/* * Copyright (C) 2006 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.Bundle; import android.os.Parcel; import android.os.Parcelable; import android.telephony.Rlog; /** * Contains phone state and service related information. * * The following phone information is included in returned ServiceState: * * */ public class ServiceState implements Parcelable { static final String LOG_TAG = "PHONE"; static final boolean DBG = false; static final boolean VDBG = false; // STOPSHIP if true /** * Normal operation condition, the phone is registered * with an operator either in home network or in roaming. */ public static final int STATE_IN_SERVICE = 0; /** * Phone is not registered with any operator, the phone * can be currently searching a new operator to register to, or not * searching to registration at all, or registration is denied, or radio * signal is not available. */ public static final int STATE_OUT_OF_SERVICE = 1; /** * The phone is registered and locked. Only emergency numbers are allowed. {@more} */ public static final int STATE_EMERGENCY_ONLY = 2; /** * Radio of telephony is explicitly powered off. */ public static final int STATE_POWER_OFF = 3; /** * RIL level registration state values from ril.h * ((const char **)response)[0] is registration state 0-6, * 0 - Not registered, MT is not currently searching * a new operator to register * 1 - Registered, home network * 2 - Not registered, but MT is currently searching * a new operator to register * 3 - Registration denied * 4 - Unknown * 5 - Registered, roaming * 10 - Same as 0, but indicates that emergency calls * are enabled. * 12 - Same as 2, but indicates that emergency calls * are enabled. * 13 - Same as 3, but indicates that emergency calls * are enabled. * 14 - Same as 4, but indicates that emergency calls * are enabled. * @hide */ public static final int RIL_REG_STATE_NOT_REG = 0; /** @hide */ public static final int RIL_REG_STATE_HOME = 1; /** @hide */ public static final int RIL_REG_STATE_SEARCHING = 2; /** @hide */ public static final int RIL_REG_STATE_DENIED = 3; /** @hide */ public static final int RIL_REG_STATE_UNKNOWN = 4; /** @hide */ public static final int RIL_REG_STATE_ROAMING = 5; /** @hide */ public static final int RIL_REG_STATE_NOT_REG_EMERGENCY_CALL_ENABLED = 10; /** @hide */ public static final int RIL_REG_STATE_SEARCHING_EMERGENCY_CALL_ENABLED = 12; /** @hide */ public static final int RIL_REG_STATE_DENIED_EMERGENCY_CALL_ENABLED = 13; /** @hide */ public static final int RIL_REG_STATE_UNKNOWN_EMERGENCY_CALL_ENABLED = 14; /** * Available radio technologies for GSM, UMTS and CDMA. * Duplicates the constants from hardware/radio/include/ril.h * This should only be used by agents working with the ril. Others * should use the equivalent TelephonyManager.NETWORK_TYPE_* */ /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_UNKNOWN = 0; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_GPRS = 1; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_EDGE = 2; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_UMTS = 3; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_IS95A = 4; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_IS95B = 5; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_1xRTT = 6; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_EVDO_0 = 7; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_EVDO_A = 8; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_HSDPA = 9; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_HSUPA = 10; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_HSPA = 11; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_EVDO_B = 12; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_EHRPD = 13; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_LTE = 14; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_HSPAP = 15; /** * GSM radio technology only supports voice. It does not support data. * @hide */ public static final int RIL_RADIO_TECHNOLOGY_GSM = 16; /** @hide */ public static final int RIL_RADIO_TECHNOLOGY_TD_SCDMA = 17; /** * IWLAN * @hide */ public static final int RIL_RADIO_TECHNOLOGY_IWLAN = 18; /** * LTE_CA * @hide */ public static final int RIL_RADIO_TECHNOLOGY_LTE_CA = 19; /** @hide */ public static final