + bmx280->cmps.P5 = buf[14] | (buf[15] << 8); + bmx280->cmps.P6 = buf[16] | (buf[17] << 8); + bmx280->cmps.P7 = buf[18] | (buf[19] << 8); + bmx280->cmps.P8 = buf[20] | (buf[21] << 8); + bmx280->cmps.P9 = buf[22] | (buf[23] << 8); + +#if !(CONFIG_BMX280_EXPECT_BMP280) + +#if CONFIG_BMX280_EXPECT_DETECT + if (bmx280_isBME(bmx280->chip_id)) // 仅在检测场景中使用此条件。 +#endif + { + // 首先获取H1。 + bmx280->cmps.H1 = buf[23]; + + err = bmx280_read(bmx280, BMX280_REG_CAL_HI, buf, 7); + + if (err != ESP_OK) + return err; + + ESP_LOGI("bmx280", "读取高库成功。"); + + bmx280->cmps.H2 = buf[0] | (buf[1] << 8); + bmx280->cmps.H3 = buf[2]; + bmx280->cmps.H4 = (buf[3] << 4) | (buf[4] & 0x0F); + bmx280->cmps.H5 = (buf[4] >> 4) | (buf[5] << 4); + bmx280->cmps.H6 = buf[6]; + } + +#endif + + return ESP_OK; +} + +bmx280_t *bmx280_create(i2c_port_t port) { + bmx280_t *bmx280 = malloc(sizeof(bmx280_t)); + if (bmx280) { + memset(bmx280, 0, sizeof(bmx280_t)); + + bmx280->i2c_port = port; + bmx280->slave = 0xDE; + bmx280->chip_id = 0xAD; + } + return bmx280; +} + +void bmx280_close(bmx280_t *bmx280) { + free(bmx280); +} + +esp_err_t bmx280_init(bmx280_t *bmx280) { + if (bmx280 == NULL) + return ESP_ERR_INVALID_ARG; + + esp_err_t error = bmx280_probe(bmx280) || bmx280_reset(bmx280); + + if (error == ESP_OK) { + // 给传感器10ms的延迟以进行复位。 + vTaskDelay(pdMS_TO_TICKS(10)); + + // 读取校准数据。 + bmx280_calibrate(bmx280); + + ESP_LOGI("bmx280", "转储校准数据..."); + ESP_LOG_BUFFER_HEX("bmx280", &bmx280->cmps, sizeof(bmx280->cmps)); + } + + return error; +} + +esp_err_t bmx280_configure(bmx280_t *bmx280, bmx280_config_t *cfg) { + if (bmx280 == NULL || cfg == NULL) + return ESP_ERR_INVALID_ARG; + if (!bmx280_validate(bmx280)) + return ESP_ERR_INVALID_STATE; + + // 始终先设置ctrl_meas。 + uint8_t num = (cfg->t_sampling << 5) | (cfg->p_sampling << 2) | BMX280_MODE_SLEEP; + esp_err_t err = bmx280_write(bmx280, BMX280_REG_MESCTL, &num, sizeof num); + + if (err) + return err; + + // 现在可以设置配置。 + num = (cfg->t_standby << 5) | (cfg->iir_filter << 2); + err = bmx280_write(bmx280, BMX280_REG_CONFIG, &num, sizeof num); + + if (err) + return err; + +#if !(CONFIG_BMX280_EXPECT_BMP280) +#if CONFIG_BMX280_EXPECT_DETECT + if (bmx280_isBME(bmx280->chip_id)) +#elif CONFIG_BMX280_EXPECT_BME280 +#endif + { + num = cfg->h_sampling; + err = bmx280_write(bmx280, BMX280_REG_HUMCTL, &num, sizeof(num)); + + if (err) + return err; + } +#endif + + // f = 0; + return ESP_OK; +} + +esp_err_t bmx280_setMode(bmx280_t *bmx280, bmx280_mode_t mode) { + uint8_t ctrl_mes; + esp_err_t err; + + if ((err = bmx280_read(bmx280, BMX280_REG_MESCTL, &ctrl_mes, 1)) != ESP_OK) + return err; + + ctrl_mes = (ctrl_mes & (~3)) | mode; + + return bmx280_write(bmx280, BMX280_REG_MESCTL, &ctrl_mes, 1); +} + +esp_err_t bmx280_getMode(bmx280_t *bmx280, bmx280_mode_t *mode) { + uint8_t