mirror of
https://github.com/transmission/transmission
synced 2024-12-28 02:27:41 +00:00
913 lines
25 KiB
C++
913 lines
25 KiB
C++
// This file Copyright © 2010-2022 Transmission authors and contributors.
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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 <algorithm>
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#include <array>
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#include <cerrno>
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#include <climits>
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#include <cstdint>
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#include <cstring>
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#include <ctime>
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#include <iterator> // std::back_inserter
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#include <string_view>
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#include <utility> // std::pair
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#include <sys/types.h>
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#ifdef _WIN32
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#include <ws2tcpip.h>
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#else
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#include <netinet/tcp.h> /* TCP_CONGESTION */
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#endif
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#include <event2/util.h>
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#include <fmt/core.h>
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#include <libutp/utp.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 "peer-socket.h"
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#include "session.h"
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#include "tr-assert.h"
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#include "tr-macros.h"
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#include "tr-utp.h"
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#include "utils.h"
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#ifndef IN_MULTICAST
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#define IN_MULTICAST(a) (((a)&0xf0000000) == 0xe0000000)
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#endif
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tr_address const tr_in6addr_any = { TR_AF_INET6, { IN6ADDR_ANY_INIT } };
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tr_address const tr_inaddr_any = { TR_AF_INET, { { { { INADDR_ANY } } } } };
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std::string tr_net_strerror(int err)
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{
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#ifdef _WIN32
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auto buf = std::array<char, 512>{};
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auto const len = FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM, nullptr, err, 0, std::data(buf), std::size(buf), nullptr);
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return std::string{ tr_strvStrip(std::data(buf)) };
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#else
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return std::string{ tr_strerror(err) };
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#endif
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}
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/*
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* Compare two tr_address structures.
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* Returns:
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* <0 if a < b
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* >0 if a > b
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* 0 if a == b
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*/
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int tr_address_compare(tr_address const* a, tr_address const* b) noexcept
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{
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// IPv6 addresses are always "greater than" IPv4
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if (a->type != b->type)
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{
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return a->isIPv4() ? 1 : -1;
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}
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return a->isIPv4() ? memcmp(&a->addr.addr4, &b->addr.addr4, sizeof(a->addr.addr4)) :
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memcmp(&a->addr.addr6.s6_addr, &b->addr.addr6.s6_addr, sizeof(a->addr.addr6.s6_addr));
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}
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/***********************************************************************
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* TCP sockets
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**********************************************************************/
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// RFCs 2474, 3246, 4594 & 8622
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// Service class names are defined in RFC 4594, RFC 5865, and RFC 8622.
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// Not all platforms have these IPTOS_ definitions, so hardcode them here
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static auto constexpr IpTosNames = std::array<std::pair<int, std::string_view>, 28>{ {
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{ 0x00, "cs0" }, // IPTOS_CLASS_CS0
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{ 0x04, "le" },
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{ 0x20, "cs1" }, // IPTOS_CLASS_CS1
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{ 0x28, "af11" }, // IPTOS_DSCP_AF11
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{ 0x30, "af12" }, // IPTOS_DSCP_AF12
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{ 0x38, "af13" }, // IPTOS_DSCP_AF13
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{ 0x40, "cs2" }, // IPTOS_CLASS_CS2
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{ 0x48, "af21" }, // IPTOS_DSCP_AF21
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{ 0x50, "af22" }, // IPTOS_DSCP_AF22
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{ 0x58, "af23" }, // IPTOS_DSCP_AF23
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{ 0x60, "cs3" }, // IPTOS_CLASS_CS3
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{ 0x68, "af31" }, // IPTOS_DSCP_AF31
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{ 0x70, "af32" }, // IPTOS_DSCP_AF32
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{ 0x78, "af33" }, // IPTOS_DSCP_AF33
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{ 0x80, "cs4" }, // IPTOS_CLASS_CS4
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{ 0x88, "af41" }, // IPTOS_DSCP_AF41
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{ 0x90, "af42" }, // IPTOS_DSCP_AF42
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{ 0x98, "af43" }, // IPTOS_DSCP_AF43
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{ 0xa0, "cs5" }, // IPTOS_CLASS_CS5
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{ 0xb8, "ef" }, // IPTOS_DSCP_EF
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{ 0xc0, "cs6" }, // IPTOS_CLASS_CS6
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{ 0xe0, "cs7" }, // IPTOS_CLASS_CS7
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// <netinet/ip.h> lists these TOS names as deprecated,
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// but keep them defined here for backward compatibility
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{ 0x00, "routine" }, // IPTOS_PREC_ROUTINE
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{ 0x02, "lowcost" }, // IPTOS_LOWCOST
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{ 0x02, "mincost" }, // IPTOS_MINCOST
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{ 0x04, "reliable" }, // IPTOS_RELIABILITY
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{ 0x08, "throughput" }, // IPTOS_THROUGHPUT
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{ 0x10, "lowdelay" }, // IPTOS_LOWDELAY
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} };
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std::string tr_netTosToName(int tos)
