/* * Copyright (C) 2017 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 com.android.settingslib.wifi; import android.content.Context; import android.net.wifi.ScanResult; import android.net.wifi.WifiConfiguration; import android.net.wifi.WifiInfo; import android.os.SystemClock; import android.support.annotation.VisibleForTesting; import com.android.settingslib.R; import java.util.Map; public class WifiUtils { public static String buildLoggingSummary(AccessPoint accessPoint, WifiConfiguration config) { final StringBuilder summary = new StringBuilder(); final WifiInfo info = accessPoint.getInfo(); // Add RSSI/band information for this config, what was seen up to 6 seconds ago // verbose WiFi Logging is only turned on thru developers settings if (accessPoint.isActive() && info != null) { summary.append(" f=" + Integer.toString(info.getFrequency())); } summary.append(" " + getVisibilityStatus(accessPoint)); if (config != null && !config.getNetworkSelectionStatus().isNetworkEnabled()) { summary.append(" (" + config.getNetworkSelectionStatus().getNetworkStatusString()); if (config.getNetworkSelectionStatus().getDisableTime() > 0) { long now = System.currentTimeMillis(); long diff = (now - config.getNetworkSelectionStatus().getDisableTime()) / 1000; long sec = diff % 60; //seconds long min = (diff / 60) % 60; //minutes long hour = (min / 60) % 60; //hours summary.append(", "); if (hour > 0) summary.append(Long.toString(hour) + "h "); summary.append(Long.toString(min) + "m "); summary.append(Long.toString(sec) + "s "); } summary.append(")"); } if (config != null) { WifiConfiguration.NetworkSelectionStatus networkStatus = config.getNetworkSelectionStatus(); for (int index = WifiConfiguration.NetworkSelectionStatus.NETWORK_SELECTION_ENABLE; index < WifiConfiguration.NetworkSelectionStatus .NETWORK_SELECTION_DISABLED_MAX; index++) { if (networkStatus.getDisableReasonCounter(index) != 0) { summary.append(" " + WifiConfiguration.NetworkSelectionStatus .getNetworkDisableReasonString(index) + "=" + networkStatus.getDisableReasonCounter(index)); } } } return summary.toString(); } /** * Returns the visibility status of the WifiConfiguration. * * @return autojoin debugging information * TODO: use a string formatter * ["rssi 5Ghz", "num results on 5GHz" / "rssi 5Ghz", "num results on 5GHz"] * For instance [-40,5/-30,2] */ @VisibleForTesting static String getVisibilityStatus(AccessPoint accessPoint) { final WifiInfo info = accessPoint.getInfo(); StringBuilder visibility = new StringBuilder(); StringBuilder scans24GHz = new StringBuilder(); StringBuilder scans5GHz = new StringBuilder(); String bssid = null; if (accessPoint.isActive() && info != null) { bssid = info.getBSSID(); if (bssid != null) { visibility.append(" ").append(bssid); } visibility.append(" rssi=").append(info.getRssi()); visibility.append(" "); visibility.append(" score=").append(info.score); if (accessPoint.getSpeed() != AccessPoint.Speed.NONE) { visibility.append(" speed=").append(accessPoint.getSpeedLabel()); } visibility.append(String.format(" tx=%.1f,", info.txSuccessRate)); visibility.append(String.format("%.1f,", info.txRetriesRate)); visibility.append(String.format("%.1f ", info.txBadRate)); visibility.append(String.format("rx=%.1f", info.rxSuccessRate)); } int maxRssi5 = WifiConfiguration.INVALID_RSSI; int maxRssi24 = WifiConfiguration.INVALID_RSSI; final int maxDisplayedScans = 4; int num5 = 0; // number of scanned BSSID on 5GHz band int num24 = 0; // number of scanned BSSID on 2.4Ghz band int numBlackListed = 0; // TODO: sort list by RSSI or age long nowMs = SystemClock.elapsedRealtime(); for (ScanResult result : accessPoint.getScanResults()) { if (result == null) { continue; } if (result.frequency >= AccessPoint.LOWER_FREQ_5GHZ && result.frequency <= AccessPoint.HIGHER_FREQ_5GHZ) { // Strictly speaking: [4915, 5825] num5++; if (result.level > maxRssi5) { maxRssi5 = result.level; } if (num5 <= maxDisplayedScans) { scans5GHz.append( verboseScanResultSummary(accessPoint, result, bssid, nowMs)); } } else if (result.frequency >= AccessPoint.LOWER_FREQ_24GHZ && result.frequency <= AccessPoint.HIGHER_FREQ_24GHZ) { // Strictly speaking: [2412, 2482] num24++; if (result.level > maxRssi24) { maxRssi24 = result.level; } if (num24 <= maxDisplayedScans) { scans24GHz.append( verboseScanResultSummary(accessPoint, result, bssid, nowMs)); } } } visibility.append(" ["); if (num24 > 0) { visibility.append("(").append(num24).append(")"); if (num24 > maxDisplayedScans) { visibility.append("max=").append(maxRssi24).append(","); } visibility.append(scans24GHz.toString()); } visibility.append(";"); if (num5 > 0) { visibility.append("(").append(num5).append(")"); if (num5 > maxDisplayedScans) { visibility.append("max=").append(maxRssi5).append(","); } visibility.append(scans5GHz.toString()); } if (numBlackListed > 0) { visibility.append("!").append(numBlackListed); } visibility.append("]"); return visibility.toString(); } @VisibleForTesting /* package */ static String verboseScanResultSummary(AccessPoint accessPoint, ScanResult result, String bssid, long nowMs) { StringBuilder stringBuilder = new StringBuilder(); stringBuilder.append(" \n{").append(result.BSSID); if (result.BSSID.equals(bssid)) { stringBuilder.append("*"); } stringBuilder.append("=").append(result.frequency); stringBuilder.append(",").append(result.level); int speed = getSpecificApSpeed(result, accessPoint.getScoredNetworkCache()); if (speed != AccessPoint.Speed.NONE) { stringBuilder.append(",") .append(accessPoint.getSpeedLabel(speed)); } int ageSeconds = (int) (nowMs - result.timestamp / 1000) / 1000; stringBuilder.append(",").append(ageSeconds).append("s"); stringBuilder.append("}"); return stringBuilder.toString(); } @AccessPoint.Speed private static int getSpecificApSpeed(ScanResult result, Map scoredNetworkCache) { TimestampedScoredNetwork timedScore = scoredNetworkCache.get(result.BSSID); if (timedScore == null) { return AccessPoint.Speed.NONE; } // For debugging purposes we may want to use mRssi rather than result.level as the average // speed wil be determined by mRssi return timedScore.getScore().calculateBadge(result.level); } public static String getMeteredLabel(Context context, WifiConfiguration config) { // meteredOverride is whether the user manually set the metered setting or not. // meteredHint is whether the network itself is telling us that it is metered if (config.meteredOverride == WifiConfiguration.METERED_OVERRIDE_METERED || (config.meteredHint && !isMeteredOverridden(config))) { return context.getString(R.string.wifi_metered_label); } return context.getString(R.string.wifi_unmetered_label); } public static boolean isMeteredOverridden(WifiConfiguration config) { return config.meteredOverride != WifiConfiguration.METERED_OVERRIDE_NONE; } }