/*
* Handle a signal from the login manager by recording login/logout pairs. Make
* the aggressive assumption that all sessions end when the PrepareForShutdown
* signal is sent with parameter TRUE. This isn't necessarily a valid assumption
* because the shutdown can be cancelled, but in practice we don't get the
* SessionRemoved signal in time if the user shuts down without first logging
* out.
*
* Recording of logins must be 1:1 with recording of logouts, so each time
* we record a login we add the session ID to the humanity_by_session_id set,
* and each time we record a logout we remove the session ID from the
* humanity_by_session_id set.
*/
static void
record_login (GDBusProxy *dbus_proxy,
gchar *sender_name,
gchar *signal_name,
GVariant *parameters,
gpointer user_data)
{
if (strcmp ("SessionRemoved", signal_name) == 0)
{
const gchar *session_id;
g_variant_get (parameters, "(&s&o)", &session_id, NULL);
remove_session (session_id);
}
else if (strcmp ("SessionNew", signal_name) == 0)
{
const gchar *session_id, *session_path;
g_variant_get (parameters, "(&s&o)", &session_id, &session_path);
guint32 user_id;
if (!get_user_id (session_path, &user_id))
return;
add_session (session_id, user_id);
}
}
void bnf::Run( int worker_thread_count )
{
run_flag_ = true;
// session process thread
boost::thread session_process(boost::bind(&bnf::SessionProcessThread, this));
// remove session thread
boost::thread remove_session(boost::bind(&bnf::RemoveSessionThread, this));
// i/o worker thread
for( int i = 0; i < worker_thread_count; i++ )
{
thread_group_.create_thread(boost::bind(&bnf::WorkerThread, this));
LOG_INFO( "bnf - start worker therad." );
}
LOG_INFO( "bnf - running." );
thread_group_.join_all();
LOG_INFO( "bnf - worker thread end." );
io_service_.stop();
// session process 종료Run
PutSessionEvent( SessionEvent::ON_EXIT, NULL );
session_process.join();
LOG_INFO( "bnf - session process thread end." );
// remove session 종료
remove_session_queue_.push_signal(SessionBase::INVALID_SESSION_HANDLE);
remove_session.join();
LOG_INFO( "bnf - remove session thread end." );
}
void yf::LoadBalance::Impl::process(mp::Package &package)
{
bool is_closed_front = false;
// checking for closed front end packages
if (package.session().is_closed())
{
is_closed_front = true;
}
Z_GDU *gdu_req = package.request().get();
// passing anything but z3950 packages
if (gdu_req && gdu_req->which == Z_GDU_Z3950)
{
// target selecting only on Z39.50 init request
if (gdu_req->u.z3950->which == Z_APDU_initRequest)
{
yazpp_1::GDU base_req(gdu_req);
Z_APDU *apdu = base_req.get()->u.z3950;
Z_InitRequest *org_init = base_req.get()->u.z3950->u.initRequest;
mp::odr odr_en(ODR_ENCODE);
std::list<std::string> vhosts;
mp::util::remove_vhost_otherinfo(&(org_init->otherInfo), vhosts);
// get lowest of all vhosts.. Remove them if individually if
// they turn out to be bad..
while (1)
{
std::list<std::string>::iterator ivh = vhosts.begin();
std::list<std::string>::iterator ivh_pick = vhosts.end();
Package init_pkg(package.session(), package.origin());
init_pkg.copy_filter(package);
unsigned int cost_i = std::numeric_limits<unsigned int>::max();
{
boost::mutex::scoped_lock scoped_lock(m_mutex);
for (; ivh != vhosts.end(); ivh++)
{
if ((*ivh).size() != 0)
{
unsigned int cost
= yf::LoadBalance::Impl::cost(*ivh);
std::ostringstream os;
os << "LB" << " "
<< package << " "
<< "0.000000" << " "
<< "Consider " << *ivh
<< " cost=" << cost;
yaz_log(YLOG_LOG, "%s", os.str().c_str());
if (cost_i > cost)
{
ivh_pick = ivh;
cost_i = cost;
}
}
}
}
if (ivh_pick == vhosts.end())
break;
std::string target = *ivh_pick;
vhosts.erase(ivh_pick);
// copying new target into init package
yazpp_1::GDU init_gdu(base_req);
Z_InitRequest *init_req = init_gdu.get()->u.z3950->u.initRequest;
mp::util::set_vhost_otherinfo(&(init_req->otherInfo),
odr_en, target, 1);
init_pkg.request() = init_gdu;
// moving all package types
init_pkg.move();
// checking for closed back end packages
if (!init_pkg.session().is_closed())
{
add_session(package.session().id(), target);
package.response() = init_pkg.response();
return;
}
std::ostringstream os;
os << "LB" << " "
<< package << " "
<< "0.000000" << " "
<< "Failed " << target;
yaz_log(YLOG_LOG, "%s", os.str().c_str());
}
mp::odr odr;
package.response() = odr.create_initResponse(
apdu, YAZ_BIB1_TEMPORARY_SYSTEM_ERROR,
"load_balance: no available targets");
package.session().close();
return;
}
// frontend Z39.50 close request is added to statistics and marked
else if (gdu_req->u.z3950->which == Z_APDU_close)
{
is_closed_front = true;
boost::mutex::scoped_lock scoped_lock(m_mutex);
add_package(package.session().id());
}
// any other Z39.50 package is added to statistics
else
{
boost::mutex::scoped_lock scoped_lock(m_mutex);
add_package(package.session().id());
}
}
// moving all package types
package.move();
bool is_closed_back = false;
// checking for closed back end packages
if (package.session().is_closed())
is_closed_back = true;
Z_GDU *gdu_res = package.response().get();
// passing anything but z3950 packages
if (gdu_res && gdu_res->which == Z_GDU_Z3950)
{
// session closing only on Z39.50 close response
if (gdu_res->u.z3950->which == Z_APDU_close)
{
is_closed_back = true;
boost::mutex::scoped_lock scoped_lock(m_mutex);
remove_package(package.session().id());
}
// any other Z39.50 package is removed from statistics
else
{
boost::mutex::scoped_lock scoped_lock(m_mutex);
remove_package(package.session().id());
}
}
// finally removing sessions and marking deads
if (is_closed_back || is_closed_front)
{
boost::mutex::scoped_lock scoped_lock(m_mutex);
// marking backend dead if backend closed without fronted close
if (is_closed_front == false)
add_dead(package.session().id());
remove_session(package.session().id());
// making sure that package is closed
package.session().close();
}
}
int
handle_command(struct cfg *cf, int controlfd, double dtime)
{
int len, argc, i, pidx, asymmetric;
int external, pf, lidx, playcount, weak, tpf;
int fds[2], lport, n;
socklen_t rlen;
char buf[1024 * 8];
char *cp, *call_id, *from_tag, *to_tag, *addr, *port, *cookie;
char *pname, *codecs, *recording_name, *t;
struct rtpp_session *spa, *spb;
char **ap, *argv[10];
const char *rname, *errmsg;
struct sockaddr *ia[2], *lia[2];
struct sockaddr_storage raddr;
int requested_nsamples;
enum {DELETE, RECORD, PLAY, NOPLAY, COPY, UPDATE, LOOKUP, QUERY} op;
int max_argc;
char *socket_name_u, *notify_tag;
struct sockaddr *local_addr;
char c;
requested_nsamples = -1;
ia[0] = ia[1] = NULL;
spa = spb = NULL;
lia[0] = lia[1] = cf->bindaddr[0];
lidx = 1;
fds[0] = fds[1] = -1;
recording_name = NULL;
socket_name_u = notify_tag = NULL;
local_addr = NULL;
codecs = NULL;
if (cf->umode == 0) {
for (;;) {
len = read(controlfd, buf, sizeof(buf) - 1);
if (len != -1 || (errno != EAGAIN && errno != EINTR))
break;
sched_yield();
}
} else {
rlen = sizeof(raddr);
len = recvfrom(controlfd, buf, sizeof(buf) - 1, 0,
sstosa(&raddr), &rlen);
}
if (len == -1) {
if (errno != EAGAIN && errno != EINTR)
rtpp_log_ewrite(RTPP_LOG_ERR, cf->glog, "can't read from control socket");
return -1;
}
buf[len] = '\0';
rtpp_log_write(RTPP_LOG_DBUG, cf->glog, "received command \"%s\"", buf);
cp = buf;
argc = 0;
memset(argv, 0, sizeof(argv));
for (ap = argv; (*ap = rtpp_strsep(&cp, "\r\n\t ")) != NULL;)
if (**ap != '\0') {
argc++;
if (++ap >= &argv[10])
break;
}
cookie = NULL;
if (argc < 1 || (cf->umode != 0 && argc < 2)) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 0);
return 0;
}
/* Stream communication mode doesn't use cookie */
if (cf->umode != 0) {
cookie = argv[0];
for (i = 1; i < argc; i++)
argv[i - 1] = argv[i];
argc--;
argv[argc] = NULL;
} else {
cookie = NULL;
}
addr = port = NULL;
switch (argv[0][0]) {
case 'u':
case 'U':
/* U[opts] callid remote_ip remote_port from_tag [to_tag] */
op = UPDATE;
rname = "update/create";
break;
case 'l':
case 'L':
op = LOOKUP;
rname = "lookup";
break;
case 'd':
case 'D':
op = DELETE;
rname = "delete";
break;
case 'p':
case 'P':
/*
* P callid pname codecs from_tag to_tag
*
* <codecs> could be either comma-separated list of supported
* payload types or word "session" (without quotes), in which
* case list saved on last session update will be used instead.
