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asterisk/main/abstract_jb.c
Terry Wilson 04da92c379 Replace direct access to channel name with accessor functions 
There are many benefits to making the ast_channel an opaque handle, from
increasing maintainability to presenting ways to kill masquerades. This patch
kicks things off by taking things a field at a time, renaming the field to
'__do_not_use_${fieldname}' and then writing setters/getters and converting the
existing code to using them. When all fields are done, we can move ast_channel
to a C file from channel.h and lop off the '__do_not_use_'.

This patch sets up main/channel_interal_api.c to be the only file that actually
accesses the ast_channel's fields directly. The intent would be for any API
functions in channel.c to use the accessor functions. No more monkeying around
with channel internals. We should use our own APIs.

The interesting changes in this patch are the addition of
channel_internal_api.c, the moving of the AST_DATA stuff from channel.c to
channel_internal_api.c (note: the AST_DATA stuff will have to be reworked to
use accessor functions when ast_channel is really opaque), and some re-working
of the way channel iterators/callbacks are handled so as to avoid creating fake
ast_channels on the stack to pass in matching data by directly accessing fields
(since "name" is a stringfield and the fake channel doesn't init the
stringfields, you can't use the ast_channel_name_set() function). I went with
ast_channel_name(chan) for a getter, and ast_channel_name_set(chan, name) for a
setter.

The majority of the grunt-work for this change was done by writing a semantic
patch using Coccinelle ( http://coccinelle.lip6.fr/ ).

Review: https://reviewboard.asterisk.org/r/1655/


git-svn-id: https://origsvn.digium.com/svn/asterisk/trunk@350223 65c4cc65-6c06-0410-ace0-fbb531ad65f3
2012-01-09 22:15:50 +00:00

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/*
* abstract_jb: common implementation-independent jitterbuffer stuff
*
* Copyright (C) 2005, Attractel OOD
*
* Contributors:
* Slav Klenov <slav@securax.org>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*
* A license has been granted to Digium (via disclaimer) for the use of
* this code.
*/
/*! \file
*
* \brief Common implementation-independent jitterbuffer stuff.
*
* \author Slav Klenov <slav@securax.org>
*
*
*/
#include "asterisk.h"
ASTERISK_FILE_VERSION(__FILE__, "$Revision$")
#include "asterisk/frame.h"
#include "asterisk/channel.h"
#include "asterisk/term.h"
#include "asterisk/utils.h"
#include "asterisk/abstract_jb.h"
#include "fixedjitterbuf.h"
#include "jitterbuf.h"
/*! Internal jb flags */
enum {
JB_USE = (1 << 0),
JB_TIMEBASE_INITIALIZED = (1 << 1),
JB_CREATED = (1 << 2)
};
/* Implementation functions */
/* fixed */
static void *jb_create_fixed(struct ast_jb_conf *general_config, long resynch_threshold);
static void jb_destroy_fixed(void *jb);
static int jb_put_first_fixed(void *jb, struct ast_frame *fin, long now);
static int jb_put_fixed(void *jb, struct ast_frame *fin, long now);
static int jb_get_fixed(void *jb, struct ast_frame **fout, long now, long interpl);
static long jb_next_fixed(void *jb);
