/* * Copyright (C) 2014 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.server.telecom; import android.app.ActivityManager; import android.Manifest; import android.content.ComponentName; import android.content.Context; import android.content.Intent; import android.content.pm.PackageManager; import android.content.pm.ResolveInfo; import android.content.pm.ServiceInfo; import android.content.pm.UserInfo; import android.graphics.Bitmap; import android.graphics.BitmapFactory; import android.graphics.drawable.Icon; import android.net.Uri; import android.os.Binder; import android.os.PersistableBundle; import android.os.Process; import android.os.UserHandle; import android.os.UserManager; import android.provider.Settings; import android.telecom.ConnectionService; import android.telecom.DefaultDialerManager; import android.telecom.PhoneAccount; import android.telecom.PhoneAccountHandle; import android.telephony.CarrierConfigManager; import android.telephony.PhoneNumberUtils; import android.telephony.SubscriptionManager; import android.telephony.TelephonyManager; import android.text.TextUtils; import android.util.AtomicFile; import android.util.Base64; import android.util.Xml; // TODO: Needed for move to system service: import com.android.internal.R; import com.android.internal.annotations.VisibleForTesting; import com.android.internal.util.FastXmlSerializer; import com.android.internal.util.IndentingPrintWriter; import com.android.internal.util.XmlUtils; import org.xmlpull.v1.XmlPullParser; import org.xmlpull.v1.XmlPullParserException; import org.xmlpull.v1.XmlSerializer; import java.io.BufferedInputStream; import java.io.BufferedOutputStream; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.File; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.IOException; import java.io.InputStream; import java.lang.Integer; import java.lang.SecurityException; import java.lang.String; import java.util.ArrayList; import java.util.Collections; import java.util.Iterator; import java.util.List; import java.util.Objects; import java.util.concurrent.CopyOnWriteArrayList; /** * Handles writing and reading PhoneAccountHandle registration entries. This is a simple verbatim * delegate for all the account handling methods on {@link android.telecom.TelecomManager} as * implemented in {@link TelecomServiceImpl}, with the notable exception that * {@link TelecomServiceImpl} is responsible for security checking to make sure that the caller has * proper authority over the {@code ComponentName}s they are declaring in their * {@code PhoneAccountHandle}s. * * * -- About Users and Phone Accounts -- * * We store all phone accounts for all users in a single place, which means that there are three * users that we have to deal with in code: * 1) The Android User that is currently active on the device. * 2) The user which owns/registers the phone account. * 3) The user running the app that is requesting the phone account information. * * For example, I have a device with 2 users, primary (A) and secondary (B), and the secondary user * has a work profile running as another user (B2). Lets say that user B opens the phone settings * (not currently supported, but theoretically speaking), and phone settings queries for a phone * account list. Lets also say that an app running in the work profile has registered a phone * account. This means that: * * Since phone settings always runs as the primary user, We have the following situation: * User A (settings) is requesting a list of phone accounts while the active user is User B, and * that list contains a phone account for profile User B2. * * In practice, (2) is stored with the phone account handle and is part of the handle's ID. (1) is * saved in {@link #mCurrentUserHandle} and (3) we get from Binder.getCallingUser(). We check these * users for visibility before returning any phone accounts. */ public final class PhoneAccountRegistrar { public static final PhoneAccountHandle NO_ACCOUNT_SELECTED = new PhoneAccountHandle(new ComponentName("null", "null"), "NO_ACCOUNT_SELECTED"); public abstract static class Listener { public void onAccountsChanged(PhoneAccountRegistrar registrar) {} public void onDefaultOutgoingChanged(PhoneAccountRegistrar registrar) {} public void onSimCallManagerChanged(PhoneAccountRegistrar registrar) {} } private static final String FILE_NAME = "phone-account-registrar-state.xml"; @VisibleForTesting public static final int EXPECTED_STATE_VERSION = 8; /** Keep in sync with the same in SipSettings.java */ private static final String SIP_SHARED_PREFERENCES = "SIP_PREFERENCES"; private final List mListeners = new CopyOnWriteArrayList<>(); private final AtomicFile mAtomicFile; private final Context mContext; private final UserManager mUserManager; private final SubscriptionManager mSubscriptionManager; private State mState; private UserHandle mCurrentUserHandle; @VisibleForTesting public PhoneAccountRegistrar(Context context) { this(context, FILE_NAME); } @VisibleForTesting public PhoneAccountRegistrar(Context context, String fileName) { // TODO: This file path is subject to change -- it is storing the phone account registry // state file in the path /data/system/users/0/, which is likely not correct in a // multi-user setting. /** UNCOMMENT_FOR_MOVE_TO_SYSTEM_SERVICE String filePath = Environment.getUserSystemDirectory(UserHandle.myUserId()). getAbsolutePath(); mAtomicFile = new AtomicFile(new File(filePath, fileName)); UNCOMMENT_FOR_MOVE_TO_SYSTEM_SERVICE */ mAtomicFile = new AtomicFile(new