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|
/*
* Copyright 2021 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.internal.telephony.data;
import static android.telephony.TelephonyManager.HAL_SERVICE_DATA;
import android.annotation.CallbackExecutor;
import android.annotation.IntDef;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.content.Intent;
import android.net.ConnectivityManager;
import android.net.LinkAddress;
import android.net.LinkProperties;
import android.net.NetworkAgent;
import android.net.NetworkAgentConfig;
import android.net.NetworkCapabilities;
import android.net.NetworkFactory;
import android.net.NetworkProvider;
import android.net.NetworkRequest;
import android.net.NetworkScore;
import android.net.ProxyInfo;
import android.net.RouteInfo;
import android.net.TelephonyNetworkSpecifier;
import android.net.Uri;
import android.net.vcn.VcnManager;
import android.net.vcn.VcnManager.VcnNetworkPolicyChangeListener;
import android.net.vcn.VcnNetworkPolicyResult;
import android.os.AsyncResult;
import android.os.Looper;
import android.os.Message;
import android.os.Process;
import android.os.SystemClock;
import android.provider.Telephony;
import android.telephony.AccessNetworkConstants;
import android.telephony.AccessNetworkConstants.AccessNetworkType;
import android.telephony.AccessNetworkConstants.TransportType;
import android.telephony.Annotation.DataFailureCause;
import android.telephony.Annotation.DataState;
import android.telephony.Annotation.NetCapability;
import android.telephony.Annotation.NetworkType;
import android.telephony.Annotation.ValidationStatus;
import android.telephony.AnomalyReporter;
import android.telephony.CarrierConfigManager;
import android.telephony.DataFailCause;
import android.telephony.DataSpecificRegistrationInfo;
import android.telephony.LinkCapacityEstimate;
import android.telephony.NetworkRegistrationInfo;
import android.telephony.PcoData;
import android.telephony.PreciseDataConnectionState;
import android.telephony.ServiceState;
import android.telephony.SubscriptionManager;
import android.telephony.SubscriptionPlan;
import android.telephony.TelephonyDisplayInfo;
import android.telephony.TelephonyManager;
import android.telephony.data.ApnSetting;
import android.telephony.data.DataCallResponse;
import android.telephony.data.DataCallResponse.HandoverFailureMode;
import android.telephony.data.DataCallResponse.LinkStatus;
import android.telephony.data.DataProfile;
import android.telephony.data.DataService;
import android.telephony.data.DataServiceCallback;
import android.telephony.data.NetworkSliceInfo;
import android.telephony.data.Qos;
import android.telephony.data.QosBearerSession;
import android.telephony.data.TrafficDescriptor;
import android.telephony.data.TrafficDescriptor.OsAppId;
import android.text.TextUtils;
import android.util.ArrayMap;
import android.util.IndentingPrintWriter;
import android.util.LocalLog;
import android.util.SparseArray;
import android.util.SparseIntArray;
import com.android.internal.telephony.CarrierSignalAgent;
import com.android.internal.telephony.CommandsInterface;
import com.android.internal.telephony.Phone;
import com.android.internal.telephony.PhoneConstants;
import com.android.internal.telephony.PhoneFactory;
import com.android.internal.telephony.RIL;
import com.android.internal.telephony.data.AccessNetworksManager.AccessNetworksManagerCallback;
import com.android.internal.telephony.data.DataConfigManager.DataConfigManagerCallback;
import com.android.internal.telephony.data.DataEvaluation.DataAllowedReason;
import com.android.internal.telephony.data.DataNetworkController.NetworkRequestList;
import com.android.internal.telephony.data.DataRetryManager.DataHandoverRetryEntry;
import com.android.internal.telephony.data.DataRetryManager.DataRetryEntry;
import com.android.internal.telephony.data.DataSettingsManager.DataSettingsManagerCallback;
import com.android.internal.telephony.data.LinkBandwidthEstimator.LinkBandwidthEstimatorCallback;
import com.android.internal.telephony.data.TelephonyNetworkAgent.TelephonyNetworkAgentCallback;
import com.android.internal.telephony.flags.FeatureFlags;
import com.android.internal.telephony.metrics.DataCallSessionStats;
import com.android.internal.telephony.metrics.TelephonyMetrics;
import com.android.internal.util.ArrayUtils;
import com.android.internal.util.FunctionalUtils;
import com.android.internal.util.IState;
import com.android.internal.util.State;
import com.android.internal.util.StateMachine;
import com.android.net.module.util.LinkPropertiesUtils;
import com.android.net.module.util.NetUtils;
import com.android.net.module.util.NetworkCapabilitiesUtils;
import com.android.telephony.Rlog;
import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.math.BigInteger;
import java.net.InetAddress;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.UUID;
import java.util.concurrent.Executor;
import java.util.concurrent.TimeUnit;
import java.util.function.Consumer;
import java.util.stream.Collectors;
/**
* DataNetwork class represents a single PDN (Packet Data Network).
*
* The life cycle of a data network starts from {@link ConnectingState}. If setup data request
* succeeds, then it enters {@link ConnectedState}, otherwise it enters
* {@link DisconnectedState}.
*
* When data network is in {@link ConnectingState}, it can enter {@link HandoverState} if handover
* between IWLAN and cellular occurs. After handover completes or fails, it return back to
* {@link ConnectedState}. When the data network is about to be disconnected, it first enters
* {@link DisconnectingState} when performing graceful tear down or when sending the data
* deactivation request. At the end, it enters {@link DisconnectedState} when {@link DataService}
* notifies data disconnected. Note that an unsolicited disconnected event from {@link DataService}
* or any vendor HAL failure response can immediately move data network from {@link ConnectedState}
* to {@link DisconnectedState}. {@link DisconnectedState} is the final state of a data network.
*
* State machine diagram:
*
*
* ┌─────────┐
* │Handover │
* └─▲────┬──┘
* │ │
* ┌───────────┐ ┌─┴────▼──┐ ┌──────────────┐
* │Connecting ├────────►Connected├────────►Disconnecting │
* └─────┬─────┘ └────┬────┘ └───────┬──────┘
* │ │ │
* │ ┌─────▼──────┐ │
* └─────────────►Disconnected◄──────────────┘
* └────────────┘
*
*/
public class DataNetwork extends StateMachine {
private static final boolean VDBG = false;
/** Event for data config updated. */
private static final int EVENT_DATA_CONFIG_UPDATED = 1;
/** Event for attaching a network request. */
private static final int EVENT_ATTACH_NETWORK_REQUEST = 2;
/** Event for detaching a network request. */
private static final int EVENT_DETACH_NETWORK_REQUEST = 3;
/** Event when detect radio not available. */
private static final int EVENT_RADIO_NOT_AVAILABLE = 4;
/** Event for allocating PDU session id response. */
private static final int EVENT_ALLOCATE_PDU_SESSION_ID_RESPONSE = 5;
/** Event for setup data network response. */
private static final int EVENT_SETUP_DATA_NETWORK_RESPONSE = 6;
/** Event for tearing down data network. */
private static final int EVENT_TEAR_DOWN_NETWORK = 7;
/** Event triggered by {@link DataServiceCallback#onDataCallListChanged(List)}. */
private static final int EVENT_DATA_STATE_CHANGED = 8;
/** Data network service state changed event. */
private static final int EVENT_SERVICE_STATE_CHANGED = 9;
/** Event for detaching all network requests. */
private static final int EVENT_DETACH_ALL_NETWORK_REQUESTS = 10;
/** Event for bandwidth estimation from the modem changed. */
private static final int EVENT_BANDWIDTH_ESTIMATE_FROM_MODEM_CHANGED = 11;
/** Event for display info changed. This is for getting 5G NSA or mmwave information. */
private static final int EVENT_DISPLAY_INFO_CHANGED = 13;
/** Event for setup data call (for handover) response from the data service. */
private static final int EVENT_HANDOVER_RESPONSE = 15;
/** Event for subscription plan changed or unmetered/congested override set. */
private static final int EVENT_SUBSCRIPTION_PLAN_OVERRIDE = 16;
/** Event for PCO data received from network. */
private static final int EVENT_PCO_DATA_RECEIVED = 17;
/** Event for carrier privileged UIDs changed. */
private static final int EVENT_CARRIER_PRIVILEGED_UIDS_CHANGED = 18;
/** Event for deactivate data network response. */
private static final int EVENT_DEACTIVATE_DATA_NETWORK_RESPONSE = 19;
/**
* Event for data network stuck in transient (i.e. connecting/disconnecting/handover) state for
* too long time. Timeout value specified in
* {@link DataConfigManager#getAnomalyNetworkConnectingTimeoutMs()},
* {@link DataConfigManager#getAnomalyNetworkDisconnectingTimeoutMs()},
* {@link DataConfigManager#getNetworkHandoverTimeoutMs()}.
*/
private static final int EVENT_STUCK_IN_TRANSIENT_STATE = 20;
/**
* Event for waiting for tearing down condition met. This will cause data network entering
* disconnecting state.
*/
private static final int EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET = 21;
/** Event for call started. */
private static final int EVENT_VOICE_CALL_STARTED = 22;
/** Event for call ended. */
private static final int EVENT_VOICE_CALL_ENDED = 23;
/** Event for CSS indicator changed. */
private static final int EVENT_CSS_INDICATOR_CHANGED = 24;
/**
* Event for notifying source transport that handover is about to be initiated on target
* transport.
*/
private static final int EVENT_NOTIFY_HANDOVER_STARTED = 25;
/**
* Event for the response of notifying source transport that handover is about to be initiated
* on target transport.
*/
private static final int EVENT_NOTIFY_HANDOVER_STARTED_RESPONSE = 26;
/**
* Event for the response of notifying source transport that handover is cancelled/failed on the
* target transport.
*/
private static final int EVENT_NOTIFY_HANDOVER_CANCELLED_RESPONSE = 27;
/** Event for data network validation request from the AccessNetworksManager. */
private static final int EVENT_DATA_NETWORK_VALIDATION_REQUESTED = 28;
/** Event for response to data network validation request. */
private static final int EVENT_DATA_NETWORK_VALIDATION_RESPONSE = 29;
/** Invalid context id. */
private static final int INVALID_CID = -1;
/**
* The data network providing default internet will have a higher score of 50. Other network
* will have a slightly lower score of 45. The intention is other connections will not cause
* connectivity service to tear down default internet connection. For example, to validate
* internet connection on non-default data SIM, we'll set up a temporary internet network on
* that data SIM. In this case, score of 45 is assigned so connectivity service will not replace
* the default internet network with it.
*/
private static final int DEFAULT_INTERNET_NETWORK_SCORE = 50;
private static final int OTHER_NETWORK_SCORE = 45;
@IntDef(prefix = {"TEAR_DOWN_REASON_"},
value = {
TEAR_DOWN_REASON_NONE,
TEAR_DOWN_REASON_CONNECTIVITY_SERVICE_UNWANTED,
TEAR_DOWN_REASON_SIM_REMOVAL,
TEAR_DOWN_REASON_AIRPLANE_MODE_ON,
TEAR_DOWN_REASON_DATA_DISABLED,
TEAR_DOWN_REASON_NO_LIVE_REQUEST,
TEAR_DOWN_REASON_RAT_NOT_ALLOWED,
TEAR_DOWN_REASON_ROAMING_DISABLED,
TEAR_DOWN_REASON_CONCURRENT_VOICE_DATA_NOT_ALLOWED,
TEAR_DOWN_REASON_SERVICE_OPTION_NOT_SUPPORTED,
TEAR_DOWN_REASON_DATA_SERVICE_NOT_READY,
TEAR_DOWN_REASON_POWER_OFF_BY_CARRIER,
TEAR_DOWN_REASON_DATA_STALL,
TEAR_DOWN_REASON_HANDOVER_FAILED,
TEAR_DOWN_REASON_HANDOVER_NOT_ALLOWED,
TEAR_DOWN_REASON_VCN_REQUESTED,
TEAR_DOWN_REASON_VOPS_NOT_SUPPORTED,
TEAR_DOWN_REASON_DEFAULT_DATA_UNSELECTED,
TEAR_DOWN_REASON_NOT_IN_SERVICE,
TEAR_DOWN_REASON_DATA_CONFIG_NOT_READY,
TEAR_DOWN_REASON_PENDING_TEAR_DOWN_ALL,
TEAR_DOWN_REASON_NO_SUITABLE_DATA_PROFILE,
TEAR_DOWN_REASON_CDMA_EMERGENCY_CALLBACK_MODE,
TEAR_DOWN_REASON_RETRY_SCHEDULED,
TEAR_DOWN_REASON_DATA_THROTTLED,
TEAR_DOWN_REASON_DATA_PROFILE_INVALID,
TEAR_DOWN_REASON_DATA_PROFILE_NOT_PREFERRED,
TEAR_DOWN_REASON_NOT_ALLOWED_BY_POLICY,
TEAR_DOWN_REASON_ILLEGAL_STATE,
TEAR_DOWN_REASON_ONLY_ALLOWED_SINGLE_NETWORK,
TEAR_DOWN_REASON_PREFERRED_DATA_SWITCHED,
TEAR_DOWN_REASON_DATA_LIMIT_REACHED,
TEAR_DOWN_REASON_DATA_NETWORK_TRANSPORT_NOT_ALLOWED,
})
public @interface TearDownReason {}
/** Data network was not torn down. */
public static final int TEAR_DOWN_REASON_NONE = 0;
/** Data network tear down requested by connectivity service. */
public static final int TEAR_DOWN_REASON_CONNECTIVITY_SERVICE_UNWANTED = 1;
/** Data network tear down due to SIM removal. */
public static final int TEAR_DOWN_REASON_SIM_REMOVAL = 2;
/** Data network tear down due to airplane mode turned on. */
public static final int TEAR_DOWN_REASON_AIRPLANE_MODE_ON = 3;
/** Data network tear down due to data disabled (by user, policy, carrier, etc...). */
public static final int TEAR_DOWN_REASON_DATA_DISABLED = 4;
/** Data network tear down due to no live network request. */
public static final int TEAR_DOWN_REASON_NO_LIVE_REQUEST = 5;
/** Data network tear down due to current RAT is not allowed by the data profile. */
public static final int TEAR_DOWN_REASON_RAT_NOT_ALLOWED = 6;
/** Data network tear down due to data roaming not enabled. */
public static final int TEAR_DOWN_REASON_ROAMING_DISABLED = 7;
/** Data network tear down due to concurrent voice/data not allowed. */
public static final int TEAR_DOWN_REASON_CONCURRENT_VOICE_DATA_NOT_ALLOWED = 8;
/** Data network tear down due to service option is not supported. */
public static final int TEAR_DOWN_REASON_SERVICE_OPTION_NOT_SUPPORTED = 9;
/** Data network tear down due to data service unbound. */
public static final int TEAR_DOWN_REASON_DATA_SERVICE_NOT_READY = 10;
/** Data network tear down due to radio turned off by the carrier. */
public static final int TEAR_DOWN_REASON_POWER_OFF_BY_CARRIER = 11;
/** Data network tear down due to data stall. */
public static final int TEAR_DOWN_REASON_DATA_STALL = 12;
/** Data network tear down due to handover failed. */
public static final int TEAR_DOWN_REASON_HANDOVER_FAILED = 13;
/** Data network tear down due to handover not allowed. */
public static final int TEAR_DOWN_REASON_HANDOVER_NOT_ALLOWED = 14;
/** Data network tear down due to VCN service requested. */
public static final int TEAR_DOWN_REASON_VCN_REQUESTED = 15;
/** Data network tear down due to VOPS no longer supported. */
public static final int TEAR_DOWN_REASON_VOPS_NOT_SUPPORTED = 16;
/** Data network tear down due to default data unselected. */
public static final int TEAR_DOWN_REASON_DEFAULT_DATA_UNSELECTED = 17;
/** Data network tear down due to device not in service. */
public static final int TEAR_DOWN_REASON_NOT_IN_SERVICE = 18;
/** Data network tear down due to data config not ready. */
public static final int TEAR_DOWN_REASON_DATA_CONFIG_NOT_READY = 19;
/** Data network tear down due to tear down all pending. */
public static final int TEAR_DOWN_REASON_PENDING_TEAR_DOWN_ALL = 20;
/** Data network tear down due to no suitable data profile. */
public static final int TEAR_DOWN_REASON_NO_SUITABLE_DATA_PROFILE = 21;
/** Data network tear down due to CDMA ECBM. */
public static final int TEAR_DOWN_REASON_CDMA_EMERGENCY_CALLBACK_MODE = 22;
/** Data network tear down due to retry scheduled. */
public static final int TEAR_DOWN_REASON_RETRY_SCHEDULED = 23;
/** Data network tear down due to data throttled. */
public static final int TEAR_DOWN_REASON_DATA_THROTTLED = 24;
/** Data network tear down due to data profile invalid. */
public static final int TEAR_DOWN_REASON_DATA_PROFILE_INVALID = 25;
/** Data network tear down due to data profile not preferred. */
public static final int TEAR_DOWN_REASON_DATA_PROFILE_NOT_PREFERRED = 26;
/** Data network tear down due to handover not allowed by policy. */
public static final int TEAR_DOWN_REASON_NOT_ALLOWED_BY_POLICY = 27;
/** Data network tear down due to illegal state. */
public static final int TEAR_DOWN_REASON_ILLEGAL_STATE = 28;
/** Data network tear down due to only allowed single network. */
public static final int TEAR_DOWN_REASON_ONLY_ALLOWED_SINGLE_NETWORK = 29;
/** Data network tear down due to preferred data switched to another phone. */
public static final int TEAR_DOWN_REASON_PREFERRED_DATA_SWITCHED = 30;
/** Data network tear down due to bootstrap sim data limit reached. */
public static final int TEAR_DOWN_REASON_DATA_LIMIT_REACHED = 31;
/** Data network tear down due to current data network transport mismatch. */
public static final int TEAR_DOWN_REASON_DATA_NETWORK_TRANSPORT_NOT_ALLOWED = 32;
//********************************************************************************************//
// WHENEVER ADD A NEW TEAR DOWN REASON, PLEASE UPDATE DataDeactivateReasonEnum in enums.proto //
//********************************************************************************************//
@IntDef(prefix = {"BANDWIDTH_SOURCE_"},
value = {
BANDWIDTH_SOURCE_UNKNOWN,
BANDWIDTH_SOURCE_MODEM,
BANDWIDTH_SOURCE_CARRIER_CONFIG,
BANDWIDTH_SOURCE_BANDWIDTH_ESTIMATOR,
})
public @interface BandwidthEstimationSource {}
/** Indicates the bandwidth estimation source is unknown. This must be a configuration error. */
public static final int BANDWIDTH_SOURCE_UNKNOWN = 0;
/** Indicates the bandwidth estimation source is from the modem. */
public static final int BANDWIDTH_SOURCE_MODEM = 1;
/** Indicates the bandwidth estimation source is from the static carrier config. */
public static final int BANDWIDTH_SOURCE_CARRIER_CONFIG = 2;
/** Indicates the bandwidth estimation source is from {@link LinkBandwidthEstimator}. */
public static final int BANDWIDTH_SOURCE_BANDWIDTH_ESTIMATOR = 3;
/**
* The capabilities that are allowed to changed dynamically during the life cycle of network.
* This is copied from {@code NetworkCapabilities#MUTABLE_CAPABILITIES}. There is no plan to
* make this a connectivity manager API since in the future, immutable network capabilities
* would be allowed to changed dynamically. (i.e. not immutable anymore.)
*/
private static final List<Integer> MUTABLE_CAPABILITIES = List.of(
NetworkCapabilities.NET_CAPABILITY_TRUSTED,
NetworkCapabilities.NET_CAPABILITY_VALIDATED,
NetworkCapabilities.NET_CAPABILITY_CAPTIVE_PORTAL,
NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING,
NetworkCapabilities.NET_CAPABILITY_FOREGROUND,
NetworkCapabilities.NET_CAPABILITY_NOT_CONGESTED,
NetworkCapabilities.NET_CAPABILITY_NOT_SUSPENDED,
NetworkCapabilities.NET_CAPABILITY_PARTIAL_CONNECTIVITY,
NetworkCapabilities.NET_CAPABILITY_TEMPORARILY_NOT_METERED,
NetworkCapabilities.NET_CAPABILITY_NOT_VCN_MANAGED,
NetworkCapabilities.NET_CAPABILITY_HEAD_UNIT,
// Connectivity service will support NOT_METERED as a mutable and requestable
// capability.
