subsurface/core/gpslocation.cpp
Dirk Hohndel 9245962d3d mobile/gps: make sure updated GPS data are saved
If we change the gps location of a dive that didn't have a dive site associated
before (which is the normal case when a dive was just downloaded from a dive
computer), a new dive site is created with that GPS fix and added to the dive.
We need to mark that dive as changed in order for the changes to be saved to
storage.

Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2020-02-13 14:01:57 -08:00

431 lines
14 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "core/gpslocation.h"
#include "core/divesite.h"
#include "qt-models/gpslistmodel.h"
#include "core/pref.h"
#include "core/qthelper.h"
#include "core/divelist.h" // for mark_divelist_changed()
#include "core/errorhelper.h"
#include "core/settings/qPrefLocationService.h"
#include <time.h>
#include <unistd.h>
#include <QDebug>
#include <QVariant>
#include <QUrlQuery>
#include <QApplication>
#include <QTimer>
GpsLocation *GpsLocation::m_Instance = NULL;
GpsLocation::GpsLocation(void (*showMsgCB)(const char *), QObject *parent) :
QObject(parent),
m_GpsSource(0),
waitingForPosition(false),
haveSource(UNKNOWN)
{
Q_ASSERT_X(m_Instance == NULL, "GpsLocation", "GpsLocation recreated");
m_Instance = this;
showMessageCB = showMsgCB;
// create a QSettings object that's separate from the main application settings
geoSettings = new QSettings(QSettings::NativeFormat, QSettings::UserScope,
QString("org.subsurfacedivelog"), QString("subsurfacelocation"), this);
userAgent = getUserAgent();
(void)getGpsSource();
loadFromStorage();
// register changes in time threshold
connect(qPrefLocationService::instance(), SIGNAL(time_thresholdChanged(int)), this, SLOT(setGpsTimeThreshold(int)));
}
GpsLocation *GpsLocation::instance()
{
Q_ASSERT(m_Instance != NULL);
return m_Instance;
}
bool GpsLocation::hasInstance()
{
return m_Instance != NULL;
}
GpsLocation::~GpsLocation()
{
m_Instance = NULL;
}
void GpsLocation::setGpsTimeThreshold(int seconds)
{
if (m_GpsSource) {
m_GpsSource->setUpdateInterval(seconds * 1000);
status(QString("Set GPS service update interval to %1 s").arg(m_GpsSource->updateInterval() / 1000));
}
}
QGeoPositionInfoSource *GpsLocation::getGpsSource()
{
if (haveSource == NOGPS)
return 0;
if (!m_GpsSource) {
m_GpsSource = QGeoPositionInfoSource::createDefaultSource(this);
if (m_GpsSource != 0) {
#if defined(Q_OS_IOS)
// at least Qt 5.6.0 isn't doing things right on iOS - it MUST check for permission before
// accessing the position source
// I have a hacked version of Qt 5.6.0 that I will build the iOS binaries with for now;
// this test below righ after creating the source checks if the location service is disabled
// and set's an error right when the position source is created to indicate this
if (m_GpsSource->error() == QGeoPositionInfoSource::AccessError) {
haveSource = NOGPS;
emit haveSourceChanged();
m_GpsSource = NULL;
return NULL;
}
#endif
haveSource = (m_GpsSource->supportedPositioningMethods() & QGeoPositionInfoSource::SatellitePositioningMethods) ? HAVEGPS : NOGPS;
emit haveSourceChanged();
#ifndef SUBSURFACE_MOBILE
if (verbose)
#endif
status(QString("Created position source %1").arg(m_GpsSource->sourceName()));
connect(m_GpsSource, SIGNAL(positionUpdated(QGeoPositionInfo)), this, SLOT(newPosition(QGeoPositionInfo)));
