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ara-mdk / platform / hardware / invensense / 60c042a376b34a7f4343752b96c1bc0bf4da31cc / . / libsensors_iio / CompassSensor.IIO.9150.cpp
blob: ce96564a733b8322fd4313577ef5463fd1ac10a3 [file] [log] [blame]
/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_NDEBUG 0
#include <fcntl.h>
#include <errno.h>
#include <math.h>
#include <unistd.h>
#include <dirent.h>
#include <sys/select.h>
#include <cutils/log.h>
#include <linux/input.h>
#include <string.h>
#include "CompassSensor.IIO.9150.h"
#include "sensors.h"
#include "MPLSupport.h"
#include "sensor_params.h"
#include "ml_sysfs_helper.h"
#include "local_log_def.h"
#define COMPASS_MAX_SYSFS_ATTRB sizeof(compassSysFs) / sizeof(char*)
#if defined COMPASS_YAS53x
# warning "Invensense compass cal with YAS53x IIO on secondary bus"
# define USE_MPL_COMPASS_HAL (1)
# define COMPASS_NAME "INV_YAS530"
#elif defined COMPASS_AK8975
# warning "Invensense compass cal with AK8975 on primary bus"
# define USE_MPL_COMPASS_HAL (1)
# define COMPASS_NAME "INV_AK8975"
#elif defined INVENSENSE_COMPASS_CAL
# warning "Invensense compass cal with compass IIO on secondary bus"
# define USE_MPL_COMPASS_HAL (1)
# define COMPASS_NAME "INV_COMPASS"
#else
# warning "third party compass cal HAL"
# define USE_MPL_COMPASS_HAL (0)
// TODO: change to vendor's name
# define COMPASS_NAME "AKM8975"
#endif
/*****************************************************************************/
CompassSensor::CompassSensor()
: SensorBase(NULL, NULL),
compass_fd(-1),
mCompassTimestamp(0),
mCompassInputReader(8)
{
VFUNC_LOG;
if(inv_init_sysfs_attributes()) {
LOGE("Error Instantiating Compass\n");
return;
}
if (!strcmp(COMPASS_NAME, "INV_COMPASS")) {
mI2CBus = COMPASS_BUS_SECONDARY;
} else {
mI2CBus = COMPASS_BUS_PRIMARY;
}
memset(mCachedCompassData, 0, sizeof(mCachedCompassData));
LOGV_IF(SYSFS_VERBOSE, "HAL:sysfs:cat %s (%lld)",
compassSysFs.compass_orient, getTimestamp());
FILE *fptr;
fptr = fopen(compassSysFs.compass_orient, "r");
if (fptr != NULL) {
int om[9];
fscanf(fptr, "%d,%d,%d,%d,%d,%d,%d,%d,%d",
&om[0], &om[1], &om[2], &om[3], &om[4], &om[5],
&om[6], &om[7], &om[8]);
fclose(fptr);
LOGV_IF(EXTRA_VERBOSE,
"HAL:compass mounting matrix: "
"%+d %+d %+d %+d %+d %+d %+d %+d %+d",
om[0], om[1], om[2], om[3], om[4], om[5], om[6], om[7], om[8]);
mCompassOrientation[0] = om[0];
mCompassOrientation[1] = om[1];
mCompassOrientation[2] = om[2];
mCompassOrientation[3] = om[3];
mCompassOrientation[4] = om[4];
mCompassOrientation[5] = om[5];
mCompassOrientation[6] = om[6];
mCompassOrientation[7] = om[7];
mCompassOrientation[8] = om[8];
} else {
LOGE("HAL:Couldn't read compass mounting matrix");
}
if (!isIntegrated()) {
enable(ID_M, 0);
}
}
CompassSensor::~CompassSensor()
{
VFUNC_LOG;
free(pathP);
if( compass_fd > 0)
close(compass_fd);
}
int CompassSensor::getFd() const
{
VHANDLER_LOG;
return compass_fd;
}
/**
* @brief This function will enable/disable sensor.
* @param[in] handle
* which sensor to enable/disable.
* @param[in] en
* en=1, enable;
* en=0, disable
* @return if the operation is successful.
