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recorder.c
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recorder.c
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/*
* Audio Coffin - A simple audio recorder/logger on top of Jack,
* libsndfile and libsoxr. Audior Recorder / Logger backend
*
* Copyright (C) 2016 Nick Kossifidis <[email protected]>
*
* 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
* 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 <http://www.gnu.org/licenses/>.
*/
#include "acoffin.h"
#include <stdlib.h> /* For malloc/free */
#include <jack/thread.h> /* For thread handling through jack */
#include <pthread.h> /* For pthread mutex / conditional */
#include <string.h> /* For memcpy() */
#include <limits.h> /* For PATH_MAX */
#include <time.h> /* For clock_* functions */
#include <signal.h> /* For pthread_kill and signals */
#include <errno.h> /* For EINTR */
pthread_mutex_t consumer_process_mutex = PTHREAD_MUTEX_INITIALIZER;
pthread_cond_t consumer_process_trigger = PTHREAD_COND_INITIALIZER;
volatile sig_atomic_t recorder_state = RECORDER_NOT_INITIALIZED;
static volatile sig_atomic_t consumer_active = 0;
static volatile sig_atomic_t timer_active = 0;
/*********\
* HELPERS *
\*********/
/**
* Initializes and opens a new file for writing
*/
static SNDFILE *
recorder_open_new_file(struct recorder *rcd)
{
int ret = 0;
time_t curr_time = 0;
struct tm *curr_time_info = { 0 };
char date_time[26] = { 0 };
char filepath[PATH_MAX] = { 0 };
SNDFILE *out = NULL;
char *opmode = (rcd->opmode == RECORDER_LOGGER) ? "Log" : "Live";
char *chan_mode = (rcd->stereo) ? "stereo" : "mono";
char *ext = (rcd->format == RECORDER_FORMAT_FLAC) ? "flac" : "ogg";
/* Create file name based on current date and time */
memset(filepath, 0, PATH_MAX * sizeof(char));
time(&curr_time);
curr_time_info = localtime(&curr_time);
strftime(date_time, 26, "[%F]-[%T]", curr_time_info);
snprintf(filepath, PATH_MAX, "%s/%s-%s-(%s).%s", rcd->storage_path,
opmode, date_time, chan_mode, ext);
/* Open file with libsndfile for writing */
out = sf_open(filepath, SFM_WRITE, &rcd->info);
if (!out) {
perror("cannot open file for writing");
ret = RECORDER_SNDFILE_ERR;
goto cleanup;
}
ret = sf_command(out, SFC_SET_VBR_ENCODING_QUALITY,
&rcd->quality, sizeof(double));
if (ret != SF_TRUE) {
ret = RECORDER_SNDFILE_ERR;
goto cleanup;
}
ret = sf_command(out, SFC_SET_COMPRESSION_LEVEL,
&rcd->comp_level, sizeof(double));
if (ret != SF_TRUE) {
ret = RECORDER_SNDFILE_ERR;
goto cleanup;
}
cleanup:
if (ret < 0) {
sf_close(out);
out = NULL;
}
return out;
}
/**
* Closes the current active file pointed by rcd->out
*/
static void
recorder_close_file(struct recorder *rcd)
{
if (rcd->out) {
sf_close(rcd->out);
rcd->out = NULL;
}
return;
}
/**
* Creates a new file for output and switches rcd->out to it
*/
static int
recorder_switch_file(struct recorder *rcd)
{
int ret = 0;
SNDFILE *new = NULL;
SNDFILE *old = rcd->out;
/* This function should not be called on
* state transitions. It's meant to be used
* for switching to a new file without messing
* with the recorder's state. */
if (recorder_state == RECORDER_TRANSITION)
return RECORDER_AGAIN;
/* This doesn't make sense, in order to switch
* to a new file a file should be already open
* and active */
