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A library jar that provides APIs for Applications written for the Google Android Platform.

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/*
 * Copyright (C) 2013 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package android.media;

import android.annotation.IntDef;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.annotation.StringDef;
import android.annotation.SystemApi;
import android.app.ActivityThread;
import android.os.Handler;
import android.os.Looper;
import android.os.Message;
import android.os.Parcel;
import android.os.PersistableBundle;
import android.util.Log;
import dalvik.system.CloseGuard;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.UUID;
import java.util.concurrent.atomic.AtomicBoolean;


/**
 * MediaDrm can be used to obtain keys for decrypting protected media streams, in
 * conjunction with {@link android.media.MediaCrypto}.  The MediaDrm APIs
 * are designed to support the ISO/IEC 23001-7: Common Encryption standard, but
 * may also be used to implement other encryption schemes.
 * 

* Encrypted content is prepared using an encryption server and stored in a content * library. The encrypted content is streamed or downloaded from the content library to * client devices via content servers. Licenses to view the content are obtained from * a License Server. *

*

MediaDrm Overview diagram

*

* Keys are requested from the license server using a key request. The key * response is delivered to the client app, which provides the response to the * MediaDrm API. *

* A Provisioning server may be required to distribute device-unique credentials to * the devices. *

* Enforcing requirements related to the number of devices that may play content * simultaneously can be performed either through key renewal or using the secure * stop methods. *

* The following sequence diagram shows the interactions between the objects * involved while playing back encrypted content: *

*

MediaDrm Overview diagram

*

* The app first constructs {@link android.media.MediaExtractor} and * {@link android.media.MediaCodec} objects. It accesses the DRM-scheme-identifying UUID, * typically from metadata in the content, and uses this UUID to construct an instance * of a MediaDrm object that is able to support the DRM scheme required by the content. * Crypto schemes are assigned 16 byte UUIDs. The method {@link #isCryptoSchemeSupported} * can be used to query if a given scheme is supported on the device. *

* The app calls {@link #openSession} to generate a sessionId that will uniquely identify * the session in subsequent interactions. The app next uses the MediaDrm object to * obtain a key request message and send it to the license server, then provide * the server's response to the MediaDrm object. *

* Once the app has a sessionId, it can construct a MediaCrypto object from the UUID and * sessionId. The MediaCrypto object is registered with the MediaCodec in the * {@link MediaCodec#configure} method to enable the codec to decrypt content. *

* When the app has constructed {@link android.media.MediaExtractor}, * {@link android.media.MediaCodec} and {@link android.media.MediaCrypto} objects, * it proceeds to pull samples from the extractor and queue them into the decoder. For * encrypted content, the samples returned from the extractor remain encrypted, they * are only decrypted when the samples are delivered to the decoder. *

* MediaDrm methods throw {@link android.media.MediaDrm.MediaDrmStateException} * when a method is called on a MediaDrm object that has had an unrecoverable failure * in the DRM plugin or security hardware. * {@link android.media.MediaDrm.MediaDrmStateException} extends * {@link java.lang.IllegalStateException} with the addition of a developer-readable * diagnostic information string associated with the exception. *

* In the event of a mediaserver process crash or restart while a MediaDrm object * is active, MediaDrm methods may throw {@link android.media.MediaDrmResetException}. * To recover, the app must release the MediaDrm object, then create and initialize * a new one. *

* As {@link android.media.MediaDrmResetException} and * {@link android.media.MediaDrm.MediaDrmStateException} both extend * {@link java.lang.IllegalStateException}, they should be in an earlier catch() * block than {@link java.lang.IllegalStateException} if handled separately. *

