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asterisk
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asterisk/translate.c

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/*
* Asterisk -- A telephony toolkit for Linux.
*
* Translate via the use of pseudo channels
*
* Copyright (C) 1999, Mark Spencer
*
* Mark Spencer <markster@linux-support.net>
*
* This program is free software, distributed under the terms of
* the GNU General Public License
*/
#include <asterisk/lock.h>
#include <asterisk/channel.h>
#include <asterisk/channel_pvt.h>
#include <asterisk/logger.h>
#include <asterisk/translate.h>
#include <asterisk/options.h>
#include <asterisk/frame.h>
#include <asterisk/sched.h>
#include <asterisk/cli.h>
#include <asterisk/term.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <unistd.h>
#include <stdlib.h>
#include <pthread.h>
#include <string.h>
#include <stdio.h>
/* Uncomment the EXPERIMENTAL_TRANSLATION to enable a more complicated, but probably more
correct way of handling full duplex translation */
/*
#define EXPERIMENTAL_TRANSLATION
*/
/* This could all be done more efficiently *IF* we chained packets together
by default, but it would also complicate virtually every application. */
static pthread_mutex_t list_lock = AST_MUTEX_INITIALIZER;
static struct ast_translator *list = NULL;
struct ast_translator_dir {
struct ast_translator *step; /* Next step translator */
int cost; /* Complete cost to destination */
};
struct ast_frame_delivery {
struct ast_frame *f;
struct ast_channel *chan;
int fd;
struct translator_pvt *owner;
struct ast_frame_delivery *prev;
struct ast_frame_delivery *next;
};
static struct ast_translator_dir tr_matrix[MAX_FORMAT][MAX_FORMAT];
struct ast_trans_pvt {
struct ast_translator *step;
struct ast_translator_pvt *state;
struct ast_trans_pvt *next;
};
static int powerof(int d)
{
int x;
for (x = 0; x < 32; x++)
if ((1 << x) & d)
return x;
ast_log(LOG_WARNING, "Powerof %d: No power??\n", d);
return -1;
}
void ast_translator_free_path(struct ast_trans_pvt *p)
{
struct ast_trans_pvt *pl;
while(p) {
pl = p;
p = p->next;
if (pl->state && pl->step->destroy)
pl->step->destroy(pl->state);
free(pl);
}
}
struct ast_trans_pvt *ast_translator_build_path(int dest, int source)
{
struct ast_trans_pvt *tmpr = NULL, *tmp = NULL;
/* One of the hardest parts: Build a set of translators based upon
the given source and destination formats */
source = powerof(source);
dest = powerof(dest);
while(source != dest) {
if (tr_matrix[source][dest].step) {
if (tmp) {
tmp->next = malloc(sizeof(struct ast_trans_pvt));
tmp = tmp->next;
} else
tmp = malloc(sizeof(struct ast_trans_pvt));
if (tmp) {
tmp->next = NULL;
tmp->step = tr_matrix[source][dest].step;
tmp->state = tmp->step->new();
if (!tmp->state) {
ast_log(LOG_WARNING, "Failed to build translator step from %d to %d\n", source, dest);
free(tmp);
tmp = NULL;
return NULL;
}
/* Set the root, if it doesn't exist yet... */
if (!tmpr)
tmpr = tmp;
/* Keep going if this isn't the final destination */
source = tmp->step->dstfmt;
} else {
/* XXX This could leak XXX */
ast_log(LOG_WARNING, "Out of memory\n");
return NULL;
}
} else {
/* We shouldn't have allocated any memory */