if (recorder_state != RECORDER_RUNNING)
return RECORDER_AGAIN;
new = recorder_open_new_file(rcd);
if (!new)
return RECORDER_SNDFILE_ERR;
old = rcd->out;
/* New file opened, update the pointer on
* rcd->out */
pthread_mutex_lock(&consumer_process_mutex);
rcd->out = new;
pthread_mutex_unlock(&consumer_process_mutex);
/* Close the previous one */
sf_close(old);
/* Reset the timer */
rcd->secs_recorded = 0;
rcd->rotations++;
return 0;
}
/***********************\
* GUI CALLBACK WRAPPERS *
\***********************/
/* GUI changes should be done on the main thread, so run these
* through g_main_context_invoke */
static void
recorder_update_gui_timer_label(struct recorder *rcd)
{
if (gui_state != GUI_READY)
return;
g_main_context_invoke(NULL, gui_update_timer_label, (gpointer) rcd);
return;
}
static void
recorder_update_gui_button_state(struct recorder *rcd, int state)
{
if (gui_state != GUI_READY)
return;
button_state = state;
g_main_context_invoke(NULL, gui_update_button_state, (gpointer) rcd);
return;
}
static void
recorder_update_gui_meters(struct recorder *rcd, float left_amp,
float right_amp)
{
if (gui_state != GUI_READY)
return;
rcd->left_amp = left_amp;
rcd->right_amp = right_amp;
g_main_context_invoke(NULL, gui_update_meters, (gpointer) rcd);
return;
}
static void
recorder_cleanup_gui(struct recorder *rcd)
{
if (gui_state != GUI_READY)
return;
g_main_context_invoke(NULL, gui_cleanup, (gpointer) rcd);
return;
}
/**************\
* TIMER THREAD *
\**************/
/*
* Increases the timer by one second periodicaly, updates
* the GUI and switches output file in case we run on
* logger mode and the rotate interval has passed. Also
* handles the delayed stop time counting / triggering.
*/
static void *
recorder_timer_loop(void *arg)
{
struct recorder *rcd = (struct recorder *)arg;
int ret = 0;
struct timespec tv = { 0 };
/* Reset timer value */
rcd->secs_recorded = 0;
clock_gettime(CLOCK_MONOTONIC, &tv);
timer_active = 1;
while (timer_active) {
tv.tv_sec++;
if (!rcd->headless) {
if (recorder_state == RECORDER_RUNNING)
recorder_update_gui_timer_label(rcd);
if (recorder_state == RECORDER_DELAYED_STOP &&
rcd->secs_recorded >= RECORDER_STOP_DELAY_SECS)
break;
}
if ((rcd->opmode == RECORDER_LOGGER) &&
(rcd->secs_recorded >= rcd->logrotate_interval_secs)) {
ret = recorder_switch_file(rcd);
if (ret < 0)
break;
}
ret = clock_nanosleep(CLOCK_MONOTONIC, TIMER_ABSTIME,
&tv, NULL);
if (ret == EINTR) {
ret = 0;
break;
}
rcd->secs_recorded++;
}
timer_active = 0;
if (recorder_state == RECORDER_DELAYED_STOP || ret < 0)
recorder_stop(rcd);
return NULL;
}
/**
* Starts and stops the timer thread
*/
static int
recorder_set_timer_state(struct recorder *rcd, int state)
{
int ret = 0;
static jack_native_thread_t timer_tid = 0;
if (state) {
/* Already running */
if (timer_active)
return 0;
ret = jack_client_create_thread(rcd->client, &timer_tid,
rcd->rtprio, 1,
recorder_timer_loop,
(void *)rcd);
if (ret < 0)
return RECORDER_TIMER_ERR;
} else {
/* Already stopped */
if (!timer_active)
return 0;
ret = pthread_cancel(timer_tid);
if (ret != 0)
return RECORDER_TIMER_ERR;
timer_active = 0;
}
return ret;
}
/*****************\
* CONSUMER THREAD *
\*****************/
/**
* Writes data to an open file, gets triggered by the process
* callback and runs as a different thread.