* *

Callbacks

*

Applications should register for informational events in order * to be informed of key state updates during playback or streaming. * Registration for these events is done via a call to * {@link #setOnEventListener}. In order to receive the respective * callback associated with this listener, applications are required to create * MediaDrm objects on a thread with its own Looper running (main UI * thread by default has a Looper running). */ public final class MediaDrm implements AutoCloseable { private static final String TAG = "MediaDrm"; private final AtomicBoolean mClosed = new AtomicBoolean(); private final CloseGuard mCloseGuard = CloseGuard.get(); private static final String PERMISSION = android.Manifest.permission.ACCESS_DRM_CERTIFICATES; private EventHandler mEventHandler; private EventHandler mOnKeyStatusChangeEventHandler; private EventHandler mOnExpirationUpdateEventHandler; private OnEventListener mOnEventListener; private OnKeyStatusChangeListener mOnKeyStatusChangeListener; private OnExpirationUpdateListener mOnExpirationUpdateListener; private long mNativeContext; /** * Specify no certificate type * * @hide - not part of the public API at this time */ public static final int CERTIFICATE_TYPE_NONE = 0; /** * Specify X.509 certificate type * * @hide - not part of the public API at this time */ public static final int CERTIFICATE_TYPE_X509 = 1; /** @hide */ @IntDef({ CERTIFICATE_TYPE_NONE, CERTIFICATE_TYPE_X509, }) @Retention(RetentionPolicy.SOURCE) public @interface CertificateType {} /** * Query if the given scheme identified by its UUID is supported on * this device. * @param uuid The UUID of the crypto scheme. */ public static final boolean isCryptoSchemeSupported(@NonNull UUID uuid) { return isCryptoSchemeSupportedNative(getByteArrayFromUUID(uuid), null); } /** * Query if the given scheme identified by its UUID is supported on * this device, and whether the DRM plugin is able to handle the * media container format specified by mimeType. * @param uuid The UUID of the crypto scheme. * @param mimeType The MIME type of the media container, e.g. "video/mp4" * or "video/webm" */ public static final boolean isCryptoSchemeSupported( @NonNull UUID uuid, @NonNull String mimeType) { return isCryptoSchemeSupportedNative(getByteArrayFromUUID(uuid), mimeType); } private static final byte[] getByteArrayFromUUID(@NonNull UUID uuid) { long msb = uuid.getMostSignificantBits(); long lsb = uuid.getLeastSignificantBits(); byte[] uuidBytes = new byte[16]; for (int i = 0; i < 8; ++i) { uuidBytes[i] = (byte)(msb >>> (8 * (7 - i))); uuidBytes[8 + i] = (byte)(lsb >>> (8 * (7 - i))); } return uuidBytes; } private static final native boolean isCryptoSchemeSupportedNative( @NonNull byte[] uuid, @Nullable String mimeType); /** * Instantiate a MediaDrm object * * @param uuid The UUID of the crypto scheme. * * @throws UnsupportedSchemeException if the device does not support the * specified scheme UUID */ public MediaDrm(@NonNull UUID uuid) throws UnsupportedSchemeException { Looper looper; if ((looper = Looper.myLooper()) != null) { mEventHandler = new EventHandler(this, looper); } else if ((looper = Looper.getMainLooper()) != null) { mEventHandler = new EventHandler(this, looper); } else { mEventHandler = null; } /* Native setup requires a weak reference to our object. * It's easier to create it here than in C++. */ native_setup(new WeakReference(this), getByteArrayFromUUID(uuid), ActivityThread.currentOpPackageName()); mCloseGuard.open("release"); } /** * Thrown when an unrecoverable failure occurs during a MediaDrm operation. * Extends java.lang.IllegalStateException with the addition of an error * code that may be useful in diagnosing the failure. */ public static final class MediaDrmStateException extends java.lang.IllegalStateException { private final int mErrorCode; private final String mDiagnosticInfo; /** * @hide */ public MediaDrmStateException(int errorCode, @Nullable String detailMessage) { super(detailMessage); mErrorCode = errorCode; // TODO get this from DRM session final String sign = errorCode < 0 ? "neg_" : ""; mDiagnosticInfo = "android.media.MediaDrm.error_" + sign + Math.abs(errorCode); } /** * Retrieve the associated error code * * @hide */ public int getErrorCode() { return mErrorCode; } /** * Retrieve a developer-readable diagnostic information string * associated with the exception. Do not show this to end-users, * since this string will not be localized or generally comprehensible * to end-users. */ @NonNull public String getDiagnosticInfo() { return mDiagnosticInfo; } } /** * Register a callback to be invoked when a session expiration update * occurs. The app's OnExpirationUpdateListener will be notified * when the expiration time of the keys in the session have changed. * @param listener the callback that will be run, or {@code null} to unregister the * previously registered callback. * @param handler the handler on which the listener should be invoked, or * {@code null} if the listener should be invoked on the calling thread's looper. */ public void setOnExpirationUpdateListener( @Nullable OnExpirationUpdateListener listener, @Nullable Handler handler) { if (listener != null) { Looper looper = handler != null ? handler.getLooper() : Looper.myLooper(); if (looper != null) { if (mEventHandler == null || mEventHandler.getLooper() != looper) { mEventHandler = new EventHandler(this, looper); } } } mOnExpirationUpdateListener = listener; } /** * Interface definition for a callback to be invoked when a drm session * expiration update occurs */ public interface OnExpirationUpdateListener { /** * Called when a session expiration update occurs, to inform the app * about the change in expiration time * * @param md the MediaDrm object on which the event occurred * @param sessionId the DRM session ID on which the event occurred * @param expirationTime the new expiration time for the keys in the session. * The time is in milliseconds, relative to the Unix epoch. A time of * 0 indicates that the keys never expire. */ void onExpirationUpdate( @NonNull MediaDrm md, @NonNull byte[] sessionId, long expirationTime); } /** * Register a callback to be invoked when the state of keys in a session * change, e.g. when a license update occurs or when a license expires. * * @param listener the callback that will be run when key status changes, or * {@code null} to unregister the previously registered callback. * @param handler the handler on which the listener should be invoked, or * null if the listener should be invoked on the calling thread's looper. */ public void setOnKeyStatusChangeListener( @Nullable OnKeyStatusChangeListener listener, @Nullable Handler handler) { if (listener != null) { Looper looper = handler != null ? handler.getLooper() : Looper.myLooper(); if (looper != null) { if (mEventHandler == null || mEventHandler.getLooper() != looper) { mEventHandler = new EventHandler(this, looper); } } } mOnKeyStatusChangeListener = listener; } /** * Interface definition for a callback to be invoked when the keys in a drm * session change states. */ public interface OnKeyStatusChangeListener { /** * Called when the keys in a session change status, such as when the license * is renewed or expires. * * @param md the MediaDrm object on which the event occurred * @param sessionId the DRM session ID on which the event occurred * @param keyInformation a list of {@link MediaDrm.KeyStatus} * instances indicating the status for each key in the session * @param hasNewUsableKey indicates if a key has been added that is usable, * which may trigger an attempt to resume playback on the media stream * if it is currently blocked waiting for a key. */ void onKeyStatusChange( @NonNull MediaDrm md, @NonNull byte[] sessionId, @NonNull List keyInformation, boolean hasNewUsableKey); } /** * Defines the status of a key. * A KeyStatus for each key in a session is provided to the * {@link OnKeyStatusChangeListener#onKeyStatusChange} * listener. */ public static final class KeyStatus { private final byte[] mKeyId; private final int mStatusCode; /** * The key is currently usable to decrypt media data */ public static final int STATUS_USABLE = 0; /** * The key is no longer usable to decrypt media data because its * expiration time has passed. */ public static final int STATUS_EXPIRED = 1; /** * The key is not currently usable to decrypt media data because its * output requirements cannot currently be met. */ public static final int STATUS_OUTPUT_NOT_ALLOWED = 2; /** * The status of the key is not yet known and is being determined. * The status will be updated with the actual status when it has * been determined. */ public static final int STATUS_PENDING = 3; /** * The key is not currently usable to decrypt media data because of an * internal error in processing unrelated to input parameters. This error * is not actionable by an app. */ public static final int STATUS_INTERNAL_ERROR = 4; /** @hide */ @IntDef({ STATUS_USABLE, STATUS_EXPIRED, STATUS_OUTPUT_NOT_ALLOWED, STATUS_PENDING, STATUS_INTERNAL_ERROR, }) @Retention(RetentionPolicy.SOURCE) public @interface KeyStatusCode {} KeyStatus(@NonNull byte[] keyId, @KeyStatusCode int statusCode) { mKeyId = keyId; mStatusCode = statusCode; } /** * Returns the status code for the key * @return one of {@link #STATUS_USABLE}, {@link #STATUS_EXPIRED}, * {@link #STATUS_OUTPUT_NOT_ALLOWED}, {@link #STATUS_PENDING} * or {@link #STATUS_INTERNAL_ERROR}. */ @KeyStatusCode public int getStatusCode() { return mStatusCode; } /** * Returns the id for the key */ @NonNull public byte[] getKeyId() { return mKeyId; } } /** * Register a callback to be invoked when an event occurs * * @param listener the callback that will be run. Use {@code null} to * stop receiving event callbacks. */ public void setOnEventListener(@Nullable OnEventListener listener) { mOnEventListener = listener; } /** * Interface definition for a callback to be invoked when a drm event * occurs */ public interface OnEventListener { /** * Called when an event occurs that requires the app to be notified * * @param md the MediaDrm object on which the event occurred * @param sessionId the DRM session ID on which the event occurred, * or {@code null} if there is no