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/*
* 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 <http://www.gnu.org/licenses/>.
*/
#include "local-def.h"
/* -------------- RADIO DEFINITIONS ------------------ */
#include <math.h>
#include <pthread.h>
#include <rtl-sdr.h>
#define pthread_signal(n, m) pthread_mutex_lock(m); pthread_cond_signal(n); pthread_mutex_unlock(m)
#define pthread_wait(n, m) pthread_mutex_lock(m); pthread_cond_wait(n, m); pthread_mutex_unlock(m)
#define BUF_LEN 16*16384
typedef enum { FM, AM } Mode;
typedef struct dongle_ctx dongle_ctx;
typedef struct demod_ctx demod_ctx;
typedef struct output_ctx output_ctx;
typedef struct dev_ctx dev_ctx_T;
struct dongle_ctx {
pthread_t thr;
unsigned char thr_finished;
uint16_t buf[BUF_LEN];
uint32_t buf_len;
};
struct demod_ctx {
pthread_t thr;
unsigned char thr_finished;
pthread_rwlock_t lck;
pthread_cond_t ok;
pthread_mutex_t ok_m;
int pre_r, pre_j, now_r, now_j, index;
int pre_index, now_index;
int16_t buf[BUF_LEN];
int buf_len;
int16_t res[BUF_LEN];
int res_len;
};
struct output_ctx {
pthread_t thr;
unsigned char thr_finished;
pthread_rwlock_t lck;
pthread_cond_t ok;
pthread_mutex_t ok_m;
int16_t buf[BUF_LEN];
int buf_len;
};
struct dev_ctx {
int used; // radio is free ???
rtlsdr_dev_t* dev;
Mode mode;
float freq;
unsigned char mute;
unsigned char should_run;
/* thread contexts */
dongle_ctx *dongle;
demod_ctx *demod;
output_ctx *output;
};
STATIC void* _dongle_thread_fn (void *);
STATIC void* _demod_thread_fn (void *);
STATIC void* _output_thread_fn (void *);
STATIC unsigned int _radio_dev_count (void);
STATIC const char* _radio_dev_name (unsigned int);
STATIC unsigned char _radio_dev_init (struct dev_ctx *, unsigned int);
STATIC unsigned char _radio_dev_free (struct dev_ctx *);
STATIC void _radio_apply_params (struct dev_ctx *);
STATIC void _radio_start_threads (struct dev_ctx *);
STATIC void _radio_stop_threads (struct dev_ctx *);
static unsigned int init_dev_count;
static struct dev_ctx **dev_ctx;
/* ------------- RADIO IMPLEMENTATION ----------------- */
// Radio initialization should be done only when user start the radio and not at plugin initialization
// Making this call too early would impose to restart the binder to detect a radio.
STATIC void initRadio () {
init_dev_count = _radio_dev_count();
int i;
dev_ctx = (dev_ctx_T**) malloc(init_dev_count * sizeof(dev_ctx_T));
for (i = 0; i < init_dev_count; i++) {
dev_ctx[i] = (dev_ctx_T*) malloc(sizeof(dev_ctx_T));
dev_ctx[i]->dev = NULL;
dev_ctx[i]->mode = FM;
dev_ctx[i]->freq = 100.0;
dev_ctx[i]->mute = 0;
dev_ctx[i]->should_run = 0;
dev_ctx[i]->dongle = NULL;
dev_ctx[i]->demod = NULL;
dev_ctx[i]->output = NULL;
_radio_dev_init(dev_ctx[i], i);
}
}
STATIC void radio_off () {
int i;
for (i = 0; i < init_dev_count; i++) {
_radio_dev_free(dev_ctx[i]);
free(dev_ctx[i]);
}
free(dev_ctx);
}
STATIC void radio_set_mode (dev_ctx_T *dev_ctx, Mode mode) {
dev_ctx->mode = mode;
_radio_apply_params(dev_ctx);
}
STATIC void radio_set_freq (dev_ctx_T *dev_ctx, float freq) {
dev_ctx->freq = freq;
_radio_apply_params(dev_ctx);
}