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{
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auto const test = [tos](auto const& pair)
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{
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return pair.first == tos;
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};
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auto const it = std::find_if(std::begin(IpTosNames), std::end(IpTosNames), test);
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return it == std::end(IpTosNames) ? std::to_string(tos) : std::string{ it->second };
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}
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std::optional<int> tr_netTosFromName(std::string_view name)
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{
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auto const test = [&name](auto const& pair)
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{
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return pair.second == name;
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};
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auto const it = std::find_if(std::begin(IpTosNames), std::end(IpTosNames), test);
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return it != std::end(IpTosNames) ? it->first : tr_parseNum<int>(name);
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}
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void tr_netSetTOS([[maybe_unused]] tr_socket_t s, [[maybe_unused]] int tos, tr_address_type type)
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{
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if (s == TR_BAD_SOCKET)
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{
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return;
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}
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if (type == TR_AF_INET)
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{
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#if defined(IP_TOS) && !defined(_WIN32)
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if (setsockopt(s, IPPROTO_IP, IP_TOS, (void const*)&tos, sizeof(tos)) == -1)
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{
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tr_logAddDebug(fmt::format("Can't set TOS '{}': {}", tos, tr_net_strerror(sockerrno)));
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}
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#endif
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}
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else if (type == TR_AF_INET6)
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{
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#if defined(IPV6_TCLASS) && !defined(_WIN32)
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if (setsockopt(s, IPPROTO_IPV6, IPV6_TCLASS, (void const*)&tos, sizeof(tos)) == -1)
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{
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tr_logAddDebug(fmt::format("Can't set IPv6 QoS '{}': {}", tos, tr_net_strerror(sockerrno)));
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}
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#endif
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}
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else
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{
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/* program should never reach here! */
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tr_logAddDebug("Something goes wrong while setting TOS/Traffic-Class");
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}
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}
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void tr_netSetCongestionControl([[maybe_unused]] tr_socket_t s, [[maybe_unused]] char const* algorithm)
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{
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#ifdef TCP_CONGESTION
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if (setsockopt(s, IPPROTO_TCP, TCP_CONGESTION, (void const*)algorithm, strlen(algorithm) + 1) == -1)
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{
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tr_logAddDebug(fmt::format("Can't set congestion control algorithm '{}': {}", algorithm, tr_net_strerror(sockerrno)));
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}
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#endif
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}
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bool tr_address_from_sockaddr_storage(tr_address* setme_addr, tr_port* setme_port, struct sockaddr_storage const* from)
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{
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if (from->ss_family == AF_INET)
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{
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auto const* const sin = (struct sockaddr_in const*)from;
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setme_addr->type = TR_AF_INET;
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setme_addr->addr.addr4.s_addr = sin->sin_addr.s_addr;
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*setme_port = tr_port::fromNetwork(sin->sin_port);
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return true;
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}
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if (from->ss_family == AF_INET6)
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{
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auto const* const sin6 = (struct sockaddr_in6 const*)from;
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setme_addr->type = TR_AF_INET6;
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setme_addr->addr.addr6 = sin6->sin6_addr;
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*setme_port = tr_port::fromNetwork(sin6->sin6_port);
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return true;
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}
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return false;
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}
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static socklen_t setup_sockaddr(tr_address const* addr, tr_port port, struct sockaddr_storage* sockaddr)
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{
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TR_ASSERT(tr_address_is_valid(addr));
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if (addr->isIPv4())
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{
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sockaddr_in sock4 = {};
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sock4.sin_family = AF_INET;
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sock4.sin_addr.s_addr = addr->addr.addr4.s_addr;
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sock4.sin_port = port.network();
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memcpy(sockaddr, &sock4, sizeof(sock4));
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return sizeof(struct sockaddr_in);
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}
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sockaddr_in6 sock6 = {};
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sock6.sin6_family = AF_INET6;
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sock6.sin6_port = port.network();
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sock6.sin6_flowinfo = 0;
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sock6.sin6_addr = addr->addr.addr6;
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memcpy(sockaddr, &sock6, sizeof(sock6));
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return sizeof(struct sockaddr_in6);
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}
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static tr_socket_t createSocket(tr_session* session, int domain, int type)
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{
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TR_ASSERT(session != nullptr);
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auto const sockfd = socket(domain, type, 0);
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if (sockfd == TR_BAD_SOCKET)
