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aes67-daemon/daemon/browser.cpp
Andrea Bondavalli dbb593120a Enhancement of daemon reconfiguration and PTP status update notification via shell script. See #82 
The daemon can apply a configuration change to the following parameters without a restart:
    sap_interval, syslog_proto, syslog_server, log_severity, sample_rate

The daemon can apply a configuration change to the following parameters without a light restart:
    http_port, rtsp_port, http_base_dir, rtp_mcast_base, sap_mcast_addr, rtp_port, rtp_port, status_file, interface_name, mdns_enabled

A light restart means that the configuration can be applied without interrupting the playback/capture applications

A change to one of following paramters causes a full daemon restart:
    interface_name, tic_frame_size_at_1fs, max_tic_frame_size

On PTP status change the daemon can run in background an external shell script whose path name is specified by the new ptp_status_script Config parameter.
If this parameter is empty, no script is invoked. The PTP clock status is passed as first parameter to the script and it can be unlocked, locking or locked.
A sample script is provided in daemon/scripts/ptp_status.sh
2022-05-19 19:04:26 +02:00

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//
// browser.cpp
//
// Copyright (c) 2019 2020 Andrea Bondavalli. All rights reserved.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
#include <boost/algorithm/string.hpp>
#include "utils.hpp"
#include "browser.hpp"
using namespace boost::algorithm;
using namespace std::chrono;
using second_t = duration<double, std::ratio<1> >;
std::shared_ptr<Browser> Browser::create(std::shared_ptr<Config> config) {
// no need to be thread-safe here
static std::weak_ptr<Browser> instance;
if (auto ptr = instance.lock()) {
return ptr;
}
auto ptr = std::shared_ptr<Browser>(new Browser(config));
instance = ptr;
return ptr;
}
std::list<RemoteSource> Browser::get_remote_sources(
const std::string& _source) const {
std::list<RemoteSource> sources_list;
std::shared_lock sources_lock(sources_mutex_);
// return list of remote sources ordered by name
for (const auto& source : sources_.get<name_tag>()) {
if (boost::iequals(source.source, _source) ||
boost::iequals("all", _source)) {
sources_list.push_back(source);
}
}
return sources_list;
}
bool Browser::worker() {
sap_.set_multicast_interface(config_->get_ip_addr_str());
// Join SAP muticast address
igmp_.join(config_->get_ip_addr_str(), config_->get_sap_mcast_addr());
auto sap_timepoint = steady_clock::now();
int sap_interval = 10;
auto mdns_timepoint = steady_clock::now();
int mdns_interval = 10;
while (running_) {
bool is_announce;
uint16_t msg_id_hash;
uint32_t addr;
std::string sdp;
if (sap_.receive(is_announce, msg_id_hash, addr, sdp)) {
std::stringstream ss;
ss << "sap:" << addr << "-" << msg_id_hash;
std::string id(ss.str());
BOOST_LOG_TRIVIAL(debug) << "browser:: received SAP message for " << id;
std::unique_lock sources_lock(sources_mutex_);
auto it = sources_.get<id_tag>().find(id);
if (it == sources_.end()) {
// Source is not in the map
if (is_announce) {
// annoucement, add new source
sources_.insert(
{id,
"SAP",
ip::address_v4(ntohl(addr)).to_string(),
sdp_get_subject(sdp),
{},
sdp,
static_cast<uint32_t>(
duration_cast<second_t>(steady_clock::now() - startup_)
.count()),
config_->get_sap_interval()});
}
} else {
// Source is already in the map
if (is_announce) {
BOOST_LOG_TRIVIAL(debug)
<< "browser:: refreshing SAP source " << it->id;
// annoucement, update last seen and announce period
uint32_t last_seen =
duration_cast<second_t>(steady_clock::now() - startup_).count();
auto upd_source{*it};
if ((last_seen - upd_source.last_seen) != 0) {
upd_source.announce_period = last_seen - upd_source.last_seen;
upd_source.last_seen = last_seen;
sources_.replace(it, upd_source);
}
} else {
BOOST_LOG_TRIVIAL(info) << "browser:: removing SAP source " << it->id
<< " name " << it->name;
// deletion, remove entry
sources_.erase(it);
}
}
}
// check if it's time to update the SAP remote sources
if ((duration_cast<second_t>(steady_clock::now() - sap_timepoint).count()) >
sap_interval) {
sap_timepoint = steady_clock::now();
// remove all sessions no longer announced
auto offset =
duration_cast<second_t>(steady_clock::now() - startup_).count();
std::unique_lock sources_lock(sources_mutex_);
for (auto it = sources_.begin(); it != sources_.end();) {
if (it->source == "SAP" &&
(offset - it->last_seen) > (it->announce_period * 10)) {
// remove from remote SAP sources
BOOST_LOG_TRIVIAL(info)
<< "browser:: SAP source " << it->id << " timeout";
it = sources_.erase(it);
} else {
it++;
}
}
}
// check if it's time to process the mDNS RTSP sources
if ((duration_cast<second_t>(steady_clock::now() - mdns_timepoint)
.count()) > mdns_interval) {
mdns_timepoint = steady_clock::now();
process_results();
}
}
return true;
}
void Browser::on_change_rtsp_source(const std::string& name,
const std::string& domain,
const RtspSource& s) {
uint32_t last_seen =
duration_cast<second_t>(steady_clock::now() - startup_).count();
std::unique_lock sources_lock(sources_mutex_);
/* search by name */
auto rng = sources_.get<name_tag>().equal_range(name);
while (rng.first != rng.second) {
const auto& it = rng.first;
if (it->source == "mDNS" && it->domain == domain) {
/* mDNS source with same name and domain -> update */
BOOST_LOG_TRIVIAL(info) << "browser:: updating RTSP source " << s.id
<< " name " << name << " domain " << domain;
auto upd_source{*it};
upd_source.id = s.id;
upd_source.sdp = s.sdp;
upd_source.address = s.address;
upd_source.last_seen = last_seen;
sources_.get<name_tag>().replace(it, upd_source);
return;
}
++rng.first;
}
/* entry not found -> add */
BOOST_LOG_TRIVIAL(info) << "browser:: adding RTSP source " << s.id << " name "
<< name << " domain " << domain;
sources_.insert(
{s.id, s.source, s.address, name, domain, s.sdp, last_seen, 0});
}
void Browser::on_remove_rtsp_source(const std::string& name,
const std::string& domain) {
std::unique_lock sources_lock(sources_mutex_);
auto& name_idx = sources_.get<name_tag>();
auto rng = name_idx.equal_range(name);
while (rng.first != rng.second) {
const auto& it = rng.first;
if (it->source == "mDNS" && it->domain == domain) {
BOOST_LOG_TRIVIAL(info)
<< "browser:: removing RTSP source " << it->id << " name " << it->name
<< " domain " << it->domain;
name_idx.erase(it);
break;
}
++rng.first;
}
}
bool Browser::init() {
if (!running_) {
/* init mDNS client */
if (config_->get_mdns_enabled() && !MDNSClient::init()) {
return false;
}
running_ = true;
res_ = std::async(std::launch::async, &Browser::worker, this);
}
return true;
}
bool Browser::terminate() {
if (running_) {
running_ = false;
/* wait for worker to exit */
res_.get();
/* terminate mDNS client */
if (config_->get_mdns_enabled()) {
MDNSClient::terminate();
}
}
return true;
}
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