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pip/libs/io_utils/pibroadcast.cpp
peri4 1c7fc39b6c version 4.0.0_alpha 
in almost all methods removed timeouts in milliseconds, replaced to PISystemTime
PITimer rewrite, remove internal impl, now only thread implementation, API similar to PIThread
PITimer API no longer pass void*
PIPeer, PIConnection improved stability on reinit and exit
PISystemTime new methods
pisd now exit without hanging
2024-07-30 14:18:02 +03:00

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/*
PIP - Platform Independent Primitives
Broadcast for all interfaces, including loopback
Ivan Pelipenko peri4ko@yandex.ru, Andrey Bychkov work.a.b@yandex.ru
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "pibroadcast.h"
#include "piliterals_time.h"
/** \class PIBroadcast
* \brief Broadcast for all interfaces, including loopback
*
* \section PIBroadcast_synopsis Synopsis
* %PIBroadcast used as multichannel IO device. It can use
* multicast, broadcast and loopback ethernet channels to
* send/receive packets. \a send() function send packet to
* all initialized ethernets. \a receiveEvent() raised on
* packet received by any ethernet. All multi/broadcast
* ethernets created for all current addresses, obtained
* by \a PIEthernets::allAddresses().
*
* * \a Multicast ethernets use \a multicastGroup() and \a multicastPort()
* * \a Broadcast ethernets use \a broadcastPort()
* * \a Loopback ethernet use \a loopbackPortsCount() started from \a loopbackPort()
*
* %PIBroadcast starts thread, which every 3 seconds check if
* current \a PIEthernet::allAddresses() was changed and call
* \a reinit() if it necessary.
*
*/
#define MULTICAST_TTL 4
PIBroadcast::PIBroadcast(bool send_only): PIThread(), PIEthUtilBase() {
_channels = All;
eth_lo = 0;
mcast_address.set("232.13.3.14", 14100);
lo_port = 14200;
lo_pcnt = 5;
_started = false;
_send_only = send_only;
_reinit = true;
}
PIBroadcast::~PIBroadcast() {
PIThread::stopAndWait();
// mcast_mutex.unlock();
destroyAll();
}
void PIBroadcast::setChannels(PIBroadcast::Channels ch) {
PIMutexLocker ml(mcast_mutex);
_channels = ch;
_reinit = true;
}
void PIBroadcast::setMulticastGroup(const PIString & mg) {
PIMutexLocker ml(mcast_mutex);
mcast_address.setIP(mg);
_reinit = true;
}
void PIBroadcast::setMulticastPort(ushort port) {
PIMutexLocker ml(mcast_mutex);
mcast_address.setPort(port);
_reinit = true;
}
void PIBroadcast::setMulticastAddress(const PINetworkAddress & addr) {
PIMutexLocker ml(mcast_mutex);
mcast_address = addr;
_reinit = true;
}
void PIBroadcast::setBroadcastPort(ushort port) {
PIMutexLocker ml(mcast_mutex);
bcast_port = port;
_reinit = true;
}
void PIBroadcast::setLoopbackPort(ushort port) {
PIMutexLocker ml(mcast_mutex);
lo_port = port;
_reinit = true;
}
void PIBroadcast::setLoopbackPortsCount(int count) {
PIMutexLocker ml(mcast_mutex);
lo_pcnt = count;
_reinit = true;
}
void PIBroadcast::destroyAll() {
for (auto * e: eth_mcast) {
e->stopAndWait();
piDeleteSafety(e);
}
eth_mcast.clear();
if (eth_lo) {
eth_lo->stopAndWait();
piDeleteSafety(eth_lo);
}
}
void PIBroadcast::initAll(PIVector<PINetworkAddress> al) {
PIMutexLocker ml(mcast_mutex);
destroyAll();
_reinit = false;
prev_al = al;
al.removeAll(PINetworkAddress("127.0.0.1"));
