/*
* Copyright (C) 2015 "IoT.bzh"
* Author "Manuel Bachmann"
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#define _GNU_SOURCE
#include
#include "audio-api.h"
#include "audio-alsa.h"
#ifdef HAVE_PULSE
#include "audio-pulse.h"
#endif
#include "afb-plugin.h"
#include "afb-req-itf.h"
/* ------ BACKEND FUNCTIONS ------- */
void _backend_init (const char *name, audioCtxHandleT *ctx) {
char *backend_env = getenv ("AFB_AUDIO_OUTPUT");
unsigned char res = 0;
# ifdef HAVE_PULSE
if (!backend_env || (strcasecmp (backend_env, "Pulse") == 0))
res = _pulse_init (name, ctx);
if (!res)
#endif
res = _alsa_init (name, ctx);
if (!res && verbose)
fprintf (stderr, "Could not initialize Audio backend\n");
}
void _backend_free (audioCtxHandleT *ctx) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) _pulse_free (ctx); else
# endif
_alsa_free (ctx->name);
}
void _backend_play (audioCtxHandleT *ctx) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) _pulse_play (ctx); else
# endif
_alsa_play (ctx->idx);
}
void _backend_stop (audioCtxHandleT *ctx) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) _pulse_stop (ctx); else
# endif
_alsa_stop (ctx->idx);
}
unsigned int _backend_get_volume (audioCtxHandleT *ctx, unsigned int channel) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) return _pulse_get_volume (ctx, channel); else
# endif
return _alsa_get_volume (ctx->idx, channel);
}
void _backend_set_volume (audioCtxHandleT *ctx, unsigned int channel, unsigned int vol) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) _pulse_set_volume (ctx, channel, vol); else
# endif
_alsa_set_volume (ctx->idx, channel, vol);
}
void _backend_set_volume_all (audioCtxHandleT *ctx, unsigned int vol) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) _pulse_set_volume_all (ctx, vol); else
# endif
_alsa_set_volume_all (ctx->idx, vol);
}
unsigned char _backend_get_mute (audioCtxHandleT *ctx) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) return _pulse_get_mute (ctx); else
# endif
return _alsa_get_mute (ctx->idx);
}
void _backend_set_mute (audioCtxHandleT *ctx, unsigned char mute) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) _pulse_set_mute (ctx, mute); else
# endif
_alsa_set_mute (ctx->idx, mute);
}
void _backend_set_channels (audioCtxHandleT *ctx, unsigned int channels) {
# ifdef HAVE_PULSE
if (ctx->audio_dev) return; else
# endif
_alsa_set_channels (ctx->idx, channels);
}
/* ------ LOCAL HELPER FUNCTIONS --------- */
/* private client context creation ; default values */
STATIC audioCtxHandleT* initAudioCtx () {
audioCtxHandleT *ctx;
int i;
ctx = malloc (sizeof(audioCtxHandleT));
ctx->audio_dev = NULL;
ctx->idx = -1;
for (i = 0; i < 8; i++)
ctx->volume[i] = 25;
ctx->channels = 2;
ctx->mute = 0;
ctx->is_playing = 0;
return ctx;
}
STATIC AFB_error releaseAudio (audioCtxHandleT *ctx) {
/* power it off */
_backend_free (ctx);
/* clean client context */
ctx->idx = -1;
return AFB_SUCCESS;
}
/* called when client session dies [e.g. client quits for more than 15mns] */
STATIC void freeAudio (void *context) {
free (context);
}
/* ------ PUBLIC PLUGIN FUNCTIONS --------- */
STATIC void init (struct afb_req request) { /* AFB_SESSION_CHECK */
json_object *jresp;
/* create a private client context */
if (!request.context)
request.context = initAudioCtx();
_backend_init("default", request.context);
jresp = json_object_new_object();
json_object_object_add (jresp, "info", json_object_new_string ("Audio initialized"));
afb_req_success (request, jresp, "Audio initiliazed");
}
STATIC void volume (struct afb_req request) { /* AFB_SESSION_CHECK */
audioCtxHandleT *ctx = (audioCtxHandleT*)request.context;
const char *value = afb_req_argument (request, "value");
json_object *jresp;
unsigned int volume[8], i;
char *volume_i;
char volume_str[256];
size_t len_str = 0;
/* no "?value=" parameter : return current state */
if (!value) {
for (i = 0; i < 8; i++) {
ctx->volume[i] = _backend_get_volume (ctx, i);
snprintf (volume_str+len_str, sizeof(volume_str)-len_str, "%d,", ctx->volume[i]);
len_str = strlen(volume_str);
}
jresp = json_object_new_object();
json_object_object_add (jresp, "volume", json_object_new_string(volume_str));
}
/* "?value=" parameter, set volume */
else {
volume_i = strdup (value);
volume_i = strtok (volume_i, ",");
volume[0] = (unsigned int) atoi (volume_i);
if (100 < volume[0]) {
free (volume_i);
//request.errcode = MHD_HTTP_SERVICE_UNAVAILABLE;
