/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2007 Michael Sevakis * * 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 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "system.h" #include "thread.h" #include "logf.h" #include "voice_thread.h" #include "talk.h" #include "dsp.h" #include "audio.h" #include "playback.h" #include "pcmbuf.h" #include "codecs/libspeex/speex/speex.h" /* Define any of these as "1" to log regular and/or timeout messages */ #define VOICE_LOGQUEUES 0 #define VOICE_LOGQUEUES_SYS_TIMEOUT 0 #if VOICE_LOGQUEUES #define LOGFQUEUE logf #else #define LOGFQUEUE(...) #endif #if VOICE_LOGQUEUES_SYS_TIMEOUT #define LOGFQUEUE_SYS_TIMEOUT logf #else #define LOGFQUEUE_SYS_TIMEOUT(...) #endif #ifndef IBSS_ATTR_VOICE_STACK #define IBSS_ATTR_VOICE_STACK IBSS_ATTR #endif #define VOICE_FRAME_SIZE 320 /* Samples / frame */ #define VOICE_SAMPLE_RATE 16000 /* Sample rate in HZ */ #define VOICE_SAMPLE_DEPTH 16 /* Sample depth in bits */ /* Voice thread variables */ static unsigned int voice_thread_id = 0; static long voice_stack[0x7c0/sizeof(long)] IBSS_ATTR_VOICE_STACK; static const char voice_thread_name[] = "voice"; /* Voice thread synchronization objects */ static struct event_queue voice_queue SHAREDBSS_ATTR; static struct mutex voice_mutex SHAREDBSS_ATTR; static struct queue_sender_list voice_queue_sender_list SHAREDBSS_ATTR; static bool voice_done SHAREDDATA_ATTR = true; /* Buffer for decoded samples */ static spx_int16_t voice_output_buf[VOICE_FRAME_SIZE] CACHEALIGN_ATTR; enum voice_thread_states { TSTATE_STOPPED = 0, /* Voice thread is stopped and awaiting commands */ TSTATE_DECODE, /* Voice is decoding a clip */ TSTATE_BUFFER_INSERT, /* Voice is sending decoded audio to PCM */ }; enum voice_thread_messages { Q_VOICE_NULL = 0, /* A message for thread sync - no effect on state */ Q_VOICE_PLAY, /* Play a clip */ Q_VOICE_STOP, /* Stop current clip */ Q_VOICE_STATE, /* Query playing state */ }; /* Structure to store clip data callback info */ struct voice_info { pcm_more_callback_type get_more; /* Callback to get more clips */ unsigned char *start; /* Start of clip */ size_t size; /* Size of clip */ }; /* Private thread data for its current state that must be passed to its * internal functions */ struct voice_thread_data { int state; /* Thread state (TSTATE_*) */ struct queue_event ev; /* Last queue event pulled from queue */ void *st; /* Decoder instance */ SpeexBits bits; /* Bit cursor */ struct dsp_config *dsp; /* DSP used for voice output */ struct voice_info vi; /* Copy of clip data */ const char *src[2]; /* Current output buffer pointers */ int lookahead; /* Number of samples to drop at start of clip */ int count; /* Count of samples remaining to send to PCM */ }; /* Audio playback is in a playing state? */ static inline bool playback_is_playing(void) { return (audio_status() & AUDIO_STATUS_PLAY) != 0; } /* Stop any current clip and start playing a new one */ void mp3_play_data(const unsigned char* start, int size, pcm_more_callback_type get_more) { /* Shared struct to get data to the thread - once it replies, it has * safely cached it in its own private data */ static struct voice_info voice_clip SHAREDBSS_ATTR; if (get_more != NULL && start != NULL && (ssize_t)size > 0) { mutex_lock(&voice_mutex); voice_clip.get_more = get_more; voice_clip.start = (unsigned char *)start; voice_clip.size = size; LOGFQUEUE("mp3 >| voice Q_VOICE_PLAY"); queue_send(&voice_queue, Q_VOICE_PLAY, (intptr_t)&voice_clip); mutex_unlock(&voice_mutex); } } /* Stop current voice clip from playing */ void mp3_play_stop(void) { if(!audio_is_thread_ready()) return; mutex_lock(&voice_mutex); /* Sync against voice_stop */ LOGFQUEUE("mp3 >| voice