*/
op = PLAY;
rname = "play";
playcount = 1;
pname = argv[2];
codecs = argv[3];
break;
case 'r':
case 'R':
op = RECORD;
rname = "record";
break;
case 'c':
case 'C':
op = COPY;
rname = "copy";
break;
case 's':
case 'S':
op = NOPLAY;
rname = "noplay";
break;
case 'v':
case 'V':
if (argv[0][1] == 'F' || argv[0][1] == 'f') {
int i, known;
/*
* Wait for protocol version datestamp and check whether we
* know it.
*/
if (argc != 2 && argc != 3) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 2);
return 0;
}
/*
* Only list 20081224 protocol mod as supported if
* user actually enabled notification with -n
*/
if (strcmp(argv[1], "20081224") == 0 &&
cf->timeout_handler.socket_name == NULL) {
reply_number(cf, controlfd, &raddr, rlen, cookie, 0);
return 0;
}
for (known = i = 0; proto_caps[i].pc_id != NULL; ++i) {
if (!strcmp(argv[1], proto_caps[i].pc_id)) {
known = 1;
break;
}
}
reply_number(cf, controlfd, &raddr, rlen, cookie, known);
return 0;
}
if (argc != 1 && argc != 2) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 2);
return 0;
}
/* This returns base version. */
reply_number(cf, controlfd, &raddr, rlen, cookie, CPROTOVER);
return 0;
case 'i':
case 'I':
if (cookie == NULL)
len = sprintf(buf, "sessions created: %llu\nactive sessions: %d\n"
"active streams: %d\n", cf->sessions_created,
cf->sessions_active, cf->nsessions / 2);
else
len = sprintf(buf, "%s sessions created: %llu\nactive sessions: %d\n"
"active streams: %d\n", cookie, cf->sessions_created,
cf->sessions_active, cf->nsessions / 2);
for (i = 1; i < cf->nsessions; i++) {
char addrs[4][256];
spa = cf->sessions[i];
if (spa == NULL || spa->sidx[0] != i)
continue;
/* RTCP twin session */
if (spa->rtcp == NULL) {
spb = spa->rtp;
buf[len++] = '\t';
} else {
spb = spa->rtcp;
buf[len++] = '\t';
buf[len++] = 'C';
buf[len++] = ' ';
}
addr2char_r(spb->laddr[1], addrs[0], sizeof(addrs[0]));
if (spb->addr[1] == NULL) {
strcpy(addrs[1], "NONE");
} else {
sprintf(addrs[1], "%s:%d", addr2char(spb->addr[1]),
addr2port(spb->addr[1]));
}
addr2char_r(spb->laddr[0], addrs[2], sizeof(addrs[2]));
if (spb->addr[0] == NULL) {
strcpy(addrs[3], "NONE");
} else {
sprintf(addrs[3], "%s:%d", addr2char(spb->addr[0]),
addr2port(spb->addr[0]));
}
len += sprintf(buf + len,
"%s/%s: caller = %s:%d/%s, callee = %s:%d/%s, "
"stats = %lu/%lu/%lu/%lu, ttl = %d/%d\n",
spb->call_id, spb->tag, addrs[0], spb->ports[1], addrs[1],
addrs[2], spb->ports[0], addrs[3], spa->pcount[0], spa->pcount[1],
spa->pcount[2], spa->pcount[3], spb->ttl[0], spb->ttl[1]);
if (len + 512 > sizeof(buf)) {
doreply(cf, controlfd, buf, len, &raddr, rlen);
len = 0;
}
}
if (len > 0)
doreply(cf, controlfd, buf, len, &raddr, rlen);;
return 0;
break;
case 'q':
case 'Q':
op = QUERY;
rname = "query";
break;
case 'x':
case 'X':
/* Delete all active sessions */
rtpp_log_write(RTPP_LOG_INFO, cf->glog, "deleting all active sessions");
for (i = 1; i < cf->nsessions; i++) {
spa = cf->sessions[i];
if (spa == NULL || spa->sidx[0] != i)
continue;
/* Skip RTCP twin session */
if (spa->rtcp != NULL) {
remove_session(cf, spa);
}
}
reply_ok(cf, controlfd, &raddr, rlen, cookie);
return 0;
break;
default:
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "unknown command");
reply_error(cf, controlfd, &raddr, rlen, cookie, 3);
return 0;
}
call_id = argv[1];
if (op == UPDATE || op == LOOKUP || op == PLAY) {
max_argc = (op == UPDATE ? 8 : 6);
if (argc < 5 || argc > max_argc) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 4);
return 0;
}
from_tag = argv[4];
to_tag = argv[5];
if (op == PLAY && argv[0][1] != '\0')
playcount = atoi(argv[0] + 1);
if (op == UPDATE && argc > 6) {
socket_name_u = argv[6];
if (strncmp("unix:", socket_name_u, 5) == 0)
socket_name_u += 5;
if (argc == 8) {
notify_tag = argv[7];
len = url_unquote((uint8_t *)notify_tag, strlen(notify_tag));
if (len == -1) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog,
"command syntax error - invalid URL encoding");
reply_error(cf, controlfd, &raddr, rlen, cookie, 4);
return 0;
}
notify_tag[len] = '\0';
}
}
}
if (op == COPY) {
if (argc < 4 || argc > 5) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
recording_name = argv[2];
from_tag = argv[3];
to_tag = argv[4];
}
if (op == DELETE || op == RECORD || op == NOPLAY || op == QUERY) {
if (argc < 3 || argc > 4) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
from_tag = argv[2];
to_tag = argv[3];
}
if (op == DELETE || op == RECORD || op == COPY || op == NOPLAY) {
/* D, R and S commands don't take any modifiers */
if (argv[0][1] != '\0') {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
}
if (op == UPDATE || op == LOOKUP || op == DELETE) {
addr = argv[2];
port = argv[3];
/* Process additional command modifiers */
external = 1;
/* In bridge mode all clients are assumed to be asymmetric */
asymmetric = (cf->bmode != 0) ? 1 : 0;
pf = AF_INET;
weak = 0;
for (cp = argv[0] + 1; *cp != '\0'; cp++) {
switch (*cp) {
case 'a':
case 'A':
asymmetric = 1;
break;
case 'e':
case 'E':
if (lidx < 0) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
lia[lidx] = cf->bindaddr[1];
lidx--;
break;
case 'i':
case 'I':
if (lidx < 0) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
lia[lidx] = cf->bindaddr[0];
lidx--;
break;
case '6':
pf = AF_INET6;
break;
case 's':
case 'S':
asymmetric = 0;
break;
case 'w':
case 'W':
weak = 1;
break;
case 'z':
case 'Z':
requested_nsamples = (strtol(cp + 1, &cp, 10) / 10) * 80;
if (requested_nsamples <= 0) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
cp--;
break;
case 'c':
case 'C':
cp += 1;
for (t = cp; *cp != '\0'; cp++) {
if (!isdigit(*cp) && *cp != ',')
break;
}
if (t == cp) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
codecs = alloca(cp - t + 1);
memcpy(codecs, t, cp - t);