*/
static int
recorder_consume(struct recorder *rcd)
{
int ret = 0;
uint32_t frames_generated = 0;
pthread_mutex_lock(&consumer_process_mutex);
while (pthread_cond_wait
(&consumer_process_trigger, &consumer_process_mutex) != 0) ;
/* Don't attempt to write to the file because it might
* be closed or not exist yet. This also handles propper
* exit of the consumer thread (without calling recorder_stop()
* again), when switching states. */
if (recorder_state != RECORDER_RUNNING)
goto cleanup;
/* Resample audio to the requested output sampling rate */
rcd->resampler_data.data_in = rcd->inbuff_copy;
rcd->resampler_data.data_out = rcd->outbuff;
rcd->resampler_data.input_frames = rcd->num_frames;
rcd->resampler_data.output_frames = rcd->max_out_frames;
rcd->resampler_data.end_of_input = 0;
rcd->resampler_data.src_ratio = rcd->resampler_ratio;
ret = src_process(rcd->resampler_state, &rcd->resampler_data);
if (ret != 0) {
fprintf(stderr, "resampler: %s (%i)\n", src_strerror(ret), ret);
ret = RECORDER_RESAMPLER_ERR;
goto cleanup;
}
frames_generated = rcd->resampler_data.output_frames_gen;
/* Write data to file */
ret = sf_writef_float(rcd->out, rcd->outbuff, frames_generated);
if (ret != frames_generated) {
fprintf(stderr, "libsndfile failed writing to file %d !\n", ret);
ret = RECORDER_SNDFILE_ERR;
}
cleanup:
pthread_mutex_unlock(&consumer_process_mutex);
return ret;
}
/**
* The consumer thread
*/
static void *
recorder_consumer_main_loop(void *arg)
{
struct recorder *rcd = (struct recorder *)arg;
int ret = 0;
consumer_active = 1;
while (consumer_active) {
ret = recorder_consume(rcd);
if (ret < 0)
break;
}
if (ret < 0) {
consumer_active = 0;
recorder_stop(rcd);
}
return NULL;
}
/**
* Starts and stops the timer thread
*/
static int
recorder_set_consumer_state(struct recorder *rcd, int state)
{
int ret = 0;
static jack_native_thread_t consumer_tid = 0;
if (state) {
/* Already started */
if (consumer_active)
return 0;
ret = jack_client_create_thread(rcd->client, &consumer_tid,
rcd->rtprio, 1,
recorder_consumer_main_loop,
(void *)rcd);
if (ret < 0)
return RECORDER_CONSUMER_ERR;
} else {
/* Already stopped */
if (!consumer_active)
return 0;
/* Don't try to stop the consumer while the recorder
* is running */
if (recorder_state == RECORDER_RUNNING)
return RECORDER_AGAIN;
consumer_active = 0;
/* Unblock the consumer thread so that it exits */
pthread_mutex_lock(&consumer_process_mutex);
pthread_cond_signal(&consumer_process_trigger);
pthread_mutex_unlock(&consumer_process_mutex);
/* Wait for the consumer thread to exit */
pthread_join(consumer_tid, NULL);
}
return ret;
}
/****************\
* JACK CALLBACKS *
\****************/
/**
* Main process callback
*/
static int
recorder_process(jack_nframes_t nframes, void *arg)
{
int ret = 0;
struct recorder *rcd = (struct recorder *)arg;
jack_default_audio_sample_t *left_in, *right_in;
int i = 0;
int c = 0;
float peak_left = 0.0f;
float peak_right = 0.0f;
/* Recorder not ready */
if (!recorder_state)
return 0;
if (rcd->stereo) {
/* Grab input */
left_in = (float *)jack_port_get_buffer(rcd->inL, nframes);
right_in = (float *)jack_port_get_buffer(rcd->inR, nframes);
if (left_in == NULL || right_in == NULL)
return -1;
/* Put frames on the buffer and update the peak levels */
for (i = 0, c = 0; i < nframes; i++) {
rcd->inbuff[c] = left_in[i];
rcd->inbuff[c + 1] = right_in[i];
c += 2;
if (rcd->headless)
continue;
peak_left =
(left_in[i] > peak_left) ? left_in[i] : peak_left;
peak_right =
(right_in[i] >
peak_right) ? right_in[i] : peak_right;
}
if (!rcd->headless)
recorder_update_gui_meters(rcd, peak_left, peak_right);
} else {
left_in = (float *)jack_port_get_buffer(rcd->inL, nframes);
if (left_in == NULL)
return -1;
for (i = 0; i < nframes; i++) {
rcd->inbuff[i] = left_in[i];
if (rcd->headless)
continue;
peak_left =
(left_in[i] > peak_left) ? left_in[i] : peak_left;
}
if (!rcd->headless)
recorder_update_gui_meters(rcd, peak_left, 0);
}
if (recorder_state != RECORDER_RUNNING)
return 0;
/* Wait for the previous write to complete, copy the current
* buffer to inbuff_copy and trigger the next write */
pthread_mutex_lock(&consumer_process_mutex);
memcpy(rcd->inbuff_copy, rcd->inbuff, rcd->inbuff_size);
rcd->num_frames = nframes;
pthread_cond_signal(&consumer_process_trigger);
pthread_mutex_unlock(&consumer_process_mutex);
return 0;
}
/**
* JACK calls this shutdown_callback if the server ever shuts down or
* decides to disconnect the client.