session ID associated with the event. * @param event indicates the event type * @param extra an secondary error code * @param data optional byte array of data that may be associated with the event */ void onEvent( @NonNull MediaDrm md, @Nullable byte[] sessionId, @DrmEvent int event, int extra, @Nullable byte[] data); } /** * This event type indicates that the app needs to request a certificate from * the provisioning server. The request message data is obtained using * {@link #getProvisionRequest} * * @deprecated Handle provisioning via {@link android.media.NotProvisionedException} * instead. */ public static final int EVENT_PROVISION_REQUIRED = 1; /** * This event type indicates that the app needs to request keys from a license * server. The request message data is obtained using {@link #getKeyRequest}. */ public static final int EVENT_KEY_REQUIRED = 2; /** * This event type indicates that the licensed usage duration for keys in a session * has expired. The keys are no longer valid. * @deprecated Use {@link OnKeyStatusChangeListener#onKeyStatusChange} * and check for {@link MediaDrm.KeyStatus#STATUS_EXPIRED} in the {@link MediaDrm.KeyStatus} * instead. */ public static final int EVENT_KEY_EXPIRED = 3; /** * This event may indicate some specific vendor-defined condition, see your * DRM provider documentation for details */ public static final int EVENT_VENDOR_DEFINED = 4; /** * This event indicates that a session opened by the app has been reclaimed by the resource * manager. */ public static final int EVENT_SESSION_RECLAIMED = 5; /** @hide */ @IntDef({ EVENT_PROVISION_REQUIRED, EVENT_KEY_REQUIRED, EVENT_KEY_EXPIRED, EVENT_VENDOR_DEFINED, EVENT_SESSION_RECLAIMED, }) @Retention(RetentionPolicy.SOURCE) public @interface DrmEvent {} private static final int DRM_EVENT = 200; private static final int EXPIRATION_UPDATE = 201; private static final int KEY_STATUS_CHANGE = 202; private class EventHandler extends Handler { private MediaDrm mMediaDrm; public EventHandler(@NonNull MediaDrm md, @NonNull Looper looper) { super(looper); mMediaDrm = md; } @Override public void handleMessage(@NonNull Message msg) { if (mMediaDrm.mNativeContext == 0) { Log.w(TAG, "MediaDrm went away with unhandled events"); return; } switch(msg.what) { case DRM_EVENT: if (mOnEventListener != null) { if (msg.obj != null && msg.obj instanceof Parcel) { Parcel parcel = (Parcel)msg.obj; byte[] sessionId = parcel.createByteArray(); if (sessionId.length == 0) { sessionId = null; } byte[] data = parcel.createByteArray(); if (data.length == 0) { data = null; } Log.i(TAG, "Drm event (" + msg.arg1 + "," + msg.arg2 + ")"); mOnEventListener.onEvent(mMediaDrm, sessionId, msg.arg1, msg.arg2, data); } } return; case KEY_STATUS_CHANGE: if (mOnKeyStatusChangeListener != null) { if (msg.obj != null && msg.obj instanceof Parcel) { Parcel parcel = (Parcel)msg.obj; byte[] sessionId = parcel.createByteArray(); if (sessionId.length > 0) { List keyStatusList = keyStatusListFromParcel(parcel); boolean hasNewUsableKey = (parcel.readInt() != 0); Log.i(TAG, "Drm key status changed"); mOnKeyStatusChangeListener.onKeyStatusChange(mMediaDrm, sessionId, keyStatusList, hasNewUsableKey); } } } return; case EXPIRATION_UPDATE: if (mOnExpirationUpdateListener != null) { if (msg.obj != null && msg.obj instanceof Parcel) { Parcel parcel = (Parcel)msg.obj; byte[] sessionId = parcel.createByteArray(); if (sessionId.length > 0) { long expirationTime = parcel.readLong(); Log.i(TAG, "Drm key expiration update: " + expirationTime); mOnExpirationUpdateListener.onExpirationUpdate(mMediaDrm, sessionId, expirationTime); } } } return; default: Log.e(TAG, "Unknown message type " + msg.what); return; } } } /** * Parse a list of KeyStatus objects from an event parcel */ @NonNull private List keyStatusListFromParcel(@NonNull Parcel parcel) { int nelems = parcel.readInt(); List keyStatusList = new ArrayList(nelems); while (nelems-- > 0) { byte[] keyId = parcel.createByteArray(); int keyStatusCode = parcel.readInt(); keyStatusList.add(new KeyStatus(keyId, keyStatusCode)); } return keyStatusList; } /** * This method is called from native code when an event occurs. This method * just uses the EventHandler system to post the event back to the main app thread. * We use a weak reference to the original MediaPlayer object so that the native * code is safe from the object disappearing from underneath it. (This is * the cookie passed to native_setup().) */ private static void postEventFromNative(@NonNull Object mediadrm_ref, int what, int eventType, int extra, @Nullable Object obj) { MediaDrm md = (MediaDrm)((WeakReference)mediadrm_ref).get(); if (md == null) { return; } if (md.mEventHandler != null) { Message m = md.mEventHandler.obtainMessage(what, eventType, extra, obj); md.mEventHandler.sendMessage(m); } } /** * Open a new session with the MediaDrm object. A session ID is returned. * By default, sessions are opened at the native security level of the device. * * @throws NotProvisionedException if provisioning is needed * @throws ResourceBusyException if required resources are in use */ @NonNull public byte[] openSession() throws NotProvisionedException, ResourceBusyException { return openSession(getMaxSecurityLevel()); } /** * Open a new session at a requested security level. The security level * represents the robustness of the device's DRM implementation. By default, * sessions are opened at the native security level of the device. * Overriding the security level is necessary when the decrypted frames need * to be manipulated, such as for image compositing. The security level * parameter must be lower than the native level. Reducing the security * level will typically limit the content to lower resolutions, as * determined by the license policy. If the requested level is not * supported, the next lower supported security level will be set. The level * can be queried using {@link #getSecurityLevel}. A session * ID is returned. * * @param level the new security level, one of * {@link #SECURITY_LEVEL_SW_SECURE_CRYPTO}, * {@link #SECURITY_LEVEL_SW_SECURE_DECODE}, * {@link #SECURITY_LEVEL_HW_SECURE_CRYPTO}, * {@link #SECURITY_LEVEL_HW_SECURE_DECODE} or * {@link #SECURITY_LEVEL_HW_SECURE_ALL}. * * @throws NotProvisionedException if provisioning is needed * @throws ResourceBusyException if required resources are in use * @throws IllegalArgumentException if the requested security level is * higher than the native level or lower than the lowest supported level or * if the device does not support specifying the security level when opening * a session */ @NonNull public native byte[] openSession(@SecurityLevel int level) throws NotProvisionedException, ResourceBusyException; /** * Close a session on the MediaDrm object that was previously opened * with {@link #openSession}. */ public native void closeSession(@NonNull byte[] sessionId); /** * This key request type species that the keys will be for online use, they will * not be saved to the device for subsequent use when the device is not connected * to a network. */ public static final int KEY_TYPE_STREAMING = 1; /** * This key request type specifies that the keys will be for offline use, they * will be saved to the device for use when the device is not connected to a network. */ public static final int KEY_TYPE_OFFLINE = 2; /** * This key request type specifies that previously saved offline keys should be released. */ public static final int KEY_TYPE_RELEASE = 3; /** @hide */ @IntDef({ KEY_TYPE_STREAMING, KEY_TYPE_OFFLINE, KEY_TYPE_RELEASE, }) @Retention(RetentionPolicy.SOURCE) public @interface KeyType {} /** * Contains the opaque data an app uses to request keys from a license server. * These request types may or may not be generated by a given plugin. Refer * to plugin vendor documentation for more information. */ public static final class KeyRequest { private byte[] mData; private String mDefaultUrl; private int mRequestType; /** * Key request type is initial license request. A license request * is necessary to load keys. */ public static final int REQUEST_TYPE_INITIAL = 0; /** * Key request type is license renewal. A license request is * necessary to prevent the keys from expiring. */ public static final int REQUEST_TYPE_RENEWAL = 1; /** * Key request type is license release */ public static final int REQUEST_TYPE_RELEASE = 2; /** * Keys are already loaded and are available for use. No license request is necessary, and * no key request data is returned. */ public static final int REQUEST_TYPE_NONE = 3; /** * Keys have been loaded but an additional license request is needed * to update their values. */ public static final int REQUEST_TYPE_UPDATE = 4; /** @hide */ @IntDef({ REQUEST_TYPE_INITIAL, REQUEST_TYPE_RENEWAL, REQUEST_TYPE_RELEASE, REQUEST_TYPE_NONE, REQUEST_TYPE_UPDATE, }) @Retention(RetentionPolicy.SOURCE) public @interface RequestType {} KeyRequest() {} /** * Get the opaque message data */ @NonNull public byte[] getData() { if (mData == null) { // this should never happen as mData is initialized in // JNI after construction of the KeyRequest object. The check // is needed here to guarantee @NonNull annotation. throw new RuntimeException("KeyRequest is not initialized"); } return mData; } /** * Get the default URL to use when sending the key request message to a * server, if known. The app may prefer to use a different license * server URL from other sources. * This method returns an empty string if the default URL is not known. */ @NonNull public String getDefaultUrl() { if (mDefaultUrl == null) { // this should never happen as mDefaultUrl is initialized in // JNI after construction of the KeyRequest object. The check // is needed here to guarantee @NonNull annotation. throw new RuntimeException("KeyRequest is not initialized"); } return mDefaultUrl; } /** * Get the type of the request * @return one of {@link #REQUEST_TYPE_INITIAL}, * {@link #REQUEST_TYPE_RENEWAL}, {@link #REQUEST_TYPE_RELEASE}, * {@link #REQUEST_TYPE_NONE} or {@link #REQUEST_TYPE_UPDATE} */ @RequestType public int getRequestType() { return mRequestType; } }; /** * A key request/response exchange occurs between the app and a license server * to obtain or release keys used to decrypt encrypted content. *

