/* * Copyright (C) 2011 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; import static android.net.NetworkPolicy.CYCLE_NONE; import static android.net.NetworkPolicy.LIMIT_DISABLED; import static android.net.NetworkPolicy.SNOOZE_NEVER; import static android.net.NetworkPolicy.WARNING_DISABLED; import static android.net.NetworkTemplate.MATCH_WIFI; import static com.android.internal.util.Preconditions.checkNotNull; import android.net.NetworkPolicy; import android.net.NetworkPolicyManager; import android.net.NetworkTemplate; import android.os.AsyncTask; import android.util.RecurrenceRule; import com.google.android.collect.Lists; import java.time.ZoneId; import java.time.ZonedDateTime; import java.util.ArrayList; /** * Utility class to modify list of {@link NetworkPolicy}. Specifically knows * about which policies can coexist. This editor offers thread safety when * talking with {@link NetworkPolicyManager}. * * @hide */ public class NetworkPolicyEditor { // TODO: be more robust when missing policies from service public static final boolean ENABLE_SPLIT_POLICIES = false; private NetworkPolicyManager mPolicyManager; private ArrayList mPolicies = Lists.newArrayList(); public NetworkPolicyEditor(NetworkPolicyManager policyManager) { mPolicyManager = checkNotNull(policyManager); } public void read() { final NetworkPolicy[] policies = mPolicyManager.getNetworkPolicies(); boolean modified = false; mPolicies.clear(); for (NetworkPolicy policy : policies) { // TODO: find better place to clamp these if (policy.limitBytes < -1) { policy.limitBytes = LIMIT_DISABLED; modified = true; } if (policy.warningBytes < -1) { policy.warningBytes = WARNING_DISABLED; modified = true; } mPolicies.add(policy); } // when we cleaned policies above, write back changes if (modified) writeAsync(); } public void writeAsync() { // TODO: consider making more robust by passing through service final NetworkPolicy[] policies = mPolicies.toArray(new NetworkPolicy[mPolicies.size()]); new AsyncTask() { @Override protected Void doInBackground(Void... params) { write(policies); return null; } }.execute(); } public void write(NetworkPolicy[] policies) { mPolicyManager.setNetworkPolicies(policies); } public boolean hasLimitedPolicy(NetworkTemplate template) { final NetworkPolicy policy = getPolicy(template); return policy != null && policy.limitBytes != LIMIT_DISABLED; } public NetworkPolicy getOrCreatePolicy(NetworkTemplate template) { NetworkPolicy policy = getPolicy(template); if (policy == null) { policy = buildDefaultPolicy(template); mPolicies.add(policy); } return policy; } public NetworkPolicy getPolicy(NetworkTemplate template) { for (NetworkPolicy policy : mPolicies) { if (policy.template.equals(template)) { return policy; } } return null; } public NetworkPolicy getPolicyMaybeUnquoted(NetworkTemplate template) { NetworkPolicy policy = getPolicy(template); if (policy != null) { return policy; } else { return getPolicy(template); } } @Deprecated private static NetworkPolicy buildDefaultPolicy(NetworkTemplate template) { // TODO: move this into framework to share with NetworkPolicyManagerService final RecurrenceRule cycleRule; final boolean metered; if (template.getMatchRule() == MATCH_WIFI) { cycleRule = RecurrenceRule.buildNever(); metered = false; } else { cycleRule = RecurrenceRule.buildRecurringMonthly(ZonedDateTime.now().getDayOfMonth(), ZoneId.systemDefault()); metered = true; } return new NetworkPolicy(template, cycleRule, WARNING_DISABLED, LIMIT_DISABLED, SNOOZE_NEVER, SNOOZE_NEVER, metered, true); } @Deprecated public int getPolicyCycleDay(NetworkTemplate template) { final NetworkPolicy policy = getPolicy(template); if (policy != null && policy.cycleRule.isMonthly()) { return policy.cycleRule.start.getDayOfMonth(); } else { return CYCLE_NONE; } } @Deprecated public void setPolicyCycleDay(NetworkTemplate template, int cycleDay, String cycleTimezone) { final NetworkPolicy policy = getOrCreatePolicy(template); policy.cycleRule = NetworkPolicy.buildRule(cycleDay, ZoneId.of(cycleTimezone)); policy.inferred = false; policy.clearSnooze(); writeAsync(); } public long getPolicyWarningBytes(NetworkTemplate template) { final NetworkPolicy policy = getPolicy(template); return (policy != null) ? policy.warningBytes : WARNING_DISABLED; } private void setPolicyWarningBytesInner(NetworkTemplate template, long warningBytes) { final NetworkPolicy policy = getOrCreatePolicy(template); policy.warningBytes = warningBytes; policy.inferred = false; policy.clearSnooze(); writeAsync(); } public void setPolicyWarningBytes(NetworkTemplate template, long warningBytes) { long limitBytes = getPolicyLimitBytes(template); warningBytes = (limitBytes == LIMIT_DISABLED) ? warningBytes : Math.min(warningBytes, limitBytes); setPolicyWarningBytesInner(template, warningBytes); } public long getPolicyLimitBytes(NetworkTemplate template) { final NetworkPolicy policy = getPolicy(template); return (policy != null) ? policy.limitBytes : LIMIT_DISABLED; } public void setPolicyLimitBytes(NetworkTemplate template, long limitBytes) { long warningBytes = getPolicyWarningBytes(template); if (warningBytes > limitBytes && limitBytes != LIMIT_DISABLED) { setPolicyWarningBytesInner(template, limitBytes); } final NetworkPolicy policy = getOrCreatePolicy(template); policy.limitBytes = limitBytes; policy.inferred = false; policy.clearSnooze(); writeAsync(); } }