/* * Copyright (C) 2022 Huawei Device Co., Ltd. * 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. */ #include "satellite_status.h" #include #include "common_utils.h" namespace OHOS { namespace Location { SatelliteStatus::SatelliteStatus() { satellitesNumber_ = 0; } SatelliteStatus::SatelliteStatus(SatelliteStatus& satelliteStatus) { satellitesNumber_ = satelliteStatus.GetSatellitesNumber(); satelliteIds_ = satelliteStatus.GetSatelliteIds(); carrierToNoiseDensitys_ = satelliteStatus.GetCarrierToNoiseDensitys(); altitudes_ = satelliteStatus.GetAltitudes(); azimuths_ = satelliteStatus.GetAzimuths(); carrierFrequencies_ = satelliteStatus.GetCarrierFrequencies(); constellationTypes_ = satelliteStatus.GetConstellationTypes(); additionalInfoList_ = satelliteStatus.GetSatelliteAdditionalInfoList(); } void SatelliteStatus::ReadFromParcel(Parcel& parcel) { std::unique_lock lock(mutex_); satellitesNumber_ = parcel.ReadInt64(); satellitesNumber_ = satellitesNumber_ > MAXIMUM_INTERATION ? MAXIMUM_INTERATION : satellitesNumber_; for (int i = 0; i < satellitesNumber_; i++) { satelliteIds_.push_back(parcel.ReadInt64()); carrierToNoiseDensitys_.push_back(parcel.ReadDouble()); altitudes_.push_back(parcel.ReadDouble()); azimuths_.push_back(parcel.ReadDouble()); carrierFrequencies_.push_back(parcel.ReadDouble()); constellationTypes_.push_back(parcel.ReadInt64()); additionalInfoList_.push_back(parcel.ReadInt64()); } } bool SatelliteStatus::Marshalling(Parcel& parcel) const { bool isValid = IsValidityDatas(); if (!isValid) { return false; } CHK_PARCEL_RETURN_VALUE(parcel.WriteInt64(satellitesNumber_)); for (int i = 0; i < satellitesNumber_; i++) { CHK_PARCEL_RETURN_VALUE(parcel.WriteInt64(satelliteIds_[i])); CHK_PARCEL_RETURN_VALUE(parcel.WriteDouble(carrierToNoiseDensitys_[i])); CHK_PARCEL_RETURN_VALUE(parcel.WriteDouble(altitudes_[i])); CHK_PARCEL_RETURN_VALUE(parcel.WriteDouble(azimuths_[i])); CHK_PARCEL_RETURN_VALUE(parcel.WriteDouble(carrierFrequencies_[i])); CHK_PARCEL_RETURN_VALUE(parcel.WriteInt64(constellationTypes_[i])); CHK_PARCEL_RETURN_VALUE(parcel.WriteInt64(additionalInfoList_[i])); } return true; } bool SatelliteStatus::IsValidityDatas() const { if (satellitesNumber_ != satelliteIds_.size()) { LBSLOGE(GNSS, "%{public}s: satelliteIds data length is incorrect.", __func__); return false; } if (satellitesNumber_ != carrierToNoiseDensitys_.size()) { LBSLOGE(GNSS, "%{public}s: carrierToNoiseDensitys data length is incorrect.", __func__); return false; } if (satellitesNumber_ != altitudes_.size()) { LBSLOGE(GNSS, "%{public}s: altitudes data length is incorrect.", __func__); return false; } if (satellitesNumber_ != azimuths_.size()) { LBSLOGE(GNSS, "%{public}s: azimuths data length is incorrect.", __func__); return false; } if (satellitesNumber_ != carrierFrequencies_.size()) { LBSLOGE(GNSS, "%{public}s: carrierFrequencies data length is incorrect.", __func__); return false; } if (satellitesNumber_ != constellationTypes_.size()) { LBSLOGE(GNSS, "%{public}s: constellationTypes data length is incorrect.", __func__); return false; } if (satellitesNumber_ != additionalInfoList_.size()) { LBSLOGE(GNSS, "%{public}s: additionalInfoList data length is incorrect.", __func__); return false; } return true; } std::unique_ptr SatelliteStatus::Unmarshalling(Parcel& parcel) { std::unique_ptr status = std::make_unique(); status->ReadFromParcel(parcel); return status; } } // namespace Location } // namespace OHOS