File(context.getFilesDir(), fileName)); mState = new State(); mContext = context; mUserManager = UserManager.get(context); mSubscriptionManager = SubscriptionManager.from(mContext); mCurrentUserHandle = Process.myUserHandle(); read(); } /** * Retrieves the subscription id for a given phone account if it exists. Subscription ids * apply only to PSTN/SIM card phone accounts so all other accounts should not have a * subscription id. * @param accountHandle The handle for the phone account for which to retrieve the * subscription id. * @return The value of the subscription id or -1 if it does not exist or is not valid. */ public int getSubscriptionIdForPhoneAccount(PhoneAccountHandle accountHandle) { PhoneAccount account = getPhoneAccountCheckCallingUser(accountHandle); if (account != null && account.hasCapabilities(PhoneAccount.CAPABILITY_SIM_SUBSCRIPTION)) { TelephonyManager tm = (TelephonyManager) mContext.getSystemService(Context.TELEPHONY_SERVICE); return tm.getSubIdForPhoneAccount(account); } return SubscriptionManager.INVALID_SUBSCRIPTION_ID; } /** * Retrieves the default outgoing phone account supporting the specified uriScheme. Note that if * {@link #mCurrentUserHandle} does not have visibility into the current default, {@code null} * will be returned. * * @param uriScheme The URI scheme for the outgoing call. * @return The {@link PhoneAccountHandle} to use. */ public PhoneAccountHandle getOutgoingPhoneAccountForScheme(String uriScheme) { final PhoneAccountHandle userSelected = getUserSelectedOutgoingPhoneAccount(); if (userSelected != null) { // If there is a default PhoneAccount, ensure it supports calls to handles with the // specified uriScheme. final PhoneAccount userSelectedAccount = getPhoneAccountCheckCallingUser(userSelected); if (userSelectedAccount.supportsUriScheme(uriScheme)) { return userSelected; } } List outgoing = getCallCapablePhoneAccounts(uriScheme, false); switch (outgoing.size()) { case 0: // There are no accounts, so there can be no default return null; case 1: // There is only one account, which is by definition the default. return outgoing.get(0); default: // There are multiple accounts with no selected default return null; } } /** * @return The user-selected outgoing {@link PhoneAccount}, or null if it hasn't been set (or * if it was set by another user). */ PhoneAccountHandle getUserSelectedOutgoingPhoneAccount() { PhoneAccount account = getPhoneAccountCheckCallingUser(mState.defaultOutgoing); if (account != null) { return mState.defaultOutgoing; } return null; } /** * Sets the phone account with which to place all calls by default. Set by the user * within phone settings. */ public void setUserSelectedOutgoingPhoneAccount(PhoneAccountHandle accountHandle) { if (accountHandle == null) { // Asking to clear the default outgoing is a valid request mState.defaultOutgoing = null; } else { // TODO: Do we really want to return for *any* user? PhoneAccount account = getPhoneAccount(accountHandle); if (account == null) { Log.w(this, "Trying to set nonexistent default outgoing %s", accountHandle); return; } if (!account.hasCapabilities(PhoneAccount.CAPABILITY_CALL_PROVIDER)) { Log.w(this, "Trying to set non-call-provider default outgoing %s", accountHandle); return; } if (account.hasCapabilities(PhoneAccount.CAPABILITY_SIM_SUBSCRIPTION)) { // If the account selected is a SIM account, propagate down to the subscription // record. int subId = getSubscriptionIdForPhoneAccount(accountHandle); mSubscriptionManager.setDefaultVoiceSubId(subId); } mState.defaultOutgoing = accountHandle; } write(); fireDefaultOutgoingChanged(); } boolean isUserSelectedSmsPhoneAccount(PhoneAccountHandle accountHandle) { return getSubscriptionIdForPhoneAccount(accountHandle) == SubscriptionManager.getDefaultSmsSubId(); } /** * Returns the {@link PhoneAccountHandle} corresponding to the currently active SIM Call * Manager. SIM Call Manager returned corresponds to the following priority order: * 1. If a SIM Call Manager {@link PhoneAccount} is registered for the same package as the * default dialer, then that one is returned. * 2. If there is a SIM Call Manager {@link PhoneAccount} registered which matches the * carrier configuration's default, then that one is returned. * 3. Otherwise, we return null. */ public PhoneAccountHandle getSimCallManager() { long token = Binder.clearCallingIdentity(); int user; try { user = ActivityManager.getCurrentUser(); } finally { Binder.restoreCallingIdentity(token); } return getSimCallManager(user); } public ComponentName getSystemSimCallManagerComponent() { String defaultSimCallManager = null; CarrierConfigManager configManager = (CarrierConfigManager) mContext.getSystemService( Context.CARRIER_CONFIG_SERVICE); PersistableBundle configBundle = configManager.getConfig(); if (configBundle != null) { defaultSimCallManager = configBundle.getString( CarrierConfigManager.KEY_DEFAULT_SIM_CALL_MANAGER_STRING); } return TextUtils.isEmpty(defaultSimCallManager) ? null : ComponentName.unflattenFromString(defaultSimCallManager); } /** * Returns the {@link PhoneAccountHandle} corresponding to the currently active SIM Call * Manager. SIM Call Manager returned corresponds to the following priority order: * 1. If a SIM Call Manager {@link PhoneAccount} is registered for the same package as the * default dialer, then that one is returned. * 2. If there is a SIM Call Manager {@link PhoneAccount} registered which matches the * carrier configuration's default, then that one is returned. * 3. Otherwise, we return null. */ public PhoneAccountHandle