STATIC void radio_set_mute (dev_ctx_T *dev_ctx, unsigned char mute) {
dev_ctx->mute = mute;
_radio_apply_params(dev_ctx);
}
STATIC void radio_play (dev_ctx_T *dev_ctx) {
_radio_start_threads(dev_ctx);
}
STATIC void radio_stop (dev_ctx_T *dev_ctx) {
_radio_stop_threads(dev_ctx);
}
/* --- HELPER FUNCTIONS --- */
STATIC unsigned int _radio_dev_count () {
return rtlsdr_get_device_count();
}
STATIC const char* _radio_dev_name (unsigned int num) {
return rtlsdr_get_device_name(num);
}
STATIC unsigned char _radio_dev_init (dev_ctx_T *dev_ctx, unsigned int num) {
rtlsdr_dev_t *dev = dev_ctx->dev;
if (rtlsdr_open(&dev, num) < 0)
return 0;
rtlsdr_set_tuner_gain_mode(dev, 0);
if (rtlsdr_reset_buffer(dev) < 0)
return 0;
dev_ctx->dev = dev;
_radio_apply_params(dev_ctx);
return 1;
}
STATIC unsigned char _radio_dev_free (dev_ctx_T *dev_ctx) {
rtlsdr_dev_t *dev = dev_ctx->dev;
if (rtlsdr_close(dev) < 0)
return 0;
dev = NULL;
dev_ctx->dev = dev;
return 1;
}
STATIC void _radio_apply_params (dev_ctx_T *dev_ctx) {
rtlsdr_dev_t *dev = dev_ctx->dev;
Mode mode = dev_ctx->mode;
float freq = dev_ctx->freq;
int rate;
freq *= 1000000;
rate = ((1000000 / 200000) + 1) * 200000;
if (mode == FM)
freq += 16000;
freq += rate / 4;
rtlsdr_set_center_freq(dev, freq);
rtlsdr_set_sample_rate(dev, rate);
dev_ctx->dev = dev;
}
STATIC void _radio_start_threads (dev_ctx_T *dev_ctx) {
rtlsdr_dev_t *dev = dev_ctx->dev;
dev_ctx->dongle = (dongle_ctx*) malloc(sizeof(dongle_ctx));
dev_ctx->demod = (demod_ctx*) malloc(sizeof(demod_ctx));
dev_ctx->output = (output_ctx*) malloc(sizeof(output_ctx));
dongle_ctx *dongle = dev_ctx->dongle;
demod_ctx *demod = dev_ctx->demod;
output_ctx *output = dev_ctx->output;
pthread_rwlock_init(&demod->lck, NULL);
pthread_cond_init(&demod->ok, NULL);
pthread_mutex_init(&demod->ok_m, NULL);
pthread_rwlock_init(&output->lck, NULL);
pthread_cond_init(&output->ok, NULL);
pthread_mutex_init(&output->ok_m, NULL);
dev_ctx->should_run = 1;
/* dongle thread */
dongle->thr_finished = 0;
pthread_create(&dongle->thr, NULL, _dongle_thread_fn, (void*)dev_ctx);
/* demod thread */
demod->pre_r = demod->pre_j = 0;
demod->now_r = demod->now_j = 0;
demod->index = demod->pre_index = demod->now_index = 0;
demod->thr_finished = 0;
pthread_create(&demod->thr, NULL, _demod_thread_fn, (void*)dev_ctx);
/* output thread */
output->thr_finished = 0;
pthread_create(&output->thr, NULL, _output_thread_fn, (void*)dev_ctx);
}
STATIC void _radio_stop_threads (dev_ctx_T *dev_ctx) {
rtlsdr_dev_t *dev = dev_ctx->dev;
dongle_ctx *dongle = dev_ctx->dongle;
demod_ctx *demod = dev_ctx->demod;
output_ctx *output = dev_ctx->output;
if (!dongle || !demod || !output)
return;
/* stop each "while" loop in threads */
dev_ctx->should_run = 0;
rtlsdr_cancel_async(dev);
pthread_signal(&demod->ok, &demod->ok_m);
pthread_signal(&output->ok, &output->ok_m);
while (!dongle->thr_finished ||
!demod->thr_finished ||
!output->thr_finished)
usleep(100000);
pthread_join(dongle->thr, NULL);
pthread_join(demod->thr, NULL);
pthread_join(output->thr, NULL);
pthread_rwlock_destroy(&demod->lck);
pthread_cond_destroy(&demod->ok);
