/* * Copyright (C) 2012 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.telephony; import android.os.Parcel; import android.os.Parcelable; import android.telephony.Rlog; /** * LTE signal strength related information. */ public final class CellSignalStrengthCdma extends CellSignalStrength implements Parcelable { private static final String LOG_TAG = "CellSignalStrengthCdma"; private static final boolean DBG = false; private int mCdmaDbm; // This value is the RSSI value private int mCdmaEcio; // This value is the Ec/Io private int mEvdoDbm; // This value is the EVDO RSSI value private int mEvdoEcio; // This value is the EVDO Ec/Io private int mEvdoSnr; // Valid values are 0-8. 8 is the highest signal to noise ratio /** * Empty constructor * * @hide */ public CellSignalStrengthCdma() { setDefaultValues(); } /** * Constructor * * @hide */ public CellSignalStrengthCdma(int cdmaDbm, int cdmaEcio, int evdoDbm, int evdoEcio, int evdoSnr) { initialize(cdmaDbm, cdmaEcio, evdoDbm, evdoEcio, evdoSnr); } /** * Copy constructors * * @param s Source SignalStrength * * @hide */ public CellSignalStrengthCdma(CellSignalStrengthCdma s) { copyFrom(s); } /** * Initialize all the values * * @param cdmaDbm * @param cdmaEcio * @param evdoDbm * @param evdoEcio * @param evdoSnr * * @hide */ public void initialize(int cdmaDbm, int cdmaEcio, int evdoDbm, int evdoEcio, int evdoSnr) { mCdmaDbm = cdmaDbm; mCdmaEcio = cdmaEcio; mEvdoDbm = evdoDbm; mEvdoEcio = evdoEcio; mEvdoSnr = evdoSnr; } /** * @hide */ protected void copyFrom(CellSignalStrengthCdma s) { mCdmaDbm = s.mCdmaDbm; mCdmaEcio = s.mCdmaEcio; mEvdoDbm = s.mEvdoDbm; mEvdoEcio = s.mEvdoEcio; mEvdoSnr = s.mEvdoSnr; } /** * @hide */ @Override public CellSignalStrengthCdma copy() { return new CellSignalStrengthCdma(this); } /** @hide */ @Override public void setDefaultValues() { mCdmaDbm = Integer.MAX_VALUE; mCdmaEcio = Integer.MAX_VALUE; mEvdoDbm = Integer.MAX_VALUE; mEvdoEcio = Integer.MAX_VALUE; mEvdoSnr = Integer.MAX_VALUE; } /** * Get signal level as an int from 0..4 */ @Override public int getLevel() { int level; int cdmaLevel = getCdmaLevel(); int evdoLevel = getEvdoLevel(); if (evdoLevel == SIGNAL_STRENGTH_NONE_OR_UNKNOWN) { /* We don't know evdo, use cdma */ level = getCdmaLevel(); } else if (cdmaLevel == SIGNAL_STRENGTH_NONE_OR_UNKNOWN) { /* We don't know cdma, use evdo */ level = getEvdoLevel(); } else { /* We know both, use the lowest level */ level = cdmaLevel < evdoLevel ? cdmaLevel : evdoLevel; } if (DBG) log("getLevel=" + level); return level; } /** * Get the LTE signal level as an asu value between 0..97, 99 is unknown * Asu is calculated based on 3GPP RSRP. Refer to 3GPP 27.007 (Ver 10.3.0) Sec 8.69 */ @Override public int getAsuLevel() { final int cdmaDbm = getCdmaDbm(); final int cdmaEcio = getCdmaEcio(); int cdmaAsuLevel; int ecioAsuLevel; if (cdmaDbm >= -75) cdmaAsuLevel = 16; else if (cdmaDbm >= -82) cdmaAsuLevel = 8; else if (cdmaDbm >= -90) cdmaAsuLevel = 4; else if (cdmaDbm >= -95) cdmaAsuLevel = 2; else if (cdmaDbm >= -100) cdmaAsuLevel = 1; else cdmaAsuLevel = 99; // Ec/Io are in dB*10 if (cdmaEcio >= -90) ecioAsuLevel = 16; else if (cdmaEcio >= -100) ecioAsuLevel = 8; else if (cdmaEcio >= -115) ecioAsuLevel = 4; else if (cdmaEcio >= -130) ecioAsuLevel = 2; else if (cdmaEcio >= -150) ecioAsuLevel = 1; else ecioAsuLevel = 99; int level = (cdmaAsuLevel < ecioAsuLevel) ? cdmaAsuLevel : ecioAsuLevel; if (DBG) log("getAsuLevel=" + level); return level; } /** * Get cdma as level 0..4 */ public int getCdmaLevel() { final int cdmaDbm = getCdmaDbm(); final int cdmaEcio = getCdmaEcio(); int levelDbm; int levelEcio; if (cdmaDbm >= -75) levelDbm = SIGNAL_STRENGTH_GREAT; else if (cdmaDbm >= -85) levelDbm = SIGNAL_STRENGTH_GOOD; else if (cdmaDbm >= -95) levelDbm = SIGNAL_STRENGTH_MODERATE; else if (cdmaDbm >= -100) levelDbm = SIGNAL_STRENGTH_POOR; else levelDbm = SIGNAL_STRENGTH_NONE_OR_UNKNOWN; // Ec/Io are in dB*10 if (cdmaEcio >= -90) levelEcio = SIGNAL_STRENGTH_GREAT; else if (cdmaEcio >= -110) levelEcio = SIGNAL_STRENGTH_GOOD; else if (cdmaEcio >= -130) levelEcio = SIGNAL_STRENGTH_MODERATE; else