getSimCallManager(int user) { // Get the default dialer in case it has a connection manager associated with it. String dialerPackage = DefaultDialerManager.getDefaultDialerApplication(mContext, user); // Check carrier config. ComponentName systemSimCallManagerComponent = getSystemSimCallManagerComponent(); PhoneAccountHandle dialerSimCallManager = null; PhoneAccountHandle systemSimCallManager = null; if (!TextUtils.isEmpty(dialerPackage) || systemSimCallManagerComponent != null) { // loop through and look for any connection manager in the same package. List allSimCallManagers = getPhoneAccountHandles( PhoneAccount.CAPABILITY_CONNECTION_MANAGER, null, null, true /* includeDisabledAccounts */); for (PhoneAccountHandle accountHandle : allSimCallManagers) { ComponentName component = accountHandle.getComponentName(); // Store the system connection manager if found if (systemSimCallManager == null && Objects.equals(component, systemSimCallManagerComponent) && !resolveComponent(accountHandle).isEmpty()) { systemSimCallManager = accountHandle; // Store the dialer connection manager if found } else if (dialerSimCallManager == null && Objects.equals(component.getPackageName(), dialerPackage) && !resolveComponent(accountHandle).isEmpty()) { dialerSimCallManager = accountHandle; } } } PhoneAccountHandle retval = dialerSimCallManager != null ? dialerSimCallManager : systemSimCallManager; Log.i(this, "SimCallManager queried, returning: %s", retval); return retval; } /** * Update the current UserHandle to track when users are switched. This will allow the * PhoneAccountRegistar to self-filter the PhoneAccounts to make sure we don't leak anything * across users. * We cannot simply check the calling user because that would always return the primary user for * all invocations originating with the system process. * * @param userHandle The {@link UserHandle}, as delivered by * {@link Intent#ACTION_USER_SWITCHED}. */ public void setCurrentUserHandle(UserHandle userHandle) { if (userHandle == null) { Log.d(this, "setCurrentUserHandle, userHandle = null"); userHandle = Process.myUserHandle(); } Log.d(this, "setCurrentUserHandle, %s", userHandle); mCurrentUserHandle = userHandle; } /** * @return {@code true} if the phone account was successfully enabled/disabled, {@code false} * otherwise. */ public boolean enablePhoneAccount(PhoneAccountHandle accountHandle, boolean isEnabled) { PhoneAccount account = getPhoneAccount(accountHandle); if (account == null) { Log.w(this, "Could not find account to enable: " + accountHandle); return false; } else if (account.hasCapabilities(PhoneAccount.CAPABILITY_SIM_SUBSCRIPTION)) { // We never change the enabled state of SIM-based accounts. Log.w(this, "Could not change enable state of SIM account: " + accountHandle); return false; } if (account.isEnabled() != isEnabled) { account.setIsEnabled(isEnabled); write(); fireAccountsChanged(); } return true; } private boolean isVisibleForUser(PhoneAccount account) { if (account == null) { return false; } // If this PhoneAccount has CAPABILITY_MULTI_USER, it should be visible to all users and // all profiles. Only Telephony and SIP accounts should have this capability. if (account.hasCapabilities(PhoneAccount.CAPABILITY_MULTI_USER)) { return true; } UserHandle phoneAccountUserHandle = account.getAccountHandle().getUserHandle(); if (phoneAccountUserHandle == null) { return false; } if (mCurrentUserHandle == null) { Log.d(this, "Current user is null; assuming true"); return true; } if (phoneAccountUserHandle.equals(Binder.getCallingUserHandle())) { return true; } // Special check for work profiles. // Unlike in TelecomServiceImpl, we only care about *profiles* here. We want to make sure // that we don't resolve PhoneAccount across *users*, but resolving across *profiles* is // fine. if (UserHandle.getCallingUserId() == UserHandle.USER_OWNER) { List profileUsers = mUserManager.getProfiles(mCurrentUserHandle.getIdentifier()); for (UserInfo profileInfo : profileUsers) { if (profileInfo.getUserHandle().equals(phoneAccountUserHandle)) { return true; } } } return false; } private List resolveComponent(PhoneAccountHandle phoneAccountHandle) { return resolveComponent(phoneAccountHandle.getComponentName(), phoneAccountHandle.getUserHandle()); } private List resolveComponent(ComponentName componentName, UserHandle userHandle) { PackageManager pm = mContext.getPackageManager(); Intent intent = new Intent(ConnectionService.SERVICE_INTERFACE); intent.setComponent(componentName); try { if (userHandle != null) { return pm.queryIntentServicesAsUser(intent, 0, userHandle.getIdentifier()); } else { return pm.queryIntentServices(intent, 0); } } catch (SecurityException e) { Log.e(this, e, "%s is not visible for the calling user", componentName); return Collections.EMPTY_LIST; } } /** * Retrieves a list of all {@link PhoneAccountHandle}s registered. * Only returns accounts which are enabled. * * @return The list of {@link PhoneAccountHandle}s. */ public List getAllPhoneAccountHandles() { return getPhoneAccountHandles(0, null, null, false); } public List getAllPhoneAccounts() { return getPhoneAccounts(0, null, null, false); } /** * Retrieves a list of all phone account call provider phone accounts supporting the * specified URI scheme. * * @param uriScheme The URI scheme. * @return The phone account handles. */ public List getCallCapablePhoneAccounts( String uriScheme, boolean includeDisabledAccounts) { return getPhoneAccountHandles( PhoneAccount.CAPABILITY_CALL_PROVIDER, uriScheme, null, includeDisabledAccounts); } /** * Retrieves