static int jb_remove_fixed(void *jb, struct ast_frame **fout);
static void jb_force_resynch_fixed(void *jb);
static void jb_empty_and_reset_fixed(void *jb);
/* adaptive */
static void * jb_create_adaptive(struct ast_jb_conf *general_config, long resynch_threshold);
static void jb_destroy_adaptive(void *jb);
static int jb_put_first_adaptive(void *jb, struct ast_frame *fin, long now);
static int jb_put_adaptive(void *jb, struct ast_frame *fin, long now);
static int jb_get_adaptive(void *jb, struct ast_frame **fout, long now, long interpl);
static long jb_next_adaptive(void *jb);
static int jb_remove_adaptive(void *jb, struct ast_frame **fout);
static void jb_force_resynch_adaptive(void *jb);
static void jb_empty_and_reset_adaptive(void *jb);
/* Available jb implementations */
static const struct ast_jb_impl avail_impl[] = {
{
.name = "fixed",
.type = AST_JB_FIXED,
.create = jb_create_fixed,
.destroy = jb_destroy_fixed,
.put_first = jb_put_first_fixed,
.put = jb_put_fixed,
.get = jb_get_fixed,
.next = jb_next_fixed,
.remove = jb_remove_fixed,
.force_resync = jb_force_resynch_fixed,
.empty_and_reset = jb_empty_and_reset_fixed,
},
{
.name = "adaptive",
.type = AST_JB_ADAPTIVE,
.create = jb_create_adaptive,
.destroy = jb_destroy_adaptive,
.put_first = jb_put_first_adaptive,
.put = jb_put_adaptive,
.get = jb_get_adaptive,
.next = jb_next_adaptive,
.remove = jb_remove_adaptive,
.force_resync = jb_force_resynch_adaptive,
.empty_and_reset = jb_empty_and_reset_adaptive,
}
};
static int default_impl = 0;
/* Translations between impl and abstract return codes */
static const int fixed_to_abstract_code[] =
{AST_JB_IMPL_OK, AST_JB_IMPL_DROP, AST_JB_IMPL_INTERP, AST_JB_IMPL_NOFRAME};
static const int adaptive_to_abstract_code[] =
{AST_JB_IMPL_OK, AST_JB_IMPL_NOFRAME, AST_JB_IMPL_NOFRAME, AST_JB_IMPL_INTERP, AST_JB_IMPL_DROP, AST_JB_IMPL_OK};
/* JB_GET actions (used only for the frames log) */
static const char * const jb_get_actions[] = {"Delivered", "Dropped", "Interpolated", "No"};
/*! \brief Macros for the frame log files */
#define jb_framelog(...) do { \
if (jb->logfile) { \
fprintf(jb->logfile, __VA_ARGS__); \
fflush(jb->logfile); \
} \
} while (0)
/* Internal utility functions */
static void jb_choose_impl(struct ast_channel *chan);
static void jb_get_and_deliver(struct ast_channel *chan);
static int create_jb(struct ast_channel *chan, struct ast_frame *first_frame);
static long get_now(struct ast_jb *jb, struct timeval *tv);
/* Interface ast jb functions impl */
static void jb_choose_impl(struct ast_channel *chan)
{
struct ast_jb *jb = &chan->jb;
struct ast_jb_conf *jbconf = &jb->conf;
const struct ast_jb_impl *test_impl;
int i, avail_impl_count = ARRAY_LEN(avail_impl);
jb->impl = &avail_impl[default_impl];
if (ast_strlen_zero(jbconf->impl)) {
return;
}
for (i = 0; i < avail_impl_count; i++) {
test_impl = &avail_impl[i];
if (!strcasecmp(jbconf->impl, test_impl->name)) {
jb->impl = test_impl;
return;
}
}
}
int ast_jb_do_usecheck(struct ast_channel *c0, struct ast_channel *c1)
{
struct ast_jb *jb0 = &c0->jb;
struct ast_jb *jb1 = &c1->jb;
struct ast_jb_conf *conf0 = &jb0->conf;
struct ast_jb_conf *conf1 = &jb1->conf;
