platform_device_xiaomi_sm84.../gps/utils/loc_gps.h

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/*
* Copyright (C) 2010 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.
*/
/*
Changes from Qualcomm Innovation Center are provided under the following license:
Copyright (c) 2022 Qualcomm Innovation Center, Inc. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted (subject to the limitations in the
disclaimer below) provided that the following conditions are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* 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.
* Neither the name of Qualcomm Innovation Center, Inc. nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE
GRANTED BY THIS LICENSE. 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 HOLDER 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.
*/
#ifndef LOC_GPS_H
#define LOC_GPS_H
#include <stdint.h>
#include <sys/cdefs.h>
#include <sys/types.h>
#include <pthread.h>
#include <sys/socket.h>
#include <stdbool.h>
__BEGIN_DECLS
#define LOC_FLP_STATUS_LOCATION_AVAILABLE 0
#define LOC_FLP_STATUS_LOCATION_UNAVAILABLE 1
#define LOC_CAPABILITY_GNSS (1U<<0)
#define LOC_CAPABILITY_WIFI (1U<<1)
#define LOC_CAPABILITY_CELL (1U<<3)
/** Milliseconds since January 1, 1970 */
typedef int64_t LocGpsUtcTime;
/** Maximum number of SVs for loc_gps_sv_status_callback(). */
#define LOC_GPS_MAX_SVS 32
/** Maximum number of SVs for loc_gps_sv_status_callback(). */
#define LOC_GNSS_MAX_SVS 64
/** Maximum number of Measurements in loc_gps_measurement_callback(). */
#define LOC_GPS_MAX_MEASUREMENT 32
/** Maximum number of Measurements in loc_gnss_measurement_callback(). */
#define LOC_GNSS_MAX_MEASUREMENT 64
/** Requested operational mode for GPS operation. */
typedef uint32_t LocGpsPositionMode;
/* IMPORTANT: Note that the following values must match
* constants in GpsLocationProvider.java. */
/** Mode for running GPS standalone (no assistance). */
#define LOC_GPS_POSITION_MODE_STANDALONE 0
/** AGPS MS-Based mode. */
#define LOC_GPS_POSITION_MODE_MS_BASED 1
/**
* AGPS MS-Assisted mode. This mode is not maintained by the platform anymore.
* It is strongly recommended to use LOC_GPS_POSITION_MODE_MS_BASED instead.
*/
#define LOC_GPS_POSITION_MODE_MS_ASSISTED 2
/** Requested recurrence mode for GPS operation. */
typedef uint32_t LocGpsPositionRecurrence;
/* IMPORTANT: Note that the following values must match
* constants in GpsLocationProvider.java. */
/** Receive GPS fixes on a recurring basis at a specified period. */
#define LOC_GPS_POSITION_RECURRENCE_PERIODIC 0
/** Request a single shot GPS fix. */
#define LOC_GPS_POSITION_RECURRENCE_SINGLE 1
/** GPS status event values. */
typedef uint16_t LocGpsStatusValue;
/* IMPORTANT: Note that the following values must match
* constants in GpsLocationProvider.java. */
/** GPS status unknown. */
#define LOC_GPS_STATUS_NONE 0
/** GPS has begun navigating. */
#define LOC_GPS_STATUS_SESSION_BEGIN 1
/** GPS has stopped navigating. */
#define LOC_GPS_STATUS_SESSION_END 2
/** GPS has powered on but is not navigating. */
#define LOC_GPS_STATUS_ENGINE_ON 3
/** GPS is powered off. */
#define LOC_GPS_STATUS_ENGINE_OFF 4
/** Flags to indicate which values are valid in a LocGpsLocation. */
typedef uint16_t LocGpsLocationFlags;
/* IMPORTANT: Note that the following values must match
* constants in GpsLocationProvider.java. */
/** LocGpsLocation has valid latitude and longitude. */
#define LOC_GPS_LOCATION_HAS_LAT_LONG 0x0001
/** LocGpsLocation has valid altitude. */
#define LOC_GPS_LOCATION_HAS_ALTITUDE 0x0002
/** LocGpsLocation has valid speed. */
#define LOC_GPS_LOCATION_HAS_SPEED 0x0004
/** LocGpsLocation has valid bearing. */
#define LOC_GPS_LOCATION_HAS_BEARING 0x0008
/** LocGpsLocation has valid accuracy. */
#define LOC_GPS_LOCATION_HAS_ACCURACY 0x0010
/** LocGpsLocation has valid vertical uncertainity */
#define LOC_GPS_LOCATION_HAS_VERT_UNCERTAINITY 0x0020
/** LocGpsLocation has valid speed accuracy */
#define LOC_GPS_LOCATION_HAS_SPEED_ACCURACY 0x0040
/** LocGpsLocation has valid bearing accuracy */
#define LOC_GPS_LOCATION_HAS_BEARING_ACCURACY 0x0080
/** LocGpsLocation has valid spoof mask */
#define LOC_GPS_LOCATION_HAS_SPOOF_MASK 0x0100
/** Location has valid source information. */
#define LOC_GPS_LOCATION_HAS_SOURCE_INFO 0x0200
/** Spoof mask in LocGpsLocation */
typedef uint32_t LocGpsSpoofMask;
#define LOC_GPS_LOCATION_NONE_SPOOFED 0x0000
#define LOC_GPS_LOCATION_POSITION_SPOOFED 0x0001
#define LOC_GPS_LOCATION_TIME_SPOOFED 0x0002
#define LOC_GPS_LOCATION_NAVIGATION_DATA_SPOOFED 0x0004
/** Flags for the loc_gps_set_capabilities callback. */
/**
* GPS HAL schedules fixes for LOC_GPS_POSITION_RECURRENCE_PERIODIC mode. If this is
* not set, then the framework will use 1000ms for min_interval and will start
* and call start() and stop() to schedule the GPS.
*/
#define LOC_GPS_CAPABILITY_SCHEDULING (1 << 0)
/** GPS supports MS-Based AGPS mode */
#define LOC_GPS_CAPABILITY_MSB (1 << 1)
/** GPS supports MS-Assisted AGPS mode */
#define LOC_GPS_CAPABILITY_MSA (1 << 2)
/** GPS supports single-shot fixes */
#define LOC_GPS_CAPABILITY_SINGLE_SHOT (1 << 3)
/** GPS supports on demand time injection */
#define LOC_GPS_CAPABILITY_ON_DEMAND_TIME (1 << 4)
/** GPS supports Geofencing */
#define LOC_GPS_CAPABILITY_GEOFENCING (1 << 5)
/** GPS supports Measurements. */
#define LOC_GPS_CAPABILITY_MEASUREMENTS (1 << 6)
/** GPS supports Navigation Messages */
#define LOC_GPS_CAPABILITY_NAV_MESSAGES (1 << 7)
/**
* Flags used to specify which aiding data to delete when calling
* delete_aiding_data().
*/
typedef uint16_t LocGpsAidingData;
/* IMPORTANT: Note that the following values must match
* constants in GpsLocationProvider.java. */
#define LOC_GPS_DELETE_EPHEMERIS 0x0001
#define LOC_GPS_DELETE_ALMANAC 0x0002
#define LOC_GPS_DELETE_POSITION 0x0004
#define LOC_GPS_DELETE_TIME 0x0008
#define LOC_GPS_DELETE_IONO 0x0010
#define LOC_GPS_DELETE_UTC 0x0020
#define LOC_GPS_DELETE_HEALTH 0x0040
#define LOC_GPS_DELETE_SVDIR 0x0080
#define LOC_GPS_DELETE_SVSTEER 0x0100
#define LOC_GPS_DELETE_SADATA 0x0200
#define LOC_GPS_DELETE_RTI 0x0400
#define LOC_GPS_DELETE_MB_DATA 0x0800
#define LOC_GPS_DELETE_CELLDB_INFO 0x8000
#define LOC_GPS_DELETE_ALL 0xFFFF
/** AGPS type */
typedef uint16_t LocAGpsType;
#define LOC_AGPS_TYPE_ANY 0
#define LOC_AGPS_TYPE_SUPL 1
#define LOC_AGPS_TYPE_C2K 2
#define LOC_AGPS_TYPE_WWAN_ANY 3
#define LOC_AGPS_TYPE_WIFI 4
#define LOC_AGPS_TYPE_SUPL_ES 5
typedef uint16_t LocSubId;
#define LOC_DEFAULT_SUB 0
#define LOC_PRIMARY_SUB 1
#define LOC_SECONDARY_SUB 2
#define LOC_TERTIARY_SUB 3
typedef uint16_t LocAGpsSetIDType;
#define LOC_AGPS_SETID_TYPE_NONE 0
#define LOC_AGPS_SETID_TYPE_IMSI 1
#define LOC_AGPS_SETID_TYPE_MSISDN 2
typedef uint16_t LocApnIpType;
#define LOC_APN_IP_INVALID 0
#define LOC_APN_IP_IPV4 1
#define LOC_APN_IP_IPV6 2
#define LOC_APN_IP_IPV4V6 3
/**
* String length constants
*/
#define LOC_GPS_NI_SHORT_STRING_MAXLEN 256
#define LOC_GPS_NI_LONG_STRING_MAXLEN 2048
/**
* LocGpsNiType constants
*/
typedef uint32_t LocGpsNiType;
#define LOC_GPS_NI_TYPE_VOICE 1
#define LOC_GPS_NI_TYPE_UMTS_SUPL 2
#define LOC_GPS_NI_TYPE_UMTS_CTRL_PLANE 3
/*Emergency SUPL*/
#define LOC_GPS_NI_TYPE_EMERGENCY_SUPL 4
/**
* LocGpsNiNotifyFlags constants
*/
typedef uint32_t LocGpsNiNotifyFlags;
/** NI requires notification */
#define LOC_GPS_NI_NEED_NOTIFY 0x0001
/** NI requires verification */
#define LOC_GPS_NI_NEED_VERIFY 0x0002
/** NI requires privacy override, no notification/minimal trace */
#define LOC_GPS_NI_PRIVACY_OVERRIDE 0x0004
/**
* GPS NI responses, used to define the response in
* NI structures
*/
typedef int LocGpsUserResponseType;
#define LOC_GPS_NI_RESPONSE_ACCEPT 1
#define LOC_GPS_NI_RESPONSE_DENY 2
#define LOC_GPS_NI_RESPONSE_NORESP 3
/**
* NI data encoding scheme
*/
typedef int LocGpsNiEncodingType;
#define LOC_GPS_ENC_NONE 0
#define LOC_GPS_ENC_SUPL_GSM_DEFAULT 1
#define LOC_GPS_ENC_SUPL_UTF8 2
#define LOC_GPS_ENC_SUPL_UCS2 3
#define LOC_GPS_ENC_UNKNOWN -1
/** AGPS status event values. */
typedef uint8_t LocAGpsStatusValue;
/** GPS requests data connection for AGPS. */
#define LOC_GPS_REQUEST_AGPS_DATA_CONN 1
/** GPS releases the AGPS data connection. */
#define LOC_GPS_RELEASE_AGPS_DATA_CONN 2
/** AGPS data connection initiated */
#define LOC_GPS_AGPS_DATA_CONNECTED 3
/** AGPS data connection completed */
#define LOC_GPS_AGPS_DATA_CONN_DONE 4
/** AGPS data connection failed */
#define LOC_GPS_AGPS_DATA_CONN_FAILED 5
typedef uint16_t LocAGpsRefLocationType;
#define LOC_AGPS_REF_LOCATION_TYPE_GSM_CELLID 1
#define LOC_AGPS_REF_LOCATION_TYPE_UMTS_CELLID 2
#define LOC_AGPS_REF_LOCATION_TYPE_MAC 3
#define LOC_AGPS_REF_LOCATION_TYPE_LTE_CELLID 4
/* Deprecated, to be removed in the next Android release. */
#define LOC_AGPS_REG_LOCATION_TYPE_MAC 3
/** Network types for update_network_state "type" parameter */
#define LOC_AGPS_RIL_NETWORK_TYPE_MOBILE 0
#define LOC_AGPS_RIL_NETWORK_TYPE_WIFI 1
#define LOC_AGPS_RIL_NETWORK_TYPE_MOBILE_MMS 2
#define LOC_AGPS_RIL_NETWORK_TYPE_MOBILE_SUPL 3
#define LOC_AGPS_RIL_NETWORK_TTYPE_MOBILE_DUN 4
#define LOC_AGPS_RIL_NETWORK_TTYPE_MOBILE_HIPRI 5
#define LOC_AGPS_RIL_NETWORK_TTYPE_WIMAX 6
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. */
typedef uint16_t LocGpsClockFlags;
#define LOC_GPS_CLOCK_HAS_LEAP_SECOND (1<<0)
#define LOC_GPS_CLOCK_HAS_TIME_UNCERTAINTY (1<<1)
#define LOC_GPS_CLOCK_HAS_FULL_BIAS (1<<2)
#define LOC_GPS_CLOCK_HAS_BIAS (1<<3)
#define LOC_GPS_CLOCK_HAS_BIAS_UNCERTAINTY (1<<4)
#define LOC_GPS_CLOCK_HAS_DRIFT (1<<5)
#define LOC_GPS_CLOCK_HAS_DRIFT_UNCERTAINTY (1<<6)
/**
* Flags to indicate what fields in LocGnssClock are valid.
