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#ifndef ILOCATIONAPI_H
#define ILOCATIONAPI_H
#include "LocationDataTypes.h"
class ILocationAPI
{
public:
virtual ~ILocationAPI(){};
/** @brief Updates/changes the callbacks that will be called.
mandatory callbacks must be present for callbacks to be successfully updated
no return value */
virtual void updateCallbacks(LocationCallbacks&) = 0;
/* ================================== TRACKING ================================== */
/** @brief Starts a tracking session, which returns a session id that will be
used by the other tracking APIs and also in the responseCallback to match command
with response. locations are reported on the registered trackingCallback
periodically according to LocationOptions.
@return session id
responseCallback returns:
LOCATION_ERROR_SUCCESS if session was successfully started
LOCATION_ERROR_ALREADY_STARTED if a startTracking session is already in progress
LOCATION_ERROR_CALLBACK_MISSING if no trackingCallback was passed
LOCATION_ERROR_INVALID_PARAMETER if LocationOptions parameter is invalid */
virtual uint32_t startTracking(TrackingOptions&) = 0;
/** @brief Stops a tracking session associated with id parameter.
responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a tracking session */
virtual void stopTracking(uint32_t id) = 0;
/** @brief Changes the LocationOptions of a tracking session associated with id.
responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if LocationOptions parameters are invalid
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a tracking session */
virtual void updateTrackingOptions(uint32_t id, TrackingOptions&) = 0;
/* ================================== BATCHING ================================== */
/** @brief starts a batching session, which returns a session id that will be
used by the other batching APIs and also in the responseCallback to match command
with response. locations are reported on the batchingCallback passed in createInstance
periodically according to LocationOptions. A batching session starts tracking on
the low power processor and delivers them in batches by the batchingCallback when
the batch is full or when getBatchedLocations is called. This allows for the processor
that calls this API to sleep when the low power processor can batch locations in the
backgroup and wake up the processor calling the API only when the batch is full, thus
saving power.
@return session id
responseCallback returns:
LOCATION_ERROR_SUCCESS if session was successful
LOCATION_ERROR_ALREADY_STARTED if a startBatching session is already in progress
LOCATION_ERROR_CALLBACK_MISSING if no batchingCallback
LOCATION_ERROR_INVALID_PARAMETER if a parameter is invalid
LOCATION_ERROR_NOT_SUPPORTED if batching is not supported */
virtual uint32_t startBatching(BatchingOptions&) = 0;
/** @brief Stops a batching session associated with id parameter.
responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_ID_UNKNOWN if id is not associated with batching session */
virtual void stopBatching(uint32_t id) = 0;
/** @brief Changes the LocationOptions of a batching session associated with id.
responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if LocationOptions parameters are invalid
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a batching session */
virtual void updateBatchingOptions(uint32_t id, BatchingOptions&) = 0;
/** @brief Gets a number of locations that are currently stored/batched
on the low power processor, delivered by the batchingCallback passed in createInstance.
Location are then deleted from the batch stored on the low power processor.
responseCallback returns:
LOCATION_ERROR_SUCCESS if successful, will be followed by batchingCallback call
LOCATION_ERROR_CALLBACK_MISSING if no batchingCallback
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a batching session */
virtual void getBatchedLocations(uint32_t id, size_t count) = 0;
/* ================================== GEOFENCE ================================== */
/** @brief Adds any number of geofences and returns an array of geofence ids that
will be used by the other geofence APIs and also in the collectiveResponseCallback to
match command with response. The geofenceBreachCallback will deliver the status of each
geofence according to the GeofenceOption for each. The geofence id array returned will
be valid until the collectiveResponseCallback is called and has returned.
@return id array
collectiveResponseCallback returns:
LOCATION_ERROR_SUCCESS if session was successful
LOCATION_ERROR_CALLBACK_MISSING if no geofenceBreachCallback
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
LOCATION_ERROR_NOT_SUPPORTED if geofence is not supported */
virtual uint32_t* addGeofences(size_t count, GeofenceOption*, GeofenceInfo*) = 0;
/** @brief Removes any number of geofences. Caller should delete ids array after
removeGeofences returneds.
collectiveResponseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a geofence session */
virtual void removeGeofences(size_t count, uint32_t* ids) = 0;
/** @brief Modifies any number of geofences. Caller should delete ids array after
modifyGeofences returns.
collectiveResponseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a geofence session
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid */
virtual void modifyGeofences(size_t count, uint32_t* ids, GeofenceOption* options) = 0;
/** @brief Pauses any number of geofences, which is similar to removeGeofences,
only that they can be resumed at any time. Caller should delete ids array after
pauseGeofences returns.
collectiveResponseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a geofence session */
virtual void pauseGeofences(size_t count, uint32_t* ids) = 0;
/** @brief Resumes any number of geofences that are currently paused. Caller should
delete ids array after resumeGeofences returns.
collectiveResponseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_ID_UNKNOWN if id is not associated with a geofence session */
virtual void resumeGeofences(size_t count, uint32_t* ids) = 0;
/* ================================== GNSS ====================================== */
/** @brief gnssNiResponse is called in response to a gnssNiCallback.
responseCallback returns:
LOCATION_ERROR_SUCCESS if session was successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters in GnssNiResponse are invalid
LOCATION_ERROR_ID_UNKNOWN if id does not match a gnssNiCallback */
virtual void gnssNiResponse(uint32_t id, GnssNiResponse response) = 0;
};
class ILocationControlAPI
{
public:
virtual ~ILocationControlAPI(){};
/** @brief Updates the gnss specific configuration, which returns a session id array
with an id for each of the bits set in GnssConfig.flags, order from low bits to high bits.