int RIL_RADIO_CDMA_TECHNOLOGY_BITMASK = (1 << (RIL_RADIO_TECHNOLOGY_IS95A - 1)) | (1 << (RIL_RADIO_TECHNOLOGY_IS95B - 1)) | (1 << (RIL_RADIO_TECHNOLOGY_1xRTT - 1)) | (1 << (RIL_RADIO_TECHNOLOGY_EVDO_0 - 1)) | (1 << (RIL_RADIO_TECHNOLOGY_EVDO_A - 1)) | (1 << (RIL_RADIO_TECHNOLOGY_EVDO_B - 1)) | (1 << (RIL_RADIO_TECHNOLOGY_EHRPD - 1)); /** * Available registration states for GSM, UMTS and CDMA. */ /** @hide */ public static final int REGISTRATION_STATE_NOT_REGISTERED_AND_NOT_SEARCHING = 0; /** @hide */ public static final int REGISTRATION_STATE_HOME_NETWORK = 1; /** @hide */ public static final int REGISTRATION_STATE_NOT_REGISTERED_AND_SEARCHING = 2; /** @hide */ public static final int REGISTRATION_STATE_REGISTRATION_DENIED = 3; /** @hide */ public static final int REGISTRATION_STATE_UNKNOWN = 4; /** @hide */ public static final int REGISTRATION_STATE_ROAMING = 5; private int mVoiceRegState = STATE_OUT_OF_SERVICE; private int mDataRegState = STATE_OUT_OF_SERVICE; /** * Roaming type * HOME : in home network * @hide */ public static final int ROAMING_TYPE_NOT_ROAMING = 0; /** * Roaming type * UNKNOWN : in a roaming network, but we can not tell if it's domestic or international * @hide */ public static final int ROAMING_TYPE_UNKNOWN = 1; /** * Roaming type * DOMESTIC : in domestic roaming network * @hide */ public static final int ROAMING_TYPE_DOMESTIC = 2; /** * Roaming type * INTERNATIONAL : in international roaming network * @hide */ public static final int ROAMING_TYPE_INTERNATIONAL = 3; private int mVoiceRoamingType; private int mDataRoamingType; private String mVoiceOperatorAlphaLong; private String mVoiceOperatorAlphaShort; private String mVoiceOperatorNumeric; private String mDataOperatorAlphaLong; private String mDataOperatorAlphaShort; private String mDataOperatorNumeric; private boolean mIsManualNetworkSelection; private boolean mIsEmergencyOnly; private int mRilVoiceRadioTechnology; private int mRilDataRadioTechnology; private boolean mCssIndicator; private int mNetworkId; private int mSystemId; private int mCdmaRoamingIndicator; private int mCdmaDefaultRoamingIndicator; private int mCdmaEriIconIndex; private int mCdmaEriIconMode; private boolean mIsDataRoamingFromRegistration; private boolean mIsUsingCarrierAggregation; /** * get String description of roaming type * @hide */ public static final String getRoamingLogString(int roamingType) { switch (roamingType) { case ROAMING_TYPE_NOT_ROAMING: return "home"; case ROAMING_TYPE_UNKNOWN: return "roaming"; case ROAMING_TYPE_DOMESTIC: return "Domestic Roaming"; case ROAMING_TYPE_INTERNATIONAL: return "International Roaming"; default: return "UNKNOWN"; } } /** * Create a new ServiceState from a intent notifier Bundle * * This method is used by PhoneStateIntentReceiver and maybe by * external applications. * * @param m Bundle from intent notifier * @return newly created ServiceState * @hide */ public static ServiceState newFromBundle(Bundle m) { ServiceState ret; ret = new ServiceState(); ret.setFromNotifierBundle(m); return ret; } /** * Empty constructor */ public ServiceState() { } /** * Copy constructors * * @param s Source service state */ public ServiceState(ServiceState s) { copyFrom(s); } protected void copyFrom(ServiceState s) { mVoiceRegState = s.mVoiceRegState; mDataRegState = s.mDataRegState; mVoiceRoamingType = s.mVoiceRoamingType; mDataRoamingType = s.mDataRoamingType; mVoiceOperatorAlphaLong = s.mVoiceOperatorAlphaLong; mVoiceOperatorAlphaShort = s.mVoiceOperatorAlphaShort; mVoiceOperatorNumeric = s.mVoiceOperatorNumeric; mDataOperatorAlphaLong = s.mDataOperatorAlphaLong; mDataOperatorAlphaShort = s.mDataOperatorAlphaShort; mDataOperatorNumeric = s.mDataOperatorNumeric; mIsManualNetworkSelection = s.mIsManualNetworkSelection; mRilVoiceRadioTechnology = s.mRilVoiceRadioTechnology; mRilDataRadioTechnology = s.mRilDataRadioTechnology; mCssIndicator = s.mCssIndicator; mNetworkId = s.mNetworkId; mSystemId = s.mSystemId; mCdmaRoamingIndicator = s.mCdmaRoamingIndicator; mCdmaDefaultRoamingIndicator = s.mCdmaDefaultRoamingIndicator; mCdmaEriIconIndex = s.mCdmaEriIconIndex; mCdmaEriIconMode = s.mCdmaEriIconMode; mIsEmergencyOnly = s.mIsEmergencyOnly; mIsDataRoamingFromRegistration = s.mIsDataRoamingFromRegistration; mIsUsingCarrierAggregation = s.mIsUsingCarrierAggregation; } /** * Construct a ServiceState object from the given parcel. */ public ServiceState(Parcel in) { mVoiceRegState = in.readInt(); mDataRegState = in.readInt(); mVoiceRoamingType = in.readInt(); mDataRoamingType = in.readInt(); mVoiceOperatorAlphaLong = in.readString(); mVoiceOperatorAlphaShort = in.readString(); mVoiceOperatorNumeric = in.readString(); mDataOperatorAlphaLong = in.readString(); mDataOperatorAlphaShort = in.readString(); mDataOperatorNumeric = in.readString(); mIsManualNetworkSelection = in.readInt() != 0; mRilVoiceRadioTechnology = in.readInt(); mRilDataRadioTechnology = in.readInt(); mCssIndicator = (in.readInt() != 0); mNetworkId = in.readInt(); mSystemId = in.readInt(); mCdmaRoamingIndicator = in.readInt(); mCdmaDefaultRoamingIndicator = in.readInt(); mCdmaEriIconIndex = in.readInt(); mCdmaEriIconMode = in.readInt(); mIsEmergencyOnly = in.readInt() != 0; mIsDataRoamingFromRegistration = in.readInt() != 0; mIsUsingCarrierAggregation = in.readInt() != 0; } public void writeToParcel(Parcel out, int flags) { out.writeInt(mVoiceRegState); out.writeInt(mDataRegState); out.writeInt(mVoiceRoamingType); out.writeInt(mDataRoamingType); out.writeString(mVoiceOperatorAlphaLong); out.writeString(mVoiceOperatorAlphaShort); out.writeString(mVoiceOperatorNumeric); out.writeString(mDataOperatorAlphaLong); out.writeString(mDataOperatorAlphaShort); out.writeString(mDataOperatorNumeric); out.writeInt(mIsManualNetworkSelection ? 1 : 0); out.writeInt(mRilVoiceRadioTechnology); out.writeInt(mRilDataRadioTechnology); out.writeInt(mCssIndicator ? 1 : 0); out.writeInt(mNetworkId); out.writeInt(mSystemId); out.writeInt(mCdmaRoamingIndicator); out.writeInt(mCdmaDefaultRoamingIndicator); out.writeInt(mCdmaEriIconIndex); out.writeInt(mCdmaEriIconMode); out.writeInt(mIsEmergencyOnly ? 1 : 0); out.writeInt(mIsDataRoamingFromRegistration ? 1 : 0); out.writeInt(mIsUsingCarrierAggregation ? 1 : 0); } public int describeContents() { return 0; } public static final Parcelable.Creator CREATOR = new Parcelable.Creator() { public ServiceState createFromParcel(Parcel in) { return new ServiceState(in); } public ServiceState[] newArray(int size) { return new ServiceState[size]; } }; /** * Get current voice service state */ public int getState() { return getVoiceRegState(); } /** * Get current voice service state * * @see #STATE_IN_SERVICE * @see #STATE_OUT_OF_SERVICE * @see #STATE_EMERGENCY_ONLY * @see #STATE_POWER_OFF * * @hide */ public int getVoiceRegState() { return mVoiceRegState; } /** * Get current data service state * * @see #STATE_IN_SERVICE * @see #STATE_OUT_OF_SERVICE * @see #STATE_EMERGENCY_ONLY * @see #STATE_POWER_OFF * * @hide */ public int getDataRegState() { return mDataRegState; } /** * Get current roaming indicator of phone * (note: not just decoding from TS 27.007 7.2) * * @return true if TS 27.007 7.2 roaming is true * and ONS is different from SPN */ public boolean getRoaming() { return getVoiceRoaming() || getDataRoaming(); } /** * Get current voice network roaming status * @return roaming status * @hide */ public boolean getVoiceRoaming() { return mVoiceRoamingType != ROAMING_TYPE_NOT_ROAMING; } /** * Get current voice network roaming type * @return roaming type * @hide */ public int getVoiceRoamingType() { return mVoiceRoamingType; } /** * Get current data network roaming type * @return roaming type * @hide */ public boolean getDataRoaming() { return mDataRoamingType != ROAMING_TYPE_NOT_ROAMING; } /** * Set whether data network registration state is roaming * * This should only be set to the roaming value received * once the data registration phase has completed. * @hide */ public void setDataRoamingFromRegistration(boolean dataRoaming) { mIsDataRoamingFromRegistration = dataRoaming; } /** * Get whether data network registration state is roaming * @return true if registration indicates roaming, false otherwise * @hide */ public boolean getDataRoamingFromRegistration() { return mIsDataRoamingFromRegistration; } /** * Get current data network roaming type * @return roaming type * @hide */ public int getDataRoamingType() { return mDataRoamingType; } /** * @hide */ public boolean