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/*
* Copyright (C) 2015 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.
*/
#ifndef ANDROID_RADIO_H
#define ANDROID_RADIO_H
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <sys/cdefs.h>
#include <sys/types.h>
#define RADIO_NUM_BANDS_MAX 16
#define RADIO_NUM_SPACINGS_MAX 16
#define RADIO_STRING_LEN_MAX 128
/*
* Radio hardware module class. A given radio hardware module HAL is of one class
* only. The platform can not have more than one hardware module of each class.
* Current version of the framework only supports RADIO_CLASS_AM_FM.
*/
typedef enum {
RADIO_CLASS_AM_FM = 0, /* FM (including HD radio) and AM */
RADIO_CLASS_SAT = 1, /* Satellite Radio */
RADIO_CLASS_DT = 2, /* Digital Radio (DAB) */
} radio_class_t;
/* value for field "type" of radio band described in struct radio_hal_band_config */
typedef enum {
RADIO_BAND_AM = 0, /* Amplitude Modulation band: LW, MW, SW */
RADIO_BAND_FM = 1, /* Frequency Modulation band: FM */
RADIO_BAND_FM_HD = 2, /* FM HD Radio / DRM (IBOC) */
RADIO_BAND_AM_HD = 3, /* AM HD Radio / DRM (IBOC) */
} radio_band_t;
/* RDS variant implemented. A struct radio_hal_fm_band_config can list none or several. */
enum {
RADIO_RDS_NONE = 0x0,
RADIO_RDS_WORLD = 0x01,
RADIO_RDS_US = 0x02,
};
typedef unsigned int radio_rds_t;
/* FM deemphasis variant implemented. A struct radio_hal_fm_band_config can list one or more. */
enum {
RADIO_DEEMPHASIS_50 = 0x1,
RADIO_DEEMPHASIS_75 = 0x2,
};
typedef unsigned int radio_deemphasis_t;
/* Region a particular radio band configuration corresponds to. Not used at the HAL.
* Derived by the framework when converting the band descriptors retrieved from the HAL to
* individual band descriptors for each supported region. */
typedef enum {
RADIO_REGION_NONE = -1,
RADIO_REGION_ITU_1 = 0,
RADIO_REGION_ITU_2 = 1,
RADIO_REGION_OIRT = 2,
RADIO_REGION_JAPAN = 3,
RADIO_REGION_KOREA = 4,
} radio_region_t;
/* scanning direction for scan() and step() tuner APIs */
typedef enum {
RADIO_DIRECTION_UP,
RADIO_DIRECTION_DOWN
} radio_direction_t;
/* unique handle allocated to a radio module */
typedef unsigned int radio_handle_t;
/* Opaque meta data structure used by radio meta data API (see system/radio_metadata.h) */
typedef struct radio_metadata radio_metadata_t;
/* Additional attributes for an FM band configuration */
typedef struct radio_hal_fm_band_config {
radio_deemphasis_t deemphasis; /* deemphasis variant */
bool stereo; /* stereo supported */
radio_rds_t rds; /* RDS variants supported */
bool ta; /* Traffic Announcement supported */
bool af; /* Alternate Frequency supported */
bool ea; /* Emergency announcements supported */
} radio_hal_fm_band_config_t;
/* Additional attributes for an AM band configuration */
typedef struct radio_hal_am_band_config {
bool stereo; /* stereo supported */
} radio_hal_am_band_config_t;
/* Radio band configuration. Describes a given band supported by the radio module.
* The HAL can expose only one band per type with the the maximum range supported and all options.
* THe framework will derive the actual regions were this module can operate and expose separate
* band configurations for applications to chose from. */
typedef struct radio_hal_band_config {
radio_band_t type;
bool antenna_connected;
unsigned int lower_limit;
unsigned int upper_limit;
unsigned int num_spacings;
unsigned int spacings[RADIO_NUM_SPACINGS_MAX];
union {
radio_hal_fm_band_config_t fm;
radio_hal_am_band_config_t am;
};
} radio_hal_band_config_t;
/* Used internally by the framework to represent a band for s specific region */
typedef struct radio_band_config {
radio_region_t region;
radio_hal_band_config_t band;
} radio_band_config_t;
/* Exposes properties of a given hardware radio module.
* NOTE: current framework implementation supports only one audio source (num_audio_sources = 1).
* The source corresponds to AUDIO_DEVICE_IN_FM_TUNER.
