/** * Copyright (C) 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.hardware.drm@1.1; import @1.0::IDrmPlugin; import @1.0::IDrmPluginListener; import @1.0::KeyedVector; import @1.0::KeyType; import @1.0::Status; import @1.1::DrmMetricGroup; import @1.1::HdcpLevel; import @1.1::KeyRequestType; import @1.0::SecureStopId; import @1.1::SecureStopRelease; import @1.1::SecurityLevel; import @1.0::SessionId; /** * IDrmPlugin is used to interact with a specific drm plugin that was created by * IDrm::createPlugin. A drm plugin provides methods for obtaining drm keys that * may be used by a codec to decrypt protected video content. */ interface IDrmPlugin extends @1.0::IDrmPlugin { /** * 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 which is * the maximum level that can be supported. 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 equal to or lower * than the native level. If the requested level is not supported, the next * lower supported security level must be set. The level can be queried * using {@link #getSecurityLevel}. A session ID is returned. When the * drm@1.0 openSession is called, which has no securityLevel parameter, the * security level is defaulted to the native security level of the device. * * @return status the status of the call. The status must be OK or one of * the following errors: ERROR_DRM_NOT_PROVISIONED if the device * requires provisioning before it can open a session, * ERROR_DRM_RESOURCE_BUSY if there are insufficent resources available * to open a session, ERROR_DRM_CANNOT_HANDLE if the requested security * level is higher than the native level or lower than the lowest * supported level or if openSession is not supported at the time of * the call, or ERROR_DRM_INVALID_STATE if the HAL is in a state where * a session cannot be opened. * @param level the requested security level * @return sessionId the session ID for the newly opened session */ openSession_1_1(SecurityLevel securityLevel) generates (Status status, SessionId sessionId); /** * A key request/response exchange occurs between the app and a License * Server to obtain the keys required to decrypt the content. * getKeyRequest_1_1() is used to obtain an opaque key request blob that is * delivered to the license server. * * getKeyRequest_1_1() only differs from getKeyRequest() in that additional * values are returned in 1.1::KeyRequestType as compared to * 1.0::KeyRequestType * * @param scope may be a sessionId or a keySetId, depending on the * specified keyType. When the keyType is OFFLINE or STREAMING, * scope should be set to the sessionId the keys will be provided * to. When the keyType is RELEASE, scope should be set to the * keySetId of the keys being released. * @param initData 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 to generate the key request. initData may be empty * when keyType is RELEASE. * @param mimeType identifies the mime type of the content * @param keyType specifies if the keys are to be used for streaming, * offline or a release * @param optionalParameters included in the key request message to * allow a client application to provide additional message * parameters to the server. * @return status the status of the call. The status must be OK or one of * the following errors: ERROR_DRM_SESSION_NOT_OPENED if the * session is not opened, ERROR_DRM_NOT_PROVISIONED if the device * requires provisioning before it can generate a key request, * ERROR_DRM_CANNOT_HANDLE if getKeyRequest is not supported * at the time of the call, BAD_VALUE if any parameters are * invalid or ERROR_DRM_INVALID_STATE if the HAL is in a * state where a key request cannot be generated. * @return request if successful, the opaque key request blob is returned * @return requestType indicates type information about the returned * request. The type may be one of INITIAL, RENEWAL, RELEASE, * NONE or UPDATE. An INITIAL request is the first key request * for a license. RENEWAL is a subsequent key request used to * refresh the keys in a license. RELEASE corresponds to a * keyType of RELEASE, which indicates keys are being released. * NONE indicates that no request is needed because the keys are * already loaded. UPDATE indicates that the keys need to be * refetched after the initial license request. * @return defaultUrl the URL that the request may be sent to, if * provided by the drm HAL. The app may choose to override this URL. */ getKeyRequest_1_1(vec scope, vec initData, string mimeType, KeyType keyType, KeyedVector optionalParameters) generates (Status status, vec request, KeyRequestType requestType, string defaultUrl); /** * Return the currently negotiated and max supported HDCP levels. * * The current level is based on the display(s) the device is connected