diff options
Diffstat (limited to 'src/drivers/lsm303d')
-rw-r--r-- | src/drivers/lsm303d/lsm303d.cpp | 1659 | ||||
-rw-r--r-- | src/drivers/lsm303d/module.mk | 8 |
2 files changed, 1667 insertions, 0 deletions
diff --git a/src/drivers/lsm303d/lsm303d.cpp b/src/drivers/lsm303d/lsm303d.cpp new file mode 100644 index 000000000..05d6f1881 --- /dev/null +++ b/src/drivers/lsm303d/lsm303d.cpp @@ -0,0 +1,1659 @@ +/**************************************************************************** + * + * Copyright (C) 2013 PX4 Development Team. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name PX4 nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ****************************************************************************/ + +/** + * @file lsm303d.cpp + * Driver for the ST LSM303D MEMS accelerometer / magnetometer connected via SPI. + */ + +#include <nuttx/config.h> + +#include <sys/types.h> +#include <stdint.h> +#include <stdbool.h> +#include <stddef.h> +#include <stdlib.h> +#include <semaphore.h> +#include <string.h> +#include <fcntl.h> +#include <poll.h> +#include <errno.h> +#include <stdio.h> +#include <math.h> +#include <unistd.h> + +#include <systemlib/perf_counter.h> +#include <systemlib/err.h> + +#include <nuttx/arch.h> +#include <nuttx/clock.h> + +#include <drivers/drv_hrt.h> +#include <drivers/device/spi.h> +#include <drivers/drv_accel.h> +#include <drivers/drv_mag.h> + +#include <board_config.h> +#include <mathlib/math/filter/LowPassFilter2p.hpp> + +/* oddly, ERROR is not defined for c++ */ +#ifdef ERROR +# undef ERROR +#endif +static const int ERROR = -1; + +/* SPI protocol address bits */ +#define DIR_READ (1<<7) +#define DIR_WRITE (0<<7) +#define ADDR_INCREMENT (1<<6) + + + +/* register addresses: A: accel, M: mag, T: temp */ +#define ADDR_WHO_AM_I 0x0F +#define WHO_I_AM 0x49 + +#define ADDR_OUT_L_T 0x05 +#define ADDR_OUT_H_T 0x06 +#define ADDR_STATUS_M 0x07 +#define ADDR_OUT_X_L_M 0x08 +#define ADDR_OUT_X_H_M 0x09 +#define ADDR_OUT_Y_L_M 0x0A +#define ADDR_OUT_Y_H_M 0x0B +#define ADDR_OUT_Z_L_M 0x0C +#define ADDR_OUT_Z_H_M 0x0D + +#define ADDR_OUT_TEMP_A 0x26 +#define ADDR_STATUS_A 0x27 +#define ADDR_OUT_X_L_A 0x28 +#define ADDR_OUT_X_H_A 0x29 +#define ADDR_OUT_Y_L_A 0x2A +#define ADDR_OUT_Y_H_A 0x2B +#define ADDR_OUT_Z_L_A 0x2C +#define ADDR_OUT_Z_H_A 0x2D + +#define ADDR_CTRL_REG0 0x1F +#define ADDR_CTRL_REG1 0x20 +#define ADDR_CTRL_REG2 0x21 +#define ADDR_CTRL_REG3 0x22 +#define ADDR_CTRL_REG4 0x23 +#define ADDR_CTRL_REG5 0x24 +#define ADDR_CTRL_REG6 0x25 +#define ADDR_CTRL_REG7 0x26 + +#define REG1_RATE_BITS_A ((1<<7) | (1<<6) | (1<<5) | (1<<4)) +#define REG1_POWERDOWN_A ((0<<7) | (0<<6) | (0<<5) | (0<<4)) +#define REG1_RATE_3_125HZ_A ((0<<7) | (0<<6) | (0<<5) | (1<<4)) +#define REG1_RATE_6_25HZ_A ((0<<7) | (0<<6) | (1<<5) | (0<<4)) +#define REG1_RATE_12_5HZ_A ((0<<7) | (0<<6) | (1<<5) | (1<<4)) +#define REG1_RATE_25HZ_A ((0<<7) | (1<<6) | (0<<5) | (0<<4)) +#define REG1_RATE_50HZ_A ((0<<7) | (1<<6) | (0<<5) | (1<<4)) +#define REG1_RATE_100HZ_A ((0<<7) | (1<<6) | (1<<5) | (0<<4)) +#define REG1_RATE_200HZ_A ((0<<7) | (1<<6) | (1<<5) | (1<<4)) +#define REG1_RATE_400HZ_A ((1<<7) | (0<<6) | (0<<5) | (0<<4)) +#define REG1_RATE_800HZ_A ((1<<7) | (0<<6) | (0<<5) | (1<<4)) +#define REG1_RATE_1600HZ_A ((1<<7) | (0<<6) | (1<<5) | (0<<4)) + +#define REG1_BDU_UPDATE (1<<3) +#define REG1_Z_ENABLE_A (1<<2) +#define REG1_Y_ENABLE_A (1<<1) +#define REG1_X_ENABLE_A (1<<0) + +#define REG2_ANTIALIAS_FILTER_BW_BITS_A ((1<<7) | (1<<6)) +#define REG2_AA_FILTER_BW_773HZ_A ((0<<7) | (0<<6)) +#define REG2_AA_FILTER_BW_194HZ_A ((0<<7) | (1<<6)) +#define REG2_AA_FILTER_BW_362HZ_A ((1<<7) | (0<<6)) +#define REG2_AA_FILTER_BW_50HZ_A ((1<<7) | (1<<6)) + +#define REG2_FULL_SCALE_BITS_A ((1<<5) | (1<<4) | (1<<3)) +#define REG2_FULL_SCALE_2G_A ((0<<5) | (0<<4) | (0<<3)) +#define REG2_FULL_SCALE_4G_A ((0<<5) | (0<<4) | (1<<3)) +#define REG2_FULL_SCALE_6G_A ((0<<5) | (1<<4) | (0<<3)) +#define REG2_FULL_SCALE_8G_A ((0<<5) | (1<<4) | (1<<3)) +#define REG2_FULL_SCALE_16G_A ((1<<5) | (0<<4) | (0<<3)) + +#define REG5_ENABLE_T (1<<7) + +#define REG5_RES_HIGH_M ((1<<6) | (1<<5)) +#define REG5_RES_LOW_M ((0<<6) | (0<<5)) + +#define REG5_RATE_BITS_M ((1<<4) | (1<<3) | (1<<2)) +#define REG5_RATE_3_125HZ_M ((0<<4) | (0<<3) | (0<<2)) +#define REG5_RATE_6_25HZ_M ((0<<4) | (0<<3) | (1<<2)) +#define REG5_RATE_12_5HZ_M ((0<<4) | (1<<3) | (0<<2)) +#define REG5_RATE_25HZ_M ((0<<4) | (1<<3) | (1<<2)) +#define REG5_RATE_50HZ_M ((1<<4) | (0<<3) | (0<<2)) +#define REG5_RATE_100HZ_M ((1<<4) | (0<<3) | (1<<2)) +#define REG5_RATE_DO_NOT_USE_M ((1<<4) | (1<<3) | (0<<2)) + +#define REG6_FULL_SCALE_BITS_M ((1<<6) | (1<<5)) +#define REG6_FULL_SCALE_2GA_M ((0<<6) | (0<<5)) +#define REG6_FULL_SCALE_4GA_M ((0<<6) | (1<<5)) +#define REG6_FULL_SCALE_8GA_M ((1<<6) | (0<<5)) +#define REG6_FULL_SCALE_12GA_M ((1<<6) | (1<<5)) + +#define REG7_CONT_MODE_M ((0<<1) | (0<<0)) + + +#define INT_CTRL_M 0x12 +#define INT_SRC_M 0x13 + +/* default values for this device */ +#define LSM303D_ACCEL_DEFAULT_RANGE_G 8 +#define LSM303D_ACCEL_DEFAULT_RATE 