The response for each config that is set will be returned in collectiveResponseCallback.
The session id array returned will be valid until the collectiveResponseCallback is called
and has returned. This effect is global for all clients of ILocationAPI.
collectiveResponseCallback returns:
LOCATION_ERROR_SUCCESS if session was successful
LOCATION_ERROR_INVALID_PARAMETER if any other parameters are invalid
LOCATION_ERROR_GENERAL_FAILURE if failure for any other reason */
virtual uint32_t* gnssUpdateConfig(const GnssConfig& config) = 0;
/** @brief Delete specific gnss aiding data for testing, which returns a session id
that will be returned in responseCallback to match command with response.
Only allowed in userdebug builds. This effect is global for all clients of ILocationAPI.
responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
LOCATION_ERROR_NOT_SUPPORTED if build is not userdebug */
virtual uint32_t gnssDeleteAidingData(GnssAidingData& data) = 0;
/** @brief
Configure the constellation and SVs to be used by the GNSS engine on
modem.
@param
constellationEnablementConfig: configuration to enable/disable SV
constellation to be used by SPE engine. When size in
constellationEnablementConfig is set to 0, this indicates to reset SV
constellation configuration to modem NV default.
blacklistSvConfig: configuration to blacklist or unblacklist SVs
used by SPE engine
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configConstellations(
const GnssSvTypeConfig& constellationEnablementConfig,
const GnssSvIdConfig& blacklistSvConfig) = 0;
/** @brief
Configure the secondary band of constellations to be used by
the GNSS engine on modem.
@param
secondaryBandConfig: configuration the secondary band usage
for SPE engine
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configConstellationSecondaryBand(
const GnssSvTypeConfig& secondaryBandConfig) = 0;
/** @brief
Enable or disable the constrained time uncertainty feature.
@param
enable: true to enable the constrained time uncertainty
feature and false to disable the constrainted time
uncertainty feature.
@param
tuncThreshold: this specifies the time uncertainty threshold
that gps engine need to maintain, in units of milli-seconds.
Default is 0.0 meaning that modem default value of time
uncertainty threshold will be used. This parameter is
ignored when requesting to disable this feature.
@param
energyBudget: this specifies the power budget that gps
engine is allowed to spend to maintain the time uncertainty.
Default is 0 meaning that GPS engine is not constained by
power budget and can spend as much power as needed. The
parameter need to be specified in units of 0.1 milli watt
second. This parameter is ignored requesting to disable this
feature.
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters
are invalid
*/
virtual uint32_t configConstrainedTimeUncertainty(
bool enable, float tuncThreshold = 0.0,
uint32_t energyBudget = 0) = 0;
/** @brief
Enable or disable position assisted clock estimator feature.
@param
enable: true to enable position assisted clock estimator and
false to disable the position assisted clock estimator
feature.
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configPositionAssistedClockEstimator(bool enable) = 0;
/** @brief
Sets the lever arm parameters for the vehicle.
@param
configInfo: lever arm configuration info regarding below two
types of lever arm info:
a: GNSS Antenna w.r.t the origin at the IMU e.g.: inertial
measurement unit.
b: lever arm parameters regarding the OPF (output frame)
w.r.t the origin (at the GPS Antenna). Vehicle manufacturers
prefer the position output to be tied to a specific point in
the vehicle rather than where the antenna is placed
(midpoint of the rear axle is typical).
Caller can choose types of lever arm info to configure via the
leverMarkTypeMask.
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configLeverArm(const LeverArmConfigInfo& configInfo) = 0;
/** @brief
Configure the robust location setting.
@param
enable: true to enable robust location and false to disable
robust location.
@param
enableForE911: true to enable robust location when device is on
E911 session and false to disable on E911 session.
This parameter is only valid if robust location is enabled.
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configRobustLocation(bool enable, bool enableForE911) = 0;
/** @brief
Config the minimum GPS week used by modem GNSS engine.
@param
minGpsWeek: minimum GPS week to be used by modem GNSS engine.
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configMinGpsWeek(uint16_t minGpsWeek) = 0;
/** @brief
Configure the vehicle body-to-Sensor mount parameters and
other parameters for dead reckoning position engine.
@param
dreConfig: vehicle body-to-Sensor mount angles and other
parameters.
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configDeadReckoningEngineParams(const DeadReckoningEngineConfig& dreConfig)=0;
/** @brief
This API is used to instruct the specified engine to be in
the pause/resume state. <br/>
When the engine is placed in paused state, the engine will
stop. If there is an on-going session, engine will no longer
produce fixes. In the paused state, calling API to delete
aiding data from the paused engine may not have effect.
Request to delete Aiding data shall be issued after
engine resume. <br/>
Currently, only DRE engine will support pause/resume
request. responseCb() will return not supported when request
is made to pause/resume none-DRE engine. <br/>
Request to pause/resume DRE engine can be made with or
without an on-going session. With QDR engine, on resume,
GNSS position & heading re-acquisition is needed for DR
engine to engage. If DR engine is already in the requested
state, the request will be no-op. <br/>
@param
engType: the engine that is instructed to change its run
state. <br/>
engState: the new engine run state that the engine is
instructed to be in. <br/>
@return
A session id that will be returned in responseCallback to
match command with response. This effect is global for all
clients of LocationAPI responseCallback returns:
LOCATION_ERROR_SUCCESS if successful
LOCATION_ERROR_INVALID_PARAMETER if any parameters are invalid
*/
virtual uint32_t configEngineRunState(PositioningEngineMask engType,
LocEngineRunState engState) = 0;
};
#endif /* ILOCATIONAPI_H */