// SPDX-License-Identifier: Apache-2.0 #include #include #include #include #include #include #define TAG "BMI270" static constexpr uint8_t REG_CHIP_ID = 0x00; // read: expect 0x24 static constexpr uint8_t REG_DATA_ACC = 0x0C; // 6 bytes: acc X/Y/Z LSB/MSB static constexpr uint8_t REG_DATA_GYR = 0x12; // 6 bytes: gyr X/Y/Z LSB/MSB static constexpr uint8_t REG_INTERNAL_ST = 0x21; // bit0: init done static constexpr uint8_t REG_ACC_CONF = 0x40; // ODR + BWP + filter_perf static constexpr uint8_t REG_ACC_RANGE = 0x41; // range selector static constexpr uint8_t REG_GYR_CONF = 0x42; // ODR + BWP static constexpr uint8_t REG_GYR_RANGE = 0x43; // range selector static constexpr uint8_t REG_INIT_CTRL = 0x59; // 0=start upload, 1=done static constexpr uint8_t REG_INIT_ADDR_0 = 0x5B; // burst address low nibble // REG_INIT_ADDR_1 = 0x5C written together with 0x5B (2-byte burst) static constexpr uint8_t REG_INIT_DATA = 0x5E; // config burst write target static constexpr uint8_t REG_PWR_CONF = 0x7C; // 0=disable adv. power save static constexpr uint8_t REG_PWR_CTRL = 0x7D; // bit1=gyr_en, bit2=acc_en static constexpr uint8_t REG_CMD = 0x7E; // 0xB6 = soft reset // ACC_CONF: filter_perf=1, bwp=normal(2), odr=100Hz(8) → 0xA8 static constexpr uint8_t ACC_CONF_VAL = 0xA8; static constexpr uint8_t ACC_RANGE_VAL = 0x02; // ±8g // GYR_CONF: filter_perf=1, noise_perf=1, bwp=normal(2), odr=100Hz(8) → 0xE8 static constexpr uint8_t GYR_CONF_VAL = 0xE8; static constexpr uint8_t GYR_RANGE_VAL = 0x00; // ±2000°/s // Scaling: full-scale / 2^15 static constexpr float ACCEL_SCALE = 8.0f / 32768.0f; // g per LSB (±8g) static constexpr float GYRO_SCALE = 2000.0f / 32768.0f; // °/s per LSB (±2000°/s) // Config upload chunk size (bytes of config data per I2C transaction) static constexpr size_t CHUNK_SIZE = 64; static constexpr TickType_t I2C_TIMEOUT_TICKS = pdMS_TO_TICKS(10); #define GET_CONFIG(device) (static_cast((device)->config)) // region Helpers static bool configure(Device* i2c_controller, uint8_t address) { // Disable advanced power save before uploading if (i2c_controller_register8_set(i2c_controller, address, REG_PWR_CONF, 0x00, I2C_TIMEOUT_TICKS) != ERROR_NONE) return false; vTaskDelay(pdMS_TO_TICKS(1)); // Signal start of config upload if (i2c_controller_register8_set(i2c_controller, address, REG_INIT_CTRL, 0x00, I2C_TIMEOUT_TICKS) != ERROR_NONE) return false; // Upload config in CHUNK_SIZE-byte bursts // The half-word address (hwAddr) increments by CHUNK_SIZE/2 per chunk constexpr size_t config_data_size = sizeof(bmi270_config_data); for (size_t offset = 0; offset < config_data_size; offset += CHUNK_SIZE) { // Set INIT_ADDR_0 and INIT_ADDR_1 (consecutive registers 0x5B/0x5C) auto hardware_address = static_cast(offset / 2); uint8_t address_buffer[2] = { static_cast(hardware_address & 0x0Fu), // INIT_ADDR_0: bits [3:0] static_cast((hardware_address >> 4) & 0xFFu) // INIT_ADDR_1: bits [11:4] }; if (i2c_controller_write_register(i2c_controller, address, REG_INIT_ADDR_0, address_buffer, 2, I2C_TIMEOUT_TICKS) != ERROR_NONE) return false; // Write chunk to INIT_DATA register. // Copy to a stack buffer first: the config array may live in DROM (SPI flash) // which is not DMA-accessible; the I2C driver requires DRAM-backed buffers. size_t chunk_length = (offset + CHUNK_SIZE <= config_data_size) ? CHUNK_SIZE : (config_data_size - offset); uint8_t chunk_buffer[CHUNK_SIZE]; memcpy(chunk_buffer, bmi270_config_data + offset, chunk_length); if (i2c_controller_write_register(i2c_controller, address, REG_INIT_DATA, chunk_buffer, static_cast(chunk_length), I2C_TIMEOUT_TICKS) != ERROR_NONE) return false; } // Signal end of config upload if (i2c_controller_register8_set(i2c_controller, address, REG_INIT_CTRL, 0x01, I2C_TIMEOUT_TICKS) != ERROR_NONE) return false; vTaskDelay(pdMS_TO_TICKS(20)); // Verify initialization uint8_t status = 0; if (i2c_controller_register8_get(i2c_controller, address, REG_INTERNAL_ST, &status, I2C_TIMEOUT_TICKS) != ERROR_NONE) return false; return (status & 0x01u) != 0; // bit 0 = init_ok } // endregion // region Driver lifecycle static error_t start(Device* device) { auto* i2c_controller = device_get_parent(device); if (device_get_type(i2c_controller) != &I2C_CONTROLLER_TYPE) { LOG_E(TAG, "Parent is not an I2C controller"); return ERROR_RESOURCE; } auto address = GET_CONFIG(device)->address; // Verify chip ID uint8_t chip_id= 0; if (i2c_controller_register8_get(i2c_controller, address, REG_CHIP_ID, &chip_id, I2C_TIMEOUT_TICKS) != ERROR_NONE || chip_id != 0x24) { return ERROR_RESOURCE; } // Soft reset — clears all registers; datasheet specifies 2 ms startup time. // Use 20 ms to be safe and allow the chip to fully re-initialise before // any further I2C traffic (a second chip-ID read immediately after reset // is unreliable and not part of the Bosch SensorAPI init flow). if (i2c_controller_register8_set(i2c_controller, address, REG_CMD, 0xB6, I2C_TIMEOUT_TICKS) != ERROR_NONE) return ERROR_RESOURCE; vTaskDelay(pdMS_TO_TICKS(20)); // Upload 8KB configuration (enables internal feature engine) if (!configure(i2c_controller, address)) { return ERROR_RESOURCE; } // Configure accelerometer: ODR=100Hz, normal filter, ±8g if (i2c_controller_register8_set(i2c_controller, address, REG_ACC_CONF, ACC_CONF_VAL, I2C_TIMEOUT_TICKS) != ERROR_NONE) return ERROR_RESOURCE; if (i2c_controller_register8_set(i2c_controller, address, REG_ACC_RANGE, ACC_RANGE_VAL, I2C_TIMEOUT_TICKS) != ERROR_NONE) return ERROR_RESOURCE; // Configure gyroscope: ODR=100Hz, normal filter, ±2000°/s if (i2c_controller_register8_set(i2c_controller, address, REG_GYR_CONF, GYR_CONF_VAL, I2C_TIMEOUT_TICKS) != ERROR_NONE) return ERROR_RESOURCE; if (i2c_controller_register8_set(i2c_controller, address, REG_GYR_RANGE, GYR_RANGE_VAL, I2C_TIMEOUT_TICKS) != ERROR_NONE) return ERROR_RESOURCE; // Enable accelerometer and gyroscope (bit1=gyr_en, bit2=acc_en) if (i2c_controller_register8_set(i2c_controller, address, REG_PWR_CTRL, 0x06, I2C_TIMEOUT_TICKS) != ERROR_NONE) return ERROR_RESOURCE; vTaskDelay(pdMS_TO_TICKS(2)); return ERROR_NONE; } static error_t stop(Device* device) { return ERROR_NONE; } // endregion extern "C" { error_t bmi270_read(Device* device, Bmi270Data* data) { auto* i2c_controller = device_get_parent(device); auto address = GET_CONFIG(device)->address; // Burst-read 12 bytes: acc X/Y/Z (6 bytes) + gyro X/Y/Z (6 bytes) // Registers: 0x0C–0x17 are contiguous for acc+gyro in I2C mode (no dummy byte) uint8_t buffer[12] = {}; error_t error = i2c_controller_read_register(i2c_controller, address, REG_DATA_ACC, buffer, sizeof(buffer), I2C_TIMEOUT_TICKS); if (error != ERROR_NONE) return error; auto toI16 = [](uint8_t lo, uint8_t hi) -> int16_t { return static_cast(static_cast(hi) << 8 | lo); }; data->ax = toI16(buffer[0], buffer[1]) * ACCEL_SCALE; data->ay = toI16(buffer[2], buffer[3]) * ACCEL_SCALE; data->az = toI16(buffer[4], buffer[5]) * ACCEL_SCALE; data->gx = toI16(buffer[6], buffer[7]) * GYRO_SCALE; data->gy = toI16(buffer[8], buffer[9]) * GYRO_SCALE; data->gz = toI16(buffer[10], buffer[11]) * GYRO_SCALE; return ERROR_NONE; } Driver bmi270_driver = { .name = "bmi270", .compatible = (const char*[]) { "bosch,bmi270", nullptr}, .start_device = start, .stop_device = stop, .api = nullptr, .device_type = nullptr, .owner = &bmi270_module, .internal = nullptr }; }