pthread_mutex_destroy(&demod->ok_m);
pthread_rwlock_destroy(&output->lck);
pthread_cond_destroy(&output->ok);
pthread_mutex_destroy(&output->ok_m);
free(dongle); dev_ctx->dongle = NULL;
free(demod); dev_ctx->demod = NULL;
free(output); dev_ctx->output = NULL;
}
/* ---- LOCAL THREADED FUNCTIONS ---- */
STATIC void _rtlsdr_callback (unsigned char *buf, uint32_t len, void *ctx) {
dev_ctx_T *dev_ctx = (dev_ctx_T *)ctx;
dongle_ctx *dongle = dev_ctx->dongle;
demod_ctx *demod = dev_ctx->demod;
unsigned char tmp;
int i;
if (!dev_ctx->should_run)
return;
/* rotate 90° */
for (i = 0; i < (int)len; i += 8) {
tmp = 255 - buf[i+3];
buf[i+3] = buf[i+2];
buf[i+2] = tmp;
buf[i+4] = 255 - buf[i+4];
buf[i+5] = 255 - buf[i+5];
tmp = 255 - buf[i+6];
buf[i+6] = buf[i+7];
buf[i+7] = tmp;
}
/* write data */
for (i = 0; i < (int)len; i++)
dongle->buf[i] = (int16_t)buf[i] - 127;
/* lock demod thread, write to it, unlock */
pthread_rwlock_wrlock(&demod->lck);
memcpy(demod->buf, dongle->buf, 2 * len);
demod->buf_len = len;
pthread_rwlock_unlock(&demod->lck);
pthread_signal(&demod->ok, &demod->ok_m);
}
/**/
STATIC void* _dongle_thread_fn (void *ctx) {
dev_ctx_T *dev_ctx = (dev_ctx_T *)ctx;
dongle_ctx *dongle = dev_ctx->dongle;
rtlsdr_read_async(dev_ctx->dev, _rtlsdr_callback, dev_ctx, 0, 0);
dongle->thr_finished = 1;
return 0;
}
STATIC void _lowpass_demod (void *ctx) {
demod_ctx *demod = (demod_ctx *)ctx;
int i=0, i2=0;
while (i < demod->buf_len) {
demod->now_r += demod->buf[i];
demod->now_j += demod->buf[i+1];
i += 2;
demod->index++;
if (demod->index < ((1000000 / 200000) + 1))
continue;
demod->buf[i2] = demod->now_r;
demod->buf[i2+1] = demod->now_j;
demod->index = 0;
demod->now_r = demod->now_j = 0;
i2 += 2;
}
demod->buf_len = i2;
}
/**/
STATIC void _lowpassreal_demod (void *ctx) {
demod_ctx *demod = (demod_ctx *)ctx;
int i=0, i2=0;
int fast = 200000;
int slow = 48000;
while (i < demod->res_len) {
demod->now_index += demod->res[i];
i++;
demod->pre_index += slow;
if (demod->pre_index < fast)
continue;
demod->res[i2] = (int16_t)(demod->now_index / (fast/slow));
demod->pre_index -= fast;
demod->now_index = 0;
i2 += 1;
}
demod->res_len = i2;
}
/**/
STATIC void _multiply (int ar, int aj, int br, int bj, int *cr, int *cj) {
*cr = ar*br - aj*bj;
*cj = aj*br + ar*bj;
}
/**/
STATIC int _polar_discriminant (int ar, int aj, int br, int bj) {
int cr, cj;
double angle;
_multiply(ar, aj, br, -bj, &cr, &cj);
angle = atan2((double)cj, (double)cr);
return (int)(angle / 3.14159 * (1<<14));
}
/**/
STATIC void _fm_demod (void *ctx) {
demod_ctx *demod = (demod_ctx *)ctx;
int16_t *buf = demod->buf;
int buf_len = demod->buf_len;
int pcm, i;
pcm = _polar_discriminant(buf[0], buf[1], demod->pre_r, demod->pre_j);
demod->res[0] = (int16_t)pcm;
for (i = 2; i < (buf_len-1); i += 2) {
pcm = _polar_discriminant(buf[i], buf[i+1], buf[i-2], buf[i-1]);
demod->res[i/2] = (int16_t)pcm;
}
demod->pre_r = buf[buf_len - 2];
demod->pre_j = buf[buf_len - 1];
demod->res_len = buf_len/2;
}
/**/
STATIC void _am_demod (void *ctx) {
demod_ctx *demod = (demod_ctx *)ctx;
int16_t *buf = demod->buf;
int buf_len = demod->buf_len;