800 +#define LSM303D_ACCEL_DEFAULT_ONCHIP_FILTER_FREQ 50 +#define LSM303D_ACCEL_DEFAULT_DRIVER_FILTER_FREQ 30 + +#define LSM303D_MAG_DEFAULT_RANGE_GA 2 +#define LSM303D_MAG_DEFAULT_RATE 100 + +#define LSM303D_ONE_G 9.80665f + +extern "C" { __EXPORT int lsm303d_main(int argc, char *argv[]); } + + +class LSM303D_mag; + +class LSM303D : public device::SPI +{ +public: + LSM303D(int bus, const char* path, spi_dev_e device); + virtual ~LSM303D(); + + virtual int init(); + + virtual ssize_t read(struct file *filp, char *buffer, size_t buflen); + virtual int ioctl(struct file *filp, int cmd, unsigned long arg); + + /** + * Diagnostics - print some basic information about the driver. + */ + void print_info(); + +protected: + virtual int probe(); + + friend class LSM303D_mag; + + virtual ssize_t mag_read(struct file *filp, char *buffer, size_t buflen); + virtual int mag_ioctl(struct file *filp, int cmd, unsigned long arg); + +private: + + LSM303D_mag *_mag; + + struct hrt_call _accel_call; + struct hrt_call _mag_call; + + unsigned _call_accel_interval; + unsigned _call_mag_interval; + + unsigned _num_accel_reports; + volatile unsigned _next_accel_report; + volatile unsigned _oldest_accel_report; + struct accel_report *_accel_reports; + + unsigned _num_mag_reports; + volatile unsigned _next_mag_report; + volatile unsigned _oldest_mag_report; + struct mag_report *_mag_reports; + + struct accel_scale _accel_scale; + unsigned _accel_range_m_s2; + float _accel_range_scale; + unsigned _accel_samplerate; + unsigned _accel_onchip_filter_bandwith; + + struct mag_scale _mag_scale; + unsigned _mag_range_ga; + float _mag_range_scale; + unsigned _mag_samplerate; + + orb_advert_t _accel_topic; + orb_advert_t _mag_topic; + + unsigned _accel_read; + unsigned _mag_read; + + perf_counter_t _accel_sample_perf; + perf_counter_t _mag_sample_perf; + + math::LowPassFilter2p _accel_filter_x; + math::LowPassFilter2p _accel_filter_y; + math::LowPassFilter2p _accel_filter_z; + + /** + * Start automatic measurement. + */ + void start(); + + /** + * Stop automatic measurement. + */ + void stop(); + + /** + * Reset chip. + * + * Resets the chip and measurements ranges, but not scale and offset. + */ + void reset(); + + /** + * Static trampoline from the hrt_call context; because we don't have a + * generic hrt wrapper yet. + * + * Called by the HRT in interrupt context at the specified rate if + * automatic polling is enabled. + * + * @param arg Instance pointer for the driver that is polling. + */ + static void measure_trampoline(void *arg); + + /** + * Static trampoline for the mag because it runs at a lower rate + * + * @param arg Instance pointer for the driver that is polling. + */ + static void mag_measure_trampoline(void *arg); + + /** + * Fetch accel measurements from the sensor and update the report ring. + */ + void measure(); + + /** + * Fetch mag measurements from the sensor and update the report ring. + */ + void mag_measure(); + + /** + * Accel self test + * + * @return 0 on success, 1 on failure + */ + int accel_self_test(); + + /** + * Mag self test + * + * @return 0 on success, 1 on failure + */ + int mag_self_test(); + + /** + * Read a register from the LSM303D + * + * @param The register to read. + * @return The value that was read. + */ + uint8_t read_reg(unsigned reg); + + /** + * Write a register in the LSM303D + * + * @param reg The register to write. + * @param value The new value to write. + */ + void write_reg(unsigned reg, uint8_t value); + + /** + * Modify a register in the LSM303D + * + * Bits are cleared before bits are set. + * + * @param reg The register to modify. + * @param clearbits Bits in the register to clear. + * @param setbits Bits in the register to set. + */ + void modify_reg(unsigned reg, uint8_t clearbits, uint8_t setbits); + + /** + * Set the LSM303D accel measurement range. + * + * @param max_g The measurement range of the accel is in g (9.81m/s^2) + * Zero selects the maximum supported range. + * @return OK if the value can be supported, -ERANGE otherwise. + */ + int accel_set_range(unsigned max_g); + + /** + * Set the LSM303D mag measurement range. + * + * @param max_ga The measurement range of the mag is in Ga + * Zero selects the maximum supported range. + * @return OK if the value can be supported, -ERANGE otherwise. + */ + int mag_set_range(unsigned max_g); + + /** + * Set the LSM303D on-chip anti-alias filter bandwith. + * + * @param bandwidth The anti-alias filter bandwidth in Hz + * Zero selects the highest bandwidth + * @return OK if the value can be supported, -ERANGE otherwise. + */ + int accel_set_onchip_lowpass_filter_bandwidth(unsigned bandwidth); + + /** + * Set the driver lowpass filter bandwidth. + * + * @param bandwidth The anti-alias filter bandwidth in Hz + * Zero selects the highest bandwidth + * @return OK if the value can be supported, -ERANGE otherwise. + */ + int accel_set_driver_lowpass_filter(float samplerate, float bandwidth); + + /** + * Set the LSM303D internal accel sampling frequency. + * + * @param frequency The internal accel