*/
int CompassSensor::enable(int32_t handle, int en)
{
VFUNC_LOG;
mEnable = en;
int res;
res = write_sysfs_int(compassSysFs.compass_enable, en);
LOGE_IF(res < 0, "HAL:enable compass failed");
if (en) {
res = write_sysfs_int(compassSysFs.compass_x_fifo_enable, en);
res = write_sysfs_int(compassSysFs.compass_y_fifo_enable, en);
res = write_sysfs_int(compassSysFs.compass_z_fifo_enable, en);
}
return res;
}
int CompassSensor::setDelay(int32_t handle, int64_t ns)
{
VFUNC_LOG;
int tempFd;
int res;
LOGV_IF(SYSFS_VERBOSE, "HAL:sysfs:echo %.0f > %s (%lld)",
1000000000.f / ns, compassSysFs.compass_rate, getTimestamp());
mDelay = ns;
if (ns == 0)
return -1;
tempFd = open(compassSysFs.compass_rate, O_RDWR);
res = write_attribute_sensor(tempFd, 1000000000.f / ns);
if(res < 0) {
LOGE("HAL:Compass update delay error");
}
return res;
}
/**
@brief This function will return the state of the sensor.
@return 1=enabled; 0=disabled
**/
int CompassSensor::getEnable(int32_t handle)
{
VFUNC_LOG;
return mEnable;
}
/* use for Invensense compass calibration */
#define COMPASS_EVENT_DEBUG (0)
void CompassSensor::processCompassEvent(const input_event *event)
{
VHANDLER_LOG;
switch (event->code) {
case EVENT_TYPE_ICOMPASS_X:
LOGV_IF(COMPASS_EVENT_DEBUG, "EVENT_TYPE_ICOMPASS_X\n");
mCachedCompassData[0] = event->value;
break;
case EVENT_TYPE_ICOMPASS_Y:
LOGV_IF(COMPASS_EVENT_DEBUG, "EVENT_TYPE_ICOMPASS_Y\n");
mCachedCompassData[1] = event->value;
break;
case EVENT_TYPE_ICOMPASS_Z:
LOGV_IF(COMPASS_EVENT_DEBUG, "EVENT_TYPE_ICOMPASS_Z\n");
mCachedCompassData[2] = event->value;
break;
}
mCompassTimestamp =
(int64_t)event->time.tv_sec * 1000000000L + event->time.tv_usec * 1000L;
}
void CompassSensor::getOrientationMatrix(signed char *orient)
{
VFUNC_LOG;
memcpy(orient, mCompassOrientation, sizeof(mCompassOrientation));
}
long CompassSensor::getSensitivity()
{
VFUNC_LOG;
long sensitivity;
LOGV_IF(SYSFS_VERBOSE, "HAL:sysfs:cat %s (%lld)",
compassSysFs.compass_scale, getTimestamp());
inv_read_data(compassSysFs.compass_scale, &sensitivity);
return sensitivity;
}
/**
@brief This function is called by sensors_mpl.cpp
to read sensor data from the driver.
@param[out] data sensor data is stored in this variable. Scaled such that
1 uT = 2^16
@para[in] timestamp data's timestamp
@return 1, if 1 sample read, 0, if not, negative if error
*/
int CompassSensor::readSample(long *data, int64_t *timestamp)
{
VHANDLER_LOG;
int numEventReceived = 0, done = 0;
ssize_t n = mCompassInputReader.fill(compass_fd);
if (n < 0) {
LOGE("HAL:no compass events read");
return n;
}
input_event const* event;
while (done == 0 && mCompassInputReader.readEvent(&event)) {
int type = event->type;
if (type == EV_REL) {
processCompassEvent(event);
} else if (type == EV_SYN) {
*timestamp = mCompassTimestamp;
memcpy(data, mCachedCompassData, sizeof(mCachedCompassData));
done = 1;
} else {
LOGE("HAL:Compass Sensor: unknown event (type=%d, code=%d)",
type, event->code);
}
mCompassInputReader.next();
}
return done;
}
/**
* @brief This function will return the current delay for this sensor.
* @return delay in nanoseconds.