codecs[cp - t] = '\0';
cp--;
break;
case 'l':
case 'L':
len = extractaddr(cp + 1, &t, &cp, &tpf);
if (len == -1) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
c = t[len];
t[len] = '\0';
local_addr = host2bindaddr(cf, t, tpf, &errmsg);
if (local_addr == NULL) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog,
"invalid local address: %s: %s", t, errmsg);
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
t[len] = c;
cp--;
break;
case 'r':
case 'R':
len = extractaddr(cp + 1, &t, &cp, &tpf);
if (len == -1) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "command syntax error");
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
c = t[len];
t[len] = '\0';
local_addr = alloca(sizeof(struct sockaddr_storage));
n = resolve(local_addr, tpf, t, SERVICE, AI_PASSIVE);
if (n != 0) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog,
"invalid remote address: %s: %s", t, gai_strerror(n));
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
if (local4remote(cf, local_addr, satoss(local_addr)) == -1) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog,
"can't find local address for remote address: %s", t);
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
local_addr = addr2bindaddr(cf, local_addr, &errmsg);
if (local_addr == NULL) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog,
"invalid local address: %s", errmsg);
reply_error(cf, controlfd, &raddr, rlen, cookie, 1);
return 0;
}
t[len] = c;
cp--;
break;
default:
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "unknown command modifier `%c'",
*cp);
break;
}
}
if (op != DELETE && addr != NULL && port != NULL && strlen(addr) >= 7) {
struct sockaddr_storage tia;
if ((n = resolve(sstosa(&tia), pf, addr, port,
AI_NUMERICHOST)) == 0) {
if (!ishostnull(sstosa(&tia))) {
for (i = 0; i < 2; i++) {
ia[i] = malloc(SS_LEN(&tia));
if (ia[i] == NULL) {
handle_nomem(cf, controlfd, &raddr, rlen, cookie,
5, ia, fds, spa, spb);
return 0;
}
memcpy(ia[i], &tia, SS_LEN(&tia));
}
/* Set port for RTCP, will work both for IPv4 and IPv6 */
n = ntohs(satosin(ia[1])->sin_port);
satosin(ia[1])->sin_port = htons(n + 1);
}
} else {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "getaddrinfo: %s",
gai_strerror(n));
}
}
}
/*
* Record and delete need special handling since they apply to all
* streams in the session.
*/
switch (op) {
case DELETE:
i = handle_delete(cf, call_id, from_tag, to_tag, weak);
break;
case RECORD:
i = handle_record(cf, call_id, from_tag, to_tag);
break;
default:
i = find_stream(cf, call_id, from_tag, to_tag, &spa);
if (i != -1 && op != UPDATE)
i = NOT(i);
break;
}
if (i == -1 && op != UPDATE) {
rtpp_log_write(RTPP_LOG_INFO, cf->glog,
"%s request failed: session %s, tags %s/%s not found", rname,
call_id, from_tag, to_tag != NULL ? to_tag : "NONE");
if (op == LOOKUP) {
for (i = 0; i < 2; i++)
if (ia[i] != NULL)
free(ia[i]);
reply_port(cf, controlfd, &raddr, rlen, cookie, 0, lia);
return 0;
}
reply_error(cf, controlfd, &raddr, rlen, cookie, 8);
return 0;
}
switch (op) {
case DELETE:
case RECORD:
reply_ok(cf, controlfd, &raddr, rlen, cookie);
return 0;
case NOPLAY:
handle_noplay(cf, spa, i);
reply_ok(cf, controlfd, &raddr, rlen, cookie);
return 0;
case PLAY:
handle_noplay(cf, spa, i);
if (strcmp(codecs, "session") == 0) {
if (spa->codecs[i] == NULL) {
reply_error(cf, controlfd, &raddr, rlen, cookie, 6);
return 0;
}
codecs = spa->codecs[i];
}
if (playcount != 0 && handle_play(cf, spa, i, codecs, pname, playcount) != 0) {
reply_error(cf, controlfd, &raddr, rlen, cookie, 6);
return 0;
}
reply_ok(cf, controlfd, &raddr, rlen, cookie);
return 0;
case COPY:
handle_copy(cf, spa, i, recording_name);
reply_ok(cf, controlfd, &raddr, rlen, cookie);
return 0;
case QUERY:
handle_query(cf, controlfd, &raddr, rlen, cookie, spa, i);
return 0;
case LOOKUP:
case UPDATE:
/* those are handled below */
break;
default:
/* Programmatic error, should not happen */
abort();
}
pidx = 1;
lport = 0;
if (i != -1) {
assert(op == UPDATE || op == LOOKUP);
if (spa->fds[i] == -1) {
if (local_addr != NULL) {
spa->laddr[i] = local_addr;
}
if (create_listener(cf, spa->laddr[i], &lport, fds) == -1) {
rtpp_log_write(RTPP_LOG_ERR, spa->log, "can't create listener");
reply_error(cf, controlfd, &raddr, rlen, cookie, 7);
return 0;
}
assert(spa->fds[i] == -1);
spa->fds[i] = fds[0];
assert(spa->rtcp->fds[i] == -1);
spa->rtcp->fds[i] = fds[1];
spa->ports[i] = lport;
spa->rtcp->ports[i] = lport + 1;
spa->complete = spa->rtcp->complete = 1;
append_session(cf, spa, i);
append_session(cf, spa->rtcp, i);
}
if (weak)
spa->weak[i] = 1;
else if (op == UPDATE)
spa->strong = 1;
lport = spa->ports[i];
lia[0] = spa->laddr[i];
pidx = (i == 0) ? 1 : 0;
spa->ttl_mode = cf->ttl_mode;
spa->ttl[0] = cf->max_ttl;
spa->ttl[1] = cf->max_ttl;
if (op == UPDATE) {
rtpp_log_write(RTPP_LOG_INFO, spa->log,
"adding %s flag to existing session, new=%d/%d/%d",
weak ? ( i ? "weak[1]" : "weak[0]" ) : "strong",
spa->strong, spa->weak[0], spa->weak[1]);
}
rtpp_log_write(RTPP_LOG_INFO, spa->log,
"lookup on ports %d/%d, session timer restarted", spa->ports[0],
spa->ports[1]);
} else {
assert(op == UPDATE);
rtpp_log_write(RTPP_LOG_INFO, cf->glog,
"new session %s, tag %s requested, type %s",
call_id, from_tag, weak ? "weak" : "strong");
if (local_addr != NULL) {
lia[0] = lia[1] = local_addr;
if (lia[0] == NULL) {
rtpp_log_write(RTPP_LOG_ERR, spa->log,
"can't create listener: %s", t);
reply_error(cf, controlfd, &raddr, rlen, cookie, 10);
return 0;
}
}
if (create_listener(cf, lia[0], &lport, fds) == -1) {
rtpp_log_write(RTPP_LOG_ERR, cf->glog, "can't create listener");
reply_error(cf, controlfd, &raddr, rlen, cookie, 10);
return 0;
}
/*
* Session creation. If creation is requested with weak flag,
* set weak[0].