NetworkCapabilities.NET_CAPABILITY_NOT_METERED,
// Dynamically add and remove MMTEL capability when network transition between VoPS
// and non-VoPS network if the request is not MMTEL. For MMTEL, we retain the capability
// to prevent immediate tear down.
NetworkCapabilities.NET_CAPABILITY_MMTEL
);
/** The parent state. Any messages not handled by the child state fallback to this. */
private final DefaultState mDefaultState = new DefaultState();
/**
* The connecting state. This is the initial state of a data network.
*
* @see DataNetwork for the state machine diagram.
*/
private final ConnectingState mConnectingState = new ConnectingState();
/**
* The connected state. This is the state when data network becomes usable.
*
* @see DataNetwork for the state machine diagram.
*/
private final ConnectedState mConnectedState = new ConnectedState();
/**
* The handover state. This is the state when data network handover between IWLAN and cellular.
*
* @see DataNetwork for the state machine diagram.
*/
private final HandoverState mHandoverState = new HandoverState();
/**
* The disconnecting state. This is the state when data network is about to be disconnected.
* The network is still usable in this state, but the clients should be prepared to lose the
* network in any moment. This state is particular useful for IMS graceful tear down, where
* the network enters disconnecting state while waiting for IMS de-registration signal.
*
* @see DataNetwork for the state machine diagram.
*/
private final DisconnectingState mDisconnectingState = new DisconnectingState();
/**
* The disconnected state. This is the final state of a data network.
*
* @see DataNetwork for the state machine diagram.
*/
private final DisconnectedState mDisconnectedState = new DisconnectedState();
/** The phone instance. */
private final @NonNull Phone mPhone;
/** Feature flags */
private final @NonNull FeatureFlags mFlags;
/**
* The subscription id. This is assigned when the network is created, and not supposed to
* change afterwards.
*/
private final int mSubId;
/** The network score of this network. */
private @NonNull NetworkScore mNetworkScore;
/**
* Indicates that
* {@link DataService.DataServiceProvider#deactivateDataCall(int, int, DataServiceCallback)}
* has been called. This flag can be only changed from {@code false} to {@code true}.
*/
private boolean mInvokedDataDeactivation = false;
/**
* Indicates that if the data network has ever entered {@link ConnectedState}.
*/
private boolean mEverConnected = false;
/** RIL interface. */
private final @NonNull CommandsInterface mRil;
/** Local log. */
private final LocalLog mLocalLog = new LocalLog(128);
/** The callback to receives data network state update. */
private final @NonNull DataNetworkCallback mDataNetworkCallback;
/** The log tag. */
private String mLogTag;
/** Metrics of per data network connection. */
private final DataCallSessionStats mDataCallSessionStats;
/**
* The unique context id assigned by the data service in {@link DataCallResponse#getId()}. One
* for {@link AccessNetworkConstants#TRANSPORT_TYPE_WWAN} and one for
* {@link AccessNetworkConstants#TRANSPORT_TYPE_WLAN}. The reason for storing both is that
* during handover, both cid will be used.
*/
private final SparseIntArray mCid = new SparseIntArray(2);
/**
* The initial network agent id. The network agent can be re-created due to immutable capability
* changed. This is to preserve the initial network agent id so the id in the logging tag won't
* change for the entire life cycle of data network.
*/
private int mInitialNetworkAgentId;
/** PDU session id. */
private int mPduSessionId = DataCallResponse.PDU_SESSION_ID_NOT_SET;
/**
* Data service managers for accessing {@link AccessNetworkConstants#TRANSPORT_TYPE_WWAN} and
* {@link AccessNetworkConstants#TRANSPORT_TYPE_WLAN} data services.
*/
private final @NonNull SparseArray<DataServiceManager> mDataServiceManagers;
/** Access networks manager. */
private final @NonNull AccessNetworksManager mAccessNetworksManager;
/** Data network controller. */
private final @NonNull DataNetworkController mDataNetworkController;
/** Data network controller callback. */
private final @NonNull DataNetworkController.DataNetworkControllerCallback
mDataNetworkControllerCallback;
/** Data settings manager callback. */
private @NonNull DataSettingsManagerCallback mDataSettingsManagerCallback;
/** Data config manager. */
private final @NonNull DataConfigManager mDataConfigManager;
/** VCN manager. */
private final @Nullable VcnManager mVcnManager;
/** VCN policy changed listener. */
private @Nullable VcnNetworkPolicyChangeListener mVcnPolicyChangeListener;
/** The network agent associated with this data network. */
private @NonNull TelephonyNetworkAgent mNetworkAgent;
/** QOS callback tracker. This is only created after network connected on WWAN. */
private @Nullable QosCallbackTracker mQosCallbackTracker;
/** NAT keepalive tracker. */
private @Nullable KeepaliveTracker mKeepaliveTracker;
/** The data profile used to establish this data network. */
private @NonNull DataProfile mDataProfile;
/**
* The data profile used for data handover. Some carriers might use different data profile
* between IWLAN and cellular. Only set before handover started.
*/
private @Nullable DataProfile mHandoverDataProfile;
/** The network capabilities of this data network. */
private @NonNull NetworkCapabilities mNetworkCapabilities;
/** The matched traffic descriptor returned from setup data call request. */
private final @NonNull List<TrafficDescriptor> mTrafficDescriptors = new ArrayList<>();
/** The link properties of this data network. */
private @NonNull LinkProperties mLinkProperties;
/** The network slice info. */
private @Nullable NetworkSliceInfo mNetworkSliceInfo;
/** The link status (i.e. RRC state). */
private @LinkStatus int mLinkStatus = DataCallResponse.LINK_STATUS_UNKNOWN;
/** The network bandwidth. */
private @NonNull NetworkBandwidth mNetworkBandwidth = new NetworkBandwidth(14, 14);
/** The TCP buffer sizes config. */
private @NonNull String mTcpBufferSizes;
/** The telephony display info. */
private @NonNull TelephonyDisplayInfo mTelephonyDisplayInfo;
/** Whether {@link NetworkCapabilities#NET_CAPABILITY_TEMPORARILY_NOT_METERED} is supported. */
private boolean mTempNotMeteredSupported = false;
/** Whether the current data network is temporarily not metered. */
private boolean mTempNotMetered = false;
/** Whether the current data network is congested. */
private boolean mCongested = false;
/** The network requests associated with this data network */
private final @NonNull NetworkRequestList mAttachedNetworkRequestList =
new NetworkRequestList();
/**
* The latest data call response received from either
* {@link DataServiceCallback#onSetupDataCallComplete(int, DataCallResponse)} or
* {@link DataServiceCallback#onDataCallListChanged(List)}. The very first update must be
* from {@link DataServiceCallback#onSetupDataCallComplete(int, DataCallResponse)}.
*/
private @Nullable DataCallResponse mDataCallResponse = null;
/**
* The fail cause from either setup data failure or unsolicited disconnect reported by data
* service.
*/
private @DataFailureCause int mFailCause = DataFailCause.NONE;
/**
* The tear down reason if the data call is voluntarily deactivated, not due to failure.
*/
private @TearDownReason int mTearDownReason = TEAR_DOWN_REASON_NONE;
/**
* The retry delay in milliseconds from setup data failure.
*/
private long mRetryDelayMillis = DataCallResponse.RETRY_DURATION_UNDEFINED;
/**
* Indicates if data network is suspended. Note this is slightly different from the
* {@link TelephonyManager#DATA_SUSPENDED}, which is only possible when data network is in
* connected state. This flag reflects to the
* {@link NetworkCapabilities#NET_CAPABILITY_NOT_SUSPENDED} which can happen when data network
* is in connected or disconnecting state.
*/
private boolean mSuspended = false;
/**
* The current transport of the data network. For handover, the current transport will be set
* after handover completes.
*/
private @TransportType int mTransport;
/**
* The last known data network type.
*/
private @NetworkType int mLastKnownDataNetworkType;
/**
* The last known roaming state of this data network.
*/
private boolean mLastKnownRoamingState;
/**
* The non-terrestrial status
*/
private final boolean mIsSatellite;
/** The reason that why setting up this data network is allowed. */
private @NonNull DataAllowedReason mDataAllowedReason;
/**
* PCO (Protocol Configuration Options) data received from the network. The first key is the
* cid of the PCO data, the second key is the PCO id, the value is the PCO data.
*/
private final @NonNull Map<Integer, Map<Integer, PcoData>> mPcoData = new ArrayMap<>();
/** The QOS bearer sessions. */
private final @NonNull List<QosBearerSession> mQosBearerSessions = new ArrayList<>();
/** The QOS for the Default Bearer, should be non-null on LTE and NR */
private @Nullable Qos mDefaultQos;
/**
* The UIDs of packages that have carrier privilege.
*/
private @NonNull int[] mAdministratorUids = new int[0];
/** Carrier privileges callback to monitor administrator UID change. */
private @Nullable TelephonyManager.CarrierPrivilegesCallback mCarrierPrivilegesCallback;
/**
* Carrier service package uid. This UID will not change through the life cycle of data network.
*/
private int mCarrierServicePackageUid = Process.INVALID_UID;
/**
* Link bandwidth estimator callback for receiving latest link bandwidth information.
*/
private @Nullable LinkBandwidthEstimatorCallback mLinkBandwidthEstimatorCallback;
/**
* Data config callback for carrier config update.
*/
private @Nullable DataConfigManagerCallback mDataConfigManagerCallback;
/**
* Network validation status for this data network. If the data service provider does not
* support the network validation feature, should be UNSUPPORTED.
*/
private @PreciseDataConnectionState.NetworkValidationStatus int mNetworkValidationStatus =
PreciseDataConnectionState.NETWORK_VALIDATION_UNSUPPORTED;
/**
* Callback used to respond to a network validation request to determine whether the request is
* successfully submitted. If the request has been submitted, change it to null.
*/
private @Nullable Consumer<Integer> mNetworkValidationResultCodeCallback;
/**
* Callback used to listen QNS preference changes.
*/
private @Nullable AccessNetworksManagerCallback mAccessNetworksManagerCallback;
/**
* The network bandwidth.
*/
public static class NetworkBandwidth {
/** The downlink bandwidth in Kbps. */
public final int downlinkBandwidthKbps;
/** The uplink Bandwidth in Kbps. */
public final int uplinkBandwidthKbps;
/**
* Constructor.
*
* @param downlinkBandwidthKbps The downlink bandwidth in Kbps.
* @param uplinkBandwidthKbps The uplink Bandwidth in Kbps.
*/
public NetworkBandwidth(int downlinkBandwidthKbps, int uplinkBandwidthKbps) {
this.downlinkBandwidthKbps = downlinkBandwidthKbps;
this.uplinkBandwidthKbps = uplinkBandwidthKbps;
}
@Override
public String toString() {
return String.format("NetworkBandwidth=[downlink=%d, uplink=%d]",
downlinkBandwidthKbps, uplinkBandwidthKbps);
}
}
/**
* Data network callback. Should only be used by {@link DataNetworkController}.
*/
public abstract static class DataNetworkCallback extends DataCallback {
/**
* Constructor
*
* @param executor The executor of the callback.
*/
public DataNetworkCallback(@NonNull @CallbackExecutor Executor executor) {
super(executor);
}
/**
* Called when data setup failed.
*
* @param dataNetwork The data network.
* @param requestList The network requests attached to this data network.
* @param cause The fail cause of setup data network.
* @param retryDurationMillis The network suggested data retry duration in milliseconds as
* specified in 3GPP TS 24.302 section 8.2.9.1. The {@link DataProfile} associated to this
* data network will be throttled for the specified duration unless
* {@link DataServiceCallback#onApnUnthrottled} is called. {@link Long#MAX_VALUE} indicates
* data retry should not occur. {@link DataCallResponse#RETRY_DURATION_UNDEFINED} indicates
* network did not suggest any retry duration.
*/
public abstract void onSetupDataFailed(@NonNull DataNetwork dataNetwork,
@NonNull NetworkRequestList requestList, @DataFailureCause int cause,
long retryDurationMillis);
/**
* Called when data network enters {@link ConnectedState}.
*
* @param dataNetwork The data network.
*/
public abstract void onConnected(@NonNull DataNetwork dataNetwork);
/**
* Called when data network validation status changed.
*
* @param dataNetwork The data network.
* @param status one of {@link NetworkAgent#VALIDATION_STATUS_VALID} or
* {@link NetworkAgent#VALIDATION_STATUS_NOT_VALID}.
* @param redirectUri If internet connectivity is being redirected (e.g., on a captive
* portal), this is the destination the probes are being redirected to, otherwise
* {@code null}.
*/
public abstract void onValidationStatusChanged(@NonNull DataNetwork dataNetwork,
@ValidationStatus int status, @Nullable Uri redirectUri);
/**
* Called when data network suspended state changed.
*
* @param dataNetwork The data network.
* @param suspended {@code true} if data is suspended.
*/
public abstract void onSuspendedStateChanged(@NonNull DataNetwork dataNetwork,
boolean suspended);
/**
* Called when network requests were failed to attach to the data network.
*
* @param dataNetwork The data network.
* @param requestList The requests failed to attach.
*/
public abstract void onAttachFailed(@NonNull DataNetwork dataNetwork,
@NonNull NetworkRequestList requestList);
/**
* Called when data network enters {@link DisconnectedState}. Note this is only called
* when the data network was previously connected. For setup data network failed,
* {@link #onSetupDataFailed(DataNetwork, NetworkRequestList, int, long)} is called.
*
* @param dataNetwork The data network.
* @param cause The disconnect cause.
* @param tearDownReason The reason the network was torn down
*/
public abstract void onDisconnected(@NonNull DataNetwork dataNetwork,
@DataFailureCause int cause, @TearDownReason int tearDownReason);
/**
* Called when handover between IWLAN and cellular network succeeded.
*
* @param dataNetwork The data network.
*/
public abstract void onHandoverSucceeded(@NonNull DataNetwork dataNetwork);
/**
* Called when data network handover between IWLAN and cellular network failed.
*
* @param dataNetwork The data network.
* @param cause The fail cause.
* @param retryDurationMillis Network suggested retry time in milliseconds.
* {@link Long#MAX_VALUE} indicates data retry should not occur.
* {@link DataCallResponse#RETRY_DURATION_UNDEFINED} indicates network did not suggest any
* retry duration.
* @param handoverFailureMode The handover failure mode that determine the behavior of
* how frameworks should handle the handover failure.
*/
public abstract void onHandoverFailed(@NonNull DataNetwork dataNetwork,
@DataFailureCause int cause, long retryDurationMillis,
@HandoverFailureMode int handoverFailureMode);
/**
* Called when data network link status (i.e. RRC state) changed.
*
* @param dataNetwork The data network.
* @param linkStatus The link status (i.e. RRC state).
*/
public abstract void onLinkStatusChanged(@NonNull DataNetwork dataNetwork,
@LinkStatus int linkStatus);
/**
* Called when PCO data changed.
*
* @param dataNetwork The data network.
*/
public abstract void onPcoDataChanged(@NonNull DataNetwork dataNetwork);
/**
* Called when network capabilities changed.
*
* @param dataNetwork The data network.
*/
public abstract void onNetworkCapabilitiesChanged(@NonNull DataNetwork dataNetwork);
/**
* Called when attempt to tear down a data network
*
* @param dataNetwork The data network.
*/
public abstract void onTrackNetworkUnwanted(@NonNull DataNetwork dataNetwork);
/**
* Called when a network request is detached after no longer satisfied.
*
* @param networkRequest The detached network request.
*/
public abstract void onRetryUnsatisfiedNetworkRequest(
@NonNull TelephonyNetworkRequest networkRequest);
/**
* Called when QosBearerSessions bearer changed, which indicates VoNr or VoLte calls.
*
* @param qosBearerSessions The current qosBearerSessions.
*/
public abstract void onQosSessionsChanged(
@NonNull List<QosBearerSession> qosBearerSessions);
}
/**
* Constructor
*
* @param phone The phone instance.
* @param looper The looper to be used by the state machine. Currently the handler thread is the
* phone process's main thread.
* @param dataServiceManagers Data service managers.
* @param dataProfile The data profile for establishing the data network.
* @param networkRequestList The initial network requests attached to this data network.
* @param transport The initial transport of the data network.
* @param dataAllowedReason The reason that why setting up this data network is allowed.
* @param callback The callback to receives data network state update.
*/
public DataNetwork(@NonNull Phone phone, FeatureFlags featureFlags, @NonNull Looper looper,
@NonNull SparseArray<DataServiceManager> dataServiceManagers,
@NonNull DataProfile dataProfile,
@NonNull NetworkRequestList networkRequestList,
@TransportType int transport,
@NonNull DataAllowedReason dataAllowedReason,
@NonNull DataNetworkCallback callback) {
super("DataNetwork", looper);
// State machine should be initialized at the top of constructor. log() can be only used
// after state machine initialized (because getCurrentState() crashes if state machine has
// not started.)
initializeStateMachine();
mPhone = phone;
mFlags = featureFlags;
mSubId = phone.getSubId();
mRil = mPhone.mCi;
mLinkProperties = new LinkProperties();
mDataServiceManagers = dataServiceManagers;
mAccessNetworksManager = phone.getAccessNetworksManager();
mVcnManager = mPhone.getContext().getSystemService(VcnManager.class);
mDataNetworkController = phone.getDataNetworkController();
mDataNetworkControllerCallback = new DataNetworkController.DataNetworkControllerCallback(
getHandler()::post) {
@Override
public void onSubscriptionPlanOverride() {
sendMessage(EVENT_SUBSCRIPTION_PLAN_OVERRIDE);
}};
mDataNetworkController.registerDataNetworkControllerCallback(
mDataNetworkControllerCallback);
mDataConfigManager = mDataNetworkController.getDataConfigManager();
mDataCallSessionStats = new DataCallSessionStats(mPhone);
mDataNetworkCallback = callback;
mDataProfile = dataProfile;
if (dataProfile.getTrafficDescriptor() != null) {
// The initial traffic descriptor is from the data profile. After that traffic
// descriptors will be updated by modem through setup data call response and data call
// list changed event.
mTrafficDescriptors.add(dataProfile.getTrafficDescriptor());
}
mTransport = transport;
mLastKnownDataNetworkType = getDataNetworkType();
mLastKnownRoamingState = mPhone.getServiceState().getDataRoamingFromRegistration();
mIsSatellite = mPhone.getServiceState().isUsingNonTerrestrialNetwork()
&& transport == AccessNetworkConstants.TRANSPORT_TYPE_WWAN;
mDataAllowedReason = dataAllowedReason;
dataProfile.setLastSetupTimestamp(SystemClock.elapsedRealtime());
mAttachedNetworkRequestList.addAll(networkRequestList);
for (int transportType : mAccessNetworksManager.getAvailableTransports()) {
mCid.put(transportType, INVALID_CID);
}
mTelephonyDisplayInfo = mPhone.getDisplayInfoController().getTelephonyDisplayInfo();
mTcpBufferSizes = mDataConfigManager.getTcpConfigString(mTelephonyDisplayInfo);
for (TelephonyNetworkRequest networkRequest : networkRequestList) {
networkRequest.setAttachedNetwork(DataNetwork.this);
networkRequest.setState(TelephonyNetworkRequest.REQUEST_STATE_SATISFIED);
}
// Update the capabilities in the constructor is to make sure the data network has initial
// capability immediately after created. Doing this connecting state creates the window that
// DataNetworkController might check if existing data network's capability can satisfy the
// next network request within this window.
updateNetworkCapabilities();
}
/**
* Initialize and start the state machine.
*/
private void initializeStateMachine() {
addState(mDefaultState);
addState(mConnectingState, mDefaultState);
addState(mConnectedState, mDefaultState);
addState(mHandoverState, mDefaultState);
addState(mDisconnectingState, mDefaultState);
addState(mDisconnectedState, mDefaultState);
setInitialState(mConnectingState);
start();
}
/**
* @return {@code true} if 464xlat should be skipped.
*/
private boolean shouldSkip464Xlat() {
if (mDataProfile.getApnSetting() != null) {
switch (mDataProfile.getApnSetting().getSkip464Xlat()) {
case Telephony.Carriers.SKIP_464XLAT_ENABLE:
return true;
case Telephony.Carriers.SKIP_464XLAT_DISABLE:
return false;
case Telephony.Carriers.SKIP_464XLAT_DEFAULT:
default:
break;
}
}
// As default, return true if ims and no internet
final NetworkCapabilities nc = getNetworkCapabilities();
return nc.hasCapability(NetworkCapabilities.NET_CAPABILITY_IMS)
&& !nc.hasCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET);
}
/**
* Create the telephony network agent.