sampling frequency is set to not less than + * this value. + * Zero selects the maximum rate supported. + * @return OK if the value can be supported. + */ + int accel_set_samplerate(unsigned frequency); + + /** + * Set the LSM303D internal mag sampling frequency. + * + * @param frequency The internal mag sampling frequency is set to not less than + * this value. + * Zero selects the maximum rate supported. + * @return OK if the value can be supported. + */ + int mag_set_samplerate(unsigned frequency); +}; + +/** + * Helper class implementing the mag driver node. + */ +class LSM303D_mag : public device::CDev +{ +public: + LSM303D_mag(LSM303D *parent); + ~LSM303D_mag(); + + virtual ssize_t read(struct file *filp, char *buffer, size_t buflen); + virtual int ioctl(struct file *filp, int cmd, unsigned long arg); + +protected: + friend class LSM303D; + + void parent_poll_notify(); +private: + LSM303D *_parent; + + void measure(); + + void measure_trampoline(void *arg); +}; + + +/* helper macro for handling report buffer indices */ +#define INCREMENT(_x, _lim) do { __typeof__(_x) _tmp = _x+1; if (_tmp >= _lim) _tmp = 0; _x = _tmp; } while(0) + + +LSM303D::LSM303D(int bus, const char* path, spi_dev_e device) : + SPI("LSM303D", path, bus, device, SPIDEV_MODE3, 8000000), + _mag(new LSM303D_mag(this)), + _call_accel_interval(0), + _call_mag_interval(0), + _num_accel_reports(0), + _next_accel_report(0), + _oldest_accel_report(0), + _accel_reports(nullptr), + _num_mag_reports(0), + _next_mag_report(0), + _oldest_mag_report(0), + _mag_reports(nullptr), + _accel_range_m_s2(0.0f), + _accel_range_scale(0.0f), + _accel_samplerate(0), + _accel_onchip_filter_bandwith(0), + _mag_range_ga(0.0f), + _mag_range_scale(0.0f), + _mag_samplerate(0), + _accel_topic(-1), + _mag_topic(-1), + _accel_read(0), + _mag_read(0), + _accel_sample_perf(perf_alloc(PC_ELAPSED, "lsm303d_accel_read")), + _mag_sample_perf(perf_alloc(PC_ELAPSED, "lsm303d_mag_read")), + _accel_filter_x(LSM303D_ACCEL_DEFAULT_RATE, LSM303D_ACCEL_DEFAULT_DRIVER_FILTER_FREQ), + _accel_filter_y(LSM303D_ACCEL_DEFAULT_RATE, LSM303D_ACCEL_DEFAULT_DRIVER_FILTER_FREQ), + _accel_filter_z(LSM303D_ACCEL_DEFAULT_RATE, LSM303D_ACCEL_DEFAULT_DRIVER_FILTER_FREQ) +{ + // enable debug() calls + _debug_enabled = true; + + // default scale factors + _accel_scale.x_offset = 0.0f; + _accel_scale.x_scale = 1.0f; + _accel_scale.y_offset = 0.0f; + _accel_scale.y_scale = 1.0f; + _accel_scale.z_offset = 0.0f; + _accel_scale.z_scale = 1.0f; + + _mag_scale.x_offset = 0.0f; + _mag_scale.x_scale = 1.0f; + _mag_scale.y_offset = 0.0f; + _mag_scale.y_scale = 1.0f; + _mag_scale.z_offset = 0.0f; + _mag_scale.z_scale = 1.0f; +} + +LSM303D::~LSM303D() +{ + /* make sure we are truly inactive */ + stop(); + + /* free any existing reports */ + if (_accel_reports != nullptr) + delete[] _accel_reports; + if (_mag_reports != nullptr) + delete[] _mag_reports; + + delete _mag; + + /* delete the perf counter */ + perf_free(_accel_sample_perf); + perf_free(_mag_sample_perf); +} + +int +LSM303D::init() +{ + int ret = ERROR; + int mag_ret; + + /* do SPI init (and probe) first */ + if (SPI::init() != OK) + goto out; + + /* allocate basic report buffers */ + _num_accel_reports = 2; + _oldest_accel_report = _next_accel_report = 0; + _accel_reports = new struct accel_report[_num_accel_reports]; + + if (_accel_reports == nullptr) + goto out; + + /* advertise accel topic */ + memset(&_accel_reports[0], 0, sizeof(_accel_reports[0])); + _accel_topic = orb_advertise(ORB_ID(sensor_accel), &_accel_reports[0]); + + _num_mag_reports = 2; + _oldest_mag_report = _next_mag_report = 0; + _mag_reports = new struct mag_report[_num_mag_reports]; + + if (_mag_reports == nullptr) + goto out; + + reset(); + + /* advertise mag topic */ + memset(&_mag_reports[0], 0, sizeof(_mag_reports[0])); + _mag_topic = orb_advertise(ORB_ID(sensor_mag), &_mag_reports[0]); + + /* do CDev init for the mag device node, keep it optional */ + mag_ret = _mag->init(); + + if (mag_ret != OK) { + _mag_topic = -1; + } + + ret = OK; +out: + return ret; +} + +void +LSM303D::reset() +{ + /* enable accel*/ + write_reg(ADDR_CTRL_REG1, REG1_X_ENABLE_A | REG1_Y_ENABLE_A | REG1_Z_ENABLE_A | REG1_BDU_UPDATE); + + /* enable mag */ + write_reg(ADDR_CTRL_REG7, REG7_CONT_MODE_M); + write_reg(ADDR_CTRL_REG5, REG5_RES_HIGH_M); + + accel_set_range(LSM303D_ACCEL_DEFAULT_RANGE_G); + accel_set_samplerate(LSM303D_ACCEL_DEFAULT_RATE); + accel_set_driver_lowpass_filter((float)LSM303D_ACCEL_DEFAULT_RATE, (float)LSM303D_ACCEL_DEFAULT_DRIVER_FILTER_FREQ); + accel_set_onchip_lowpass_filter_bandwidth(LSM303D_ACCEL_DEFAULT_ONCHIP_FILTER_FREQ); + + mag_set_range(LSM303D_MAG_DEFAULT_RANGE_GA); + mag_set_samplerate(LSM303D_MAG_DEFAULT_RATE); + + _accel_read = 0; + _mag_read = 0; +} + +int +LSM303D::probe() +{ + /* read dummy value to void to clear SPI statemachine on sensor */ + (void)read_reg(ADDR_WHO_AM_I); + + /* verify that the device is attached and functioning */ + if (read_reg(ADDR_WHO_AM_I) == WHO_I_AM) + return OK; + + return -EIO; +} + +ssize_t +LSM303D::read(struct file *filp, char *buffer, size_t buflen) +{ + unsigned count = buflen / sizeof(struct accel_report); + int ret = 0; + + /* buffer must be large enough */ + if (count < 1) + return -ENOSPC; + + /* if automatic measurement is enabled */ + if (_call_accel_interval > 0) { + + /* + * While there is space in the caller's buffer, and reports, copy them. + * Note that we may be pre-empted by the measurement code while we are doing this; + * we are careful to avoid racing with it. + */ + while (count--) { + if (_oldest_accel_report != _next_accel_report) { + memcpy(buffer, _accel_reports + _oldest_accel_report, sizeof(*_accel_reports)); + ret += sizeof(_accel_reports[0]); + INCREMENT(_oldest_accel_report, _num_accel_reports); + } + } + + /* if there was no data, warn the caller */ + return ret ? ret : -EAGAIN; + } + + /* manual measurement */ + _oldest_accel_report = _next_accel_report = 0; + measure(); + + /* measurement will have generated a report, copy it out */ + memcpy(buffer, _accel_reports, sizeof(*_accel_reports)); + ret = sizeof(*_accel_reports); + + return ret; +} + +ssize_t +LSM303D::mag_read(struct file *filp, char *buffer, size_t buflen) +{ + unsigned count = buflen / sizeof(struct mag_report); + int ret = 0; + + /* buffer must be large enough */ + if (count < 1) + return -ENOSPC; + + /* if automatic measurement is enabled */ + if (_call_mag_interval > 0) { + + /* + * While there is space in the caller's buffer, and reports, copy them. + * Note that we may be pre-empted by the measurement code while we are doing this; + * we are careful to avoid racing with it. + */ + while (count--) { + if (_oldest_mag_report != _next_mag_report) { + memcpy(buffer, _mag_reports + _oldest_mag_report, sizeof(*_mag_reports)); + ret += sizeof(_mag_reports[0]); + INCREMENT(_oldest_mag_report, _num_mag_reports); + } + } + + /* if there was no data, warn the caller */ + return ret ? ret : -EAGAIN; + } + + /* manual measurement */ + _oldest_mag_report = _next_mag_report = 0; + measure(); + + /* measurement will have generated a report, copy it out */ + memcpy(buffer, _mag_reports, sizeof(*_mag_reports)); + ret = sizeof(*_mag_reports); + + return ret; +} + +int +LSM303D::ioctl(struct file *filp, int cmd, unsigned long arg) +{ + switch (cmd) { + + case SENSORIOCSPOLLRATE: { + switch (arg) { + + /* switching to manual polling */ + case SENSOR_POLLRATE_MANUAL: + stop(); + _call_accel_interval = 0; + return OK; + + /* external signalling not supported */ + case SENSOR_POLLRATE_EXTERNAL: + + /* zero would be bad */ + case 0: + return -EINVAL; + + /* set default/max polling rate */ + case SENSOR_POLLRATE_MAX: + return ioctl(filp, SENSORIOCSPOLLRATE, 1600); + + case SENSOR_POLLRATE_DEFAULT: + return ioctl(filp, SENSORIOCSPOLLRATE, LSM303D_ACCEL_DEFAULT_RATE); + + /* adjust to a legal polling interval in Hz */ + default: { + /* do we need to start internal polling? */ + bool want_start = (_call_accel_interval == 0); + + /* convert hz to hrt interval via microseconds */ + unsigned ticks = 1000000 / arg; + + /* check against maximum sane rate */ + if (ticks < 500) + return -EINVAL; + + /* adjust filters */ + accel_set_driver_lowpass_filter((float)arg, _accel_filter_x.get_cutoff_freq()); + + /* update interval for next measurement */ + /* XXX this is a bit shady, but no other way to adjust... */ + _accel_call.period = _call_accel_interval = ticks; + + /* if we need to start the poll state machine, do it */ + if (want_start) + start(); + + return OK; + } + } + } + + case SENSORIOCGPOLLRATE: + if (_call_accel_interval == 0) + return SENSOR_POLLRATE_MANUAL; + + return 1000000 / _call_accel_interval; + + case SENSORIOCSQUEUEDEPTH: { + /* account for sentinel in the ring */ + arg++; + + /* lower bound is mandatory, upper bound is a sanity check */ + if ((arg < 2) || (arg > 100)) + return -EINVAL; + + /* allocate new buffer */ + struct accel_report *buf = new struct accel_report[arg]; + + if (nullptr == buf) + return -ENOMEM; + + /* reset the measurement state machine with the new buffer, free the old */ + stop(); + delete[] _accel_reports; + _num_accel_reports = arg; + _accel_reports = buf; + start(); + + return OK; + } + + case SENSORIOCGQUEUEDEPTH: + return _num_accel_reports - 1; + + case SENSORIOCRESET: + reset(); + return OK; + + case ACCELIOCSSAMPLERATE: + return accel_set_samplerate(arg); + + case ACCELIOCGSAMPLERATE: + return _accel_samplerate; + + case ACCELIOCSLOWPASS: { + return accel_set_driver_lowpass_filter((float)_accel_samplerate, (float)arg); + } + + case ACCELIOCGLOWPASS: + return _accel_filter_x.get_cutoff_freq(); + + case ACCELIOCSSCALE: { + /* copy scale, but only if off by a few percent */ + struct accel_scale *s = (struct accel_scale *) arg; + float sum = s->x_scale + s->y_scale + s->z_scale; + if (sum > 2.0f && sum < 4.0f) { + memcpy(&_accel_scale, s, sizeof(_accel_scale)); + return OK; + } else { + return -EINVAL; + } + } + + case ACCELIOCSRANGE: + /* arg needs to be in G */ + return accel_set_range(arg); + + case ACCELIOCGRANGE: + /* convert to m/s^2 and return rounded in