to. * If multiple HDCP-capable displays are simultaneously connected to * separate interfaces, this method returns the lowest negotiated HDCP level * of all interfaces. * * The maximum HDCP level is the highest level that can potentially be * negotiated. It is a constant for any device, i.e. it does not depend on * downstream receiving devices that could be connected. For example, if * the device has HDCP 1.x keys and is capable of negotiating HDCP 1.x, but * does not have HDCP 2.x keys, then the maximum HDCP capability would be * reported as 1.x. If multiple HDCP-capable interfaces are present, it * indicates the highest of the maximum HDCP levels 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 status the status of the call. The status must be OK or * ERROR_DRM_INVALID_STATE if the HAL is in a state where the HDCP * level cannot be queried. * @return connectedLevel the lowest HDCP level for any connected * displays * @return maxLevel the highest HDCP level that can be supported * by the device */ getHdcpLevels() generates (Status status, HdcpLevel connectedLevel, HdcpLevel maxLevel); /** * Return the current number of open sessions and the maximum number of * sessions that may be opened simultaneosly among all DRM instances for the * active DRM scheme. * * @return status the status of the call. The status must be OK or * ERROR_DRM_INVALID_STATE if the HAL is in a state where number of * sessions cannot be queried. * @return currentSessions the number of currently opened sessions * @return maxSessions the maximum number of sessions that the device * can support */ getNumberOfSessions() generates (Status status, uint32_t currentSessions, uint32_t maxSessions); /** * 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. * * @param sessionId the session id the call applies to * @return status the status of the call. The status must be OK or one of * the following errors: ERROR_DRM_SESSION_NOT_OPENED if the * session is not opened, BAD_VALUE if the sessionId is invalid or * ERROR_DRM_INVALID_STATE if the HAL is in a state where the * security level cannot be queried. * @return level the current security level for the session */ getSecurityLevel(vec sessionId) generates(Status status, SecurityLevel level); /** * Returns the plugin-specific metrics. Multiple metric groups may be * returned in one call to getMetrics(). The scope and definition of the * metrics is defined by the plugin. * * @return status the status of the call. The status must be OK or * ERROR_DRM_INVALID_STATE if the metrics are not available to be * returned. * @return metric_groups the collection of metric groups provided by the * plugin. */ getMetrics() generates (Status status, vec metric_groups); /** * Get the IDs of all secure stops on the device * * @return status the status of the call. The status must be OK or * ERROR_DRM_INVALID_STATE if the HAL is in a state where the secure stop * IDs cannot be returned. * @return secureStopIds a list of the IDs */ getSecureStopIds() generates (Status status, vec secureStopIds); /** * Release secure stops given a release message from the key server * * @param ssRelease the secure stop release message identifying one or more * secure stops to release. ssRelease is opaque, it is passed directly from * a DRM license server through the app and media framework to the vendor * HAL module. The format and content of ssRelease must be defined by the * DRM scheme being implemented according to this HAL. The DRM scheme * can be identified by its UUID which can be queried using * IDrmFactory::isCryptoSchemeSupported. * * @return status the status of the call. The status must be OK or one of * the following errors: BAD_VALUE if ssRelease is invalid or * ERROR_DRM_INVALID_STATE if the HAL is in a state where the secure stop * cannot be released. */ releaseSecureStops(SecureStopRelease ssRelease) generates (Status status); /** * Remove a secure stop given its secure stop ID, without requiring * a secure stop release response message from the key server. * * @param secureStopId the ID of the secure stop to release. * * @return status the status of the call. The status must be OK or one of * the following errors: BAD_VALUE if the secureStopId is invalid or * ERROR_DRM_INVALID_STATE if the HAL is in a state where the secure stop * cannot be released. */ removeSecureStop(SecureStopId secureStopId) generates (Status status); /** * Remove all secure stops on the device without requiring a secure * stop release response message from the key server. * * @return status the status of the call. The status must be OK or * ERROR_DRM_INVALID_STATE if the HAL is in a state where the secure * stops cannot be removed. */ removeAllSecureStops() generates (Status status); };