*/
typedef uint16_t LocGnssClockFlags;
/** A valid 'leap second' is stored in the data structure. */
#define LOC_GNSS_CLOCK_HAS_LEAP_SECOND (1<<0)
/** A valid 'time uncertainty' is stored in the data structure. */
#define LOC_GNSS_CLOCK_HAS_TIME_UNCERTAINTY (1<<1)
/** A valid 'full bias' is stored in the data structure. */
#define LOC_GNSS_CLOCK_HAS_FULL_BIAS (1<<2)
/** A valid 'bias' is stored in the data structure. */
#define LOC_GNSS_CLOCK_HAS_BIAS (1<<3)
/** A valid 'bias uncertainty' is stored in the data structure. */
#define LOC_GNSS_CLOCK_HAS_BIAS_UNCERTAINTY (1<<4)
/** A valid 'drift' is stored in the data structure. */
#define LOC_GNSS_CLOCK_HAS_DRIFT (1<<5)
/** A valid 'drift uncertainty' is stored in the data structure. */
#define LOC_GNSS_CLOCK_HAS_DRIFT_UNCERTAINTY (1<<6)
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. */
typedef uint8_t LocGpsClockType;
#define LOC_GPS_CLOCK_TYPE_UNKNOWN 0
#define LOC_GPS_CLOCK_TYPE_LOCAL_HW_TIME 1
#define LOC_GPS_CLOCK_TYPE_GPS_TIME 2
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. */
typedef uint32_t LocGpsMeasurementFlags;
#define LOC_GPS_MEASUREMENT_HAS_SNR (1<<0)
#define LOC_GPS_MEASUREMENT_HAS_ELEVATION (1<<1)
#define LOC_GPS_MEASUREMENT_HAS_ELEVATION_UNCERTAINTY (1<<2)
#define LOC_GPS_MEASUREMENT_HAS_AZIMUTH (1<<3)
#define LOC_GPS_MEASUREMENT_HAS_AZIMUTH_UNCERTAINTY (1<<4)
#define LOC_GPS_MEASUREMENT_HAS_PSEUDORANGE (1<<5)
#define LOC_GPS_MEASUREMENT_HAS_PSEUDORANGE_UNCERTAINTY (1<<6)
#define LOC_GPS_MEASUREMENT_HAS_CODE_PHASE (1<<7)
#define LOC_GPS_MEASUREMENT_HAS_CODE_PHASE_UNCERTAINTY (1<<8)
#define LOC_GPS_MEASUREMENT_HAS_CARRIER_FREQUENCY (1<<9)
#define LOC_GPS_MEASUREMENT_HAS_CARRIER_CYCLES (1<<10)
#define LOC_GPS_MEASUREMENT_HAS_CARRIER_PHASE (1<<11)
#define LOC_GPS_MEASUREMENT_HAS_CARRIER_PHASE_UNCERTAINTY (1<<12)
#define LOC_GPS_MEASUREMENT_HAS_BIT_NUMBER (1<<13)
#define LOC_GPS_MEASUREMENT_HAS_TIME_FROM_LAST_BIT (1<<14)
#define LOC_GPS_MEASUREMENT_HAS_DOPPLER_SHIFT (1<<15)
#define LOC_GPS_MEASUREMENT_HAS_DOPPLER_SHIFT_UNCERTAINTY (1<<16)
#define LOC_GPS_MEASUREMENT_HAS_USED_IN_FIX (1<<17)
#define LOC_GPS_MEASUREMENT_HAS_UNCORRECTED_PSEUDORANGE_RATE (1<<18)
/**
* Flags to indicate what fields in LocGnssMeasurement are valid.
*/
typedef uint32_t LocGnssMeasurementFlags;
/** A valid 'snr' is stored in the data structure. */
#define LOC_GNSS_MEASUREMENT_HAS_SNR (1<<0)
/** A valid 'carrier frequency' is stored in the data structure. */
#define LOC_GNSS_MEASUREMENT_HAS_CARRIER_FREQUENCY (1<<9)
/** A valid 'carrier cycles' is stored in the data structure. */
#define LOC_GNSS_MEASUREMENT_HAS_CARRIER_CYCLES (1<<10)
/** A valid 'carrier phase' is stored in the data structure. */
#define LOC_GNSS_MEASUREMENT_HAS_CARRIER_PHASE (1<<11)
/** A valid 'carrier phase uncertainty' is stored in the data structure. */
#define LOC_GNSS_MEASUREMENT_HAS_CARRIER_PHASE_UNCERTAINTY (1<<12)
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. */
typedef uint8_t LocGpsLossOfLock;
#define LOC_GPS_LOSS_OF_LOCK_UNKNOWN 0
#define LOC_GPS_LOSS_OF_LOCK_OK 1
#define LOC_GPS_LOSS_OF_LOCK_CYCLE_SLIP 2
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. Use LocGnssMultipathIndicator instead.
*/
typedef uint8_t LocGpsMultipathIndicator;
#define LOC_GPS_MULTIPATH_INDICATOR_UNKNOWN 0
#define LOC_GPS_MULTIPATH_INDICATOR_DETECTED 1
#define LOC_GPS_MULTIPATH_INDICATOR_NOT_USED 2
/**
* Enumeration of available values for the GNSS Measurement's multipath
* indicator.
*/
typedef uint8_t LocGnssMultipathIndicator;
/** The indicator is not available or unknown. */
#define LOC_GNSS_MULTIPATH_INDICATOR_UNKNOWN 0
/** The measurement is indicated to be affected by multipath. */
#define LOC_GNSS_MULTIPATH_INDICATOR_PRESENT 1
/** The measurement is indicated to be not affected by multipath. */
#define LOC_GNSS_MULTIPATH_INDICATOR_NOT_PRESENT 2
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. */
typedef uint16_t LocGpsMeasurementState;
#define LOC_GPS_MEASUREMENT_STATE_UNKNOWN 0
#define LOC_GPS_MEASUREMENT_STATE_CODE_LOCK (1<<0)
#define LOC_GPS_MEASUREMENT_STATE_BIT_SYNC (1<<1)
#define LOC_GPS_MEASUREMENT_STATE_SUBFRAME_SYNC (1<<2)
#define LOC_GPS_MEASUREMENT_STATE_TOW_DECODED (1<<3)
#define LOC_GPS_MEASUREMENT_STATE_MSEC_AMBIGUOUS (1<<4)
/**
* Flags indicating the GNSS measurement state.
*
* The expected behavior here is for GPS HAL to set all the flags that applies.
* For example, if the state for a satellite is only C/A code locked and bit
* synchronized, and there is still millisecond ambiguity, the state should be
* set as:
*
* LOC_GNSS_MEASUREMENT_STATE_CODE_LOCK | LOC_GNSS_MEASUREMENT_STATE_BIT_SYNC |
* LOC_GNSS_MEASUREMENT_STATE_MSEC_AMBIGUOUS
*
* If GNSS is still searching for a satellite, the corresponding state should be
* set to LOC_GNSS_MEASUREMENT_STATE_UNKNOWN(0).
*/
typedef uint32_t LocGnssMeasurementState;
#define LOC_GNSS_MEASUREMENT_STATE_UNKNOWN 0
#define LOC_GNSS_MEASUREMENT_STATE_CODE_LOCK (1<<0)
#define LOC_GNSS_MEASUREMENT_STATE_BIT_SYNC (1<<1)
#define LOC_GNSS_MEASUREMENT_STATE_SUBFRAME_SYNC (1<<2)
#define LOC_GNSS_MEASUREMENT_STATE_TOW_DECODED (1<<3)
#define LOC_GNSS_MEASUREMENT_STATE_MSEC_AMBIGUOUS (1<<4)
#define LOC_GNSS_MEASUREMENT_STATE_SYMBOL_SYNC (1<<5)
#define LOC_GNSS_MEASUREMENT_STATE_GLO_STRING_SYNC (1<<6)
#define LOC_GNSS_MEASUREMENT_STATE_GLO_TOD_DECODED (1<<7)
#define LOC_GNSS_MEASUREMENT_STATE_BDS_D2_BIT_SYNC (1<<8)
#define LOC_GNSS_MEASUREMENT_STATE_BDS_D2_SUBFRAME_SYNC (1<<9)
#define LOC_GNSS_MEASUREMENT_STATE_GAL_E1BC_CODE_LOCK (1<<10)
#define LOC_GNSS_MEASUREMENT_STATE_GAL_E1C_2ND_CODE_LOCK (1<<11)
#define LOC_GNSS_MEASUREMENT_STATE_GAL_E1B_PAGE_SYNC (1<<12)
#define LOC_GNSS_MEASUREMENT_STATE_SBAS_SYNC (1<<13)
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. */
typedef uint16_t LocGpsAccumulatedDeltaRangeState;
#define LOC_GPS_ADR_STATE_UNKNOWN 0
#define LOC_GPS_ADR_STATE_VALID (1<<0)
#define LOC_GPS_ADR_STATE_RESET (1<<1)
#define LOC_GPS_ADR_STATE_CYCLE_SLIP (1<<2)
/**
* Flags indicating the Accumulated Delta Range's states.
