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/****************************************************************************
*
* Copyright (C) 2012 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 Driver for the ST L3GD20 MEMS gyro connected via SPI.
*/
#include <nuttx/config.h>
#include <device/spi.h>
#include <sys/types.h>
#include <stdint.h>
#include <stdbool.h>
#include <stddef.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 <nuttx/arch.h>
#include <nuttx/clock.h>
#include <arch/board/up_hrt.h>
#include <drivers/drv_gyro.h>
extern "C" { __EXPORT int l3gd20_main(int argc, char *argv[]); }
class L3GD20 : public device::SPI
{
public:
L3GD20(int bus, spi_dev_e device);
~L3GD20();
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();
private:
struct hrt_call _call;
unsigned _call_interval;
unsigned _num_reports;
volatile unsigned _next_report;
volatile unsigned _oldest_report;
struct gyro_report *_reports;
struct gyro_scale _scale;
float _range_scale;
unsigned _reads;
unsigned _rate;
unsigned _range;
/**
* Start automatic measurement.
*/
void start();
/**
* Stop automatic measurement.
*/
void stop();
/**
* 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);
/**
* Fetch measurements from the sensor and update the report ring.
*/
void measure();
/**
* Read a register from the L3GD20
*
* @param The register to read.
* @return The value that was read.
*/
uint8_t read_reg(unsigned reg);
/**
* Write a register in the L3GD20
*
* @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 L3GD20
*
* 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 L3GD20 measurement range.
*
* @param max_g The maximum G value the range must support.
* @return OK if the value can be supported, -ERANGE otherwise.
*/
int set_range(unsigned max_g);
/**
* Set the L3GD20 lowpass filter.
*
* @param frequency Set the lowpass filter cutoff frequency to no less than
* this frequency.
* @return OK if the value can be supported.
*/
int set_bandwidth(unsigned frequency);
};
/* helper macro for handling report buffer indices */
#define INCREMENT(_x, _lim) do { _x++; if (_x >= _lim) _x = 0; } while(0)
#define DIR_READ (1<<7)
#define DIR_WRITE (0<<7)
#define ADDR_INCREMENT (1<<6)
#define ADDR_WHO_AM_I 0x0F
#define WHO_I_AM 0xD4
#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_REFERENCE 0x25
#define ADDR_OUT_TEMP 0x26
#define ADDR_STATUS_REG 0x27
#define ADDR_OUT_X_L 0x28
#define ADDR_OUT_X_H 0x29
#define ADDR_OUT_Y_L 0x2A
#define ADDR_OUT_Y_H 0x2B
#define ADDR_OUT_Z_L 0x2C
#define ADDR_OUT_Z_H 0x2D
#define ADDR_FIFO_CTRL_REG 0x2E
#define ADDR_FIFO_SRC_REG 0x2F
#define ADDR_INT1_CFG 0x30
#define ADDR_INT1_SRC 0x31
#define ADDR_INT1_TSH_XH 0x32
#define ADDR_INT1_TSH_XL 0x33
#define ADDR_INT1_TSH_YH 0x34
#define ADDR_INT1_TSH_YL 0x35
#define ADDR_INT1_TSH_ZH 0x36
#define ADDR_INT1_TSH_ZL 0x37
#define ADDR_INT1_DURATION 0x38
#define REG1_RATE_LP_MASK 0xF0 /* Mask to guard partial register update */
#define REG4_RANGE_MASK 0x30 /* Mask to guard partial register update */
/* Internal configuration values */
#define REG1_POWER_NORMAL (1<<3)
#define REG1_Z_ENABLE (1<<2)
#define REG1_Y_ENABLE (1<<1)
#define REG1_X_ENABLE (1<<0)
#define REG4_BDU (1<<7)
#define REG4_BLE (1<<6)
//#define REG4_SPI_3WIRE (1<<0)
#define REG5_FIFO_ENABLE (1<<6)
#define REG5_REBOOT_MEMORY (1<<7)
#define STATUS_ZYXOR (1<<7)
#define STATUS_ZOR (1<<6)
#define STATUS_YOR (1<<5)
#define STATUS_XOR (1<<4)
#define STATUS_ZYXDA (1<<3)
#define STATUS_ZDA (1<<2)
#define STATUS_YDA (1<<1)
#define STATUS_XDA (1<<0)
#define FIFO_CTRL_BYPASS_MODE (0<<5)
#define FIFO_CTRL_FIFO_MODE (1<<5)
#define FIFO_CTRL_STREAM_MODE (1<<6)
#define FIFO_CTRL_STREAM_TO_FIFO_MODE (3<<5)
#define FIFO_CTRL_BYPASS_TO_STREAM_MODE (1<<7)
#define L3GD20_RANGE_250DPS (0<<4)
#define L3GD20_RANGE_500DPS (1<<4)
#define L3GD20_RANGE_2000DPS (3<<4)
#define L3GD20_RATE_95HZ ((0<<6) | (0<<4))
#define L3GD20_RATE_190HZ ((1<<6) | (0<<4))
#define L3GD20_RATE_380HZ ((2<<6) | (1<<4))
#define L3GD20_RATE_760HZ ((3<<6) | (2<<4))
/*
* Driver 'main' command.