*
* @return The telephony network agent.
*/
private @NonNull TelephonyNetworkAgent createNetworkAgent() {
final NetworkAgentConfig.Builder configBuilder = new NetworkAgentConfig.Builder();
configBuilder.setLegacyType(ConnectivityManager.TYPE_MOBILE);
configBuilder.setLegacyTypeName("MOBILE");
int networkType = getDataNetworkType();
configBuilder.setLegacySubType(networkType);
configBuilder.setLegacySubTypeName(TelephonyManager.getNetworkTypeName(networkType));
if (mDataProfile.getApnSetting() != null) {
configBuilder.setLegacyExtraInfo(mDataProfile.getApnSetting().getApnName());
}
final CarrierSignalAgent carrierSignalAgent = mPhone.getCarrierSignalAgent();
if (carrierSignalAgent.hasRegisteredReceivers(TelephonyManager
.ACTION_CARRIER_SIGNAL_REDIRECTED)) {
// carrierSignal Receivers will place the carrier-specific provisioning notification
configBuilder.setProvisioningNotificationEnabled(false);
}
// Fill the IMSI
final String subscriberId = mPhone.getSubscriberId();
if (!TextUtils.isEmpty(subscriberId)) {
configBuilder.setSubscriberId(subscriberId);
}
// set skip464xlat if it is not default otherwise
if (shouldSkip464Xlat()) {
configBuilder.setNat64DetectionEnabled(false);
}
final NetworkFactory factory = PhoneFactory.getNetworkFactory(
mPhone.getPhoneId());
final NetworkProvider provider = (null == factory) ? null : factory.getProvider();
// Always prefer IWLAN network for MMS designated network.
// TODO(b/293656884) Proper use of primary transport to avoid conflicting with DSDA.
boolean isPreferred = mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WLAN
&& getApnTypeNetworkCapability() == NetworkCapabilities.NET_CAPABILITY_MMS;
mNetworkScore = new NetworkScore.Builder().setTransportPrimary(isPreferred)
.setKeepConnectedReason(isHandoverInProgress()
? NetworkScore.KEEP_CONNECTED_FOR_HANDOVER
: NetworkScore.KEEP_CONNECTED_NONE).build();
return new TelephonyNetworkAgent(mPhone, getHandler().getLooper(), this,
mNetworkScore, configBuilder.build(), provider,
new TelephonyNetworkAgentCallback(getHandler()::post) {
@Override
public void onValidationStatus(@ValidationStatus int status,
@Nullable Uri redirectUri) {
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onValidationStatusChanged(
DataNetwork.this, status, redirectUri));
}
});
}
/**
* The default state. Any events that were not handled by the child states fallback to this
* state.
*
* @see DataNetwork for the state machine diagram.
*/
private final class DefaultState extends State {
@Override
public void enter() {
logv("Registering all events.");
mDataConfigManagerCallback = new DataConfigManagerCallback(getHandler()::post) {
@Override
public void onCarrierConfigChanged() {
sendMessage(EVENT_DATA_CONFIG_UPDATED);
}
};
mRil.registerForPcoData(getHandler(), EVENT_PCO_DATA_RECEIVED, null);
mDataConfigManager.registerCallback(mDataConfigManagerCallback);
mDataSettingsManagerCallback = new DataSettingsManagerCallback(getHandler()::post) {
@Override
public void onDataEnabledChanged(boolean enabled,
@TelephonyManager.DataEnabledChangedReason int reason,
@NonNull String callingPackage) {
if (enabled) {
// The NOT_RESTRICTED capability might be changed after data enabled. We
// need to update the capabilities again.
log("Data enabled. update network capabilities.");
updateNetworkCapabilities();
}
}
@Override
public void onDataRoamingEnabledChanged(boolean enabled) {
if (enabled) {
// The NOT_RESTRICTED capability might be changed after data roaming
// enabled. We need to update the capabilities again.
log("Data roaming enabled. update network capabilities.");
updateNetworkCapabilities();
}
}
};
mDataNetworkController.getDataSettingsManager()
.registerCallback(mDataSettingsManagerCallback);
mPhone.getDisplayInfoController().registerForTelephonyDisplayInfoChanged(
getHandler(), EVENT_DISPLAY_INFO_CHANGED, null);
mPhone.getServiceStateTracker().registerForServiceStateChanged(getHandler(),
EVENT_SERVICE_STATE_CHANGED, null);
for (int transport : mAccessNetworksManager.getAvailableTransports()) {
mDataServiceManagers.get(transport)
.registerForDataCallListChanged(getHandler(), EVENT_DATA_STATE_CHANGED);
}
mCarrierPrivilegesCallback =
(Set<String> privilegedPackageNames, Set<Integer> privilegedUids) -> {
log("onCarrierPrivilegesChanged, Uids=" + privilegedUids.toString());
Message message = obtainMessage(EVENT_CARRIER_PRIVILEGED_UIDS_CHANGED);
AsyncResult.forMessage(
message,
privilegedUids.stream().mapToInt(i -> i).toArray(),
null /* ex */);
sendMessage(message);
};
TelephonyManager tm = mPhone.getContext().getSystemService(TelephonyManager.class);
if (tm != null) {
tm.registerCarrierPrivilegesCallback(
mPhone.getPhoneId(), getHandler()::post, mCarrierPrivilegesCallback);
}
mPhone.getServiceStateTracker().registerForCssIndicatorChanged(
getHandler(), EVENT_CSS_INDICATOR_CHANGED, null);
if (mPhone.getCallTracker() != null) {
mPhone.getCallTracker().registerForVoiceCallStarted(
getHandler(), EVENT_VOICE_CALL_STARTED, null);
mPhone.getCallTracker().registerForVoiceCallEnded(
getHandler(), EVENT_VOICE_CALL_ENDED, null);
}
// Check null for devices not supporting FEATURE_TELEPHONY_IMS.
if (mPhone.getImsPhone() != null && mPhone.getImsPhone().getCallTracker() != null) {
mPhone.getImsPhone().getCallTracker().registerForVoiceCallStarted(
getHandler(), EVENT_VOICE_CALL_STARTED, null);
mPhone.getImsPhone().getCallTracker().registerForVoiceCallEnded(
getHandler(), EVENT_VOICE_CALL_ENDED, null);
}
if (mFlags.forceIwlanMms()) {
if (mDataProfile.canSatisfy(NetworkCapabilities.NET_CAPABILITY_MMS)) {
mAccessNetworksManagerCallback = new AccessNetworksManagerCallback(
getHandler()::post) {
@Override
public void onPreferredTransportChanged(
@NetCapability int networkCapability, boolean forceReconnect) {
if (networkCapability == NetworkCapabilities.NET_CAPABILITY_MMS) {
log("MMS preference changed.");
updateNetworkCapabilities();
}
}
};
mAccessNetworksManager.registerCallback(mAccessNetworksManagerCallback);
}
}
// Only add symmetric code here, for example, registering and unregistering.
// DefaultState.enter() is the starting point in the life cycle of the DataNetwork,
// and DefaultState.exit() is the end. For non-symmetric initializing works, put them
// in ConnectingState.enter().
}
@Override
public void exit() {
logv("Unregistering all events.");
if (mFlags.forceIwlanMms() && mAccessNetworksManagerCallback != null) {
mAccessNetworksManager.unregisterCallback(mAccessNetworksManagerCallback);
}
// Check null for devices not supporting FEATURE_TELEPHONY_IMS.
if (mPhone.getImsPhone() != null && mPhone.getImsPhone().getCallTracker() != null) {
mPhone.getImsPhone().getCallTracker().unregisterForVoiceCallStarted(getHandler());
mPhone.getImsPhone().getCallTracker().unregisterForVoiceCallEnded(getHandler());
}
if (mPhone.getCallTracker() != null) {
mPhone.getCallTracker().unregisterForVoiceCallStarted(getHandler());
mPhone.getCallTracker().unregisterForVoiceCallEnded(getHandler());
}
mPhone.getServiceStateTracker().unregisterForCssIndicatorChanged(getHandler());
TelephonyManager tm = mPhone.getContext().getSystemService(TelephonyManager.class);
if (tm != null && mCarrierPrivilegesCallback != null) {
tm.unregisterCarrierPrivilegesCallback(mCarrierPrivilegesCallback);
}
for (int transport : mAccessNetworksManager.getAvailableTransports()) {
mDataServiceManagers.get(transport)
.unregisterForDataCallListChanged(getHandler());
}
mPhone.getServiceStateTracker().unregisterForServiceStateChanged(getHandler());
mPhone.getDisplayInfoController().unregisterForTelephonyDisplayInfoChanged(
getHandler());
mDataNetworkController.getDataSettingsManager()
.unregisterCallback(mDataSettingsManagerCallback);
mRil.unregisterForPcoData(getHandler());
mDataConfigManager.unregisterCallback(mDataConfigManagerCallback);
}
@Override
public boolean processMessage(Message msg) {
switch (msg.what) {
case EVENT_DATA_CONFIG_UPDATED:
onCarrierConfigUpdated();
break;
case EVENT_SERVICE_STATE_CHANGED: {
int networkType = getDataNetworkType();
mDataCallSessionStats.onDrsOrRatChanged(networkType);
if (networkType != TelephonyManager.NETWORK_TYPE_UNKNOWN) {
mLastKnownDataNetworkType = networkType;
}
NetworkRegistrationInfo nri =
mPhone.getServiceState()
.getNetworkRegistrationInfo(
NetworkRegistrationInfo.DOMAIN_PS,
AccessNetworkConstants.TRANSPORT_TYPE_WWAN);
if (nri != null && nri.isInService()) {
mLastKnownRoamingState = nri.getNetworkRegistrationState()
== NetworkRegistrationInfo.REGISTRATION_STATE_ROAMING;
}
updateSuspendState();
updateNetworkCapabilities();
break;
}
case EVENT_ATTACH_NETWORK_REQUEST: {
onAttachNetworkRequests((NetworkRequestList) msg.obj);
updateNetworkScore(isHandoverInProgress());
break;
}
case EVENT_DETACH_NETWORK_REQUEST: {
onDetachNetworkRequest((TelephonyNetworkRequest) msg.obj,
msg.arg1 != 0 /* shouldRetry */);
updateNetworkScore(isHandoverInProgress());
break;
}
case EVENT_DETACH_ALL_NETWORK_REQUESTS: {
for (TelephonyNetworkRequest networkRequest : mAttachedNetworkRequestList) {
networkRequest.setState(TelephonyNetworkRequest.REQUEST_STATE_UNSATISFIED);
networkRequest.setAttachedNetwork(null);
}
log("All network requests detached.");
mAttachedNetworkRequestList.clear();
break;
}
case EVENT_DATA_STATE_CHANGED: {
AsyncResult ar = (AsyncResult) msg.obj;
int transport = (int) ar.userObj;
onDataStateChanged(transport, (List<DataCallResponse>) ar.result);
break;
}
case EVENT_CARRIER_PRIVILEGED_UIDS_CHANGED: {
AsyncResult asyncResult = (AsyncResult) msg.obj;
int[] administratorUids = (int[]) asyncResult.result;
mAdministratorUids = Arrays.copyOf(administratorUids, administratorUids.length);
updateNetworkCapabilities();
break;
}
case EVENT_PCO_DATA_RECEIVED: {
AsyncResult ar = (AsyncResult) msg.obj;
onPcoDataReceived((PcoData) ar.result);
break;
}
case EVENT_NOTIFY_HANDOVER_CANCELLED_RESPONSE:
log("Notified handover cancelled.");
break;
case EVENT_BANDWIDTH_ESTIMATE_FROM_MODEM_CHANGED:
case EVENT_TEAR_DOWN_NETWORK:
case EVENT_STUCK_IN_TRANSIENT_STATE:
case EVENT_DISPLAY_INFO_CHANGED:
case EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET:
case EVENT_CSS_INDICATOR_CHANGED:
case EVENT_VOICE_CALL_STARTED:
case EVENT_VOICE_CALL_ENDED:
// Ignore the events when not in the correct state.
log("Ignored " + eventToString(msg.what));
break;
case EVENT_NOTIFY_HANDOVER_STARTED_RESPONSE:
case EVENT_NOTIFY_HANDOVER_STARTED:
// We reach here if network is not in the right state.
if (msg.obj != null) {
// Cancel it because it's either HO in progress or will soon disconnect.
// Either case we want to clean up obsolete retry attempts.
DataHandoverRetryEntry retryEntry = (DataHandoverRetryEntry) msg.obj;
retryEntry.setState(DataRetryEntry.RETRY_STATE_CANCELLED);
}
log("Ignore handover to " + AccessNetworkConstants
.transportTypeToString(msg.arg1) + " request.");
break;
case EVENT_RADIO_NOT_AVAILABLE:
mFailCause = DataFailCause.RADIO_NOT_AVAILABLE;
loge(eventToString(msg.what) + ": transition to disconnected state");
transitionTo(mDisconnectedState);
break;
case EVENT_DATA_NETWORK_VALIDATION_REQUESTED:
// If the data network is not connected, the request should be ignored.
handleErrorDataNetworkValidationRequest((Consumer<Integer>) msg.obj);
break;
case EVENT_DATA_NETWORK_VALIDATION_RESPONSE:
// handle the resultCode in response for the request.
handleDataNetworkValidationRequestResultCode(msg.arg1 /* resultCode */);
break;
default:
loge("Unhandled event " + eventToString(msg.what));
break;
}
return HANDLED;
}
}
/**
* The connecting state. This is the initial state of a data network.
*
* @see DataNetwork for the state machine diagram.
*/
private final class ConnectingState extends State {
/** Used for checking setup response IP mismatch. */
@NetworkRegistrationInfo.RegistrationState private int mRegStateWhenSetup;
@Override
public void enter() {
sendMessageDelayed(EVENT_STUCK_IN_TRANSIENT_STATE,
mDataConfigManager.getAnomalyNetworkConnectingTimeoutMs());
mNetworkAgent = createNetworkAgent();
mInitialNetworkAgentId = mNetworkAgent.getId();
mLogTag = "DN-" + mInitialNetworkAgentId + "-"
+ ((mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) ? "C" : "I");
// Get carrier config package uid. Note that this uid will not change through the life
// cycle of this data network. So there is no need to listen to the change event.
mCarrierServicePackageUid = mPhone.getCarrierPrivilegesTracker()
.getCarrierServicePackageUid();
notifyPreciseDataConnectionState();
if (mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WLAN) {
// Defer setupData until we get the PDU session ID response
allocatePduSessionId();
return;
}
setupData();
}
@Override
public void exit() {
removeMessages(EVENT_STUCK_IN_TRANSIENT_STATE);
}
@Override
public boolean processMessage(Message msg) {
logv("event=" + eventToString(msg.what));
switch (msg.what) {
case EVENT_ALLOCATE_PDU_SESSION_ID_RESPONSE:
AsyncResult ar = (AsyncResult) msg.obj;
if (ar.exception == null) {
mPduSessionId = (int) ar.result;
log("Set PDU session id to " + mPduSessionId);
} else {
loge("Failed to allocate PDU session id. e=" + ar.exception);
}
//Check whether all network requests were removed before setupData.
if (!mAttachedNetworkRequestList.isEmpty()) {
setupData();
} else {
mRetryDelayMillis = DataCallResponse.RETRY_DURATION_UNDEFINED;
mFailCause = DataFailCause.NO_RETRY_FAILURE;
transitionTo(mDisconnectedState);
}
break;
case EVENT_SETUP_DATA_NETWORK_RESPONSE:
int resultCode = msg.arg1;
DataCallResponse dataCallResponse =
msg.getData().getParcelable(DataServiceManager.DATA_CALL_RESPONSE);
onSetupResponse(resultCode, dataCallResponse);
break;
case EVENT_NOTIFY_HANDOVER_STARTED:
case EVENT_TEAR_DOWN_NETWORK:
case EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET:
// Defer the request until connected or disconnected.
log("Defer message " + eventToString(msg.what));
deferMessage(msg);
break;
case EVENT_STUCK_IN_TRANSIENT_STATE:
reportAnomaly("Data network stuck in connecting state for "
+ TimeUnit.MILLISECONDS.toSeconds(
mDataConfigManager.getAnomalyNetworkConnectingTimeoutMs())
+ " seconds.", "58c56403-7ea7-4e56-a0c7-e467114d09b8");
// Setup data failed. Use the retry logic defined in
// CarrierConfigManager.KEY_TELEPHONY_DATA_SETUP_RETRY_RULES_STRING_ARRAY.
mRetryDelayMillis = DataCallResponse.RETRY_DURATION_UNDEFINED;
mFailCause = DataFailCause.NO_RETRY_FAILURE;
transitionTo(mDisconnectedState);
break;
case EVENT_DEACTIVATE_DATA_NETWORK_RESPONSE:
int responseCode = msg.arg1;
onDeactivateResponse(responseCode);
break;
default:
return NOT_HANDLED;
}
return HANDLED;
}
/**
* Setup a data network.
*/
private void setupData() {
int dataNetworkType = getDataNetworkType();
NetworkRegistrationInfo nri = getNetworkRegistrationInfo();
mRegStateWhenSetup = nri != null
? nri.getNetworkRegistrationState()
: NetworkRegistrationInfo.REGISTRATION_STATE_UNKNOWN;
// We need to use the actual modem roaming state instead of the framework roaming state
// here. This flag is only passed down to ril_service for picking the correct protocol
// (for old modem backward compatibility).
boolean isModemRoaming = mPhone.getServiceState().getDataRoamingFromRegistration();
// Set this flag to true if the user turns on data roaming. Or if we override the
// roaming state in framework, we should set this flag to true as well so the modem will
// not reject the data call setup (because the modem thinks the device is roaming).
boolean allowRoaming = mPhone.getDataRoamingEnabled()
|| (isModemRoaming && (!mPhone.getServiceState().getDataRoaming()
/*|| isUnmeteredUseOnly()*/));
TrafficDescriptor trafficDescriptor = mDataProfile.getTrafficDescriptor();
final boolean matchAllRuleAllowed = trafficDescriptor == null
|| !TextUtils.isEmpty(trafficDescriptor.getDataNetworkName())
// Both OsAppId and APN name are null. This helps for modem to handle when we
// are on 5G or LTE with URSP support in falling back to default network.
|| (TextUtils.isEmpty(trafficDescriptor.getDataNetworkName())
&& trafficDescriptor.getOsAppId() == null);
int accessNetwork = DataUtils.networkTypeToAccessNetworkType(dataNetworkType);
mDataServiceManagers.get(mTransport)
.setupDataCall(accessNetwork, mDataProfile, isModemRoaming, allowRoaming,
DataService.REQUEST_REASON_NORMAL, null, mPduSessionId, null,
trafficDescriptor, matchAllRuleAllowed,
obtainMessage(EVENT_SETUP_DATA_NETWORK_RESPONSE));
int apnTypeBitmask = mDataProfile.getApnSetting() != null
? mDataProfile.getApnSetting().getApnTypeBitmask() : ApnSetting.TYPE_NONE;
mDataCallSessionStats.onSetupDataCall(apnTypeBitmask);
logl("setupData: accessNetwork="
+ AccessNetworkType.toString(accessNetwork) + ", " + mDataProfile
+ ", isModemRoaming=" + isModemRoaming + ", allowRoaming=" + allowRoaming
+ ", PDU session id=" + mPduSessionId + ", matchAllRuleAllowed="
+ matchAllRuleAllowed);
TelephonyMetrics.getInstance().writeSetupDataCall(mPhone.getPhoneId(),
ServiceState.networkTypeToRilRadioTechnology(dataNetworkType),
mDataProfile.getProfileId(), mDataProfile.getApn(),
mDataProfile.getProtocolType());
}
/**
* Called when receiving setup data network response from the data service.
*
* @param resultCode The result code.
* @param response The response.
*/
private void onSetupResponse(@DataServiceCallback.ResultCode int resultCode,
@Nullable DataCallResponse response) {
logl("onSetupResponse: resultCode=" + DataServiceCallback.resultCodeToString(resultCode)
+ ", response=" + response);
mFailCause = getFailCauseFromDataCallResponse(resultCode, response);
validateDataCallResponse(response, mRegStateWhenSetup);
if (mFailCause == DataFailCause.NONE) {
DataNetwork dataNetwork = mDataNetworkController.getDataNetworkByInterface(
response.getInterfaceName());
if (dataNetwork != null) {
logl("Interface " + response.getInterfaceName() + " has been already used by "
+ dataNetwork + ". Silently tear down now.");
// If this is a pre-5G data setup, that means APN database has some problems.