* getKeyRequest() is used to obtain an opaque key request byte array that is * delivered to the license server. The opaque key request byte array is returned * in KeyRequest.data. The recommended URL to deliver the key request to is * returned in KeyRequest.defaultUrl. *

* After the app has received the key request response from the server, * it should deliver to the response to the MediaDrm instance using the method * {@link #provideKeyResponse}. * * @param scope may be a sessionId or a keySetId, depending on the specified keyType. * When the keyType is KEY_TYPE_STREAMING or KEY_TYPE_OFFLINE, * scope should be set to the sessionId the keys will be provided to. When the keyType * is KEY_TYPE_RELEASE, scope should be set to the keySetId of the keys * being released. Releasing keys from a device invalidates them for all sessions. * @param init container-specific data, its meaning is interpreted based on the * mime type provided in the mimeType parameter. It could contain, for example, * the content ID, key ID or other data obtained from the content metadata that is * required in generating the key request. May be null when keyType is * KEY_TYPE_RELEASE or if the request is a renewal, i.e. not the first key * request for the session. * @param mimeType identifies the mime type of the content. May be null if the * keyType is KEY_TYPE_RELEASE or if the request is a renewal, i.e. not the * first key request for the session. * @param keyType specifes the type of the request. The request may be to acquire * keys for streaming or offline content, or to release previously acquired * keys, which are identified by a keySetId. * @param optionalParameters are included in the key request message to * allow a client application to provide additional message parameters to the server. * This may be {@code null} if no additional parameters are to be sent. * @throws NotProvisionedException if reprovisioning is needed, due to a * problem with the certifcate */ @NonNull public native KeyRequest getKeyRequest( @NonNull byte[] scope, @Nullable byte[] init, @Nullable String mimeType, @KeyType int keyType, @Nullable HashMap optionalParameters) throws NotProvisionedException; /** * A key response is received from the license server by the app, then it is * provided to the MediaDrm instance using provideKeyResponse. When the * response is for an offline key request, a keySetId is returned that can be * used to later restore the keys to a new session with the method * {@link #restoreKeys}. * When the response is for a streaming or release request, an empty byte array * is returned. * * @param scope may be a sessionId or keySetId depending on the type of the * response. Scope should be set to the sessionId when the response is for either * streaming or offline key requests. Scope should be set to the keySetId when * the response is for a release request. * @param response the byte array response from the server * @return If the response is for an offline request, the keySetId for the offline * keys will be returned. If the response is for a streaming or release request * an empty byte array will be returned. * * @throws NotProvisionedException if the response indicates that * reprovisioning is required * @throws DeniedByServerException if the response indicates that the * server rejected the request */ @Nullable public native byte[] provideKeyResponse( @NonNull byte[] scope, @NonNull byte[] response) throws NotProvisionedException, DeniedByServerException; /** * Restore persisted offline keys into a new session. keySetId identifies the * keys to load, obtained from a prior call to {@link #provideKeyResponse}. * * @param sessionId the session ID for the DRM session * @param keySetId identifies the saved key set to restore */ public native void restoreKeys(@NonNull byte[] sessionId, @NonNull byte[] keySetId); /** * Remove the current keys from a session. * * @param sessionId the session ID for the DRM session */ public native void removeKeys(@NonNull byte[] sessionId); /** * Request an informative description of the key status for the session. The status is * in the form of {name, value} pairs. Since DRM license policies vary by vendor, * the specific status field names are determined by each DRM vendor. Refer to your * DRM provider documentation for definitions of the field names for a particular * DRM plugin. * * @param sessionId the session ID for the DRM session */ @NonNull public native HashMap queryKeyStatus(@NonNull byte[] sessionId); /** * Contains the opaque data an app uses to request a certificate from a provisioning * server */ public static final class ProvisionRequest { ProvisionRequest() {} /** * Get the opaque message data */ @NonNull public byte[] getData() { if (mData == null) { // this should never happen as mData is initialized in // JNI after construction of the KeyRequest object. The check // is needed here to guarantee @NonNull annotation. throw new RuntimeException("ProvisionRequest is not initialized"); } return mData; } /** * Get the default URL to use when sending the provision request * message to a server, if known. The app may prefer to use a different * provisioning server URL obtained from other sources. * This method returns an empty string if the default URL is not known. */ @NonNull public String getDefaultUrl() { if (mDefaultUrl == null) { // this should never happen as mDefaultUrl is initialized in // JNI after construction of the ProvisionRequest object. The check // is needed here to guarantee @NonNull annotation. throw new RuntimeException("ProvisionRequest is not initialized"); } return mDefaultUrl; } private byte[] mData; private String mDefaultUrl; } /** * A provision request/response exchange occurs between the app and a provisioning * server to retrieve a device certificate. If provisionining is required, the * EVENT_PROVISION_REQUIRED event will be sent to the event handler. * getProvisionRequest is used to obtain the opaque provision request byte array that * should be delivered to the provisioning server. The provision request byte array * is returned in ProvisionRequest.data. The recommended URL to deliver the provision * request to is returned in ProvisionRequest.defaultUrl. */ @NonNull public ProvisionRequest getProvisionRequest() { return getProvisionRequestNative(CERTIFICATE_TYPE_NONE, ""); } @NonNull private native ProvisionRequest getProvisionRequestNative(int certType, @NonNull String certAuthority); /** * After a provision response is received by the app, it is provided to the * MediaDrm instance using this method. * * @param response the opaque provisioning response byte array to provide to the * MediaDrm instance. * * @throws DeniedByServerException if the response indicates that the * server rejected the request */ public void provideProvisionResponse(@NonNull byte[] response) throws DeniedByServerException { provideProvisionResponseNative(response); } @NonNull private native Certificate provideProvisionResponseNative(@NonNull byte[] response) throws DeniedByServerException; /** * Secure stops are a way to enforce limits on the number of concurrent * streams per subscriber across devices. They provide secure monitoring of * the lifetime of content decryption keys in MediaDrm sessions. *

* A secure stop is written to secure persistent memory when keys are loaded * into a MediaDrm session. The secure stop state indicates that the keys * are available for use. When playback completes and the keys are removed * or the session is destroyed, the secure stop state is updated to indicate * that keys are no longer usable. *

* After playback, the app can query the secure stop and send it in a * message to the license server confirming that the keys are no longer * active. The license server returns a secure stop release response * message to the app which then deletes the secure stop from persistent * memory using {@link #releaseSecureStops}. *