connect(m_GpsSource, SIGNAL(updateTimeout()), this, SLOT(updateTimeout()));
connect(m_GpsSource, SIGNAL(error(QGeoPositionInfoSource::Error)), this, SLOT(positionSourceError(QGeoPositionInfoSource::Error)));
setGpsTimeThreshold(prefs.time_threshold);
} else {
#ifdef SUBSURFACE_MOBILE
status("don't have GPS source");
#endif
haveSource = NOGPS;
emit haveSourceChanged();
}
}
return m_GpsSource;
}
bool GpsLocation::hasLocationsSource()
{
(void)getGpsSource();
return haveSource == HAVEGPS;
}
void GpsLocation::serviceEnable(bool toggle)
{
QGeoPositionInfoSource *gpsSource = getGpsSource();
if (haveSource != HAVEGPS) {
if (toggle)
status("Can't start location service, no location source available");
return;
}
if (toggle) {
gpsSource->startUpdates();
status(QString("Starting Subsurface GPS service with update interval %1").arg(gpsSource->updateInterval()));
} else {
gpsSource->stopUpdates();
status("Stopping Subsurface GPS service");
}
}
QString GpsLocation::currentPosition()
{
qDebug() << "current position requested";
if (!hasLocationsSource())
return tr("Unknown GPS location (no GPS source)");
if (m_trackers.count()) {
QDateTime lastFixTime = QDateTime().fromMSecsSinceEpoch((m_trackers.lastKey() - gettimezoneoffset(m_trackers.lastKey())) * 1000);
QDateTime now = QDateTime::currentDateTime();
int delta = lastFixTime.secsTo(now);
qDebug() << "lastFixTime" << lastFixTime.toString() << "now" << now.toString() << "delta" << delta;
if (delta < 300) {
// we can simply use the last position that we tracked
gpsTracker gt = m_trackers.last();
QString gpsString = printGPSCoords(&gt.location);
qDebug() << "returning last position" << gpsString;
return gpsString;
} else {
qDebug() << "last position saved was too old" << lastFixTime.toString();
}
}
qDebug() << "requesting new GPS position";
m_GpsSource->requestUpdate();
// ok, we need to get the current position and somehow in the callback update the location in the QML UI
// punting right now
waitingForPosition = true;
return GPS_CURRENT_POS;
}
void GpsLocation::newPosition(QGeoPositionInfo pos)
{
int64_t lastTime = 0;
QGeoCoordinate lastCoord;
int nr = m_trackers.count();
if (nr) {
gpsTracker gt = m_trackers.last();
lastCoord.setLatitude(gt.location.lat.udeg / 1000000.0);
lastCoord.setLongitude(gt.location.lon.udeg / 1000000.0);
lastTime = gt.when;
}
// if we are waiting for a position update or
// if we have no record stored or if at least the configured minimum
// time has passed or we moved at least the configured minimum distance
int64_t delta = (int64_t)pos.timestamp().toTime_t() + gettimezoneoffset() - lastTime;
if (!nr || waitingForPosition || delta > prefs.time_threshold ||
lastCoord.distanceTo(pos.coordinate()) > prefs.distance_threshold) {
QString msg("received new position %1 after delta %2 threshold %3 (now %4 last %5)");
status(qPrintable(msg.arg(pos.coordinate().toString()).arg(delta).arg(prefs.time_threshold).arg(pos.timestamp().toString()).arg(QDateTime().fromMSecsSinceEpoch(lastTime * 1000).toString())));
waitingForPosition = false;
acquiredPosition();
gpsTracker gt;
gt.when = pos.timestamp().toTime_t();
gt.when += gettimezoneoffset(gt.when);
gt.location = create_location(pos.coordinate().latitude(), pos.coordinate().longitude());
addFixToStorage(gt);