a list of all the SIM-based phone accounts. */ public List getSimPhoneAccounts() { return getPhoneAccountHandles( PhoneAccount.CAPABILITY_CALL_PROVIDER | PhoneAccount.CAPABILITY_SIM_SUBSCRIPTION, null, null, false); } /** * Retrieves a list of all phone accounts registered by a specified package. * * @param packageName The name of the package that registered the phone accounts. * @return The phone account handles. */ public List getPhoneAccountsForPackage(String packageName) { return getPhoneAccountHandles(0, null, packageName, false); } // TODO: Should we implement an artificial limit for # of accounts associated with a single // ComponentName? public void registerPhoneAccount(PhoneAccount account) { // Enforce the requirement that a connection service for a phone account has the correct // permission. if (!phoneAccountRequiresBindPermission(account.getAccountHandle())) { Log.w(this, "Phone account %s does not have BIND_TELECOM_CONNECTION_SERVICE permission.", account.getAccountHandle()); throw new SecurityException("PhoneAccount connection service requires " + "BIND_TELECOM_CONNECTION_SERVICE permission."); } addOrReplacePhoneAccount(account); } /** * Adds a {@code PhoneAccount}, replacing an existing one if found. * * @param account The {@code PhoneAccount} to add or replace. */ private void addOrReplacePhoneAccount(PhoneAccount account) { Log.d(this, "addOrReplacePhoneAccount(%s -> %s)", account.getAccountHandle(), account); // Start _enabled_ property as false. // !!! IMPORTANT !!! It is important that we do not read the enabled state that the // source app provides or else an third party app could enable itself. boolean isEnabled = false; PhoneAccount oldAccount = getPhoneAccount(account.getAccountHandle()); if (oldAccount != null) { mState.accounts.remove(oldAccount); isEnabled = oldAccount.isEnabled(); Log.i(this, getAccountDiffString(account, oldAccount)); } else { Log.i(this, "New phone account registered: " + account); } mState.accounts.add(account); // Reset enabled state to whatever the value was if the account was already registered, // or _true_ if this is a SIM-based account. All SIM-based accounts are always enabled. account.setIsEnabled( isEnabled || account.hasCapabilities(PhoneAccount.CAPABILITY_SIM_SUBSCRIPTION)); write(); fireAccountsChanged(); } public void unregisterPhoneAccount(PhoneAccountHandle accountHandle) { PhoneAccount account = getPhoneAccount(accountHandle); if (account != null) { if (mState.accounts.remove(account)) { write(); fireAccountsChanged(); } } } /** * Un-registers all phone accounts associated with a specified package. * * @param packageName The package for which phone accounts will be removed. * @param userHandle The {@link UserHandle} the package is running under. */ public void clearAccounts(String packageName, UserHandle userHandle) { boolean accountsRemoved = false; Iterator it = mState.accounts.iterator(); while (it.hasNext()) { PhoneAccount phoneAccount = it.next(); PhoneAccountHandle handle = phoneAccount.getAccountHandle(); if (Objects.equals(packageName, handle.getComponentName().getPackageName()) && Objects.equals(userHandle, handle.getUserHandle())) { Log.i(this, "Removing phone account " + phoneAccount.getLabel()); mState.accounts.remove(phoneAccount); accountsRemoved = true; } } if (accountsRemoved) { write(); fireAccountsChanged(); } } public boolean isVoiceMailNumber(PhoneAccountHandle accountHandle, String number) { int subId = getSubscriptionIdForPhoneAccount(accountHandle); return PhoneNumberUtils.isVoiceMailNumber(mContext, subId, number); } public void addListener(Listener l) { mListeners.add(l); } public void removeListener(Listener l) { if (l != null) { mListeners.remove(l); } } private void fireAccountsChanged() { for (Listener l : mListeners) { l.onAccountsChanged(this); } } private void fireDefaultOutgoingChanged() { for (Listener l : mListeners) { l.onDefaultOutgoingChanged(this); } } private void fireSimCallManagerChanged() { for (Listener l : mListeners) { l.onSimCallManagerChanged(this); } } private String getAccountDiffString(PhoneAccount account1, PhoneAccount account2) { if (account1 == null || account2 == null) { return "Diff: " + account1 + ", " + account2; } StringBuffer sb = new StringBuffer(); sb.append("[").append(account1.getAccountHandle()); appendDiff(sb, "addr", Log.piiHandle(account1.getAddress()), Log.piiHandle(account2.getAddress())); appendDiff(sb, "cap", account1.getCapabilities(), account2.getCapabilities()); appendDiff(sb, "hl", account1.getHighlightColor(), account2.getHighlightColor()); appendDiff(sb, "icon", account1.getIcon(), account2.getIcon()); appendDiff(sb, "lbl", account1.getLabel(), account2.getLabel()); appendDiff(sb, "desc", account1.getShortDescription(), account2.getShortDescription()); appendDiff(sb, "subAddr", Log.piiHandle(account1.getSubscriptionAddress()), Log.piiHandle(account2.getSubscriptionAddress())); appendDiff(sb, "uris", account1.getSupportedUriSchemes(), account2.getSupportedUriSchemes()); sb.append("]"); return sb.toString(); } private void appendDiff(StringBuffer sb, String attrName, Object obj1, Object obj2) { if (!Objects.equals(obj1, obj2)) { sb.append("(") .append(attrName) .append(": ") .append(obj1) .append(" -> ") .append(obj2) .append(")"); } } /** * Determines if the connection service specified by a {@link PhoneAccountHandle} requires the * {@link Manifest.permission#BIND_TELECOM_CONNECTION_SERVICE} permission. * * @param phoneAccountHandle The phone account to check. * @return {@code