// For example, different APN settings have the same APN name.
if (response.getTrafficDescriptors().isEmpty() && dataNetwork.isConnected()) {
reportAnomaly("Duplicate network interface " + response.getInterfaceName()
+ " detected.", "62f66e7e-8d71-45de-a57b-dc5c78223fd5");
}
// Do not actually invoke onTearDown, otherwise the existing data network will
// be torn down.
mRetryDelayMillis = DataCallResponse.RETRY_DURATION_UNDEFINED;
mFailCause = DataFailCause.NO_RETRY_FAILURE;
transitionTo(mDisconnectedState);
return;
}
updateDataNetwork(response);
// TODO: Evaluate all network requests and see if each request still can be
// satisfied.
// For requests that can't be satisfied anymore, we need to put them back to the
// unsatisfied pool. If none of network requests can be satisfied, then there is no
// need to mark network agent connected. Just silently deactivate the data network.
if (mAttachedNetworkRequestList.isEmpty()) {
log("Tear down the network since there is no live network request.");
// Directly call onTearDown here. Calling tearDown will cause deadlock because
// EVENT_TEAR_DOWN_NETWORK is deferred until state machine enters connected
// state, which will never happen in this case.
onTearDown(TEAR_DOWN_REASON_NO_LIVE_REQUEST);
return;
}
if (mVcnManager != null && mVcnManager.applyVcnNetworkPolicy(mNetworkCapabilities,
mLinkProperties).isTeardownRequested()) {
log("VCN service requested to tear down the network.");
// Directly call onTearDown here. Calling tearDown will cause deadlock because
// EVENT_TEAR_DOWN_NETWORK is deferred until state machine enters connected
// state, which will never happen in this case.
onTearDown(TEAR_DOWN_REASON_VCN_REQUESTED);
return;
}
transitionTo(mConnectedState);
} else {
// Setup data failed.
mRetryDelayMillis = response != null ? response.getRetryDurationMillis()
: DataCallResponse.RETRY_DURATION_UNDEFINED;
transitionTo(mDisconnectedState);
}
int apnTypeBitmask = ApnSetting.TYPE_NONE;
int protocol = ApnSetting.PROTOCOL_UNKNOWN;
if (mDataProfile.getApnSetting() != null) {
apnTypeBitmask = mDataProfile.getApnSetting().getApnTypeBitmask();
protocol = mDataProfile.getApnSetting().getProtocol();
}
mDataCallSessionStats.onSetupDataCallResponse(response,
getDataNetworkType(),
apnTypeBitmask,
protocol,
// Log the raw fail cause to avoid large amount of UNKNOWN showing on metrics.
response != null ? response.getCause() : mFailCause);
}
}
/**
* The connected state. This is the state when data network becomes usable.
*
* @see DataNetwork for the state machine diagram.
*/
private final class ConnectedState extends State {
@Override
public void enter() {
// Note that reaching here could mean from connecting -> connected, or from
// handover -> connected.
if (!mEverConnected) {
// Transited from ConnectingState
log("network connected.");
mEverConnected = true;
mNetworkAgent.markConnected();
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onConnected(DataNetwork.this));
mQosCallbackTracker = new QosCallbackTracker(mNetworkAgent, mPhone);
mQosCallbackTracker.updateSessions(mQosBearerSessions);
mKeepaliveTracker = new KeepaliveTracker(mPhone,
getHandler().getLooper(), DataNetwork.this, mNetworkAgent);
if (mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) {
registerForWwanEvents();
}
// Create the VCN policy changed listener. When the policy changed, we might need
// to tear down the VCN-managed network.
if (mVcnManager != null) {
mVcnPolicyChangeListener = () -> {
log("VCN policy changed.");
if (mVcnManager.applyVcnNetworkPolicy(mNetworkCapabilities, mLinkProperties)
.isTeardownRequested()) {
tearDown(TEAR_DOWN_REASON_VCN_REQUESTED);
} else {
updateNetworkCapabilities();
}
};
mVcnManager.addVcnNetworkPolicyChangeListener(
getHandler()::post, mVcnPolicyChangeListener);
}
}
// If we've ever received PCO data before connected, now it's the time to process it.
mPcoData.getOrDefault(mCid.get(mTransport), Collections.emptyMap())
.forEach((pcoId, pcoData) -> {
onPcoDataChanged(pcoData);
});
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onLinkStatusChanged(DataNetwork.this, mLinkStatus));
notifyPreciseDataConnectionState();
updateSuspendState();
}
@Override
public boolean processMessage(Message msg) {
logv("event=" + eventToString(msg.what));
switch (msg.what) {
case EVENT_TEAR_DOWN_NETWORK:
if (mInvokedDataDeactivation) {
log("Ignore tear down request because network is being torn down.");
break;
}
int tearDownReason = msg.arg1;
removeMessages(EVENT_TEAR_DOWN_NETWORK);
removeDeferredMessages(EVENT_TEAR_DOWN_NETWORK);
transitionTo(mDisconnectingState);
onTearDown(tearDownReason);
break;
case EVENT_BANDWIDTH_ESTIMATE_FROM_MODEM_CHANGED:
AsyncResult ar = (AsyncResult) msg.obj;
if (ar.exception != null) {
log("EVENT_BANDWIDTH_ESTIMATE_FROM_MODEM_CHANGED: error ignoring, e="
+ ar.exception);
break;
}
onBandwidthUpdatedFromModem((List<LinkCapacityEstimate>) ar.result);
break;
case EVENT_DISPLAY_INFO_CHANGED:
onDisplayInfoChanged();
break;
case EVENT_NOTIFY_HANDOVER_STARTED:
// Notify source transport that handover is about to start. Note this will not
// initiate the handover process on target transport, but more for notifying
// the source transport so that PDU session id can be preserved if network
// notifies PDN lost during handover. The real handover process will kick off
// after receiving EVENT_NOTIFY_HANDOVER_STARTED_RESPONSE.
log("Notifying source transport "
+ AccessNetworkConstants.transportTypeToString(mTransport)
+ " that handover is about to start.");
mDataServiceManagers.get(mTransport).startHandover(mCid.get(mTransport),
obtainMessage(EVENT_NOTIFY_HANDOVER_STARTED_RESPONSE, 0, msg.arg2,
msg.obj));
// We enter handover state here because this is the first action we do for
// handover.
transitionTo(mHandoverState);
break;
case EVENT_SUBSCRIPTION_PLAN_OVERRIDE:
updateMeteredAndCongested();
break;
case EVENT_DEACTIVATE_DATA_NETWORK_RESPONSE:
int resultCode = msg.arg1;
onDeactivateResponse(resultCode);
break;
case EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET:
transitionTo(mDisconnectingState);
sendMessageDelayed(EVENT_TEAR_DOWN_NETWORK, msg.arg1, msg.arg2);
break;
case EVENT_VOICE_CALL_STARTED:
case EVENT_VOICE_CALL_ENDED:
case EVENT_CSS_INDICATOR_CHANGED:
updateSuspendState();
updateNetworkCapabilities();
break;
case EVENT_DATA_NETWORK_VALIDATION_REQUESTED:
// Network validation request can be accepted if the data is in connected state
handleDataNetworkValidationRequest((Consumer<Integer>) msg.obj);
break;
default:
return NOT_HANDLED;
}
return HANDLED;
}
}
/**
* The handover state. This is the state when data network handover between IWLAN and cellular.
*
* @see DataNetwork for the state machine diagram.
*/
private final class HandoverState extends State {
@Override
public void enter() {
sendMessageDelayed(EVENT_STUCK_IN_TRANSIENT_STATE,
mDataConfigManager.getNetworkHandoverTimeoutMs());
notifyPreciseDataConnectionState();
updateNetworkScore(true /* keepConnectedForHandover */);
}
@Override
public void exit() {
removeMessages(EVENT_STUCK_IN_TRANSIENT_STATE);
updateNetworkScore(false /* keepConnectedForHandover */);
}
@Override
public boolean processMessage(Message msg) {
logv("event=" + eventToString(msg.what));
switch (msg.what) {
case EVENT_DATA_STATE_CHANGED:
// The data call list changed event should be conditionally deferred.
// Otherwise the deferred message might be incorrectly treated as "disconnected"
// signal. So we only defer the related data call list changed event, and drop
// the unrelated.
AsyncResult ar = (AsyncResult) msg.obj;
int transport = (int) ar.userObj;
List<DataCallResponse> responseList = (List<DataCallResponse>) ar.result;
if (transport != mTransport) {
log("Dropped unrelated "
+ AccessNetworkConstants.transportTypeToString(transport)
+ " data call list changed event. " + responseList);
} else {
log("Defer message " + eventToString(msg.what) + ":" + responseList);
deferMessage(msg);
}
break;
case EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET:
case EVENT_DISPLAY_INFO_CHANGED:
case EVENT_TEAR_DOWN_NETWORK:
case EVENT_CSS_INDICATOR_CHANGED:
case EVENT_VOICE_CALL_ENDED:
case EVENT_VOICE_CALL_STARTED:
case EVENT_DATA_NETWORK_VALIDATION_REQUESTED:
// Defer the request until handover succeeds or fails.
log("Defer message " + eventToString(msg.what));
deferMessage(msg);
break;
case EVENT_NOTIFY_HANDOVER_STARTED_RESPONSE:
onStartHandover(msg.arg2, (DataHandoverRetryEntry) msg.obj);
break;
case EVENT_HANDOVER_RESPONSE:
int resultCode = msg.arg1;
DataCallResponse dataCallResponse =
msg.getData().getParcelable(DataServiceManager.DATA_CALL_RESPONSE);
onHandoverResponse(resultCode, dataCallResponse,
(DataHandoverRetryEntry) msg.obj);
break;
case EVENT_STUCK_IN_TRANSIENT_STATE:
// enable detection only for valid timeout range
reportAnomaly("Data service did not respond the handover request within "
+ TimeUnit.MILLISECONDS.toSeconds(
mDataConfigManager.getNetworkHandoverTimeoutMs()) + " seconds.",
"1afe68cb-8b41-4964-a737-4f34372429ea");
// Handover failed. Use the retry logic defined in
// CarrierConfigManager.KEY_TELEPHONY_DATA_HANDOVER_RETRY_RULES_STRING_ARRAY.
long retry = DataCallResponse.RETRY_DURATION_UNDEFINED;
int handoverFailureMode =
DataCallResponse.HANDOVER_FAILURE_MODE_NO_FALLBACK_RETRY_SETUP_NORMAL;
mFailCause = DataFailCause.ERROR_UNSPECIFIED;
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onHandoverFailed(DataNetwork.this,
mFailCause, retry, handoverFailureMode));
// No matter handover succeeded or not, transit back to connected state.
transitionTo(mConnectedState);
break;
default:
return NOT_HANDLED;
}
return HANDLED;
}
}
/**
* The disconnecting state. This is the state when data network is about to be disconnected.
* The network is still usable in this state, but the clients should be prepared to lose the
* network in any moment. This state is particular useful for IMS graceful tear down, where
* the network enters disconnecting state while waiting for IMS de-registration signal.
*
* @see DataNetwork for the state machine diagram.
*/
private final class DisconnectingState extends State {
@Override
public void enter() {
sendMessageDelayed(EVENT_STUCK_IN_TRANSIENT_STATE,
mDataConfigManager.getAnomalyNetworkDisconnectingTimeoutMs());
notifyPreciseDataConnectionState();
}
@Override
public void exit() {
removeMessages(EVENT_STUCK_IN_TRANSIENT_STATE);
}
@Override
public boolean processMessage(Message msg) {
logv("event=" + eventToString(msg.what));
switch (msg.what) {
case EVENT_TEAR_DOWN_NETWORK:
if (mInvokedDataDeactivation) {
log("Ignore tear down request because network is being torn down.");
break;
}
removeMessages(EVENT_TEAR_DOWN_NETWORK);
removeDeferredMessages(EVENT_TEAR_DOWN_NETWORK);
onTearDown(msg.arg1);
break;
case EVENT_DEACTIVATE_DATA_NETWORK_RESPONSE:
int resultCode = msg.arg1;
onDeactivateResponse(resultCode);
break;
case EVENT_STUCK_IN_TRANSIENT_STATE:
// After frameworks issues deactivate data call request, RIL should report
// data disconnected through data call list changed event subsequently.
reportAnomaly("RIL did not send data call list changed event after "
+ "deactivate data call request within "
+ TimeUnit.MILLISECONDS.toSeconds(
mDataConfigManager.getAnomalyNetworkDisconnectingTimeoutMs())
+ " seconds.", "d0e4fa1c-c57b-4ba5-b4b6-8955487012cc");
mFailCause = DataFailCause.LOST_CONNECTION;
transitionTo(mDisconnectedState);
break;
case EVENT_DISPLAY_INFO_CHANGED:
onDisplayInfoChanged();
break;
case EVENT_CSS_INDICATOR_CHANGED:
case EVENT_VOICE_CALL_STARTED:
case EVENT_VOICE_CALL_ENDED:
updateSuspendState();
updateNetworkCapabilities();
break;
default:
return NOT_HANDLED;
}
return HANDLED;
}
}
/**
* The disconnected state. This is the final state of a data network.
*
* @see DataNetwork for the state machine diagram.
*/
private final class DisconnectedState extends State {
@Override
public void enter() {
logl("Data network disconnected. mEverConnected=" + mEverConnected);
// Preserve the list for onSetupDataFailed callback, because we need to pass that list
// back to DataNetworkController, but after EVENT_DETACH_ALL_NETWORK_REQUESTS gets
// processed, the network request list would become empty.
NetworkRequestList requestList = new NetworkRequestList(mAttachedNetworkRequestList);
// The detach all network requests must be the last message to handle.
sendMessage(EVENT_DETACH_ALL_NETWORK_REQUESTS);
// Gracefully handle all the un-processed events then quit the state machine.
// quit() throws a QUIT event to the end of message queue. All the events before quit()
// will be processed. Events after quit() will not be processed.
quit();
//************************************************************//
// DO NOT POST ANY EVENTS AFTER HERE. //
// THE STATE MACHINE WONT PROCESS EVENTS AFTER QUIT. //
// ONLY CLEANUP SHOULD BE PERFORMED AFTER THIS. //
//************************************************************//
if (mEverConnected) {
mLinkStatus = DataCallResponse.LINK_STATUS_INACTIVE;
mNetworkValidationStatus =
PreciseDataConnectionState.NETWORK_VALIDATION_UNSUPPORTED;
mDataNetworkCallback.invokeFromExecutor(() -> mDataNetworkCallback
.onLinkStatusChanged(DataNetwork.this, mLinkStatus));
mDataNetworkCallback.invokeFromExecutor(() -> mDataNetworkCallback
.onDisconnected(DataNetwork.this, mFailCause, mTearDownReason));
if (mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) {
unregisterForWwanEvents();
}
} else {
mDataNetworkCallback.invokeFromExecutor(() -> mDataNetworkCallback
.onSetupDataFailed(DataNetwork.this,
requestList, mFailCause, mRetryDelayMillis));
}
notifyPreciseDataConnectionState();
mNetworkAgent.unregister();
mDataNetworkController.unregisterDataNetworkControllerCallback(
mDataNetworkControllerCallback);
mDataCallSessionStats.onDataCallDisconnected(mFailCause);
if (mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WLAN
&& mPduSessionId != DataCallResponse.PDU_SESSION_ID_NOT_SET) {
mRil.releasePduSessionId(null, mPduSessionId);
}
if (mVcnManager != null && mVcnPolicyChangeListener != null) {
mVcnManager.removeVcnNetworkPolicyChangeListener(mVcnPolicyChangeListener);
}
}
@Override
public boolean processMessage(Message msg) {
logv("event=" + eventToString(msg.what));
return NOT_HANDLED;
}
}
/**
* Register for events that can only happen on cellular networks.
*/
private void registerForWwanEvents() {
registerForBandwidthUpdate();
mKeepaliveTracker.registerForKeepaliveStatus();
mRil.registerForNotAvailable(this.getHandler(), EVENT_RADIO_NOT_AVAILABLE, null);
}
/**
* Unregister for events that can only happen on cellular networks.
*/
private void unregisterForWwanEvents() {
unregisterForBandwidthUpdate();
mKeepaliveTracker.unregisterForKeepaliveStatus();
mRil.unregisterForNotAvailable(this.getHandler());
}
@Override
protected void unhandledMessage(Message msg) {
IState state = getCurrentState();
loge("Unhandled message " + msg.what + " in state "
+ (state == null ? "null" : state.getName()));
}
/**
* Attempt to attach the network request list to this data network. Whether the network can
* satisfy the request or not will be checked when EVENT_ATTACH_NETWORK_REQUEST is processed.
* If the request can't be attached, {@link DataNetworkCallback#onAttachFailed(
* DataNetwork, NetworkRequestList)}.
*
* @param requestList Network request list to attach.
* @return {@code false} if the network is already disconnected. {@code true} means the request
* has been scheduled to attach to the network. If attach succeeds, the network request's state
* will be set to {@link TelephonyNetworkRequest#REQUEST_STATE_SATISFIED}. If failed, the
* callback {@link DataNetworkCallback#onAttachFailed(DataNetwork, NetworkRequestList)} will
* be called.
*/
public boolean attachNetworkRequests(@NonNull NetworkRequestList requestList) {
// If the network is already ended, we still attach the network request to the data network,
// so it can be retried later by data network controller.
if (getCurrentState() == null || isDisconnected()) {
// The state machine has already stopped. This is due to data network is disconnected.
return false;
}
sendMessage(obtainMessage(EVENT_ATTACH_NETWORK_REQUEST, requestList));
return true;
}
/**
* Called when attaching network request list to this data network.
*
* @param requestList Network request list to attach.
*/
public void onAttachNetworkRequests(@NonNull NetworkRequestList requestList) {
NetworkRequestList failedList = new NetworkRequestList();
for (TelephonyNetworkRequest networkRequest : requestList) {
if (!mDataNetworkController.isNetworkRequestExisting(networkRequest)) {
failedList.add(networkRequest);
log("Attached failed. Network request was already removed. " + networkRequest);
} else if (!networkRequest.canBeSatisfiedBy(getNetworkCapabilities())) {
failedList.add(networkRequest);
log("Attached failed. Cannot satisfy the network request "
+ networkRequest);
} else {
mAttachedNetworkRequestList.add(networkRequest);
networkRequest.setAttachedNetwork(DataNetwork.this);
networkRequest.setState(
TelephonyNetworkRequest.REQUEST_STATE_SATISFIED);
log("Successfully attached network request " + networkRequest);
}
}
if (failedList.size() > 0) {
mDataNetworkCallback.invokeFromExecutor(() -> mDataNetworkCallback
.onAttachFailed(DataNetwork.this, failedList));
}
}
/**
* Called when detaching the network request from this data network.
*
* @param networkRequest Network request to detach.
* @param shouldRetry {@code true} if the detached network request should be retried.
*/
private void onDetachNetworkRequest(@NonNull TelephonyNetworkRequest networkRequest,
boolean shouldRetry) {
mAttachedNetworkRequestList.remove(networkRequest);
networkRequest.setState(TelephonyNetworkRequest.REQUEST_STATE_UNSATISFIED);
networkRequest.setAttachedNetwork(null);
if (shouldRetry) {
// Inform DataNetworkController that a network request was detached and should be
// scheduled to retry.
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onRetryUnsatisfiedNetworkRequest(networkRequest));
}
if (mAttachedNetworkRequestList.isEmpty()) {
log("All network requests are detached.");
// If there is no network request attached, and we are not preferred data phone, then
// this detach is likely due to temp DDS switch. We should tear down the network when
// all requests are detached so the other network on preferred data sub can be
// established properly.
int preferredDataPhoneId = PhoneSwitcher.getInstance().getPreferredDataPhoneId();
if (preferredDataPhoneId != SubscriptionManager.INVALID_PHONE_INDEX
&& preferredDataPhoneId != mPhone.getPhoneId()) {
tearDown(TEAR_DOWN_REASON_PREFERRED_DATA_SWITCHED);
}
}
}
/**
* Detach the network request from this data network. Note that this will not tear down the
* network.
*
* @param networkRequest Network request to detach.