* Each secure stop has a unique ID that can be used to identify it during * enumeration, access and removal. * @return a list of all secure stops from secure persistent memory */ @NonNull public native List getSecureStops(); /** * Return a list of all secure stop IDs currently in persistent memory. * The secure stop ID can be used to access or remove the corresponding * secure stop. * * @return a list of secure stop IDs */ @NonNull public native List getSecureStopIds(); /** * Access a specific secure stop given its secure stop ID. * Each secure stop has a unique ID. * * @param ssid the ID of the secure stop to return * @return the secure stop identified by ssid */ @NonNull public native byte[] getSecureStop(@NonNull byte[] ssid); /** * Process the secure stop server response message ssRelease. After * authenticating the message, remove the secure stops identified in the * response. * * @param ssRelease the server response indicating which secure stops to release */ public native void releaseSecureStops(@NonNull byte[] ssRelease); /** * Remove a specific secure stop without requiring a secure stop release message * from the license server. * @param ssid the ID of the secure stop to remove */ public native void removeSecureStop(@NonNull byte[] ssid); /** * Remove all secure stops without requiring a secure stop release message from * the license server. * * This method was added in API 28. In API versions 18 through 27, * {@link #releaseAllSecureStops} should be called instead. There is no need to * do anything for API versions prior to 18. */ public native void removeAllSecureStops(); /** * Remove all secure stops without requiring a secure stop release message from * the license server. * * @deprecated Remove all secure stops using {@link #removeAllSecureStops} instead. */ public void releaseAllSecureStops() { removeAllSecureStops();; } @Retention(RetentionPolicy.SOURCE) @IntDef({HDCP_LEVEL_UNKNOWN, HDCP_NONE, HDCP_V1, HDCP_V2, HDCP_V2_1, HDCP_V2_2, HDCP_NO_DIGITAL_OUTPUT}) public @interface HdcpLevel {} /** * The DRM plugin did not report an HDCP level, or an error * occurred accessing it */ public static final int HDCP_LEVEL_UNKNOWN = 0; /** * HDCP is not supported on this device, content is unprotected */ public static final int HDCP_NONE = 1; /** * HDCP version 1.0 */ public static final int HDCP_V1 = 2; /** * HDCP version 2.0 Type 1. */ public static final int HDCP_V2 = 3; /** * HDCP version 2.1 Type 1. */ public static final int HDCP_V2_1 = 4; /** * HDCP version 2.2 Type 1. */ public static final int HDCP_V2_2 = 5; /** * No digital output, implicitly secure */ public static final int HDCP_NO_DIGITAL_OUTPUT = Integer.MAX_VALUE; /** * Return the HDCP level negotiated with downstream receivers the * device is connected to. If multiple HDCP-capable displays are * simultaneously connected to separate interfaces, this method * returns the lowest negotiated level of all interfaces. *

* This method should only be used for informational purposes, not for * enforcing compliance with HDCP requirements. Trusted enforcement of * HDCP policies must be handled by the DRM system. *

* @return one of {@link #HDCP_LEVEL_UNKNOWN}, {@link #HDCP_NONE}, * {@link #HDCP_V1}, {@link #HDCP_V2}, {@link #HDCP_V2_1}, {@link #HDCP_V2_2} * or {@link #HDCP_NO_DIGITAL_OUTPUT}. */ @HdcpLevel public native int getConnectedHdcpLevel(); /** * Return the maximum supported HDCP level. The maximum HDCP level is a * constant for a given device, it does not depend on downstream receivers * that may be connected. If multiple HDCP-capable interfaces are present, * it indicates the highest of the maximum HDCP levels of all interfaces. *

* @return one of {@link #HDCP_LEVEL_UNKNOWN}, {@link #HDCP_NONE}, * {@link #HDCP_V1}, {@link #HDCP_V2}, {@link #HDCP_V2_1}, {@link #HDCP_V2_2} * or {@link #HDCP_NO_DIGITAL_OUTPUT}. */ @HdcpLevel public native int getMaxHdcpLevel(); /** * Return the number of MediaDrm sessions that are currently opened * simultaneously among all MediaDrm instances for the active DRM scheme. * @return the number of open sessions. */ public native int getOpenSessionCount(); /** * Return the maximum number of MediaDrm sessions that may be opened * simultaneosly among all MediaDrm instances for the active DRM * scheme. The maximum number of sessions is not affected by any * sessions that may have already been opened. * @return maximum sessions. */ public native int getMaxSessionCount(); /** * Security level indicates the robustness of the device's DRM * implementation. */ @Retention(RetentionPolicy.SOURCE) @IntDef({SECURITY_LEVEL_UNKNOWN, SECURITY_LEVEL_SW_SECURE_CRYPTO, SECURITY_LEVEL_SW_SECURE_DECODE, SECURITY_LEVEL_HW_SECURE_CRYPTO, SECURITY_LEVEL_HW_SECURE_DECODE, SECURITY_LEVEL_HW_SECURE_ALL}) public @interface SecurityLevel {} /** * The DRM plugin did not report a security level, or an error occurred * accessing it */ public static final int SECURITY_LEVEL_UNKNOWN = 0; /** * DRM key management uses software-based whitebox crypto. */ public static final int SECURITY_LEVEL_SW_SECURE_CRYPTO = 1; /** * DRM key management and decoding use software-based whitebox crypto. */ public static final int SECURITY_LEVEL_SW_SECURE_DECODE = 2; /** * DRM key management and crypto operations are performed within a hardware * backed trusted execution environment. */ public static final int SECURITY_LEVEL_HW_SECURE_CRYPTO = 3; /** * DRM key management, crypto operations and decoding of content are * performed within a hardware backed trusted execution environment. */ public static final int SECURITY_LEVEL_HW_SECURE_DECODE = 4; /** * DRM key management, crypto operations, decoding of content and all * handling of the media (compressed and uncompressed) is handled within a * hardware backed trusted execution environment. */ public static final int SECURITY_LEVEL_HW_SECURE_ALL = 5; /** * The maximum security level supported by the device. This is the default * security level when a session is opened. * @hide */ public static final int SECURITY_LEVEL_MAX = 6; /** * The maximum security level supported by the device. This is the default * security level when a session is opened. */ @SecurityLevel public static final int getMaxSecurityLevel() { return SECURITY_LEVEL_MAX; } /** * Return the current security level of a session. A session has an initial * security level determined by the robustness of the DRM system's * implementation on the device. The security level may be changed at the * time a session is opened using {@link #openSession}. * @param sessionId the session to query. *

* @return one of {@link #SECURITY_LEVEL_UNKNOWN}, * {@link #SECURITY_LEVEL_SW_SECURE_CRYPTO}, {@link #SECURITY_LEVEL_SW_SECURE_DECODE}, * {@link #SECURITY_LEVEL_HW_SECURE_CRYPTO}, {@link #SECURITY_LEVEL_HW_SECURE_DECODE} or * {@link #SECURITY_LEVEL_HW_SECURE_ALL}. */ @SecurityLevel public native int getSecurityLevel(@NonNull byte[] sessionId); /** * String property name: identifies the maker of the DRM plugin */ public static final String PROPERTY_VENDOR = "vendor"; /** * String property name: identifies the version of the DRM plugin */ public static final String PROPERTY_VERSION = "version"; /** * String property name: describes the DRM plugin */ public static final String PROPERTY_DESCRIPTION = "description"; /** * String property name: a comma-separated list of cipher and mac algorithms * supported by CryptoSession. The list may be empty if the DRM * plugin does not support CryptoSession operations. */ public static final String PROPERTY_ALGORITHMS = "algorithms"; /** @hide */ @StringDef(prefix = { "PROPERTY_" }, value = { PROPERTY_VENDOR, PROPERTY_VERSION, PROPERTY_DESCRIPTION, PROPERTY_ALGORITHMS, }) @Retention(RetentionPolicy.SOURCE) public @interface StringProperty {} /** * Read a MediaDrm String property value, given the property name string. *