al << mcast_address;
eth_mcast.clear();
PIEthernet::InterfaceList ifaces = PIEthernet::interfaces();
for (const auto & a: al) {
PIEthernet * ce = 0;
// piCout << "mcast try" << a;
if (_channels[Multicast]) {
ce = new PIEthernet();
ce->setDebug(false);
ce->setName("PIMulticast_" + a.toString());
ce->setParameters(0);
ce->setSendAddress(mcast_address);
ce->setMulticastTTL(MULTICAST_TTL);
if (!_send_only) {
ce->setReadAddress(a.ipString(), mcast_address.port());
ce->joinMulticastGroup(mcast_address.ipString());
// piCout << "mcast " << ce->readAddress() << ce->sendAddress();
if (ce->open()) {
eth_mcast << ce;
CONNECT2(void, const uchar *, ssize_t, ce, threadedReadEvent, this, mcastRead);
} else {
delete ce;
}
} else {
eth_mcast << ce;
}
}
if (_channels[Broadcast]) {
ce = new PIEthernet();
ce->setDebug(false);
ce->setName("PIMulticast_" + a.toString());
ce->setParameters(PIEthernet::Broadcast);
const PIEthernet::Interface * cint = ifaces.getByAddress(a.ipString());
PINetworkAddress nm((cint == 0) ? "255.255.255.0" : cint->netmask);
ce->setSendAddress(PIEthernet::getBroadcast(a, nm).ipString(), bcast_port);
if (!_send_only) {
ce->setReadAddress(PINetworkAddress(a.ip(), bcast_port));
// piCout << "bcast " << ce->readAddress() << ce->sendAddress();
if (ce->open()) {
eth_mcast << ce;
CONNECT2(void, const uchar *, ssize_t, ce, threadedReadEvent, this, mcastRead);
} else {
delete ce;
}
} else {
eth_mcast << ce;
}
}
}
if (_channels[Loopback]) {
eth_lo = new PIEthernet();
eth_lo->setDebug(false);
eth_lo->setName("PIMulticast_loopback");
if (!_send_only) {
eth_lo->setParameter(PIEthernet::ReuseAddress, false);
CONNECT2(void, const uchar *, ssize_t, eth_lo, threadedReadEvent, this, mcastRead);
for (int i = 0; i < lo_pcnt; ++i) {
eth_lo->setReadAddress("127.0.0.1", lo_port + i);
if (eth_lo->open()) {
// piCout << "bind local to" << (lo_port + i);
break;
}
}
}
}
}
void PIBroadcast::send(const PIByteArray & data) {
/*if (!isRunning()) {
reinit();
PIThread::start(3000);
}*/
PIByteArray cd = cryptData(data);
if (cd.isEmpty()) return;
PIMutexLocker ml(mcast_mutex);
for (auto * e: eth_mcast)
e->send(cd);
if (eth_lo) {
for (int i = 0; i < lo_pcnt; ++i) {
eth_lo->send("127.0.0.1", lo_port + i, cd);
}
}
}
void PIBroadcast::startRead() {
if (!isRunning()) {
_started = false;
reinit();
PIThread::start(3_s);
}
if (_send_only) return;
PIMutexLocker ml(mcast_mutex);
for (auto * e: eth_mcast)
e->startThreadedRead();
if (eth_lo) eth_lo->startThreadedRead();
_started = true;
}
void PIBroadcast::stopRead() {
if (isRunning()) stopAndWait();
PIMutexLocker ml(mcast_mutex);
for (auto * e: eth_mcast)
e->stopAndWait();
if (eth_lo) eth_lo->stopAndWait();
_started = false;
}
void PIBroadcast::reinit() {
initAll(PIEthernet::allAddresses());
if (_started) startRead();
}
void PIBroadcast::mcastRead(const uchar * data, ssize_t size) {
PIByteArray cd = decryptData(PIByteArray(data, size));
if (cd.isEmpty()) return;
received(cd);
receiveEvent(cd);
}
void PIBroadcast::run() {
PIVector<PINetworkAddress> al = PIEthernet::allAddresses();
mcast_mutex.lock();
bool r = _reinit, ac = (al != prev_al);
mcast_mutex.unlock();
if (ac || r) reinit();
if (ac) addressesChanged();
}
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