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{
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if (sockerrno != EAFNOSUPPORT)
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{
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tr_logAddWarn(fmt::format(
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_("Couldn't create socket: {error} ({error_code})"),
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fmt::arg("error", tr_net_strerror(sockerrno)),
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fmt::arg("error_code", sockerrno)));
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}
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return TR_BAD_SOCKET;
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}
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if ((evutil_make_socket_nonblocking(sockfd) == -1) || !session->incPeerCount())
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{
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tr_netClose(session, sockfd);
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return TR_BAD_SOCKET;
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}
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if (static bool buf_logged = false; !buf_logged)
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{
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int i = 0;
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socklen_t size = sizeof(i);
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if (getsockopt(sockfd, SOL_SOCKET, SO_SNDBUF, reinterpret_cast<char*>(&i), &size) != -1)
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{
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tr_logAddTrace(fmt::format("SO_SNDBUF size is {}", i));
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}
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i = 0;
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size = sizeof(i);
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if (getsockopt(sockfd, SOL_SOCKET, SO_RCVBUF, reinterpret_cast<char*>(&i), &size) != -1)
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{
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tr_logAddTrace(fmt::format("SO_RCVBUF size is {}", i));
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}
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buf_logged = true;
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}
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return sockfd;
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}
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struct tr_peer_socket tr_netOpenPeerSocket(tr_session* session, tr_address const* addr, tr_port port, bool client_is_seed)
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{
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TR_ASSERT(tr_address_is_valid(addr));
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if (!session->allowsTCP())
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{
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return {};
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}
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if (!tr_address_is_valid_for_peers(addr, port))
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{
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return {};
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}
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static auto constexpr Domains = std::array<int, NUM_TR_AF_INET_TYPES>{ AF_INET, AF_INET6 };
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auto const s = createSocket(session, Domains[addr->type], SOCK_STREAM);
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if (s == TR_BAD_SOCKET)
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{
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return {};
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}
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// seeds don't need a big read buffer, so make it smaller
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if (client_is_seed)
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{
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int n = 8192;
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if (setsockopt(s, SOL_SOCKET, SO_RCVBUF, reinterpret_cast<char const*>(&n), sizeof(n)) == -1)
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{
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tr_logAddDebug(fmt::format("Unable to set SO_RCVBUF on socket {}: {}", s, tr_net_strerror(sockerrno)));
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}
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}
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struct sockaddr_storage sock;
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socklen_t const addrlen = setup_sockaddr(addr, port, &sock);
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// set source address
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auto const [source_addr, is_default_addr] = session->publicAddress(addr->type);
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struct sockaddr_storage source_sock;
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socklen_t const sourcelen = setup_sockaddr(&source_addr, {}, &source_sock);
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if (bind(s, (struct sockaddr*)&source_sock, sourcelen) == -1)
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{
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tr_logAddWarn(fmt::format(
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_("Couldn't set source address {address} on {socket}: {error} ({error_code})"),
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fmt::arg("address", source_addr.readable()),
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fmt::arg("socket", s),
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fmt::arg("error", tr_net_strerror(sockerrno)),
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fmt::arg("error_code", sockerrno)));
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tr_netClose(session, s);
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return {};
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}
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auto ret = tr_peer_socket{};
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if (connect(s, (struct sockaddr*)&sock, addrlen) == -1 &&
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#ifdef _WIN32
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sockerrno != WSAEWOULDBLOCK &&
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#endif
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sockerrno != EINPROGRESS)
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{
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if (auto const tmperrno = sockerrno; (tmperrno != ENETUNREACH && tmperrno != EHOSTUNREACH) || addr->isIPv4())
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{
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tr_logAddWarn(fmt::format(
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_("Couldn't connect socket {socket} to {address}:{port}: {error} ({error_code})"),
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fmt::arg("socket", s),
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fmt::arg("address", addr->readable()),
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fmt::arg("port", port.host()),
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fmt::arg("error", tr_net_strerror(tmperrno)),
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fmt::arg("error_code", tmperrno)));
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}
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tr_netClose(session, s);
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}
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else
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{
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ret = tr_peer_socket_tcp_create(s);
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}
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tr_logAddTrace(fmt::format("New OUTGOING connection {} ({})", s, addr->readable(port)));
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return ret;
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}