ctrl_mes; + esp_err_t err; + + if ((err = bmx280_read(bmx280, BMX280_REG_MESCTL, &ctrl_mes, 1)) != ESP_OK) + return err; + + ctrl_mes &= 3; + + switch (ctrl_mes) { + default: + *mode = ctrl_mes; + break; + case (BMX280_MODE_FORCE + 1): + *mode = BMX280_MODE_FORCE; + break; + } + + return ESP_OK; +} + +bool bmx280_isSampling(bmx280_t *bmx280) { + uint8_t status; + if (bmx280_read(bmx280, BMX280_REG_STATUS, &status, 1) == ESP_OK) + return (status & (1 << 3)) != 0; + else + return false; +} +// 法律声明: +// 以下代码段在“// HERE BE DRAGONS”标题下方和“// END OF DRAGONS”标题上方 +// 包含由博世(Bosch)Sensortec GmbH拥有的代码的修改版本, +// 该代码未明确许可,因此本存储库的MIT许可不涵盖此代码。 +// 使用者需自行承担风险。 + +// HERE BE DRAGONS +// 这些代码是从BME280的数据手册中借鉴的博世代码。 +// 我对它的工作原理了解不多,所以无法告诉你它的具体功能。 +// 请勿修改。 + +// 返回温度(单位:摄氏度),分辨率为0.01摄氏度。 +// 输出值“5123”代表51.23摄氏度。 +// t_fine为全局变量,存储精确温度 +int32_t BME280_compensate_T_int32(bmx280_t *bmx280, int32_t adc_T) { + int32_t var1, var2, T; + var1 = ((((adc_T >> 3) - ((int32_t)bmx280->cmps.T1 << 1))) * ((int32_t)bmx280->cmps.T2)) >> 11; + var2 = (((((adc_T >> 4) - ((int32_t)bmx280->cmps.T1)) * ((adc_T >> 4) - ((int32_t)bmx280->cmps.T1))) >> 12) * + ((int32_t)bmx280->cmps.T3)) >> + 14; + bmx280->t_fine = var1 + var2; + T = (bmx280->t_fine * 5 + 128) >> 8; + return T; +} + +// 返回压力(单位:帕斯卡),以无符号32位整数的Q24.8格式表示(24位整数和8位小数)。 +// 输出值“24674867”代表24674867/256 = 96386.2 Pa = 963.862 hPa +uint32_t BME280_compensate_P_int64(bmx280_t *bmx280, int32_t adc_P) { + int64_t var1, var2, p; + var1 = ((int64_t)bmx280->t_fine) - 128000; + var2 = var1 * var1 * (int64_t)bmx280->cmps.P6; + var2 = var2 + ((var1 * (int64_t)bmx280->cmps.P5) << 17); + var2 = var2 + (((int64_t)bmx280->cmps.P4) << 35); + var1 = ((var1 * var1 * (int64_t)bmx280->cmps.P3) >> 8) + ((var1 * (int64_t)bmx280->cmps.P2) << 12); + var1 = (((((int64_t)1) << 47) + var1) * ((int64_t)bmx280->cmps.P1)) >> 33; + if (var1 == 0) { + return 0; // 避免因除以零而引发异常 + } + p = 1048576 - adc_P; + p = (((p << 31) - var2) * 3125) / var1; + var1 = (((int64_t)bmx280->cmps.P9) * (p >> 13) * (p >> 13)) >> 25; + var2 = (((int64_t)bmx280->cmps.P8) * p) >> 19; + p = ((p + var1 + var2) >> 8) + (((int64_t)bmx280->cmps.P7) << 4); + return (uint32_t)p; +} + +#if !CONFIG_BMX280_EXPECT_BMP280 + +// 返回湿度(单位:%RH),以无符号32位整数的Q22.10格式表示(22位整数和10位小数)。 +// 输出值“47445”代表47445/1024 = 46.333 %RH +uint32_t bme280_compensate_H_int32(bmx280_t *bmx280, int32_t adc_H) { + int32_t v_x1_u32r; + v_x1_u32r = (bmx280->t_fine - ((int32_t)76800)); + v_x1_u32r = (((((adc_H << 14) - (((int32_t)bmx280->cmps.H4) << 20) - (((int32_t)bmx280->cmps.H5) * v_x1_u32r)) + + ((int32_t)16384)) >> + 15) * + (((((((v_x1_u32r * ((int32_t)bmx280->cmps.H6)) >> 10) * + (((v_x1_u32r * ((int32_t)bmx280->cmps.H3)) >> 11) + ((int32_t)32768))) >> + 10) + + ((int32_t)2097152)) * + ((int32_t)bmx280->cmps.H2) + + 8192) >> + 14)); + v_x1_u32r = (v_x1_u32r - (((((v_x1_u32r >> 15) * (v_x1_u32r >> 15)) >> 7) * ((int32_t)bmx280->cmps.H1)) >> 4)); + v_x1_u32r = (v_x1_u32r < 0 ? 