*/
typedef uint16_t LocGnssAccumulatedDeltaRangeState;
#define LOC_GNSS_ADR_STATE_UNKNOWN 0
#define LOC_GNSS_ADR_STATE_VALID (1<<0)
#define LOC_GNSS_ADR_STATE_RESET (1<<1)
#define LOC_GNSS_ADR_STATE_CYCLE_SLIP (1<<2)
#if 0
/* The following typedef together with its constants below are deprecated, and
* will be removed in the next release. */
typedef uint8_t GpsNavigationMessageType;
#define GPS_NAVIGATION_MESSAGE_TYPE_UNKNOWN 0
#define GPS_NAVIGATION_MESSAGE_TYPE_L1CA 1
#define GPS_NAVIGATION_MESSAGE_TYPE_L2CNAV 2
#define GPS_NAVIGATION_MESSAGE_TYPE_L5CNAV 3
#define GPS_NAVIGATION_MESSAGE_TYPE_CNAV2 4
/**
* Enumeration of available values to indicate the GNSS Navigation message
* types.
*
* For convenience, first byte is the LocGnssConstellationType on which that signal
* is typically transmitted
*/
typedef int16_t GnssNavigationMessageType;
#define GNSS_NAVIGATION_MESSAGE_TYPE_UNKNOWN 0
/** GPS L1 C/A message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_GPS_L1CA 0x0101
/** GPS L2-CNAV message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_GPS_L2CNAV 0x0102
/** GPS L5-CNAV message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_GPS_L5CNAV 0x0103
/** GPS CNAV-2 message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_GPS_CNAV2 0x0104
/** Glonass L1 CA message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_GLO_L1CA 0x0301
/** Beidou D1 message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_BDS_D1 0x0501
/** Beidou D2 message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_BDS_D2 0x0502
/** Galileo I/NAV message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_GAL_I 0x0601
/** Galileo F/NAV message contained in the structure. */
#define GNSS_NAVIGATION_MESSAGE_TYPE_GAL_F 0x0602
/**
* Status of Navigation Message
* When a message is received properly without any parity error in its navigation words, the
* status should be set to NAV_MESSAGE_STATUS_PARITY_PASSED. But if a message is received
* with words that failed parity check, but GPS is able to correct those words, the status
* should be set to NAV_MESSAGE_STATUS_PARITY_REBUILT.
* No need to send any navigation message that contains words with parity error and cannot be
* corrected.
*/
typedef uint16_t NavigationMessageStatus;
#define NAV_MESSAGE_STATUS_UNKNOWN 0
#define NAV_MESSAGE_STATUS_PARITY_PASSED (1<<0)
#define NAV_MESSAGE_STATUS_PARITY_REBUILT (1<<1)
/* This constant is deprecated, and will be removed in the next release. */
#define NAV_MESSAGE_STATUS_UNKONW 0
#endif
/**
* Flags that indicate information about the satellite
*/
typedef uint8_t LocGnssSvFlags;
#define LOC_GNSS_SV_FLAGS_NONE 0
#define LOC_GNSS_SV_FLAGS_HAS_EPHEMERIS_DATA (1 << 0)
#define LOC_GNSS_SV_FLAGS_HAS_ALMANAC_DATA (1 << 1)
#define LOC_GNSS_SV_FLAGS_USED_IN_FIX (1 << 2)
/**
* Constellation type of LocGnssSvInfo
*/
typedef uint8_t LocGnssConstellationType;
#define LOC_GNSS_CONSTELLATION_UNKNOWN 0
#define LOC_GNSS_CONSTELLATION_GPS 1
#define LOC_GNSS_CONSTELLATION_SBAS 2
#define LOC_GNSS_CONSTELLATION_GLONASS 3
#define LOC_GNSS_CONSTELLATION_QZSS 4
#define LOC_GNSS_CONSTELLATION_BEIDOU 5
#define LOC_GNSS_CONSTELLATION_GALILEO 6
/**
* Name for the GPS XTRA interface.
*/
#define LOC_GPS_XTRA_INTERFACE "gps-xtra"
/**
* Name for the GPS DEBUG interface.
*/
#define LOC_GPS_DEBUG_INTERFACE "gps-debug"
/**
* Name for the AGPS interface.
*/
#define LOC_AGPS_INTERFACE "agps"
/**
* Name of the Supl Certificate interface.
*/
#define LOC_SUPL_CERTIFICATE_INTERFACE "supl-certificate"
/**
* Name for NI interface
*/
#define LOC_GPS_NI_INTERFACE "gps-ni"
/**
* Name for the AGPS-RIL interface.
*/
#define LOC_AGPS_RIL_INTERFACE "agps_ril"
/**
* Name for the GPS_Geofencing interface.
*/
#define LOC_GPS_GEOFENCING_INTERFACE "gps_geofencing"
/**
* Name of the GPS Measurements interface.
*/
#define LOC_GPS_MEASUREMENT_INTERFACE "gps_measurement"
/**
* Name of the GPS navigation message interface.
*/
#define LOC_GPS_NAVIGATION_MESSAGE_INTERFACE "gps_navigation_message"
/**
* Name of the GNSS/GPS configuration interface.
*/
#define LOC_GNSS_CONFIGURATION_INTERFACE "gnss_configuration"
/** Represents a location. */
typedef struct {
/** set to sizeof(LocGpsLocation) */
uint32_t size;
/** Contains LocGpsLocationFlags bits. */
uint16_t flags;
/** The spoof mask */
LocGpsSpoofMask spoof_mask;
/** Represents latitude in degrees. */
double latitude;
/** Represents longitude in degrees. */
double longitude;
/**
* Represents altitude in meters above the WGS 84 reference ellipsoid.
*/
double altitude;
/** Represents horizontal speed in meters per second. */
float speed;
/** Represents heading in degrees. */
float bearing;
/** Represents expected accuracy in meters. */
float accuracy;
/** Represents the expected vertical uncertainity in meters*/
float vertUncertainity;
/** Timestamp for the location fix. */
LocGpsUtcTime timestamp;
/** Elapsed RealTime in nanosends */
uint64_t elapsedRealTime;
/** Elapsed Real Time Uncertainty in nanosends */
uint64_t elapsedRealTimeUnc;
} LocGpsLocation;
/** Represents the status. */
typedef struct {
/** set to sizeof(LocGpsStatus) */
size_t size;
LocGpsStatusValue status;
} LocGpsStatus;
/**
* Legacy struct to represents SV information.
* Deprecated, to be removed in the next Android release.
* Use LocGnssSvInfo instead.
*/
typedef struct {
/** set to sizeof(LocGpsSvInfo) */
size_t size;
/** Pseudo-random number for the SV. */
int prn;
/** Signal to noise ratio. */
float snr;
/** Elevation of SV in degrees. */
float elevation;
/** Azimuth of SV in degrees. */
float azimuth;
} LocGpsSvInfo;
typedef struct {
/** set to sizeof(LocGnssSvInfo) */
size_t size;
/**
* Pseudo-random number for the SV, or FCN/OSN number for Glonass. The
* distinction is made by looking at constellation field. Values should be
* in the range of:
*
* - GPS: 1-32
* - SBAS: 120-151, 183-192
* - GLONASS: 1-24, the orbital slot number (OSN), if known. Or, if not:
* 93-106, the frequency channel number (FCN) (-7 to +6) offset by + 100
* i.e. report an FCN of -7 as 93, FCN of 0 as 100, and FCN of +6 as 106.
* - QZSS: 193-200
* - Galileo: 1-36
* - Beidou: 1-37
*/
int16_t svid;
/**
* Defines the constellation of the given SV. Value should be one of those
* LOC_GNSS_CONSTELLATION_* constants
*/
LocGnssConstellationType constellation;
/**
* Carrier-to-noise density in dB-Hz, typically in the range [0, 63].
* It contains the measured C/N0 value for the signal at the antenna port.
*
* This is a mandatory value.
*/
float c_n0_dbhz;
/** Elevation of SV in degrees. */
float elevation;
/** Azimuth of SV in degrees. */
float azimuth;
/**
* Contains additional data about the given SV. Value should be one of those
* LOC_GNSS_SV_FLAGS_* constants
*/
LocGnssSvFlags flags;
} LocGnssSvInfo;
/**
* Legacy struct to represents SV status.
* Deprecated, to be removed in the next Android release.
* Use LocGnssSvStatus instead.
*/
typedef struct {
/** set to sizeof(LocGpsSvStatus) */
size_t size;
int num_svs;
LocGpsSvInfo sv_list[LOC_GPS_MAX_SVS];
uint32_t ephemeris_mask;
uint32_t almanac_mask;
uint32_t used_in_fix_mask;
} LocGpsSvStatus;
/**
* Represents SV status.
*/
typedef struct {
/** set to sizeof(LocGnssSvStatus) */
size_t size;
/** Number of GPS SVs currently visible, refers to the SVs stored in sv_list */
int num_svs;
/**
* Pointer to an array of SVs information for all GNSS constellations,
* except GPS, which is reported using sv_list
*/
LocGnssSvInfo gnss_sv_list[LOC_GNSS_MAX_SVS];
} LocGnssSvStatus;
/* CellID for 2G, 3G and LTE, used in AGPS. */
typedef struct {
LocAGpsRefLocationType type;
/** Mobile Country Code. */
uint16_t mcc;
/** Mobile Network Code .*/
uint16_t mnc;
/** Location Area Code in 2G, 3G and LTE. In 3G lac is discarded. In LTE,
* lac is populated with tac, to ensure that we don't break old clients that
* might rely in the old (wrong) behavior.
*/
uint16_t lac;
/** Cell id in 2G. Utran Cell id in 3G. Cell Global Id EUTRA in LTE. */
uint32_t cid;
/** Tracking Area Code in LTE. */
uint16_t tac;
/** Physical Cell id in LTE (not used in 2G and 3G) */
uint16_t pcid;
} LocAGpsRefLocationCellID;
typedef struct {
uint8_t mac[6];
} LocAGpsRefLocationMac;
/** Represents ref locations */
typedef struct {
LocAGpsRefLocationType type;
union {
LocAGpsRefLocationCellID cellID;
LocAGpsRefLocationMac mac;
} u;
} LocAGpsRefLocation;
/**
* Callback with location information. Can only be called from a thread created
* by create_thread_cb.
*/
typedef void (* loc_gps_location_callback)(LocGpsLocation* location);
/**
* Callback with status information. Can only be called from a thread created by
* create_thread_cb.
*/
typedef void (* loc_gps_status_callback)(LocGpsStatus* status);
/**
* Legacy callback with SV status information.
* Can only be called from a thread created by create_thread_cb.
*
* This callback is deprecated, and will be removed in the next release. Use
* loc_gnss_sv_status_callback() instead.
*/
typedef void (* loc_gps_sv_status_callback)(LocGpsSvStatus* sv_info);
/**
* Callback with SV status information.
* Can only be called from a thread created by create_thread_cb.