* @param shouldRetry {@code true} if the detached network request should be retried.
*/
public void detachNetworkRequest(@NonNull TelephonyNetworkRequest networkRequest,
boolean shouldRetry) {
if (getCurrentState() == null || isDisconnected()) {
return;
}
sendMessage(obtainMessage(EVENT_DETACH_NETWORK_REQUEST, shouldRetry ? 1 : 0, 0,
networkRequest));
}
/**
* Register for bandwidth update.
*/
private void registerForBandwidthUpdate() {
int bandwidthEstimateSource = mDataConfigManager.getBandwidthEstimateSource();
if (bandwidthEstimateSource == BANDWIDTH_SOURCE_MODEM) {
mPhone.mCi.registerForLceInfo(
getHandler(), EVENT_BANDWIDTH_ESTIMATE_FROM_MODEM_CHANGED, null);
} else if (bandwidthEstimateSource == BANDWIDTH_SOURCE_BANDWIDTH_ESTIMATOR) {
if (mLinkBandwidthEstimatorCallback == null) {
mLinkBandwidthEstimatorCallback =
new LinkBandwidthEstimatorCallback(getHandler()::post) {
@Override
public void onBandwidthChanged(int uplinkBandwidthKbps,
int downlinkBandwidthKbps) {
if (isConnected()) {
onBandwidthUpdated(uplinkBandwidthKbps, downlinkBandwidthKbps);
}
}
};
mPhone.getLinkBandwidthEstimator().registerCallback(
mLinkBandwidthEstimatorCallback);
}
} else {
loge("Invalid bandwidth source configuration: " + bandwidthEstimateSource);
}
}
/**
* Unregister bandwidth update.
*/
private void unregisterForBandwidthUpdate() {
int bandwidthEstimateSource = mDataConfigManager.getBandwidthEstimateSource();
if (bandwidthEstimateSource == BANDWIDTH_SOURCE_MODEM) {
mPhone.mCi.unregisterForLceInfo(getHandler());
} else if (bandwidthEstimateSource == BANDWIDTH_SOURCE_BANDWIDTH_ESTIMATOR) {
if (mLinkBandwidthEstimatorCallback != null) {
mPhone.getLinkBandwidthEstimator()
.unregisterCallback(mLinkBandwidthEstimatorCallback);
mLinkBandwidthEstimatorCallback = null;
}
} else {
loge("Invalid bandwidth source configuration: " + bandwidthEstimateSource);
}
}
/**
* Remove network requests that can't be satisfied anymore.
*
* @param shouldRetry {@code true} if the detached network requests should be retried.
*/
private void removeUnsatisfiedNetworkRequests(boolean shouldRetry) {
for (TelephonyNetworkRequest networkRequest : mAttachedNetworkRequestList) {
if (!networkRequest.canBeSatisfiedBy(mNetworkCapabilities)) {
log("removeUnsatisfiedNetworkRequests: " + networkRequest
+ " can't be satisfied anymore. Will be detached.");
detachNetworkRequest(networkRequest, shouldRetry);
}
}
}
/**
* Check if the new link properties are compatible with the old link properties. For example,
* if IP changes, that's considered incompatible.
*
* @param oldLinkProperties Old link properties.
* @param newLinkProperties New Link properties.
*
* @return {@code true} if the new link properties is compatible with the old link properties.
*/
private boolean isLinkPropertiesCompatible(@NonNull LinkProperties oldLinkProperties,
@NonNull LinkProperties newLinkProperties) {
if (Objects.equals(oldLinkProperties, newLinkProperties)) return true;
if (!LinkPropertiesUtils.isIdenticalAddresses(oldLinkProperties, newLinkProperties)) {
// If the same address type was removed and added we need to cleanup.
LinkPropertiesUtils.CompareOrUpdateResult<Integer, LinkAddress> result =
new LinkPropertiesUtils.CompareOrUpdateResult<>(
oldLinkProperties.getLinkAddresses(),
newLinkProperties.getLinkAddresses(),
linkAddress -> Objects.hash(linkAddress.getAddress(),
linkAddress.getPrefixLength(), linkAddress.getScope()));
log("isLinkPropertiesCompatible: old=" + oldLinkProperties
+ " new=" + newLinkProperties + " result=" + result);
for (LinkAddress added : result.added) {
for (LinkAddress removed : result.removed) {
if (NetUtils.addressTypeMatches(removed.getAddress(), added.getAddress())) {
return false;
}
}
}
}
return true;
}
/**
* Check if there are immutable capabilities changed. The connectivity service is not able
* to handle immutable capabilities changed, but in very rare scenarios, immutable capabilities
* need to be changed dynamically, such as in setup data call response, modem responded with the
* same cid. In that case, we need to merge the new capabilities into the existing data network.
*
* @param oldCapabilities The old network capabilities.
* @param newCapabilities The new network capabilities.
* @return {@code true} if there are immutable network capabilities changed.
*/
private static boolean areImmutableCapabilitiesChanged(
@NonNull NetworkCapabilities oldCapabilities,
@NonNull NetworkCapabilities newCapabilities) {
if (oldCapabilities == null
|| ArrayUtils.isEmpty(oldCapabilities.getCapabilities())) return false;
// Remove mutable capabilities from both old and new capabilities, the remaining
// capabilities would be immutable capabilities.
List<Integer> oldImmutableCapabilities = Arrays.stream(oldCapabilities.getCapabilities())
.boxed().collect(Collectors.toList());
oldImmutableCapabilities.removeAll(MUTABLE_CAPABILITIES);
List<Integer> newImmutableCapabilities = Arrays.stream(newCapabilities.getCapabilities())
.boxed().collect(Collectors.toList());
newImmutableCapabilities.removeAll(MUTABLE_CAPABILITIES);
return oldImmutableCapabilities.size() != newImmutableCapabilities.size()
|| !oldImmutableCapabilities.containsAll(newImmutableCapabilities);
}
/**
* In some rare cases we need to re-create the network agent, for example, underlying network
* IP changed, or when we unfortunately need to remove/add a immutable network capability.
*/
private void recreateNetworkAgent() {
if (isConnecting() || isDisconnected() || isDisconnecting()) {
loge("Incorrect state for re-creating the network agent.");
return;
}
// Abandon the network agent because we are going to create a new one.
mNetworkAgent.abandon();
// Create a new network agent and register with connectivity service. Note that the agent
// will always be registered with NOT_SUSPENDED capability.
mNetworkAgent = createNetworkAgent();
mNetworkAgent.markConnected();
// Because network agent is always created with NOT_SUSPENDED, we need to update
// the suspended if it's was in suspended state.
if (mSuspended) {
log("recreateNetworkAgent: The network is in suspended state. Update the network"
+ " capability again. nc=" + mNetworkCapabilities);
mNetworkAgent.sendNetworkCapabilities(mNetworkCapabilities);
}
}
/**
* @return {@code true} if this is a satellite data network.
*/
public boolean isSatellite() {
return mIsSatellite;
}
/**
* Update the network capabilities.
*/
private void updateNetworkCapabilities() {
final NetworkCapabilities.Builder builder = new NetworkCapabilities.Builder();
if (mFlags.carrierEnabledSatelliteFlag() && mIsSatellite
&& mDataConfigManager.getForcedCellularTransportCapabilities().stream()
.noneMatch(this::hasNetworkCapabilityInNetworkRequests)) {
builder.addTransportType(NetworkCapabilities.TRANSPORT_SATELLITE);
} else {
builder.addTransportType(NetworkCapabilities.TRANSPORT_CELLULAR);
}
boolean roaming = mPhone.getServiceState().getDataRoaming();
builder.setNetworkSpecifier(new TelephonyNetworkSpecifier.Builder()
.setSubscriptionId(mSubId).build());
builder.setSubscriptionIds(Collections.singleton(mSubId));
ApnSetting apnSetting = mDataProfile.getApnSetting();
if (apnSetting != null) {
apnSetting.getApnTypes().stream()
.map(DataUtils::apnTypeToNetworkCapability)
.filter(cap -> cap >= 0)
.forEach(builder::addCapability);
if (apnSetting.getApnTypes().contains(ApnSetting.TYPE_ENTERPRISE)) {
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET);
}
}
// If MMTEL capability is requested, we should not remove it because it's an immutable
// capability defined by connectivity service. When the device enters from VoPS to non-VoPS,
// we should perform grace tear down from data network controller if needed.
if (hasNetworkCapabilityInNetworkRequests(NetworkCapabilities.NET_CAPABILITY_MMTEL)) {
// Request has MMTEL, add it again so the network won't be unwanted by connectivity.
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_MMTEL);
} else if (mDataProfile.canSatisfy(NetworkCapabilities.NET_CAPABILITY_IMS)) {
// Request has IMS capability only.
// Always add MMTEL capability on IMS network unless network explicitly indicates VoPS
// not supported.
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_MMTEL);
if (mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) {
NetworkRegistrationInfo nri = getNetworkRegistrationInfo();
if (nri != null) {
DataSpecificRegistrationInfo dsri = nri.getDataSpecificInfo();
// Check if the network is non-VoPS.
if (dsri != null && dsri.getVopsSupportInfo() != null
&& !dsri.getVopsSupportInfo().isVopsSupported()
// Reflect the actual MMTEL if flag on.
&& (mFlags.allowMmtelInNonVops()
// Deceive Connectivity service to satisfy an MMTEL request, this should
// be useless because we reach here if no MMTEL request, then removing
// MMTEL capability shouldn't have any impacts.
|| !mDataConfigManager.shouldKeepNetworkUpInNonVops(
nri.getNetworkRegistrationState()))) {
builder.removeCapability(NetworkCapabilities.NET_CAPABILITY_MMTEL);
}
log("updateNetworkCapabilities: dsri=" + dsri);
}
}
}
// Extract network capabilities from the traffic descriptor.
for (TrafficDescriptor trafficDescriptor : mTrafficDescriptors) {
try {
if (trafficDescriptor.getOsAppId() == null) continue;
OsAppId osAppId = new OsAppId(trafficDescriptor.getOsAppId());
if (!osAppId.getOsId().equals(OsAppId.ANDROID_OS_ID)) {
loge("Received non-Android OS id " + osAppId.getOsId());
continue;
}
int networkCapability = DataUtils.getNetworkCapabilityFromString(
osAppId.getAppId());
switch (networkCapability) {
case NetworkCapabilities.NET_CAPABILITY_ENTERPRISE:
builder.addCapability(networkCapability);
// Always add internet if TD contains enterprise.
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET);
builder.addEnterpriseId(osAppId.getDifferentiator());
break;
case NetworkCapabilities.NET_CAPABILITY_PRIORITIZE_LATENCY:
case NetworkCapabilities.NET_CAPABILITY_PRIORITIZE_BANDWIDTH:
case NetworkCapabilities.NET_CAPABILITY_CBS:
builder.addCapability(networkCapability);
break;
default:
loge("Invalid app id " + osAppId.getAppId());
}
} catch (Exception e) {
loge("Exception: " + e + ". Failed to create osAppId from "
+ new BigInteger(1, trafficDescriptor.getOsAppId()).toString(16));
}
}
if (!mCongested) {
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_NOT_CONGESTED);
}
if (mTempNotMeteredSupported && mTempNotMetered) {
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_TEMPORARILY_NOT_METERED);
}
// Always start with NOT_VCN_MANAGED, then remove if VcnManager indicates this is part of a
// VCN.
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_NOT_VCN_MANAGED);
final VcnNetworkPolicyResult vcnPolicy = getVcnPolicy(builder.build());
if (vcnPolicy != null && !vcnPolicy.getNetworkCapabilities()
.hasCapability(NetworkCapabilities.NET_CAPABILITY_NOT_VCN_MANAGED)) {
builder.removeCapability(NetworkCapabilities.NET_CAPABILITY_NOT_VCN_MANAGED);
}
if (!roaming) {
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING);
}
if (!mSuspended) {
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_NOT_SUSPENDED);
}
if (mCarrierServicePackageUid != Process.INVALID_UID
&& ArrayUtils.contains(mAdministratorUids, mCarrierServicePackageUid)) {
builder.setOwnerUid(mCarrierServicePackageUid);
builder.setAllowedUids(Collections.singleton(mCarrierServicePackageUid));
}
builder.setAdministratorUids(mAdministratorUids);
Set<Integer> meteredCapabilities = mDataConfigManager
.getMeteredNetworkCapabilities(roaming).stream()
.filter(cap -> mAccessNetworksManager.getPreferredTransportByNetworkCapability(cap)
== AccessNetworkConstants.TRANSPORT_TYPE_WWAN)
.collect(Collectors.toSet());
boolean unmeteredNetwork = meteredCapabilities.stream().noneMatch(
Arrays.stream(builder.build().getCapabilities()).boxed()
.collect(Collectors.toSet())::contains);
if (unmeteredNetwork) {
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_NOT_METERED);
}
// Always start with not-restricted, and then remove if needed.
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED);
// When data is disabled, or data roaming is disabled and the device is roaming, we need
// to remove certain capabilities depending on scenarios.
if (!mDataNetworkController.getDataSettingsManager().isDataEnabled()
|| (mPhone.getServiceState().getDataRoaming()
&& !mDataNetworkController.getDataSettingsManager().isDataRoamingEnabled())) {
// If data is allowed because the request is a restricted network request, we need
// to mark the network as restricted when data is disabled or data roaming is disabled
// and the device is roaming. If we don't do that, non-privileged apps will be able
// to use this network when data is disabled.
if (mDataAllowedReason == DataAllowedReason.RESTRICTED_REQUEST) {
builder.removeCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED);
} else if (mDataAllowedReason == DataAllowedReason.UNMETERED_USAGE
|| mDataAllowedReason == DataAllowedReason.MMS_REQUEST
|| mDataAllowedReason == DataAllowedReason.EMERGENCY_SUPL) {
// If data is allowed due to unmetered usage, or MMS always-allowed, we need to
// remove unrelated-but-metered capabilities.
for (int capability : meteredCapabilities) {
// 1. If it's unmetered usage, remove all metered capabilities.
// 2. If it's MMS always-allowed, then remove all metered capabilities but MMS.
// 3/ If it's for emergency SUPL, then remove all metered capabilities but SUPL.
if ((capability == NetworkCapabilities.NET_CAPABILITY_MMS
&& mDataAllowedReason == DataAllowedReason.MMS_REQUEST)
|| (capability == NetworkCapabilities.NET_CAPABILITY_SUPL
&& mDataAllowedReason == DataAllowedReason.EMERGENCY_SUPL)) {
// Not removing the capability for special uses.
continue;
}
builder.removeCapability(capability);
}
}
}
if (mDataNetworkController.isEsimBootStrapProvisioningActivated()) {
builder.removeCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED);
}
// mark the network as restricted when service state is non-terrestrial(satellite network)
if (mFlags.carrierEnabledSatelliteFlag() && mIsSatellite) {
builder.removeCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED);
}
// Check if the feature force MMS on IWLAN is enabled. When the feature is enabled, MMS
// will be attempted on IWLAN if possible, even if existing cellular networks already
// supports IWLAN.
if (mFlags.forceIwlanMms() && builder.build()
.hasCapability(NetworkCapabilities.NET_CAPABILITY_MMS)) {
// If QNS sets MMS preferred on IWLAN, and it is possible to setup an MMS network on
// IWLAN, then we need to remove the MMS capability on the cellular network. This will
// allow the new MMS network to be brought up on IWLAN when MMS network request arrives.
if (mAccessNetworksManager.getPreferredTransportByNetworkCapability(
NetworkCapabilities.NET_CAPABILITY_MMS)
== AccessNetworkConstants.TRANSPORT_TYPE_WLAN && mTransport
== AccessNetworkConstants.TRANSPORT_TYPE_WWAN) {
DataProfile dataProfile = mDataNetworkController.getDataProfileManager()
.getDataProfileForNetworkRequest(new TelephonyNetworkRequest(
new NetworkRequest.Builder().addCapability(
NetworkCapabilities.NET_CAPABILITY_MMS).build(), mPhone, mFlags),
TelephonyManager.NETWORK_TYPE_IWLAN, false, false, false);
// If we find another data data profile that can support MMS on IWLAN, then remove
// the MMS capability from this cellular network. This will allow IWLAN to be
// brought up for MMS later.
if (dataProfile != null && !dataProfile.equals(mDataProfile)) {
log("Found a different data profile " + mDataProfile.getApn()
+ " that can serve MMS on IWLAN.");
builder.removeCapability(NetworkCapabilities.NET_CAPABILITY_MMS);
}
}
}
// If one of the capabilities are for special use, for example, IMS, CBS, then this
// network should be restricted, regardless data is enabled or not.
if (NetworkCapabilitiesUtils.inferRestrictedCapability(builder.build())
|| (vcnPolicy != null && !vcnPolicy.getNetworkCapabilities()
.hasCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED))) {
builder.removeCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED);
}
// Set the bandwidth information.
builder.setLinkDownstreamBandwidthKbps(mNetworkBandwidth.downlinkBandwidthKbps);
builder.setLinkUpstreamBandwidthKbps(mNetworkBandwidth.uplinkBandwidthKbps);
NetworkCapabilities nc = builder.build();
if (mNetworkCapabilities == null || mNetworkAgent == null) {
// This is the first time when network capabilities is created. The agent is not created
// at this time. Just return here. The network capabilities will be used when network
// agent is created.
mNetworkCapabilities = nc;
logl("Initial capabilities " + mNetworkCapabilities);
return;
}
if (!nc.equals(mNetworkCapabilities)) {
// Check if we are changing the immutable capabilities. Note that we should be very
// careful and limit the use cases of changing immutable capabilities. Connectivity
// service would not close sockets for clients if a network request becomes
// unsatisfiable.
if (mEverConnected && areImmutableCapabilitiesChanged(mNetworkCapabilities, nc)
&& (isConnected() || isHandoverInProgress())) {
// Before connectivity service supports making all capabilities mutable, it is
// suggested to de-register and re-register the network agent if it is needed to
// add/remove immutable capabilities.
logl("updateNetworkCapabilities: Immutable capabilities changed. Re-create the "
+ "network agent. Attempted to change from " + mNetworkCapabilities + " to "
+ nc);
mNetworkCapabilities = nc;
recreateNetworkAgent();
} else {
// Now we need to inform connectivity service and data network controller
// about the capabilities changed.
mNetworkCapabilities = nc;
log("Capabilities changed to " + mNetworkCapabilities);
mNetworkAgent.sendNetworkCapabilities(mNetworkCapabilities);
}
// Only retry the request when the network is in connected or handover state. This is to
// prevent request is detached during connecting state, and then become a setup/detach
// infinite loop.
boolean shouldRetry = isConnected() || isHandoverInProgress();
removeUnsatisfiedNetworkRequests(shouldRetry);
mDataNetworkCallback.invokeFromExecutor(() -> mDataNetworkCallback
.onNetworkCapabilitiesChanged(DataNetwork.this));
} else {
log("updateNetworkCapabilities: Capabilities not changed.");
}
}
/**
* @return The network capabilities of this data network.
*/
public @NonNull NetworkCapabilities getNetworkCapabilities() {
return mNetworkCapabilities;
}
/**
* @return The link properties of this data network.
*/
public @NonNull LinkProperties getLinkProperties() {
return mLinkProperties;
}
/**
* @return The data profile of this data network.
*/
public @NonNull DataProfile getDataProfile() {
return mDataProfile;
}
/**
* Update data suspended state.
*/
private void updateSuspendState() {
if (isConnecting() || isDisconnected()) {
// Return if not in the right state.
return;
}
boolean newSuspendedState = false;
// Get the uncombined service state directly.
NetworkRegistrationInfo nri = getNetworkRegistrationInfo();
if (nri == null) return;
// Never set suspended for emergency apn. Emergency data connection
// can work while device is not in service.
if (mNetworkCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_EIMS)) {
newSuspendedState = false;
// If we are not in service, change to suspended.
} else if (nri.getRegistrationState()
!= NetworkRegistrationInfo.REGISTRATION_STATE_HOME
&& nri.getRegistrationState()
!= NetworkRegistrationInfo.REGISTRATION_STATE_ROAMING) {
newSuspendedState = true;
// Check voice/data concurrency.