ast_log(LOG_WARNING, "No translator path from %d to %d\n", source, dest);
return NULL;
}
}
return tmpr;
}
struct ast_frame *ast_translate(struct ast_trans_pvt *path, struct ast_frame *f, int consume)
{
struct ast_trans_pvt *p;
struct ast_frame *out;
p = path;
/* Feed the first frame into the first translator */
p->step->framein(p->state, f);
if (consume)
ast_frfree(f);
while(p) {
out = p->step->frameout(p->state);
/* If we get nothing out, return NULL */
if (!out)
return NULL;
/* If there is a next state, feed it in there. If not,
return this frame */
if (p->next)
p->next->step->framein(p->next->state, out);
else
return out;
p = p->next;
}
ast_log(LOG_WARNING, "I should never get here...\n");
return NULL;
}
static void rebuild_matrix(void)
{
struct ast_translator *t;
int changed;
int x,y,z;
if (option_debug)
ast_log(LOG_DEBUG, "Reseting translation matrix\n");
/* Use the list of translators to build a translation matrix */
bzero(tr_matrix, sizeof(tr_matrix));
t = list;
while(t) {
if (!tr_matrix[t->srcfmt][t->dstfmt].step ||
tr_matrix[t->srcfmt][t->dstfmt].cost > t->cost) {
tr_matrix[t->srcfmt][t->dstfmt].step = t;
tr_matrix[t->srcfmt][t->dstfmt].cost = t->cost;
}
t = t->next;
}
do {
changed = 0;
/* Don't you just love O(N^3) operations? */
for (x=0; x< MAX_FORMAT; x++) /* For each source format */
for (y=0; y < MAX_FORMAT; y++) /* And each destination format */
if (x != y) /* Except ourselves, of course */
for (z=0; z < MAX_FORMAT; z++) /* And each format it might convert to */
if ((x!=z) && (y!=z)) /* Don't ever convert back to us */
if (tr_matrix[x][y].step && /* We can convert from x to y */
tr_matrix[y][z].step && /* And from y to z and... */
(!tr_matrix[x][z].step || /* Either there isn't an x->z conversion */
(tr_matrix[x][y].cost +
tr_matrix[y][z].cost < /* Or we're cheaper than the existing */
tr_matrix[x][z].cost) /* solution */
)) {
/* We can get from x to z via y with a cost that
is the sum of the transition from x to y and
from y to z */
tr_matrix[x][z].step = tr_matrix[x][y].step;
tr_matrix[x][z].cost = tr_matrix[x][y].cost +
tr_matrix[y][z].cost;
if (option_debug)
ast_log(LOG_DEBUG, "Discovered %d cost path from %d to %d, via %d\n", tr_matrix[x][z].cost, x, z, y);
changed++;
}
} while (changed);
}
static void calc_cost(struct ast_translator *t)
{
int sofar=0;
struct ast_translator_pvt *pvt;
struct ast_frame *f, *out;
struct timeval start, finish;
int cost;
/* If they don't make samples, give them a terrible score */
if (!t->sample) {
ast_log(LOG_WARNING, "Translator '%s' does not produce sample frames.\n", t->name);
t->cost = 99999;
return;
}
pvt = t->new();
if (!pvt) {
ast_log(LOG_WARNING, "Translator '%s' appears to be broken and will probably fail.\n", t->name);
t->cost = 99999;
return;
}
gettimeofday(&start, NULL);
/* Call the encoder until we've processed one second of time */
while(sofar < 8000) {
f = t->sample();
if (!f) {
ast_log(LOG_WARNING, "Translator '%s' failed to produce a sample frame.\n", t->name);
t->destroy(pvt);
t->cost = 99999;
return;
}
t->framein(pvt, f);
ast_frfree(f);
while((out = t->frameout(pvt))) {
sofar += out->samples;
ast_frfree(out);
}
}
gettimeofday(&finish, NULL);
t->destroy(pvt);