int c0_wants_jitter = c0->tech->properties & AST_CHAN_TP_WANTSJITTER;
int c0_creates_jitter = c0->tech->properties & AST_CHAN_TP_CREATESJITTER;
int c0_jb_enabled = ast_test_flag(conf0, AST_JB_ENABLED);
int c0_force_jb = ast_test_flag(conf0, AST_JB_FORCED);
int c0_jb_timebase_initialized = ast_test_flag(jb0, JB_TIMEBASE_INITIALIZED);
int c0_jb_created = ast_test_flag(jb0, JB_CREATED);
int c1_wants_jitter = c1->tech->properties & AST_CHAN_TP_WANTSJITTER;
int c1_creates_jitter = c1->tech->properties & AST_CHAN_TP_CREATESJITTER;
int c1_jb_enabled = ast_test_flag(conf1, AST_JB_ENABLED);
int c1_force_jb = ast_test_flag(conf1, AST_JB_FORCED);
int c1_jb_timebase_initialized = ast_test_flag(jb1, JB_TIMEBASE_INITIALIZED);
int c1_jb_created = ast_test_flag(jb1, JB_CREATED);
int inuse = 0;
/* Determine whether audio going to c0 needs a jitter buffer */
if (((!c0_wants_jitter && c1_creates_jitter) || (c0_force_jb && c1_creates_jitter)) && c0_jb_enabled) {
ast_set_flag(jb0, JB_USE);
if (!c0_jb_timebase_initialized) {
if (c1_jb_timebase_initialized) {
memcpy(&jb0->timebase, &jb1->timebase, sizeof(struct timeval));
} else {
gettimeofday(&jb0->timebase, NULL);
}
ast_set_flag(jb0, JB_TIMEBASE_INITIALIZED);
}
if (!c0_jb_created) {
jb_choose_impl(c0);
}
inuse = 1;
}
/* Determine whether audio going to c1 needs a jitter buffer */
if (((!c1_wants_jitter && c0_creates_jitter) || (c1_force_jb && c0_creates_jitter)) && c1_jb_enabled) {
ast_set_flag(jb1, JB_USE);
if (!c1_jb_timebase_initialized) {
if (c0_jb_timebase_initialized) {
memcpy(&jb1->timebase, &jb0->timebase, sizeof(struct timeval));
} else {
gettimeofday(&jb1->timebase, NULL);
}
ast_set_flag(jb1, JB_TIMEBASE_INITIALIZED);
}
if (!c1_jb_created) {
jb_choose_impl(c1);
}
inuse = 1;
}
return inuse;
}
int ast_jb_get_when_to_wakeup(struct ast_channel *c0, struct ast_channel *c1, int time_left)
{
struct ast_jb *jb0 = &c0->jb;
struct ast_jb *jb1 = &c1->jb;
int c0_use_jb = ast_test_flag(jb0, JB_USE);
int c0_jb_is_created = ast_test_flag(jb0, JB_CREATED);
int c1_use_jb = ast_test_flag(jb1, JB_USE);
int c1_jb_is_created = ast_test_flag(jb1, JB_CREATED);
int wait, wait0, wait1;
struct timeval tv_now;
if (time_left == 0) {
/* No time left - the bridge will be retried */
/* TODO: Test disable this */
/*return 0;*/
}
if (time_left < 0) {
time_left = INT_MAX;
}
gettimeofday(&tv_now, NULL);
wait0 = (c0_use_jb && c0_jb_is_created) ? jb0->next - get_now(jb0, &tv_now) : time_left;
wait1 = (c1_use_jb && c1_jb_is_created) ? jb1->next - get_now(jb1, &tv_now) : time_left;
wait = wait0 < wait1 ? wait0 : wait1;
wait = wait < time_left ? wait : time_left;
if (wait == INT_MAX) {
wait = -1;
} else if (wait < 1) {
/* don't let wait=0, because this can cause the pbx thread to loop without any sleeping at all */
wait = 1;
}
return wait;
}
int ast_jb_put(struct ast_channel *chan, struct ast_frame *f)
{
struct ast_jb *jb = &chan->jb;
const struct ast_jb_impl *jbimpl = jb->impl;
void *jbobj = jb->jbobj;
struct ast_frame *frr;
long now = 0;
if (!ast_test_flag(jb, JB_USE))
return -1;
if (f->frametype != AST_FRAME_VOICE) {
if (f->frametype == AST_FRAME_DTMF && ast_test_flag(jb, JB_CREATED)) {