*/
typedef void (* loc_gnss_sv_status_callback)(LocGnssSvStatus* sv_info);
/**
* Callback for reporting NMEA sentences. Can only be called from a thread
* created by create_thread_cb.
*/
typedef void (* loc_gps_nmea_callback)(LocGpsUtcTime timestamp, const char* nmea, int length);
/**
* Callback to inform framework of the GPS engine's capabilities. Capability
* parameter is a bit field of LOC_GPS_CAPABILITY_* flags.
*/
typedef void (* loc_gps_set_capabilities)(uint32_t capabilities);
/**
* Callback utility for acquiring the GPS wakelock. This can be used to prevent
* the CPU from suspending while handling GPS events.
*/
typedef void (* loc_gps_acquire_wakelock)();
/** Callback utility for releasing the GPS wakelock. */
typedef void (* loc_gps_release_wakelock)();
/** Callback for requesting NTP time */
typedef void (* loc_gps_request_utc_time)();
/**
* Callback for creating a thread that can call into the Java framework code.
* This must be used to create any threads that report events up to the
* framework.
*/
typedef pthread_t (* loc_gps_create_thread)(const char* name, void (*start)(void *), void* arg);
/**
* Provides information about how new the underlying GPS/GNSS hardware and
* software is.
*
* This information will be available for Android Test Applications. If a GPS
* HAL does not provide this information, it will be considered "2015 or
* earlier".
*
* If a GPS HAL does provide this information, then newer years will need to
* meet newer CTS standards. E.g. if the date are 2016 or above, then N+ level
* LocGpsMeasurement support will be verified.
*/
typedef struct {
/** Set to sizeof(LocGnssSystemInfo) */
size_t size;
/* year in which the last update was made to the underlying hardware/firmware
* used to capture GNSS signals, e.g. 2016 */
uint16_t year_of_hw;
} LocGnssSystemInfo;
/**
* Callback to inform framework of the engine's hardware version information.
*/
typedef void (*loc_gnss_set_system_info)(const LocGnssSystemInfo* info);
/** New GPS callback structure. */
typedef struct {
/** set to sizeof(LocGpsCallbacks) */
size_t size;
loc_gps_location_callback location_cb;
loc_gps_status_callback status_cb;
loc_gps_sv_status_callback sv_status_cb;
loc_gps_nmea_callback nmea_cb;
loc_gps_set_capabilities set_capabilities_cb;
loc_gps_acquire_wakelock acquire_wakelock_cb;
loc_gps_release_wakelock release_wakelock_cb;
loc_gps_create_thread create_thread_cb;
loc_gps_request_utc_time request_utc_time_cb;
loc_gnss_set_system_info set_system_info_cb;
loc_gnss_sv_status_callback gnss_sv_status_cb;
} LocGpsCallbacks;
/** Represents the standard GPS interface. */
typedef struct {
/** set to sizeof(LocGpsInterface) */
size_t size;
/**
* Opens the interface and provides the callback routines
* to the implementation of this interface.
*/
int (*init)( LocGpsCallbacks* callbacks );
/** Starts navigating. */
int (*start)( void );
/** Stops navigating. */
int (*stop)( void );
/** Closes the interface. */
void (*cleanup)( void );
/** Injects the current time. */
int (*inject_time)(LocGpsUtcTime time, int64_t timeReference,
int uncertainty);
/**
* Injects current location from another location provider (typically cell
* ID). Latitude and longitude are measured in degrees expected accuracy is
* measured in meters
*/
int (*inject_location)(double latitude, double longitude, float accuracy);
/**
* Specifies that the next call to start will not use the
* information defined in the flags. LOC_GPS_DELETE_ALL is passed for
* a cold start.
*/
void (*delete_aiding_data)(LocGpsAidingData flags);
/**
* min_interval represents the time between fixes in milliseconds.
* preferred_accuracy represents the requested fix accuracy in meters.
* preferred_time represents the requested time to first fix in milliseconds.
*
* 'mode' parameter should be one of LOC_GPS_POSITION_MODE_MS_BASED
* or LOC_GPS_POSITION_MODE_STANDALONE.
* It is allowed by the platform (and it is recommended) to fallback to
* LOC_GPS_POSITION_MODE_MS_BASED if LOC_GPS_POSITION_MODE_MS_ASSISTED is passed in, and
* LOC_GPS_POSITION_MODE_MS_BASED is supported.
*/
int (*set_position_mode)(LocGpsPositionMode mode, LocGpsPositionRecurrence recurrence,
uint32_t min_interval, uint32_t preferred_accuracy, uint32_t preferred_time);
/** Get a pointer to extension information. */
const void* (*get_extension)(const char* name);
} LocGpsInterface;
/**
* Callback to request the client to download XTRA data. The client should
* download XTRA data and inject it by calling inject_xtra_data(). Can only be
* called from a thread created by create_thread_cb.
*/
typedef void (* loc_gps_xtra_download_request)();
/** Callback structure for the XTRA interface. */
typedef struct {
loc_gps_xtra_download_request download_request_cb;
loc_gps_create_thread create_thread_cb;
} LocGpsXtraCallbacks;
/** Extended interface for XTRA support. */
typedef struct {
/** set to sizeof(LocGpsXtraInterface) */
size_t size;
/**
* Opens the XTRA interface and provides the callback routines
* to the implementation of this interface.
*/
int (*init)( LocGpsXtraCallbacks* callbacks );
/** Injects XTRA data into the GPS. */
int (*inject_xtra_data)( char* data, int length );
} LocGpsXtraInterface;
#if 0
/** Extended interface for DEBUG support. */
typedef struct {
/** set to sizeof(LocGpsDebugInterface) */
size_t size;
/**
* This function should return any information that the native
* implementation wishes to include in a bugreport.
*/
size_t (*get_internal_state)(char* buffer, size_t bufferSize);
} LocGpsDebugInterface;
#endif
/*
* Represents the status of AGPS augmented to support IPv4 and IPv6.
*/
typedef struct {
/** set to sizeof(LocAGpsStatus) */
size_t size;
LocAGpsType type;
LocAGpsStatusValue status;
/**
* Must be set to a valid IPv4 address if the field 'addr' contains an IPv4
* address, or set to INADDR_NONE otherwise.
*/
uint32_t ipaddr;
/**
* Must contain the IPv4 (AF_INET) or IPv6 (AF_INET6) address to report.
* Any other value of addr.ss_family will be rejected.
*/
struct sockaddr_storage addr;
} LocAGpsStatus;
/**
* Callback with AGPS status information. Can only be called from a thread
* created by create_thread_cb.
*/
typedef void (* loc_agps_status_callback)(LocAGpsStatus* status);
/** Callback structure for the AGPS interface. */
typedef struct {
loc_agps_status_callback status_cb;
loc_gps_create_thread create_thread_cb;
} LocAGpsCallbacks;
/**
* Extended interface for AGPS support, it is augmented to enable to pass
* extra APN data.
*/
typedef struct {
/** set to sizeof(LocAGpsInterface) */
size_t size;
/**
* Opens the AGPS interface and provides the callback routines to the
* implementation of this interface.
*/
void (*init)(LocAGpsCallbacks* callbacks);
/**
* Deprecated.
* If the HAL supports LocAGpsInterface_v2 this API will not be used, see
* data_conn_open_with_apn_ip_type for more information.
*/
int (*data_conn_open)(const char* apn);
/**
* Notifies that the AGPS data connection has been closed.
*/
int (*data_conn_closed)();
/**
* Notifies that a data connection is not available for AGPS.
*/
int (*data_conn_failed)();
/**
* Sets the hostname and port for the AGPS server.
*/
int (*set_server)(LocAGpsType type, const char* hostname, int port);
/**
* Notifies that a data connection is available and sets the name of the
* APN, and its IP type, to be used for SUPL connections.
*/
int (*data_conn_open_with_apn_ip_type)(
const char* apn,
LocApnIpType apnIpType);
} LocAGpsInterface;
/** Error codes associated with certificate operations */
#define LOC_AGPS_CERTIFICATE_OPERATION_SUCCESS 0
#define LOC_AGPS_CERTIFICATE_ERROR_GENERIC -100
#define LOC_AGPS_CERTIFICATE_ERROR_TOO_MANY_CERTIFICATES -101
/** A data structure that represents an X.509 certificate using DER encoding */
typedef struct {
size_t length;
u_char* data;
} LocDerEncodedCertificate;
/**
* A type definition for SHA1 Fingerprints used to identify X.509 Certificates
* The Fingerprint is a digest of the DER Certificate that uniquely identifies it.
*/
typedef struct {
u_char data[20];
} LocSha1CertificateFingerprint;
/** AGPS Interface to handle SUPL certificate operations */
typedef struct {
/** set to sizeof(LocSuplCertificateInterface) */
size_t size;
/**
* Installs a set of Certificates used for SUPL connections to the AGPS server.
* If needed the HAL should find out internally any certificates that need to be removed to
* accommodate the certificates to install.
* The certificates installed represent a full set of valid certificates needed to connect to
* AGPS SUPL servers.
* The list of certificates is required, and all must be available at the same time, when trying
* to establish a connection with the AGPS Server.
*
* Parameters:
* certificates - A pointer to an array of DER encoded certificates that are need to be
* installed in the HAL.
* length - The number of certificates to install.
* Returns:
* LOC_AGPS_CERTIFICATE_OPERATION_SUCCESS if the operation is completed successfully
* LOC_AGPS_CERTIFICATE_ERROR_TOO_MANY_CERTIFICATES if the HAL cannot store the number of
* certificates attempted to be installed, the state of the certificates stored should
* remain the same as before on this error case.
*
* IMPORTANT:
* If needed the HAL should find out internally the set of certificates that need to be
* removed to accommodate the certificates to install.
*/
int (*install_certificates) ( const LocDerEncodedCertificate* certificates, size_t length );
/**
* Notifies the HAL that a list of certificates used for SUPL connections are revoked. It is
* expected that the given set of certificates is removed from the internal store of the HAL.
*
* Parameters:
* fingerprints - A pointer to an array of SHA1 Fingerprints to identify the set of
* certificates to revoke.
* length - The number of fingerprints provided.
* Returns:
* LOC_AGPS_CERTIFICATE_OPERATION_SUCCESS if the operation is completed successfully.
*
* IMPORTANT:
* If any of the certificates provided (through its fingerprint) is not known by the HAL,
* it should be ignored and continue revoking/deleting the rest of them.
*/
int (*revoke_certificates) ( const LocSha1CertificateFingerprint* fingerprints, size_t length );
} LocSuplCertificateInterface;
/** Represents an NI request */
typedef struct {
/** set to sizeof(LocGpsNiNotification) */
size_t size;
/**
* An ID generated by HAL to associate NI notifications and UI
* responses
*/
int notification_id;
/**
* An NI type used to distinguish different categories of NI
* events, such as LOC_GPS_NI_TYPE_VOICE, LOC_GPS_NI_TYPE_UMTS_SUPL, ...
*/
LocGpsNiType ni_type;
/**
* Notification/verification options, combinations of LocGpsNiNotifyFlags constants
*/
LocGpsNiNotifyFlags notify_flags;
/**
* Timeout period to wait for user response.