True} if the phone account has permission. */ public boolean phoneAccountRequiresBindPermission(PhoneAccountHandle phoneAccountHandle) { List resolveInfos = resolveComponent(phoneAccountHandle); if (resolveInfos.isEmpty()) { Log.w(this, "phoneAccount %s not found", phoneAccountHandle.getComponentName()); return false; } for (ResolveInfo resolveInfo : resolveInfos) { ServiceInfo serviceInfo = resolveInfo.serviceInfo; if (serviceInfo == null) { return false; } if (!Manifest.permission.BIND_CONNECTION_SERVICE.equals(serviceInfo.permission) && !Manifest.permission.BIND_TELECOM_CONNECTION_SERVICE.equals( serviceInfo.permission)) { // The ConnectionService must require either the deprecated BIND_CONNECTION_SERVICE, // or the public BIND_TELECOM_CONNECTION_SERVICE permissions, both of which are // system/signature only. return false; } } return true; } // // Methods for retrieving PhoneAccounts and PhoneAccountHandles // /** * Returns the PhoneAccount for the specified handle. Does no user checking. * * @param handle * @return The corresponding phone account if one exists. */ PhoneAccount getPhoneAccount(PhoneAccountHandle handle) { for (PhoneAccount m : mState.accounts) { if (Objects.equals(handle, m.getAccountHandle())) { return m; } } return null; } /** * Like getPhoneAccount, but checks to see if the current user is allowed to see the phone * account before returning it. The current user is the active user on the actual android * device. */ public PhoneAccount getPhoneAccountCheckCallingUser(PhoneAccountHandle handle) { PhoneAccount account = getPhoneAccount(handle); if (account != null && isVisibleForUser(account)) { return account; } return null; } /** * Returns a list of phone account handles with the specified capabilities, uri scheme, * and package name. */ private List getPhoneAccountHandles( int capabilities, String uriScheme, String packageName, boolean includeDisabledAccounts) { List handles = new ArrayList<>(); for (PhoneAccount account : getPhoneAccounts( capabilities, uriScheme, packageName, includeDisabledAccounts)) { handles.add(account.getAccountHandle()); } return handles; } /** * Returns a list of phone account handles with the specified flag, supporting the specified * URI scheme, within the specified package name. * * @param capabilities Capabilities which the {@code PhoneAccount} must have. Ignored if 0. * @param uriScheme URI schemes the PhoneAccount must handle. {@code null} bypasses the * URI scheme check. * @param packageName Package name of the PhoneAccount. {@code null} bypasses packageName check. */ private List getPhoneAccounts( int capabilities, String uriScheme, String packageName, boolean includeDisabledAccounts) { List accounts = new ArrayList<>(mState.accounts.size()); for (PhoneAccount m : mState.accounts) { if (!(m.isEnabled() || includeDisabledAccounts)) { // Do not include disabled accounts. continue; } if (capabilities != 0 && !m.hasCapabilities(capabilities)) { // Account doesn't have the right capabilities; skip this one. continue; } if (uriScheme != null && !m.supportsUriScheme(uriScheme)) { // Account doesn't support this URI scheme; skip this one. continue; } PhoneAccountHandle handle = m.getAccountHandle(); if (resolveComponent(handle).isEmpty()) { // This component cannot be resolved anymore; skip this one. continue; } if (packageName != null && !packageName.equals(handle.getComponentName().getPackageName())) { // Not the right package name; skip this one. continue; } if (!isVisibleForUser(m)) { // Account is not visible for the current user; skip this one. continue; } accounts.add(m); } return accounts; } // // State Implementation for PhoneAccountRegistrar // /** * The state of this {@code PhoneAccountRegistrar}. */ @VisibleForTesting public static class State { /** * The account selected by the user to be employed by default for making outgoing calls. * If the user has not made such a selection, then this is null. */ public PhoneAccountHandle defaultOutgoing = null; /** * The complete list of {@code PhoneAccount}s known to the Telecom subsystem. */ public final List accounts = new CopyOnWriteArrayList<>(); /** * The version number of the State data. */ public int versionNumber; } /** * Dumps the state of the {@link CallsManager}. * * @param pw The {@code IndentingPrintWriter} to write the state to. */ public void dump(IndentingPrintWriter pw) { if (mState != null) { pw.println("xmlVersion: " + mState.versionNumber); pw.println("defaultOutgoing: " + (mState.defaultOutgoing == null ? "none" : mState.defaultOutgoing)); pw.println("simCallManager: " + getSimCallManager()); pw.println("phoneAccounts:"); pw.increaseIndent(); for (PhoneAccount phoneAccount : mState.accounts) { pw.println(phoneAccount); } pw.decreaseIndent(); } } //////////////////////////////////////////////////////////////////////////////////////////////// // // State management // private void write() { final FileOutputStream os; try { os = mAtomicFile.startWrite(); boolean success = false; try { XmlSerializer serializer = new FastXmlSerializer(); serializer.setOutput(new BufferedOutputStream(os), "utf-8"); writeToXml(mState, serializer, mContext); serializer.flush(); success = true; } finally { if (success) { mAtomicFile.finishWrite(os); } else { mAtomicFile.failWrite(os); } } } catch (IOException e) { Log.e(this, e, "Writing state to XML file"); } } private void read() { final InputStream is; try { is = mAtomicFile.openRead(); } catch (FileNotFoundException ex) { return; } boolean versionChanged = false; XmlPullParser parser; try { parser = Xml.newPullParser(); parser.setInput(new BufferedInputStream(is), null); parser.nextTag(); mState = readFromXml(parser, mContext); versionChanged = mState.versionNumber < EXPECTED_STATE_VERSION; } catch (IOException | XmlPullParserException e) { Log.e(this, e, "Reading state from XML file"); mState = new State(); } finally { try { is.close(); } catch (IOException e) { Log.e(this, e, "Closing InputStream"); } } // Verify all of the UserHandles. List badAccounts = new ArrayList<>(); for (PhoneAccount phoneAccount : mState.accounts) { UserHandle userHandle = phoneAccount.getAccountHandle().getUserHandle(); if (userHandle == null) { Log.w(this, "Missing UserHandle for %s", phoneAccount); badAccounts.add(phoneAccount); } else if (mUserManager.getSerialNumberForUser(userHandle) == -1) { Log.w(this, "User does not exist for %s", phoneAccount); badAccounts.add(phoneAccount); } } mState.accounts.removeAll(badAccounts); // If an upgrade occurred, write out the changed data. if (versionChanged || !badAccounts.isEmpty()) { write(); } } private static void writeToXml(State state, XmlSerializer serializer, Context context) throws IOException { sStateXml.writeToXml(state, serializer, context); } private static State readFromXml(XmlPullParser parser, Context context) throws IOException, XmlPullParserException { State s = sStateXml.readFromXml(parser, 0, context); return s != null ? s : new State(); } //////////////////////////////////////////////////////////////////////////////////////////////// // // XML serialization // @VisibleForTesting public abstract static class XmlSerialization { private static final String LENGTH_ATTRIBUTE = "length"; private static final String VALUE_TAG = "value"; /** * Write the supplied object to XML */ public abstract void writeToXml(T o, XmlSerializer serializer, Context context) throws IOException; /** * Read from the supplied XML into a new object, returning null in case of an * unrecoverable schema mismatch or other data error. 'parser' must be already * positioned at the first tag that is expected to have been emitted by this * object's writeToXml(). This object tries to fail early without modifying * 'parser' if it does not recognize the data it sees. */ public abstract T readFromXml(XmlPullParser parser, int version, Context context) throws IOException, XmlPullParserException; protected void writeTextIfNonNull(String tagName, Object value, XmlSerializer serializer) throws IOException { if (value != null) { serializer.startTag(null, tagName); serializer.text(Objects.toString(value)); serializer.endTag(null, tagName); } } /** * Serializes a string array. * * @param tagName The tag name for the string array. * @param values The string values to serialize. * @param serializer The serializer. * @throws IOException */ protected void writeStringList(String tagName, List values, XmlSerializer serializer) throws IOException { serializer.startTag(null, tagName); if (values != null) { serializer.attribute(null, LENGTH_ATTRIBUTE, Objects.toString(values.size())); for (String toSerialize : values) { serializer.startTag(null, VALUE_TAG); if (toSerialize != null ){ serializer.text(toSerialize); } serializer.endTag(null, VALUE_TAG); } } else { serializer.attribute(null, LENGTH_ATTRIBUTE, "0"); } serializer.endTag(null, tagName); } protected void writeIconIfNonNull(String tagName, Icon value, XmlSerializer serializer) throws IOException { if (value != null) { ByteArrayOutputStream stream = new ByteArrayOutputStream(); value.writeToStream(stream); byte[] iconByteArray = stream.toByteArray(); String text = Base64.encodeToString(iconByteArray, 0, iconByteArray.length, 0); serializer.startTag(null, tagName); serializer.text(text); serializer.endTag(null, tagName); } } protected void writeLong(String tagName, long value, XmlSerializer serializer) throws IOException { serializer.startTag(null, tagName); serializer.text(Long.valueOf(value).toString()); serializer.endTag(null, tagName); } /** * Reads a string array from the XML parser. * * @param parser The XML parser. * @return String array containing the parsed values. * @throws IOException Exception related to IO. * @throws XmlPullParserException Exception related to parsing. */ protected List readStringList(XmlPullParser parser) throws IOException, XmlPullParserException { int length = Integer.parseInt(parser.getAttributeValue(null, LENGTH_ATTRIBUTE)); List arrayEntries = new ArrayList(length); String value = null; if (length == 0) { return arrayEntries; } int outerDepth = parser.getDepth(); while (XmlUtils.nextElementWithin(parser, outerDepth)) { if (parser.getName().equals(VALUE_TAG)) { parser.next(); value = parser.getText(); arrayEntries.add(value); } } return arrayEntries; } protected Bitmap readBitmap(XmlPullParser parser) { byte[] imageByteArray = Base64.decode(parser.getText(), 0); return BitmapFactory.decodeByteArray(imageByteArray, 0, imageByteArray.length); } protected Icon readIcon(XmlPullParser parser) throws IOException { byte[] iconByteArray = Base64.decode(parser.getText(), 0); ByteArrayInputStream stream = new ByteArrayInputStream(iconByteArray); return Icon.createFromStream(stream); } } @VisibleForTesting public static final XmlSerialization sStateXml = new XmlSerialization() { private static final String CLASS_STATE = "phone_account_registrar_state"; private static final String DEFAULT_OUTGOING = "default_outgoing"; private static final String ACCOUNTS = "accounts"; private static final String VERSION = "version"; @Override public void writeToXml(State