*/
int64_t CompassSensor::getDelay(int32_t handle)
{
VFUNC_LOG;
return mDelay;
}
void CompassSensor::fillList(struct sensor_t *list)
{
VFUNC_LOG;
const char *compass = COMPASS_NAME;
if (compass) {
if(!strcmp(compass, "INV_COMPASS")) {
list->maxRange = COMPASS_MPU9150_RANGE;
/* since target platform would use AK8963 instead of AK8975,
need to adopt AK8963's resolution here */
// list->resolution = COMPASS_MPU9150_RESOLUTION;
list->resolution = COMPASS_AKM8963_RESOLUTION;
list->power = COMPASS_MPU9150_POWER;
list->minDelay = COMPASS_MPU9150_MINDELAY;
return;
}
if(!strcmp(compass, "compass")
|| !strcmp(compass, "INV_AK8975") ) {
list->maxRange = COMPASS_AKM8975_RANGE;
list->resolution = COMPASS_AKM8975_RESOLUTION;
list->power = COMPASS_AKM8975_POWER;
list->minDelay = COMPASS_AKM8975_MINDELAY;
return;
}
if(!strcmp(compass, "INV_YAS530")) {
list->maxRange = COMPASS_YAS53x_RANGE;
list->resolution = COMPASS_YAS53x_RESOLUTION;
list->power = COMPASS_YAS53x_POWER;
list->minDelay = COMPASS_YAS53x_MINDELAY;
return;
}
if(!strcmp(compass, "INV_AMI306")) {
list->maxRange = COMPASS_AMI306_RANGE;
list->resolution = COMPASS_AMI306_RESOLUTION;
list->power = COMPASS_AMI306_POWER;
list->minDelay = COMPASS_AMI306_MINDELAY;
return;
}
}
LOGE("HAL:unknown compass id %s -- "
"params default to ak8975 and might be wrong.",
compass);
list->maxRange = COMPASS_AKM8975_RANGE;
list->resolution = COMPASS_AKM8975_RESOLUTION;
list->power = COMPASS_AKM8975_POWER;
list->minDelay = COMPASS_AKM8975_MINDELAY;
}
int CompassSensor::inv_init_sysfs_attributes(void)
{
VFUNC_LOG;
unsigned char i = 0;
char sysfs_path[MAX_SYSFS_NAME_LEN], iio_trigger_path[MAX_SYSFS_NAME_LEN], tbuf[2];
char *sptr;
char **dptr;
int num;
pathP = (char*)malloc(
sizeof(char[COMPASS_MAX_SYSFS_ATTRB][MAX_SYSFS_NAME_LEN]));
sptr = pathP;
dptr = (char**)&compassSysFs;
if (sptr == NULL)
return -1;
do {
*dptr++ = sptr;
sptr += sizeof(char[MAX_SYSFS_NAME_LEN]);
} while (++i < COMPASS_MAX_SYSFS_ATTRB);
// get proper (in absolute/relative) IIO path & build MPU's sysfs paths
// inv_get_sysfs_abs_path(sysfs_path);
if(INV_SUCCESS != inv_get_sysfs_path(sysfs_path)) {
ALOGE("CompassSensor failed get sysfs path");
return -1;
}
inv_get_iio_trigger_path(iio_trigger_path);
#if defined COMPASS_AK8975
inv_get_input_number(COMPASS_NAME, &num);
tbuf[0] = num + 0x30;
tbuf[1] = 0;
sprintf(sysfs_path, "%s%s", "sys/class/input/input", tbuf);
strcat(sysfs_path, "/ak8975");
sprintf(compassSysFs.compass_enable, "%s%s", sysfs_path, "/enable");
sprintf(compassSysFs.compass_rate, "%s%s", sysfs_path, "/rate");
sprintf(compassSysFs.compass_scale, "%s%s", sysfs_path, "/scale");
sprintf(compassSysFs.compass_orient, "%s%s", sysfs_path, "/compass_matrix");
#else
sprintf(compassSysFs.compass_enable, "%s%s", sysfs_path, "/compass_enable");
sprintf(compassSysFs.compass_x_fifo_enable, "%s%s", sysfs_path, "/scan_elements/in_magn_x_en");
sprintf(compassSysFs.compass_y_fifo_enable, "%s%s", sysfs_path, "/scan_elements/in_magn_y_en");
sprintf(compassSysFs.compass_z_fifo_enable, "%s%s", sysfs_path, "/scan_elements/in_magn_z_en");
sprintf(compassSysFs.compass_rate, "%s%s", sysfs_path, "/sampling_frequency");
sprintf(compassSysFs.compass_scale, "%s%s", sysfs_path, "/in_magn_scale");
sprintf(compassSysFs.compass_orient, "%s%s", sysfs_path, "/compass_matrix");
#endif
#if SYSFS_VERBOSE
// test print sysfs paths
dptr = (char**)&compassSysFs;
for (i = 0; i < COMPASS_MAX_SYSFS_ATTRB; i++) {
LOGE("HAL:sysfs path: %s", *dptr++);
}
#endif
return 0;
}