*/
static void
recorder_shutdown(void *arg)
{
struct recorder *rcd = (struct recorder *)arg;
recorder_state = RECORDER_NOT_INITIALIZED;
recorder_set_consumer_state(rcd, 0);
recorder_set_timer_state(rcd, 0);
/* Close output file */
recorder_close_file(rcd);
/* Free buffers */
if (rcd->inbuff)
free(rcd->inbuff);
if (rcd->inbuff_copy)
free(rcd->inbuff_copy);
if (rcd->outbuff)
free(rcd->outbuff);
/* Clean up GUI resources */
if (!rcd->headless)
recorder_cleanup_gui(rcd);
return;
}
/**************\
* ENTRY POINTS *
\**************/
/**
* Stops an active recording
*/
int
recorder_stop(struct recorder *rcd)
{
int ret = 0;
/* Avoid re-closing an already closed file and don't try to
* stop when switching states */
if (recorder_state == RECORDER_STOPPED
|| recorder_state == RECORDER_TRANSITION)
return RECORDER_AGAIN;
recorder_state = RECORDER_TRANSITION;
/* Make sure that at least RECORDER_STOP_DELAY_SECS
* seconds have passed since the recording was started.
* This is to prevent users from rapidly clicking the toggle
* button. */
if (!rcd->headless) {
/* Prevent user from interacting with the button */
if (recorder_state != RECORDER_DELAYED_STOP)
recorder_update_gui_button_state(rcd,
GUI_BUTTON_DISABLED);
/* Since the user can't interact with the button
* we need another way to come back here to stop
* the recorder. Set the state to RECORDER_DELAYED_STOP
* and let the timer thread make the call when it
* exits.*/
if (rcd->secs_recorded < RECORDER_STOP_DELAY_SECS) {
recorder_state = RECORDER_DELAYED_STOP;
return RECORDER_AGAIN;
}
}
/* If there is no GUI or we operate on logger
* mode (so no button) shut down instead */
if (rcd->headless || rcd->opmode == RECORDER_LOGGER) {
recorder_shutdown((void *)rcd);
return 0;
}
recorder_close_file(rcd);
recorder_set_timer_state(rcd, 0);
recorder_state = RECORDER_STOPPED;
if (!rcd->headless)
recorder_update_gui_button_state(rcd, GUI_BUTTON_RAISED);
return ret;
}
/**
* Starts a new recording
*/
int
recorder_start(struct recorder *rcd)
{
int ret = 0;
/* Already running or switching states */
if (recorder_state == RECORDER_RUNNING
|| recorder_state == RECORDER_TRANSITION)
return RECORDER_AGAIN;
recorder_state = RECORDER_TRANSITION;
if (!rcd->headless)
recorder_update_gui_button_state(rcd, GUI_BUTTON_DISABLED);
/* Open a new file to write to */
rcd->out = NULL;
rcd->out = recorder_open_new_file(rcd);
if (!rcd->out)
return RECORDER_SNDFILE_ERR;
/* Create the timer thread if needed */
ret = recorder_set_timer_state(rcd, 1);
if (ret < 0)
goto cleanup;
/* Create the consumer thread if needed */
ret = recorder_set_consumer_state(rcd, 1);
if (ret < 0)
goto cleanup;
cleanup:
if (ret < 0) {
recorder_set_consumer_state(rcd, 0);
recorder_set_timer_state(rcd, 0);
recorder_close_file(rcd);
recorder_state = RECORDER_STOPPED;
if (!rcd->headless)
recorder_update_gui_button_state(rcd,
GUI_BUTTON_RAISED);
} else {
recorder_state = RECORDER_RUNNING;
if (!rcd->headless)
recorder_update_gui_button_state(rcd,
GUI_BUTTON_PRESSED);
}
return ret;
}
/**
* Initialize the recorder
*/
int
recorder_initialize(struct recorder *rcd)
{
int ret = 0;
jack_status_t status = 0;
jack_options_t options = JackNoStartServer;
char *client_name = NULL;
int jack_samplerate = 0;
int maxframes = 0;
int num_channels = 0;
recorder_state = RECORDER_NOT_INITIALIZED;