int pcm, i;
for (i = 0; i < buf_len; i += 2) {
pcm = buf[i] * buf[i];
pcm += buf[i+1] * buf[i+1];
demod->res[i/2] = (int16_t)sqrt(pcm);
}
demod->res_len = buf_len/2;
}
/**/
STATIC void* _demod_thread_fn (void *ctx) {
dev_ctx_T *dev_ctx = (dev_ctx_T *)ctx;
demod_ctx *demod = dev_ctx->demod;
output_ctx *output = dev_ctx->output;
while(dev_ctx->should_run) {
pthread_wait(&demod->ok, &demod->ok_m);
pthread_rwlock_wrlock(&demod->lck);
_lowpass_demod(demod);
if (dev_ctx->mode == FM)
_fm_demod(demod);
else
_am_demod(demod);
_lowpassreal_demod(demod);
pthread_rwlock_unlock(&demod->lck);
/* lock demod thread, write to it, unlock */
pthread_rwlock_wrlock(&output->lck);
memcpy(output->buf, demod->res, 2 * demod->res_len);
output->buf_len = demod->res_len;
pthread_rwlock_unlock(&output->lck);
pthread_signal(&output->ok, &output->ok_m);
}
demod->thr_finished = 1;
return 0;
}
STATIC void* _output_thread_fn (void *ctx) {
dev_ctx_T *dev_ctx = (dev_ctx_T *)ctx;
output_ctx *output = dev_ctx->output;
while (dev_ctx->should_run) {
pthread_wait(&output->ok, &output->ok_m);
pthread_rwlock_rdlock(&output->lck);
//if (!dev_ctx->mute)
// mRadio->PlayAlsa((void*)&output->buf, output->buf_len);
pthread_rwlock_unlock(&output->lck);
}
output->thr_finished = 1;
return 0;
}
// ********************************************************
// FULUP integration proposal with client session context
// ********************************************************
#define MAX_RADIO 10
// Structure holding existing radio with current usage status
typedef struct {
int idx;
char *name;
int used;
} radioDevT;
// Radio plugin handle should store everething API may need
typedef struct {
radioDevT *radios[MAX_RADIO]; // pointer to existing radio
int devCount;
} pluginHandleT;
// Client Context Structure Hold any specific to client [will be destroyed when client leave]
typedef struct {
dev_ctx_T radio; // pointer to client radio
int idx; // index of radio within global array
} ctxHandleT;
// It his was not a demo only, it should be smarter to enable hot plug/unplug
STATIC void updateRadioDevList(pluginHandleT *handle) {
int idx;
// loop on existing radio if any
for (idx = 0; idx < _radio_dev_count(); idx++) {
if (idx == MAX_RADIO) break;
handle->radios[idx] = calloc(1, sizeof(radioDevT)); // use calloc to set used to FALSE
handle->radios[idx]->name = (char *) _radio_dev_name(idx);
}
handle->devCount = _radio_dev_count();
}
// This is call at plugin load time [radio devices might still not be visible]
STATIC pluginHandleT* initRadioPlugin() {
// Allocate Plugin handle
pluginHandleT *handle = calloc (1,sizeof (pluginHandleT)); // init handle with zero
// Some initialization steps
updateRadioDevList(handle);
return (handle);
}
// Stop a radio free related ressource and make it avaliable for other clients
STATIC AFB_error releaseRadio (pluginHandleT* handle, ctxHandleT *ctx) {
// change radio status
(handle->radios[ctx->idx])->used = FALSE;
// stop related threads and free attached resources
radio_stop (&ctx->radio);
// May be some further cleanup ????
return (AFB_SUCCESS); // Could it fails ????
