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LeafOS / LeafOS-Project / android_hardware_interfaces / 7932707660883a1bad413caac1f42370182c8618 / . / gnss / 2.0 / IGnssMeasurementCallback.hal
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/*
* Copyright (C) 2018 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.
*/
package android.hardware.gnss@2.0;
import @1.0::IGnssMeasurementCallback;
import @1.1::IGnssMeasurementCallback;
import ElapsedRealtime;
import GnssConstellationType;
/** The callback interface to report measurements from the HAL. */
interface IGnssMeasurementCallback extends @1.1::IGnssMeasurementCallback {
/**
* Flags indicating the GNSS measurement state.
*
* <p>The expected behavior here is for GNSS HAL to set all the flags that apply. 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 must be set as:
*
* STATE_CODE_LOCK | STATE_BIT_SYNC | STATE_MSEC_AMBIGUOUS
*
* <p>If GNSS is still searching for a satellite, the corresponding state must be set to
* STATE_UNKNOWN(0).
*
* <p>In @2.0::IGnssMeasurementCallback.GnssMeasurement, v1_1.v1_0.receivedSvTimeInNs, the
* received satellite time, is relative to the beginning of the system week for all
* constellations except for Glonass where it is relative to the beginning of the Glonass system
* day.
*
* <p>The table below indicates the valid range of the received GNSS satellite time. These
* ranges depend on the constellation and code being tracked and the state of the tracking
* algorithms given by the getState method. If the state flag is set, then the valid measurement
* range is zero to the value in the table. The state flag with the widest range indicates the
* range of the received GNSS satellite time value.
*
* <table>
* <thead>
* <tr>
* <td />
* <td colspan="3"><strong>GPS/QZSS</strong></td>
* <td><strong>GLNS</strong></td>
* <td colspan="2"><strong>BDS</strong></td>
* <td colspan="3"><strong>GAL</strong></td>
* <td><strong>SBAS</strong></td>
* </tr>
* <tr>
* <td><strong>State Flag</strong></td>
* <td><strong>L1 C/A</strong></td>
* <td><strong>L5I</strong></td>
* <td><strong>L5Q</strong></td>
* <td><strong>L1OF</strong></td>
* <td><strong>B1I (D1)</strong></td>
* <td><strong>B1I &nbsp;(D2)</strong></td>
* <td><strong>E1B</strong></td>
* <td><strong>E1C</strong></td>
* <td><strong>E5AQ</strong></td>
* <td><strong>L1 C/A</strong></td>
* </tr>
* </thead>
* <tbody>
* <tr>
* <td>
* <strong>STATE_UNKNOWN</strong>
* </td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* <td>0</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_CODE_LOCK</strong>
* </td>
* <td>1 ms</td>
* <td>1 ms</td>
* <td>1 ms</td>
* <td>1 ms</td>
* <td>1 ms</td>
* <td>1 ms</td>
* <td>-</td>
* <td>-</td>
* <td>1 ms</td>
* <td>1 ms</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_SYMBOL_SYNC</strong>
* </td>
* <td>20 ms (optional)</td>
* <td>10 ms</td>
* <td>1 ms (optional)</td>
* <td>10 ms</td>
* <td>20 ms (optional)</td>
* <td>2 ms</td>
* <td>4 ms (optional)</td>
* <td>4 ms (optional)</td>
* <td>1 ms (optional)</td>
* <td>2 ms</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_BIT_SYNC</strong>
* </td>
* <td>20 ms</td>
* <td>20 ms</td>
* <td>1 ms (optional)</td>
* <td>20 ms</td>
* <td>20 ms</td>
* <td>-</td>
* <td>8 ms</td>
* <td>-</td>
* <td>1 ms (optional)</td>
* <td>4 ms</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_SUBFRAME_SYNC</strong>
* </td>
* <td>6s</td>
* <td>6s</td>
* <td>-</td>
* <td>2 s</td>
* <td>6 s</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>100 ms</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_TOW_DECODED</strong>
* </td>
* <td colspan="2">1 week</td>
* <td>-</td>
* <td>1 day</td>
* <td colspan="2">1 week</td>
* <td colspan="2">1 week</td>
* <td>-</td>
* <td>1 week</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_TOW_KNOWN</strong>
* </td>
* <td colspan="3">1 week</td>
* <td>1 day</td>
* <td colspan="2">1 week</td>
* <td colspan="3">1 week</td>
* <td>1 week</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_GLO_STRING_SYNC</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>2 s</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_GLO_TOD_DECODED</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>1 day</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_GLO_TOD_KNOWN</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>1 day</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_BDS_D2_BIT_SYNC</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>2 ms</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_BDS_D2_SUBFRAME_SYNC</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>600 ms</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_GAL_E1BC_CODE_LOCK</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>4 ms</td>
* <td>4 ms</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_GAL_E1C_2ND_CODE_LOCK</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>100 ms</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_2ND_CODE_LOCK</strong>
* </td>
* <td>-</td>
* <td>10 ms (optional)</td>
* <td>20 ms</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>100 ms (optional)</td>
* <td>100 ms</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_GAL_E1B_PAGE_SYNC</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>2 s</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* </tr>
* <tr>
* <td>
* <strong>STATE_SBAS_SYNC</strong>
* </td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>-</td>
* <td>1 s</td>
* </tr>
* </tbody>
* </table>
*
* <p>Note: TOW Known refers to the case where TOW is possibly not decoded over the air but has
* been determined from other sources. If TOW decoded is set then TOW Known must also be set.
