/* * Copyright (C) 2022 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.net.wifi; import static android.net.wifi.WifiScanner.WIFI_BAND_24_GHZ; import static android.net.wifi.WifiScanner.WIFI_BAND_5_GHZ; import static android.net.wifi.WifiScanner.WIFI_BAND_6_GHZ; import android.annotation.IntDef; import android.annotation.IntRange; import android.annotation.NonNull; import android.annotation.Nullable; import android.net.MacAddress; import android.net.NetworkCapabilities; import android.os.Parcel; import android.os.Parcelable; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.util.Objects; /** * Data structure class representing a Wi-Fi Multi-Link Operation (MLO) link * This is only used by 802.11be capable devices */ public final class MloLink implements Parcelable { /** * Invalid link id. Used in {link #getLinkId()} */ public static final int INVALID_MLO_LINK_ID = -1; /** * Lower limit for MLO link id * As described in IEEE 802.11be Specification, section 9.4.2.295b.2. * * @hide */ public static final int MIN_MLO_LINK_ID = 0; /** * Upper limit for MLO link id * As described in IEEE 802.11be Specification, section 9.4.2.295b.2. * * @hide */ public static final int MAX_MLO_LINK_ID = 15; /** * MLO link state: Invalid link state. Used in {link #getState()} */ public static final int MLO_LINK_STATE_INVALID = 0; /** * MLO link state: Link is not associated with the access point. Used in {link #getState()} */ public static final int MLO_LINK_STATE_UNASSOCIATED = 1; /** * MLO link state: Link is associated to the access point but not mapped to any traffic stream. * Used in {link #getState()} */ public static final int MLO_LINK_STATE_IDLE = 2; /** * MLO link state: Link is associated to the access point and mapped to at least one traffic * stream. {link #getState()} * Note that an MLO link could be in that state but in power save mode. */ public static final int MLO_LINK_STATE_ACTIVE = 3; /** * @hide */ @Retention(RetentionPolicy.SOURCE) @IntDef(prefix = {"MLO_LINK_STATE_"}, value = { MLO_LINK_STATE_INVALID, MLO_LINK_STATE_UNASSOCIATED, MLO_LINK_STATE_IDLE, MLO_LINK_STATE_ACTIVE}) public @interface MloLinkState {}; private int mLinkId; private MacAddress mApMacAddress; private MacAddress mStaMacAddress; private @MloLinkState int mState; private @WifiAnnotations.WifiBandBasic int mBand; private int mChannel; /** * Received Signal Strength Indicator */ private int mRssi; /** * Rx(receive) Link speed in Mbps */ private int mRxLinkSpeed; /** * Tx(transmit) Link speed in Mbps */ private int mTxLinkSpeed; /** * Constructor for a MloLInk. */ public MloLink() { mBand = WifiScanner.WIFI_BAND_UNSPECIFIED; mChannel = 0; mState = MLO_LINK_STATE_UNASSOCIATED; mApMacAddress = null; mStaMacAddress = null; mLinkId = INVALID_MLO_LINK_ID; mRssi = WifiInfo.INVALID_RSSI; mRxLinkSpeed = WifiInfo.LINK_SPEED_UNKNOWN; mTxLinkSpeed = WifiInfo.LINK_SPEED_UNKNOWN; } /** * Copy Constructor * * @hide */ public MloLink(MloLink source, long redactions) { mBand = source.mBand; mChannel = source.mChannel; mLinkId = source.mLinkId; mState = source.mState; mRssi = source.mRssi; mRxLinkSpeed = source.mRxLinkSpeed; mTxLinkSpeed = source.mTxLinkSpeed; mLostTxPacketsPerSecond = source.mLostTxPacketsPerSecond; mTxRetriedTxPacketsPerSecond = source.mTxRetriedTxPacketsPerSecond; mSuccessfulRxPacketsPerSecond = source.mSuccessfulRxPacketsPerSecond; mSuccessfulTxPacketsPerSecond = source.mSuccessfulTxPacketsPerSecond; txBad = source.txBad; txRetries = source.txRetries; txSuccess = source.txSuccess; rxSuccess = source.rxSuccess; mStaMacAddress = ((redactions & NetworkCapabilities.REDACT_FOR_LOCAL_MAC_ADDRESS) != 0) || source.mStaMacAddress == null ? null : MacAddress.fromString(source.mStaMacAddress.toString()); mApMacAddress = ((redactions & NetworkCapabilities.REDACT_FOR_ACCESS_FINE_LOCATION) != 0) || source.mApMacAddress == null ? null : MacAddress.fromString(source.mApMacAddress.toString()); } /** Returns the Wi-Fi band of this link. */ @ScanResult.WifiBand public int getBand() { return mBand; } /** * Returns the channel number of this link. * A valid value is based on the 802.11 specification in sections 19.3.15 and 27.3.23 */ @IntRange(from = 1) public int getChannel() { return mChannel; } /** * Returns the link id of this link. * Valid values are 0-15, as described in IEEE 802.11be Specification, section 9.4.2.295b.2. * * @return {@link #INVALID_MLO_LINK_ID} or a valid value (0-15). */ @IntRange(from = INVALID_MLO_LINK_ID, to = MAX_MLO_LINK_ID) public int getLinkId() { return mLinkId; } /** Returns the state of this link as one of: * {@link #MLO_LINK_STATE_INVALID} * {@link #MLO_LINK_STATE_UNASSOCIATED} * {@link #MLO_LINK_STATE_IDLE} * {@link #MLO_LINK_STATE_ACTIVE} */ public @MloLinkState int getState() { return mState; } /** * Returns the AP MAC address of this link. * * @return AP MAC address for this link or null when the caller has insufficient * permissions to access the access point MAC Address. */ public @Nullable MacAddress getApMacAddress() { return mApMacAddress; } /** * Returns the STA MAC address of this link. * * @return STA MAC address assigned for this link, or null in the following cases: * */ public @Nullable MacAddress getStaMacAddress() { return mStaMacAddress; } /** * Sets the channel number of this link. * * @hide */ public void setChannel(int channel) { mChannel = channel; } /** * Sets the band for this link * * @hide */ public void setBand(@WifiAnnotations.WifiBandBasic int band) { mBand = band; } /** * Sets the linkId of this link * * @hide */ public void setLinkId(int linkId) { mLinkId = linkId; } /** * Sets the state of this link * * @hide */ public void setState(@MloLinkState int state) { mState = state; } /** * set the AP MAC Address for this link * * @hide */ public void setApMacAddress(MacAddress address) { mApMacAddress = address; } /** * set the STA MAC Address for this link * * @hide */ public void setStaMacAddress(MacAddress address) { mStaMacAddress = address; } /** * Update the last received packet bit rate in Mbps. * @hide */ public void setRxLinkSpeedMbps(int rxLinkSpeed) { mRxLinkSpeed = rxLinkSpeed; } /** * Returns the current receive link speed in Mbps. * @return the Rx link speed or {@link WifiInfo#LINK_SPEED_UNKNOWN} if link speed is unknown. * @see WifiInfo#LINK_SPEED_UNKNOWN */ @IntRange(from = -1) public int getRxLinkSpeedMbps() { return mRxLinkSpeed; } /** * Update the last transmitted packet bit rate in Mbps. * @hide */ public void setTxLinkSpeedMbps(int txLinkSpeed) { mTxLinkSpeed = txLinkSpeed; } /** * Returns the current transmit link speed in Mbps. * @return the Tx link speed or {@link WifiInfo#LINK_SPEED_UNKNOWN} if link speed is unknown. * @see WifiInfo#LINK_SPEED_UNKNOWN */ @IntRange(from = -1) public int getTxLinkSpeedMbps() { return mTxLinkSpeed; } /** * Sets the RSSI of the link. * * @param rssi RSSI in dBM. * @hide */ public void setRssi(int rssi) { if (rssi < WifiInfo.INVALID_RSSI) rssi = WifiInfo.INVALID_RSSI; if (rssi > WifiInfo.MAX_RSSI) rssi = WifiInfo.MAX_RSSI; mRssi = rssi; } /** * Returns the RSSI of the link. * *