} else if (!mPhone.getServiceStateTracker().isConcurrentVoiceAndDataAllowed()
&& mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WWAN
&& mPhone.getCallTracker() != null) {
newSuspendedState = mPhone.getCallTracker().getState() != PhoneConstants.State.IDLE;
}
// Only notify when there is a change.
if (mSuspended != newSuspendedState) {
mSuspended = newSuspendedState;
logl("Network becomes " + (mSuspended ? "suspended" : "unsuspended"));
// To update NOT_SUSPENDED capability.
updateNetworkCapabilities();
notifyPreciseDataConnectionState();
mDataNetworkCallback.invokeFromExecutor(() ->
mDataNetworkCallback.onSuspendedStateChanged(DataNetwork.this, mSuspended));
}
}
/**
* Allocate PDU session ID from the modem. This is only needed when the data network is
* initiated on IWLAN.
*/
private void allocatePduSessionId() {
mRil.allocatePduSessionId(obtainMessage(EVENT_ALLOCATE_PDU_SESSION_ID_RESPONSE));
}
/**
* Get fail cause from {@link DataCallResponse} and the result code.
*
* @param resultCode The result code returned from
* {@link DataServiceCallback#onSetupDataCallComplete(int, DataCallResponse)}.
* @param response The data call response returned from
* {@link DataServiceCallback#onSetupDataCallComplete(int, DataCallResponse)}.
*
* @return The fail cause. {@link DataFailCause#NONE} if succeeds.
*/
private @DataFailureCause int getFailCauseFromDataCallResponse(
@DataServiceCallback.ResultCode int resultCode, @Nullable DataCallResponse response) {
int failCause = DataFailCause.NONE;
switch (resultCode) {
case DataServiceCallback.RESULT_ERROR_ILLEGAL_STATE:
failCause = DataFailCause.RADIO_NOT_AVAILABLE;
break;
case DataServiceCallback.RESULT_ERROR_BUSY:
case DataServiceCallback.RESULT_ERROR_TEMPORARILY_UNAVAILABLE:
failCause = DataFailCause.SERVICE_TEMPORARILY_UNAVAILABLE;
break;
case DataServiceCallback.RESULT_ERROR_INVALID_ARG:
failCause = DataFailCause.UNACCEPTABLE_NETWORK_PARAMETER;
break;
case DataServiceCallback.RESULT_ERROR_UNSUPPORTED:
failCause = DataFailCause.REQUEST_NOT_SUPPORTED;
break;
case DataServiceCallback.RESULT_SUCCESS:
if (response != null) {
failCause = DataFailCause.getFailCause(response.getCause());
}
break;
}
return failCause;
}
/**
* Update data network based on the latest {@link DataCallResponse}.
*
* @param response The data call response from data service.
*/
private void updateDataNetwork(@NonNull DataCallResponse response) {
mCid.put(mTransport, response.getId());
LinkProperties linkProperties = new LinkProperties();
// Set interface name
linkProperties.setInterfaceName(response.getInterfaceName());
// Set PDU session id
if (mPduSessionId != response.getPduSessionId()) {
mPduSessionId = response.getPduSessionId();
log("PDU session id updated to " + mPduSessionId);
}
// Set the link status
if (mLinkStatus != response.getLinkStatus()) {
mLinkStatus = response.getLinkStatus();
log("Link status updated to " + DataUtils.linkStatusToString(mLinkStatus));
if (isConnected()) {
// If the data network is in a transition state, the link status will be notified
// upon entering connected or disconnected state. If the data network is already
// connected, send the updated link status from the updated data call response.
mDataNetworkCallback.invokeFromExecutor(() -> mDataNetworkCallback
.onLinkStatusChanged(DataNetwork.this, mLinkStatus));
}
}
// Set link addresses
if (response.getAddresses().size() > 0) {
for (LinkAddress la : response.getAddresses()) {
if (!la.getAddress().isAnyLocalAddress()) {
logv("addr/pl=" + la.getAddress() + "/" + la.getPrefixLength());
linkProperties.addLinkAddress(la);
}
}
} else {
loge("no address for ifname=" + response.getInterfaceName());
}
// Set DNS servers
if (response.getDnsAddresses().size() > 0) {
for (InetAddress dns : response.getDnsAddresses()) {
if (!dns.isAnyLocalAddress()) {
linkProperties.addDnsServer(dns);
}
}
} else {
loge("Empty dns response");
}
// Set PCSCF
if (response.getPcscfAddresses().size() > 0) {
for (InetAddress pcscf : response.getPcscfAddresses()) {
linkProperties.addPcscfServer(pcscf);
}
}
// For backwards compatibility, use getMtu() if getMtuV4() is not available.
int mtuV4 = response.getMtuV4() > 0 ? response.getMtuV4() : response.getMtu();
if (mtuV4 <= 0) {
// Use back up value from data profile.
if (mDataProfile.getApnSetting() != null) {
mtuV4 = mDataProfile.getApnSetting().getMtuV4();
}
if (mtuV4 <= 0) {
mtuV4 = mDataConfigManager.getDefaultMtu();
}
}
// For backwards compatibility, use getMtu() if getMtuV6() is not available.
int mtuV6 = response.getMtuV6() > 0 ? response.getMtuV6() : response.getMtu();
if (mtuV6 <= 0) {
// Use back up value from data profile.
if (mDataProfile.getApnSetting() != null) {
mtuV6 = mDataProfile.getApnSetting().getMtuV6();
}
if (mtuV6 <= 0) {
mtuV6 = mDataConfigManager.getDefaultMtu();
}
}
// Set MTU for each route.
for (InetAddress gateway : response.getGatewayAddresses()) {
int mtu = gateway instanceof java.net.Inet6Address ? mtuV6 : mtuV4;
linkProperties.addRoute(new RouteInfo(null, gateway, null,
RouteInfo.RTN_UNICAST, mtu));
}
// LinkProperties.setMtu should be deprecated. The mtu for each route has been already
// provided in addRoute() above. For backwards compatibility, we still need to provide
// a value for the legacy MTU. Use the higher value of v4 and v6 value here.
linkProperties.setMtu(Math.max(mtuV4, mtuV6));
if (mDataProfile.getApnSetting() != null
&& !TextUtils.isEmpty(mDataProfile.getApnSetting().getProxyAddressAsString())) {
int port = mDataProfile.getApnSetting().getProxyPort();
if (port == -1) {
port = 8080;
}
ProxyInfo proxy = ProxyInfo.buildDirectProxy(
mDataProfile.getApnSetting().getProxyAddressAsString(), port);
linkProperties.setHttpProxy(proxy);
}
linkProperties.setTcpBufferSizes(mTcpBufferSizes);
mNetworkSliceInfo = response.getSliceInfo();
mTrafficDescriptors.clear();
mTrafficDescriptors.addAll(response.getTrafficDescriptors());
mDefaultQos = response.getDefaultQos();
Set<QosBearerSession> newSessions = new HashSet<>(response.getQosBearerSessions());
if (newSessions.size() != mQosBearerSessions.size()
|| !newSessions.containsAll(mQosBearerSessions)) {
mDataNetworkCallback.onQosSessionsChanged(response.getQosBearerSessions());
}
mQosBearerSessions.clear();
mQosBearerSessions.addAll(response.getQosBearerSessions());
if (mQosCallbackTracker != null) {
mQosCallbackTracker.updateSessions(mQosBearerSessions);
}
if (!linkProperties.equals(mLinkProperties)) {
// If the new link properties is not compatible (e.g. IP changes, interface changes),
// then we should de-register the network agent and re-create a new one.
if ((isConnected() || isHandoverInProgress())
&& !isLinkPropertiesCompatible(mLinkProperties, linkProperties)) {
logl("updateDataNetwork: Incompatible link properties detected. Re-create the "
+ "network agent. Changed from " + mLinkProperties + " to "
+ linkProperties);
mLinkProperties = linkProperties;
recreateNetworkAgent();
} else {
mLinkProperties = linkProperties;
log("sendLinkProperties " + mLinkProperties);
mNetworkAgent.sendLinkProperties(mLinkProperties);
}
}
updateNetworkCapabilities();
updateValidationStatus(response.getNetworkValidationStatus());
}
/**
* If the {@link DataCallResponse} contains invalid info, triggers an anomaly report.
*
* @param response The response to be validated
* @param setupRegState Registration state if the response is for initial data call setup.
*/
private void validateDataCallResponse(@Nullable DataCallResponse response,
@NetworkRegistrationInfo.RegistrationState int setupRegState) {
if (response == null
|| response.getLinkStatus() == DataCallResponse.LINK_STATUS_INACTIVE) return;
int failCause = response.getCause();
if (failCause == DataFailCause.NONE) {
if (TextUtils.isEmpty(response.getInterfaceName())
|| response.getAddresses().isEmpty()
// if out of range
|| response.getLinkStatus() < DataCallResponse.LINK_STATUS_UNKNOWN
|| response.getLinkStatus() > DataCallResponse.LINK_STATUS_ACTIVE
|| response.getProtocolType() < ApnSetting.PROTOCOL_UNKNOWN
|| response.getProtocolType() > ApnSetting.PROTOCOL_UNSTRUCTURED
|| response.getHandoverFailureMode()
< DataCallResponse.HANDOVER_FAILURE_MODE_UNKNOWN
|| response.getHandoverFailureMode()
> DataCallResponse.HANDOVER_FAILURE_MODE_NO_FALLBACK_RETRY_SETUP_NORMAL) {
loge("Invalid DataCallResponse:" + response);
reportAnomaly("Invalid DataCallResponse detected",
"1f273e9d-b09c-46eb-ad1c-421d01f61164");
}
// Check IP for initial setup response
NetworkRegistrationInfo nri = getNetworkRegistrationInfo();
if (setupRegState != -1 // Is setup response
&& mDataProfile.getApnSetting() != null && nri != null && nri.isInService()) {
boolean wasRoaming = setupRegState
== NetworkRegistrationInfo.REGISTRATION_STATE_ROAMING;
boolean isRoaming = nri.getNetworkRegistrationState()
== NetworkRegistrationInfo.REGISTRATION_STATE_ROAMING;
if (wasRoaming == isRoaming) { // Ignore check if in race condition.
int protocol = isRoaming ? mDataProfile.getApnSetting().getRoamingProtocol()
: mDataProfile.getApnSetting().getProtocol();
String underlyingDataService = mTransport
== AccessNetworkConstants.TRANSPORT_TYPE_WWAN
? "RIL" : "IWLAN data service";
if (protocol == ApnSetting.PROTOCOL_IP) {
if (response.getAddresses().stream().anyMatch(
la -> la.getAddress() instanceof java.net.Inet6Address)) {
loge("Invalid DataCallResponse. Requested IPv4 but got IPv6 address."
+ response);
reportAnomaly(underlyingDataService + " reported mismatched IP "
+ "type. Requested IPv4 but got IPv6 address.",
"7744f920-fb64-4db0-ba47-de0eae485a81");
}
} else if (protocol == ApnSetting.PROTOCOL_IPV6) {
if (response.getAddresses().stream().anyMatch(
la -> la.getAddress() instanceof java.net.Inet4Address)) {
loge("Invalid DataCallResponse. Requested IPv6 but got IPv4 address."
+ response);
reportAnomaly(underlyingDataService + " reported mismatched IP "
+ "type. Requested IPv6 but got IPv4 address.",
"7744f920-fb64-4db0-ba47-de0eae485a81");
}
}
}
}
} else if (!DataFailCause.isFailCauseExisting(failCause)) { // Setup data failed.
loge("Invalid DataFailCause in " + response);
reportAnomaly("Invalid DataFailCause: (0x" + Integer.toHexString(failCause)
+ ")",
"6b264f28-9f58-4cbd-9e0e-d7624ba30879");
}
}
/**
* Called when receiving deactivate data network response from the data service.
*
* @param resultCode The result code.
*/
private void onDeactivateResponse(@DataServiceCallback.ResultCode int resultCode) {
logl("onDeactivateResponse: resultCode="
+ DataServiceCallback.resultCodeToString(resultCode));
if (resultCode == DataServiceCallback.RESULT_ERROR_ILLEGAL_STATE) {
log("Remove network since deactivate request returned an error.");
mFailCause = DataFailCause.RADIO_NOT_AVAILABLE;
transitionTo(mDisconnectedState);
} else if (mPhone.getHalVersion(HAL_SERVICE_DATA).less(RIL.RADIO_HAL_VERSION_2_0)) {
log("Remove network on deactivate data response on old HAL "
+ mPhone.getHalVersion(HAL_SERVICE_DATA));
mFailCause = DataFailCause.LOST_CONNECTION;
transitionTo(mDisconnectedState);
}
}
/**
* Tear down the data network immediately.
*
* @param reason The reason of tearing down the network.
*/
public void tearDown(@TearDownReason int reason) {
if (getCurrentState() == null || isDisconnected()) {
return;
}
mTearDownReason = reason;
sendMessage(obtainMessage(EVENT_TEAR_DOWN_NETWORK, reason));
}
private void onTearDown(@TearDownReason int reason) {
logl("onTearDown: reason=" + tearDownReasonToString(reason));
// track frequent NetworkAgent.onNetworkUnwanted() call of IMS and INTERNET
if (reason == TEAR_DOWN_REASON_CONNECTIVITY_SERVICE_UNWANTED
&& isConnected()
&& (mNetworkCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_IMS)
|| mNetworkCapabilities.hasCapability(
NetworkCapabilities.NET_CAPABILITY_INTERNET))) {
mDataNetworkCallback.onTrackNetworkUnwanted(this);
}
mDataServiceManagers.get(mTransport).deactivateDataCall(mCid.get(mTransport),
reason == TEAR_DOWN_REASON_AIRPLANE_MODE_ON ? DataService.REQUEST_REASON_SHUTDOWN
: DataService.REQUEST_REASON_NORMAL,
obtainMessage(EVENT_DEACTIVATE_DATA_NETWORK_RESPONSE));
mDataCallSessionStats.setDeactivateDataCallReason(reason);
mInvokedDataDeactivation = true;
}
/**
* @return {@code true} if we shall delay tear down this network because an active voice call is
* relying on it and
* {@link CarrierConfigManager#KEY_DELAY_IMS_TEAR_DOWN_UNTIL_CALL_END_BOOL} is enabled.
*/
public boolean shouldDelayImsTearDownDueToInCall() {
return mDataConfigManager.isImsDelayTearDownUntilVoiceCallEndEnabled()
&& mNetworkCapabilities != null
&& mNetworkCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_IMS)
&& mPhone.getImsPhone() != null
&& mPhone.getImsPhone().getCallTracker().getState()
!= PhoneConstants.State.IDLE;
}
/**
* Tear down the data network when condition is met or timed out. Data network will enter
* {@link DisconnectingState} immediately and waiting for condition met. When condition is met,
* {@link DataNetworkController} should invoke {@link Consumer#accept(Object)} so the actual
* tear down work can be performed.
*
* This is primarily used for IMS graceful tear down. {@link DataNetworkController} inform
* {@link DataNetwork} to enter {@link DisconnectingState}. IMS service can observe this
* through {@link PreciseDataConnectionState#getState()} and then perform IMS de-registration
* work. After IMS de-registered, {@link DataNetworkController} informs {@link DataNetwork}
* that it's okay to tear down the network.
*
* @param reason The tear down reason.
*
* @param timeoutMillis Timeout in milliseconds. Within the time window, clients will have to
* call {@link Consumer#accept(Object)}, otherwise, data network will be torn down when
* timed out.
*
* @return The runnable for client to execute when condition is met. When executed, tear down
* will be performed. {@code null} if the data network is already disconnected or being
* disconnected.
*/
public @Nullable Runnable tearDownWhenConditionMet(@TearDownReason int reason,
long timeoutMillis) {
if (getCurrentState() == null || isDisconnected() || isDisconnecting()) {
loge("tearDownWhenConditionMet: Not in the right state. State=" + getCurrentState());
return null;
}
logl("tearDownWhenConditionMet: reason=" + tearDownReasonToString(reason) + ", timeout="
+ timeoutMillis + "ms.");
sendMessage(EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET, reason, (int) timeoutMillis);
return () -> this.tearDown(reason);
}
/**
* Called when receiving {@link DataServiceCallback#onDataCallListChanged(List)} from the data
* service.
*
* @param transport The transport where this event from.
* @param responseList The data call response list.
*/
private void onDataStateChanged(@TransportType int transport,
@NonNull List<DataCallResponse> responseList) {
// Ignore the update if it's not from the data service on the right transport.
// Also if never received data call response from setup call response, which updates the
// cid, ignore the update here.
logv("onDataStateChanged: " + responseList);
if (transport != mTransport || mCid.get(mTransport) == INVALID_CID || isDisconnected()) {
return;
}
DataCallResponse response = responseList.stream()
.filter(r -> mCid.get(mTransport) == r.getId())
.findFirst()
.orElse(null);
if (response != null) {
if (!response.equals(mDataCallResponse)) {
log("onDataStateChanged: " + response);
validateDataCallResponse(response, -1 /*setupRegState setup only*/);
mDataCallResponse = response;
if (response.getLinkStatus() != DataCallResponse.LINK_STATUS_INACTIVE) {
updateDataNetwork(response);
} else {
log("onDataStateChanged: PDN inactive reported by "
+ AccessNetworkConstants.transportTypeToString(mTransport)
+ " data service.");
mFailCause = mEverConnected ? response.getCause()
: DataFailCause.NO_RETRY_FAILURE;
mRetryDelayMillis = DataCallResponse.RETRY_DURATION_UNDEFINED;
transitionTo(mDisconnectedState);
}
}
} else {
// The data call response is missing from the list. This means the PDN is gone. This
// is the PDN lost reported by the modem. We don't send another DEACTIVATE_DATA request
// for that
log("onDataStateChanged: PDN disconnected reported by "
+ AccessNetworkConstants.transportTypeToString(mTransport) + " data service.");
mFailCause = mEverConnected ? DataFailCause.LOST_CONNECTION
: DataFailCause.NO_RETRY_FAILURE;
mRetryDelayMillis = DataCallResponse.RETRY_DURATION_UNDEFINED;
transitionTo(mDisconnectedState);
}
}
/**
* Called when carrier config updated.
*/
private void onCarrierConfigUpdated() {
log("onCarrierConfigUpdated");
updateBandwidthFromDataConfig();
updateTcpBufferSizes();
updateMeteredAndCongested();
}
/**
* Called when receiving bandwidth update from the modem.
*
* @param linkCapacityEstimates The link capacity estimate list from the modem.
*/
private void onBandwidthUpdatedFromModem(
@NonNull List<LinkCapacityEstimate> linkCapacityEstimates) {
Objects.requireNonNull(linkCapacityEstimates);
if (linkCapacityEstimates.isEmpty()) return;
int uplinkBandwidthKbps = 0, downlinkBandwidthKbps = 0;
for (LinkCapacityEstimate linkCapacityEstimate : linkCapacityEstimates) {
if (linkCapacityEstimate.getType() == LinkCapacityEstimate.LCE_TYPE_COMBINED) {
uplinkBandwidthKbps = linkCapacityEstimate.getUplinkCapacityKbps();
downlinkBandwidthKbps = linkCapacityEstimate.getDownlinkCapacityKbps();
break;
} else if (linkCapacityEstimate.getType() == LinkCapacityEstimate.LCE_TYPE_PRIMARY
|| linkCapacityEstimate.getType() == LinkCapacityEstimate.LCE_TYPE_SECONDARY) {
uplinkBandwidthKbps += linkCapacityEstimate.getUplinkCapacityKbps();
downlinkBandwidthKbps += linkCapacityEstimate.getDownlinkCapacityKbps();
} else {
loge("Invalid LinkCapacityEstimate type " + linkCapacityEstimate.getType());
}
}
onBandwidthUpdated(uplinkBandwidthKbps, downlinkBandwidthKbps);
}
/**
* Called when bandwidth estimation updated from either modem or the bandwidth estimator.
*
* @param uplinkBandwidthKbps Uplink bandwidth estimate in Kbps.
* @param downlinkBandwidthKbps Downlink bandwidth estimate in Kbps.