jb_framelog("JB_PUT {now=%ld}: Received DTMF frame. Force resynching jb...\n", now);
jbimpl->force_resync(jbobj);
}
return -1;
}
/* We consider an enabled jitterbuffer should receive frames with valid timing info. */
if (!ast_test_flag(f, AST_FRFLAG_HAS_TIMING_INFO) || f->len < 2 || f->ts < 0) {
ast_log(LOG_WARNING, "%s received frame with invalid timing info: "
"has_timing_info=%d, len=%ld, ts=%ld, src=%s\n",
ast_channel_name(chan), ast_test_flag(f, AST_FRFLAG_HAS_TIMING_INFO), f->len, f->ts, f->src);
return -1;
}
frr = ast_frdup(f);
if (!frr) {
ast_log(LOG_ERROR, "Failed to isolate frame for the jitterbuffer on channel '%s'\n", ast_channel_name(chan));
return -1;
}
if (!ast_test_flag(jb, JB_CREATED)) {
if (create_jb(chan, frr)) {
ast_frfree(frr);
/* Disable the jitterbuffer */
ast_clear_flag(jb, JB_USE);
return -1;
}
ast_set_flag(jb, JB_CREATED);
return 0;
} else {
now = get_now(jb, NULL);
if (jbimpl->put(jbobj, frr, now) != AST_JB_IMPL_OK) {
jb_framelog("JB_PUT {now=%ld}: Dropped frame with ts=%ld and len=%ld\n", now, frr->ts, frr->len);
ast_frfree(frr);
/*return -1;*/
/* TODO: Check this fix - should return 0 here, because the dropped frame shouldn't
be delivered at all */
return 0;
}
jb->next = jbimpl->next(jbobj);
jb_framelog("JB_PUT {now=%ld}: Queued frame with ts=%ld and len=%ld\n", now, frr->ts, frr->len);
return 0;
}
}
void ast_jb_get_and_deliver(struct ast_channel *c0, struct ast_channel *c1)
{
struct ast_jb *jb0 = &c0->jb;
struct ast_jb *jb1 = &c1->jb;
int c0_use_jb = ast_test_flag(jb0, JB_USE);
int c0_jb_is_created = ast_test_flag(jb0, JB_CREATED);
int c1_use_jb = ast_test_flag(jb1, JB_USE);
int c1_jb_is_created = ast_test_flag(jb1, JB_CREATED);
if (c0_use_jb && c0_jb_is_created)
jb_get_and_deliver(c0);
if (c1_use_jb && c1_jb_is_created)
jb_get_and_deliver(c1);
}
static void jb_get_and_deliver(struct ast_channel *chan)
{
struct ast_jb *jb = &chan->jb;
const struct ast_jb_impl *jbimpl = jb->impl;
void *jbobj = jb->jbobj;
struct ast_frame *f, finterp = { .frametype = AST_FRAME_VOICE, };
long now;
int interpolation_len, res;
now = get_now(jb, NULL);
jb->next = jbimpl->next(jbobj);
if (now < jb->next) {
jb_framelog("\tJB_GET {now=%ld}: now < next=%ld\n", now, jb->next);
return;
}
while (now >= jb->next) {
interpolation_len = ast_codec_interp_len(&jb->last_format);
res = jbimpl->get(jbobj, &f, now, interpolation_len);
switch (res) {
case AST_JB_IMPL_OK:
/* deliver the frame */
ast_write(chan, f);
case AST_JB_IMPL_DROP:
jb_framelog("\tJB_GET {now=%ld}: %s frame with ts=%ld and len=%ld\n",
now, jb_get_actions[res], f->ts, f->len);
ast_format_copy(&jb->last_format, &f->subclass.format);
ast_frfree(f);
break;
case AST_JB_IMPL_INTERP:
/* interpolate a frame */
f = &finterp;
ast_format_copy(&f->subclass.format, &jb->last_format);
f->samples = interpolation_len * 8;
f->src = "JB interpolation";
f->delivery = ast_tvadd(jb->timebase, ast_samp2tv(jb->next, 1000));
f->offset = AST_FRIENDLY_OFFSET;
/* deliver the interpolated frame */
ast_write(chan, f);
jb_framelog("\tJB_GET {now=%ld}: Interpolated frame with len=%d\n", now, interpolation_len);
break;
case AST_JB_IMPL_NOFRAME:
ast_log(LOG_WARNING,
"AST_JB_IMPL_NOFRAME is returned from the %s jb when now=%ld >= next=%ld, jbnext=%ld!\n",