/* Open a client connection to the default JACK server */
rcd->client = jack_client_open("Audio Coffin", options, &status, NULL);
if (rcd->client == NULL) {
fprintf(stderr,
"jack_client_open() failed, status = 0x%2.0x\n",
status);
if (status & JackServerFailed)
fprintf(stderr, "Unable to connect to JACK server\n");
return RECORDER_JACKD_ERR;
}
if (status & JackServerStarted)
fprintf(stderr, "JACK server started\n");
if (status & JackNameNotUnique) {
client_name = jack_get_client_name(rcd->client);
fprintf(stderr, "Unique name `%s' assigned\n", client_name);
}
/* Get maximum real time priority of jack threads */
rcd->rtprio = jack_client_max_real_time_priority(rcd->client);
if (rcd->rtprio < 0) {
ret = RECORDER_JACKD_ERR;
goto cleanup;
}
/* Register callbacks on JACK */
jack_set_process_callback(rcd->client, recorder_process, rcd);
jack_on_shutdown(rcd->client, recorder_shutdown, rcd);
/* Register ports */
rcd->inL = jack_port_register(rcd->client, "AudioL",
JACK_DEFAULT_AUDIO_TYPE,
JackPortIsInput, 0);
if (rcd->inL == NULL) {
ret = RECORDER_JACKD_ERR;
goto cleanup;
}
if (rcd->stereo) {
rcd->inR = jack_port_register(rcd->client, "AudioR",
JACK_DEFAULT_AUDIO_TYPE,
JackPortIsInput, 0);
if (rcd->inR == NULL) {
ret = RECORDER_JACKD_ERR;
goto cleanup;
}
}
/* Initialize output format */
num_channels = (rcd->stereo) ? 2 : 1;
rcd->info.samplerate = rcd->sample_rate;
rcd->info.channels = num_channels;
switch (rcd->format) {
case RECORDER_FORMAT_FLAC:
rcd->info.format = SF_FORMAT_FLAC | SF_FORMAT_PCM_24;
break;
case RECORDER_FORMAT_OGG_VORBIS:
rcd->info.format = SF_FORMAT_OGG | SF_FORMAT_VORBIS;
break;
default:
ret = RECORDER_INVALID;
goto cleanup;
}
if (!sf_format_check(&rcd->info)) {
fprintf(stderr, "output file format error\n");
ret = RECORDER_SNDFILE_ERR;
goto cleanup;
}
/* Initialize resampler */
jack_samplerate = jack_get_sample_rate(rcd->client);
rcd->resampler_ratio =
(double)rcd->sample_rate / (double)jack_samplerate;
rcd->resampler_state = src_new(SRC_SINC_FASTEST, num_channels, &ret);
if (ret != 0) {
printf("resampler: %s\n", src_strerror(ret));
return -1;
}
/* Initialize buffers */
maxframes = jack_get_buffer_size(rcd->client);
rcd->inbuff_size = num_channels * maxframes * sizeof(float);
rcd->inbuff = malloc(rcd->inbuff_size);
if (rcd->inbuff == NULL) {
ret = RECORDER_NOMEM;
goto cleanup;
}
rcd->inbuff_copy = malloc(rcd->inbuff_size);
if (rcd->inbuff_copy == NULL) {
ret = RECORDER_NOMEM;
goto cleanup;
}
rcd->max_out_frames =
((int)(((double)rcd->sample_rate / (double)jack_samplerate) + 1.0))
* num_channels * maxframes;
rcd->outbuff_size = rcd->max_out_frames * sizeof(float);
rcd->outbuff = malloc(rcd->outbuff_size);
if (rcd->outbuff == NULL) {
ret = RECORDER_NOMEM;
goto cleanup;
}
/* Tell the JACK server that we are ready to roll. Our
* process() callback will start running now. */
ret = jack_activate(rcd->client);
if (ret != 0) {
ret = RECORDER_JACKD_ERR;
goto cleanup;
}
/* No interaction when on logger mode, start the recorder
* immediately */
if (rcd->opmode == RECORDER_LOGGER)
recorder_start(rcd);
else
recorder_state = RECORDER_STOPPED;
cleanup:
if (ret < 0) {
jack_client_close(rcd->client);
recorder_shutdown((void *)rcd);
}
return ret;
}
void
recorder_cleanup(struct recorder *rcd)
{
recorder_shutdown((void *)rcd);
return;
}