G */ + return (unsigned long)((_accel_range_m_s2)/LSM303D_ONE_G + 0.5f); + + case ACCELIOCGSCALE: + /* copy scale out */ + memcpy((struct accel_scale *) arg, &_accel_scale, sizeof(_accel_scale)); + return OK; + + case ACCELIOCSELFTEST: + return accel_self_test(); + + default: + /* give it to the superclass */ + return SPI::ioctl(filp, cmd, arg); + } +} + +int +LSM303D::mag_ioctl(struct file *filp, int cmd, unsigned long arg) +{ + switch (cmd) { + + case SENSORIOCSPOLLRATE: { + switch (arg) { + + /* switching to manual polling */ + case SENSOR_POLLRATE_MANUAL: + stop(); + _call_mag_interval = 0; + return OK; + + /* external signalling not supported */ + case SENSOR_POLLRATE_EXTERNAL: + + /* zero would be bad */ + case 0: + return -EINVAL; + + /* set default/max polling rate */ + case SENSOR_POLLRATE_MAX: + case SENSOR_POLLRATE_DEFAULT: + /* 100 Hz is max for mag */ + return mag_ioctl(filp, SENSORIOCSPOLLRATE, 100); + + /* adjust to a legal polling interval in Hz */ + default: { + /* do we need to start internal polling? */ + bool want_start = (_call_mag_interval == 0); + + /* convert hz to hrt interval via microseconds */ + unsigned ticks = 1000000 / arg; + + /* check against maximum sane rate */ + if (ticks < 1000) + return -EINVAL; + + /* update interval for next measurement */ + /* XXX this is a bit shady, but no other way to adjust... */ + _mag_call.period = _call_mag_interval = ticks; + + /* if we need to start the poll state machine, do it */ + if (want_start) + start(); + + return OK; + } + } + } + + case SENSORIOCGPOLLRATE: + if (_call_mag_interval == 0) + return SENSOR_POLLRATE_MANUAL; + + return 1000000 / _call_mag_interval; + + case SENSORIOCSQUEUEDEPTH: { + /* account for sentinel in the ring */ + arg++; + + /* lower bound is mandatory, upper bound is a sanity check */ + if ((arg < 2) || (arg > 100)) + return -EINVAL; + + /* allocate new buffer */ + struct mag_report *buf = new struct mag_report[arg]; + + if (nullptr == buf) + return -ENOMEM; + + /* reset the measurement state machine with the new buffer, free the old */ + stop(); + delete[] _mag_reports; + _num_mag_reports = arg; + _mag_reports = buf; + start(); + + return OK; + } + + case SENSORIOCGQUEUEDEPTH: + return _num_mag_reports - 1; + + case SENSORIOCRESET: + reset(); + return OK; + + case MAGIOCSSAMPLERATE: + return mag_set_samplerate(arg); + + case MAGIOCGSAMPLERATE: + return _mag_samplerate; + + case MAGIOCSLOWPASS: + case MAGIOCGLOWPASS: + /* not supported, no internal filtering */ + return -EINVAL; + + case MAGIOCSSCALE: + /* copy scale in */ + memcpy(&_mag_scale, (struct mag_scale *) arg, sizeof(_mag_scale)); + return OK; + + case MAGIOCGSCALE: + /* copy scale out */ + memcpy((struct mag_scale *) arg, &_mag_scale, sizeof(_mag_scale)); + return OK; + + case MAGIOCSRANGE: + return mag_set_range(arg); + + case MAGIOCGRANGE: + return _mag_range_ga; + + case MAGIOCSELFTEST: + return mag_self_test(); + + case MAGIOCGEXTERNAL: + /* no external mag board yet */ + return 0; + + default: + /* give it to the superclass */ + return SPI::ioctl(filp, cmd, arg); + } +} + +int +LSM303D::accel_self_test() +{ + if (_accel_read == 0) + return 1; + + /* inspect accel offsets */ + if (fabsf(_accel_scale.x_offset) < 0.000001f) + return 1; + if (fabsf(_accel_scale.x_scale - 1.0f) > 0.4f || fabsf(_accel_scale.x_scale - 1.0f) < 0.000001f) + return 1; + + if (fabsf(_accel_scale.y_offset) < 0.000001f) + return 1; + if (fabsf(_accel_scale.y_scale - 1.0f) > 0.4f || fabsf(_accel_scale.y_scale - 1.0f) < 0.000001f) + return 1; + + if (fabsf(_accel_scale.z_offset) < 0.000001f) + return 1; + if (fabsf(_accel_scale.z_scale - 1.0f) > 0.4f || fabsf(_accel_scale.z_scale - 1.0f) < 0.000001f) + return 1; + + return 0; +} + +int +LSM303D::mag_self_test() +{ + if (_mag_read == 0) + return 1; + + /** + * inspect mag offsets + * don't check mag scale because it seems this is calibrated on chip + */ + if (fabsf(_mag_scale.x_offset) < 0.000001f) + return 1; + + if (fabsf(_mag_scale.y_offset) < 0.000001f) + return 1; + + if (fabsf(_mag_scale.z_offset) < 0.000001f) + return 1; + + return 0; +} + +uint8_t +LSM303D::read_reg(unsigned reg) +{ + uint8_t cmd[2]; + + cmd[0] = reg | DIR_READ; + + transfer(cmd, cmd, sizeof(cmd)); + + return cmd[1]; +} + +void +LSM303D::write_reg(unsigned reg, uint8_t value) +{ + uint8_t cmd[2]; + + cmd[0] = reg | DIR_WRITE; + cmd[1] = value; + + transfer(cmd, nullptr, sizeof(cmd)); +} + +void +LSM303D::modify_reg(unsigned reg, uint8_t clearbits, uint8_t setbits) +{ + uint8_t val; + + val = read_reg(reg); + val &= ~clearbits; + val |= setbits; + write_reg(reg, val); +} + +int +LSM303D::accel_set_range(unsigned max_g) +{ + uint8_t setbits = 0; + uint8_t clearbits = REG2_FULL_SCALE_BITS_A; + float new_scale_g_digit = 0.0f; + + if (max_g == 0) + max_g = 16; + + if (max_g <= 2) { + _accel_range_m_s2 = 2.0f*LSM303D_ONE_G; + setbits |= REG2_FULL_SCALE_2G_A; + new_scale_g_digit = 0.061e-3f; + + } else if (max_g <= 4) { + _accel_range_m_s2 = 4.0f*LSM303D_ONE_G; + setbits |= REG2_FULL_SCALE_4G_A; + new_scale_g_digit = 