0 : v_x1_u32r); + v_x1_u32r = (v_x1_u32r > 419430400 ? 419430400 : v_x1_u32r); + return (uint32_t)(v_x1_u32r >> 12); +} + +#endif + +// END OF DRAGONS + +esp_err_t bmx280_readout(bmx280_t *bmx280, int32_t *temperature, uint32_t *pressure, uint32_t *humidity) { + if (bmx280 == NULL) + return ESP_ERR_INVALID_ARG; + if (!bmx280_validate(bmx280)) + return ESP_ERR_INVALID_STATE; + + uint8_t buffer[3]; + esp_err_t error; + + if (temperature) { + if ((error = bmx280_read(bmx280, BMX280_REG_TEMP_MSB, buffer, 3)) != ESP_OK) + return error; + + *temperature = BME280_compensate_T_int32(bmx280, (buffer[0] << 12) | (buffer[1] << 4) | (buffer[0] >> 4)); + } + + if (pressure) { + if ((error = bmx280_read(bmx280, BMX280_REG_PRES_MSB, buffer, 3)) != ESP_OK) + return error; + + *pressure = BME280_compensate_P_int64(bmx280, (buffer[0] << 12) | (buffer[1] << 4) | (buffer[0] >> 4)); + } + +#if !(CONFIG_BMX280_EXPECT_BMP280) +#if CONFIG_BMX280_EXPECT_DETECT + if (bmx280_isBME(bmx280->chip_id)) +#elif CONFIG_BMX280_EXPECT_BME280 +#endif + { + if (humidity) { + if ((error = bmx280_read(bmx280, BMX280_REG_HUMI_MSB, buffer, 2)) != ESP_OK) + return error; + + *humidity = bme280_compensate_H_int32(bmx280, (buffer[0] << 8) | buffer[1]); + } + } +#if CONFIG_BMX280_EXPECT_DETECT + else if (humidity) + *humidity = UINT32_MAX; +#endif +#else + if (humidity) + *humidity = UINT32_MAX; +#endif + + return ESP_OK; +} diff --git a/components/esp-idf-bmx280/include/bmx280.h b/components/esp-idf-bmx280/include/bmx280.h new file mode 100644 index 000000000000..e4e57f32fc2a --- /dev/null +++ b/components/esp-idf-bmx280/include/bmx280.h @@ -0,0 +1,125 @@ +/** + * BMX280 - BME280与BMP280的驱动程序,适用于Espressif ESP-32。 + * + * MIT许可证 + * + * 版权所有 (C) 2020 Halit Utku Maden + * 联系邮箱: + */ + +#ifndef _BMX280_H_ +#define _BMX280_H_ + +#ifdef __cplusplus +extern "C" { +#endif + +#include "driver/i2c.h" +#include "sdkconfig.h" +#include +#include + +#define BMXAPI extern + +/** + * 用于驱动设置的匿名结构体。 + */ +typedef struct bmx280_t bmx280_t; + +#include "bmx280_bits.h" + +/** + * 创建一个BMX280驱动程序的实例。 + * @param port 要使用的I2C端口。 + * @return 成功时返回指向驱动结构的非空指针。 + */ +BMXAPI bmx280_t *bmx280_create(i2c_port_t port); +/** + * 销毁实例。 + * @param bmx280 要销毁的实例。 + */ +BMXAPI void bmx280_close(bmx280_t *bmx280); + +/** + * 侦测传感器并读取校准数据。 + * @param bmx280 驱动结构。 + */ +BMXAPI esp_err_t bmx280_init(bmx280_t *bmx280); +/** + * 使用给定参数配置传感器。 + * @param bmx280 驱动结构。 + * @param configuration 要使用的配置。 + */ +BMXAPI esp_err_t bmx280_configure(bmx280_t *bmx280, bmx280_config_t *cfg); + +/** + * 设置传感器的工作模式。 + * @param bmx280 驱动结构。 + * @param mode 要设置的传感器模式。 + */ +BMXAPI esp_err_t bmx280_setMode(bmx280_t *bmx280, bmx280_mode_t mode); +/** + * 获取传感器当前的工作模式。 + * @param bmx280 驱动结构。 + * @param mode 指针,用于写入当前模式。 + */ +BMXAPI esp_err_t bmx280_getMode(bmx280_t *bmx280, bmx280_mode_t *mode); + +/** + * 如果传感器当前正在采样环境条件,则返回真。 + * @param bmx280 驱动结构。 + */ +BMXAPI bool bmx280_isSampling(bmx280_t *bmx280); + +/** + * 读取传感器值作为定点数。 + * @param bmx280 驱动结构。 + * @param temperature 摄氏度中的温度 (0.01度C递增) + * @param pressure 压力 (以帕斯卡为单位,1/256帕斯卡递增) + * @param humidity 湿度 (%RH,1/1024 %RH递增);无效时为UINT32_MAX。 + */ +BMXAPI esp_err_t bmx280_readout(bmx280_t *bmx280, int32_t *temperature, uint32_t *pressure, uint32_t *humidity); + +/** + * 将传感器读取值转换为浮点值。 + * @param tin 输入温度。 + * @param pin 输入压力。 + * @param hin 输入湿度。 + * @param tout 输出温度(摄氏度)。 + * @param pout 输出压力(帕斯卡)。 + * @param hout 输出湿度(%Rh)。 + */ +static inline void bmx280_readout2float(int32_t *tin, uint32_t *pin, uint32_t *hin, float *tout, float *pout, + float *hout) { + if (tin && tout) + *tout = (float)*tin * 0.01f; // 将摄氏度转换为浮点数 + if (pin && pout) + *pout = (float)*pin * (1.0f / 256.0f); // 将压力转换为浮点数 + if (hin && hout) + *hout = (*hin == UINT32_MAX) ? -1.0f : (float)*hin * (1.0f / 1024.0f); // 将湿度转换为浮点数 +} + +/** + * 读取传感器值作为浮点数。 + * @param bmx280 驱动结构。 + * @param temperature 摄氏度中的温度。 + * @param pressure 压力(帕斯卡)。 + * @param humidity 湿度(%RH)。 + */ +static inline esp_err_t bmx280_readoutFloat(bmx280_t *bmx280, float *temperature, float *pressure, float *humidity) { + int32_t t; + uint32_t p, h; + esp_err_t err = bmx280_readout(bmx280, &t, &p, &h); + + if (err == ESP_OK) { + bmx280_readout2float(&t, &p, &h, temperature, pressure, humidity); + } + + return err; +} + +#ifdef __cplusplus +}; +#endif + +#endif diff --git a/components/esp-idf-bmx280/include/bmx280_bits.h b/components/esp-idf-bmx280/include/bmx280_bits.h new file mode 100644 index 000000000000..c1000c345f3f --- /dev/null +++ b/components/esp-idf-bmx280/include/bmx280_bits.h @@ -0,0 +1,170 @@ +/** + * BMX280 - BME280 & BMP280 Driver for Esspressif ESP-32. + * + * MIT License + * + * Copyright (C) 2020 Halit Utku Maden + * Please contact at + */ + +#ifndef _BMX280_DEFAULT_H_ +#define _BMX280_DEFAULT_H_ +#ifndef _BMX280_H_ +#error Never include "bmx280_bits.h" by itself. Remove this reference and use "bmx280.h" instead. +#endif + +typedef enum bmx280_tsmpl_t { + BMX280_TEMPERATURE_OVERSAMPLING_NONE = 0x0, + BMX280_TEMPERATURE_OVERSAMPLING_X1, + BMX280_TEMPERATURE_OVERSAMPLING_X2, + BMX280_TEMPERATURE_OVERSAMPLING_X4, + BMX280_TEMPERATURE_OVERSAMPLING_X8, + BMX280_TEMPERATURE_OVERSAMPLING_X16, +} bmx280_tsmpl_t; + +typedef enum bmx280_psmpl_t { + BMX280_PRESSURE_OVERSAMPLING_NONE = 0x0, + BMX280_PRESSURE_OVERSAMPLING_X1, + BMX280_PRESSURE_OVERSAMPLING_X2, + BMX280_PRESSURE_OVERSAMPLING_X4, + BMX280_PRESSURE_OVERSAMPLING_X8, + BMX280_PRESSURE_OVERSAMPLING_X16, +} bmx280_psmpl_t; + +#if !