*/
spa = malloc(sizeof(*spa));
if (spa == NULL) {
handle_nomem(cf, controlfd, &raddr, rlen, cookie, 11, ia,
fds, spa, spb);
return 0;
}
/* spb is RTCP twin session for this one. */
spb = malloc(sizeof(*spb));
if (spb == NULL) {
handle_nomem(cf, controlfd, &raddr, rlen, cookie, 12, ia,
fds, spa, spb);
return 0;
}
memset(spa, 0, sizeof(*spa));
memset(spb, 0, sizeof(*spb));
for (i = 0; i < 2; i++) {
spa->fds[i] = spb->fds[i] = -1;
spa->last_update[i] = 0;
spb->last_update[i] = 0;
}
spa->call_id = strdup(call_id);
if (spa->call_id == NULL) {
handle_nomem(cf, controlfd, &raddr, rlen, cookie, 13, ia,
fds, spa, spb);
return 0;
}
spb->call_id = spa->call_id;
spa->tag = strdup(from_tag);
if (spa->tag == NULL) {
handle_nomem(cf, controlfd, &raddr, rlen, cookie, 14, ia,
fds, spa, spb);
return 0;
}
spb->tag = spa->tag;
for (i = 0; i < 2; i++) {
spa->rrcs[i] = NULL;
spb->rrcs[i] = NULL;
spa->laddr[i] = lia[i];
spb->laddr[i] = lia[i];
}
spa->strong = spa->weak[0] = spa->weak[1] = 0;
if (weak)
spa->weak[0] = 1;
else
spa->strong = 1;
assert(spa->fds[0] == -1);
spa->fds[0] = fds[0];
assert(spb->fds[0] == -1);
spb->fds[0] = fds[1];
spa->ports[0] = lport;
spb->ports[0] = lport + 1;
spa->ttl[0] = cf->max_ttl;
spa->ttl[1] = cf->max_ttl;
spb->ttl[0] = -1;
spb->ttl[1] = -1;
spa->log = rtpp_log_open(cf, "rtpproxy", spa->call_id, 0);
spb->log = spa->log;
spa->rtcp = spb;
spb->rtcp = NULL;
spa->rtp = NULL;
spb->rtp = spa;
spa->sridx = spb->sridx = -1;
append_session(cf, spa, 0);
append_session(cf, spa, 1);
append_session(cf, spb, 0);
append_session(cf, spb, 1);
hash_table_append(cf, spa);
cf->sessions_created++;
cf->sessions_active++;
/*
* Each session can consume up to 5 open file descriptors (2 RTP,
* 2 RTCP and 1 logging) so that warn user when he is likely to
* exceed 80% mark on hard limit.
*/
if (cf->sessions_active > (cf->nofile_limit.rlim_max * 80 / (100 * 5)) &&
cf->nofile_limit_warned == 0) {
cf->nofile_limit_warned = 1;
rtpp_log_write(RTPP_LOG_WARN, cf->glog, "passed 80%% "
"threshold on the open file descriptors limit (%d), "
"consider increasing the limit using -L command line "
"option", (int)cf->nofile_limit.rlim_max);
}
rtpp_log_write(RTPP_LOG_INFO, spa->log, "new session on a port %d created, "
"tag %s", lport, from_tag);
if (cf->record_all != 0) {
handle_copy(cf, spa, 0, NULL);
handle_copy(cf, spa, 1, NULL);
}
}
if (op == UPDATE) {
if (cf->timeout_handler.socket_name == NULL && socket_name_u != NULL)
rtpp_log_write(RTPP_LOG_ERR, spa->log, "must permit notification socket with -n");
if (spa->timeout_data.notify_tag != NULL) {
free(spa->timeout_data.notify_tag);
spa->timeout_data.notify_tag = NULL;
}
if (cf->timeout_handler.socket_name != NULL && socket_name_u != NULL) {
if (strcmp(cf->timeout_handler.socket_name, socket_name_u) != 0) {
rtpp_log_write(RTPP_LOG_ERR, spa->log, "invalid socket name %s", socket_name_u);
socket_name_u = NULL;
} else {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "setting timeout handler");
spa->timeout_data.handler = &cf->timeout_handler;
spa->timeout_data.notify_tag = strdup(notify_tag);
}
} else if (socket_name_u == NULL && spa->timeout_data.handler != NULL) {
spa->timeout_data.handler = NULL;
rtpp_log_write(RTPP_LOG_INFO, spa->log, "disabling timeout handler");
}
}
if (ia[0] != NULL && ia[1] != NULL) {
if (spa->addr[pidx] != NULL)
spa->last_update[pidx] = dtime;
if (spa->rtcp->addr[pidx] != NULL)
spa->rtcp->last_update[pidx] = dtime;
/*
* Unless the address provided by client historically
* cannot be trusted and address is different from one
* that we recorded update it.
*/
if (spa->untrusted_addr[pidx] == 0 && !(spa->addr[pidx] != NULL &&
SA_LEN(ia[0]) == SA_LEN(spa->addr[pidx]) &&
memcmp(ia[0], spa->addr[pidx], SA_LEN(ia[0])) == 0)) {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "pre-filling %s's address "
"with %s:%s", (pidx == 0) ? "callee" : "caller", addr, port);
if (spa->addr[pidx] != NULL) {
if (spa->canupdate[pidx] == 0) {
if (spa->prev_addr[pidx] != NULL)
free(spa->prev_addr[pidx]);
spa->prev_addr[pidx] = spa->addr[pidx];
} else {
free(spa->addr[pidx]);
}
}
spa->addr[pidx] = ia[0];
ia[0] = NULL;
}
if (spa->rtcp->untrusted_addr[pidx] == 0 && !(spa->rtcp->addr[pidx] != NULL &&
SA_LEN(ia[1]) == SA_LEN(spa->rtcp->addr[pidx]) &&
memcmp(ia[1], spa->rtcp->addr[pidx], SA_LEN(ia[1])) == 0)) {
if (spa->rtcp->addr[pidx] != NULL) {
if (spa->rtcp->canupdate[pidx] == 0) {
if (spa->rtcp->prev_addr[pidx] != NULL)
free(spa->rtcp->prev_addr[pidx]);
spa->rtcp->prev_addr[pidx] = spa->rtcp->addr[pidx];
} else {
free(spa->rtcp->addr[pidx]);
}
}
spa->rtcp->addr[pidx] = ia[1];
ia[1] = NULL;
}
}
spa->asymmetric[pidx] = spa->rtcp->asymmetric[pidx] = asymmetric;
spa->canupdate[pidx] = spa->rtcp->canupdate[pidx] = NOT(asymmetric);
if (spa->codecs[pidx] != NULL) {
free(spa->codecs[pidx]);
spa->codecs[pidx] = NULL;
}
if (codecs != NULL)
spa->codecs[pidx] = strdup(codecs);
if (requested_nsamples > 0) {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "RTP packets from %s "
"will be resized to %d milliseconds",
(pidx == 0) ? "callee" : "caller", requested_nsamples / 8);
} else if (spa->resizers[pidx].output_nsamples > 0) {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "Resizing of RTP "
"packets from %s has been disabled",
(pidx == 0) ? "callee" : "caller");
}
spa->resizers[pidx].output_nsamples = requested_nsamples;
for (i = 0; i < 2; i++)
if (ia[i] != NULL)
free(ia[i]);
assert(lport != 0);
reply_port(cf, controlfd, &raddr, rlen, cookie, lport, lia);
return 0;
}
static int
handle_delete(struct cfg *cf, char *call_id, char *from_tag, char *to_tag, int weak)
{
int ndeleted;
unsigned int medianum;
struct rtpp_session *spa, *spb;
int cmpr, cmpr1, idx;
ndeleted = 0;
for (spa = session_findfirst(cf, call_id); spa != NULL;) {
medianum = 0;
if ((cmpr1 = compare_session_tags(spa->tag, from_tag, &medianum)) != 0) {
idx = 1;
cmpr = cmpr1;
} else if (to_tag != NULL &&
(cmpr1 = compare_session_tags(spa->tag, to_tag, &medianum)) != 0) {
idx = 0;
cmpr = cmpr1;
} else {
spa = session_findnext(spa);
continue;
}
if (weak)
spa->weak[idx] = 0;
else
spa->strong = 0;
/*
* This seems to be stable from reiterations, the only side
* effect is less efficient work.