afb_req_fail (request, "Failed", "Volume must be between 0 and 100");
return;
}
ctx->volume[0] = volume[0];
_backend_set_volume (ctx, 0, ctx->volume[0]);
snprintf (volume_str, sizeof(volume_str), "%d,", ctx->volume[0]);
for (i = 1; i < 8; i++) {
volume_i = strtok (NULL, ",");
/* if there is only one value, set all channels to this one */
if (!volume_i && i == 1)
_backend_set_volume_all (ctx, ctx->volume[0]);
if (!volume_i || 100 < atoi(volume_i) || atoi(volume_i) < 0) {
ctx->volume[i] = _backend_get_volume (ctx, i);
} else {
ctx->volume[i] = (unsigned int) atoi(volume_i);
_backend_set_volume (ctx, i, ctx->volume[i]);
}
len_str = strlen(volume_str);
snprintf (volume_str+len_str, sizeof(volume_str)-len_str, "%d,", ctx->volume[i]);
}
jresp = json_object_new_object();
json_object_object_add (jresp, "volume", json_object_new_string(volume_str));
}
afb_req_success (request, jresp, "Audio - Volume changed");
}
STATIC void channels (struct afb_req request) { /* AFB_SESSION_CHECK */
audioCtxHandleT *ctx = (audioCtxHandleT*)request.context;
const char *value = afb_req_argument (request, "value");
json_object *jresp = json_object_new_object();
char channels_str[256];
/* no "?value=" parameter : return current state */
if (!value) {
snprintf (channels_str, sizeof(channels_str), "%d", ctx->channels);
json_object_object_add (jresp, "channels", json_object_new_string (channels_str));
}
/* "?value=" parameter, set channels */
else {
ctx->channels = (unsigned int) atoi (value);
_backend_set_channels (ctx, ctx->channels);
snprintf (channels_str, sizeof(channels_str), "%d", ctx->channels);
json_object_object_add (jresp, "channels", json_object_new_string (channels_str));
}
afb_req_success (request, jresp, "Audio - Channels set");
}
STATIC void mute (struct afb_req request) { /* AFB_SESSION_CHECK */
audioCtxHandleT *ctx = (audioCtxHandleT*)request.context;
const char *value = afb_req_argument (request, "value");
json_object *jresp = json_object_new_object();
/* no "?value=" parameter : return current state */
if (!value) {
ctx->mute = _backend_get_mute (ctx);
ctx->mute ?
json_object_object_add (jresp, "mute", json_object_new_string ("on"))
: json_object_object_add (jresp, "mute", json_object_new_string ("off"));
}
/* "?value=" parameter is "1" or "true" */
else if ( atoi(value) == 1 || !strcasecmp(value, "true") ) {
ctx->mute = 1;
_backend_set_mute (ctx, ctx->mute);
json_object_object_add (jresp, "mute", json_object_new_string ("on"));
}
/* "?value=" parameter is "0" or "false" */
else if ( atoi(value) == 0 || !strcasecmp(value, "false") ) {
ctx->mute = 0;
_backend_set_mute (ctx, ctx->mute);
json_object_object_add (jresp, "mute", json_object_new_string ("off"));
}
afb_req_success (request, jresp, "Audio - Mute set");
}
STATIC void play (struct afb_req request) { /* AFB_SESSION_CHECK */
audioCtxHandleT *ctx = (audioCtxHandleT*)request.context;
const char *value = afb_req_argument (request, "value");
json_object *jresp = json_object_new_object();
/* no "?value=" parameter : return current state */
if (!value) {
ctx->is_playing ?
json_object_object_add (jresp, "play", json_object_new_string ("on"))
: json_object_object_add (jresp, "play", json_object_new_string ("off"));
}
/* "?value=" parameter is "1" or "true" */
else if ( atoi(value) == 1 || !strcasecmp(value, "true") ) {
ctx->is_playing = 1;
_backend_play (ctx);
json_object_object_add (jresp, "play", json_object_new_string ("on"));
}
/* "?value=" parameter is "0" or "false" */
else if ( atoi(value) == 0 || !strcasecmp(value, "false") ) {
ctx->is_playing = 0;
_backend_stop (ctx);
json_object_object_add (jresp, "play", json_object_new_string ("off"));
}
afb_req_success (request, jresp, "Audio - Play");
}
STATIC void ping (struct afb_req request) { /* AFB_SESSION_NONE */
afb_req_success (request, NULL, "Audio - Ping success");
}
STATIC const struct AFB_restapi pluginApis[]= {
{"init" , AFB_SESSION_CHECK, init , "Audio API - init"},
{"volume" , AFB_SESSION_CHECK, volume , "Audio API - volume"},
{"channels", AFB_SESSION_CHECK, channels , "Audio API - channels"},
{"mute" , AFB_SESSION_CHECK, mute , "Audio API - mute"},
{"play" , AFB_SESSION_CHECK, play , "Audio API - play"},
{"ping" , AFB_SESSION_NONE, ping , "Audio API - ping"},
{NULL}
};
STATIC const struct AFB_plugin plug_desc = {
.type = AFB_PLUGIN_JSON,
.info = "Application Framework Binder - Audio plugin",
.prefix = "audio",
.apis = pluginApis
};