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/*
* Copyright (C) 2019 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.tv.tuner@1.0;
import IFrontendCallback;
import ILnb;
/**
* A Tuner Frontend is used to tune to a frequency and lock signal.
*
* IFrontend provides a bit stream to the Tuner Demux interface.
*/
interface IFrontend {
/**
* Set the frontend callback.
*
* IFrontendCallback is used by the client to receive events from the Frontend.
* Only one callback per IFrontend instance is supported. The callback
* will be replaced if it's set again.
*
* @param callback Callback object to pass Frontend events to the system.
* The previously registered callback must be replaced with this one.
* It can be null.
* @return result Result status of the operation.
* SUCCESS if successful,
* INVALID_STATE if callback can't be set at current stage,
* UNKNOWN_ERROR if callback setting failed for other reasons.
*/
setCallback(IFrontendCallback callback) generates (Result result);
/**
* Tunes the frontend to using the settings given.
*
* This locks the frontend to a frequency by providing signal
* delivery information. If previous tuning isn't completed, this call MUST
* stop previous tuning, and start a new tuning.
* Tune is an async call, with LOCKED or NO_SIGNAL events sent via callback.
*
* @param settings Signal delivery information the frontend uses to
* search and lock the signal.
*
* @return result Result status of the operation.
* SUCCESS if successful,
* INVALID_STATE if tuning can't be applied at current stage,
* UNKNOWN_ERROR if tuning failed for other reasons.
*/
tune(FrontendSettings settings) generates (Result result);
/**
* Stops a previous tuning.
*
* If the method completes successfully the frontend is no longer tuned and no data
* will be sent to attached demuxes.
*
* @return result Result status of the operation.
* SUCCESS if successfully stop tuning.
* UNKNOWN_ERROR if failed for other reasons.
*/
stopTune() generates (Result result);
/**
* Releases the Frontend instance
*
* Associated resources are released. close may be called more than once.
* Calls to any other method after this will return an error
*
* @return result Result status of the operation.
* SUCCESS if successful,
* UNKNOWN_ERROR if failed for other reasons.
*/
close() generates (Result result);
/**
* Scan the frontend to use the settings given.
*
* This uses the frontend to start a scan from signal delivery information.
* If previous scan isn't completed, this call MUST stop previous scan,
* and start a new scan.
* Scan is an async call, with FrontendScanMessage sent via callback.
*
* @param settings Signal delivery information which the frontend uses to
* scan the signal.
* @param type the type which the frontend uses to scan the signal.
*
* @return result Result status of the operation.
* SUCCESS if successful,
* INVALID_STATE if tuning can't be applied at current stage,
* UNKNOWN_ERROR if tuning failed for other reasons.
*/
scan(FrontendSettings settings, FrontendScanType type) generates (Result result);
/**
* Stops a previous scanning.
*
* If the method completes successfully, the frontend stop previous
* scanning.
*
* @return result Result status of the operation.
* SUCCESS if successfully stop tuning.
* UNKNOWN_ERROR if failed for other reasons.
*/
stopScan() generates (Result result);
/**
* Gets the statuses of the frontend.
*
* This retrieve the statuses of the frontend for given status types.
*
* @param statusTypes an array of status type which the caller request.
*
* @return result Result status of the operation.
* SUCCESS if successful,
* INVALID_STATE if tuning can't be applied at current stage,
* UNKNOWN_ERROR if tuning failed for other reasons.
* @return statuses an array of statuses which response the caller's
* request.
*/
getStatus(vec<FrontendStatusType> statusTypes)
generates (Result result, vec<FrontendStatus> statuses);
/**
* Sets Low-Noise Block downconverter (LNB) for satellite frontend.
*
* This assigns a hardware LNB resource to the satellite frontend. It can be
* called multiple times to update LNB assignment. The LNB resource must be
* released when the frontend is closed.
*
* @param lnbId the Id of assigned LNB resource.
*
* @return result Result status of the operation.
* SUCCESS if successful,
* INVALID_STATE if the frontend can't be set with a LNB, such as
* cable frontend.
* UNKNOWN_ERROR if failed for other reasons.
*/
setLnb(LnbId lnbId) generates (Result result);
/**
* Enable or Disable Low Noise Amplifier (LNA).
*
* @param bEnable true if activate LNA module; false if deactivate LNA
*
* @return result Result status of the operation.
* SUCCESS if successful,
* INVALID_STATE if the frontend doesn't support LNA.
* UNKNOWN_ERROR if failed for other reasons.
*/
setLna(bool bEnable) generates (Result result);
};