*/
if (spa->strong || spa->weak[0] || spa->weak[1]) {
rtpp_log_write(RTPP_LOG_INFO, spa->log,
"delete: medianum=%u: removing %s flag, seeing flags to"
" continue session (strong=%d, weak=%d/%d)",
medianum,
weak ? ( idx ? "weak[1]" : "weak[0]" ) : "strong",
spa->strong, spa->weak[0], spa->weak[1]);
/* Skipping to next possible stream for this call */
++ndeleted;
spa = session_findnext(spa);
continue;
}
rtpp_log_write(RTPP_LOG_INFO, spa->log,
"forcefully deleting session %u on ports %d/%d",
medianum, spa->ports[0], spa->ports[1]);
/* Search forward before we do removal */
spb = spa;
spa = session_findnext(spa);
remove_session(cf, spb);
++ndeleted;
if (cmpr != 2) {
break;
}
}
if (ndeleted == 0) {
return -1;
}
return 0;
}
static void
process_rtp(struct cfg *cf, double dtime, int alarm_tick)
{
int readyfd, skipfd, ridx;
struct rtpp_session *sp;
struct rtp_packet *packet;
/* Relay RTP/RTCP */
skipfd = 0;
pthread_mutex_lock(&cf->sessinfo.lock);
for (readyfd = 0; readyfd < cf->sessinfo.nsessions; readyfd++) {
sp = cf->sessinfo.sessions[readyfd];
if (alarm_tick != 0 && sp != NULL && sp->rtcp != NULL &&
sp->sidx[0] == readyfd) {
if (get_ttl(sp) == 0) {
rtpp_log_write(RTPP_LOG_INFO, sp->log, "session timeout");
rtpp_notify_schedule(cf, sp);
remove_session(cf, sp);
} else {
if (sp->ttl[0] != 0)
sp->ttl[0]--;
if (sp->ttl[1] != 0)
sp->ttl[1]--;
}
}
if (cf->sessinfo.pfds[readyfd].fd == -1) {
/* Deleted session, count and move one */
skipfd++;
continue;
}
/* Find index of the call leg within a session */
for (ridx = 0; ridx < 2; ridx++)
if (cf->sessinfo.pfds[readyfd].fd == sp->fds[ridx])
break;
/*
* Can't happen.
*/
assert(ridx != 2);
/* Compact pfds[] and sessions[] by eliminating removed sessions */
if (skipfd > 0) {
cf->sessinfo.pfds[readyfd - skipfd] = cf->sessinfo.pfds[readyfd];
cf->sessinfo.sessions[readyfd - skipfd] = cf->sessinfo.sessions[readyfd];
sp->sidx[ridx] = readyfd - skipfd;
}
if (sp->complete != 0) {
if ((cf->sessinfo.pfds[readyfd].revents & POLLIN) != 0)
rxmit_packets(cf, sp, ridx, dtime);
if (sp->resizers[ridx].output_nsamples > 0) {
while ((packet = rtp_resizer_get(&sp->resizers[ridx], dtime)) != NULL) {
send_packet(cf, sp, ridx, packet);
rtp_packet_free(packet);
}
}
}
}
/* Trim any deleted sessions at the end */
cf->sessinfo.nsessions -= skipfd;
pthread_mutex_unlock(&cf->sessinfo.lock);
}
static void
rxmit_packets(struct cfg *cf, struct rtpp_session *sp, int ridx,
double dtime)
{
int ndrain, i, port;
struct rtp_packet *packet = NULL;
/* Repeat since we may have several packets queued on the same socket */
for (ndrain = 0; ndrain < 5; ndrain++) {
if (packet != NULL)
rtp_packet_free(packet);
packet = rtp_recv(sp->fds[ridx]);
if (packet == NULL)
break;
packet->laddr = sp->laddr[ridx];
packet->rport = sp->ports[ridx];
packet->rtime = dtime;
i = 0;
if (sp->addr[ridx] != NULL) {
/* Check that the packet is authentic, drop if it isn't */
if (sp->asymmetric[ridx] == 0) {
if (memcmp(sp->addr[ridx], &packet->raddr, packet->rlen) != 0) {
if (sp->canupdate[ridx] == 0) {
/*
* Continue, since there could be good packets in
* queue.
*/
continue;
}
/* Signal that an address has to be updated */
i = 1;
} else if (sp->canupdate[ridx] != 0 &&
sp->last_update[ridx] != 0 &&
dtime - sp->last_update[ridx] > UPDATE_WINDOW) {
sp->canupdate[ridx] = 0;
}
} else {
/*
* For asymmetric clients don't check
* source port since it may be different.
*/
if (!ishostseq(sp->addr[ridx], sstosa(&packet->raddr)))
/*
* Continue, since there could be good packets in
* queue.
*/
continue;
}
sp->pcount[ridx]++;
} else {
sp->pcount[ridx]++;
sp->addr[ridx] = malloc(packet->rlen);
if (sp->addr[ridx] == NULL) {
sp->pcount[3]++;
rtpp_log_write(RTPP_LOG_ERR, sp->log,
"can't allocate memory for remote address - "
"removing session");
remove_session(cf, GET_RTP(sp));
/* Break, sp is invalid now */
break;
}
/* Signal that an address have to be updated. */
i = 1;
}
/*
* Update recorded address if it's necessary. Set "untrusted address"
* flag in the session state, so that possible future address updates
* from that client won't get address changed immediately to some
* bogus one.
*/
if (i != 0) {
sp->untrusted_addr[ridx] = 1;
memcpy(sp->addr[ridx], &packet->raddr, packet->rlen);
if (sp->prev_addr[ridx] == NULL || memcmp(sp->prev_addr[ridx],
&packet->raddr, packet->rlen) != 0) {
sp->canupdate[ridx] = 0;
}
port = ntohs(satosin(&packet->raddr)->sin_port);
rtpp_log_write(RTPP_LOG_INFO, sp->log,
"%s's address filled in: %s:%d (%s)",
(ridx == 0) ? "callee" : "caller",
addr2char(sstosa(&packet->raddr)), port,
(sp->rtp == NULL) ? "RTP" : "RTCP");
/*
* Check if we have updated RTP while RTCP is still
* empty or contains address that differs from one we
* used when updating RTP. Try to guess RTCP if so,
* should be handy for non-NAT'ed clients, and some
* NATed as well.