gpsTracker gtNew = m_trackers.last();
qDebug() << "newest fix is now at" << QDateTime().fromMSecsSinceEpoch(gtNew.when - gettimezoneoffset(gtNew.when) * 1000).toString();
}
}
void GpsLocation::updateTimeout()
{
status("request to get new position timed out");
}
void GpsLocation::positionSourceError(QGeoPositionInfoSource::Error)
{
status("error receiving a GPS location");
haveSource = NOGPS;
emit haveSourceChanged();
}
void GpsLocation::status(QString msg)
{
if (showMessageCB)
(*showMessageCB)(qPrintable(msg));
else
qDebug() << msg;
}
int GpsLocation::getGpsNum() const
{
return m_trackers.count();
}
static void copy_gps_location(struct gpsTracker &gps, struct dive *d)
{
struct dive_site *ds = d->dive_site;
if (!ds) {
ds = create_dive_site(qPrintable(gps.name), &dive_site_table);
add_dive_to_dive_site(d, ds);
}
ds->location = gps.location;
}
#define SAME_GROUP 6 * 3600 /* six hours */
#define SET_LOCATION(_dive, _gpsfix, _mark) \
{ \
copy_gps_location(_gpsfix, _dive); \
invalidate_dive_cache(_dive); \
changed++; \
last = _mark; \
}
int GpsLocation::applyLocations()
{
int i;
int changed = 0;
int last = 0;
int cnt = m_trackers.count();
if (cnt == 0)
return false;
// create a table with the GPS information
QList<struct gpsTracker> gpsTable = m_trackers.values();
// now walk the dive table and see if we can fill in missing gps data
struct dive *d;
for_each_dive(i, d) {
if (dive_has_gps_location(d))
continue;
for (int j = last; j < cnt; j++) {
if (time_during_dive_with_offset(d, gpsTable[j].when, SAME_GROUP)) {
if (verbose)
qDebug() << "processing gpsFix @" << get_dive_date_string(gpsTable[j].when) <<
"which is withing six hours of dive from" <<
get_dive_date_string(d->when) << "until" <<
get_dive_date_string(dive_endtime(d));
/*
* If position is fixed during dive. This is the good one.
* Asign and mark position, and end gps_location loop
*/
if (time_during_dive_with_offset(d, gpsTable[j].when, 0)) {
if (verbose)
qDebug() << "gpsFix is during the dive, pick that one";
SET_LOCATION(d, gpsTable[j], j);
break;
} else {
/*
* If it is not, check if there are more position fixes in SAME_GROUP range
*/
if (j + 1 < cnt && time_during_dive_with_offset(d, gpsTable[j+1].when, SAME_GROUP)) {
if (verbose)
qDebug() << "look at the next gps fix @" << get_dive_date_string(gpsTable[j+1].when);
/* we know the gps fixes are sorted; if they are both before the dive, ignore the first,
* if theay are both after the dive, take the first,
* if the first is before and the second is after, take the closer one */
if (gpsTable[j+1].when < d->when) {
if (verbose)
qDebug() << "which is closer to the start of the dive, do continue with that";
continue;
} else if (gpsTable[j].when > dive_endtime(d)) {
if (verbose)
qDebug() << "which is even later after the end of the dive, so pick the previous one";
SET_LOCATION(d, gpsTable[j], j);
break;
} else {
/* ok, gpsFix is before, nextgpsFix is after */
if (d->when - gpsTable[j].when <= gpsTable[j+1].when - dive_endtime(d)) {
if (verbose)
qDebug() << "pick the one before as it's closer to the start";
SET_LOCATION(d, gpsTable[j], j);
break;
} else {
if (verbose)
qDebug() << "pick the one after as it's closer to the start";
SET_LOCATION(d, gpsTable[j + 1], j + 1);
break;
}
}
/*
* If no more positions in range, the actual is the one. Asign, mark and end loop.
