mirror of
https://github.com/transmission/transmission
synced 2024-12-27 01:57:52 +00:00
385 lines
11 KiB
C++
385 lines
11 KiB
C++
// This file Copyright © 2010 Juliusz Chroboczek.
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// It may be used under the MIT (SPDX: MIT) license.
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// License text can be found in the licenses/ folder.
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#include <array>
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#include <cerrno>
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#include <cstdint>
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#include <cstring> /* memcmp(), memset() */
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#include <event2/event.h>
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#include <fmt/core.h>
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#include "transmission.h"
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#include "log.h"
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#include "net.h"
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#include "session.h"
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#include "tr-assert.h"
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#include "tr-utp.h"
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#include "utils.h"
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/* Since we use a single UDP socket in order to implement multiple
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µTP sockets, try to set up huge buffers. */
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static auto constexpr RecvBufferSize = 4 * 1024 * 1024;
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static auto constexpr SendBufferSize = 1 * 1024 * 1024;
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static auto constexpr SmallBufferSize = 32 * 1024;
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static void set_socket_buffers(tr_socket_t fd, bool large)
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{
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int rbuf = 0;
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int sbuf = 0;
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socklen_t rbuf_len = sizeof(rbuf);
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socklen_t sbuf_len = sizeof(sbuf);
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int size = large ? RecvBufferSize : SmallBufferSize;
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int rc = setsockopt(fd, SOL_SOCKET, SO_RCVBUF, reinterpret_cast<char const*>(&size), sizeof(size));
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if (rc < 0)
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{
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tr_logAddDebug(fmt::format("Couldn't set receive buffer: {}", tr_net_strerror(sockerrno)));
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}
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size = large ? SendBufferSize : SmallBufferSize;
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rc = setsockopt(fd, SOL_SOCKET, SO_SNDBUF, reinterpret_cast<char const*>(&size), sizeof(size));
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if (rc < 0)
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{
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tr_logAddDebug(fmt::format("Couldn't set send buffer: {}", tr_net_strerror(sockerrno)));
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}
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if (large)
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{
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rc = getsockopt(fd, SOL_SOCKET, SO_RCVBUF, reinterpret_cast<char*>(&rbuf), &rbuf_len);
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if (rc < 0)
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{
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rbuf = 0;
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}
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rc = getsockopt(fd, SOL_SOCKET, SO_SNDBUF, reinterpret_cast<char*>(&sbuf), &sbuf_len);
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if (rc < 0)
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{
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sbuf = 0;
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}
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if (rbuf < RecvBufferSize)
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{
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tr_logAddDebug(fmt::format("Couldn't set receive buffer: requested {}, got {}", RecvBufferSize, rbuf));
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#ifdef __linux__
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tr_logAddDebug(fmt::format("Please add the line 'net.core.rmem_max = {}' to /etc/sysctl.conf", RecvBufferSize));
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#endif
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}
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if (sbuf < SendBufferSize)
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{
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tr_logAddDebug(fmt::format("Couldn't set send buffer: requested {}, got {}", SendBufferSize, sbuf));
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#ifdef __linux__
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tr_logAddDebug(fmt::format("Please add the line 'net.core.wmem_max = {}' to /etc/sysctl.conf", SendBufferSize));
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#endif
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}
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}
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}
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void tr_session::tr_udp_core::set_socket_buffers()
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{
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bool const utp = session_.allowsUTP();
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if (udp_socket_ != TR_BAD_SOCKET)
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{
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::set_socket_buffers(udp_socket_, utp);
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}
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if (udp6_socket_ != TR_BAD_SOCKET)
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{
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::set_socket_buffers(udp6_socket_, utp);
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}
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}
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static tr_socket_t rebind_ipv6_impl(in6_addr sin6_addr, tr_port port)
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{
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auto const sock = socket(PF_INET6, SOCK_DGRAM, 0);
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if (sock == TR_BAD_SOCKET)
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{
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return TR_BAD_SOCKET;
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}
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#ifdef IPV6_V6ONLY
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/* Since we always open an IPv4 socket on the same port,
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* this shouldn't matter. But I'm superstitious. */
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int one = 1;
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(void)setsockopt(sock, IPPROTO_IPV6, IPV6_V6ONLY, reinterpret_cast<char const*>(&one), sizeof(one));
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#endif
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auto sin6 = sockaddr_in6{};
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sin6.sin6_family = AF_INET6;
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sin6.sin6_addr = sin6_addr;
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sin6.sin6_port = port.network();
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if (::bind(sock, reinterpret_cast<struct sockaddr*>(&sin6), sizeof(sin6)) == -1)
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{
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tr_netCloseSocket(sock);
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return TR_BAD_SOCKET;
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}
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return sock;
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}
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/* BEP-32 has a rather nice explanation of why we need to bind to one
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IPv6 address, if I may say so myself. */
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void tr_session::tr_udp_core::rebind_ipv6(bool force)
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{
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auto const ipv6 = tr_globalIPv6(&session_);
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/* We currently have no way to enable or disable IPv6 after initialisation.