*/
private void onBandwidthUpdated(int uplinkBandwidthKbps, int downlinkBandwidthKbps) {
log("onBandwidthUpdated: downlinkBandwidthKbps=" + downlinkBandwidthKbps
+ ", uplinkBandwidthKbps=" + uplinkBandwidthKbps);
NetworkBandwidth bandwidthFromConfig = mDataConfigManager.getBandwidthForNetworkType(
mTelephonyDisplayInfo);
if (downlinkBandwidthKbps == LinkCapacityEstimate.INVALID && bandwidthFromConfig != null) {
// Fallback to carrier config.
downlinkBandwidthKbps = bandwidthFromConfig.downlinkBandwidthKbps;
}
if (uplinkBandwidthKbps == LinkCapacityEstimate.INVALID && bandwidthFromConfig != null) {
// Fallback to carrier config.
uplinkBandwidthKbps = bandwidthFromConfig.uplinkBandwidthKbps;
}
// Make sure uplink is not greater than downlink.
uplinkBandwidthKbps = Math.min(uplinkBandwidthKbps, downlinkBandwidthKbps);
mNetworkBandwidth = new NetworkBandwidth(downlinkBandwidthKbps, uplinkBandwidthKbps);
updateNetworkCapabilities();
}
/**
* Called when {@link TelephonyDisplayInfo} changed. This can happen when network types or
* override network types (5G NSA, 5G MMWAVE) change.
*/
private void onDisplayInfoChanged() {
mTelephonyDisplayInfo = mPhone.getDisplayInfoController().getTelephonyDisplayInfo();
updateBandwidthFromDataConfig();
updateTcpBufferSizes();
updateMeteredAndCongested();
}
/**
* Update the bandwidth from carrier config. Note this is no-op if the bandwidth source is not
* carrier config.
*/
private void updateBandwidthFromDataConfig() {
if (mDataConfigManager.getBandwidthEstimateSource() != BANDWIDTH_SOURCE_CARRIER_CONFIG) {
return;
}
log("updateBandwidthFromDataConfig");
mNetworkBandwidth = mDataConfigManager.getBandwidthForNetworkType(mTelephonyDisplayInfo);
updateNetworkCapabilities();
}
/**
* Update the TCP buffer sizes from resource overlays.
*/
private void updateTcpBufferSizes() {
log("updateTcpBufferSizes");
mTcpBufferSizes = mDataConfigManager.getTcpConfigString(mTelephonyDisplayInfo);
LinkProperties linkProperties = new LinkProperties(mLinkProperties);
linkProperties.setTcpBufferSizes(mTcpBufferSizes);
if (!linkProperties.equals(mLinkProperties)) {
mLinkProperties = linkProperties;
log("sendLinkProperties " + mLinkProperties);
mNetworkAgent.sendLinkProperties(mLinkProperties);
}
}
/**
* Update the metered and congested values from carrier configs and subscription overrides
*/
private void updateMeteredAndCongested() {
int networkType = mTelephonyDisplayInfo.getNetworkType();
switch (mTelephonyDisplayInfo.getOverrideNetworkType()) {
case TelephonyDisplayInfo.OVERRIDE_NETWORK_TYPE_NR_ADVANCED:
case TelephonyDisplayInfo.OVERRIDE_NETWORK_TYPE_NR_NSA:
networkType = TelephonyManager.NETWORK_TYPE_NR;
break;
case TelephonyDisplayInfo.OVERRIDE_NETWORK_TYPE_LTE_ADVANCED_PRO:
case TelephonyDisplayInfo.OVERRIDE_NETWORK_TYPE_LTE_CA:
networkType = TelephonyManager.NETWORK_TYPE_LTE_CA;
break;
}
log("updateMeteredAndCongested: networkType="
+ TelephonyManager.getNetworkTypeName(networkType));
boolean changed = false;
if (mDataConfigManager.isTempNotMeteredSupportedByCarrier() != mTempNotMeteredSupported) {
mTempNotMeteredSupported = !mTempNotMeteredSupported;
changed = true;
log("updateMeteredAndCongested: mTempNotMeteredSupported changed to "
+ mTempNotMeteredSupported);
}
boolean isTempNotMetered = mDataConfigManager.isNetworkTypeUnmetered(
mTelephonyDisplayInfo, mPhone.getServiceState())
&& (mDataNetworkController.getUnmeteredOverrideNetworkTypes().contains(networkType)
|| isNetworkTypeUnmetered(networkType));
if (isTempNotMetered != mTempNotMetered) {
mTempNotMetered = isTempNotMetered;
changed = true;
log("updateMeteredAndCongested: mTempNotMetered changed to " + mTempNotMetered);
}
if (mDataNetworkController.getCongestedOverrideNetworkTypes().contains(networkType)
!= mCongested) {
mCongested = !mCongested;
changed = true;
log("updateMeteredAndCongested: mCongested changed to " + mCongested);
}
if (changed) {
updateNetworkCapabilities();
}
if (mTempNotMetered && isInternetSupported()) {
// NR NSA and NR have the same network type: NR
mDataCallSessionStats.onUnmeteredUpdate(networkType);
}
}
/**
* Get whether the network type is unmetered from SubscriptionPlans, from either an unmetered
* general plan or specific plan for the given network type.
*
* @param networkType The network type to check meteredness for
* @return Whether the given network type is unmetered based on SubscriptionPlans
*/
private boolean isNetworkTypeUnmetered(@NetworkType int networkType) {
List<SubscriptionPlan> plans = mDataNetworkController.getSubscriptionPlans();
if (plans.isEmpty()) return false;
boolean isGeneralUnmetered = true;
Set<Integer> allNetworkTypes = Arrays.stream(TelephonyManager.getAllNetworkTypes())
.boxed().collect(Collectors.toSet());
for (SubscriptionPlan plan : plans) {
// Check if plan is general (applies to all network types) or specific
if (Arrays.stream(plan.getNetworkTypes()).boxed().collect(Collectors.toSet())
.containsAll(allNetworkTypes)) {
if (plan.getDataLimitBytes() != SubscriptionPlan.BYTES_UNLIMITED) {
// Metered takes precedence over unmetered for safety
isGeneralUnmetered = false;
}
} else {
// Check if plan applies to given network type
if (networkType != TelephonyManager.NETWORK_TYPE_UNKNOWN) {
for (int planNetworkType : plan.getNetworkTypes()) {
if (planNetworkType == networkType) {
return plan.getDataLimitBytes() == SubscriptionPlan.BYTES_UNLIMITED;
}
}
}
}
}
return isGeneralUnmetered;
}
/**
* @return The unique context id assigned by the data service in
* {@link DataCallResponse#getId()}.
*/
public int getId() {
return mCid.get(mTransport);
}
/**
* @return The current network type reported by the network service.
*/
private @NetworkType int getDataNetworkType() {
return getDataNetworkType(mTransport);
}
/**
* Get the data network type on the specified transport.
*
* @param transport The transport.
* @return The data network type.
*/
private @NetworkType int getDataNetworkType(@TransportType int transport) {
// WLAN transport can't have network type other than IWLAN. Ideally service state tracker
// should report the correct RAT, but sometimes race condition could happen that service
// state is reset to out of service and RAT not updated to IWLAN yet.
if (transport == AccessNetworkConstants.TRANSPORT_TYPE_WLAN) {
return TelephonyManager.NETWORK_TYPE_IWLAN;
}
ServiceState ss = mPhone.getServiceState();
NetworkRegistrationInfo nrs = ss.getNetworkRegistrationInfo(
NetworkRegistrationInfo.DOMAIN_PS, transport);
if (nrs != null) {
return nrs.getAccessNetworkTechnology();
}
return TelephonyManager.NETWORK_TYPE_UNKNOWN;
}
/**
* @return The physical link status (i.e. RRC state).
*/
public @LinkStatus int getLinkStatus() {
return mLinkStatus;
}
/**
* Update the network score and report to connectivity service if necessary.
*
* @param keepConnectedForHandover indicate handover is in progress or not.
*/
private void updateNetworkScore(boolean keepConnectedForHandover) {
int connectedReason = keepConnectedForHandover
? NetworkScore.KEEP_CONNECTED_FOR_HANDOVER : NetworkScore.KEEP_CONNECTED_NONE;
if (mNetworkScore.getKeepConnectedReason() != connectedReason) {
mNetworkScore = new NetworkScore.Builder()
.setKeepConnectedReason(connectedReason).build();
mNetworkAgent.sendNetworkScore(mNetworkScore);
}
}
/**
* @return Network registration info on the current transport.
*/
private @Nullable NetworkRegistrationInfo getNetworkRegistrationInfo() {
NetworkRegistrationInfo nri = mPhone.getServiceStateTracker().getServiceState()
.getNetworkRegistrationInfo(NetworkRegistrationInfo.DOMAIN_PS, mTransport);
if (nri == null) {
loge("Can't get network registration info for "
+ AccessNetworkConstants.transportTypeToString(mTransport));
return null;
}
return nri;
}
/**
* Get the APN type network capability. If there are more than one capabilities that are
* APN types, then return the highest priority one which also has associated network request.
* For example, if the network supports both MMS and internet, but only internet request
* attached at this time, then the capability would be internet. Later on if MMS network request
* attached to this network, then the APN type capability would be MMS.
*
* @return The APN type network capability from this network.
*
* @see #getPriority()
*/
public @NetCapability int getApnTypeNetworkCapability() {
if (!mAttachedNetworkRequestList.isEmpty()) {
// The highest priority network request is always at the top of list.
return mAttachedNetworkRequestList.get(0).getApnTypeNetworkCapability();
} else {
return Arrays.stream(getNetworkCapabilities().getCapabilities()).boxed()
.filter(cap -> DataUtils.networkCapabilityToApnType(cap)
!= ApnSetting.TYPE_NONE)
.max(Comparator.comparingInt(mDataConfigManager::getNetworkCapabilityPriority))
.orElse(-1);
}
}
/**
* Get the priority of the network. The priority is derived from the highest priority capability
* which also has such associated network request. For example, if the network supports both
* MMS and internet, but only has internet request attached, then this network has internet's
* priority. Later on when the MMS request attached to this network, the network's priority will
* be updated to MMS's priority.
*
* @return The priority of the network.
*
* @see #getApnTypeNetworkCapability()
*/
public int getPriority() {
if (!mAttachedNetworkRequestList.isEmpty()) {
// The highest priority network request is always at the top of list.
return mAttachedNetworkRequestList.get(0).getPriority();
} else {
// If all network requests are already detached, then just pick the highest priority
// capability's priority.
return Arrays.stream(getNetworkCapabilities().getCapabilities()).boxed()
.map(mDataConfigManager::getNetworkCapabilityPriority)
.max(Integer::compare)
.orElse(0);
}
}
/**
* @return The attached network request list.
*/
public @NonNull NetworkRequestList getAttachedNetworkRequestList() {
return mAttachedNetworkRequestList;
}
/**
* @return {@code true} if in connecting state.
*/
public boolean isConnecting() {
return getCurrentState() == mConnectingState;
}
/**
* @return {@code true} if in connected state.
*/
public boolean isConnected() {
return getCurrentState() == mConnectedState;
}
/**
* @return {@code true} if in disconnecting state.
*/
public boolean isDisconnecting() {
return getCurrentState() == mDisconnectingState;
}
/**
* @return {@code true} if in disconnected state.
*/
public boolean isDisconnected() {
return getCurrentState() == mDisconnectedState;
}
/**
* @return {@code true} if in handover state.
*/
public boolean isHandoverInProgress() {
return getCurrentState() == mHandoverState;
}
/**
* @return {@code true} if the data network is suspended.
*/
public boolean isSuspended() {
return getState() == TelephonyManager.DATA_SUSPENDED;
}
/**
* @return The current transport of the data network.
*/
public @TransportType int getTransport() {
return mTransport;
}
private @DataState int getState() {
IState state = getCurrentState();
if (state == null || isDisconnected()) {
return TelephonyManager.DATA_DISCONNECTED;
} else if (isConnecting()) {
return TelephonyManager.DATA_CONNECTING;
} else if (isConnected()) {
// The data connection can only be suspended when it's in active state.
if (mSuspended) {
return TelephonyManager.DATA_SUSPENDED;
}
return TelephonyManager.DATA_CONNECTED;
} else if (isDisconnecting()) {
return TelephonyManager.DATA_DISCONNECTING;
} else if (isHandoverInProgress()) {
return TelephonyManager.DATA_HANDOVER_IN_PROGRESS;
}
return TelephonyManager.DATA_UNKNOWN;
}
/**
* @return {@code true} if this data network supports internet.
*/
public boolean isInternetSupported() {
return mNetworkCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET);
}
/**
* @return {@code true} if this network was setup for SUPL during emergency call. {@code false}
* otherwise.
*/
public boolean isEmergencySupl() {
return mDataAllowedReason == DataAllowedReason.EMERGENCY_SUPL;
}
/**
* Get precise data connection state
*
* @return The {@link PreciseDataConnectionState}
*/
private PreciseDataConnectionState getPreciseDataConnectionState() {
return new PreciseDataConnectionState.Builder()
.setTransportType(mTransport)
.setId(mCid.get(mTransport))
.setState(getState())
.setApnSetting(mDataProfile.getApnSetting())
.setLinkProperties(mLinkProperties)
.setNetworkType(getDataNetworkType())
.setFailCause(mFailCause)
.setDefaultQos(mDefaultQos)
.setNetworkValidationStatus(mNetworkValidationStatus)
.build();
}
/**
* Send the precise data connection state to the listener of
* {@link android.telephony.TelephonyCallback.PreciseDataConnectionStateListener}.
*/
private void notifyPreciseDataConnectionState() {
PreciseDataConnectionState pdcs = getPreciseDataConnectionState();
logv("notifyPreciseDataConnectionState=" + pdcs);
mPhone.notifyDataConnection(pdcs);
}
/**
* Request the data network to handover to the target transport.
*
* This is the starting point of initiating IWLAN/cellular handover. It will first call
* {@link DataServiceManager#startHandover(int, Message)} to notify source transport that
* handover is about to start, and then call {@link DataServiceManager#setupDataCall(int,
* DataProfile, boolean, boolean, int, LinkProperties, int, NetworkSliceInfo, TrafficDescriptor,
* boolean, Message)} on target transport to initiate the handover process.
*
* @param targetTransport The target transport.
* @param retryEntry Data handover retry entry. This would be {@code null} for first time
* handover attempt.
* @return {@code true} if the request has been accepted.
*/
public boolean startHandover(@TransportType int targetTransport,
@Nullable DataHandoverRetryEntry retryEntry) {
if (getCurrentState() == null || isDisconnected() || isDisconnecting()) {
// Fail the request if not in the appropriate state.
if (retryEntry != null) retryEntry.setState(DataRetryEntry.RETRY_STATE_CANCELLED);
return false;
}
// Before we really initiate the handover process on target transport, we need to notify
// source transport that handover is about to start. Handover will be eventually initiated
// in onStartHandover().
sendMessage(obtainMessage(EVENT_NOTIFY_HANDOVER_STARTED, 0, targetTransport, retryEntry));
return true;
}
/**
* Called when starting IWLAN/cellular handover process on the target transport.
*
* @param targetTransport The target transport.
* @param retryEntry Data handover retry entry. This would be {@code null} for first time
* handover attempt.
*/
private void onStartHandover(@TransportType int targetTransport,
@Nullable DataHandoverRetryEntry retryEntry) {
if (mTransport == targetTransport) {
log("onStartHandover: The network is already on "
+ AccessNetworkConstants.transportTypeToString(mTransport)
+ ", handover is not needed.");
if (retryEntry != null) retryEntry.setState(DataRetryEntry.RETRY_STATE_CANCELLED);
return;
}
// We need to use the actual modem roaming state instead of the framework roaming state
// here. This flag is only passed down to ril_service for picking the correct protocol (for
// old modem backward compatibility).
boolean isModemRoaming = mPhone.getServiceState().getDataRoamingFromRegistration();
// Set this flag to true if the user turns on data roaming. Or if we override the roaming
// state in framework, we should set this flag to true as well so the modem will not reject
// the data call setup (because the modem actually thinks the device is roaming).
boolean allowRoaming = mPhone.getDataRoamingEnabled()
|| (isModemRoaming && (!mPhone.getServiceState().getDataRoaming()));
mHandoverDataProfile = mDataProfile;
int targetNetworkType = getDataNetworkType(targetTransport);
if (targetNetworkType != TelephonyManager.NETWORK_TYPE_UNKNOWN
&& !mAttachedNetworkRequestList.isEmpty()) {
TelephonyNetworkRequest networkRequest = mAttachedNetworkRequestList.get(0);
DataProfile dataProfile = mDataNetworkController.getDataProfileManager()
.getDataProfileForNetworkRequest(networkRequest, targetNetworkType,
mPhone.getServiceState().isUsingNonTerrestrialNetwork(),
mDataNetworkController.isEsimBootStrapProvisioningActivated(), false);
// Some carriers have different profiles between cellular and IWLAN. We need to
// dynamically switch profile, but only when those profiles have same APN name.
if (dataProfile != null && dataProfile.getApnSetting() != null
&& mDataProfile.getApnSetting() != null
&& TextUtils.equals(dataProfile.getApnSetting().getApnName(),
mDataProfile.getApnSetting().getApnName())
&& !dataProfile.equals(mDataProfile)) {
mHandoverDataProfile = dataProfile;
log("Used different data profile for handover. " + mDataProfile);
}
}
logl("Start handover from " + AccessNetworkConstants.transportTypeToString(mTransport)
+ " to " + AccessNetworkConstants.transportTypeToString(targetTransport));
// Send the handover request to the target transport data service.
mDataServiceManagers.get(targetTransport).setupDataCall(
DataUtils.networkTypeToAccessNetworkType(getDataNetworkType(targetTransport)),
mHandoverDataProfile, isModemRoaming, allowRoaming,
DataService.REQUEST_REASON_HANDOVER, mLinkProperties, mPduSessionId,
mNetworkSliceInfo, mHandoverDataProfile.getTrafficDescriptor(), true,
obtainMessage(EVENT_HANDOVER_RESPONSE, retryEntry));
}
/**
* Called when receiving handover response from the data service.
*
* @param resultCode The result code.
* @param response The response.
* @param retryEntry Data handover retry entry. This would be {@code null} for first time
* handover attempt.
*/
private void onHandoverResponse(@DataServiceCallback.ResultCode int resultCode,
@Nullable DataCallResponse response, @Nullable DataHandoverRetryEntry retryEntry) {
logl("onHandoverResponse: resultCode=" + DataServiceCallback.resultCodeToString(resultCode)
+ ", response=" + response);
mFailCause = getFailCauseFromDataCallResponse(resultCode, response);
validateDataCallResponse(response, -1 /*setupRegState setup only*/);
if (mFailCause == DataFailCause.NONE) {
// Handover succeeded.
// Clean up on the source transport.
mDataServiceManagers.get(mTransport).deactivateDataCall(mCid.get(mTransport),
DataService.REQUEST_REASON_HANDOVER, null);
// Switch the transport to the target.
mTransport = DataUtils.getTargetTransport(mTransport);
// Update the logging tag
mLogTag = "DN-" + mInitialNetworkAgentId + "-"
+ ((mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WWAN) ? "C" : "I");
// Switch the data profile. This is no-op in most of the case since almost all carriers
// use same data profile between IWLAN and cellular.
mDataProfile = mHandoverDataProfile;
updateDataNetwork(response);
if (mTransport != AccessNetworkConstants.TRANSPORT_TYPE_WWAN) {
unregisterForWwanEvents();
} else {
// Handover from WLAN to WWAN
registerForWwanEvents();
}
if (retryEntry != null) retryEntry.setState(DataRetryEntry.RETRY_STATE_SUCCEEDED);
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onHandoverSucceeded(DataNetwork.this));
} else {
// Handover failed.
// Notify source transport that handover failed on target transport so that PDU session
// id can be released if it is preserved for handover.
mDataServiceManagers.get(mTransport).cancelHandover(mCid.get(mTransport),
obtainMessage(EVENT_NOTIFY_HANDOVER_CANCELLED_RESPONSE));
long retry = response != null ? response.getRetryDurationMillis()
: DataCallResponse.RETRY_DURATION_UNDEFINED;
// If the handover mode is unspecified, default to HANDOVER_FAILURE_MODE_UNKNOWN,
// which will retry handover if retry rules are defined.
int handoverFailureMode = response != null ? response.getHandoverFailureMode()
: DataCallResponse.HANDOVER_FAILURE_MODE_UNKNOWN;
if (retryEntry != null) retryEntry.setState(DataRetryEntry.RETRY_STATE_FAILED);
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onHandoverFailed(DataNetwork.this,
mFailCause, retry, handoverFailureMode));
trackHandoverFailure(response != null ? response.getCause() : mFailCause);
}
// No matter handover succeeded or not, transit back to connected state.
transitionTo(mConnectedState);
}
/**
* Called when handover failed. Record the source and target RAT{@link NetworkType} and the
* failure cause {@link android.telephony.DataFailCause}.