* Set to 0 for no time out limit.
*/
int timeout;
/**
* Default response when time out.
*/
LocGpsUserResponseType default_response;
/**
* Requestor ID
*/
char requestor_id[LOC_GPS_NI_SHORT_STRING_MAXLEN];
/**
* Notification message. It can also be used to store client_id in some cases
*/
char text[LOC_GPS_NI_LONG_STRING_MAXLEN];
/**
* Client name decoding scheme
*/
LocGpsNiEncodingType requestor_id_encoding;
/**
* Client name decoding scheme
*/
LocGpsNiEncodingType text_encoding;
/**
* A pointer to extra data. Format:
* key_1 = value_1
* key_2 = value_2
*/
char extras[LOC_GPS_NI_LONG_STRING_MAXLEN];
} LocGpsNiNotification;
/**
* Callback with NI notification. Can only be called from a thread created by
* create_thread_cb.
*/
typedef void (*loc_gps_ni_notify_callback)(LocGpsNiNotification *notification);
/** GPS NI callback structure. */
typedef struct
{
/**
* Sends the notification request from HAL to GPSLocationProvider.
*/
loc_gps_ni_notify_callback notify_cb;
loc_gps_create_thread create_thread_cb;
} LocGpsNiCallbacks;
/**
* Extended interface for Network-initiated (NI) support.
*/
typedef struct
{
/** set to sizeof(LocGpsNiInterface) */
size_t size;
/** Registers the callbacks for HAL to use. */
void (*init) (LocGpsNiCallbacks *callbacks);
/** Sends a response to HAL. */
void (*respond) (int notif_id, LocGpsUserResponseType user_response);
} LocGpsNiInterface;
#define LOC_AGPS_RIL_REQUEST_SETID_IMSI (1<<0L)
#define LOC_AGPS_RIL_REQUEST_SETID_MSISDN (1<<1L)
#define LOC_AGPS_RIL_REQUEST_REFLOC_CELLID (1<<0L)
#define LOC_AGPS_RIL_REQUEST_REFLOC_MAC (1<<1L)
typedef void (*loc_agps_ril_request_set_id)(uint32_t flags);
typedef void (*loc_agps_ril_request_ref_loc)(uint32_t flags);
typedef struct {
loc_agps_ril_request_set_id request_setid;
loc_agps_ril_request_ref_loc request_refloc;
loc_gps_create_thread create_thread_cb;
} LocAGpsRilCallbacks;
/** Extended interface for AGPS_RIL support. */
typedef struct {
/** set to sizeof(LocAGpsRilInterface) */
size_t size;
/**
* Opens the AGPS interface and provides the callback routines
* to the implementation of this interface.
*/
void (*init)( LocAGpsRilCallbacks* callbacks );
/**
* Sets the reference location.
*/
void (*set_ref_location) (const LocAGpsRefLocation *agps_reflocation, size_t sz_struct);
/**
* Sets the set ID.
*/
void (*set_set_id) (LocAGpsSetIDType type, const char* setid);
/**
* Send network initiated message.
*/
void (*ni_message) (uint8_t *msg, size_t len);
/**
* Notify GPS of network status changes.
* These parameters match values in the android.net.NetworkInfo class.
*/
void (*update_network_state) (int connected, int type, int roaming, const char* extra_info);
/**
* Notify GPS of network status changes.
* These parameters match values in the android.net.NetworkInfo class.
*/
void (*update_network_availability) (int avaiable, const char* apn);
} LocAGpsRilInterface;
/**
* GPS Geofence.
* There are 3 states associated with a Geofence: Inside, Outside, Unknown.
* There are 3 transitions: ENTERED, EXITED, UNCERTAIN.
*
* An example state diagram with confidence level: 95% and Unknown time limit
* set as 30 secs is shown below. (confidence level and Unknown time limit are
* explained latter)
* ____________________________
* | Unknown (30 secs) |
* """"""""""""""""""""""""""""
* ^ | | ^
* UNCERTAIN| |ENTERED EXITED| |UNCERTAIN
* | v v |
* ________ EXITED _________
* | Inside | -----------> | Outside |
* | | <----------- | |
* """""""" ENTERED """""""""
*
* Inside state: We are 95% confident that the user is inside the geofence.
* Outside state: We are 95% confident that the user is outside the geofence
* Unknown state: Rest of the time.
*
* The Unknown state is better explained with an example:
*
* __________
* | c|
* | ___ | _______
* | |a| | | b |
* | """ | """""""
* | |
* """"""""""
* In the diagram above, "a" and "b" are 2 geofences and "c" is the accuracy
* circle reported by the GPS subsystem. Now with regard to "b", the system is
* confident that the user is outside. But with regard to "a" is not confident
* whether it is inside or outside the geofence. If the accuracy remains the
* same for a sufficient period of time, the UNCERTAIN transition would be
* triggered with the state set to Unknown. If the accuracy improves later, an
* appropriate transition should be triggered. This "sufficient period of time"
* is defined by the parameter in the add_geofence_area API.
* In other words, Unknown state can be interpreted as a state in which the
* GPS subsystem isn't confident enough that the user is either inside or
* outside the Geofence. It moves to Unknown state only after the expiry of the
* timeout.
*
* The geofence callback needs to be triggered for the ENTERED and EXITED
* transitions, when the GPS system is confident that the user has entered
* (Inside state) or exited (Outside state) the Geofence. An implementation
* which uses a value of 95% as the confidence is recommended. The callback
* should be triggered only for the transitions requested by the
* add_geofence_area call.
*
* Even though the diagram and explanation talks about states and transitions,
* the callee is only interested in the transistions. The states are mentioned
* here for illustrative purposes.
*
* Startup Scenario: When the device boots up, if an application adds geofences,
* and then we get an accurate GPS location fix, it needs to trigger the
* appropriate (ENTERED or EXITED) transition for every Geofence it knows about.
* By default, all the Geofences will be in the Unknown state.
*
* When the GPS system is unavailable, loc_gps_geofence_status_callback should be
* called to inform the upper layers of the same. Similarly, when it becomes
* available the callback should be called. This is a global state while the
* UNKNOWN transition described above is per geofence.
*
* An important aspect to note is that users of this API (framework), will use
* other subsystems like wifi, sensors, cell to handle Unknown case and
* hopefully provide a definitive state transition to the third party
* application. GPS Geofence will just be a signal indicating what the GPS
* subsystem knows about the Geofence.
*
*/
#define LOC_GPS_GEOFENCE_ENTERED (1<<0L)
#define LOC_GPS_GEOFENCE_EXITED (1<<1L)
#define LOC_GPS_GEOFENCE_UNCERTAIN (1<<2L)
#define LOC_GPS_GEOFENCE_DWELL_INSIDE (1<<0L)
#define LOC_GPS_GEOFENCE_DWELL_OUTSIDE (1<<1L)
#define LOC_GPS_GEOFENCE_CONFIDENCE_LOW 1
#define LOC_GPS_GEOFENCE_CONFIDENCE_MEDIUM 2
#define LOC_GPS_GEOFENCE_CONFIDENCE_HIGH 3
#define LOC_GPS_GEOFENCE_UNAVAILABLE (1<<0L)
#define LOC_GPS_GEOFENCE_AVAILABLE (1<<1L)
#define LOC_GPS_GEOFENCE_OPERATION_SUCCESS 0
#define LOC_GPS_GEOFENCE_ERROR_TOO_MANY_GEOFENCES -100
#define LOC_GPS_GEOFENCE_ERROR_ID_EXISTS -101
#define LOC_GPS_GEOFENCE_ERROR_ID_UNKNOWN -102
#define LOC_GPS_GEOFENCE_ERROR_INVALID_TRANSITION -103
#define LOC_GPS_GEOFENCE_ERROR_GENERIC -149
/**
* The callback associated with the geofence.
* Parameters:
* geofence_id - The id associated with the add_geofence_area.
* location - The current GPS location.
* transition - Can be one of LOC_GPS_GEOFENCE_ENTERED, LOC_GPS_GEOFENCE_EXITED,
* LOC_GPS_GEOFENCE_UNCERTAIN.
* timestamp - Timestamp when the transition was detected.
*
* The callback should only be called when the caller is interested in that
* particular transition. For instance, if the caller is interested only in
* ENTERED transition, then the callback should NOT be called with the EXITED
* transition.
*
* IMPORTANT: If a transition is triggered resulting in this callback, the GPS
* subsystem will wake up the application processor, if its in suspend state.
*/
typedef void (*loc_gps_geofence_transition_callback) (int32_t geofence_id, LocGpsLocation* location,
int32_t transition, LocGpsUtcTime timestamp);
/**
* The callback associated with the availability of the GPS system for geofencing
* monitoring. If the GPS system determines that it cannot monitor geofences
* because of lack of reliability or unavailability of the GPS signals, it will
* call this callback with LOC_GPS_GEOFENCE_UNAVAILABLE parameter.
*
* Parameters:
* status - LOC_GPS_GEOFENCE_UNAVAILABLE or LOC_GPS_GEOFENCE_AVAILABLE.
* last_location - Last known location.
*/
typedef void (*loc_gps_geofence_status_callback) (int32_t status, LocGpsLocation* last_location);
/**
* The callback associated with the add_geofence call.
*
* Parameter:
* geofence_id - Id of the geofence.
* status - LOC_GPS_GEOFENCE_OPERATION_SUCCESS
* LOC_GPS_GEOFENCE_ERROR_TOO_MANY_GEOFENCES - geofence limit has been reached.
* LOC_GPS_GEOFENCE_ERROR_ID_EXISTS - geofence with id already exists
* LOC_GPS_GEOFENCE_ERROR_INVALID_TRANSITION - the monitorTransition contains an
* invalid transition
* LOC_GPS_GEOFENCE_ERROR_GENERIC - for other errors.
*/
typedef void (*loc_gps_geofence_add_callback) (int32_t geofence_id, int32_t status);
/**
* The callback associated with the remove_geofence call.
*
* Parameter:
* geofence_id - Id of the geofence.
* status - LOC_GPS_GEOFENCE_OPERATION_SUCCESS
* LOC_GPS_GEOFENCE_ERROR_ID_UNKNOWN - for invalid id
* LOC_GPS_GEOFENCE_ERROR_GENERIC for others.
*/
typedef void (*loc_gps_geofence_remove_callback) (int32_t geofence_id, int32_t status);
/**
* The callback associated with the pause_geofence call.
*
* Parameter:
* geofence_id - Id of the geofence.
* status - LOC_GPS_GEOFENCE_OPERATION_SUCCESS
* LOC_GPS_GEOFENCE_ERROR_ID_UNKNOWN - for invalid id
* LOC_GPS_GEOFENCE_ERROR_INVALID_TRANSITION -
* when monitor_transitions is invalid
* LOC_GPS_GEOFENCE_ERROR_GENERIC for others.
*/
typedef void (*loc_gps_geofence_pause_callback) (int32_t geofence_id, int32_t status);
/**
* The callback associated with the resume_geofence call.
*
* Parameter:
* geofence_id - Id of the geofence.