jbimpl->name, now, jb->next, jbimpl->next(jbobj));
jb_framelog("\tJB_GET {now=%ld}: No frame for now!?\n", now);
return;
default:
ast_log(LOG_ERROR, "This should never happen!\n");
ast_assert("JB type unknown" == NULL);
break;
}
jb->next = jbimpl->next(jbobj);
}
}
static int create_jb(struct ast_channel *chan, struct ast_frame *frr)
{
struct ast_jb *jb = &chan->jb;
struct ast_jb_conf *jbconf = &jb->conf;
const struct ast_jb_impl *jbimpl = jb->impl;
void *jbobj;
struct ast_channel *bridged;
long now;
char logfile_pathname[20 + AST_JB_IMPL_NAME_SIZE + 2*AST_CHANNEL_NAME + 1];
char name1[AST_CHANNEL_NAME], name2[AST_CHANNEL_NAME], *tmp;
int res;
jbobj = jb->jbobj = jbimpl->create(jbconf, jbconf->resync_threshold);
if (!jbobj) {
ast_log(LOG_WARNING, "Failed to create jitterbuffer on channel '%s'\n", ast_channel_name(chan));
return -1;
}
now = get_now(jb, NULL);
res = jbimpl->put_first(jbobj, frr, now);
/* The result of putting the first frame should not differ from OK. However, its possible
some implementations (i.e. adaptive's when resynch_threshold is specified) to drop it. */
if (res != AST_JB_IMPL_OK) {
ast_log(LOG_WARNING, "Failed to put first frame in the jitterbuffer on channel '%s'\n", ast_channel_name(chan));
/*
jbimpl->destroy(jbobj);
return -1;
*/
}
/* Init next */
jb->next = jbimpl->next(jbobj);
/* Init last format for a first time. */
ast_format_copy(&jb->last_format, &frr->subclass.format);
/* Create a frame log file */
if (ast_test_flag(jbconf, AST_JB_LOG)) {
char safe_logfile[30] = "/tmp/logfile-XXXXXX";
int safe_fd;
snprintf(name2, sizeof(name2), "%s", ast_channel_name(chan));
if ((tmp = strchr(name2, '/'))) {
*tmp = '#';
}
bridged = ast_bridged_channel(chan);
/* We should always have bridged chan if a jitterbuffer is in use */
ast_assert(bridged != NULL);
snprintf(name1, sizeof(name1), "%s", ast_channel_name(bridged));
if ((tmp = strchr(name1, '/'))) {
*tmp = '#';
}
snprintf(logfile_pathname, sizeof(logfile_pathname),
"/tmp/ast_%s_jb_%s--%s.log", jbimpl->name, name1, name2);
unlink(logfile_pathname);
safe_fd = mkstemp(safe_logfile);
if (safe_fd < 0 || link(safe_logfile, logfile_pathname) || unlink(safe_logfile) || !(jb->logfile = fdopen(safe_fd, "w+b"))) {
ast_log(LOG_ERROR, "Failed to create frame log file with pathname '%s': %s\n", logfile_pathname, strerror(errno));
jb->logfile = NULL;
if (safe_fd > -1) {
close(safe_fd);
}
}
if (res == AST_JB_IMPL_OK) {
jb_framelog("JB_PUT_FIRST {now=%ld}: Queued frame with ts=%ld and len=%ld\n",
now, frr->ts, frr->len);
} else {
jb_framelog("JB_PUT_FIRST {now=%ld}: Dropped frame with ts=%ld and len=%ld\n",
now, frr->ts, frr->len);
}
}
ast_verb(3, "%s jitterbuffer created on channel %s\n", jbimpl->name, ast_channel_name(chan));
/* Free the frame if it has not been queued in the jb */
if (res != AST_JB_IMPL_OK) {
ast_frfree(frr);
}
return 0;
}
void ast_jb_destroy(struct ast_channel *chan)
{
struct ast_jb *jb = &chan->jb;
const struct ast_jb_impl *jbimpl = jb->impl;
void *jbobj = jb->jbobj;
struct ast_frame *f;
if (jb->logfile) {
fclose(jb->logfile);
jb->logfile = NULL;
}
if (ast_test_flag(jb, JB_CREATED)) {
/* Remove and free all frames still queued in jb */