*/
if (sp->rtcp != NULL && (sp->rtcp->addr[ridx] == NULL ||
!ishostseq(sp->rtcp->addr[ridx], sstosa(&packet->raddr)))) {
if (sp->rtcp->addr[ridx] == NULL) {
sp->rtcp->addr[ridx] = malloc(packet->rlen);
if (sp->rtcp->addr[ridx] == NULL) {
sp->pcount[3]++;
rtpp_log_write(RTPP_LOG_ERR, sp->log,
"can't allocate memory for remote address - "
"removing session");
remove_session(cf, sp);
/* Break, sp is invalid now */
break;
}
}
memcpy(sp->rtcp->addr[ridx], &packet->raddr, packet->rlen);
satosin(sp->rtcp->addr[ridx])->sin_port = htons(port + 1);
/* Use guessed value as the only true one for asymmetric clients */
sp->rtcp->canupdate[ridx] = NOT(sp->rtcp->asymmetric[ridx]);
rtpp_log_write(RTPP_LOG_INFO, sp->log, "guessing RTCP port "
"for %s to be %d",
(ridx == 0) ? "callee" : "caller", port + 1);
}
}
if (sp->resizers[ridx].output_nsamples > 0)
rtp_resizer_enqueue(&sp->resizers[ridx], &packet);
if (packet != NULL)
send_packet(cf, sp, ridx, packet);
}
if (packet != NULL)
rtp_packet_free(packet);
}
void socket_read_handle(struct ev_loop *reactor, ev_io *w, int events)
{
session_t *s_session = (session_t*)w;
if(s_session->to_process == HEADER){
/* here is a brand new packet */
int r_len = read(w->fd, &s_session->header, 1);
if(r_len == 0){
log_error("unexpected EOF");
remove_session(s_session);
return;
}
s_session->recv_length += 1;
//s_session->command = get_command(s_session->header);
s_session->to_process = REMAINING;
}
if(s_session->to_process == REMAINING){
/*
* get "remaining" part in header, it may takes 1~4 bytes, and it has
* to read one by one.
*
*/
do{
int r_len = read(w->fd, s_session->remain_bytes+(int)s_session->remaining_read, 1);
if(r_len == 0){
log_error("unexpected EOF");
remove_session(s_session);
return;
}
if(r_len < 0){
if(errno == EAGAIN || errno == EINTR){
/* exit wait for next data in */
return;
}else{
log_error("error connection");
remove_session(s_session);
return;
}
}
s_session->remaining_read += 1;
s_session->recv_length += r_len;
/* it means at least one more byte exist */
if((s_session->remain_bytes[s_session->remaining_read-1] & 128) > 0){
/* 4 bytes at most for repesenting remaining length */
if( s_session->remaining_read >= MQTT_LENGTH_MAX_BYTE){
log_error("protocol error");
remove_session(s_session);
return;
}
}else{
/* all bytes for remaining length read */
s_session->remaining_length = get_remaining_length(s_session->remain_bytes);
s_session->to_process = CONTENT;
s_session->recv_length = 0;
s_session->content = (char*)talloc(s_session->remaining_length);
break;
}
}while(1);
}
if(s_session->to_process == CONTENT){
/* at least one byte left to read */
do{
int r_len;
r_len = read(w->fd, s_session->content, s_session->remaining_length-s_session->recv_length);
if(r_len == 0){
log_error("unexpected EOF");
remove_session(s_session);
return;
}
if(r_len < 0){
if(errno == EAGAIN || errno == EINTR){
return;
}else{
log_error("error connection");
remove_session(s_session);
return;
}
}
s_session->recv_length += r_len;
if(s_session->recv_length >= s_session->remaining_length){
_msg_add(pdata.msg_queue, s_session);
_clean_session(s_session);
break;
}
}while(1);
}
return;
}
int
rtpp_command_ul_handle(struct cfg *cf, struct rtpp_command *cmd,
struct common_cmd_args *ccap, struct ul_opts *ulop,
struct rtpp_session *sp, int sidx)
{
int pidx, lport, i;
int fds[2];
char *cp;
struct rtpp_session *spa, *spb;
pidx = 1;
lport = 0;
spa = spb = NULL;
fds[0] = fds[1] = -1;
if (sidx != -1) {
assert(ccap->op == UPDATE || ccap->op == LOOKUP);
spa = sp;
if (spa->fds[sidx] == -1) {
if (ulop->local_addr != NULL) {
spa->laddr[sidx] = ulop->local_addr;
}
if (rtpp_create_listener(cf, spa->laddr[sidx], &lport, fds) == -1) {
rtpp_log_write(RTPP_LOG_ERR, spa->log, "can't create listener");
reply_error(cf, cmd, ECODE_LSTFAIL_1);
goto err_undo_0;
}
assert(spa->fds[sidx] == -1);
spa->fds[sidx] = fds[0];
assert(spa->rtcp->fds[sidx] == -1);
spa->rtcp->fds[sidx] = fds[1];
spa->ports[sidx] = lport;
spa->rtcp->ports[sidx] = lport + 1;
if (spa->complete == 0) {
cmd->csp->nsess_complete.cnt++;
}
spa->complete = spa->rtcp->complete = 1;
append_session(cf, spa, sidx);
}
if (ulop->weak)
spa->weak[sidx] = 1;
else if (ccap->op == UPDATE)
spa->strong = 1;
lport = spa->ports[sidx];
ulop->lia[0] = spa->laddr[sidx];
pidx = (sidx == 0) ? 1 : 0;
spa->ttl_mode = cf->stable->ttl_mode;
spa->ttl[0] = cf->stable->max_ttl;
spa->ttl[1] = cf->stable->max_ttl;
if (ccap->op == UPDATE) {
rtpp_log_write(RTPP_LOG_INFO, spa->log,
"adding %s flag to existing session, new=%d/%d/%d",
ulop->weak ? ( sidx ? "weak[1]" : "weak[0]" ) : "strong",
spa->strong, spa->weak[0], spa->weak[1]);
}
rtpp_log_write(RTPP_LOG_INFO, spa->log,
"lookup on ports %d/%d, session timer restarted", spa->ports[0],
spa->ports[1]);
} else {
assert(ccap->op == UPDATE);
rtpp_log_write(RTPP_LOG_INFO, cf->stable->glog,
"new session %s, tag %s requested, type %s",
ccap->call_id, ccap->from_tag, ulop->weak ? "weak" : "strong");
if (cf->stable->slowshutdown != 0) {
rtpp_log_write(RTPP_LOG_INFO, cf->stable->glog,
"proxy is in the deorbiting-burn mode, new session rejected");
reply_error(cf, cmd, ECODE_SLOWSHTDN);
goto err_undo_0;
}
if (ulop->local_addr != NULL) {
ulop->lia[0] = ulop->lia[1] = ulop->local_addr;
}
if (rtpp_create_listener(cf, ulop->lia[0], &lport, fds) == -1) {
rtpp_log_write(RTPP_LOG_ERR, cf->stable->glog, "can't create listener");
reply_error(cf, cmd, ECODE_LSTFAIL_2);
goto err_undo_0;
}
/*
* Session creation. If creation is requested with weak flag,
* set weak[0].