* status - LOC_GPS_GEOFENCE_OPERATION_SUCCESS
* LOC_GPS_GEOFENCE_ERROR_ID_UNKNOWN - for invalid id
* LOC_GPS_GEOFENCE_ERROR_GENERIC for others.
*/
typedef void (*loc_gps_geofence_resume_callback) (int32_t geofence_id, int32_t status);
typedef struct {
loc_gps_geofence_transition_callback geofence_transition_callback;
loc_gps_geofence_status_callback geofence_status_callback;
loc_gps_geofence_add_callback geofence_add_callback;
loc_gps_geofence_remove_callback geofence_remove_callback;
loc_gps_geofence_pause_callback geofence_pause_callback;
loc_gps_geofence_resume_callback geofence_resume_callback;
loc_gps_create_thread create_thread_cb;
} LocGpsGeofenceCallbacks;
/** Extended interface for GPS_Geofencing support */
typedef struct {
/** set to sizeof(LocGpsGeofencingInterface) */
size_t size;
/**
* Opens the geofence interface and provides the callback routines
* to the implementation of this interface.
*/
void (*init)( LocGpsGeofenceCallbacks* callbacks );
/**
* Add a geofence area. This api currently supports circular geofences.
* Parameters:
* geofence_id - The id for the geofence. If a geofence with this id
* already exists, an error value (LOC_GPS_GEOFENCE_ERROR_ID_EXISTS)
* should be returned.
* latitude, longtitude, radius_meters - The lat, long and radius
* (in meters) for the geofence
* last_transition - The current state of the geofence. For example, if
* the system already knows that the user is inside the geofence,
* this will be set to LOC_GPS_GEOFENCE_ENTERED. In most cases, it
* will be LOC_GPS_GEOFENCE_UNCERTAIN.
* monitor_transition - Which transitions to monitor. Bitwise OR of
* LOC_GPS_GEOFENCE_ENTERED, LOC_GPS_GEOFENCE_EXITED and
* LOC_GPS_GEOFENCE_UNCERTAIN.
* notification_responsiveness_ms - Defines the best-effort description
* of how soon should the callback be called when the transition
* associated with the Geofence is triggered. For instance, if set
* to 1000 millseconds with LOC_GPS_GEOFENCE_ENTERED, the callback
* should be called 1000 milliseconds within entering the geofence.
* This parameter is defined in milliseconds.
* NOTE: This is not to be confused with the rate that the GPS is
* polled at. It is acceptable to dynamically vary the rate of
* sampling the GPS for power-saving reasons; thus the rate of
* sampling may be faster or slower than this.
* unknown_timer_ms - The time limit after which the UNCERTAIN transition
* should be triggered. This parameter is defined in milliseconds.
* See above for a detailed explanation.
*/
void (*add_geofence_area) (int32_t geofence_id, double latitude, double longitude,
double radius_meters, int last_transition, int monitor_transitions,
int notification_responsiveness_ms, int unknown_timer_ms);
/**
* Pause monitoring a particular geofence.
* Parameters:
* geofence_id - The id for the geofence.
*/
void (*pause_geofence) (int32_t geofence_id);
/**
* Resume monitoring a particular geofence.
* Parameters:
* geofence_id - The id for the geofence.
* monitor_transitions - Which transitions to monitor. Bitwise OR of
* LOC_GPS_GEOFENCE_ENTERED, LOC_GPS_GEOFENCE_EXITED and
* LOC_GPS_GEOFENCE_UNCERTAIN.
* This supersedes the value associated provided in the
* add_geofence_area call.
*/
void (*resume_geofence) (int32_t geofence_id, int monitor_transitions);
/**
* Remove a geofence area. After the function returns, no notifications
* should be sent.
* Parameter:
* geofence_id - The id for the geofence.
*/
void (*remove_geofence_area) (int32_t geofence_id);
} LocGpsGeofencingInterface;
/**
* Legacy struct to represent an estimate of the GPS clock time.
* Deprecated, to be removed in the next Android release.
* Use LocGnssClock instead.
*/
typedef struct {
/** set to sizeof(LocGpsClock) */
size_t size;
LocGpsClockFlags flags;
int16_t leap_second;
LocGpsClockType type;
int64_t time_ns;
double time_uncertainty_ns;
int64_t full_bias_ns;
double bias_ns;
double bias_uncertainty_ns;
double drift_nsps;
double drift_uncertainty_nsps;
} LocGpsClock;
/**
* Represents an estimate of the GPS clock time.
*/
typedef struct {
/** set to sizeof(LocGnssClock) */
size_t size;
/**
* A set of flags indicating the validity of the fields in this data
* structure.
*/
LocGnssClockFlags flags;
/**
* Leap second data.
* The sign of the value is defined by the following equation:
* utc_time_ns = time_ns - (full_bias_ns + bias_ns) - leap_second *
* 1,000,000,000
*
* If the data is available 'flags' must contain LOC_GNSS_CLOCK_HAS_LEAP_SECOND.
*/
int16_t leap_second;
/**
* The GNSS receiver internal clock value. This is the local hardware clock
* value.
*
* For local hardware clock, this value is expected to be monotonically
* increasing while the hardware clock remains power on. (For the case of a
* HW clock that is not continuously on, see the
* hw_clock_discontinuity_count field). The receiver's estimate of GPS time
* can be derived by substracting the sum of full_bias_ns and bias_ns (when
* available) from this value.
*
* This GPS time is expected to be the best estimate of current GPS time
* that GNSS receiver can achieve.
*
* Sub-nanosecond accuracy can be provided by means of the 'bias_ns' field.
* The value contains the 'time uncertainty' in it.
*
* This field is mandatory.
*/
int64_t time_ns;
/**
* 1-Sigma uncertainty associated with the clock's time in nanoseconds.
* The uncertainty is represented as an absolute (single sided) value.
*
* If the data is available, 'flags' must contain
* LOC_GNSS_CLOCK_HAS_TIME_UNCERTAINTY. This value is effectively zero (it is
* the reference local clock, by which all other times and time
* uncertainties are measured.) (And thus this field can be not provided,
* per LOC_GNSS_CLOCK_HAS_TIME_UNCERTAINTY flag, or provided & set to 0.)
*/
double time_uncertainty_ns;
/**
* The difference between hardware clock ('time' field) inside GPS receiver
* and the true GPS time since 0000Z, January 6, 1980, in nanoseconds.
*
* The sign of the value is defined by the following equation:
* local estimate of GPS time = time_ns - (full_bias_ns + bias_ns)
*
* This value is mandatory if the receiver has estimated GPS time. If the
* computed time is for a non-GPS constellation, the time offset of that
* constellation to GPS has to be applied to fill this value. The error
* estimate for the sum of this and the bias_ns is the bias_uncertainty_ns,
* and the caller is responsible for using this uncertainty (it can be very
* large before the GPS time has been solved for.) If the data is available
* 'flags' must contain LOC_GNSS_CLOCK_HAS_FULL_BIAS.
*/
int64_t full_bias_ns;
/**
* Sub-nanosecond bias.
* The error estimate for the sum of this and the full_bias_ns is the
* bias_uncertainty_ns
*
* If the data is available 'flags' must contain LOC_GNSS_CLOCK_HAS_BIAS. If GPS
* has computed a position fix. This value is mandatory if the receiver has
* estimated GPS time.
*/
double bias_ns;
/**
* 1-Sigma uncertainty associated with the local estimate of GPS time (clock
* bias) in nanoseconds. The uncertainty is represented as an absolute
* (single sided) value.
*
* If the data is available 'flags' must contain
* LOC_GNSS_CLOCK_HAS_BIAS_UNCERTAINTY. This value is mandatory if the receiver
* has estimated GPS time.
*/
double bias_uncertainty_ns;
/**
* The clock's drift in nanoseconds (per second).
*
* A positive value means that the frequency is higher than the nominal
* frequency, and that the (full_bias_ns + bias_ns) is growing more positive
* over time.
*
* The value contains the 'drift uncertainty' in it.
* If the data is available 'flags' must contain LOC_GNSS_CLOCK_HAS_DRIFT.
*
* This value is mandatory if the receiver has estimated GNSS time
*/
double drift_nsps;
/**
* 1-Sigma uncertainty associated with the clock's drift in nanoseconds (per second).
* The uncertainty is represented as an absolute (single sided) value.
*
* If the data is available 'flags' must contain
* LOC_GNSS_CLOCK_HAS_DRIFT_UNCERTAINTY. If GPS has computed a position fix this
* field is mandatory and must be populated.
*/
double drift_uncertainty_nsps;
/**
* When there are any discontinuities in the HW clock, this field is
* mandatory.
*
* A "discontinuity" is meant to cover the case of a switch from one source
* of clock to another. A single free-running crystal oscillator (XO)
* should generally not have any discontinuities, and this can be set and
* left at 0.
*
* If, however, the time_ns value (HW clock) is derived from a composite of
* sources, that is not as smooth as a typical XO, or is otherwise stopped &
* restarted, then this value shall be incremented each time a discontinuity
* occurs. (E.g. this value may start at zero at device boot-up and
* increment each time there is a change in clock continuity. In the
* unlikely event that this value reaches full scale, rollover (not
* clamping) is required, such that this value continues to change, during
* subsequent discontinuity events.)
*
* While this number stays the same, between LocGnssClock reports, it can be
* safely assumed that the time_ns value has been running continuously, e.g.
* derived from a single, high quality clock (XO like, or better, that's
* typically used during continuous GNSS signal sampling.)
*
* It is expected, esp. during periods where there are few GNSS signals
* available, that the HW clock be discontinuity-free as long as possible,
* as this avoids the need to use (waste) a GNSS measurement to fully
* re-solve for the GPS clock bias and drift, when using the accompanying
* measurements, from consecutive LocGnssData reports.
*/
uint32_t hw_clock_discontinuity_count;
} LocGnssClock;
/**
* Legacy struct to represent a GPS Measurement, it contains raw and computed
* information.
* Deprecated, to be removed in the next Android release.
* Use LocGnssMeasurement instead.
*/
typedef struct {
/** set to sizeof(LocGpsMeasurement) */
size_t size;
LocGpsMeasurementFlags flags;
int8_t prn;
double time_offset_ns;
LocGpsMeasurementState state;
int64_t received_gps_tow_ns;
int64_t received_gps_tow_uncertainty_ns;
double c_n0_dbhz;
double pseudorange_rate_mps;
double pseudorange_rate_uncertainty_mps;
LocGpsAccumulatedDeltaRangeState accumulated_delta_range_state;
double accumulated_delta_range_m;
double accumulated_delta_range_uncertainty_m;
double pseudorange_m;
double pseudorange_uncertainty_m;
double code_phase_chips;
double code_phase_uncertainty_chips;
float carrier_frequency_hz;
int64_t carrier_cycles;
double carrier_phase;
double carrier_phase_uncertainty;
LocGpsLossOfLock loss_of_lock;
int32_t bit_number;
int16_t time_from_last_bit_ms;
double doppler_shift_hz;
double doppler_shift_uncertainty_hz;
LocGpsMultipathIndicator multipath_indicator;
double snr_db;
double elevation_deg;
double elevation_uncertainty_deg;
double azimuth_deg;
double azimuth_uncertainty_deg;
bool used_in_fix;
} LocGpsMeasurement;
/**
* Represents a GNSS Measurement, it contains raw and computed information.