* Standard fields names are: * {@link #PROPERTY_VENDOR}, {@link #PROPERTY_VERSION}, * {@link #PROPERTY_DESCRIPTION}, {@link #PROPERTY_ALGORITHMS} */ @NonNull public native String getPropertyString(@NonNull @StringProperty String propertyName); /** * Set a MediaDrm String property value, given the property name string * and new value for the property. */ public native void setPropertyString(@NonNull @StringProperty String propertyName, @NonNull String value); /** * Byte array property name: the device unique identifier is established during * device provisioning and provides a means of uniquely identifying each device. */ public static final String PROPERTY_DEVICE_UNIQUE_ID = "deviceUniqueId"; /** @hide */ @StringDef(prefix = { "PROPERTY_" }, value = { PROPERTY_DEVICE_UNIQUE_ID, }) @Retention(RetentionPolicy.SOURCE) public @interface ArrayProperty {} /** * Read a MediaDrm byte array property value, given the property name string. *

* Standard fields names are {@link #PROPERTY_DEVICE_UNIQUE_ID} */ @NonNull public native byte[] getPropertyByteArray(@ArrayProperty String propertyName); /** * Set a MediaDrm byte array property value, given the property name string * and new value for the property. */ public native void setPropertyByteArray(@NonNull @ArrayProperty String propertyName, @NonNull byte[] value); private static final native void setCipherAlgorithmNative( @NonNull MediaDrm drm, @NonNull byte[] sessionId, @NonNull String algorithm); private static final native void setMacAlgorithmNative( @NonNull MediaDrm drm, @NonNull byte[] sessionId, @NonNull String algorithm); @NonNull private static final native byte[] encryptNative( @NonNull MediaDrm drm, @NonNull byte[] sessionId, @NonNull byte[] keyId, @NonNull byte[] input, @NonNull byte[] iv); @NonNull private static final native byte[] decryptNative( @NonNull MediaDrm drm, @NonNull byte[] sessionId, @NonNull byte[] keyId, @NonNull byte[] input, @NonNull byte[] iv); @NonNull private static final native byte[] signNative( @NonNull MediaDrm drm, @NonNull byte[] sessionId, @NonNull byte[] keyId, @NonNull byte[] message); private static final native boolean verifyNative( @NonNull MediaDrm drm, @NonNull byte[] sessionId, @NonNull byte[] keyId, @NonNull byte[] message, @NonNull byte[] signature); /** * Return Metrics data about the current MediaDrm instance. * * @return a {@link PersistableBundle} containing the set of attributes and values * available for this instance of MediaDrm. * The attributes are described in {@link MetricsConstants}. * * Additional vendor-specific fields may also be present in * the return value. */ public PersistableBundle getMetrics() { PersistableBundle bundle = getMetricsNative(); return bundle; } private native PersistableBundle getMetricsNative(); /** * In addition to supporting decryption of DASH Common Encrypted Media, the * MediaDrm APIs provide the ability to securely deliver session keys from * an operator's session key server to a client device, based on the factory-installed * root of trust, and then perform encrypt, decrypt, sign and verify operations * with the session key on arbitrary user data. *

* The CryptoSession class implements generic encrypt/decrypt/sign/verify methods * based on the established session keys. These keys are exchanged using the * getKeyRequest/provideKeyResponse methods. *

* Applications of this capability could include securing various types of * purchased or private content, such as applications, books and other media, * photos or media delivery protocols. *

* Operators can create session key servers that are functionally similar to a * license key server, except that instead of receiving license key requests and * providing encrypted content keys which are used specifically to decrypt A/V media * content, the session key server receives session key requests and provides * encrypted session keys which can be used for general purpose crypto operations. *

* A CryptoSession is obtained using {@link #getCryptoSession} */ public final class CryptoSession { private byte[] mSessionId; CryptoSession(@NonNull byte[] sessionId, @NonNull String cipherAlgorithm, @NonNull String macAlgorithm) { mSessionId = sessionId; setCipherAlgorithmNative(MediaDrm.this, sessionId, cipherAlgorithm); setMacAlgorithmNative(MediaDrm.this, sessionId, macAlgorithm); } /** * Encrypt data using the CryptoSession's cipher algorithm * * @param keyid specifies which key to use * @param input the data to encrypt * @param iv the initialization vector to use for the cipher */ @NonNull public byte[] encrypt( @NonNull byte[] keyid, @NonNull byte[] input, @NonNull byte[] iv) { return encryptNative(MediaDrm.this, mSessionId, keyid, input, iv); } /** * Decrypt data using the CryptoSessions's cipher algorithm * * @param keyid specifies which key to use * @param input the data to encrypt * @param iv the initialization vector to use for the cipher */ @NonNull public byte[] decrypt( @NonNull byte[] keyid, @NonNull byte[] input, @NonNull byte[] iv) { return decryptNative(MediaDrm.this, mSessionId, keyid, input, iv); } /** * Sign data using the CryptoSessions's mac algorithm. * * @param keyid specifies which key to use * @param message the data for which a signature is to be computed */ @NonNull public byte[] sign(@NonNull byte[] keyid, @NonNull byte[] message) { return signNative(MediaDrm.this, mSessionId, keyid, message); } /** * Verify a signature using the CryptoSessions's mac algorithm. Return true * if the signatures match, false if they do no. * * @param keyid specifies which key to use * @param message the data to verify * @param signature the reference signature which will be compared with the * computed signature */ public boolean verify( @NonNull byte[] keyid, @NonNull byte[] message, @NonNull byte[] signature) { return verifyNative(MediaDrm.this, mSessionId, keyid, message, signature); } }; /** * Obtain a CryptoSession object which can be used to encrypt, decrypt, * sign and verify messages or data using the session keys established * for the session using methods {@link #getKeyRequest} and * {@link #provideKeyResponse} using a session key server. * * @param sessionId the session ID for the session containing keys * to be used for encrypt, decrypt, sign and/or verify * @param cipherAlgorithm the algorithm to use for encryption and * decryption ciphers. The algorithm string conforms to JCA Standard * Names for Cipher Transforms and is case insensitive. For example * "AES/CBC/NoPadding". * @param macAlgorithm the algorithm to use for sign and verify * The algorithm string conforms to JCA Standard Names for Mac * Algorithms and is case insensitive. For example "HmacSHA256". *

