Driver Development

NuttX device drivers are based on the Device framework.

Linux and QuRT drivers are based on DriverFramework. PX4 is currently being updated so that they can use the same drivers as NuttX.

Currently (December 2017) a small number of Linux/QuRT I2C drivers have been migrated (primarily for airspeed sensors). We plan to migrate the remaining drivers in coming releases.

Creating a Driver

PX4 almost exclusively consumes data from uORB. Drivers for common peripheral types must publish the correct uORB messages (for example: gyro, accelerometer, pressure sensors, etc.).

The best approach for creating a new driver is to start with a similar driver as a template (see src/drivers).

More detailed information about working with specific I/O busses and sensors may be available in Sensor and Actuator Buses section.

Publishing the correct uORB topics is the only pattern that drivers must follow.

Core Architecture

PX4 is a reactive system and uses uORB publish/subscribe to transport messages. File handles are not required or used for the core operation of the system. Two main APIs are used:

  • The publish / subscribe system which has a file, network or shared memory backend depending on the system PX4 runs on.
  • The global device registry, which can be used to enumerate devices and get/set their configuration. This can be as simple as a linked list or map to the file system.

Device IDs

PX4 uses device IDs to identify individual sensors consistently across the system. These IDs are stored in the configuration parameters and used to match sensor calibration values, as well as to determine which sensor is logged to which logfile entry.

The order of sensors (e.g. if there is a /dev/mag0 and an alternate /dev/mag1) does not determine priority - the priority is instead stored as part of the published uORB topic.

Decoding example

For the example of three magnetometers on a system, use the flight log (.px4log) to dump the parameters. The three parameters encode the sensor IDs and MAG_PRIME identifies which magnetometer is selected as the primary sensor. Each MAGx_ID is a 24bit number and should be padded left with zeros for manual decoding.

CAL_MAG0_ID = 73225.0
CAL_MAG1_ID = 66826.0
CAL_MAG2_ID = 263178.0
CAL_MAG_PRIME = 73225.0

This is the external HMC5983 connected via I2C, bus 1 at address 0x1E: It will show up in the log file as IMU.MagX.

# device ID 73225 in 24-bit binary:
00000001  00011110  00001 001

# decodes to:
HMC5883   0x1E    bus 1 I2C

This is the internal HMC5983 connected via SPI, bus 1, slave select slot 5. It will show up in the log file as IMU1.MagX.

# device ID 66826 in 24-bit binary:
00000001  00000101  00001 010

# decodes to:
HMC5883   dev 5   bus 1 SPI

And this is the internal MPU9250 magnetometer connected via SPI, bus 1, slave select slot 4. It will show up in the log file as IMU2.MagX.

# device ID 263178 in 24-bit binary:
00000100  00000100  00001 010

#decodes to:
MPU9250   dev 4   bus 1 SPI

Device ID Encoding

The device ID is a 24bit number according to this format. Note that the first fields are the least significant bits in the decoding example above.

struct DeviceStructure {
  enum DeviceBusType bus_type : 3;
  uint8_t bus: 5;    // which instance of the bus type
  uint8_t address;   // address on the bus (eg. I2C address)
  uint8_t devtype;   // device class specific device type

The bus_type is decoded according to:

enum DeviceBusType {
  DeviceBusType_UNKNOWN = 0,
  DeviceBusType_I2C     = 1,
  DeviceBusType_SPI     = 2,
  DeviceBusType_UAVCAN  = 3,

and devtype is decoded according to:

#define DRV_MAG_DEVTYPE_HMC5883  0x01
#define DRV_MAG_DEVTYPE_LSM303D  0x02
#define DRV_MAG_DEVTYPE_MPU9250  0x04
#define DRV_ACC_DEVTYPE_LSM303D  0x11
#define DRV_ACC_DEVTYPE_BMA180   0x12
#define DRV_ACC_DEVTYPE_MPU6000  0x13
#define DRV_ACC_DEVTYPE_MPU9250  0x16
#define DRV_GYR_DEVTYPE_MPU6000  0x21
#define DRV_GYR_DEVTYPE_L3GD20   0x22
#define DRV_GYR_DEVTYPE_MPU9250  0x24
#define DRV_RNG_DEVTYPE_MB12XX   0x31
#define DRV_RNG_DEVTYPE_LL40LS   0x32

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