if (cdmaEcio >= -150) levelEcio = SIGNAL_STRENGTH_POOR; else levelEcio = SIGNAL_STRENGTH_NONE_OR_UNKNOWN; int level = (levelDbm < levelEcio) ? levelDbm : levelEcio; if (DBG) log("getCdmaLevel=" + level); return level; } /** * Get Evdo as level 0..4 */ public int getEvdoLevel() { int evdoDbm = getEvdoDbm(); int evdoSnr = getEvdoSnr(); int levelEvdoDbm; int levelEvdoSnr; if (evdoDbm >= -65) levelEvdoDbm = SIGNAL_STRENGTH_GREAT; else if (evdoDbm >= -75) levelEvdoDbm = SIGNAL_STRENGTH_GOOD; else if (evdoDbm >= -90) levelEvdoDbm = SIGNAL_STRENGTH_MODERATE; else if (evdoDbm >= -105) levelEvdoDbm = SIGNAL_STRENGTH_POOR; else levelEvdoDbm = SIGNAL_STRENGTH_NONE_OR_UNKNOWN; if (evdoSnr >= 7) levelEvdoSnr = SIGNAL_STRENGTH_GREAT; else if (evdoSnr >= 5) levelEvdoSnr = SIGNAL_STRENGTH_GOOD; else if (evdoSnr >= 3) levelEvdoSnr = SIGNAL_STRENGTH_MODERATE; else if (evdoSnr >= 1) levelEvdoSnr = SIGNAL_STRENGTH_POOR; else levelEvdoSnr = SIGNAL_STRENGTH_NONE_OR_UNKNOWN; int level = (levelEvdoDbm < levelEvdoSnr) ? levelEvdoDbm : levelEvdoSnr; if (DBG) log("getEvdoLevel=" + level); return level; } /** * Get the signal strength as dBm */ @Override public int getDbm() { int cdmaDbm = getCdmaDbm(); int evdoDbm = getEvdoDbm(); // Use the lower value to be conservative return (cdmaDbm < evdoDbm) ? cdmaDbm : evdoDbm; } /** * Get the CDMA RSSI value in dBm */ public int getCdmaDbm() { return mCdmaDbm; } /** @hide */ public void setCdmaDbm(int cdmaDbm) { mCdmaDbm = cdmaDbm; } /** * Get the CDMA Ec/Io value in dB*10 */ public int getCdmaEcio() { return mCdmaEcio; } /** @hide */ public void setCdmaEcio(int cdmaEcio) { mCdmaEcio = cdmaEcio; } /** * Get the EVDO RSSI value in dBm */ public int getEvdoDbm() { return mEvdoDbm; } /** @hide */ public void setEvdoDbm(int evdoDbm) { mEvdoDbm = evdoDbm; } /** * Get the EVDO Ec/Io value in dB*10 */ public int getEvdoEcio() { return mEvdoEcio; } /** @hide */ public void setEvdoEcio(int evdoEcio) { mEvdoEcio = evdoEcio; } /** * Get the signal to noise ratio. Valid values are 0-8. 8 is the highest. */ public int getEvdoSnr() { return mEvdoSnr; } /** @hide */ public void setEvdoSnr(int evdoSnr) { mEvdoSnr = evdoSnr; } @Override public int hashCode() { int primeNum = 31; return ((mCdmaDbm * primeNum) + (mCdmaEcio * primeNum) + (mEvdoDbm * primeNum) + (mEvdoEcio * primeNum) + (mEvdoSnr * primeNum)); } @Override public boolean equals (Object o) { CellSignalStrengthCdma s; try { s = (CellSignalStrengthCdma) o; } catch (ClassCastException ex) { return false; } if (o == null) { return false; } return mCdmaDbm == s.mCdmaDbm && mCdmaEcio == s.mCdmaEcio && mEvdoDbm == s.mEvdoDbm && mEvdoEcio == s.mEvdoEcio && mEvdoSnr == s.mEvdoSnr; } /** * @return string representation. */ @Override public String toString() { return "CellSignalStrengthCdma:" + " cdmaDbm=" + mCdmaDbm + " cdmaEcio=" + mCdmaEcio + " evdoDbm=" + mEvdoDbm + " evdoEcio=" + mEvdoEcio + " evdoSnr=" + mEvdoSnr; } /** Implement the Parcelable interface */ @Override public void writeToParcel(Parcel dest, int flags) { if (DBG) log("writeToParcel(Parcel, int): " + toString()); dest.writeInt(mCdmaDbm); dest.writeInt(mCdmaEcio); dest.writeInt(mEvdoDbm); dest.writeInt(mEvdoEcio); dest.writeInt(mEvdoSnr); } /** * Construct a SignalStrength object from the given parcel * where the TYPE_LTE token is already been processed. */ private CellSignalStrengthCdma(Parcel in) { mCdmaDbm = in.readInt(); mCdmaEcio = in.readInt(); mEvdoDbm = in.readInt(); mEvdoEcio = in.readInt(); mEvdoSnr = in.readInt(); if (DBG) log("CellSignalStrengthCdma(Parcel): " + toString()); } /** Implement the Parcelable interface */ @Override public int describeContents() { return 0; } /** Implement the Parcelable interface */ @SuppressWarnings("hiding") public static final Parcelable.Creator CREATOR = new Parcelable.Creator() { @Override public CellSignalStrengthCdma createFromParcel(Parcel in) { return new CellSignalStrengthCdma(in); } @Override public CellSignalStrengthCdma[] newArray(int size) { return new CellSignalStrengthCdma[size]; } }; /** * log */ private static void log(String s) { Rlog.w(LOG_TAG, s); } }