/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "GnssHAL_GnssMeasurementInterface" #include "GnssMeasurement.h" namespace android { namespace hardware { namespace gnss { namespace V1_0 { namespace implementation { sp GnssMeasurement::sGnssMeasureCbIface = nullptr; GpsMeasurementCallbacks GnssMeasurement::sGnssMeasurementCbs = { .size = sizeof(GpsMeasurementCallbacks), .measurement_callback = gpsMeasurementCb, .gnss_measurement_callback = gnssMeasurementCb }; GnssMeasurement::GnssMeasurement(const GpsMeasurementInterface* gpsMeasurementIface) : mGnssMeasureIface(gpsMeasurementIface) {} void GnssMeasurement::gnssMeasurementCb(LegacyGnssData* legacyGnssData) { if (sGnssMeasureCbIface == nullptr) { ALOGE("%s: GNSSMeasurement Callback Interface configured incorrectly", __func__); return; } if (legacyGnssData == nullptr) { ALOGE("%s: Invalid GnssData from GNSS HAL", __func__); return; } IGnssMeasurementCallback::GnssData gnssData; gnssData.measurementCount = std::min(legacyGnssData->measurement_count, static_cast(GnssMax::SVS_COUNT)); for (size_t i = 0; i < gnssData.measurementCount; i++) { auto entry = legacyGnssData->measurements[i]; auto state = static_cast(entry.state); if (state & IGnssMeasurementCallback::GnssMeasurementState::STATE_TOW_DECODED) { state |= IGnssMeasurementCallback::GnssMeasurementState::STATE_TOW_KNOWN; } if (state & IGnssMeasurementCallback::GnssMeasurementState::STATE_GLO_TOD_DECODED) { state |= IGnssMeasurementCallback::GnssMeasurementState::STATE_GLO_TOD_KNOWN; } gnssData.measurements[i] = { .flags = entry.flags, .svid = entry.svid, .constellation = static_cast(entry.constellation), .timeOffsetNs = entry.time_offset_ns, .state = state, .receivedSvTimeInNs = entry.received_sv_time_in_ns, .receivedSvTimeUncertaintyInNs = entry.received_sv_time_uncertainty_in_ns, .cN0DbHz = entry.c_n0_dbhz, .pseudorangeRateMps = entry.pseudorange_rate_mps, .pseudorangeRateUncertaintyMps = entry.pseudorange_rate_uncertainty_mps, .accumulatedDeltaRangeState = entry.accumulated_delta_range_state, .accumulatedDeltaRangeM = entry.accumulated_delta_range_m, .accumulatedDeltaRangeUncertaintyM = entry.accumulated_delta_range_uncertainty_m, .carrierFrequencyHz = entry.carrier_frequency_hz, .carrierCycles = entry.carrier_cycles, .carrierPhase = entry.carrier_phase, .carrierPhaseUncertainty = entry.carrier_phase_uncertainty, .multipathIndicator = static_cast( entry.multipath_indicator), .snrDb = entry.snr_db }; } auto clockVal = legacyGnssData->clock; gnssData.clock = { .gnssClockFlags = clockVal.flags, .leapSecond = clockVal.leap_second, .timeNs = clockVal.time_ns, .timeUncertaintyNs = clockVal.time_uncertainty_ns, .fullBiasNs = clockVal.full_bias_ns, .biasNs = clockVal.bias_ns, .biasUncertaintyNs = clockVal.bias_uncertainty_ns, .driftNsps = clockVal.drift_nsps, .driftUncertaintyNsps = clockVal.drift_uncertainty_nsps, .hwClockDiscontinuityCount = clockVal.hw_clock_discontinuity_count }; auto ret = sGnssMeasureCbIface->GnssMeasurementCb(gnssData); if (!ret.isOk()) { ALOGE("%s: Unable to invoke callback", __func__); } } /* * The code in the following method has been moved here from GnssLocationProvider. * It converts GpsData to GnssData. This code is no longer required in * GnssLocationProvider since GpsData is deprecated and no longer part of the * GNSS interface. */ void GnssMeasurement::gpsMeasurementCb(GpsData* gpsData) { if (sGnssMeasureCbIface == nullptr) { ALOGE("%s: GNSSMeasurement Callback Interface configured incorrectly", __func__); return; } if (gpsData == nullptr) { ALOGE("%s: Invalid GpsData from GNSS HAL", __func__); return; } IGnssMeasurementCallback::GnssData gnssData; gnssData.measurementCount = std::min(gpsData->measurement_count, static_cast(GnssMax::SVS_COUNT)); for (size_t i = 0; i < gnssData.measurementCount; i++) { auto entry = gpsData->measurements[i]; gnssData.measurements[i].flags = entry.flags; gnssData.measurements[i].svid = static_cast(entry.prn); if (entry.prn >= 1 && entry.prn <= 32) { gnssData.measurements[i].constellation = GnssConstellationType::GPS; } else { gnssData.measurements[i].constellation = GnssConstellationType::UNKNOWN; } gnssData.measurements[i].timeOffsetNs = entry.time_offset_ns; gnssData.measurements[i].state = entry.state; gnssData.measurements[i].receivedSvTimeInNs = entry.received_gps_tow_ns; gnssData.measurements[i].receivedSvTimeUncertaintyInNs = entry.received_gps_tow_uncertainty_ns; gnssData.measurements[i].cN0DbHz = entry.c_n0_dbhz; gnssData.measurements[i].pseudorangeRateMps = entry.pseudorange_rate_mps; gnssData.measurements[i].pseudorangeRateUncertaintyMps = entry.pseudorange_rate_uncertainty_mps; gnssData.measurements[i].accumulatedDeltaRangeState = entry.accumulated_delta_range_state; gnssData.measurements[i].accumulatedDeltaRangeM = entry.accumulated_delta_range_m; gnssData.measurements[i].accumulatedDeltaRangeUncertaintyM = entry.accumulated_delta_range_uncertainty_m; if (entry.flags & GNSS_MEASUREMENT_HAS_CARRIER_FREQUENCY) { gnssData.measurements[i].carrierFrequencyHz = entry.carrier_frequency_hz; } else { gnssData.measurements[i].carrierFrequencyHz = 0; } if (entry.flags & GNSS_MEASUREMENT_HAS_CARRIER_PHASE) { gnssData.measurements[i].carrierPhase = entry.carrier_phase; } else { gnssData.measurements[i].carrierPhase = 0; } if (entry.flags & GNSS_MEASUREMENT_HAS_CARRIER_PHASE_UNCERTAINTY) { gnssData.measurements[i].carrierPhaseUncertainty = entry.carrier_phase_uncertainty; } else { gnssData.measurements[i].carrierPhaseUncertainty = 0; } gnssData.measurements[i].multipathIndicator = static_cast( entry.multipath_indicator); if (entry.flags & GNSS_MEASUREMENT_HAS_SNR) { gnssData.measurements[i].snrDb = entry.snr_db; } else { gnssData.measurements[i].snrDb = 0; } } auto clockVal = gpsData->clock; static uint32_t discontinuity_count_to_handle_old_clock_type = 0; gnssData.clock.leapSecond = clockVal.leap_second; /* * GnssClock only supports the more effective HW_CLOCK type, so type * handling and documentation complexity has been removed. To convert the * old GPS_CLOCK types (active only in a limited number of older devices), * the GPS time information is handled as an always discontinuous HW clock, * with the GPS time information put into the full_bias_ns instead - so that * time_ns - full_bias_ns = local estimate of GPS time. Additionally, the * sign of full_bias_ns and bias_ns has flipped between GpsClock & * GnssClock, so that is also handled below. */ switch (clockVal.type) { case GPS_CLOCK_TYPE_UNKNOWN: // Clock type unsupported. ALOGE("Unknown clock type provided."); break; case GPS_CLOCK_TYPE_LOCAL_HW_TIME: // Already local hardware time. No need to do anything. break; case GPS_CLOCK_TYPE_GPS_TIME: // GPS time, need to convert. clockVal.flags |= GPS_CLOCK_HAS_FULL_BIAS; clockVal.full_bias_ns = clockVal.time_ns; clockVal.time_ns = 0; gnssData.clock.hwClockDiscontinuityCount = discontinuity_count_to_handle_old_clock_type++; break; } gnssData.clock.timeNs = clockVal.time_ns; gnssData.clock.timeUncertaintyNs = clockVal.time_uncertainty_ns; /* * Definition of sign for full_bias_ns & bias_ns has been changed since N, * so flip signs here. */ gnssData.clock.fullBiasNs = -(clockVal.full_bias_ns); gnssData.clock.biasNs = -(clockVal.bias_ns); gnssData.clock.biasUncertaintyNs = clockVal.bias_uncertainty_ns; gnssData.clock.driftNsps = clockVal.drift_nsps; gnssData.clock.driftUncertaintyNsps = clockVal.drift_uncertainty_nsps; gnssData.clock.gnssClockFlags = clockVal.flags; auto ret = sGnssMeasureCbIface->GnssMeasurementCb(gnssData); if (!ret.isOk()) { ALOGE("%s: Unable to invoke callback", __func__); } } // Methods from ::android::hardware::gnss::V1_0::IGnssMeasurement follow. Return GnssMeasurement::setCallback( const sp& callback) { if (mGnssMeasureIface == nullptr) { ALOGE("%s: GnssMeasure interface is unavailable", __func__); return GnssMeasurementStatus::ERROR_GENERIC; } sGnssMeasureCbIface = callback; return static_cast( mGnssMeasureIface->init(&sGnssMeasurementCbs)); } Return GnssMeasurement::close() { if (mGnssMeasureIface == nullptr) { ALOGE("%s: GnssMeasure interface is unavailable", __func__); } else { mGnssMeasureIface->close(); } return Void(); } } // namespace implementation } // namespace V1_0 } // namespace gnss } // namespace hardware } // namespace android