Use {@link android.net.wifi.WifiManager#calculateSignalLevel} to convert this number into * an absolute signal level which can be displayed to a user. * * @return RSSI in dBM. */ public int getRssi() { return mRssi; } /** * Running total count of lost (not ACKed) transmitted unicast data packets. * * @hide */ public long txBad; /** * Running total count of transmitted unicast data retry packets. * * @hide */ public long txRetries; /** * Running total count of successfully transmitted (ACKed) unicast data packets. * * @hide */ public long txSuccess; /** * Running total count of received unicast data packets. * * @hide */ public long rxSuccess; /** * Time stamp when packet counts are last updated. * * @hide */ public long lastPacketCountUpdateTimeStamp = Long.MIN_VALUE; private double mLostTxPacketsPerSecond; /** * Average rate of lost transmitted packets, in units of packets per second. * * @hide */ public double getLostTxPacketsPerSecond() { return mLostTxPacketsPerSecond; } /** @hide */ public void setLostTxPacketsPerSecond(double lostTxPacketsPerSecond) { mLostTxPacketsPerSecond = lostTxPacketsPerSecond; } private double mTxRetriedTxPacketsPerSecond; /** * Average rate of transmitted retry packets, in units of packets per second. * * @hide */ public double getRetriedTxPacketsPerSecond() { return mTxRetriedTxPacketsPerSecond; } /** @hide */ public void setRetriedTxPacketsRate(double txRetriedTxPacketsPerSecond) { mTxRetriedTxPacketsPerSecond = txRetriedTxPacketsPerSecond; } private double mSuccessfulTxPacketsPerSecond; /** * Average rate of successfully transmitted unicast packets, in units of packets per second. * * @hide */ public double getSuccessfulTxPacketsPerSecond() { return mSuccessfulTxPacketsPerSecond; } /** @hide */ public void setSuccessfulTxPacketsPerSecond(double successfulTxPacketsPerSecond) { mSuccessfulTxPacketsPerSecond = successfulTxPacketsPerSecond; } private double mSuccessfulRxPacketsPerSecond; /** * Average rate of received unicast data packets, in units of packets per second. * * @hide */ public double getSuccessfulRxPacketsPerSecond() { return mSuccessfulRxPacketsPerSecond; } /** @hide */ public void setSuccessfulRxPacketsPerSecond(double successfulRxPacketsPerSecond) { mSuccessfulRxPacketsPerSecond = successfulRxPacketsPerSecond; } @Override public boolean equals(@Nullable Object o) { if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; MloLink that = (MloLink) o; return mBand == that.mBand && mChannel == that.mChannel && mLinkId == that.mLinkId && Objects.equals(mApMacAddress, that.mApMacAddress) && Objects.equals(mStaMacAddress, that.mStaMacAddress) && mState == that.mState && mRssi == that.mRssi && mRxLinkSpeed == that.mRxLinkSpeed && mTxLinkSpeed == that.mTxLinkSpeed && mTxRetriedTxPacketsPerSecond == that.mTxRetriedTxPacketsPerSecond && mSuccessfulTxPacketsPerSecond == that.mSuccessfulTxPacketsPerSecond && mLostTxPacketsPerSecond == that.mLostTxPacketsPerSecond && mSuccessfulRxPacketsPerSecond == that.mSuccessfulRxPacketsPerSecond && txBad == that.txBad && txRetries == that.txRetries && txSuccess == that.txSuccess && rxSuccess == that.rxSuccess; } @Override public int hashCode() { return