premiere-libtorrent/src/broadcast_socket.cpp

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/*
Copyright (c) 2007-2016, Arvid Norberg
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the distribution.
* Neither the name of the author nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
*/
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#include "libtorrent/config.hpp"
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#include "libtorrent/aux_/disable_warnings_push.hpp"
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#if defined TORRENT_OS2
#include <pthread.h>
#endif
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#include <boost/asio/ip/multicast.hpp>
#ifdef TORRENT_WINDOWS
#include <iphlpapi.h> // for if_nametoindex
#endif
#include "libtorrent/aux_/disable_warnings_pop.hpp"
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#include "libtorrent/socket.hpp"
#include "libtorrent/enum_net.hpp"
#include "libtorrent/broadcast_socket.hpp"
#include "libtorrent/assert.hpp"
#include "libtorrent/debug.hpp"
using namespace std::placeholders;
namespace libtorrent {
bool is_ip_address(std::string const& host)
{
error_code ec;
address::from_string(host, ec);
return !ec;
}
bool is_local(address const& a)
{
TORRENT_TRY {
#if TORRENT_USE_IPV6
if (a.is_v6())
{
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return a.to_v6().is_loopback()
|| a.to_v6().is_link_local()
|| a.to_v6().is_multicast_link_local();
}
#endif
address_v4 a4 = a.to_v4();
unsigned long ip = a4.to_ulong();
return ((ip & 0xff000000) == 0x0a000000 // 10.x.x.x
|| (ip & 0xfff00000) == 0xac100000 // 172.16.x.x
|| (ip & 0xffff0000) == 0xc0a80000 // 192.168.x.x
|| (ip & 0xffff0000) == 0xa9fe0000 // 169.254.x.x
|| (ip & 0xff000000) == 0x7f000000); // 127.x.x.x
} TORRENT_CATCH(std::exception const&) { return false; }
}
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bool is_loopback(address const& addr)
{
#if TORRENT_USE_IPV6
TORRENT_TRY {
if (addr.is_v4())
return addr.to_v4() == address_v4::loopback();
else
return addr.to_v6() == address_v6::loopback();
} TORRENT_CATCH(std::exception const&) { return false; }
#else
return addr.to_v4() == address_v4::loopback();
#endif
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}
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bool is_any(address const& addr)
{
TORRENT_TRY {
#if TORRENT_USE_IPV6
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if (addr.is_v4())
return addr.to_v4() == address_v4::any();
else if (addr.to_v6().is_v4_mapped())
return (addr.to_v6().to_v4() == address_v4::any());
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else
return addr.to_v6() == address_v6::any();
#else
return addr.to_v4() == address_v4::any();
#endif
} TORRENT_CATCH(std::exception const&) { return false; }
}
bool is_teredo(address const& addr)
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{
#if TORRENT_USE_IPV6
TORRENT_TRY {
if (!addr.is_v6()) return false;
std::uint8_t teredo_prefix[] = {0x20, 0x01, 0, 0};
address_v6::bytes_type b = addr.to_v6().to_bytes();
return memcmp(&b[0], teredo_prefix, 4) == 0;
} TORRENT_CATCH(std::exception const&) { return false; }
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#else
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TORRENT_UNUSED(addr);
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return false;
#endif
}
bool supports_ipv6()
{
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#if !TORRENT_USE_IPV6
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return false;
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#elif defined TORRENT_BUILD_SIMULATOR
return true;
#elif defined TORRENT_WINDOWS
TORRENT_TRY {
error_code ec;
address::from_string("::1", ec);
return !ec;
} TORRENT_CATCH(std::exception const&) { return false; }
#else
io_service ios;
tcp::socket test(ios);
error_code ec;
test.open(tcp::v6(), ec);
if (ec) return false;
test.bind(tcp::endpoint(address_v6::from_string("::1"), 0), ec);
return !bool(ec);
#endif
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}
address ensure_v6(address const& a)
{
#if TORRENT_USE_IPV6
return a == address_v4() ? address_v6() : a;
#else
return a;
#endif
}
broadcast_socket::broadcast_socket(
udp::endpoint const& multicast_endpoint)
: m_multicast_endpoint(multicast_endpoint)
, m_outstanding_operations(0)
, m_abort(false)
{
TORRENT_ASSERT(m_multicast_endpoint.address().is_multicast());
}
void broadcast_socket::open(receive_handler_t const& handler
, io_service& ios, error_code& ec, bool loopback)
{
m_on_receive = handler;
std::vector<ip_interface> interfaces = enum_net_interfaces(ios, ec);
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#if TORRENT_USE_IPV6
if (m_multicast_endpoint.address().is_v6())
open_multicast_socket(ios, address_v6::any(), loopback, ec);
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else
#endif
open_multicast_socket(ios, address_v4::any(), loopback, ec);
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for (std::vector<ip_interface>::const_iterator i = interfaces.begin()
, end(interfaces.end()); i != end; ++i)
{
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// only multicast on compatible networks
if (i->interface_address.is_v4() != m_multicast_endpoint.address().is_v4()) continue;