* If more than one tuner is supported (num_tuners > 1), only one can be connected to the audio
* source. */
typedef struct radio_hal_properties {
radio_class_t class_id; /* Class of this module. E.g RADIO_CLASS_AM_FM */
char implementor[RADIO_STRING_LEN_MAX]; /* implementor name */
char product[RADIO_STRING_LEN_MAX]; /* product name */
char version[RADIO_STRING_LEN_MAX]; /* product version */
char serial[RADIO_STRING_LEN_MAX]; /* serial number (for subscription services) */
unsigned int num_tuners; /* number of tuners controllable independently */
unsigned int num_audio_sources; /* number of audio sources driven simultaneously */
bool supports_capture; /* the hardware supports capture of audio source audio HAL */
unsigned int num_bands; /* number of band descriptors */
radio_hal_band_config_t bands[RADIO_NUM_BANDS_MAX]; /* band descriptors */
} radio_hal_properties_t;
/* Used internally by the framework. Same information as in struct radio_hal_properties plus a
* unique handle and one band configuration per region. */
typedef struct radio_properties {
radio_handle_t handle;
radio_class_t class_id;
char implementor[RADIO_STRING_LEN_MAX];
char product[RADIO_STRING_LEN_MAX];
char version[RADIO_STRING_LEN_MAX];
char serial[RADIO_STRING_LEN_MAX];
unsigned int num_tuners;
unsigned int num_audio_sources;
bool supports_capture;
unsigned int num_bands;
radio_band_config_t bands[RADIO_NUM_BANDS_MAX];
} radio_properties_t;
/* Radio program information. Returned by the HAL with event RADIO_EVENT_TUNED.
* Contains information on currently tuned channel.
*/
typedef struct radio_program_info {
unsigned int channel; /* current channel. (e.g kHz for band type RADIO_BAND_FM) */
unsigned int sub_channel; /* current sub channel. (used for RADIO_BAND_FM_HD) */
bool tuned; /* tuned to a program or not */
bool stereo; /* program is stereo or not */
bool digital; /* digital program or not (e.g HD Radio program) */
unsigned int signal_strength; /* signal strength from 0 to 100 */
/* meta data (e.g PTY, song title ...), must not be NULL */
__attribute__((aligned(8))) radio_metadata_t *metadata;
} radio_program_info_t;
/* Events sent to the framework via the HAL callback. An event can notify the completion of an
* asynchronous command (configuration, tune, scan ...) or a spontaneous change (antenna connection,
* failure, AF switching, meta data reception... */
enum {
RADIO_EVENT_HW_FAILURE = 0, /* hardware module failure. Requires reopening the tuner */
RADIO_EVENT_CONFIG = 1, /* configuration change completed */
RADIO_EVENT_ANTENNA = 2, /* Antenna connected, disconnected */
RADIO_EVENT_TUNED = 3, /* tune, step, scan completed */
RADIO_EVENT_METADATA = 4, /* New meta data received */
RADIO_EVENT_TA = 5, /* Traffic announcement start or stop */
RADIO_EVENT_AF_SWITCH = 6, /* Switch to Alternate Frequency */
RADIO_EVENT_EA = 7, /* Emergency announcement start or stop */
// begin framework only events
RADIO_EVENT_CONTROL = 100, /* loss/gain of tuner control */
RADIO_EVENT_SERVER_DIED = 101, /* radio service died */
};
typedef unsigned int radio_event_type_t;
/* Event passed to the framework by the HAL callback */
typedef struct radio_hal_event {
radio_event_type_t type; /* event type */
int status; /* used by RADIO_EVENT_CONFIG, RADIO_EVENT_TUNED */
union {
/* RADIO_EVENT_ANTENNA, RADIO_EVENT_TA, RADIO_EVENT_EA */
bool on;
radio_hal_band_config_t config; /* RADIO_EVENT_CONFIG */
radio_program_info_t info; /* RADIO_EVENT_TUNED, RADIO_EVENT_AF_SWITCH */
radio_metadata_t *metadata; /* RADIO_EVENT_METADATA */
};
} radio_hal_event_t;
/* Used internally by the framework. Same information as in struct radio_hal_event */
typedef struct radio_event {
radio_event_type_t type;
int status;
union {
bool on;
radio_band_config_t config;
radio_program_info_t info;
radio_metadata_t *metadata; /* offset from start of struct when in shared memory */
};
} radio_event_t;
static inline
radio_rds_t radio_rds_for_region(bool rds, radio_region_t region) {
if (!rds)
return RADIO_RDS_NONE;
switch(region) {
case RADIO_REGION_ITU_1:
case RADIO_REGION_OIRT:
case RADIO_REGION_JAPAN:
case RADIO_REGION_KOREA:
return RADIO_RDS_WORLD;
case RADIO_REGION_ITU_2:
return RADIO_RDS_US;
default:
return RADIO_REGION_NONE;
}
}
static inline
radio_deemphasis_t radio_demephasis_for_region(radio_region_t region) {
switch(region) {
case RADIO_REGION_KOREA:
case RADIO_REGION_ITU_2:
return RADIO_DEEMPHASIS_75;
case RADIO_REGION_ITU_1:
case RADIO_REGION_OIRT:
case RADIO_REGION_JAPAN:
default:
return RADIO_DEEMPHASIS_50;
}
}
#endif // ANDROID_RADIO_H