*/
spa = malloc(sizeof(*spa));
if (spa == NULL) {
handle_nomem(cf, cmd, ECODE_NOMEM_4, ulop,
fds, spa, spb);
return (-1);
}
/* spb is RTCP twin session for this one. */
spb = malloc(sizeof(*spb));
if (spb == NULL) {
handle_nomem(cf, cmd, ECODE_NOMEM_5, ulop,
fds, spa, spb);
return (-1);
}
memset(spa, 0, sizeof(*spa));
memset(spb, 0, sizeof(*spb));
spa->init_ts = cmd->dtime;
spb->init_ts = cmd->dtime;
for (i = 0; i < 2; i++) {
spa->fds[i] = spb->fds[i] = -1;
spa->last_update[i] = 0;
spb->last_update[i] = 0;
}
spa->call_id = strdup(ccap->call_id);
if (spa->call_id == NULL) {
handle_nomem(cf, cmd, ECODE_NOMEM_6, ulop,
fds, spa, spb);
return (-1);
}
spb->call_id = spa->call_id;
spa->tag = strdup(ccap->from_tag);
spa->tag_nomedianum = strdup(ccap->from_tag);
if (spa->tag == NULL) {
handle_nomem(cf, cmd, ECODE_NOMEM_7, ulop,
fds, spa, spb);
return (-1);
}
cp = strrchr(spa->tag_nomedianum, ';');
if (cp != NULL)
*cp = '\0';
spb->tag = spa->tag;
spb->tag_nomedianum = spa->tag_nomedianum;
for (i = 0; i < 2; i++) {
spa->rrcs[i] = NULL;
spb->rrcs[i] = NULL;
spa->laddr[i] = ulop->lia[i];
spb->laddr[i] = ulop->lia[i];
}
spa->strong = spa->weak[0] = spa->weak[1] = 0;
if (ulop->weak)
spa->weak[0] = 1;
else
spa->strong = 1;
assert(spa->fds[0] == -1);
spa->fds[0] = fds[0];
assert(spb->fds[0] == -1);
spb->fds[0] = fds[1];
spa->ports[0] = lport;
spb->ports[0] = lport + 1;
spa->ttl[0] = cf->stable->max_ttl;
spa->ttl[1] = cf->stable->max_ttl;
spb->ttl[0] = -1;
spb->ttl[1] = -1;
spa->log = rtpp_log_open(cf->stable, "rtpproxy", spa->call_id, 0);
rtpp_log_setlevel(spa->log, cf->stable->log_level);
spb->log = spa->log;
spa->rtcp = spb;
spb->rtcp = NULL;
spa->rtp = NULL;
spb->rtp = spa;
spa->sridx = spb->sridx = -1;
append_session(cf, spa, 0);
append_session(cf, spa, 1);
spa->hte = CALL_METHOD(cf->stable->sessions_ht, append, spa->call_id, spa);
if (spa->hte == NULL) {
remove_session(cf, spa);
remove_session(cf, spb);
handle_nomem(cf, cmd, ECODE_NOMEM_8, ulop, fds, spa, spb);
return (-1);
}
cf->sessions_created++;
cf->sessions_active++;
cmd->csp->nsess_created.cnt++;
/*
* Each session can consume up to 5 open file descriptors (2 RTP,
* 2 RTCP and 1 logging) so that warn user when he is likely to
* exceed 80% mark on hard limit.
*/
if (cf->sessions_active > (rtpp_rlim_max(cf) * 80 / (100 * 5)) &&
cf->nofile_limit_warned == 0) {
cf->nofile_limit_warned = 1;
rtpp_log_write(RTPP_LOG_WARN, cf->stable->glog, "passed 80%% "
"threshold on the open file descriptors limit (%d), "
"consider increasing the limit using -L command line "
"option", (int)rtpp_rlim_max(cf));
}
rtpp_log_write(RTPP_LOG_INFO, spa->log, "new session on a port %d created, "
"tag %s", lport, ccap->from_tag);
if (cf->stable->record_all != 0) {
handle_copy(cf, spa, 0, NULL, 0);
handle_copy(cf, spa, 1, NULL, 0);
}
}
if (ccap->op == UPDATE) {
if (rtpp_th_get_sn(cf->timeout_handler) == NULL && ulop->socket_name_u != NULL)
rtpp_log_write(RTPP_LOG_ERR, spa->log, "must permit notification socket with -n");
if (spa->timeout_data.notify_tag != NULL) {
free(spa->timeout_data.notify_tag);
spa->timeout_data.notify_tag = NULL;
}
if (rtpp_th_get_sn(cf->timeout_handler) != NULL && ulop->socket_name_u != NULL) {
if (strcmp(rtpp_th_get_sn(cf->timeout_handler), ulop->socket_name_u) != 0) {
rtpp_log_write(RTPP_LOG_ERR, spa->log, "invalid socket name %s", ulop->socket_name_u);
ulop->socket_name_u = NULL;
} else {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "setting timeout handler");
spa->timeout_data.handler = cf->timeout_handler;
spa->timeout_data.notify_tag = strdup(ulop->notify_tag);
}
} else if (ulop->socket_name_u == NULL && spa->timeout_data.handler != NULL) {
spa->timeout_data.handler = NULL;
rtpp_log_write(RTPP_LOG_INFO, spa->log, "disabling timeout handler");
}
}
if (ulop->ia[0] != NULL && ulop->ia[1] != NULL) {
if (spa->addr[pidx] != NULL)
spa->last_update[pidx] = cmd->dtime;
if (spa->rtcp->addr[pidx] != NULL)
spa->rtcp->last_update[pidx] = cmd->dtime;
/*
* Unless the address provided by client historically
* cannot be trusted and address is different from one
* that we recorded update it.
*/
if (spa->untrusted_addr[pidx] == 0 && !(spa->addr[pidx] != NULL &&
SA_LEN(ulop->ia[0]) == SA_LEN(spa->addr[pidx]) &&
memcmp(ulop->ia[0], spa->addr[pidx], SA_LEN(ulop->ia[0])) == 0)) {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "pre-filling %s's address "
"with %s:%s", (pidx == 0) ? "callee" : "caller", ulop->addr, ulop->port);
if (spa->addr[pidx] != NULL) {
if (spa->canupdate[pidx] == 0) {
if (spa->prev_addr[pidx] != NULL)
free(spa->prev_addr[pidx]);
spa->prev_addr[pidx] = spa->addr[pidx];
} else {
free(spa->addr[pidx]);
}
}
spa->addr[pidx] = ulop->ia[0];
ulop->ia[0] = NULL;
}
if (spa->rtcp->untrusted_addr[pidx] == 0 && !(spa->rtcp->addr[pidx] != NULL &&
SA_LEN(ulop->ia[1]) == SA_LEN(spa->rtcp->addr[pidx]) &&
memcmp(ulop->ia[1], spa->rtcp->addr[pidx], SA_LEN(ulop->ia[1])) == 0)) {
if (spa->rtcp->addr[pidx] != NULL) {
if (spa->rtcp->canupdate[pidx] == 0) {
if (spa->rtcp->prev_addr[pidx] != NULL)
free(spa->rtcp->prev_addr[pidx]);
spa->rtcp->prev_addr[pidx] = spa->rtcp->addr[pidx];
} else {
free(spa->rtcp->addr[pidx]);
}
}
spa->rtcp->addr[pidx] = ulop->ia[1];
ulop->ia[1] = NULL;
}
}
spa->asymmetric[pidx] = spa->rtcp->asymmetric[pidx] = ulop->asymmetric;
spa->canupdate[pidx] = spa->rtcp->canupdate[pidx] = NOT(ulop->asymmetric);
if (spa->codecs[pidx] != NULL) {
free(spa->codecs[pidx]);
spa->codecs[pidx] = NULL;
}
if (ulop->codecs != NULL) {
spa->codecs[pidx] = ulop->codecs;
ulop->codecs = NULL;
}
if (ulop->requested_nsamples > 0) {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "RTP packets from %s "
"will be resized to %d milliseconds",