}
// Start a radio and reserve exclusive usage to requesting client
STATIC ctxHandleT *reserveRadio (pluginHandleT* handle) {
ctxHandleT *client;
int idx;
// loop on existing radio if any
for (idx = 0; idx < _radio_dev_count(); idx++) {
if ((handle->radios[client->idx])->used = FALSE) break;
}
// No avaliable radio return now
if (idx == MAX_RADIO) return (NULL);
// Book radio
(handle->radios[client->idx])->used = TRUE;
// create client handle
client = calloc (1, sizeof (ctxHandleT));
// stop related threads and free attached resources
_radio_start_threads (&client->radio);
// May be some things to do ????
return (client);
}
// This is called when client session died [ex; client quit for more than 15mn]
STATIC json_object* freeRadio () {
//releaseRadio (client->handle, client);
//free (client);
}
STATIC json_object* powerOnOff (AFB_request *request) {
json_object *jresp;
AFB_clientCtx *client = request->client; // get client context from request
// Make sure binder was started with client session
if (client == NULL) {
request->errcode=MHD_HTTP_FORBIDDEN;
return (jsonNewMessage(AFB_FAIL, "Radio binder need session [--token=xxxx]"));
}
// If we have a handle radio was on let power it down
if (client->ctx != NULL) {
dev_ctx_T *dev_ctx = (dev_ctx_T *)client->ctx;
releaseRadio (client->plugin->handle, client->ctx); // poweroff client related radio
jresp = json_object_new_object();
json_object_object_add(jresp, "power", json_object_new_string ("off"));
return (jresp);
}
// request a new client context token and check result
if (AFB_UNAUTH == ctxTokenCreate (request)) {
request->errcode=MHD_HTTP_UNAUTHORIZED;
jresp= jsonNewMessage(AFB_FAIL, "You're not authorized to request a radio [make sure you have the right authentication token");
return (jresp);
}
// Client is clean let's look it we have an avaliable radio to propose
// make sure we have last hot plug dongle visible
updateRadioDevList (client->plugin->handle);
// get try to get an unused radio
client->ctx = reserveRadio (client->plugin->handle);
if (client->ctx == NULL) {
return (jsonNewMessage(AFB_FAIL, "Sory No More Radio Avaliable"));
}
// At this point we should have something to retreive radio status before last poweroff [but this is only a demonstrator]
}
STATIC json_object* start (AFB_request *request) {
return NULL;
}
STATIC json_object* stop (AFB_request *request) {
return NULL;
}
STATIC json_object* status (AFB_request *request) {
return NULL;
}
STATIC AFB_restapi pluginApis[]= {
{"power" , AFB_SESSION_CREATE, (AFB_apiCB)powerOnOff , "Ping Application Framework"},
{"start" , AFB_SESSION_CHECK, (AFB_apiCB)start , "Ping Application Framework"},
{"stop" , AFB_SESSION_CHECK, (AFB_apiCB)stop , "Ping Application Framework"},
{"status" , AFB_SESSION_RENEW, (AFB_apiCB)status , "Ping Application Framework"},
{NULL}
};
PUBLIC AFB_plugin *radioRegister (AFB_session *session) {
AFB_plugin *plugin = malloc (sizeof (AFB_plugin));
plugin->type = AFB_PLUGIN_JSON;
plugin->info = "Application Framework Binder - Radio plugin";
plugin->prefix = "radio";
plugin->apis = pluginApis;
plugin->handle = initRadioPlugin();
plugin->freeCtxCB = freeRadio;
return (plugin);
};
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