Objects.hash( mBand, mChannel, mLinkId, mApMacAddress, mStaMacAddress, mState, mRssi, mRxLinkSpeed, mTxLinkSpeed, mTxRetriedTxPacketsPerSecond, mSuccessfulTxPacketsPerSecond, mLostTxPacketsPerSecond, mSuccessfulRxPacketsPerSecond, txBad, txRetries, txSuccess, rxSuccess); } /** @hide */ public static String getStateString(@MloLinkState int state) { switch(state) { case MLO_LINK_STATE_INVALID: return "MLO_LINK_STATE_INVALID"; case MLO_LINK_STATE_UNASSOCIATED: return "MLO_LINK_STATE_UNASSOCIATED"; case MLO_LINK_STATE_IDLE: return "MLO_LINK_STATE_IDLE"; case MLO_LINK_STATE_ACTIVE: return "MLO_LINK_STATE_ACTIVE"; default: return "Unknown MLO link state"; } } /** * @hide */ public static boolean isValidState(@MloLinkState int state) { switch(state) { case MLO_LINK_STATE_INVALID: case MLO_LINK_STATE_UNASSOCIATED: case MLO_LINK_STATE_IDLE: case MLO_LINK_STATE_ACTIVE: return true; } return false; } @Override public String toString() { StringBuilder sb = new StringBuilder("MloLink{"); if (mBand == WIFI_BAND_24_GHZ) { sb.append("2.4GHz"); } else if (mBand == WIFI_BAND_5_GHZ) { sb.append("5GHz"); } else if (mBand == WIFI_BAND_6_GHZ) { sb.append("6GHz"); } else { sb.append("UNKNOWN BAND"); } sb.append(", channel: ").append(mChannel); sb.append(", id: ").append(mLinkId); sb.append(", state: ").append(getStateString(mState)); sb.append(", RSSI: ").append(getRssi()); sb.append(", Rx Link speed: ").append(getRxLinkSpeedMbps()).append( WifiInfo.LINK_SPEED_UNITS); sb.append(", Tx Link speed: ").append(getTxLinkSpeedMbps()).append( WifiInfo.LINK_SPEED_UNITS); if (mApMacAddress != null) { sb.append(", AP MAC Address: ").append(mApMacAddress.toString()); } if (mStaMacAddress != null) { sb.append(", STA MAC Address: ").append(mStaMacAddress.toString()); } sb.append('}'); return sb.toString(); } /** Implement the Parcelable interface */ @Override public int describeContents() { return 0; } /** Implement the Parcelable interface */ @Override public void writeToParcel(@NonNull Parcel dest, int flags) { dest.writeInt(mBand); dest.writeInt(mChannel); dest.writeInt(mLinkId); dest.writeInt(mState); dest.writeInt(mRssi); dest.writeInt(mRxLinkSpeed); dest.writeInt(mTxLinkSpeed); dest.writeParcelable(mApMacAddress, flags); dest.writeParcelable(mStaMacAddress, flags); dest.writeDouble(mLostTxPacketsPerSecond); dest.writeDouble(mSuccessfulTxPacketsPerSecond); dest.writeDouble(mSuccessfulRxPacketsPerSecond); dest.writeDouble(mTxRetriedTxPacketsPerSecond); dest.writeLong(txBad); dest.writeLong(txRetries); dest.writeLong(txSuccess); dest.writeLong(rxSuccess); } /** Implement the Parcelable interface */ public static final @NonNull Creator CREATOR = new Creator() { public MloLink createFromParcel(Parcel in) { MloLink link = new MloLink(); link.mBand = in.readInt(); link.mChannel = in.readInt(); link.mLinkId = in.readInt(); link.mState = in.readInt(); link.mRssi = in.readInt(); link.mRxLinkSpeed = in.readInt(); link.mTxLinkSpeed = in.readInt(); link.mApMacAddress = in.readParcelable(MacAddress.class.getClassLoader()); link.mStaMacAddress = in.readParcelable(MacAddress.class.getClassLoader()); link.mLostTxPacketsPerSecond = in.readDouble(); link.mSuccessfulTxPacketsPerSecond = in.readDouble(); link.mSuccessfulRxPacketsPerSecond = in.readDouble(); link.mTxRetriedTxPacketsPerSecond = in.readDouble(); link.txBad = in.readLong(); link.txRetries = in.readLong(); link.txSuccess = in.readLong(); link.rxSuccess = in.readLong(); return link; } public MloLink[] newArray(int size) { return new MloLink[size]; } }; }