isEmergencyOnly() { return mIsEmergencyOnly; } /** * @hide */ public int getCdmaRoamingIndicator(){ return this.mCdmaRoamingIndicator; } /** * @hide */ public int getCdmaDefaultRoamingIndicator(){ return this.mCdmaDefaultRoamingIndicator; } /** * @hide */ public int getCdmaEriIconIndex() { return this.mCdmaEriIconIndex; } /** * @hide */ public int getCdmaEriIconMode() { return this.mCdmaEriIconMode; } /** * Get current registered operator name in long alphanumeric format. * * In GSM/UMTS, long format can be up to 16 characters long. * In CDMA, returns the ERI text, if set. Otherwise, returns the ONS. * * @return long name of operator, null if unregistered or unknown */ public String getOperatorAlphaLong() { return mVoiceOperatorAlphaLong; } /** * Get current registered voice network operator name in long alphanumeric format. * @return long name of operator * @hide */ public String getVoiceOperatorAlphaLong() { return mVoiceOperatorAlphaLong; } /** * Get current registered data network operator name in long alphanumeric format. * @return long name of voice operator * @hide */ public String getDataOperatorAlphaLong() { return mDataOperatorAlphaLong; } /** * Get current registered operator name in short alphanumeric format. * * In GSM/UMTS, short format can be up to 8 characters long. * * @return short name of operator, null if unregistered or unknown */ public String getOperatorAlphaShort() { return mVoiceOperatorAlphaShort; } /** * Get current registered voice network operator name in short alphanumeric format. * @return short name of operator, null if unregistered or unknown * @hide */ public String getVoiceOperatorAlphaShort() { return mVoiceOperatorAlphaShort; } /** * Get current registered data network operator name in short alphanumeric format. * @return short name of operator, null if unregistered or unknown * @hide */ public String getDataOperatorAlphaShort() { return mDataOperatorAlphaShort; } /** * Get current registered operator numeric id. * * In GSM/UMTS, numeric format is 3 digit country code plus 2 or 3 digit * network code. * * @return numeric format of operator, null if unregistered or unknown */ /* * The country code can be decoded using * {@link com.android.internal.telephony.MccTable#countryCodeForMcc(int)}. */ public String getOperatorNumeric() { return mVoiceOperatorNumeric; } /** * Get current registered voice network operator numeric id. * @return numeric format of operator, null if unregistered or unknown * @hide */ public String getVoiceOperatorNumeric() { return mVoiceOperatorNumeric; } /** * Get current registered data network operator numeric id. * @return numeric format of operator, null if unregistered or unknown * @hide */ public String getDataOperatorNumeric() { return mDataOperatorNumeric; } /** * Get current network selection mode. * * @return true if manual mode, false if automatic mode */ public boolean getIsManualSelection() { return mIsManualNetworkSelection; } @Override public int hashCode() { return ((mVoiceRegState * 31) + (mDataRegState * 37) + mVoiceRoamingType + mDataRoamingType + (mIsManualNetworkSelection ? 1 : 0) + ((null == mVoiceOperatorAlphaLong) ? 0 : mVoiceOperatorAlphaLong.hashCode()) + ((null == mVoiceOperatorAlphaShort) ? 0 : mVoiceOperatorAlphaShort.hashCode()) + ((null == mVoiceOperatorNumeric) ? 0 : mVoiceOperatorNumeric.hashCode()) + ((null == mDataOperatorAlphaLong) ? 0 : mDataOperatorAlphaLong.hashCode()) + ((null == mDataOperatorAlphaShort) ? 0 : mDataOperatorAlphaShort.hashCode()) + ((null == mDataOperatorNumeric) ? 0 : mDataOperatorNumeric.hashCode()) + mCdmaRoamingIndicator + mCdmaDefaultRoamingIndicator + (mIsEmergencyOnly ? 1 : 0) + (mIsDataRoamingFromRegistration ? 