while (jbimpl->remove(jbobj, &f) == AST_JB_IMPL_OK) {
ast_frfree(f);
}
jbimpl->destroy(jbobj);
jb->jbobj = NULL;
ast_clear_flag(jb, JB_CREATED);
ast_verb(3, "%s jitterbuffer destroyed on channel %s\n", jbimpl->name, ast_channel_name(chan));
}
}
static long get_now(struct ast_jb *jb, struct timeval *when)
{
struct timeval now;
if (!when) {
when = &now;
gettimeofday(when, NULL);
}
return ast_tvdiff_ms(*when, jb->timebase);
}
int ast_jb_read_conf(struct ast_jb_conf *conf, const char *varname, const char *value)
{
int prefixlen = sizeof(AST_JB_CONF_PREFIX) - 1;
const char *name;
int tmp;
if (strncasecmp(AST_JB_CONF_PREFIX, varname, prefixlen)) {
return -1;
}
name = varname + prefixlen;
if (!strcasecmp(name, AST_JB_CONF_ENABLE)) {
ast_set2_flag(conf, ast_true(value), AST_JB_ENABLED);
} else if (!strcasecmp(name, AST_JB_CONF_FORCE)) {
ast_set2_flag(conf, ast_true(value), AST_JB_FORCED);
} else if (!strcasecmp(name, AST_JB_CONF_MAX_SIZE)) {
if ((tmp = atoi(value)) > 0)
conf->max_size = tmp;
} else if (!strcasecmp(name, AST_JB_CONF_RESYNCH_THRESHOLD)) {
if ((tmp = atoi(value)) > 0)
conf->resync_threshold = tmp;
} else if (!strcasecmp(name, AST_JB_CONF_IMPL)) {
if (!ast_strlen_zero(value))
snprintf(conf->impl, sizeof(conf->impl), "%s", value);
} else if (!strcasecmp(name, AST_JB_CONF_TARGET_EXTRA)) {
if (sscanf(value, "%30d", &tmp) == 1) {
conf->target_extra = tmp;
}
} else if (!strcasecmp(name, AST_JB_CONF_LOG)) {
ast_set2_flag(conf, ast_true(value), AST_JB_LOG);
} else {
return -1;
}
return 0;
}
void ast_jb_configure(struct ast_channel *chan, const struct ast_jb_conf *conf)
{
memcpy(&chan->jb.conf, conf, sizeof(*conf));
}
void ast_jb_get_config(const struct ast_channel *chan, struct ast_jb_conf *conf)
{
memcpy(conf, &chan->jb.conf, sizeof(*conf));
}
void ast_jb_empty_and_reset(struct ast_channel *c0, struct ast_channel *c1)
{
struct ast_jb *jb0 = &c0->jb;
struct ast_jb *jb1 = &c1->jb;
int c0_use_jb = ast_test_flag(jb0, JB_USE);
int c0_jb_is_created = ast_test_flag(jb0, JB_CREATED);
int c1_use_jb = ast_test_flag(jb1, JB_USE);
int c1_jb_is_created = ast_test_flag(jb1, JB_CREATED);
if (c0_use_jb && c0_jb_is_created && jb0->impl->empty_and_reset) {
jb0->impl->empty_and_reset(jb0->jbobj);
}
if (c1_use_jb && c1_jb_is_created && jb1->impl->empty_and_reset) {
jb1->impl->empty_and_reset(jb1->jbobj);
}
}
/* Implementation functions */
/* fixed */
static void * jb_create_fixed(struct ast_jb_conf *general_config, long resynch_threshold)
{
struct fixed_jb_conf conf;
conf.jbsize = general_config->max_size;
conf.resync_threshold = resynch_threshold;
return fixed_jb_new(&conf);
}
static void jb_destroy_fixed(void *jb)
{
struct fixed_jb *fixedjb = (struct fixed_jb *) jb;
/* destroy the jb */
fixed_jb_destroy(fixedjb);
}
static int jb_put_first_fixed(void *jb, struct ast_frame *fin, long now)
{
struct fixed_jb *fixedjb = (struct fixed_jb *) jb;
int res;
res = fixed_jb_put_first(fixedjb, fin, fin->len, fin->ts, now);
return fixed_to_abstract_code[res];
}
static int jb_put_fixed(void *jb, struct ast_frame *fin, long now)
{
struct fixed_jb *fixedjb = (struct fixed_jb *) jb;
int res;
res = fixed_jb_put(fixedjb, fin, fin->len, fin->ts, now);