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No way to fix that without some surgery to the DHT code itself. */
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if (!ipv6 || (!force && udp6_socket_ == TR_BAD_SOCKET))
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{
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udp6_bound_.reset();
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return;
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}
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if (udp6_bound_ && memcmp(&*udp6_bound_, &*ipv6, sizeof(*ipv6)) == 0)
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{
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return;
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}
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auto const sock = rebind_ipv6_impl(*ipv6, udp_port_);
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if (sock == TR_BAD_SOCKET)
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{
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/* Something went wrong. It's difficult to recover, so let's
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* simply set things up so that we try again next time. */
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auto const error_code = errno;
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auto ipv6_readable = std::array<char, INET6_ADDRSTRLEN>{};
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evutil_inet_ntop(AF_INET6, &*ipv6, std::data(ipv6_readable), std::size(ipv6_readable));
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tr_logAddWarn(fmt::format(
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_("Couldn't rebind IPv6 socket {address}: {error} ({error_code})"),
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fmt::arg("address", std::data(ipv6_readable)),
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fmt::arg("error", tr_strerror(error_code)),
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fmt::arg("error_code", error_code)));
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udp6_bound_.reset();
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return;
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}
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if (udp6_socket_ != TR_BAD_SOCKET)
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{
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tr_netCloseSocket(udp6_socket_);
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}
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udp6_socket_ = sock;
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udp6_bound_ = ipv6;
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}
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static void event_callback(evutil_socket_t s, [[maybe_unused]] short type, void* vsession)
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{
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TR_ASSERT(vsession != nullptr);
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TR_ASSERT(type == EV_READ);
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auto buf = std::array<unsigned char, 8192>{};
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auto from = sockaddr_storage{};
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auto fromlen = socklen_t{ sizeof(from) };
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auto const rc = recvfrom(
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s,
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reinterpret_cast<char*>(std::data(buf)),
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std::size(buf) - 1,
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0,
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reinterpret_cast<sockaddr*>(&from),
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&fromlen);
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/* Since most packets we receive here are µTP, make quick inline
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checks for the other protocols. The logic is as follows:
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- all DHT packets start with 'd'
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- all UDP tracker packets start with a 32-bit (!) "action", which
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is between 0 and 3
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- the above cannot be µTP packets, since these start with a 4-bit
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version number (1). */
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auto* session = static_cast<tr_session*>(vsession);
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if (rc > 0)
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{
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if (buf[0] == 'd')
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{
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if (session->dht_)
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{
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buf[rc] = '\0'; // libdht requires zero-terminated messages
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session->dht_->handleMessage(std::data(buf), rc, reinterpret_cast<sockaddr*>(&from), fromlen);
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}
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}
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else if (rc >= 8 && buf[0] == 0 && buf[1] == 0 && buf[2] == 0 && buf[3] <= 3)
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{
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if (!session->announcer_udp_->handleMessage(std::data(buf), rc))
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{
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tr_logAddTrace("Couldn't parse UDP tracker packet.");
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}
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}
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else
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{
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if (session->allowsUTP() && (session->utp_context != nullptr))
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{
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if (!tr_utpPacket(std::data(buf), rc, (struct sockaddr*)&from, fromlen, session))
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{
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tr_logAddTrace("Unexpected UDP packet");
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}
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}
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}
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}
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}
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tr_session::tr_udp_core::tr_udp_core(tr_session& session, tr_port udp_port)
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: udp_port_{ udp_port }
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, session_{ session }
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{
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if (std::empty(udp_port_))
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{
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return;
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}
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udp_socket_ = socket(PF_INET, SOCK_DGRAM, 0);
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if (udp_socket_ == TR_BAD_SOCKET)
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{
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tr_logAddWarn(_("Couldn't create IPv4 socket"));
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}
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else
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{
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auto const [public_addr, is_default] = session_.publicAddress(TR_AF_INET);
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auto sin = sockaddr_in{};
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sin.sin_family = AF_INET;
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if (!is_default)
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{
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sin.sin_addr = public_addr.addr.addr4;
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}
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sin.sin_port = udp_port_.network();