o, XmlSerializer serializer, Context context) throws IOException { if (o != null) { serializer.startTag(null, CLASS_STATE); serializer.attribute(null, VERSION, Objects.toString(EXPECTED_STATE_VERSION)); if (o.defaultOutgoing != null) { serializer.startTag(null, DEFAULT_OUTGOING); sPhoneAccountHandleXml.writeToXml(o.defaultOutgoing, serializer, context); serializer.endTag(null, DEFAULT_OUTGOING); } serializer.startTag(null, ACCOUNTS); for (PhoneAccount m : o.accounts) { sPhoneAccountXml.writeToXml(m, serializer, context); } serializer.endTag(null, ACCOUNTS); serializer.endTag(null, CLASS_STATE); } } @Override public State readFromXml(XmlPullParser parser, int version, Context context) throws IOException, XmlPullParserException { if (parser.getName().equals(CLASS_STATE)) { State s = new State(); String rawVersion = parser.getAttributeValue(null, VERSION); s.versionNumber = TextUtils.isEmpty(rawVersion) ? 1 : Integer.parseInt(rawVersion); int outerDepth = parser.getDepth(); while (XmlUtils.nextElementWithin(parser, outerDepth)) { if (parser.getName().equals(DEFAULT_OUTGOING)) { parser.nextTag(); s.defaultOutgoing = sPhoneAccountHandleXml.readFromXml(parser, s.versionNumber, context); } else if (parser.getName().equals(ACCOUNTS)) { int accountsDepth = parser.getDepth(); while (XmlUtils.nextElementWithin(parser, accountsDepth)) { PhoneAccount account = sPhoneAccountXml.readFromXml(parser, s.versionNumber, context); if (account != null && s.accounts != null) { s.accounts.add(account); } } } } return s; } return null; } }; @VisibleForTesting public static final XmlSerialization sPhoneAccountXml = new XmlSerialization() { private static final String CLASS_PHONE_ACCOUNT = "phone_account"; private static final String ACCOUNT_HANDLE = "account_handle"; private static final String ADDRESS = "handle"; private static final String SUBSCRIPTION_ADDRESS = "subscription_number"; private static final String CAPABILITIES = "capabilities"; private static final String ICON_RES_ID = "icon_res_id"; private static final String ICON_PACKAGE_NAME = "icon_package_name"; private static final String ICON_BITMAP = "icon_bitmap"; private static final String ICON_TINT = "icon_tint"; private static final String HIGHLIGHT_COLOR = "highlight_color"; private static final String LABEL = "label"; private static final String SHORT_DESCRIPTION = "short_description"; private static final String SUPPORTED_URI_SCHEMES = "supported_uri_schemes"; private static final String ICON = "icon"; private static final String ENABLED = "enabled"; @Override public void writeToXml(PhoneAccount o, XmlSerializer serializer, Context context) throws IOException { if (o != null) { serializer.startTag(null, CLASS_PHONE_ACCOUNT); if (o.getAccountHandle() != null) { serializer.startTag(null, ACCOUNT_HANDLE); sPhoneAccountHandleXml.writeToXml(o.getAccountHandle(), serializer, context); serializer.endTag(null, ACCOUNT_HANDLE); } writeTextIfNonNull(ADDRESS, o.getAddress(), serializer); writeTextIfNonNull(SUBSCRIPTION_ADDRESS, o.getSubscriptionAddress(), serializer); writeTextIfNonNull(CAPABILITIES, Integer.toString(o.getCapabilities()), serializer); writeIconIfNonNull(ICON, o.getIcon(), serializer); writeTextIfNonNull(HIGHLIGHT_COLOR, Integer.toString(o.getHighlightColor()), serializer); writeTextIfNonNull(LABEL, o.getLabel(), serializer); writeTextIfNonNull(SHORT_DESCRIPTION, o.getShortDescription(), serializer); writeStringList(SUPPORTED_URI_SCHEMES, o.getSupportedUriSchemes(), serializer); writeTextIfNonNull(ENABLED, o.isEnabled() ? "true" : "false" , serializer); serializer.endTag(null, CLASS_PHONE_ACCOUNT); } } public PhoneAccount readFromXml(XmlPullParser parser, int version, Context context) throws IOException, XmlPullParserException { if (parser.getName().equals(CLASS_PHONE_ACCOUNT)) { int outerDepth = parser.getDepth(); PhoneAccountHandle accountHandle = null; Uri address = null; Uri subscriptionAddress = null; int capabilities = 0; int iconResId = PhoneAccount.NO_RESOURCE_ID; String iconPackageName = null; Bitmap iconBitmap = null; int iconTint = PhoneAccount.NO_ICON_TINT; int highlightColor = PhoneAccount.NO_HIGHLIGHT_COLOR; String label = null; String shortDescription = null; List supportedUriSchemes = null; Icon icon = null; boolean enabled = false; while (XmlUtils.nextElementWithin(parser, outerDepth)) { if (parser.getName().equals(ACCOUNT_HANDLE)) { parser.nextTag(); accountHandle = sPhoneAccountHandleXml.readFromXml(parser, version, context); } else if (parser.getName().equals(ADDRESS)) { parser.next(); address = Uri.parse(parser.getText()); } else if (parser.getName().equals(SUBSCRIPTION_ADDRESS)) { parser.next(); String nextText = parser.getText(); subscriptionAddress = nextText == null ? null : Uri.parse(nextText); } else if (parser.getName().equals(CAPABILITIES)) { parser.next(); capabilities = Integer.parseInt(parser.getText()); } else if (parser.getName().equals(ICON_RES_ID)) { parser.next(); iconResId = Integer.parseInt(parser.getText()); } else if (parser.getName().equals(ICON_PACKAGE_NAME)) { parser.next(); iconPackageName = parser.getText(); } else if (parser.getName().equals(ICON_BITMAP)) { parser.next(); iconBitmap = readBitmap(parser); } else if (parser.getName().equals(ICON_TINT)) { parser.next(); iconTint = Integer.parseInt(parser.getText()); } else if (parser.getName().equals(HIGHLIGHT_COLOR)) { parser.next(); highlightColor = Integer.parseInt(parser.getText()); } else if (parser.getName().equals(LABEL)) { parser.next(); label = parser.getText(); } else if (parser.getName().equals(SHORT_DESCRIPTION)) { parser.next(); shortDescription = parser.getText(); } else if (parser.getName().equals(SUPPORTED_URI_SCHEMES)) { supportedUriSchemes = readStringList(parser); } else if (parser.getName().equals(ICON)) { parser.next(); icon = readIcon(parser); } else if (parser.getName().equals(ENABLED)) { parser.next(); enabled = "true".equalsIgnoreCase(parser.getText()); } } ComponentName pstnComponentName = new ComponentName("com.android.phone", "com.android.services.telephony.TelephonyConnectionService"); ComponentName sipComponentName = new ComponentName("com.android.phone", "com.android.services.telephony.sip.SipConnectionService"); // Upgrade older phone accounts to specify the supported URI schemes. if (version < 2) { supportedUriSchemes = new ArrayList<>(); // Handle the SIP connection service. // Check the system settings to see if it also should handle "tel" calls. if (accountHandle.getComponentName().equals(sipComponentName)) { boolean useSipForPstn = useSipForPstnCalls(context); supportedUriSchemes.add(PhoneAccount.SCHEME_SIP); if (useSipForPstn) { supportedUriSchemes.add(PhoneAccount.SCHEME_TEL); } } else { supportedUriSchemes.add(PhoneAccount.SCHEME_TEL); supportedUriSchemes.add(PhoneAccount.SCHEME_VOICEMAIL); } } // Upgrade older phone accounts with explicit package name if (version < 5) { if (iconBitmap == null) { iconPackageName = accountHandle.getComponentName().getPackageName(); } } if (version < 6) { // Always enable all SIP accounts on upgrade to version 6 if (accountHandle.getComponentName().equals(sipComponentName)) { enabled = true; } } if (version < 7) { // Always enabled all PSTN acocunts on upgrade to version 7 if (accountHandle.getComponentName().equals(pstnComponentName)) { enabled = true; } } if (version < 8) { // Migrate the SIP account handle ids to use SIP username instead of SIP URI. if (accountHandle.getComponentName().equals(sipComponentName)) { Uri accountUri = Uri.parse(accountHandle.getId()); if (accountUri.getScheme() != null && accountUri.getScheme().equals(PhoneAccount.SCHEME_SIP)) { accountHandle = new PhoneAccountHandle(accountHandle.getComponentName(), accountUri.getSchemeSpecificPart(), accountHandle.getUserHandle()); } } } PhoneAccount.Builder builder = PhoneAccount.builder(accountHandle, label) .setAddress(address) .setSubscriptionAddress(subscriptionAddress) .setCapabilities(capabilities) .setShortDescription(shortDescription) .setSupportedUriSchemes(supportedUriSchemes) .setHighlightColor(highlightColor) .setIsEnabled(enabled); if (icon != null) { builder.setIcon(icon); } else if (iconBitmap != null) { builder.setIcon(Icon.createWithBitmap(iconBitmap)); } else if (!TextUtils.isEmpty(iconPackageName)) { builder.setIcon(Icon.createWithResource(iconPackageName, iconResId)); // TODO: Need to set tint. } return builder.build(); } return null; } /** * Determines if the SIP call settings specify to use SIP for all calls, including PSTN * calls. * * @param context The context. * @return {@code True} if SIP should be used for all calls. */ private boolean useSipForPstnCalls(Context context) { String option = Settings.System.getString(context.getContentResolver(), Settings.System.SIP_CALL_OPTIONS); option = (option != null) ? option : Settings.System.SIP_ADDRESS_ONLY; return option.equals(Settings.System.SIP_ALWAYS); } }; @VisibleForTesting public static final XmlSerialization sPhoneAccountHandleXml = new XmlSerialization() { private static final String CLASS_PHONE_ACCOUNT_HANDLE = "phone_account_handle"; private static final String COMPONENT_NAME = "component_name"; private static final String ID = "id"; private static final String USER_SERIAL_NUMBER = "user_serial_number"; @Override public void writeToXml(PhoneAccountHandle o, XmlSerializer serializer, Context context) throws IOException { if (o != null) { serializer.startTag(null, CLASS_PHONE_ACCOUNT_HANDLE); if (o.getComponentName() != null) { writeTextIfNonNull( COMPONENT_NAME, o.getComponentName().flattenToString(), serializer); } writeTextIfNonNull(ID, o.getId(), serializer); if (o.getUserHandle() != null && context != null) { UserManager userManager = UserManager.get(context); writeLong(USER_SERIAL_NUMBER, userManager.getSerialNumberForUser(o.getUserHandle()), serializer); } serializer.endTag(null, CLASS_PHONE_ACCOUNT_HANDLE); } } @Override public PhoneAccountHandle readFromXml(XmlPullParser parser, int version, Context context) throws IOException, XmlPullParserException { if (parser.getName().equals(CLASS_PHONE_ACCOUNT_HANDLE)) { String componentNameString = null; String idString = null; String userSerialNumberString = null; int outerDepth = parser.getDepth(); UserManager userManager = UserManager.get(context); while (XmlUtils.nextElementWithin(parser, outerDepth)) { if (parser.getName().equals(COMPONENT_NAME)) { parser.next(); componentNameString = parser.getText(); } else if (parser.getName().equals(ID)) { parser.next(); idString = parser.getText(); } else if (parser.getName().equals(USER_SERIAL_NUMBER)) { parser.next(); userSerialNumberString = parser.getText(); } } if (componentNameString != null) { UserHandle userHandle = null; if (userSerialNumberString != null) { try { long serialNumber = Long.parseLong(userSerialNumberString); userHandle = userManager.getUserForSerialNumber(serialNumber); } catch (NumberFormatException e) { Log.e(this, e, "Could not parse UserHandle " + userSerialNumberString); } } return new PhoneAccountHandle( ComponentName.unflattenFromString(componentNameString), idString, userHandle); } } return null; } }; }