*
* Independence - All signal measurement information (e.g. sv_time,
* pseudorange_rate, multipath_indicator) reported in this struct should be
* based on GNSS signal measurements only. You may not synthesize measurements
* by calculating or reporting expected measurements based on known or estimated
* position, velocity, or time.
*/
typedef struct {
/** set to sizeof(LocGnssMeasurement) */
size_t size;
/** A set of flags indicating the validity of the fields in this data structure. */
LocGnssMeasurementFlags flags;
/**
* Satellite vehicle ID number, as defined in LocGnssSvInfo::svid
* This is a mandatory value.
*/
int16_t svid;
/**
* Defines the constellation of the given SV. Value should be one of those
* LOC_GNSS_CONSTELLATION_* constants
*/
LocGnssConstellationType constellation;
/**
* Time offset at which the measurement was taken in nanoseconds.
* The reference receiver's time is specified by LocGpsData::clock::time_ns and should be
* interpreted in the same way as indicated by LocGpsClock::type.
*
* The sign of time_offset_ns is given by the following equation:
* measurement time = LocGpsClock::time_ns + time_offset_ns
*
* It provides an individual time-stamp for the measurement, and allows sub-nanosecond accuracy.
* This is a mandatory value.
*/
double time_offset_ns;
/**
* Per satellite sync state. It represents the current sync state for the associated satellite.
* Based on the sync state, the 'received GPS tow' field should be interpreted accordingly.
*
* This is a mandatory value.
*/
LocGnssMeasurementState state;
/**
* The received GNSS Time-of-Week at the measurement time, in nanoseconds.
* Ensure that this field is independent (see comment at top of
* LocGnssMeasurement struct.)
*
* For GPS & QZSS, this is:
* Received GPS Time-of-Week at the measurement time, in nanoseconds.
* The value is relative to the beginning of the current GPS week.
*
* Given the highest sync state that can be achieved, per each satellite, valid range
* for this field can be:
* Searching : [ 0 ] : LOC_GNSS_MEASUREMENT_STATE_UNKNOWN
* C/A code lock : [ 0 1ms ] : LOC_GNSS_MEASUREMENT_STATE_CODE_LOCK is set
* Bit sync : [ 0 20ms ] : LOC_GNSS_MEASUREMENT_STATE_BIT_SYNC is set
* Subframe sync : [ 0 6s ] : LOC_GNSS_MEASUREMENT_STATE_SUBFRAME_SYNC is set
* TOW decoded : [ 0 1week ] : LOC_GNSS_MEASUREMENT_STATE_TOW_DECODED is set
*
* Note well: if there is any ambiguity in integer millisecond,
* LOC_GNSS_MEASUREMENT_STATE_MSEC_AMBIGUOUS should be set accordingly, in the 'state' field.
*
* This value must be populated if 'state' != LOC_GNSS_MEASUREMENT_STATE_UNKNOWN.
*
* For Glonass, this is:
* Received Glonass time of day, at the measurement time in nanoseconds.
*
* Given the highest sync state that can be achieved, per each satellite, valid range for
* this field can be:
* Searching : [ 0 ] : LOC_GNSS_MEASUREMENT_STATE_UNKNOWN
* C/A code lock : [ 0 1ms ] : LOC_GNSS_MEASUREMENT_STATE_CODE_LOCK is set
* Symbol sync : [ 0 10ms ] : LOC_GNSS_MEASUREMENT_STATE_SYMBOL_SYNC is set
* Bit sync : [ 0 20ms ] : LOC_GNSS_MEASUREMENT_STATE_BIT_SYNC is set
* String sync : [ 0 2s ] : LOC_GNSS_MEASUREMENT_STATE_GLO_STRING_SYNC is set
* Time of day : [ 0 1day ] : LOC_GNSS_MEASUREMENT_STATE_GLO_TOD_DECODED is set
*
* For Beidou, this is:
* Received Beidou time of week, at the measurement time in nanoseconds.
*
* Given the highest sync state that can be achieved, per each satellite, valid range for
* this field can be:
* Searching : [ 0 ] : LOC_GNSS_MEASUREMENT_STATE_UNKNOWN
* C/A code lock: [ 0 1ms ] : LOC_GNSS_MEASUREMENT_STATE_CODE_LOCK is set
* Bit sync (D2): [ 0 2ms ] : LOC_GNSS_MEASUREMENT_STATE_BDS_D2_BIT_SYNC is set
* Bit sync (D1): [ 0 20ms ] : LOC_GNSS_MEASUREMENT_STATE_BIT_SYNC is set
* Subframe (D2): [ 0 0.6s ] : LOC_GNSS_MEASUREMENT_STATE_BDS_D2_SUBFRAME_SYNC is set
* Subframe (D1): [ 0 6s ] : LOC_GNSS_MEASUREMENT_STATE_SUBFRAME_SYNC is set
* Time of week : [ 0 1week ] : LOC_GNSS_MEASUREMENT_STATE_TOW_DECODED is set
*
* For Galileo, this is:
* Received Galileo time of week, at the measurement time in nanoseconds.
*
* E1BC code lock : [ 0 4ms ] : LOC_GNSS_MEASUREMENT_STATE_GAL_E1BC_CODE_LOCK is set
* E1C 2nd code lock: [ 0 100ms ] :
* LOC_GNSS_MEASUREMENT_STATE_GAL_E1C_2ND_CODE_LOCK is set
*
* E1B page : [ 0 2s ] : LOC_GNSS_MEASUREMENT_STATE_GAL_E1B_PAGE_SYNC is set
* Time of week: [ 0 1week ] : LOC_GNSS_MEASUREMENT_STATE_TOW_DECODED is set
*
* For SBAS, this is:
* Received SBAS time, at the measurement time in nanoseconds.
*
* Given the highest sync state that can be achieved, per each satellite,
* valid range for this field can be:
* Searching : [ 0 ] : LOC_GNSS_MEASUREMENT_STATE_UNKNOWN
* C/A code lock: [ 0 1ms ] : LOC_GNSS_MEASUREMENT_STATE_CODE_LOCK is set
* Symbol sync : [ 0 2ms ] : LOC_GNSS_MEASUREMENT_STATE_SYMBOL_SYNC is set
* Message : [ 0 1s ] : LOC_GNSS_MEASUREMENT_STATE_SBAS_SYNC is set
*/
int64_t received_sv_time_in_ns;
/**
* 1-Sigma uncertainty of the Received GPS Time-of-Week in nanoseconds.
*
* This value must be populated if 'state' != LOC_GPS_MEASUREMENT_STATE_UNKNOWN.
*/
int64_t received_sv_time_uncertainty_in_ns;
/**
* Carrier-to-noise density in dB-Hz, typically in the range [0, 63].
* It contains the measured C/N0 value for the signal at the antenna port.
*
* This is a mandatory value.
*/
double c_n0_dbhz;
/**
* Pseudorange rate at the timestamp in m/s. The correction of a given
* Pseudorange Rate value includes corrections for receiver and satellite
* clock frequency errors. Ensure that this field is independent (see
* comment at top of LocGnssMeasurement struct.)
*
* It is mandatory to provide the 'uncorrected' 'pseudorange rate', and provide LocGpsClock's
* 'drift' field as well (When providing the uncorrected pseudorange rate, do not apply the
* corrections described above.)
*
* The value includes the 'pseudorange rate uncertainty' in it.
* A positive 'uncorrected' value indicates that the SV is moving away from the receiver.
*
* The sign of the 'uncorrected' 'pseudorange rate' and its relation to the sign of 'doppler
* shift' is given by the equation:
* pseudorange rate = -k * doppler shift (where k is a constant)
*
* This should be the most accurate pseudorange rate available, based on
* fresh signal measurements from this channel.
*
* It is mandatory that this value be provided at typical carrier phase PRR
* quality (few cm/sec per second of uncertainty, or better) - when signals
* are sufficiently strong & stable, e.g. signals from a GPS simulator at >=
* 35 dB-Hz.
*/
double pseudorange_rate_mps;
/**
* 1-Sigma uncertainty of the pseudorange_rate_mps.
* The uncertainty is represented as an absolute (single sided) value.
*
* This is a mandatory value.
*/
double pseudorange_rate_uncertainty_mps;
/**
* Accumulated delta range's state. It indicates whether ADR is reset or there is a cycle slip
* (indicating loss of lock).
*
* This is a mandatory value.
*/
LocGnssAccumulatedDeltaRangeState accumulated_delta_range_state;
/**
* Accumulated delta range since the last channel reset in meters.
* A positive value indicates that the SV is moving away from the receiver.
*
* The sign of the 'accumulated delta range' and its relation to the sign of 'carrier phase'
* is given by the equation:
* accumulated delta range = -k * carrier phase (where k is a constant)
*
* This value must be populated if 'accumulated delta range state' != LOC_GPS_ADR_STATE_UNKNOWN.
* However, it is expected that the data is only accurate when:
* 'accumulated delta range state' == LOC_GPS_ADR_STATE_VALID.
*/
double accumulated_delta_range_m;
/**
* 1-Sigma uncertainty of the accumulated delta range in meters.
* This value must be populated if 'accumulated delta range state' != LOC_GPS_ADR_STATE_UNKNOWN.
*/
double accumulated_delta_range_uncertainty_m;
/**
* Carrier frequency at which codes and messages are modulated, it can be L1 or L2.
* If the field is not set, the carrier frequency is assumed to be L1.
*
* If the data is available, 'flags' must contain
* LOC_GNSS_MEASUREMENT_HAS_CARRIER_FREQUENCY.
*/
float carrier_frequency_hz;
/**
* The number of full carrier cycles between the satellite and the receiver.
* The reference frequency is given by the field 'carrier_frequency_hz'.
* Indications of possible cycle slips and resets in the accumulation of
* this value can be inferred from the accumulated_delta_range_state flags.
*
* If the data is available, 'flags' must contain
* LOC_GNSS_MEASUREMENT_HAS_CARRIER_CYCLES.
*/
int64_t carrier_cycles;
/**
* The RF phase detected by the receiver, in the range [0.0, 1.0].
* This is usually the fractional part of the complete carrier phase measurement.
*
* The reference frequency is given by the field 'carrier_frequency_hz'.
* The value contains the 'carrier-phase uncertainty' in it.
*
* If the data is available, 'flags' must contain
* LOC_GNSS_MEASUREMENT_HAS_CARRIER_PHASE.
*/
double carrier_phase;
/**
* 1-Sigma uncertainty of the carrier-phase.
* If the data is available, 'flags' must contain
* LOC_GNSS_MEASUREMENT_HAS_CARRIER_PHASE_UNCERTAINTY.
*/
double carrier_phase_uncertainty;
/**
* An enumeration that indicates the 'multipath' state of the event.
*
* The multipath Indicator is intended to report the presence of overlapping
* signals that manifest as distorted correlation peaks.