cost = (finish.tv_sec - start.tv_sec) * 1000 + (finish.tv_usec - start.tv_usec) / 1000;
t->cost = cost;
if (!t->cost)
t->cost = 1;
}
static int show_translation(int fd, int argc, char *argv[])
{
#define SHOW_TRANS 14
int x,y;
char line[80];
if (argc != 2)
return RESULT_SHOWUSAGE;
ast_cli(fd, " Translation times between formats (in milliseconds)\n");
ast_cli(fd, " Destination Format\n");
ast_pthread_mutex_lock(&list_lock);
for (x=0;x<SHOW_TRANS; x++) {
if (x == 1)
strcpy(line, " Src ");
else if (x == 2)
strcpy(line, " Fmt ");
else
strcpy(line, " ");
for (y=0;y<SHOW_TRANS;y++) {
if (tr_matrix[x][y].step)
snprintf(line + strlen(line), sizeof(line) - strlen(line), " %4d", tr_matrix[x][y].cost);
else
snprintf(line + strlen(line), sizeof(line) - strlen(line), " n/a");
}
snprintf(line + strlen(line), sizeof(line) - strlen(line), "\n");
ast_cli(fd, line);
}
ast_pthread_mutex_unlock(&list_lock);
return RESULT_SUCCESS;
}
static int added_cli = 0;
static char show_trans_usage[] =
"Usage: show translation\n"
" Displays known codec translators and the cost associated\n"
"with each conversion.\n";
static struct ast_cli_entry show_trans =
{ { "show", "translation", NULL }, show_translation, "Display translation matrix", show_trans_usage };
int ast_register_translator(struct ast_translator *t)
{
char tmp[80];
t->srcfmt = powerof(t->srcfmt);
t->dstfmt = powerof(t->dstfmt);
if ((t->srcfmt >= MAX_FORMAT) || (t->dstfmt >= MAX_FORMAT)) {
ast_log(LOG_WARNING, "Format %d is larger than MAX_FORMAT\n", t->srcfmt);
return -1;
}
calc_cost(t);
if (option_verbose > 1)
ast_verbose(VERBOSE_PREFIX_2 "Registered translator '%s' from format %d to %d, cost %d\n", term_color(tmp, t->name, COLOR_MAGENTA, COLOR_BLACK, sizeof(tmp)), t->srcfmt, t->dstfmt, t->cost);
ast_pthread_mutex_lock(&list_lock);
if (!added_cli) {
ast_cli_register(&show_trans);
added_cli++;
}
t->next = list;
list = t;
rebuild_matrix();
ast_pthread_mutex_unlock(&list_lock);
return 0;
}
int ast_unregister_translator(struct ast_translator *t)
{
struct ast_translator *u, *ul = NULL;
ast_pthread_mutex_lock(&list_lock);
u = list;
while(u) {
if (u == t) {
if (ul)
ul->next = u->next;
else
list = u->next;
break;
}
ul = u;
u = u->next;
}
rebuild_matrix();
ast_pthread_mutex_unlock(&list_lock);
return (u ? 0 : -1);
}
int ast_translator_best_choice(int *dst, int *srcs)
{
/* Calculate our best source format, given costs, and a desired destination */
int x,y;
int best=-1;
int bestdst=0;
int cur = 1;
int besttime=999999999;
ast_pthread_mutex_lock(&list_lock);
for (y=0;y<MAX_FORMAT;y++) {
if ((cur & *dst) && (cur & *srcs)) {
/* This is a common format to both. Pick it if we don't have one already */
besttime=0;
bestdst = cur;
best = cur;
break;
}
if (cur & *dst)
for (x=0;x<MAX_FORMAT;x++) {
if (tr_matrix[x][y].step && /* There's a step */
(tr_matrix[x][y].cost < besttime) && /* We're better than what exists now */
(*srcs & (1 << x))) /* x is a valid source format */
{
best = 1 << x;
bestdst = cur;
besttime = tr_matrix[x][y].cost;
}
}
cur = cur << 1;
}
if (best > -1) {
*srcs = best;
*dst = bestdst;
best = 0;
}
ast_pthread_mutex_unlock(&list_lock);
return best;
}
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