return fixed_to_abstract_code[res];
}
static int jb_get_fixed(void *jb, struct ast_frame **fout, long now, long interpl)
{
struct fixed_jb *fixedjb = (struct fixed_jb *) jb;
struct fixed_jb_frame frame;
int res;
res = fixed_jb_get(fixedjb, &frame, now, interpl);
*fout = frame.data;
return fixed_to_abstract_code[res];
}
static long jb_next_fixed(void *jb)
{
struct fixed_jb *fixedjb = (struct fixed_jb *) jb;
return fixed_jb_next(fixedjb);
}
static int jb_remove_fixed(void *jb, struct ast_frame **fout)
{
struct fixed_jb *fixedjb = (struct fixed_jb *) jb;
struct fixed_jb_frame frame;
int res;
res = fixed_jb_remove(fixedjb, &frame);
*fout = frame.data;
return fixed_to_abstract_code[res];
}
static void jb_force_resynch_fixed(void *jb)
{
struct fixed_jb *fixedjb = (struct fixed_jb *) jb;
fixed_jb_set_force_resynch(fixedjb);
}
static void jb_empty_and_reset_fixed(void *jb)
{
struct fixed_jb *fixedjb = jb;
struct fixed_jb_frame f;
while (fixed_jb_remove(fixedjb, &f) == FIXED_JB_OK) {
ast_frfree(f.data);
}
}
/* adaptive */
static void *jb_create_adaptive(struct ast_jb_conf *general_config, long resynch_threshold)
{
jb_conf jbconf;
jitterbuf *adaptivejb;
adaptivejb = jb_new();
if (adaptivejb) {
jbconf.max_jitterbuf = general_config->max_size;
jbconf.resync_threshold = general_config->resync_threshold;
jbconf.max_contig_interp = 10;
jbconf.target_extra = general_config->target_extra;
jb_setconf(adaptivejb, &jbconf);
}
return adaptivejb;
}
static void jb_destroy_adaptive(void *jb)
{
jitterbuf *adaptivejb = (jitterbuf *) jb;
jb_destroy(adaptivejb);
}
static int jb_put_first_adaptive(void *jb, struct ast_frame *fin, long now)
{
jitterbuf *adaptivejb = (jitterbuf *) jb;
/* Initialize the offset to that of the first frame's timestamp */
adaptivejb->info.resync_offset = fin->ts;
return jb_put_adaptive(jb, fin, now);
}
static int jb_put_adaptive(void *jb, struct ast_frame *fin, long now)
{
jitterbuf *adaptivejb = (jitterbuf *) jb;
int res;
res = jb_put(adaptivejb, fin, JB_TYPE_VOICE, fin->len, fin->ts, now);
return adaptive_to_abstract_code[res];
}
static int jb_get_adaptive(void *jb, struct ast_frame **fout, long now, long interpl)
{
jitterbuf *adaptivejb = (jitterbuf *) jb;
jb_frame frame;
int res;
res = jb_get(adaptivejb, &frame, now, interpl);
*fout = frame.data;
return adaptive_to_abstract_code[res];
}
static long jb_next_adaptive(void *jb)
{
jitterbuf *adaptivejb = (jitterbuf *) jb;
return jb_next(adaptivejb);
}
static int jb_remove_adaptive(void *jb, struct ast_frame **fout)
{
jitterbuf *adaptivejb = (jitterbuf *) jb;
jb_frame frame;
int res;
res = jb_getall(adaptivejb, &frame);
*fout = frame.data;
return adaptive_to_abstract_code[res];
}
static void jb_force_resynch_adaptive(void *jb)
{
}
static void jb_empty_and_reset_adaptive(void *jb)
{
jitterbuf *adaptivejb = jb;
jb_frame f;
while (jb_getall(adaptivejb, &f) == JB_OK) {
ast_frfree(f.data);
}
jb_reset(adaptivejb);
}
const struct ast_jb_impl *ast_jb_get_impl(enum ast_jb_type type)
{
int i;
for (i = 0; i < ARRAY_LEN(avail_impl); i++) {
if (avail_impl[i].type == type) {
return &avail_impl[i];
}
}
return NULL;
}
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