1 : 0)); } @Override public boolean equals (Object o) { ServiceState s; try { s = (ServiceState) o; } catch (ClassCastException ex) { return false; } if (o == null) { return false; } return (mVoiceRegState == s.mVoiceRegState && mDataRegState == s.mDataRegState && mIsManualNetworkSelection == s.mIsManualNetworkSelection && mVoiceRoamingType == s.mVoiceRoamingType && mDataRoamingType == s.mDataRoamingType && equalsHandlesNulls(mVoiceOperatorAlphaLong, s.mVoiceOperatorAlphaLong) && equalsHandlesNulls(mVoiceOperatorAlphaShort, s.mVoiceOperatorAlphaShort) && equalsHandlesNulls(mVoiceOperatorNumeric, s.mVoiceOperatorNumeric) && equalsHandlesNulls(mDataOperatorAlphaLong, s.mDataOperatorAlphaLong) && equalsHandlesNulls(mDataOperatorAlphaShort, s.mDataOperatorAlphaShort) && equalsHandlesNulls(mDataOperatorNumeric, s.mDataOperatorNumeric) && equalsHandlesNulls(mRilVoiceRadioTechnology, s.mRilVoiceRadioTechnology) && equalsHandlesNulls(mRilDataRadioTechnology, s.mRilDataRadioTechnology) && equalsHandlesNulls(mCssIndicator, s.mCssIndicator) && equalsHandlesNulls(mNetworkId, s.mNetworkId) && equalsHandlesNulls(mSystemId, s.mSystemId) && equalsHandlesNulls(mCdmaRoamingIndicator, s.mCdmaRoamingIndicator) && equalsHandlesNulls(mCdmaDefaultRoamingIndicator, s.mCdmaDefaultRoamingIndicator) && mIsEmergencyOnly == s.mIsEmergencyOnly && mIsDataRoamingFromRegistration == s.mIsDataRoamingFromRegistration && mIsUsingCarrierAggregation == s.mIsUsingCarrierAggregation); } /** * Convert radio technology to String * * @param radioTechnology * @return String representation of the RAT * * @hide */ public static String rilRadioTechnologyToString(int rt) { String rtString; switch(rt) { case RIL_RADIO_TECHNOLOGY_UNKNOWN: rtString = "Unknown"; break; case RIL_RADIO_TECHNOLOGY_GPRS: rtString = "GPRS"; break; case RIL_RADIO_TECHNOLOGY_EDGE: rtString = "EDGE"; break; case RIL_RADIO_TECHNOLOGY_UMTS: rtString = "UMTS"; break; case RIL_RADIO_TECHNOLOGY_IS95A: rtString = "CDMA-IS95A"; break; case RIL_RADIO_TECHNOLOGY_IS95B: rtString = "CDMA-IS95B"; break; case RIL_RADIO_TECHNOLOGY_1xRTT: rtString = "1xRTT"; break; case RIL_RADIO_TECHNOLOGY_EVDO_0: rtString = "EvDo-rev.0"; break; case RIL_RADIO_TECHNOLOGY_EVDO_A: rtString = "EvDo-rev.A"; break; case RIL_RADIO_TECHNOLOGY_HSDPA: rtString = "HSDPA"; break; case RIL_RADIO_TECHNOLOGY_HSUPA: rtString = "HSUPA"; break; case RIL_RADIO_TECHNOLOGY_HSPA: rtString = "HSPA"; break; case RIL_RADIO_TECHNOLOGY_EVDO_B: rtString = "EvDo-rev.B"; break; case RIL_RADIO_TECHNOLOGY_EHRPD: rtString = "eHRPD"; break; case RIL_RADIO_TECHNOLOGY_LTE: rtString = "LTE"; break; case RIL_RADIO_TECHNOLOGY_HSPAP: rtString = "HSPAP"; break; case RIL_RADIO_TECHNOLOGY_GSM: rtString = "GSM"; break; case RIL_RADIO_TECHNOLOGY_IWLAN: rtString = "IWLAN"; break; case RIL_RADIO_TECHNOLOGY_TD_SCDMA: rtString = "TD-SCDMA"; break; case RIL_RADIO_TECHNOLOGY_LTE_CA: rtString = "LTE_CA"; break; default: rtString = "Unexpected"; Rlog.w(LOG_TAG, "Unexpected radioTechnology=" + rt); break; } return rtString; } @Override public String toString() { String radioTechnology = rilRadioTechnologyToString(mRilVoiceRadioTechnology); String dataRadioTechnology = rilRadioTechnologyToString(mRilDataRadioTechnology); return (mVoiceRegState + " " + mDataRegState + " " + "voice " + getRoamingLogString(mVoiceRoamingType) + " " + "data " + getRoamingLogString(mDataRoamingType) + " " + mVoiceOperatorAlphaLong + " " + mVoiceOperatorAlphaShort + " " + mVoiceOperatorNumeric + " " + mDataOperatorAlphaLong + " " + mDataOperatorAlphaShort + " " + mDataOperatorNumeric + " " + (mIsManualNetworkSelection ? "(manual)" : "") + " " + radioTechnology + " " + dataRadioTechnology + " " + (mCssIndicator ? "CSS supported" : "CSS not supported") + " " + mNetworkId + " " + mSystemId + " RoamInd=" + mCdmaRoamingIndicator + " DefRoamInd=" + mCdmaDefaultRoamingIndicator + " EmergOnly=" + mIsEmergencyOnly + " IsDataRoamingFromRegistration=" + mIsDataRoamingFromRegistration + " IsUsingCarrierAggregation=" + mIsUsingCarrierAggregation); } private void setNullState(int state) { if (DBG) Rlog.d(LOG_TAG, "[ServiceState] setNullState=" + state); mVoiceRegState = state; mDataRegState = state; mVoiceRoamingType = ROAMING_TYPE_NOT_ROAMING; mDataRoamingType = ROAMING_TYPE_NOT_ROAMING; mVoiceOperatorAlphaLong = null; mVoiceOperatorAlphaShort = null; mVoiceOperatorNumeric = null; mDataOperatorAlphaLong = null; mDataOperatorAlphaShort = null; mDataOperatorNumeric = null; mIsManualNetworkSelection = false; mRilVoiceRadioTechnology = 0; mRilDataRadioTechnology = 0; mCssIndicator = false; mNetworkId = -1; mSystemId = -1; mCdmaRoamingIndicator = -1; mCdmaDefaultRoamingIndicator = -1; mCdmaEriIconIndex = -1; mCdmaEriIconMode = -1; mIsEmergencyOnly = false; mIsDataRoamingFromRegistration = false; mIsUsingCarrierAggregation = false; } public void setStateOutOfService() { setNullState(STATE_OUT_OF_SERVICE); } public void setStateOff() { setNullState(STATE_POWER_OFF); } public void setState(int state) { setVoiceRegState(state); if (DBG) Rlog.e(LOG_TAG, "[ServiceState] setState deprecated use setVoiceRegState()"); } /** @hide */ public void setVoiceRegState(int state) { mVoiceRegState = state; if (DBG) Rlog.d(LOG_TAG, "[ServiceState] setVoiceRegState=" + mVoiceRegState); } /** @hide */ public void setDataRegState(int state) { mDataRegState = state; if (VDBG) Rlog.d(LOG_TAG, "[ServiceState] setDataRegState=" + mDataRegState); } public void setRoaming(boolean roaming) { mVoiceRoamingType = (roaming ? ROAMING_TYPE_UNKNOWN : ROAMING_TYPE_NOT_ROAMING); mDataRoamingType = mVoiceRoamingType; } /** @hide */ public void setVoiceRoaming(boolean roaming) { mVoiceRoamingType = (roaming ? ROAMING_TYPE_UNKNOWN : ROAMING_TYPE_NOT_ROAMING); } /** @hide */ public void setVoiceRoamingType(int type) { mVoiceRoamingType = type; } /** @hide */ public void setDataRoaming(boolean dataRoaming) { mDataRoamingType = (dataRoaming ? ROAMING_TYPE_UNKNOWN : ROAMING_TYPE_NOT_ROAMING); } /** @hide */ public void setDataRoamingType(int type) { mDataRoamingType = type; } /** * @hide */ public void setEmergencyOnly(boolean emergencyOnly) { mIsEmergencyOnly = emergencyOnly; } /** * @hide */ public void setCdmaRoamingIndicator(int roaming) { this.mCdmaRoamingIndicator = roaming; } /** * @hide */ public void setCdmaDefaultRoamingIndicator (int roaming) { this.mCdmaDefaultRoamingIndicator = roaming; } /** * @hide */ public void setCdmaEriIconIndex(int index) { this.mCdmaEriIconIndex = index; } /** * @hide */ public void setCdmaEriIconMode(int mode) { this.mCdmaEriIconMode = mode; } public void setOperatorName(String longName, String shortName, String numeric) { mVoiceOperatorAlphaLong = longName; mVoiceOperatorAlphaShort = shortName; mVoiceOperatorNumeric = numeric; mDataOperatorAlphaLong = longName; mDataOperatorAlphaShort = shortName; mDataOperatorNumeric = numeric; } /** @hide */ public void setVoiceOperatorName(String longName, String shortName, String numeric) { mVoiceOperatorAlphaLong = longName; mVoiceOperatorAlphaShort = shortName; mVoiceOperatorNumeric = numeric; } /** @hide */ public void setDataOperatorName(String longName, String shortName, String numeric) { mDataOperatorAlphaLong = longName; mDataOperatorAlphaShort = shortName; mDataOperatorNumeric = numeric; } /** * In CDMA, mOperatorAlphaLong can be set from the ERI text. * This is done from the GsmCdmaPhone and not from the ServiceStateTracker. * * @hide */ public void setOperatorAlphaLong(String longName) { mVoiceOperatorAlphaLong = longName; mDataOperatorAlphaLong = longName; } /** @hide */ public void setVoiceOperatorAlphaLong(String longName) { mVoiceOperatorAlphaLong = longName; } /** @hide */ public void setDataOperatorAlphaLong(String longName) { mDataOperatorAlphaLong = longName; } public void setIsManualSelection(boolean isManual) { mIsManualNetworkSelection = isManual; } /** * Test whether two objects hold the same data values or both are null. * * @param a first obj * @param b second obj * @return true if two objects equal or both are null */ private static boolean equalsHandlesNulls (Object a, Object b) { return (a == null) ? (b == null) : a.equals (b); } /** * Set ServiceState based on intent notifier map. * * @param m intent notifier map * @hide */ private void setFromNotifierBundle(Bundle m) { mVoiceRegState = m.getInt("voiceRegState"); mDataRegState = m.getInt("dataRegState"); mVoiceRoamingType = m.getInt("voiceRoamingType"); mDataRoamingType = m.getInt("dataRoamingType"); mVoiceOperatorAlphaLong = m.getString("operator-alpha-long"); mVoiceOperatorAlphaShort = m.getString("operator-alpha-short"); mVoiceOperatorNumeric = m.getString("operator-numeric"); mDataOperatorAlphaLong = m.getString("data-operator-alpha-long"); mDataOperatorAlphaShort = m.getString("data-operator-alpha-short"); mDataOperatorNumeric = m.getString("data-operator-numeric"); mIsManualNetworkSelection = m.getBoolean("manual"); mRilVoiceRadioTechnology = m.getInt("radioTechnology"); mRilDataRadioTechnology = m.getInt("dataRadioTechnology"); mCssIndicator = m.getBoolean("cssIndicator"); mNetworkId = m.getInt("networkId"); mSystemId = m.getInt("systemId"); mCdmaRoamingIndicator = m.getInt("cdmaRoamingIndicator"); mCdmaDefaultRoamingIndicator = m.getInt("cdmaDefaultRoamingIndicator"); mIsEmergencyOnly = m.getBoolean("emergencyOnly"); mIsDataRoamingFromRegistration = m.getBoolean("isDataRoamingFromRegistration"); mIsUsingCarrierAggregation = m.getBoolean("isUsingCarrierAggregation"); } /** * Set intent notifier Bundle based on service state. * * @param m intent notifier Bundle * @hide */ public void fillInNotifierBundle(Bundle m) { m.putInt("voiceRegState", mVoiceRegState); m.putInt("dataRegState", mDataRegState); m.putInt("voiceRoamingType", mVoiceRoamingType); m.putInt("dataRoamingType", mDataRoamingType); m.putString("operator-alpha-long", mVoiceOperatorAlphaLong); m.putString("operator-alpha-short", mVoiceOperatorAlphaShort); m.putString("operator-numeric", mVoiceOperatorNumeric); m.putString("data-operator-alpha-long", mDataOperatorAlphaLong); m.putString("data-operator-alpha-short", mDataOperatorAlphaShort); m.putString("data-operator-numeric", mDataOperatorNumeric); m.putBoolean("manual", Boolean.valueOf(mIsManualNetworkSelection)); m.putInt("radioTechnology", mRilVoiceRadioTechnology); m.putInt("dataRadioTechnology", mRilDataRadioTechnology); m.putBoolean("cssIndicator", mCssIndicator); m.putInt("networkId", mNetworkId); m.putInt("systemId", mSystemId); m.putInt("cdmaRoamingIndicator", mCdmaRoamingIndicator); m.putInt("cdmaDefaultRoamingIndicator", mCdmaDefaultRoamingIndicator); m.putBoolean("emergencyOnly", Boolean.valueOf(mIsEmergencyOnly)); m.putBoolean("isDataRoamingFromRegistration", Boolean.valueOf(mIsDataRoamingFromRegistration)); m.putBoolean("isUsingCarrierAggregation", Boolean.valueOf(mIsUsingCarrierAggregation)); } /** @hide */ public void setRilVoiceRadioTechnology(int rt) { if (rt == RIL_RADIO_TECHNOLOGY_LTE_CA) { rt = RIL_RADIO_TECHNOLOGY_LTE; } this.mRilVoiceRadioTechnology = rt; } /** @hide */ public void setRilDataRadioTechnology(int rt) { if (rt == RIL_RADIO_TECHNOLOGY_LTE_CA) { rt = RIL_RADIO_TECHNOLOGY_LTE; this.mIsUsingCarrierAggregation = true; } else { this.mIsUsingCarrierAggregation = false; } this.mRilDataRadioTechnology = rt; if (VDBG) Rlog.d(LOG_TAG, "[ServiceState] setRilDataRadioTechnology=" + mRilDataRadioTechnology); } /** @hide */ public boolean isUsingCarrierAggregation() { return mIsUsingCarrierAggregation; } /** @hide */ public void setIsUsingCarrierAggregation(boolean ca) { mIsUsingCarrierAggregation = ca; } /** @hide */ public void setCssIndicator(int css) { this.mCssIndicator = (css != 0); } /** @hide */ public void setSystemAndNetworkId(int systemId, int networkId) { this.mSystemId = systemId; this.mNetworkId = networkId; } /** @hide */ public int getRilVoiceRadioTechnology() { return this.mRilVoiceRadioTechnology; } /** @hide */ public int getRilDataRadioTechnology() { return this.mRilDataRadioTechnology; } /** * @hide * @Deprecated to be removed Q3 2013 use {@link #getRilDataRadioTechnology} or * {@link #getRilVoiceRadioTechnology} */ public int getRadioTechnology() { Rlog.e(LOG_TAG, "ServiceState.getRadioTechnology() DEPRECATED will be removed *******"); return getRilDataRadioTechnology(); } private int rilRadioTechnologyToNetworkType(int rt) { switch(rt) { case ServiceState.RIL_RADIO_TECHNOLOGY_GPRS: return TelephonyManager.NETWORK_TYPE_GPRS; case ServiceState.RIL_RADIO_TECHNOLOGY_EDGE: return TelephonyManager.NETWORK_TYPE_EDGE; case ServiceState.RIL_RADIO_TECHNOLOGY_UMTS: return TelephonyManager.NETWORK_TYPE_UMTS; case ServiceState.RIL_RADIO_TECHNOLOGY_HSDPA: return TelephonyManager.NETWORK_TYPE_HSDPA; case ServiceState.RIL_RADIO_TECHNOLOGY_HSUPA: return TelephonyManager.NETWORK_TYPE_HSUPA; case ServiceState.RIL_RADIO_TECHNOLOGY_HSPA: return TelephonyManager.NETWORK_TYPE_HSPA; case ServiceState.RIL_RADIO_TECHNOLOGY_IS95A: case ServiceState.RIL_RADIO_TECHNOLOGY_IS95B: return TelephonyManager.NETWORK_TYPE_CDMA; case ServiceState.RIL_RADIO_TECHNOLOGY_1xRTT: return TelephonyManager.NETWORK_TYPE_1xRTT; case ServiceState.RIL_RADIO_TECHNOLOGY_EVDO_0: return TelephonyManager.NETWORK_TYPE_EVDO_0; case ServiceState.RIL_RADIO_TECHNOLOGY_EVDO_A: return