(pidx == 0) ? "callee" : "caller", ulop->requested_nsamples / 8);
} else if (spa->resizers[pidx] != NULL) {
rtpp_log_write(RTPP_LOG_INFO, spa->log, "Resizing of RTP "
"packets from %s has been disabled",
(pidx == 0) ? "callee" : "caller");
}
if (ulop->requested_nsamples > 0) {
if (spa->resizers[pidx] != NULL) {
rtp_resizer_set_onsamples(spa->resizers[pidx], ulop->requested_nsamples);
} else {
spa->resizers[pidx] = rtp_resizer_new(ulop->requested_nsamples);
}
} else if (spa->resizers[pidx] != NULL) {
rtp_resizer_free(spa->resizers[pidx]);
spa->resizers[pidx] = NULL;
}
assert(lport != 0);
ulop->reply.port = lport;
ulop->reply.ia = ulop->lia[0];
if (cf->stable->advaddr[0] != NULL) {
if (cf->stable->bmode != 0 && cf->stable->advaddr[1] != NULL &&
ulop->lia[0] == cf->stable->bindaddr[1]) {
ulop->reply.ia_ov = cf->stable->advaddr[1];
} else {
ulop->reply.ia_ov = cf->stable->advaddr[0];
}
}
ul_reply_port(cf, cmd, &ulop->reply);
rtpp_command_ul_opts_free(ulop);
return (0);
err_undo_0:
rtpp_command_ul_opts_free(ulop);
return (-1);
}
int
handle_command(struct cfg *cf, struct rtpp_command *cmd)
{
int i, verbose, rval;
int playcount;
char *cp, *tcp;
char *pname, *codecs, *recording_name;
struct rtpp_session *spa;
int record_single_file;
struct ul_opts *ulop;
struct d_opts dopt;
spa = NULL;
recording_name = NULL;
codecs = NULL;
/* Step II: parse parameters that are specific to a particular op and run simple ops */
switch (cmd->cca.op) {
case VER_FEATURE:
handle_ver_feature(cf, cmd);
return 0;
case GET_VER:
/* This returns base version. */
reply_number(cf, cmd, CPROTOVER);
return 0;
case DELETE_ALL:
/* Delete all active sessions */
rtpp_log_write(RTPP_LOG_INFO, cf->stable->glog, "deleting all active sessions");
pthread_mutex_lock(&cf->sessinfo.lock);
for (i = 0; i < cf->sessinfo.nsessions; i++) {
spa = cf->sessinfo.sessions[i];
if (spa == NULL || spa->sidx[0] != i)
continue;
remove_session(cf, spa);
}
pthread_mutex_unlock(&cf->sessinfo.lock);
reply_ok(cf, cmd);
return 0;
case INFO:
handle_info(cf, cmd, &cmd->argv[0][1]);
return 0;
case PLAY:
/*
* P callid pname codecs from_tag to_tag
*
* <codecs> could be either comma-separated list of supported
* payload types or word "session" (without quotes), in which
* case list saved on last session update will be used instead.
*/
playcount = 1;
pname = cmd->argv[2];
codecs = cmd->argv[3];
tcp = &(cmd->argv[0][1]);
if (*tcp != '\0') {
playcount = strtol(tcp, &cp, 10);
if (cp == tcp || *cp != '\0') {
rtpp_log_write(RTPP_LOG_ERR, cf->stable->glog, "command syntax error");
reply_error(cf, cmd, ECODE_PARSE_6);
return 0;
}
}
break;
case COPY:
recording_name = cmd->argv[2];
/* Fallthrough */
case RECORD:
if (cmd->argv[0][1] == 'S' || cmd->argv[0][1] == 's') {
if (cmd->argv[0][2] != '\0') {
rtpp_log_write(RTPP_LOG_ERR, cf->stable->glog, "command syntax error");
reply_error(cf, cmd, ECODE_PARSE_2);
return 0;
}
record_single_file = (cf->stable->record_pcap == 0) ? 0 : 1;
} else {
if (cmd->argv[0][1] != '\0') {
rtpp_log_write(RTPP_LOG_ERR, cf->stable->glog, "command syntax error");
reply_error(cf, cmd, ECODE_PARSE_3);
return 0;
}
record_single_file = 0;
}
break;
case DELETE:
/* D[w] call_id from_tag [to_tag] */
dopt.weak = 0;
for (cp = cmd->argv[0] + 1; *cp != '\0'; cp++) {
switch (*cp) {
case 'w':
case 'W':
dopt.weak = 1;
break;
default:
rtpp_log_write(RTPP_LOG_ERR, cf->stable->glog,
"DELETE: unknown command modifier `%c'", *cp);
reply_error(cf, cmd, ECODE_PARSE_4);
return 0;
}
}
break;
case UPDATE:
case LOOKUP:
ulop = rtpp_command_ul_opts_parse(cf, cmd);
if (ulop == NULL) {
return 0;
}
break;
case GET_STATS:
verbose = 0;
for (cp = cmd->argv[0] + 1; *cp != '\0'; cp++) {
switch (*cp) {
case 'v':
case 'V':
verbose = 1;
break;
default:
rtpp_log_write(RTPP_LOG_ERR, cf->stable->glog,
"STATS: unknown command modifier `%c'", *cp);
reply_error(cf, cmd, ECODE_PARSE_5);
return 0;
}
}
i = handle_get_stats(cf, cmd, verbose);
if (i != 0) {
reply_error(cf, cmd, i);
}
return 0;
default:
break;
}
/*
* Record and delete need special handling since they apply to all
* streams in the session.
*/
switch (cmd->cca.op) {
case DELETE:
i = handle_delete(cf, &cmd->cca, dopt.weak);
break;
case RECORD:
i = handle_record(cf, &cmd->cca, record_single_file);
break;
default:
i = find_stream(cf, cmd->cca.call_id, cmd->cca.from_tag, cmd->cca.to_tag, &spa);
if (i != -1 && cmd->cca.op != UPDATE)
i = NOT(i);
break;
}
if (i == -1 && cmd->cca.op != UPDATE) {
rtpp_log_write(RTPP_LOG_INFO, cf->stable->glog,
"%s request failed: session %s, tags %s/%s not found", cmd->cca.rname,
cmd->cca.call_id, cmd->cca.from_tag, cmd->cca.to_tag != NULL ? cmd->cca.to_tag : "NONE");
if (cmd->cca.op == LOOKUP) {
rtpp_command_ul_opts_free(ulop);
ul_reply_port(cf, cmd, NULL);
return 0;
}
reply_error(cf, cmd, ECODE_SESUNKN);
return 0;
}
switch (cmd->cca.op) {
case DELETE:
case RECORD:
reply_ok(cf, cmd);
break;
case NOPLAY:
handle_noplay(cf, spa, i, cmd);
reply_ok(cf, cmd);
break;
case PLAY:
handle_noplay(cf, spa, i, cmd);
if (strcmp(codecs, "session") == 0) {
if (spa->codecs[i] == NULL) {
reply_error(cf, cmd, ECODE_INVLARG_5);
return 0;
}
codecs = spa->codecs[i];
}
if (playcount != 0 && handle_play(cf, spa, i, codecs, pname, playcount, cmd) != 0) {
reply_error(cf, cmd, ECODE_PLRFAIL);
return 0;
}
reply_ok(cf, cmd);
break;
case COPY:
if (handle_copy(cf, spa, i, recording_name, record_single_file) != 0) {
reply_error(cf, cmd, ECODE_CPYFAIL);
return 0;
}
reply_ok(cf, cmd);
break;
case QUERY:
rval = handle_query(cf, cmd, spa, i);
if (rval != 0) {
reply_error(cf, cmd, rval);
}
break;
case LOOKUP:
case UPDATE:
rtpp_command_ul_handle(cf, cmd, ulop, spa, i);
break;
default:
/* Programmatic error, should not happen */
abort();
}
return 0;
}