Q_VOICE_STOP: 1"); queue_send(&voice_queue, Q_VOICE_STOP, 1); mutex_unlock(&voice_mutex); } void mp3_play_pause(bool play) { /* a dummy */ (void)play; } /* Tell is voice is still in a playing state */ bool mp3_is_playing(void) { /* TODO: Implement a timeout or state query function for event objects */ LOGFQUEUE("mp3 >| voice Q_VOICE_STATE"); int state = queue_send(&voice_queue, Q_VOICE_STATE, 0); return state != TSTATE_STOPPED; } /* This function is meant to be used by the buffer request functions to ensure the codec is no longer active */ void voice_stop(void) { mutex_lock(&voice_mutex); /* Stop the output and current clip */ mp3_play_stop(); /* Careful if using sync objects in talk.c - make sure locking order is * observed with one or the other always granted first */ /* Unqueue all future clips */ talk_force_shutup(); /* Wait for any final queue_post to be processed */ LOGFQUEUE("mp3 >| voice Q_VOICE_NULL"); queue_send(&voice_queue, Q_VOICE_NULL, 0); mutex_unlock(&voice_mutex); } /* voice_stop */ /* Wait for voice to finish speaking. */ void voice_wait(void) { /* NOTE: One problem here is that we can't tell if another thread started a * new clip by the time we wait. This should be resolvable if conditions * ever require knowing the very clip you requested has finished. */ /* Wait for PCM buffer to be exhausted. Works only if not playing. */ while(!voice_done || (!playback_is_playing() && pcm_is_playing())) sleep(1); } /* Initialize voice thread data that must be valid upon starting and the * setup the DSP parameters */ static void voice_data_init(struct voice_thread_data *td) { td->state = TSTATE_STOPPED; td->dsp = (struct dsp_config *)dsp_configure(NULL, DSP_MYDSP, CODEC_IDX_VOICE); dsp_configure(td->dsp, DSP_RESET, 0); dsp_configure(td->dsp, DSP_SET_FREQUENCY, VOICE_SAMPLE_RATE); dsp_configure(td->dsp, DSP_SET_SAMPLE_DEPTH, VOICE_SAMPLE_DEPTH); dsp_configure(td->dsp, DSP_SET_STEREO_MODE, STEREO_MONO); } /* Voice thread message processing */ static void voice_message(struct voice_thread_data *td) { while (1) { switch (td->ev.id) { case Q_VOICE_PLAY: LOGFQUEUE("voice < Q_VOICE_PLAY"); /* Put up a block for completion signal */ voice_done = false; /* Copy the clip info */ td->vi = *(struct voice_info *)td->ev.data; /* Be sure audio buffer is initialized */ audio_restore_playback(AUDIO_WANT_VOICE); /* We need nothing more from the sending thread - let it run */ queue_reply(&voice_queue, 1); if (td->state == TSTATE_STOPPED) { /* Boost CPU now */ trigger_cpu_boost(); } else if (!playback_is_playing()) { /* Just voice, stop any clip still playing */ pcmbuf_play_stop(); } /* Clean-start the decoder */ td->st = speex_decoder_init(&speex_wb_mode); /* Make bit buffer use our own buffer */ speex_bits_set_bit_buffer(&td->bits, td->vi.start, td->vi.size); speex_decoder_ctl(td->st, SPEEX_GET_LOOKAHEAD, &td->lookahead); td->state = TSTATE_DECODE; return; case Q_VOICE_STOP: LOGFQUEUE("voice < Q_VOICE_STOP: %d", ev.data); if (td->ev.data != 0 && !playback_is_playing()) { /* If not playing, it's just voice so stop pcm playback */ pcmbuf_play_stop(); } /* Cancel boost */ cancel_cpu_boost(); td->state = TSTATE_STOPPED; voice_done = true; break; case Q_VOICE_STATE: LOGFQUEUE("voice < Q_VOICE_STATE"); queue_reply(&voice_queue, td->state); if (td->state == TSTATE_STOPPED) break; /* Not in a playback state */ return; default: /* Default messages get a reply and thread continues with no * state transition */ LOGFQUEUE("voice < default"); if (td->state == TSTATE_STOPPED) break; /* Not in playback state */ queue_reply(&voice_queue, 0); return; } queue_wait(&voice_queue, &td->ev); } } /* Voice thread entrypoint */ static void voice_thread(void) { struct voice_thread_data