*
* - if there is a distorted correlation peak shape, report that multipath
* is LOC_GNSS_MULTIPATH_INDICATOR_PRESENT.
* - if there is not a distorted correlation peak shape, report
* LOC_GNSS_MULTIPATH_INDICATOR_NOT_PRESENT
* - if signals are too weak to discern this information, report
* LOC_GNSS_MULTIPATH_INDICATOR_UNKNOWN
*
* Example: when doing the standardized overlapping Multipath Performance
* test (3GPP TS 34.171) the Multipath indicator should report
* LOC_GNSS_MULTIPATH_INDICATOR_PRESENT for those signals that are tracked, and
* contain multipath, and LOC_GNSS_MULTIPATH_INDICATOR_NOT_PRESENT for those
* signals that are tracked and do not contain multipath.
*/
LocGnssMultipathIndicator multipath_indicator;
/**
* Signal-to-noise ratio at correlator output in dB.
* If the data is available, 'flags' must contain LOC_GNSS_MEASUREMENT_HAS_SNR.
* This is the power ratio of the "correlation peak height above the
* observed noise floor" to "the noise RMS".
*/
double snr_db;
} LocGnssMeasurement;
/**
* Legacy struct to represents a reading of GPS measurements.
* Deprecated, to be removed in the next Android release.
* Use LocGnssData instead.
*/
typedef struct {
/** set to sizeof(LocGpsData) */
size_t size;
size_t measurement_count;
LocGpsMeasurement measurements[LOC_GPS_MAX_MEASUREMENT];
/** The GPS clock time reading. */
LocGpsClock clock;
} LocGpsData;
/**
* Represents a reading of GNSS measurements. For devices where LocGnssSystemInfo's
* year_of_hw is set to 2016+, it is mandatory that these be provided, on
* request, when the GNSS receiver is searching/tracking signals.
*
* - Reporting of GPS constellation measurements is mandatory.
* - Reporting of all tracked constellations are encouraged.
*/
typedef struct {
/** set to sizeof(LocGnssData) */
size_t size;
/** Number of measurements. */
size_t measurement_count;
/** The array of measurements. */
LocGnssMeasurement measurements[LOC_GNSS_MAX_MEASUREMENT];
/** The GPS clock time reading. */
LocGnssClock clock;
} LocGnssData;
/**
* The legacy callback for to report measurements from the HAL.
*
* This callback is deprecated, and will be removed in the next release. Use
* loc_gnss_measurement_callback() instead.
*
* Parameters:
* data - A data structure containing the measurements.
*/
typedef void (*loc_gps_measurement_callback) (LocGpsData* data);
/**
* The callback for to report measurements from the HAL.
*
* Parameters:
* data - A data structure containing the measurements.
*/
typedef void (*loc_gnss_measurement_callback) (LocGnssData* data);
typedef struct {
/** set to sizeof(LocGpsMeasurementCallbacks) */
size_t size;
loc_gps_measurement_callback measurement_callback;
loc_gnss_measurement_callback loc_gnss_measurement_callback;
} LocGpsMeasurementCallbacks;
#define LOC_GPS_MEASUREMENT_OPERATION_SUCCESS 0
#define LOC_GPS_MEASUREMENT_ERROR_ALREADY_INIT -100
#define LOC_GPS_MEASUREMENT_ERROR_GENERIC -101
/**
* Extended interface for GPS Measurements support.
*/
typedef struct {
/** Set to sizeof(LocGpsMeasurementInterface) */
size_t size;
/**
* Initializes the interface and registers the callback routines with the HAL.
* After a successful call to 'init' the HAL must begin to provide updates at its own phase.
*
* Status:
* LOC_GPS_MEASUREMENT_OPERATION_SUCCESS
* LOC_GPS_MEASUREMENT_ERROR_ALREADY_INIT - if a callback has already been registered without a
* corresponding call to 'close'
* LOC_GPS_MEASUREMENT_ERROR_GENERIC - if any other error occurred, it is expected that the HAL
* will not generate any updates upon returning this error code.
*/
int (*init) (LocGpsMeasurementCallbacks* callbacks);
/**
* Stops updates from the HAL, and unregisters the callback routines.
* After a call to stop, the previously registered callbacks must be considered invalid by the
* HAL.
* If stop is invoked without a previous 'init', this function should perform no work.
*/
void (*close) ();
} LocGpsMeasurementInterface;
#if 0
/**
* Legacy struct to represents a GPS navigation message (or a fragment of it).
* Deprecated, to be removed in the next Android release.
* Use GnssNavigationMessage instead.
*/
typedef struct {
/** set to sizeof(GpsNavigationMessage) */
size_t size;
int8_t prn;
GpsNavigationMessageType type;
NavigationMessageStatus status;
int16_t message_id;
int16_t submessage_id;
size_t data_length;
uint8_t* data;
} GpsNavigationMessage;
/** Represents a GPS navigation message (or a fragment of it). */
typedef struct {
/** set to sizeof(GnssNavigationMessage) */
size_t size;
/**
* Satellite vehicle ID number, as defined in LocGnssSvInfo::svid
* This is a mandatory value.
*/
int16_t svid;
/**
* The type of message contained in the structure.
* This is a mandatory value.
*/
GnssNavigationMessageType type;
/**
* The status of the received navigation message.
* No need to send any navigation message that contains words with parity error and cannot be
* corrected.
*/
NavigationMessageStatus status;
/**
* Message identifier. It provides an index so the complete Navigation
* Message can be assembled.
*
* - For GPS L1 C/A subframe 4 and 5, this value corresponds to the 'frame
* id' of the navigation message, in the range of 1-25 (Subframe 1, 2, 3
* does not contain a 'frame id' and this value can be set to -1.)
*
* - For Glonass L1 C/A, this refers to the frame ID, in the range of 1-5.
*
* - For BeiDou D1, this refers to the frame number in the range of 1-24
*
* - For Beidou D2, this refers to the frame number, in the range of 1-120
*
* - For Galileo F/NAV nominal frame structure, this refers to the subframe
* number, in the range of 1-12
*
* - For Galileo I/NAV nominal frame structure, this refers to the subframe
* number in the range of 1-24
*/
int16_t message_id;
/**
* Sub-message identifier. If required by the message 'type', this value
* contains a sub-index within the current message (or frame) that is being
* transmitted.
*
* - For GPS L1 C/A, BeiDou D1 & BeiDou D2, the submessage id corresponds to
* the subframe number of the navigation message, in the range of 1-5.
*
* - For Glonass L1 C/A, this refers to the String number, in the range from
* 1-15
*
* - For Galileo F/NAV, this refers to the page type in the range 1-6
*
* - For Galileo I/NAV, this refers to the word type in the range 1-10+
*/
int16_t submessage_id;
/**
* The length of the data (in bytes) contained in the current message.
* If this value is different from zero, 'data' must point to an array of the same size.
* e.g. for L1 C/A the size of the sub-frame will be 40 bytes (10 words, 30 bits/word).
*
* This is a mandatory value.
*/
size_t data_length;
/**
* The data of the reported GPS message. The bytes (or words) specified
* using big endian format (MSB first).
*
* - For GPS L1 C/A, Beidou D1 & Beidou D2, each subframe contains 10 30-bit
* words. Each word (30 bits) should be fit into the last 30 bits in a
* 4-byte word (skip B31 and B32), with MSB first, for a total of 40
* bytes, covering a time period of 6, 6, and 0.6 seconds, respectively.
*
* - For Glonass L1 C/A, each string contains 85 data bits, including the
* checksum. These bits should be fit into 11 bytes, with MSB first (skip
* B86-B88), covering a time period of 2 seconds.
*
* - For Galileo F/NAV, each word consists of 238-bit (sync & tail symbols
* excluded). Each word should be fit into 30-bytes, with MSB first (skip
* B239, B240), covering a time period of 10 seconds.
*
* - For Galileo I/NAV, each page contains 2 page parts, even and odd, with
* a total of 2x114 = 228 bits, (sync & tail excluded) that should be fit
* into 29 bytes, with MSB first (skip B229-B232).
*/
uint8_t* data;
} GnssNavigationMessage;
/**
* The legacy callback to report an available fragment of a GPS navigation
* messages from the HAL.
*
* This callback is deprecated, and will be removed in the next release. Use
* gnss_navigation_message_callback() instead.
*
* Parameters:
* message - The GPS navigation submessage/subframe representation.
*/
typedef void (*gps_navigation_message_callback) (GpsNavigationMessage* message);
/**
* The callback to report an available fragment of a GPS navigation messages from the HAL.
*
* Parameters:
* message - The GPS navigation submessage/subframe representation.
*/
typedef void (*gnss_navigation_message_callback) (GnssNavigationMessage* message);
typedef struct {
/** set to sizeof(GpsNavigationMessageCallbacks) */
size_t size;
gps_navigation_message_callback navigation_message_callback;
gnss_navigation_message_callback gnss_navigation_message_callback;
} GpsNavigationMessageCallbacks;
#define GPS_NAVIGATION_MESSAGE_OPERATION_SUCCESS 0
#define GPS_NAVIGATION_MESSAGE_ERROR_ALREADY_INIT -100
#define GPS_NAVIGATION_MESSAGE_ERROR_GENERIC -101
/**
* Extended interface for GPS navigation message reporting support.
*/
typedef struct {
/** Set to sizeof(GpsNavigationMessageInterface) */
size_t size;
/**
* Initializes the interface and registers the callback routines with the HAL.
* After a successful call to 'init' the HAL must begin to provide updates as they become
* available.
*
* Status:
* GPS_NAVIGATION_MESSAGE_OPERATION_SUCCESS
* GPS_NAVIGATION_MESSAGE_ERROR_ALREADY_INIT - if a callback has already been registered
* without a corresponding call to 'close'.
* GPS_NAVIGATION_MESSAGE_ERROR_GENERIC - if any other error occurred, it is expected that
* the HAL will not generate any updates upon returning this error code.
*/
int (*init) (GpsNavigationMessageCallbacks* callbacks);
/**
* Stops updates from the HAL, and unregisters the callback routines.
* After a call to stop, the previously registered callbacks must be considered invalid by the
* HAL.
* If stop is invoked without a previous 'init', this function should perform no work.
*/
void (*close) ();
} GpsNavigationMessageInterface;
#endif
/**
* Interface for passing GNSS configuration contents from platform to HAL.
*/
typedef struct {
/** Set to sizeof(LocGnssConfigurationInterface) */
size_t size;
/**
* Deliver GNSS configuration contents to HAL.
* Parameters:
* config_data - a pointer to a char array which holds what usually is expected from
file(/vendor/etc/gps.conf), i.e., a sequence of UTF8 strings separated by '\n'.
* length - total number of UTF8 characters in configuraiton data.
*
* IMPORTANT:
* GPS HAL should expect this function can be called multiple times. And it may be
* called even when GpsLocationProvider is already constructed and enabled. GPS HAL
* should maintain the existing requests for various callback regardless the change
* in configuration data.
*/
void (*configuration_update) (const char* config_data, int32_t length);
} LocGnssConfigurationInterface;
__END_DECLS
#endif /* LOC_GPS_H */