*/
extern "C" { int l3gd20_main(int argc, char *argv[]); }
L3GD20::L3GD20(int bus, spi_dev_e device) :
SPI("L3GD20", GYRO_DEVICE_PATH, bus, device, SPIDEV_MODE3, 8000000),
_num_reports(0),
_next_report(0),
_oldest_report(0),
_reports(nullptr),
_reads(0),
_rate(L3GD20_RATE_760HZ),
_range(L3GD20_RANGE_2000DPS)
{
// enable debug() calls
_debug_enabled = true;
// default scale factors XXX
_scale.x_offset = 0;
_scale.x_scale = 1.0f;
_scale.y_offset = 0;
_scale.y_scale = 1.0f;
_scale.z_offset = 0;
_scale.z_scale = 1.0f;
}
L3GD20::~L3GD20()
{
/* make sure we are truly inactive */
stop();
/* free any existing reports */
if (_reports != nullptr)
delete[] _reports;
}
int
L3GD20::init()
{
int ret = ERROR;
/* do SPI init (and probe) first */
if (SPI::init() != OK)
goto out;
/* allocate basic report buffers */
_num_reports = 2;
_oldest_report = _next_report = 0;
_reports = new struct gyro_report[_num_reports];
if (_reports == nullptr)
goto out;
/* set default configuration */
write_reg(ADDR_CTRL_REG1, REG1_POWER_NORMAL | REG1_Z_ENABLE | REG1_Y_ENABLE | REG1_X_ENABLE);
write_reg(ADDR_CTRL_REG2, 0); /* disable high-pass filters */
write_reg(ADDR_CTRL_REG3, 0); /* no interrupts - we don't use them */
write_reg(ADDR_CTRL_REG4, 0x10);
write_reg(ADDR_CTRL_REG5, 0);
write_reg(ADDR_CTRL_REG5, REG5_FIFO_ENABLE); /* disable wake-on-interrupt */
write_reg(ADDR_FIFO_CTRL_REG, FIFO_CTRL_STREAM_MODE); /* Enable FIFO, old data is overwritten */
if ((set_range(L3GD20_RANGE_500DPS) != 0) ||
(set_rate(L3GD20_RATE_760HZ_LP_100HZ) != 0))
goto out;
ret = OK;
out:
return ret;
}
int
L3GD20::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
L3GD20::read(struct file *filp, char *buffer, size_t buflen)
{
unsigned count = buflen / sizeof(struct gyro_report);
int ret = 0;
/* buffer must be large enough */
if (count < 1)
return -ENOSPC;
/* if automatic measurement is enabled */
if (_call_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_report != _next_report) {
memcpy(buffer, _reports + _oldest_report, sizeof(*_reports));
ret += sizeof(_reports[0]);
INCREMENT(_oldest_report, _num_reports);
}
}
_reads++;
/* if there was no data, warn the caller */
return ret ? ret : -EAGAIN;
}
/* manual measurement */
_oldest_report = _next_report = 0;
measure();
/* measurement will have generated a report, copy it out */
memcpy(buffer, _reports, sizeof(*_reports));
ret = sizeof(*_reports);
return ret;
}
int
L3GD20::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_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:
/* XXX 500Hz is just a wild guess */
return ioctl(filp, SENSORIOCSPOLLRATE, 500);
/* adjust to a legal polling interval in Hz */
default: {
/* do we need to start internal polling? */
bool want_start = (_call_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... */
_call.period = _call_interval;
/* if we need to start the poll state machine, do it */
if (want_start)
start();
return OK;
}
}
}
case SENSORIOCGPOLLRATE:
if (_call_interval == 0)
return SENSOR_POLLRATE_MANUAL;
return 1000000 / _call_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 gyro_report *buf = new struct gyro_report[arg];
if (nullptr == buf)
return -ENOMEM;
/* reset the measurement state machine with the new buffer, free the old */
stop();
delete[] _reports;
_num_reports = arg;