0.122e-3f; + + } else if (max_g <= 6) { + _accel_range_m_s2 = 6.0f*LSM303D_ONE_G; + setbits |= REG2_FULL_SCALE_6G_A; + new_scale_g_digit = 0.183e-3f; + + } else if (max_g <= 8) { + _accel_range_m_s2 = 8.0f*LSM303D_ONE_G; + setbits |= REG2_FULL_SCALE_8G_A; + new_scale_g_digit = 0.244e-3f; + + } else if (max_g <= 16) { + _accel_range_m_s2 = 16.0f*LSM303D_ONE_G; + setbits |= REG2_FULL_SCALE_16G_A; + new_scale_g_digit = 0.732e-3f; + + } else { + return -EINVAL; + } + + _accel_range_scale = new_scale_g_digit * LSM303D_ONE_G; + + modify_reg(ADDR_CTRL_REG2, clearbits, setbits); + + return OK; +} + +int +LSM303D::mag_set_range(unsigned max_ga) +{ + uint8_t setbits = 0; + uint8_t clearbits = REG6_FULL_SCALE_BITS_M; + float new_scale_ga_digit = 0.0f; + + if (max_ga == 0) + max_ga = 12; + + if (max_ga <= 2) { + _mag_range_ga = 2; + setbits |= REG6_FULL_SCALE_2GA_M; + new_scale_ga_digit = 0.080e-3f; + + } else if (max_ga <= 4) { + _mag_range_ga = 4; + setbits |= REG6_FULL_SCALE_4GA_M; + new_scale_ga_digit = 0.160e-3f; + + } else if (max_ga <= 8) { + _mag_range_ga = 8; + setbits |= REG6_FULL_SCALE_8GA_M; + new_scale_ga_digit = 0.320e-3f; + + } else if (max_ga <= 12) { + _mag_range_ga = 12; + setbits |= REG6_FULL_SCALE_12GA_M; + new_scale_ga_digit = 0.479e-3f; + + } else { + return -EINVAL; + } + + _mag_range_scale = new_scale_ga_digit; + + modify_reg(ADDR_CTRL_REG6, clearbits, setbits); + + return OK; +} + +int +LSM303D::accel_set_onchip_lowpass_filter_bandwidth(unsigned bandwidth) +{ + uint8_t setbits = 0; + uint8_t clearbits = REG2_ANTIALIAS_FILTER_BW_BITS_A; + + if (bandwidth == 0) + bandwidth = 773; + + if (bandwidth <= 50) { + setbits |= REG2_AA_FILTER_BW_50HZ_A; + _accel_onchip_filter_bandwith = 50; + + } else if (bandwidth <= 194) { + setbits |= REG2_AA_FILTER_BW_194HZ_A; + _accel_onchip_filter_bandwith = 194; + + } else if (bandwidth <= 362) { + setbits |= REG2_AA_FILTER_BW_362HZ_A; + _accel_onchip_filter_bandwith = 362; + + } else if (bandwidth <= 773) { + setbits |= REG2_AA_FILTER_BW_773HZ_A; + _accel_onchip_filter_bandwith = 773; + + } else { + return -EINVAL; + } + + modify_reg(ADDR_CTRL_REG2, clearbits, setbits); + + return OK; +} + +int +LSM303D::accel_set_driver_lowpass_filter(float samplerate, float bandwidth) +{ + _accel_filter_x.set_cutoff_frequency(samplerate, bandwidth); + _accel_filter_y.set_cutoff_frequency(samplerate, bandwidth); + _accel_filter_z.set_cutoff_frequency(samplerate, bandwidth); + + return OK; +} + +int +LSM303D::accel_set_samplerate(unsigned frequency) +{ + uint8_t setbits = 0; + uint8_t clearbits = REG1_RATE_BITS_A; + + if (frequency == 0) + frequency = 1600; + + if (frequency <= 100) { + setbits |= REG1_RATE_100HZ_A; + _accel_samplerate = 100; + + } else if (frequency <= 200) { + setbits |= REG1_RATE_200HZ_A; + _accel_samplerate = 200; + + } else if (frequency <= 400) { + setbits |= REG1_RATE_400HZ_A; + _accel_samplerate = 400; + + } else if (frequency <= 800) { + setbits |= REG1_RATE_800HZ_A; + _accel_samplerate = 800; + + } else if (frequency <= 1600) { + setbits |= REG1_RATE_1600HZ_A; + _accel_samplerate = 1600; + + } else { + return -EINVAL; + } + + modify_reg(ADDR_CTRL_REG1, clearbits, setbits); + + return OK; +} + +int +LSM303D::mag_set_samplerate(unsigned frequency) +{ + uint8_t setbits = 0; + uint8_t clearbits = REG5_RATE_BITS_M; + + if (frequency == 0) + frequency = 100; + + if (frequency <= 25) { + setbits |= REG5_RATE_25HZ_M; + _mag_samplerate = 25; + + } else if (frequency <= 50) { + setbits |= REG5_RATE_50HZ_M; + _mag_samplerate = 50; + + } else if (frequency <= 100) { + setbits |= REG5_RATE_100HZ_M; + _mag_samplerate = 100; + + } else { + return -EINVAL; + } + + modify_reg(ADDR_CTRL_REG5, clearbits, setbits); + + return OK; +} + +void +LSM303D::start() +{ + /* make sure we are stopped first */ + stop(); + + /* reset the report ring */ + _oldest_accel_report = _next_accel_report = 0; + _oldest_mag_report = _next_mag_report = 0; + + /* start polling at the specified rate */ + hrt_call_every(&_accel_call, 1000, _call_accel_interval, (hrt_callout)&LSM303D::measure_trampoline, this); + hrt_call_every(&_mag_call, 1000, _call_mag_interval, (hrt_callout)&LSM303D::mag_measure_trampoline, this); +} + +void +LSM303D::stop() +{ + hrt_cancel(&_accel_call); + hrt_cancel(&_mag_call); +} + +void +LSM303D::measure_trampoline(void *arg) +{ + LSM303D *dev = (LSM303D *)arg; + + /* make another measurement */ + dev->measure(); +} + +void +LSM303D::mag_measure_trampoline(void *arg) +{ + LSM303D *dev = (LSM303D *)arg; + + /* make another measurement */ + dev->mag_measure(); +} + +void +LSM303D::measure() +{ + /* status register and data as read back from the device */ + +#pragma pack(push, 1) + struct { + uint8_t cmd; + uint8_t status; + int16_t x; + int16_t y; + int16_t z; + } raw_accel_report; +#pragma pack(pop) + + accel_report *accel_report = &_accel_reports[_next_accel_report]; + + /* start the performance counter */ + perf_begin(_accel_sample_perf); + + /* fetch data from the sensor */ + raw_accel_report.cmd = ADDR_STATUS_A | DIR_READ | ADDR_INCREMENT; + transfer((uint8_t *)&raw_accel_report, (uint8_t *)&raw_accel_report, sizeof(raw_accel_report)); + + /* + * 1) Scale raw value to SI units using scaling from datasheet. + * 2) Subtract static offset (in SI units) + * 3) Scale the statically calibrated values with a linear + * dynamically obtained factor + * + * Note: the static sensor offset is the number the sensor outputs + * at a nominally 'zero' input. Therefore the offset has to + * be subtracted. + * + * Example: A gyro outputs a value of 74 at zero angular rate + * the offset is 74 from the origin and subtracting + * 74 from all measurements centers them around zero. + */ + + + accel_report->timestamp = hrt_absolute_time(); + + accel_report->x_raw = raw_accel_report.x; + accel_report->y_raw = raw_accel_report.y; + accel_report->z_raw = raw_accel_report.z; + + float x_in_new = ((accel_report->x_raw * _accel_range_scale) - _accel_scale.x_offset) * _accel_scale.x_scale; + float y_in_new = ((accel_report->y_raw * _accel_range_scale) - _accel_scale.y_offset) * _accel_scale.y_scale; + float z_in_new = ((accel_report->z_raw * _accel_range_scale) - _accel_scale.z_offset) * _accel_scale.z_scale; + + accel_report->x = _accel_filter_x.apply(x_in_new); + accel_report->y = _accel_filter_y.apply(y_in_new); + accel_report->z = _accel_filter_z.apply(z_in_new); + + accel_report->scaling = _accel_range_scale; + accel_report->range_m_s2 = _accel_range_m_s2; + + /* post a report to the ring - note, not locked */ + INCREMENT(_next_accel_report, _num_accel_reports); + + /* if we are running up against the oldest report, fix it */ + if (_next_accel_report == _oldest_accel_report) + INCREMENT(_oldest_accel_report, _num_accel_reports); + + /* notify anyone waiting for data */ + poll_notify(POLLIN); + + /* publish for subscribers */ + orb_publish(ORB_ID(sensor_accel), _accel_topic, accel_report); + + _accel_read++; + + /* stop the perf counter */ + perf_end(_accel_sample_perf); +} + +void +LSM303D::mag_measure() +{ + /* status register and data as read back from the device */ +#pragma pack(push, 1) + struct { + uint8_t cmd; + uint8_t status; + int16_t x; + int16_t y; + int16_t z; + } raw_mag_report; +#pragma pack(pop) + + mag_report *mag_report = &_mag_reports[_next_mag_report]; + + /* start the performance counter */ + perf_begin(_mag_sample_perf); + + /* fetch data from the sensor */ + raw_mag_report.cmd = ADDR_STATUS_M | DIR_READ | ADDR_INCREMENT; + transfer((uint8_t *)&raw_mag_report, (uint8_t *)&raw_mag_report, sizeof(raw_mag_report)); + + /* + * 1) Scale raw value to SI units using scaling from datasheet. + * 2) Subtract static offset (in SI units) + * 3) Scale the statically calibrated values with a linear + * dynamically obtained factor + * + * Note: the static sensor offset is the number the sensor outputs + * at a nominally 'zero' input. Therefore the offset has to + * be subtracted. + * + * Example: A gyro outputs a value of 74 at zero angular rate + * the offset is 74 from the origin and subtracting + * 74 from all measurements centers them around zero. + */ + + + mag_report->timestamp = hrt_absolute_time(); + + mag_report->x_raw = raw_mag_report.x; + mag_report->y_raw = raw_mag_report.y; + mag_report->z_raw = raw_mag_report.z; + mag_report->x = ((mag_report->x_raw * _mag_range_scale) - _mag_scale.x_offset) * _mag_scale.x_scale; + mag_report->y = ((mag_report->y_raw * _mag_range_scale) - _mag_scale.y_offset) * _mag_scale.y_scale; + mag_report->z = ((mag_report->z_raw * _mag_range_scale) - _mag_scale.z_offset) * _mag_scale.z_scale; + mag_report->scaling = _mag_range_scale; + mag_report->range_ga = (float)_mag_range_ga; + + /* post a report to the ring - note, not locked */ + INCREMENT(_next_mag_report, _num_mag_reports); + + /* if we are running up against the oldest report, fix it */ + if (_next_mag_report == _oldest_mag_report) + INCREMENT(_oldest_mag_report, _num_mag_reports); + + /* XXX please check this poll_notify, is it the right one? */ + /* notify anyone waiting for data */ + poll_notify(POLLIN); + + /* publish for subscribers */ + orb_publish(ORB_ID(sensor_mag), _mag_topic, mag_report); + + _mag_read++; + + /* stop the perf counter */ + perf_end(_mag_sample_perf); +} + +void +LSM303D::print_info() +{ + printf("accel reads: %u\n", _accel_read); + printf("mag reads: %u\n", _mag_read); + perf_print_counter(_accel_sample_perf); + printf("report queue: %u (%u/%u @ %p)\n", + _num_accel_reports, _oldest_accel_report, _next_accel_report, _accel_reports); + perf_print_counter(_mag_sample_perf); + printf("report queue: %u (%u/%u @ %p)\n", + _num_mag_reports, _oldest_mag_report, _next_mag_report, _mag_reports); +} + +LSM303D_mag::LSM303D_mag(LSM303D *parent) : + CDev("LSM303D_mag", MAG_DEVICE_PATH), + _parent(parent) +{ +} + +LSM303D_mag::~LSM303D_mag() +{ +} + +void +LSM303D_mag::parent_poll_notify() +{ + poll_notify(POLLIN); +} + +ssize_t +LSM303D_mag::read(struct file *filp, char *buffer, size_t buflen) +{ + return _parent->mag_read(filp, buffer, buflen); +} + +int +LSM303D_mag::ioctl(struct file *filp, int cmd, unsigned long arg) +{ + return _parent->mag_ioctl(filp, cmd, arg); +} + +void +LSM303D_mag::measure() +{ + _parent->mag_measure(); +} + +void +LSM303D_mag::measure_trampoline(void *arg) +{ + _parent->mag_measure_trampoline(arg); +} + +/** + * Local functions in support of the shell command. + */ +namespace lsm303d +{ + +LSM303D *g_dev; + +void start(); +void test(); +void reset(); +void info(); + +/** + * Start the driver. + */ +void +start() +{ + int fd, fd_mag; + + if (g_dev != nullptr) + errx(0, "already started"); + + /* create the driver */ + g_dev = new LSM303D(1 /* XXX magic number */, ACCEL_DEVICE_PATH, (spi_dev_e)PX4_SPIDEV_ACCEL_MAG); + + if (g_dev == nullptr) + goto fail; + + if (OK != g_dev->init()) + goto fail; + + /* set the poll rate to default, starts automatic data collection */ + fd = open(ACCEL_DEVICE_PATH, O_RDONLY); + + if (fd < 0) + goto fail; + + if (ioctl(fd, SENSORIOCSPOLLRATE, SENSOR_POLLRATE_DEFAULT) < 0) + goto fail; + + fd_mag = open(MAG_DEVICE_PATH, O_RDONLY); + + /* don't fail if open cannot be opened */ + if (0 <= fd_mag) { + if (ioctl(fd_mag, SENSORIOCSPOLLRATE, SENSOR_POLLRATE_DEFAULT) < 0) { + goto fail; + } + } + + + exit(0); +fail: + + if (g_dev != nullptr) { + delete g_dev; + g_dev = nullptr; + } + + errx(1, "driver start failed"); +} + +/** + * Perform some basic functional tests on the driver; + * make sure we can collect data from the sensor in polled + * and automatic modes. + */ +void +test() +{ + int fd_accel = -1; + struct accel_report accel_report; + ssize_t sz; + int ret; + + /* get the driver */ + fd_accel = open(ACCEL_DEVICE_PATH, O_RDONLY); + + if (fd_accel < 0) + err(1, "%s open failed", ACCEL_DEVICE_PATH); + + /* do a simple demand read */ + sz = read(fd_accel, &accel_report, sizeof(accel_report)); + + if (sz != sizeof(accel_report)) + err(1, "immediate read failed"); + + + warnx("accel x: \t% 9.5f\tm/s^2", (double)accel_report.x); + warnx("accel y: \t% 9.5f\tm/s^2", (double)accel_report.y); + warnx("accel z: \t% 9.5f\tm/s^2", (double)accel_report.z); + warnx("accel x: \t%d\traw", (int)accel_report.x_raw); + warnx("accel y: \t%d\traw", (int)accel_report.y_raw); + warnx("accel z: \t%d\traw", (int)accel_report.z_raw); + + warnx("accel range: %8.4f m/s^2", (double)accel_report.range_m_s2); + if (ERROR == (ret = ioctl(fd_accel, ACCELIOCGLOWPASS, 0))) + warnx("accel antialias filter bandwidth: fail"); + else + warnx("accel antialias filter bandwidth: %d Hz", ret); + + int fd_mag = -1; + struct mag_report m_report; + + /* get the driver */ + fd_mag = open(MAG_DEVICE_PATH, O_RDONLY); + + if (fd_mag < 0) + err(1, "%s open failed", MAG_DEVICE_PATH); + + /* check if mag is onboard or external */ + if ((ret = ioctl(fd_mag, MAGIOCGEXTERNAL, 0)) < 0) + errx(1, "failed to get if mag is onboard or external"); + warnx("mag device active: %s", ret ? "external" : "onboard"); + + /* do a simple demand read */ + sz = read(fd_mag, &m_report, sizeof(m_report)); + + if (sz != sizeof(m_report)) + err(1, "immediate read failed"); + + warnx("mag x: \t% 9.5f\tga", (double)m_report.x); + warnx("mag y: \t% 9.5f\tga", (double)m_report.y); + warnx("mag z: \t% 9.5f\tga", (double)m_report.z); + warnx("mag x: \t%d\traw", (int)m_report.x_raw); + warnx("mag y: \t%d\traw", (int)m_report.y_raw); + warnx("mag z: \t%d\traw", (int)m_report.z_raw); + warnx("mag range: %8.4f ga", (double)m_report.range_ga); + + /* XXX add poll-rate tests here too */ + + reset(); + errx(0, "PASS"); +} + +/** + * Reset the driver. + */ +void +reset() +{ + int fd = open(ACCEL_DEVICE_PATH, O_RDONLY); + + if (fd < 0) + err(1, "failed "); + + if (ioctl(fd, SENSORIOCRESET, 0) < 0) + err(1, "driver reset failed"); + + if (ioctl(fd, SENSORIOCSPOLLRATE, SENSOR_POLLRATE_DEFAULT) < 0) + err(1, "accel pollrate reset failed"); + + fd = open(MAG_DEVICE_PATH, O_RDONLY); + + if (fd < 0) { + warnx("mag could not be opened, external mag might be used"); + } else { + /* no need to reset the mag as well, the reset() is the same */ + if (ioctl(fd, SENSORIOCSPOLLRATE, SENSOR_POLLRATE_DEFAULT) < 0) + err(1, "mag pollrate reset failed"); + } + + exit(0); +} + +/** + * Print a little info about the driver. + */ +void +info() +{ + if (g_dev == nullptr) + errx(1, "driver not running\n"); + + printf("state @ %p\n", g_dev); + g_dev->print_info(); + + exit(0); +} + + +} // namespace + +int +lsm303d_main(int argc, char *argv[]) +{ + /* + * Start/load the driver. + + */ + if (!strcmp(argv[1], "start")) + lsm303d::start(); + + /* + * Test the driver/device. + */ + if (!strcmp(argv[1], "test")) + lsm303d::test(); + + /* + * Reset the driver. + */ + if (!strcmp(argv[1], "reset")) + lsm303d::reset(); + + /* + * Print driver information. + */ + if (!strcmp(argv[1], "info")) + lsm303d::info(); + + errx(1, "unrecognized command, try 'start', 'test', 'reset' or 'info'"); +} diff --git a/src/drivers/lsm303d/module.mk b/src/drivers/lsm303d/module.mk new file mode 100644 index 000000000..e40f718c5 --- /dev/null +++ b/src/drivers/lsm303d/module.mk @@ -0,0 +1,8 @@ +# +# LSM303D accel/mag driver +# + +MODULE_COMMAND = lsm303d +SRCS = lsm303d.cpp + + |