TelephonyManager.NETWORK_TYPE_EVDO_A; case ServiceState.RIL_RADIO_TECHNOLOGY_EVDO_B: return TelephonyManager.NETWORK_TYPE_EVDO_B; case ServiceState.RIL_RADIO_TECHNOLOGY_EHRPD: return TelephonyManager.NETWORK_TYPE_EHRPD; case ServiceState.RIL_RADIO_TECHNOLOGY_LTE: return TelephonyManager.NETWORK_TYPE_LTE; case ServiceState.RIL_RADIO_TECHNOLOGY_HSPAP: return TelephonyManager.NETWORK_TYPE_HSPAP; case ServiceState.RIL_RADIO_TECHNOLOGY_GSM: return TelephonyManager.NETWORK_TYPE_GSM; case ServiceState.RIL_RADIO_TECHNOLOGY_TD_SCDMA: return TelephonyManager.NETWORK_TYPE_TD_SCDMA; case ServiceState.RIL_RADIO_TECHNOLOGY_IWLAN: return TelephonyManager.NETWORK_TYPE_IWLAN; case ServiceState.RIL_RADIO_TECHNOLOGY_LTE_CA: return TelephonyManager.NETWORK_TYPE_LTE_CA; default: return TelephonyManager.NETWORK_TYPE_UNKNOWN; } } /** * @Deprecated to be removed Q3 2013 use {@link #getVoiceNetworkType} * @hide */ public int getNetworkType() { Rlog.e(LOG_TAG, "ServiceState.getNetworkType() DEPRECATED will be removed *******"); return rilRadioTechnologyToNetworkType(mRilVoiceRadioTechnology); } /** @hide */ public int getDataNetworkType() { return rilRadioTechnologyToNetworkType(mRilDataRadioTechnology); } /** @hide */ public int getVoiceNetworkType() { return rilRadioTechnologyToNetworkType(mRilVoiceRadioTechnology); } /** @hide */ public int getCssIndicator() { return this.mCssIndicator ? 1 : 0; } /** @hide */ public int getNetworkId() { return this.mNetworkId; } /** @hide */ public int getSystemId() { return this.mSystemId; } /** @hide */ public static boolean isGsm(int radioTechnology) { return radioTechnology == RIL_RADIO_TECHNOLOGY_GPRS || radioTechnology == RIL_RADIO_TECHNOLOGY_EDGE || radioTechnology == RIL_RADIO_TECHNOLOGY_UMTS || radioTechnology == RIL_RADIO_TECHNOLOGY_HSDPA || radioTechnology == RIL_RADIO_TECHNOLOGY_HSUPA || radioTechnology == RIL_RADIO_TECHNOLOGY_HSPA || radioTechnology == RIL_RADIO_TECHNOLOGY_LTE || radioTechnology == RIL_RADIO_TECHNOLOGY_HSPAP || radioTechnology == RIL_RADIO_TECHNOLOGY_GSM || radioTechnology == RIL_RADIO_TECHNOLOGY_TD_SCDMA || radioTechnology == RIL_RADIO_TECHNOLOGY_IWLAN || radioTechnology == RIL_RADIO_TECHNOLOGY_LTE_CA; } /** @hide */ public static boolean isCdma(int radioTechnology) { return radioTechnology == RIL_RADIO_TECHNOLOGY_IS95A || radioTechnology == RIL_RADIO_TECHNOLOGY_IS95B || radioTechnology == RIL_RADIO_TECHNOLOGY_1xRTT || radioTechnology == RIL_RADIO_TECHNOLOGY_EVDO_0 || radioTechnology == RIL_RADIO_TECHNOLOGY_EVDO_A || radioTechnology == RIL_RADIO_TECHNOLOGY_EVDO_B || radioTechnology == RIL_RADIO_TECHNOLOGY_EHRPD; } /** @hide */ public static boolean isLte(int radioTechnology) { return radioTechnology == RIL_RADIO_TECHNOLOGY_LTE || radioTechnology == RIL_RADIO_TECHNOLOGY_LTE_CA; } /** @hide */ public static boolean bearerBitmapHasCdma(int radioTechnologyBitmap) { return (RIL_RADIO_CDMA_TECHNOLOGY_BITMASK & radioTechnologyBitmap) != 0; } /** @hide */ public static boolean bitmaskHasTech(int bearerBitmask, int radioTech) { if (bearerBitmask == 0) { return true; } else if (radioTech >= 1) { return ((bearerBitmask & (1 << (radioTech - 1))) != 0); } return false; } /** @hide */ public static int getBitmaskForTech(int radioTech) { if (radioTech >= 1) { return (1 << (radioTech - 1)); } return 0; } /** @hide */ public static int getBitmaskFromString(String bearerList) { String[] bearers = bearerList.split("\\|"); int bearerBitmask = 0; for (String bearer : bearers) { int bearerInt = 0; try { bearerInt = Integer.parseInt(bearer.trim()); } catch (NumberFormatException nfe) { return 0; } if (bearerInt == 0) { return 0; } bearerBitmask |= getBitmaskForTech(bearerInt); } return bearerBitmask; } /** * Returns a merged ServiceState consisting of the base SS with voice settings from the * voice SS. The voice SS is only used if it is IN_SERVICE (otherwise the base SS is returned). * @hide * */ public static ServiceState mergeServiceStates(ServiceState baseSs, ServiceState voiceSs) { if (voiceSs.mVoiceRegState != STATE_IN_SERVICE) { return baseSs; } ServiceState newSs = new ServiceState(baseSs); // voice overrides newSs.mVoiceRegState = voiceSs.mVoiceRegState; newSs.mIsEmergencyOnly = false; // only get here if voice is IN_SERVICE return newSs; } }