td; voice_data_init(&td); /* audio thread will only set this once after it finished the final * audio hardware init so this little construct is safe - even * cross-core. */ while (!audio_is_thread_ready()) sleep(0); goto message_wait; while (1) { td.state = TSTATE_DECODE; if (!queue_empty(&voice_queue)) { message_wait: queue_wait(&voice_queue, &td.ev); message_process: voice_message(&td); /* Branch to initial start point or branch back to previous * operation if interrupted by a message */ switch (td.state) { case TSTATE_DECODE: goto voice_decode; case TSTATE_BUFFER_INSERT: goto buffer_insert; default: goto message_wait; } } voice_decode: /* Decode the data */ if (speex_decode_int(td.st, &td.bits, voice_output_buf) < 0) { /* End of stream or error - get next clip */ td.vi.size = 0; if (td.vi.get_more != NULL) td.vi.get_more(&td.vi.start, &td.vi.size); if (td.vi.start != NULL && (ssize_t)td.vi.size > 0) { /* Make bit buffer use our own buffer */ speex_bits_set_bit_buffer(&td.bits, td.vi.start, td.vi.size); /* Don't skip any samples when we're stringing clips together */ td.lookahead = 0; /* Paranoid check - be sure never to somehow get stuck in a * loop without listening to the queue */ yield(); if (!queue_empty(&voice_queue)) goto message_wait; else goto voice_decode; } /* If all clips are done and not playing, force pcm playback. */ if (!pcm_is_playing()) pcmbuf_play_start(); /* Synthesize a stop request */ /* NOTE: We have no way to know when the pcm data placed in the * buffer is actually consumed and playback has reached the end * so until the info is available or inferred somehow, this will * not be accurate and the stopped signal will come too soon. * ie. You may not hear the "Shutting Down" splash even though * it waits for voice to stop. */ td.ev.id = Q_VOICE_STOP; td.ev.data = 0; /* Let PCM drain by itself */ yield(); goto message_process; } yield(); /* Output the decoded frame */ td.count = VOICE_FRAME_SIZE - td.lookahead; td.src[0] = (const char *)&voice_output_buf[td.lookahead]; td.src[1] = NULL; td.lookahead -= MIN(VOICE_FRAME_SIZE, td.lookahead); buffer_insert: /* Process the PCM samples in the DSP and send out for mixing */ td.state = TSTATE_BUFFER_INSERT; while (td.count > 0) { int out_count = dsp_output_count(td.dsp, td.count); int inp_count; char *dest; while (1) { if (!queue_empty(&voice_queue)) goto message_wait; if ((dest = pcmbuf_request_voice_buffer(&out_count)) != NULL) break; yield(); } /* Get the real input_size for output_size bytes, guarding * against resampling buffer overflows. */ inp_count = dsp_input_count(td.dsp, out_count); if (inp_count <= 0) break; /* Input size has grown, no error, just don't write more than * length */ if (inp_count > td.count) inp_count = td.count; out_count = dsp_process(td.dsp, dest, td.src, inp_count); if (out_count <= 0) break; pcmbuf_write_voice_complete(out_count); td.count -= inp_count; } yield(); } /* end while */ } /* voice_thread */ /* Initialize all synchronization objects create the thread */ void voice_thread_init(void) { logf("Starting voice thread"); queue_init(&voice_queue, false); mutex_init(&voice_mutex); voice_thread_id = create_thread(voice_thread, voice_stack, sizeof(voice_stack), CREATE_THREAD_FROZEN, voice_thread_name IF_PRIO(, PRIORITY_PLAYBACK) IF_COP(, CPU)); queue_enable_queue_send(&voice_queue, &voice_queue_sender_list, voice_thread_id); } /* voice_thread_init */ /* Unfreeze the voice thread */ void voice_thread_resume(void) { logf("Thawing voice thread"); thread_thaw(voice_thread_id); } #ifdef HAVE_PRIORITY_SCHEDULING /* Set the voice thread priority */ void voice_thread_set_priority(int priority) { thread_set_priority(voice_thread_id, priority); } #endif