* The list of supported algorithms for a DRM plugin can be obtained * using the method {@link #getPropertyString} with the property name * "algorithms". */ public CryptoSession getCryptoSession( @NonNull byte[] sessionId, @NonNull String cipherAlgorithm, @NonNull String macAlgorithm) { return new CryptoSession(sessionId, cipherAlgorithm, macAlgorithm); } /** * Contains the opaque data an app uses to request a certificate from a provisioning * server * * @hide - not part of the public API at this time */ public static final class CertificateRequest { private byte[] mData; private String mDefaultUrl; CertificateRequest(@NonNull byte[] data, @NonNull String defaultUrl) { mData = data; mDefaultUrl = defaultUrl; } /** * Get the opaque message data */ @NonNull public byte[] getData() { return mData; } /** * Get the default URL to use when sending the certificate request * message to a server, if known. The app may prefer to use a different * certificate server URL obtained from other sources. */ @NonNull public String getDefaultUrl() { return mDefaultUrl; } } /** * Generate a certificate request, specifying the certificate type * and authority. The response received should be passed to * provideCertificateResponse. * * @param certType Specifies the certificate type. * * @param certAuthority is passed to the certificate server to specify * the chain of authority. * * @hide - not part of the public API at this time */ @NonNull public CertificateRequest getCertificateRequest( @CertificateType int certType, @NonNull String certAuthority) { ProvisionRequest provisionRequest = getProvisionRequestNative(certType, certAuthority); return new CertificateRequest(provisionRequest.getData(), provisionRequest.getDefaultUrl()); } /** * Contains the wrapped private key and public certificate data associated * with a certificate. * * @hide - not part of the public API at this time */ public static final class Certificate { Certificate() {} /** * Get the wrapped private key data */ @NonNull public byte[] getWrappedPrivateKey() { if (mWrappedKey == null) { // this should never happen as mWrappedKey is initialized in // JNI after construction of the KeyRequest object. The check // is needed here to guarantee @NonNull annotation. throw new RuntimeException("Cerfificate is not initialized"); } return mWrappedKey; } /** * Get the PEM-encoded certificate chain */ @NonNull public byte[] getContent() { if (mCertificateData == null) { // this should never happen as mCertificateData is initialized in // JNI after construction of the KeyRequest object. The check // is needed here to guarantee @NonNull annotation. throw new RuntimeException("Cerfificate is not initialized"); } return mCertificateData; } private byte[] mWrappedKey; private byte[] mCertificateData; } /** * Process a response from the certificate server. The response * is obtained from an HTTP Post to the url provided by getCertificateRequest. *