*
* @param cause The fail cause.
*/
private void trackHandoverFailure(int cause) {
int sourceRat = getDataNetworkType();
int targetTransport = DataUtils.getTargetTransport(mTransport);
int targetRat = getDataNetworkType(targetTransport);
mDataCallSessionStats.onHandoverFailure(cause, sourceRat, targetRat);
}
/**
* Called when receiving PCO (Protocol Configuration Options) data from the cellular network.
*
* @param pcoData The PCO data.
*/
private void onPcoDataChanged(@NonNull PcoData pcoData) {
log("onPcoDataChanged: " + pcoData);
mDataNetworkCallback.invokeFromExecutor(
() -> mDataNetworkCallback.onPcoDataChanged(DataNetwork.this));
if (mDataProfile.getApnSetting() != null) {
for (int apnType : mDataProfile.getApnSetting().getApnTypes()) {
Intent intent = new Intent(TelephonyManager.ACTION_CARRIER_SIGNAL_PCO_VALUE);
intent.putExtra(TelephonyManager.EXTRA_APN_TYPE, apnType);
intent.putExtra(TelephonyManager.EXTRA_APN_PROTOCOL,
ApnSetting.getProtocolIntFromString(pcoData.bearerProto));
intent.putExtra(TelephonyManager.EXTRA_PCO_ID, pcoData.pcoId);
intent.putExtra(TelephonyManager.EXTRA_PCO_VALUE, pcoData.contents);
mPhone.getCarrierSignalAgent().notifyCarrierSignalReceivers(intent);
}
}
}
/**
* Called when receiving PCO (Protocol Configuration Options) data from the cellular network.
*
* @param pcoData PCO data.
*/
private void onPcoDataReceived(@NonNull PcoData pcoData) {
// Save all the PCO data received, even though it might be unrelated to this data network.
// The network might be still in connecting state. Save all now and use it when entering
// connected state.
log("onPcoDataReceived: " + pcoData);
PcoData oldData = mPcoData.computeIfAbsent(pcoData.cid, m -> new ArrayMap<>())
.put(pcoData.pcoId, pcoData);
if (getId() == INVALID_CID || pcoData.cid != getId()) return;
if (!Objects.equals(oldData, pcoData)) {
onPcoDataChanged(pcoData);
}
}
/**
* @return The last known data network type of the data network.
*/
public @NetworkType int getLastKnownDataNetworkType() {
return mLastKnownDataNetworkType;
}
/**
* @return The last known roaming state of this data network.
*/
public boolean getLastKnownRoamingState() {
return mLastKnownRoamingState;
}
/**
* @return The PCO data received from the network.
*/
public @NonNull Map<Integer, PcoData> getPcoData() {
if (mTransport == AccessNetworkConstants.TRANSPORT_TYPE_WLAN
|| mCid.get(mTransport) == INVALID_CID) {
return Collections.emptyMap();
}
return mPcoData.getOrDefault(mCid.get(mTransport), Collections.emptyMap());
}
/**
* Check if the this data network is VCN-managed.
*
* @param networkCapabilities The network capabilities of this data network.
* @return The VCN's policy for this DataNetwork.
*/
private VcnNetworkPolicyResult getVcnPolicy(NetworkCapabilities networkCapabilities) {
if (mVcnManager == null) {
return null;
}
return mVcnManager.applyVcnNetworkPolicy(networkCapabilities, getLinkProperties());
}
/**
* Check if any of the attached request has the specified network capability.
*
* @param netCapability The network capability to check.
* @return {@code true} if at least one network request has specified network capability.
*/
public boolean hasNetworkCapabilityInNetworkRequests(@NetCapability int netCapability) {
return mAttachedNetworkRequestList.stream().anyMatch(
request -> request.hasCapability(netCapability));
}
/**
* The network validation requests moves to process on the statemachich handler. A request is
* processed according to state of the data network.
*/
public void requestNetworkValidation(@NonNull Consumer<Integer> resultCodeCallback) {
// request a network validation by DataNetwork state
sendMessage(EVENT_DATA_NETWORK_VALIDATION_REQUESTED, resultCodeCallback);
}
/**
* Request network validation to data service provider.
*/
private void handleDataNetworkValidationRequest(@NonNull Consumer<Integer> resultCodeCallback) {
if (mNetworkValidationResultCodeCallback != null) {
loge("requestNetworkValidation: previous networkValidationRequest is in progress.");
FunctionalUtils.ignoreRemoteException(resultCodeCallback::accept)
.accept(DataServiceCallback.RESULT_ERROR_BUSY);
return;
}
mNetworkValidationResultCodeCallback = resultCodeCallback;
// Request validation directly from the data service.
mDataServiceManagers.get(mTransport).requestNetworkValidation(
mCid.get(mTransport), obtainMessage(EVENT_DATA_NETWORK_VALIDATION_RESPONSE));
log("handleDataNetworkValidationRequest, network validation requested");
}
private void handleErrorDataNetworkValidationRequest(
@NonNull Consumer<Integer> resultCodeCallback) {
loge("handleErrorDataNetworkValidationRequest: DataNetwork is not in Connected state");
FunctionalUtils.ignoreRemoteException(resultCodeCallback::accept)
.accept(DataServiceCallback.RESULT_ERROR_ILLEGAL_STATE);
}
/**
* handle the resultCode in response for the request.
*
* @param resultCode {@link DataServiceCallback.ResultCode}
*/
private void handleDataNetworkValidationRequestResultCode(
@DataServiceCallback.ResultCode int resultCode) {
if (mNetworkValidationResultCodeCallback != null) {
log("handleDataNetworkValidationRequestResultCode, resultCode:"
+ DataServiceCallback.resultCodeToString(resultCode));
FunctionalUtils.ignoreRemoteException(mNetworkValidationResultCodeCallback::accept)
.accept(resultCode);
mNetworkValidationResultCodeCallback = null;
}
}
/**
* Update the validation status from {@link DataCallResponse}, convert to network validation
* status {@link PreciseDataConnectionState.NetworkValidationStatus} and notify to
* {@link PreciseDataConnectionState} if status was changed.
*
* @param networkValidationStatus {@link PreciseDataConnectionState.NetworkValidationStatus}
*/
private void updateValidationStatus(
@PreciseDataConnectionState.NetworkValidationStatus int networkValidationStatus) {
if (!mFlags.networkValidation()) {
// Do nothing, if network validation feature is disabled
return;
}
// if network validation status is changed, notify preciseDataConnectionState.
if (mNetworkValidationStatus != networkValidationStatus) {
log("updateValidationStatus:"
+ PreciseDataConnectionState.networkValidationStatusToString(
networkValidationStatus));
mNetworkValidationStatus = networkValidationStatus;
notifyPreciseDataConnectionState();
}
}
/**
* Convert the data tear down reason to string.
*
* @param reason Data deactivation reason.
* @return The deactivation reason in string format.
*/
public static @NonNull String tearDownReasonToString(@TearDownReason int reason) {
switch (reason) {
case TEAR_DOWN_REASON_NONE:
return "NONE";
case TEAR_DOWN_REASON_CONNECTIVITY_SERVICE_UNWANTED:
return "CONNECTIVITY_SERVICE_UNWANTED";
case TEAR_DOWN_REASON_SIM_REMOVAL:
return "SIM_REMOVAL";
case TEAR_DOWN_REASON_AIRPLANE_MODE_ON:
return "AIRPLANE_MODE_ON";
case TEAR_DOWN_REASON_DATA_DISABLED:
return "DATA_DISABLED";
case TEAR_DOWN_REASON_NO_LIVE_REQUEST:
return "TEAR_DOWN_REASON_NO_LIVE_REQUEST";
case TEAR_DOWN_REASON_RAT_NOT_ALLOWED:
return "TEAR_DOWN_REASON_RAT_NOT_ALLOWED";
case TEAR_DOWN_REASON_ROAMING_DISABLED:
return "TEAR_DOWN_REASON_ROAMING_DISABLED";
case TEAR_DOWN_REASON_CONCURRENT_VOICE_DATA_NOT_ALLOWED:
return "TEAR_DOWN_REASON_CONCURRENT_VOICE_DATA_NOT_ALLOWED";
case TEAR_DOWN_REASON_SERVICE_OPTION_NOT_SUPPORTED:
return "TEAR_DOWN_REASON_SERVICE_OPTION_NOT_SUPPORTED";
case TEAR_DOWN_REASON_DATA_SERVICE_NOT_READY:
return "TEAR_DOWN_REASON_DATA_SERVICE_NOT_READY";
case TEAR_DOWN_REASON_POWER_OFF_BY_CARRIER:
return "TEAR_DOWN_REASON_POWER_OFF_BY_CARRIER";
case TEAR_DOWN_REASON_DATA_STALL:
return "TEAR_DOWN_REASON_DATA_STALL";
case TEAR_DOWN_REASON_HANDOVER_FAILED:
return "TEAR_DOWN_REASON_HANDOVER_FAILED";
case TEAR_DOWN_REASON_HANDOVER_NOT_ALLOWED:
return "TEAR_DOWN_REASON_HANDOVER_NOT_ALLOWED";
case TEAR_DOWN_REASON_VCN_REQUESTED:
return "TEAR_DOWN_REASON_VCN_REQUESTED";
case TEAR_DOWN_REASON_VOPS_NOT_SUPPORTED:
return "TEAR_DOWN_REASON_VOPS_NOT_SUPPORTED";
case TEAR_DOWN_REASON_DEFAULT_DATA_UNSELECTED:
return "TEAR_DOWN_REASON_DEFAULT_DATA_UNSELECTED";
case TEAR_DOWN_REASON_NOT_IN_SERVICE:
return "TEAR_DOWN_REASON_NOT_IN_SERVICE";
case TEAR_DOWN_REASON_DATA_CONFIG_NOT_READY:
return "TEAR_DOWN_REASON_DATA_CONFIG_NOT_READY";
case TEAR_DOWN_REASON_PENDING_TEAR_DOWN_ALL:
return "TEAR_DOWN_REASON_PENDING_TEAR_DOWN_ALL";
case TEAR_DOWN_REASON_NO_SUITABLE_DATA_PROFILE:
return "TEAR_DOWN_REASON_NO_SUITABLE_DATA_PROFILE";
case TEAR_DOWN_REASON_CDMA_EMERGENCY_CALLBACK_MODE:
return "TEAR_DOWN_REASON_CDMA_EMERGENCY_CALLBACK_MODE";
case TEAR_DOWN_REASON_RETRY_SCHEDULED:
return "TEAR_DOWN_REASON_RETRY_SCHEDULED";
case TEAR_DOWN_REASON_DATA_THROTTLED:
return "TEAR_DOWN_REASON_DATA_THROTTLED";
case TEAR_DOWN_REASON_DATA_PROFILE_INVALID:
return "TEAR_DOWN_REASON_DATA_PROFILE_INVALID";
case TEAR_DOWN_REASON_DATA_PROFILE_NOT_PREFERRED:
return "TEAR_DOWN_REASON_DATA_PROFILE_NOT_PREFERRED";
case TEAR_DOWN_REASON_NOT_ALLOWED_BY_POLICY:
return "TEAR_DOWN_REASON_NOT_ALLOWED_BY_POLICY";
case TEAR_DOWN_REASON_ILLEGAL_STATE:
return "TEAR_DOWN_REASON_ILLEGAL_STATE";
case TEAR_DOWN_REASON_ONLY_ALLOWED_SINGLE_NETWORK:
return "TEAR_DOWN_REASON_ONLY_ALLOWED_SINGLE_NETWORK";
case TEAR_DOWN_REASON_PREFERRED_DATA_SWITCHED:
return "TEAR_DOWN_REASON_PREFERRED_DATA_SWITCHED";
case TEAR_DOWN_REASON_DATA_LIMIT_REACHED:
return "TEAR_DOWN_REASON_DATA_LIMIT_REACHED";
case TEAR_DOWN_REASON_DATA_NETWORK_TRANSPORT_NOT_ALLOWED:
return "TEAR_DOWN_REASON_DATA_NETWORK_TRANSPORT_NOT_ALLOWED";
default:
return "UNKNOWN(" + reason + ")";
}
}
/**
* Convert event to string
*
* @param event The event
* @return The event in string format.
*/
private static @NonNull String eventToString(int event) {
switch (event) {
case EVENT_DATA_CONFIG_UPDATED:
return "EVENT_DATA_CONFIG_UPDATED";
case EVENT_ATTACH_NETWORK_REQUEST:
return "EVENT_ATTACH_NETWORK_REQUEST";
case EVENT_DETACH_NETWORK_REQUEST:
return "EVENT_DETACH_NETWORK_REQUEST";
case EVENT_RADIO_NOT_AVAILABLE:
return "EVENT_RADIO_NOT_AVAILABLE";
case EVENT_ALLOCATE_PDU_SESSION_ID_RESPONSE:
return "EVENT_ALLOCATE_PDU_SESSION_ID_RESPONSE";
case EVENT_SETUP_DATA_NETWORK_RESPONSE:
return "EVENT_SETUP_DATA_NETWORK_RESPONSE";
case EVENT_TEAR_DOWN_NETWORK:
return "EVENT_TEAR_DOWN_NETWORK";
case EVENT_DATA_STATE_CHANGED:
return "EVENT_DATA_STATE_CHANGED";
case EVENT_SERVICE_STATE_CHANGED:
return "EVENT_DATA_NETWORK_TYPE_REG_STATE_CHANGED";
case EVENT_DETACH_ALL_NETWORK_REQUESTS:
return "EVENT_DETACH_ALL_NETWORK_REQUESTS";
case EVENT_BANDWIDTH_ESTIMATE_FROM_MODEM_CHANGED:
return "EVENT_BANDWIDTH_ESTIMATE_FROM_MODEM_CHANGED";
case EVENT_DISPLAY_INFO_CHANGED:
return "EVENT_DISPLAY_INFO_CHANGED";
case EVENT_HANDOVER_RESPONSE:
return "EVENT_HANDOVER_RESPONSE";
case EVENT_SUBSCRIPTION_PLAN_OVERRIDE:
return "EVENT_SUBSCRIPTION_PLAN_OVERRIDE";
case EVENT_PCO_DATA_RECEIVED:
return "EVENT_PCO_DATA_RECEIVED";
case EVENT_CARRIER_PRIVILEGED_UIDS_CHANGED:
return "EVENT_CARRIER_PRIVILEGED_UIDS_CHANGED";
case EVENT_DEACTIVATE_DATA_NETWORK_RESPONSE:
return "EVENT_DEACTIVATE_DATA_NETWORK_RESPONSE";
case EVENT_STUCK_IN_TRANSIENT_STATE:
return "EVENT_STUCK_IN_TRANSIENT_STATE";
case EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET:
return "EVENT_WAITING_FOR_TEARING_DOWN_CONDITION_MET";
case EVENT_VOICE_CALL_STARTED:
return "EVENT_VOICE_CALL_STARTED";
case EVENT_VOICE_CALL_ENDED:
return "EVENT_VOICE_CALL_ENDED";
case EVENT_CSS_INDICATOR_CHANGED:
return "EVENT_CSS_INDICATOR_CHANGED";
case EVENT_NOTIFY_HANDOVER_STARTED:
return "EVENT_NOTIFY_HANDOVER_STARTED";
case EVENT_NOTIFY_HANDOVER_STARTED_RESPONSE:
return "EVENT_NOTIFY_HANDOVER_STARTED_RESPONSE";
case EVENT_NOTIFY_HANDOVER_CANCELLED_RESPONSE:
return "EVENT_NOTIFY_HANDOVER_CANCELLED_RESPONSE";
case EVENT_DATA_NETWORK_VALIDATION_REQUESTED:
return "EVENT_DATA_NETWORK_VALIDATION_REQUESTED";
case EVENT_DATA_NETWORK_VALIDATION_RESPONSE:
return "EVENT_DATA_NETWORK_VALIDATION_RESPONSE";
default:
return "Unknown(" + event + ")";
}
}
@Override
public String toString() {
return "[DataNetwork: " + mLogTag + ", " + (mDataProfile.getApnSetting() != null
? mDataProfile.getApnSetting().getApnName() : null) + ", state="
+ (getCurrentState() != null ? getCurrentState().getName() : null) + "]";
}
/**
* @return The short name of the data network (e.g. DN-C-1)
*/
public @NonNull String name() {
return mLogTag;
}
/**
* Trigger the anomaly report with the specified UUID.
*
* @param anomalyMsg Description of the event
* @param uuid UUID associated with that event
*/
private void reportAnomaly(@NonNull String anomalyMsg, @NonNull String uuid) {
logl(anomalyMsg);
AnomalyReporter.reportAnomaly(UUID.fromString(uuid), anomalyMsg, mPhone.getCarrierId());
}
/**
* Log debug messages.
* @param s debug messages
*/
@Override
protected void log(@NonNull String s) {
Rlog.d(mLogTag, (getCurrentState() != null
? (getCurrentState().getName() + ": ") : "") + s);
}
/**
* Log error messages.
* @param s error messages
*/
@Override
protected void loge(@NonNull String s) {
Rlog.e(mLogTag, (getCurrentState() != null
? (getCurrentState().getName() + ": ") : "") + s);
}
/**
* Log verbose messages.
* @param s error messages
*/
@Override
protected void logv(@NonNull String s) {
if (VDBG) {
Rlog.v(mLogTag, (getCurrentState() != null
? (getCurrentState().getName() + ": ") : "") + s);
}
}
/**
* Log debug messages and also log into the local log.
* @param s debug messages
*/
private void logl(@NonNull String s) {
log(s);
mLocalLog.log((getCurrentState() != null ? (getCurrentState().getName() + ": ") : "") + s);
}
/**
* Dump the state of DataNetwork
*
* @param fd File descriptor
* @param printWriter Print writer
* @param args Arguments
*/
public void dump(FileDescriptor fd, PrintWriter printWriter, String[] args) {
IndentingPrintWriter pw = new IndentingPrintWriter(printWriter, " ");
super.dump(fd, pw, args);
pw.println("Tag: " + name());
pw.increaseIndent();
pw.println("mSubId=" + mSubId);
pw.println("mTransport=" + AccessNetworkConstants.transportTypeToString(mTransport));
pw.println("mLastKnownDataNetworkType=" + TelephonyManager
.getNetworkTypeName(mLastKnownDataNetworkType));
pw.println("WWAN cid=" + mCid.get(AccessNetworkConstants.TRANSPORT_TYPE_WWAN));
pw.println("WLAN cid=" + mCid.get(AccessNetworkConstants.TRANSPORT_TYPE_WLAN));
pw.println("mNetworkScore=" + mNetworkScore);
pw.println("mDataAllowedReason=" + mDataAllowedReason);
pw.println("mPduSessionId=" + mPduSessionId);
pw.println("mDataProfile=" + mDataProfile);
pw.println("mNetworkCapabilities=" + mNetworkCapabilities);
pw.println("mLinkProperties=" + mLinkProperties);
pw.println("mNetworkSliceInfo=" + mNetworkSliceInfo);
pw.println("mNetworkBandwidth=" + mNetworkBandwidth);
pw.println("mTcpBufferSizes=" + mTcpBufferSizes);
pw.println("mTelephonyDisplayInfo=" + mTelephonyDisplayInfo);
pw.println("mTempNotMeteredSupported=" + mTempNotMeteredSupported);
pw.println("mTempNotMetered=" + mTempNotMetered);
pw.println("mCongested=" + mCongested);
pw.println("mSuspended=" + mSuspended);
pw.println("mDataCallResponse=" + mDataCallResponse);
pw.println("mFailCause=" + DataFailCause.toString(mFailCause));
pw.println("mAdministratorUids=" + Arrays.toString(mAdministratorUids));
pw.println("mCarrierServicePackageUid=" + mCarrierServicePackageUid);
pw.println("mEverConnected=" + mEverConnected);
pw.println("mInvokedDataDeactivation=" + mInvokedDataDeactivation);
pw.println("Attached network requests:");
pw.increaseIndent();
for (TelephonyNetworkRequest request : mAttachedNetworkRequestList) {
pw.println(request);
}
pw.decreaseIndent();
pw.println("mQosBearerSessions=" + mQosBearerSessions);
mNetworkAgent.dump(fd, pw, args);
pw.println("Local logs:");
pw.increaseIndent();
mLocalLog.dump(fd, pw, args);
pw.decreaseIndent();
pw.decreaseIndent();
pw.println("---------------");
}
}
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