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// ignore any loopback interface
if (!loopback && is_loopback(i->interface_address)) continue;
ec = error_code();
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open_multicast_socket(ios, i->interface_address, loopback, ec);
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open_unicast_socket(ios, i->interface_address
, i->netmask.is_v4() ? i->netmask.to_v4() : address_v4());
}
}
void broadcast_socket::open_multicast_socket(io_service& ios
, address const& addr, bool loopback, error_code& ec)
{
using namespace boost::asio::ip::multicast;
std::shared_ptr<udp::socket> s = std::make_shared<udp::socket>(ios);
s->open(addr.is_v4() ? udp::v4() : udp::v6(), ec);
if (ec) return;
s->set_option(udp::socket::reuse_address(true), ec);
if (ec) return;
s->bind(udp::endpoint(addr, m_multicast_endpoint.port()), ec);
if (ec) return;
s->set_option(join_group(m_multicast_endpoint.address()), ec);
if (ec) return;
s->set_option(hops(255), ec);
if (ec) return;
s->set_option(enable_loopback(loopback), ec);
if (ec) return;
m_sockets.push_back(socket_entry(s));
socket_entry& se = m_sockets.back();
ADD_OUTSTANDING_ASYNC("broadcast_socket::on_receive");
s->async_receive_from(boost::asio::buffer(se.buffer, sizeof(se.buffer))
, se.remote, std::bind(&broadcast_socket::on_receive, this, &se, _1, _2));
++m_outstanding_operations;
}
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void broadcast_socket::open_unicast_socket(io_service& ios, address const& addr
, address_v4 const& mask)
{
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error_code ec;
std::shared_ptr<udp::socket> s = std::make_shared<udp::socket>(ios);
s->open(addr.is_v4() ? udp::v4() : udp::v6(), ec);
if (ec) return;
s->bind(udp::endpoint(addr, 0), ec);
if (ec) return;
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m_unicast_sockets.push_back(socket_entry(s, mask));
socket_entry& se = m_unicast_sockets.back();
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// allow sending broadcast messages
boost::asio::socket_base::broadcast option(true);
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s->set_option(option, ec);
if (!ec) se.broadcast = true;
ADD_OUTSTANDING_ASYNC("broadcast_socket::on_receive");
s->async_receive_from(boost::asio::buffer(se.buffer, sizeof(se.buffer))
, se.remote, std::bind(&broadcast_socket::on_receive, this, &se, _1, _2));
++m_outstanding_operations;
}
void broadcast_socket::send(char const* buffer, int const size
, error_code& ec, int const flags)
{
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bool all_fail = true;
error_code e;
for (auto& s : m_unicast_sockets)
{
if (!s.socket) continue;
s.socket->send_to(boost::asio::buffer(buffer, std::size_t(size)), m_multicast_endpoint, 0, e);
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// if the user specified the broadcast flag, send one to the broadcast
// address as well
if ((flags & broadcast_socket::flag_broadcast) && s.can_broadcast())
s.socket->send_to(boost::asio::buffer(buffer, std::size_t(size))
, udp::endpoint(s.broadcast_address(), m_multicast_endpoint.port()), 0, e);
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if (e)
{
s.socket->close(e);
s.socket.reset();
}
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else
{
all_fail = false;
}
}
for (auto& s : m_sockets)
{
if (!s.socket) continue;
s.socket->send_to(boost::asio::buffer(buffer, std::size_t(size)), m_multicast_endpoint, 0, e);
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if (e)
{
s.socket->close(e);
s.socket.reset();
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}
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else
{
all_fail = false;
}
}
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if (all_fail) ec = e;
}
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void broadcast_socket::on_receive(socket_entry* s, error_code const& ec
, std::size_t bytes_transferred)
{
COMPLETE_ASYNC("broadcast_socket::on_receive");
TORRENT_ASSERT(m_outstanding_operations > 0);
--m_outstanding_operations;
if (ec || bytes_transferred == 0 || !m_on_receive)
{
maybe_abort();
return;
}
m_on_receive(s->remote, s->buffer, int(bytes_transferred));
if (maybe_abort()) return;
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if (!s->socket) return;
ADD_OUTSTANDING_ASYNC("broadcast_socket::on_receive");
s->socket->async_receive_from(boost::asio::buffer(s->buffer, sizeof(s->buffer))
, s->remote, std::bind(&broadcast_socket::on_receive, this, s, _1, _2));
++m_outstanding_operations;
}
bool broadcast_socket::maybe_abort()
{
bool ret = m_abort;
if (m_abort && m_outstanding_operations == 0)
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{
// it's important that m_on_receive is cleared
// before the object is destructed, since it may
// hold a reference to ourself, which would otherwise
// cause an infinite recursion destructing the objects
receive_handler_t().swap(m_on_receive);
}
return ret;
}
void broadcast_socket::close()
{
std::for_each(m_sockets.begin(), m_sockets.end(), std::bind(&socket_entry::close, _1));
std::for_each(m_unicast_sockets.begin(), m_unicast_sockets.end(), std::bind(&socket_entry::close, _1));
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m_abort = true;
maybe_abort();
}
}