_reports = buf;
start();
return OK;
}
case SENSORIOCGQUEUEDEPTH:
return _num_reports -1;
case SENSORIOCRESET:
/* XXX implement */
return -EINVAL;
case GYROIOCSSAMPLERATE:
case GYROIOCGSAMPLERATE:
/* XXX not implemented */
return -EINVAL;
case GYROIOCSLOWPASS:
case GYROIOCGLOWPASS:
/* XXX not implemented */
return -EINVAL;
case GYROIOCSSCALE:
case GYROIOCGSCALE:
/* XXX not implemented */
return -EINVAL;
case GYROIOCSRANGE:
case GYROIOCGRANGE:
/* XXX not implemented */
// XXX change these two values on set:
// _gyro_range_scale = xx
// _gyro_range_m_s2 = xx
return -EINVAL;
default:
/* give it to the superclass */
return SPI::ioctl(filp, cmd, arg);
}
uint8_t
L3GD20::read_reg(unsigned reg)
{
uint8_t cmd[2];
cmd[0] = reg | DIR_READ;
transfer(cmd, cmd, sizeof(cmd));
return cmd[1];
}
void
L3GD20::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
L3GD20::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
L3GD20::set_range(unsigned max_g)
{
#if 0
uint8_t rangebits;
float rangescale;
if (max_g > 16) {
return -ERANGE;
} else if (max_g > 8) { /* 16G */
rangebits = OFFSET_LSB1_RANGE_16G;
rangescale = 1.98;
} else if (max_g > 4) { /* 8G */
rangebits = OFFSET_LSB1_RANGE_8G;
rangescale = 0.99;
} else if (max_g > 3) { /* 4G */
rangebits = OFFSET_LSB1_RANGE_4G;
rangescale = 0.5;
} else if (max_g > 2) { /* 3G */
rangebits = OFFSET_LSB1_RANGE_3G;
rangescale = 0.38;
} else if (max_g > 1) { /* 2G */
rangebits = OFFSET_LSB1_RANGE_2G;
rangescale = 0.25;
} else { /* 1G */
rangebits = OFFSET_LSB1_RANGE_1G;
rangescale = 0.13;
}
/* adjust sensor configuration */
modify_reg(ADDR_OFFSET_LSB1, OFFSET_LSB1_RANGE_MASK, rangebits);
_range_scale = rangescale;
#endif
return OK;
}
int
L3GD20::set_bandwidth(unsigned frequency)
{
#if 0
uint8_t bwbits;
if (frequency > 1200) {
return -ERANGE;
} else if (frequency > 600) {
bwbits = BW_TCS_BW_1200HZ;
} else if (frequency > 300) {
bwbits = BW_TCS_BW_600HZ;
} else if (frequency > 150) {
bwbits = BW_TCS_BW_300HZ;
} else if (frequency > 75) {
bwbits = BW_TCS_BW_150HZ;
} else if (frequency > 40) {
bwbits = BW_TCS_BW_75HZ;
} else if (frequency > 20) {
bwbits = BW_TCS_BW_40HZ;
} else if (frequency > 10) {
bwbits = BW_TCS_BW_20HZ;
} else {
bwbits = BW_TCS_BW_10HZ;
}
/* adjust sensor configuration */
modify_reg(ADDR_BW_TCS, BW_TCS_BW_MASK, bwbits);
#endif
return OK;
}
void
L3GD20::start()
{
/* make sure we are stopped first */
stop();
/* reset the report ring */
_oldest_report = _next_report = 0;
/* start polling at the specified rate */
hrt_call_every(&_call, 1000, _call_interval, (hrt_callout)&L3GD20::measure_trampoline, this);
}
void
L3GD20::stop()
{
hrt_cancel(&_call);
}
void
L3GD20::measure_trampoline(void *arg)
{
L3GD20 *dev = (L3GD20 *)arg;
/* make another measurement */
dev->measure();
}
void
L3GD20::measure()
{
/* status register and data as read back from the device */
#pragma pack(push, 1)
struct {
uint8_t cmd;
uint8_t temp;
uint8_t status;
int16_t x;
int16_t y;
int16_t z;
} raw_report;
#pragma pack(pop)
gyro_report *report = &_reports[_next_report];
/* start the performance counter */
perf_begin(_sample_perf);
/* fetch data from the sensor */
report.cmd = ADDR_OUT_TEMP | DIR_READ | ADDR_INCREMENT;
transfer(&report, &report, sizeof(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.