*
* <p>Note well: if there is any ambiguity in integer millisecond, STATE_MSEC_AMBIGUOUS must be
* set accordingly, in the 'state' field. This value must be populated if 'state' !=
* STATE_UNKNOWN.
*
* <p>Note on optional flags:
* <ul>
* <li> For L1 C/A and B1I, STATE_SYMBOL_SYNC is optional since the symbol length is the
* same as the bit length.
* <li> For L5Q and E5aQ, STATE_BIT_SYNC and STATE_SYMBOL_SYNC are optional since they are
* implied by STATE_CODE_LOCK.
* <li> STATE_2ND_CODE_LOCK for L5I is optional since it is implied by STATE_SYMBOL_SYNC.
* <li> STATE_2ND_CODE_LOCK for E1C is optional since it is implied by
* STATE_GAL_E1C_2ND_CODE_LOCK.
* <li> For E1B and E1C, STATE_SYMBOL_SYNC is optional, because it is implied by
* STATE_GAL_E1BC_CODE_LOCK.
* </ul>
*
*/
@export(name="", value_prefix="GNSS_MEASUREMENT_")
enum GnssMeasurementState : uint32_t {
STATE_UNKNOWN = 0,
STATE_CODE_LOCK = 1 << 0,
STATE_BIT_SYNC = 1 << 1,
STATE_SUBFRAME_SYNC = 1 << 2,
STATE_TOW_DECODED = 1 << 3,
STATE_MSEC_AMBIGUOUS = 1 << 4,
STATE_SYMBOL_SYNC = 1 << 5,
STATE_GLO_STRING_SYNC = 1 << 6,
STATE_GLO_TOD_DECODED = 1 << 7,
STATE_BDS_D2_BIT_SYNC = 1 << 8,
STATE_BDS_D2_SUBFRAME_SYNC = 1 << 9,
STATE_GAL_E1BC_CODE_LOCK = 1 << 10,
STATE_GAL_E1C_2ND_CODE_LOCK = 1 << 11,
STATE_GAL_E1B_PAGE_SYNC = 1 << 12,
STATE_SBAS_SYNC = 1 << 13,
STATE_TOW_KNOWN = 1 << 14,
STATE_GLO_TOD_KNOWN = 1 << 15,
STATE_2ND_CODE_LOCK = 1 << 16,
};
/**
* Extends a GNSS Measurement, adding a GnssMeasurementCodeType, a GnssMeasurementState, and
* replacing the GnssConstellationType.
*/
struct GnssMeasurement {
/**
* GNSS measurement information for a single satellite and frequency, as in the 1.1
* version of the HAL with further clarification of the value reported in the
* accumulatedDeltaRangeM field, i.e., the alignment of the phase measurement will not be
* adjusted by the receiver so the in-phase and quadrature phase components will have a
* quarter cycle offset as they do when transmitted from the satellites. If the measurement
* is from a combination of the in-phase and quadrature phase components, then the alignment
* of the phase measurement will be aligned to the in-phase component.
*
* In this version of the HAL, the field 'state' in the v1_1.v1_0 struct is deprecated, and
* is no longer used by the framework. The satellite sync state is instead reported in
* @2.0::IGnssMeasurementCallback.GnssMeasurement.state.
*
* In this version of the HAL, the field 'constellation' in the v1_1.v1_0 struct is
* deprecated, and is no longer used by the framework. The constellation type is instead
* reported in @2.0::IGnssMeasurementCallback.GnssMeasurement.constellation.