*/
} else {
if (verbose)
qDebug() << "which seems to be the best one for this dive, so pick it";
SET_LOCATION(d, gpsTable[j], j);
break;
}
}
} else {
/* If position is out of SAME_GROUP range and in the future, mark position for
* next dive iteration and end the gps_location loop
*/
if (gpsTable[j].when >= dive_endtime(d) + SAME_GROUP) {
last = j;
break;
}
}
}
}
if (changed > 0)
mark_divelist_changed(true);
return changed;
}
QMap<qint64, gpsTracker> GpsLocation::currentGPSInfo() const
{
return m_trackers;
}
void GpsLocation::loadFromStorage()
{
int nr = geoSettings->value(QString("count")).toInt();
for (int i = 0; i < nr; i++) {
struct gpsTracker gt;
gt.when = geoSettings->value(QString("gpsFix%1_time").arg(i)).toLongLong();
gt.location.lat.udeg = geoSettings->value(QString("gpsFix%1_lat").arg(i)).toInt();
gt.location.lon.udeg = geoSettings->value(QString("gpsFix%1_lon").arg(i)).toInt();
gt.name = geoSettings->value(QString("gpsFix%1_name").arg(i)).toString();
gt.idx = i;
m_trackers.insert(gt.when, gt);
}
}
void GpsLocation::replaceFixToStorage(gpsTracker &gt)
{
if (!m_trackers.keys().contains(gt.when)) {
addFixToStorage(gt);
return;
}
gpsTracker replacedTracker = m_trackers.value(gt.when);
geoSettings->setValue(QString("gpsFix%1_time").arg(replacedTracker.idx), gt.when);
geoSettings->setValue(QString("gpsFix%1_lat").arg(replacedTracker.idx), gt.location.lat.udeg);
geoSettings->setValue(QString("gpsFix%1_lon").arg(replacedTracker.idx), gt.location.lon.udeg);
geoSettings->setValue(QString("gpsFix%1_name").arg(replacedTracker.idx), gt.name);
replacedTracker.location = gt.location;
replacedTracker.name = gt.name;
}
void GpsLocation::addFixToStorage(gpsTracker &gt)
{
int nr = m_trackers.count();
geoSettings->setValue("count", nr + 1);
geoSettings->setValue(QString("gpsFix%1_time").arg(nr), gt.when);
geoSettings->setValue(QString("gpsFix%1_lat").arg(nr), gt.location.lat.udeg);
geoSettings->setValue(QString("gpsFix%1_lon").arg(nr), gt.location.lon.udeg);
geoSettings->setValue(QString("gpsFix%1_name").arg(nr), gt.name);
gt.idx = nr;
geoSettings->sync();
m_trackers.insert(gt.when, gt);
}
void GpsLocation::deleteFixFromStorage(gpsTracker &gt)
{
qint64 when = gt.when;
int cnt = m_trackers.count();
if (cnt == 0 || !m_trackers.keys().contains(when)) {
qDebug() << "no gps fix with timestamp" << when;
return;
}
if (geoSettings->value(QString("gpsFix%1_time").arg(gt.idx)).toLongLong() != when) {
qDebug() << "uh oh - index for tracker has gotten out of sync...";
return;
}
if (cnt > 1) {
// now we move the last tracker into that spot (so our settings stay consecutive)
// and delete the last settings entry
when = geoSettings->value(QString("gpsFix%1_time").arg(cnt - 1)).toLongLong();
struct gpsTracker movedTracker = m_trackers.value(when);
movedTracker.idx = gt.idx;
m_trackers.remove(movedTracker.when);
m_trackers.insert(movedTracker.when, movedTracker);
geoSettings->setValue(QString("gpsFix%1_time").arg(movedTracker.idx), when);
geoSettings->setValue(QString("gpsFix%1_lat").arg(movedTracker.idx), movedTracker.location.lat.udeg);
geoSettings->setValue(QString("gpsFix%1_lon").arg(movedTracker.idx), movedTracker.location.lon.udeg);
geoSettings->setValue(QString("gpsFix%1_name").arg(movedTracker.idx), movedTracker.name);
geoSettings->remove(QString("gpsFix%1_lat").arg(cnt - 1));
geoSettings->remove(QString("gpsFix%1_lon").arg(cnt - 1));
geoSettings->remove(QString("gpsFix%1_time").arg(cnt - 1));
geoSettings->remove(QString("gpsFix%1_name").arg(cnt - 1));
}
geoSettings->setValue("count", cnt - 1);
geoSettings->sync();
m_trackers.remove(gt.when);
}
void GpsLocation::deleteGpsFix(qint64 when)
{
auto it = m_trackers.find(when);
if (it == m_trackers.end()) {
qWarning() << "GpsLocation::deleteGpsFix(): can't find tracker for timestamp " << when;
return;
}
struct gpsTracker deletedTracker = *it;
deleteFixFromStorage(deletedTracker);
m_deletedTrackers.append(deletedTracker);
}
#ifdef SUBSURFACE_MOBILE
void GpsLocation::clearGpsData()
{
m_trackers.clear();
geoSettings->clear();
geoSettings->sync();
}
#endif
void GpsLocation::postError(QNetworkReply::NetworkError)
{
status(QString("error when sending a GPS fix: %1").arg(reply->errorString()));
}