/* 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.broadcastradio@2.0; interface ITunerSession { /** * Tune to a specified program. * * Automatically cancels pending tune(), scan() or step(). * If the method returns OK, tuneFailed or currentProgramInfoChanged * callback must be called. * * @param program Program to tune to. * @return result OK if successfully started tuning. * NOT_SUPPORTED if the program selector doesn't contain any * supported identifier. * INVALID_ARGUMENTS if the program selector contains * identifiers in invalid format (i.e. out of range). */ tune(ProgramSelector program) generates (Result result); /** * Tune (seek) to the next valid program on the "air". * * This might more naturally be called "seek" but for legacy reasons, the * entry point remains "scan". This should not be confused with the actual * scan operation (where the radio seeks through programs in a loop until * user chooses to stay on one of them) nor background scan operation (that * a tuner may do in order to locate all available programs. This function * is meant to advance to the next detected program and stay there. * * Automatically cancels pending tune(), scan() or step(). * If the method returns OK, tuneFailed or currentProgramInfoChanged * callback must be called. * * The skipSubChannel parameter is used to skip digital radio subchannels: * - HD Radio SPS; * - DAB secondary service. * * As an implementation detail, the HAL has the option to perform an actual * seek or select the next program from the list retrieved in the * background, if one is not stale. * * @param directionUp True to change towards higher numeric values * (frequency, channel number), false towards lower. * @param skipSubChannel Don't tune to subchannels. * @return result OK if the operation has successfully started. */ scan(bool directionUp, bool skipSubChannel) generates (Result result); /** * Tune to the adjacent channel, which may not be occupied by any program. * * Automatically cancels pending tune(), scan() or step(). * If the method returns OK, tuneFailed or currentProgramInfoChanged * callback must be called. * * @param directionUp True to change towards higher numeric values * (frequency, channel number), false towards lower. * @return result OK successfully started tuning. * NOT_SUPPORTED if tuning to an unoccupied channel is not * supported (i.e. for satellite radio). */ step(bool directionUp) generates (Result result); /** * Cancel a pending tune(), scan() or step(). * * If there is no such operation running, the call must be ignored. */ cancel(); /** * Applies a filter to the program list and starts sending program list * updates over onProgramListUpdated callback. * * There may be only one updates stream active at the moment. Calling this * method again must result in cancelling the previous update request. * * This call clears the program list on the client side, the HAL must send * the whole list again. * * If the program list scanning hardware (i.e. background tuner) is * unavailable at the moment, the call must succeed and start updates * when it becomes available. * * @param filter Filter to apply on the fetched program list. * @return result OK successfully started fetching list updates. * NOT_SUPPORTED program list scanning is not supported * by the hardware. */ startProgramListUpdates(ProgramFilter filter) generates (Result result); /** * Stops sending program list updates. */ stopProgramListUpdates(); /** * Fetches the current setting of a given config flag. * * The success/failure result must be consistent with setConfigFlag. * * @param flag Flag to fetch. * @return result OK successfully fetched the flag. * INVALID_STATE if the flag is not applicable right now. * NOT_SUPPORTED if the flag is not supported at all. * @return value The current value of the flag, if result is OK. */ isConfigFlagSet(ConfigFlag flag) generates (Result result, bool value); /** * Sets the config flag. * * The success/failure result must be consistent with isConfigFlagSet. * * @param flag Flag to set. * @param value The new value of a given flag. * @return result OK successfully set the flag. * INVALID_STATE if the flag is not applicable right now. * NOT_SUPPORTED if the flag is not supported at all. */ setConfigFlag(ConfigFlag flag, bool value) generates (Result result); /** * Generic method for setting vendor-specific parameter values. * The framework does not interpret the parameters, they are passed * in an opaque manner between a vendor application and HAL. * * Framework does not make any assumptions on the keys or values, other than * ones stated in VendorKeyValue documentation (a requirement of key * prefixes). * * For each pair in the result vector, the key must be one of the keys * contained in the input (possibly with wildcards expanded), and the value * must be a vendor-specific result status (i.e. the string "OK" or an error * code). The implementation may choose to return an empty vector, or only * return a status for a subset of the provided inputs, at its discretion. * * Application and HAL must not use keys with unknown prefix. In particular, * it must not place a key-value pair in results vector for unknown key from * parameters vector - instead, an unknown key should simply be ignored. * In other words, results vector may contain a subset of parameter keys * (however, the framework doesn't enforce a strict subset - the only * formal requirement is vendor domain prefix for keys). * * @param parameters Vendor-specific key-value pairs. * @return results Operation completion status for parameters being set. */ setParameters(vec parameters) generates (vec results); /** * Generic method for retrieving vendor-specific parameter values. * The framework does not interpret the parameters, they are passed * in an opaque manner between a vendor application and HAL. * * Framework does not cache set/get requests, so it's allowed for * getParameter to return a different value than previous setParameter call. * * The syntax and semantics of keys are up to the vendor (as long as prefix * rules are obeyed). For instance, vendors may include some form of * wildcard support. In such case, result vector may be of different size * than requested keys vector. However, wildcards are not recognized by * framework and they are passed as-is to the HAL implementation. * * Unknown keys must be ignored and not placed into results vector. * * @param keys Parameter keys to fetch. * @return parameters Vendor-specific key-value pairs. */ getParameters(vec keys) generates (vec parameters); /** * Closes the session. * * The call must not fail and must only be issued once. * * After the close call is executed, no other calls to this interface * are allowed. */ close(); };