(CONFIG_BMX280_EXPECT_BMP280) +typedef enum bme280_hsmpl_t { + BMX280_HUMIDITY_OVERSAMPLING_NONE = 0x0, + BMX280_HUMIDITY_OVERSAMPLING_X1, + BMX280_HUMIDITY_OVERSAMPLING_X2, + BMX280_HUMIDITY_OVERSAMPLING_X4, + BMX280_HUMIDITY_OVERSAMPLING_X8, + BMX280_HUMIDITY_OVERSAMPLING_X16, +} bme280_hsmpl_t; +#endif + +typedef enum bmx280_tstby_t { + BMX280_STANDBY_0M5 = 0x0, + BMX280_STANDBY_62M5, + BMX280_STANDBY_125M, + BMX280_STANDBY_250M, + BMX280_STANDBY_500M, + BMX280_STANDBY_1000M, + BME280_STANDBY_10M, + BME280_STANDBY_20M, + BMP280_STANDBY_2000M = BME280_STANDBY_10M, + BMP280_STANDBY_4000M = BME280_STANDBY_20M, +} bmx280_tstby_t; + +typedef enum bmx280_iirf_t { + BMX280_IIR_NONE = 0x0, + BMX280_IIR_X1, + BMX280_IIR_X2, + BMX280_IIR_X4, + BMX280_IIR_X8, + BMX280_IIR_X16, +} bmx280_iirf_t; + +typedef enum bmx280_mode_t { + /** Sensor does no measurements. */ + BMX280_MODE_SLEEP = 0, + /** Sensor is in a forced measurement cycle. Sleeps after finishing. */ + BMX280_MODE_FORCE = 1, + /** Sensor does measurements. Never sleeps. */ + BMX280_MODE_CYCLE = 3, +} bmx280_mode_t; + +typedef struct bmx280_config_t { + bmx280_tsmpl_t t_sampling; + bmx280_psmpl_t p_sampling; + bmx280_tstby_t t_standby; + bmx280_iirf_t iir_filter; +#if !(CONFIG_BMX280_EXPECT_BMP280) + bme280_hsmpl_t h_sampling; +#endif +} bmx280_config_t; + +#if (CONFIG_BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_NONE) +#define BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING BMX280_TEMPERATURE_OVERSAMPLING_NONE +#elif (CONFIG_BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X1) +#define BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING BMX280_TEMPERATURE_OVERSAMPLING_X1 +#elif (CONFIG_BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X2) +#define BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING BMX280_TEMPERATURE_OVERSAMPLING_X2 +#elif (CONFIG_BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X4) +#define BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING BMX280_TEMPERATURE_OVERSAMPLING_X4 +#elif (CONFIG_BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING_X8) +#define BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING BMX280_TEMPERATURE_OVERSAMPLING_X8 +#else +#define BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING BMX280_TEMPERATURE_OVERSAMPLING_X16 +#endif + +#if CONFIG_BMX280_DEFAULT_PRESSURE_OVERSAMPLING_NONE +#define BMX280_DEFAULT_PRESSURE_OVERSAMPLING BMX280_PRESSURE_OVERSAMPLING_NONE +#elif CONFIG_BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X1 +#define BMX280_DEFAULT_PRESSURE_OVERSAMPLING BMX280_PRESSURE_OVERSAMPLING_X1 +#elif CONFIG_BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X2 +#define BMX280_DEFAULT_PRESSURE_OVERSAMPLING BMX280_PRESSURE_OVERSAMPLING_X2 +#elif CONFIG_BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X4 +#define BMX280_DEFAULT_PRESSURE_OVERSAMPLING BMX280_PRESSURE_OVERSAMPLING_X4 +#elif CONFIG_BMX280_DEFAULT_PRESSURE_OVERSAMPLING_X8 +#define BMX280_DEFAULT_PRESSURE_OVERSAMPLING BMX280_PRESSURE_OVERSAMPLING_X8 +#else +#define BMX280_DEFAULT_PRESSURE_OVERSAMPLING BMX280_PRESSURE_OVERSAMPLING_X16 +#endif + +#if (CONFIG_BMX280_DEFAULT_STANDBY_0M5) +#define BMX280_DEFAULT_STANDBY BMX280_STANDBY_0M5 +#elif (CONFIG_BMX280_DEFAULT_STANDBY_62M5) +#define BMX280_DEFAULT_STANDBY BMX280_STANDBY_62M5 +#elif (CONFIG_BMX280_DEFAULT_STANDBY_125M) +#define BMX280_DEFAULT_STANDBY BMX280_STANDBY_125M +#elif (CONFIG_BMX280_DEFAULT_STANDBY_250M) +#define BMX280_DEFAULT_STANDBY BMX280_STANDBY_250M +#elif (CONFIG_BMX280_DEFAULT_STANDBY_500M) +#define BMX280_DEFAULT_STANDBY BMX280_STANDBY_500M +#elif (CONFIG_BMX280_DEFAULT_STANDBY_1000M) +#define BMX280_DEFAULT_STANDBY BMX280_STANDBY_1000M +#elif (CONFIG_BMX280_DEFAULT_STANDBY_10M) +#define BMX280_DEFAULT_STANDBY BME280_STANDBY_10M +#else +#define BMX280_DEFAULT_STANDBY BMX280_STANDBY_20M +#endif + +#if (CONFIG_BMX280_DEFAULT_IIR_NONE) +#define BMX280_DEFAULT_IIR BMX280_IIR_NONE +#elif (CONFIG_BMX280_DEFAULT_IIR_X2) +#define BMX280_DEFAULT_IIR BMX280_IIR_X2 +#elif (CONFIG_BMX280_DEFAULT_IIR_X4) +#define BMX280_DEFAULT_IIR BMX280_IIR_X4 +#elif (CONFIG_BMX280_DEFAULT_IIR_X8) +#define BMX280_DEFAULT_IIR BMX280_IIR_X8 +#else +#define BMX280_DEFAULT_IIR BMX280_IIR_X16 +#endif + +#ifndef CONFIG_BMX280_EXPECT_BMP280 +#if (CONFIG_BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_NONE) +#define BMX280_DEFAULT_HUMIDITY_OVERSAMPLING BMX280_HUMIDITY_OVERSAMPLING_NONE +#elif (CONFIG_BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X1) +#define BMX280_DEFAULT_HUMIDITY_OVERSAMPLING BMX280_HUMIDITY_OVERSAMPLING_X1 +#elif (CONFIG_BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X2) +#define BMX280_DEFAULT_HUMIDITY_OVERSAMPLING BMX280_HUMIDITY_OVERSAMPLING_X2 +#elif (CONFIG_BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X4) +#define BMX280_DEFAULT_HUMIDITY_OVERSAMPLING BMX280_HUMIDITY_OVERSAMPLING_X4 +#elif (CONFIG_BMX280_DEFAULT_HUMIDITY_OVERSAMPLING_X8) +#define BMX280_DEFAULT_HUMIDITY_OVERSAMPLING BMX280_HUMIDITY_OVERSAMPLING_X8 +#else +#define BMX280_DEFAULT_HUMIDITY_OVERSAMPLING BMX280_HUMIDITY_OVERSAMPLING_X16 +#endif +#endif + +#if !(CONFIG_BMX280_EXPECT_BMP280) +#define BMX280_DEFAULT_CONFIG \ + ((bmx280_config_t){BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING, BMX280_DEFAULT_PRESSURE_OVERSAMPLING, \ + BMX280_DEFAULT_STANDBY, BMX280_DEFAULT_IIR, BMX280_DEFAULT_HUMIDITY_OVERSAMPLING}) +#else +#define BMX280_DEFAULT_CONFIG \ + ((bmx280_config_t){BMX280_DEFAULT_TEMPERATURE_OVERSAMPLING, BMX280_DEFAULT_PRESSURE_OVERSAMPLING, \ + BMX280_DEFAULT_STANDBY, BMX280_DEFAULT_IIR}) +#endif + +#endif