*/
@1.1::IGnssMeasurementCallback.GnssMeasurement v1_1;
/**
* The type of code that is currently being tracked in the GNSS measurement.
*
* For high precision applications the type of code being tracked needs to be considered
* in-order to properly apply code specific corrections to the pseudorange measurements.
*
* Value "A" represents GALILEO E1A, GALILEO E6A, IRNSS L5A, IRNSS SA.
*
* Value "B" represents GALILEO E1B, GALILEO E6B, IRNSS L5B, IRNSS SB.
*
* Value "C" represents GPS L1 C/A, GPS L2 C/A, GLONASS G1 C/A, GLONASS G2 C/A, GALILEO E1C,
* GALILEO E6C, SBAS L1 C/A, QZSS L1 C/A, IRNSS L5C.
*
* value "D" represents BDS B1C D.
*
* Value "I" represents GPS L5 I, GLONASS G3 I, GALILEO E5a I, GALILEO E5b I, GALILEO E5a+b I,
* SBAS L5 I, QZSS L5 I, BDS B1 I, BDS B2 I, BDS B3 I.
*
* Value "L" represents GPS L1C (P), GPS L2C (L), QZSS L1C (P), QZSS L2C (L), LEX(6) L.
*
* Value "M" represents GPS L1M, GPS L2M.
*
* Value "N" represents GPS L1 codeless, GPS L2 codeless.
*
* Value "P" represents GPS L1P, GPS L2P, GLONASS G1P, GLONASS G2P, BDS B1C P.
*
* Value "Q" represents GPS L5 Q, GLONASS G3 Q, GALILEO E5a Q, GALILEO E5b Q, GALILEO E5a+b Q,
* SBAS L5 Q, QZSS L5 Q, BDS B1 Q, BDS B2 Q, BDS B3 Q.
*
* Value "S" represents GPS L1C (D), GPS L2C (M), QZSS L1C (D), QZSS L2C (M), LEX(6) S.
*
* Value "W" represents GPS L1 Z-tracking, GPS L2 Z-tracking.
*
* Value "X" represents GPS L1C (D+P), GPS L2C (M+L), GPS L5 (I+Q), GLONASS G3 (I+Q),
* GALILEO E1 (B+C), GALILEO E5a (I+Q), GALILEO E5b (I+Q), GALILEO E5a+b(I+Q),
* GALILEO E6 (B+C), SBAS L5 (I+Q), QZSS L1C (D+P), QZSS L2C (M+L), QZSS L5 (I+Q),
* LEX(6) (S+L), BDS B1 (I+Q), BDS B1C (D+P), BDS B2 (I+Q), BDS B3 (I+Q), IRNSS L5 (B+C).
*
* Value "Y" represents GPS L1Y, GPS L2Y.
*
* Value "Z" represents GALILEO E1 (A+B+C), GALILEO E6 (A+B+C), QZSS L1-SAIF.
*
* Value "UNKNOWN" represents the GNSS Measurement's code type is unknown.
*
* This is used to specify the observation descriptor defined in GNSS Observation Data File
* Header Section Description in the RINEX standard (Version 3.XX). In RINEX Version 3.03,
* in Appendix Table A2 Attributes are listed as uppercase letters (for instance, "A" for
* "A channel"). In the future, if for instance a code "G" was added in the official RINEX
* standard, "G" could be specified here.
*/
string codeType;
/**
* Per satellite sync state. It represents the current sync state for the associated
* satellite.
*
* Based on the sync state, the receivedSvTimeInNs field must be interpreted accordingly.
*
* This value is mandatory.
*/
bitfield<GnssMeasurementState> state;
/**
* The constellation type of the GNSS measurement.
*/
GnssConstellationType constellation;
};
/**
* Complete set of GNSS Measurement data, same as 1.1 with additional enum in measurements.
*/
struct GnssData {
/** The full set of satellite measurement observations. */
vec<GnssMeasurement> measurements;
/** The GNSS clock time reading. */
GnssClock clock;
/**
* Timing information of the GNSS data synchronized with SystemClock.elapsedRealtimeNanos()
* clock.
*/
ElapsedRealtime elapsedRealtime;
};
/**
* Callback for the hal to pass a GnssData structure back to the client.
*
* @param data Contains a reading of GNSS measurements.
*/
gnssMeasurementCb_2_0(GnssData data);
};