*/
report->timestamp = hrt_absolute_time();
/* XXX adjust for sensor alignment to board here */
report->raw_x = raw_report.x;
report->raw_y = raw_report.y;
report->raw_z = raw_report.z;
report->x = ((raw_report.x * _range_scale) - _scale.x_offset) * _scale.x_scale;
report->y = ((raw_report.y * _range_scale) - _scale.y_offset) * _scale.y_scale;
report->z = ((raw_report.z * _range_scale) - _scale.z_offset) * _scale.z_scale;
report->scaling = _range_scale;
report->range_rad_s = _range_rad_s;
/* notify anyone waiting for data */
poll_notify(POLLIN);
/* publish for subscribers */
orb_publish(ORB_ID(sensor_gyro), _gyro_topic, &_gyro_report);
/* stop the perf counter */
perf_end(_sample_perf);
}
void
L3GD20::print_info()
{
printf("reads: %u\n", _reads);
printf("report queue: %u (%u/%u @ %p)\n",
_num_reports, _oldest_report, _next_report, _reports);
}
/**
* Local functions in support of the shell command.
*/
namespace
{
L3GD20 *g_dev;
/*
* XXX this should just be part of the generic sensors test...
*/
int
test()
{
int fd = -1;
struct gyro_report report;
ssize_t sz;
const char *reason = "test OK";
do {
/* get the driver */
fd = open(GYRO_DEVICE_PATH, O_RDONLY);
if (fd < 0) {
reason = "can't open driver";
break;
}
/* do a simple demand read */
sz = read(fd, &report, sizeof(report));
if (sz != sizeof(report)) {
reason = "immediate read failed";
break;
}
printf("single read\n");
fflush(stdout);
printf("time: %lld\n", report.timestamp);
printf("x: %f\n", report.x);
printf("y: %f\n", report.y);
printf("z: %f\n", report.z);
} while (0);
printf("L3GD20: %s\n", reason);
return OK;
}
int
info()
{
if (g_dev == nullptr) {
fprintf(stderr, "L3GD20: driver not running\n");
return -ENOENT;
}
printf("state @ %p\n", g_dev);
g_dev->print_info();
return OK;
}
} // namespace
int
l3gd20_main(int argc, char *argv[])
{
/*
* Start/load the driver.
*
* XXX it would be nice to have a wrapper for this...
*/
if (!strcmp(argv[1], "start")) {
if (g_dev != nullptr) {
fprintf(stderr, "L3GD20: already loaded\n");
return -EBUSY;
}
/* create the driver */
g_dev = new L3GD20(CONFIG_L3GD20_SPI_BUS, (spi_dev_e)CONFIG_L3GD20_SPI_DEVICE);
if (g_dev == nullptr) {
fprintf(stderr, "L3GD20: driver alloc failed\n");
return -ENOMEM;
}
if (OK != g_dev->init()) {
fprintf(stderr, "L3GD20: driver init failed\n");
usleep(100000);
delete g_dev;
g_dev = nullptr;
return -EIO;
}
printf("L3GD20: driver started\n");
return OK;
}
/*
* Test the driver/device.
*/
if (!strcmp(argv[1], "test"))
return test();
/*
* Print driver information.
*/
if (!strcmp(argv[1], "info"))
return info();
fprintf(stderr, "unrecognised command, try 'start', 'test' or 'info'\n");
return -EINVAL;
}
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