* The public X509 certificate chain and wrapped private key are returned * in the returned Certificate objec. The certificate chain is in PEM format. * The wrapped private key should be stored in application private * storage, and used when invoking the signRSA method. * * @param response the opaque certificate response byte array to provide to the * MediaDrm instance. * * @throws DeniedByServerException if the response indicates that the * server rejected the request * * @hide - not part of the public API at this time */ @NonNull public Certificate provideCertificateResponse(@NonNull byte[] response) throws DeniedByServerException { return provideProvisionResponseNative(response); } @NonNull private static final native byte[] signRSANative( @NonNull MediaDrm drm, @NonNull byte[] sessionId, @NonNull String algorithm, @NonNull byte[] wrappedKey, @NonNull byte[] message); /** * Sign data using an RSA key * * @param sessionId a sessionId obtained from openSession on the MediaDrm object * @param algorithm the signing algorithm to use, e.g. "PKCS1-BlockType1" * @param wrappedKey - the wrapped (encrypted) RSA private key obtained * from provideCertificateResponse * @param message the data for which a signature is to be computed * * @hide - not part of the public API at this time */ @NonNull public byte[] signRSA( @NonNull byte[] sessionId, @NonNull String algorithm, @NonNull byte[] wrappedKey, @NonNull byte[] message) { return signRSANative(this, sessionId, algorithm, wrappedKey, message); } @Override protected void finalize() throws Throwable { try { if (mCloseGuard != null) { mCloseGuard.warnIfOpen(); } release(); } finally { super.finalize(); } } /** * Releases resources associated with the current session of * MediaDrm. It is considered good practice to call this method when * the {@link MediaDrm} object is no longer needed in your * application. After this method is called, {@link MediaDrm} is no * longer usable since it has lost all of its required resource. * * This method was added in API 28. In API versions 18 through 27, release() * should be called instead. There is no need to do anything for API * versions prior to 18. */ @Override public void close() { release(); } /** * @deprecated replaced by {@link #close()}. */ @Deprecated public void release() { mCloseGuard.close(); if (mClosed.compareAndSet(false, true)) { native_release(); } } /** @hide */ public native final void native_release(); private static native final void native_init(); private native final void native_setup(Object mediadrm_this, byte[] uuid, String appPackageName); static { System.loadLibrary("media_jni"); native_init(); } /** * Definitions for the metrics that are reported via the * {@link #getMetrics} call. */ public final static class MetricsConstants { private MetricsConstants() {} /** * Key to extract the number of successful {@link #openSession} calls * from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String OPEN_SESSION_OK_COUNT = "drm.mediadrm.open_session.ok.count"; /** * Key to extract the number of failed {@link #openSession} calls * from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String OPEN_SESSION_ERROR_COUNT = "drm.mediadrm.open_session.error.count"; /** * Key to extract the list of error codes that were returned from * {@link #openSession} calls. The key is used to lookup the list * in the {@link PersistableBundle} returned by a {@link #getMetrics} * call. * The list is an array of Long values * ({@link android.os.BaseBundle#getLongArray}). */ public static final String OPEN_SESSION_ERROR_LIST = "drm.mediadrm.open_session.error.list"; /** * Key to extract the number of successful {@link #closeSession} calls * from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String CLOSE_SESSION_OK_COUNT = "drm.mediadrm.close_session.ok.count"; /** * Key to extract the number of failed {@link #closeSession} calls * from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String CLOSE_SESSION_ERROR_COUNT = "drm.mediadrm.close_session.error.count"; /** * Key to extract the list of error codes that were returned from * {@link #closeSession} calls. The key is used to lookup the list * in the {@link PersistableBundle} returned by a {@link #getMetrics} * call. * The list is an array of Long values * ({@link android.os.BaseBundle#getLongArray}). */ public static final String CLOSE_SESSION_ERROR_LIST = "drm.mediadrm.close_session.error.list"; /** * Key to extract the start times of sessions. Times are * represented as milliseconds since epoch (1970-01-01T00:00:00Z). * The start times are returned from the {@link PersistableBundle} * from a {@link #getMetrics} call. * The start times are returned as another {@link PersistableBundle} * containing the session ids as keys and the start times as long * values. Use {@link android.os.BaseBundle#keySet} to get the list of * session ids, and then {@link android.os.BaseBundle#getLong} to get * the start time for each session. */ public static final String SESSION_START_TIMES_MS = "drm.mediadrm.session_start_times_ms"; /** * Key to extract the end times of sessions. Times are * represented as milliseconds since epoch (1970-01-01T00:00:00Z). * The end times are returned from the {@link PersistableBundle} * from a {@link #getMetrics} call. * The end times are returned as another {@link PersistableBundle} * containing the session ids as keys and the end times as long * values. Use {@link android.os.BaseBundle#keySet} to get the list of * session ids, and then {@link android.os.BaseBundle#getLong} to get * the end time for each session. */ public static final String SESSION_END_TIMES_MS = "drm.mediadrm.session_end_times_ms"; /** * Key to extract the number of successful {@link #getKeyRequest} calls * from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String GET_KEY_REQUEST_OK_COUNT = "drm.mediadrm.get_key_request.ok.count"; /** * Key to extract the number of failed {@link #getKeyRequest} * calls from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String GET_KEY_REQUEST_ERROR_COUNT = "drm.mediadrm.get_key_request.error.count"; /** * Key to extract the list of error codes that were returned from * {@link #getKeyRequest} calls. The key is used to lookup the list * in the {@link PersistableBundle} returned by a {@link #getMetrics} * call. * The list is an array of Long values * ({@link android.os.BaseBundle#getLongArray}). */ public static final String GET_KEY_REQUEST_ERROR_LIST = "drm.mediadrm.get_key_request.error.list"; /** * Key to extract the average time in microseconds of calls to * {@link #getKeyRequest}. The value is retrieved from the * {@link PersistableBundle} returned from {@link #getMetrics}. * The time is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String GET_KEY_REQUEST_OK_TIME_MICROS = "drm.mediadrm.get_key_request.ok.average_time_micros"; /** * Key to extract the number of successful {@link #provideKeyResponse} * calls from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String PROVIDE_KEY_RESPONSE_OK_COUNT = "drm.mediadrm.provide_key_response.ok.count"; /** * Key to extract the number of failed {@link #provideKeyResponse} * calls from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String PROVIDE_KEY_RESPONSE_ERROR_COUNT = "drm.mediadrm.provide_key_response.error.count"; /** * Key to extract the list of error codes that were returned from * {@link #provideKeyResponse} calls. The key is used to lookup the * list in the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The list is an array of Long values * ({@link android.os.BaseBundle#getLongArray}). */ public static final String PROVIDE_KEY_RESPONSE_ERROR_LIST = "drm.mediadrm.provide_key_response.error.list"; /** * Key to extract the average time in microseconds of calls to * {@link #provideKeyResponse}. The valus is retrieved from the * {@link PersistableBundle} returned from {@link #getMetrics}. * The time is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String PROVIDE_KEY_RESPONSE_OK_TIME_MICROS = "drm.mediadrm.provide_key_response.ok.average_time_micros"; /** * Key to extract the number of successful {@link #getProvisionRequest} * calls from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String GET_PROVISION_REQUEST_OK_COUNT = "drm.mediadrm.get_provision_request.ok.count"; /** * Key to extract the number of failed {@link #getProvisionRequest} * calls from the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String GET_PROVISION_REQUEST_ERROR_COUNT = "drm.mediadrm.get_provision_request.error.count"; /** * Key to extract the list of error codes that were returned from * {@link #getProvisionRequest} calls. The key is used to lookup the * list in the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The list is an array of Long values * ({@link android.os.BaseBundle#getLongArray}). */ public static final String GET_PROVISION_REQUEST_ERROR_LIST = "drm.mediadrm.get_provision_request.error.list"; /** * Key to extract the number of successful * {@link #provideProvisionResponse} calls from the * {@link PersistableBundle} returned by a {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String PROVIDE_PROVISION_RESPONSE_OK_COUNT = "drm.mediadrm.provide_provision_response.ok.count"; /** * Key to extract the number of failed * {@link #provideProvisionResponse} calls from the * {@link PersistableBundle} returned by a {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String PROVIDE_PROVISION_RESPONSE_ERROR_COUNT = "drm.mediadrm.provide_provision_response.error.count"; /** * Key to extract the list of error codes that were returned from * {@link #provideProvisionResponse} calls. The key is used to lookup * the list in the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The list is an array of Long values * ({@link android.os.BaseBundle#getLongArray}). */ public static final String PROVIDE_PROVISION_RESPONSE_ERROR_LIST = "drm.mediadrm.provide_provision_response.error.list"; /** * Key to extract the number of successful * {@link #getPropertyByteArray} calls were made with the * {@link #PROPERTY_DEVICE_UNIQUE_ID} value. The key is used to lookup * the value in the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String GET_DEVICE_UNIQUE_ID_OK_COUNT = "drm.mediadrm.get_device_unique_id.ok.count"; /** * Key to extract the number of failed * {@link #getPropertyByteArray} calls were made with the * {@link #PROPERTY_DEVICE_UNIQUE_ID} value. The key is used to lookup * the value in the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String GET_DEVICE_UNIQUE_ID_ERROR_COUNT = "drm.mediadrm.get_device_unique_id.error.count"; /** * Key to extract the list of error codes that were returned from * {@link #getPropertyByteArray} calls with the * {@link #PROPERTY_DEVICE_UNIQUE_ID} value. The key is used to lookup * the list in the {@link PersistableBundle} returned by a * {@link #getMetrics} call. * The list is an array of Long values * ({@link android.os.BaseBundle#getLongArray}). */ public static final String GET_DEVICE_UNIQUE_ID_ERROR_LIST = "drm.mediadrm.get_device_unique_id.error.list"; /** * Key to extraact the count of {@link KeyStatus#STATUS_EXPIRED} events * that occured. The count is extracted from the * {@link PersistableBundle} returned from a {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String KEY_STATUS_EXPIRED_COUNT = "drm.mediadrm.key_status.EXPIRED.count"; /** * Key to extract the count of {@link KeyStatus#STATUS_INTERNAL_ERROR} * events that occured. The count is extracted from the * {@link PersistableBundle} returned from a {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String KEY_STATUS_INTERNAL_ERROR_COUNT = "drm.mediadrm.key_status.INTERNAL_ERROR.count"; /** * Key to extract the count of * {@link KeyStatus#STATUS_OUTPUT_NOT_ALLOWED} events that occured. * The count is extracted from the * {@link PersistableBundle} returned from a {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String KEY_STATUS_OUTPUT_NOT_ALLOWED_COUNT = "drm.mediadrm.key_status_change.OUTPUT_NOT_ALLOWED.count"; /** * Key to extract the count of {@link KeyStatus#STATUS_PENDING} * events that occured. The count is extracted from the * {@link PersistableBundle} returned from a {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String KEY_STATUS_PENDING_COUNT = "drm.mediadrm.key_status_change.PENDING.count"; /** * Key to extract the count of {@link KeyStatus#STATUS_USABLE} * events that occured. The count is extracted from the * {@link PersistableBundle} returned from a {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String KEY_STATUS_USABLE_COUNT = "drm.mediadrm.key_status_change.USABLE.count"; /** * Key to extract the count of {@link OnEventListener#onEvent} * calls of type PROVISION_REQUIRED occured. The count is * extracted from the {@link PersistableBundle} returned from a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String EVENT_PROVISION_REQUIRED_COUNT = "drm.mediadrm.event.PROVISION_REQUIRED.count"; /** * Key to extract the count of {@link OnEventListener#onEvent} * calls of type KEY_NEEDED occured. The count is * extracted from the {@link PersistableBundle} returned from a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String EVENT_KEY_NEEDED_COUNT = "drm.mediadrm.event.KEY_NEEDED.count"; /** * Key to extract the count of {@link OnEventListener#onEvent} * calls of type KEY_EXPIRED occured. The count is * extracted from the {@link PersistableBundle} returned from a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String EVENT_KEY_EXPIRED_COUNT = "drm.mediadrm.event.KEY_EXPIRED.count"; /** * Key to extract the count of {@link OnEventListener#onEvent} * calls of type VENDOR_DEFINED. The count is * extracted from the {@link PersistableBundle} returned from a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String EVENT_VENDOR_DEFINED_COUNT = "drm.mediadrm.event.VENDOR_DEFINED.count"; /** * Key to extract the count of {@link OnEventListener#onEvent} * calls of type SESSION_RECLAIMED. The count is * extracted from the {@link PersistableBundle} returned from a * {@link #getMetrics} call. * The count is a Long value ({@link android.os.BaseBundle#getLong}). */ public static final String EVENT_SESSION_RECLAIMED_COUNT = "drm.mediadrm.event.SESSION_RECLAIMED.count"; } }





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