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int const rc = bind(udp_socket_, (struct sockaddr*)&sin, sizeof(sin));
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if (rc == -1)
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{
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auto const error_code = errno;
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tr_logAddWarn(fmt::format(
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_("Couldn't bind IPv4 socket {address}: {error} ({error_code})"),
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fmt::arg("address", public_addr.display_name(udp_port_)),
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fmt::arg("error", tr_strerror(error_code)),
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fmt::arg("error_code", error_code)));
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tr_netCloseSocket(udp_socket_);
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udp_socket_ = TR_BAD_SOCKET;
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}
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else
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{
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udp4_event_.reset(event_new(session_.eventBase(), udp_socket_, EV_READ | EV_PERSIST, event_callback, &session_));
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}
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}
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// IPV6
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if (tr_globalIPv6(nullptr).has_value())
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{
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rebind_ipv6(true);
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}
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if (udp6_socket_ != TR_BAD_SOCKET)
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{
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udp6_event_.reset(event_new(session_.eventBase(), udp6_socket_, EV_READ | EV_PERSIST, event_callback, &session_));
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}
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set_socket_buffers();
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set_socket_tos();
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if (udp4_event_ != nullptr)
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{
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event_add(udp4_event_.get(), nullptr);
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}
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if (udp6_event_)
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{
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event_add(udp6_event_.get(), nullptr);
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}
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}
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tr_session::tr_udp_core::~tr_udp_core()
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{
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udp6_event_.reset();
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if (udp6_socket_ != TR_BAD_SOCKET)
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{
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tr_netCloseSocket(udp6_socket_);
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udp6_socket_ = TR_BAD_SOCKET;
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}
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udp4_event_.reset();
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if (udp_socket_ != TR_BAD_SOCKET)
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{
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tr_netCloseSocket(udp_socket_);
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udp_socket_ = TR_BAD_SOCKET;
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}
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udp6_bound_.reset();
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}
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void tr_session::tr_udp_core::sendto(void const* buf, size_t buflen, struct sockaddr const* to, socklen_t const tolen) const
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{
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int error = 0;
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std::array<char, std::max(INET_ADDRSTRLEN, INET6_ADDRSTRLEN) + 1> peer = {};
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if (to->sa_family == AF_INET)
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{
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if (udp_socket_ != TR_BAD_SOCKET)
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{
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if (::sendto(udp_socket_, static_cast<char const*>(buf), buflen, 0, to, tolen) == -1)
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{
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error = -1;
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}
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}
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else
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{
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error = -1;
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errno = EBADF;
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}
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if (error == -1)
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{
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evutil_inet_ntop(
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AF_INET,
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&((reinterpret_cast<struct sockaddr_in const*>(to))->sin_addr),
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std::data(peer),
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std::size(peer));
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}
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}
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else if (to->sa_family == AF_INET6)
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{
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if (udp6_socket_ != TR_BAD_SOCKET)
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{
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if (::sendto(udp6_socket_, static_cast<char const*>(buf), buflen, 0, to, tolen) == -1)
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{
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error = -1;
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}
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}
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else
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{
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error = -1;
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errno = EBADF;
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}
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if (error == -1)
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{
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evutil_inet_ntop(
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AF_INET6,
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&((reinterpret_cast<struct sockaddr_in6 const*>(to))->sin6_addr),
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std::data(peer),
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std::size(peer));
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}
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}
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else
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{
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error = -1;
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errno = EAFNOSUPPORT;
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}
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if (error == -1)
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{
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tr_logAddWarn(fmt::format(
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"Couldn't send to {address}: {errno} ({error})",
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fmt::arg("address", std::data(peer)),
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fmt::arg("errno", errno),
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fmt::arg("error", tr_strerror(errno))));
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}
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}
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