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struct tr_peer_socket tr_netOpenPeerUTPSocket(
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tr_session* session,
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tr_address const* addr,
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tr_port port,
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bool /*client_is_seed*/)
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{
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auto ret = tr_peer_socket{};
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if (session->utp_context != nullptr && tr_address_is_valid_for_peers(addr, port))
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{
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struct sockaddr_storage ss;
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socklen_t const sslen = setup_sockaddr(addr, port, &ss);
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auto* const socket = utp_create_socket(session->utp_context);
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if (socket != nullptr)
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{
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if (utp_connect(socket, reinterpret_cast<sockaddr*>(&ss), sslen) != -1)
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{
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ret = tr_peer_socket_utp_create(socket);
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}
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else
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{
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utp_close(socket);
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}
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}
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}
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return ret;
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}
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void tr_netClosePeerSocket(tr_session* session, tr_peer_socket socket)
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{
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switch (socket.type)
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{
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case TR_PEER_SOCKET_TYPE_NONE:
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break;
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case TR_PEER_SOCKET_TYPE_TCP:
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tr_netClose(session, socket.handle.tcp);
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break;
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#ifdef WITH_UTP
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case TR_PEER_SOCKET_TYPE_UTP:
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utp_set_userdata(socket.handle.utp, nullptr);
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utp_close(socket.handle.utp);
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break;
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#endif
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default:
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TR_ASSERT_MSG(false, fmt::format(FMT_STRING("unsupported peer socket type {:d}"), socket.type));
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}
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}
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static tr_socket_t tr_netBindTCPImpl(tr_address const* addr, tr_port port, bool suppressMsgs, int* errOut)
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{
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TR_ASSERT(tr_address_is_valid(addr));
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static auto constexpr Domains = std::array<int, NUM_TR_AF_INET_TYPES>{ AF_INET, AF_INET6 };
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struct sockaddr_storage sock;
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auto const fd = socket(Domains[addr->type], SOCK_STREAM, 0);
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if (fd == TR_BAD_SOCKET)
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{
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*errOut = sockerrno;
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return TR_BAD_SOCKET;
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}
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if (evutil_make_socket_nonblocking(fd) == -1)
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{
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*errOut = sockerrno;
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tr_netCloseSocket(fd);
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return TR_BAD_SOCKET;
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}
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int optval = 1;
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(void)setsockopt(fd, SOL_SOCKET, SO_KEEPALIVE, reinterpret_cast<char const*>(&optval), sizeof(optval));
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(void)setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, reinterpret_cast<char const*>(&optval), sizeof(optval));
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#ifdef IPV6_V6ONLY
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if (addr->isIPv6() &&
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(setsockopt(fd, IPPROTO_IPV6, IPV6_V6ONLY, reinterpret_cast<char const*>(&optval), sizeof(optval)) == -1) &&
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(sockerrno != ENOPROTOOPT)) // if the kernel doesn't support it, ignore it
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{
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*errOut = sockerrno;
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tr_netCloseSocket(fd);
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return TR_BAD_SOCKET;
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}
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#endif
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int const addrlen = setup_sockaddr(addr, port, &sock);
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if (bind(fd, (struct sockaddr*)&sock, addrlen) == -1)
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{
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int const err = sockerrno;
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if (!suppressMsgs)
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{
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tr_logAddError(fmt::format(
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err == EADDRINUSE ?
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_("Couldn't bind port {port} on {address}: {error} ({error_code}) -- Is another copy of Transmission already running?") :
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_("Couldn't bind port {port} on {address}: {error} ({error_code})"),
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fmt::arg("address", addr->readable()),
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fmt::arg("port", port.host()),
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fmt::arg("error", tr_net_strerror(err)),
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fmt::arg("error_code", err)));
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}
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tr_netCloseSocket(fd);
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*errOut = err;
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return TR_BAD_SOCKET;
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}
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if (!suppressMsgs)
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{
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tr_logAddDebug(fmt::format(FMT_STRING("Bound socket {:d} to port {:d} on {:s}"), fd, port.host(), addr->readable()));
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}
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#ifdef TCP_FASTOPEN
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#ifndef SOL_TCP
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#define SOL_TCP IPPROTO_TCP
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#endif
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optval = 5;
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(void)setsockopt(fd, SOL_TCP, TCP_FASTOPEN, reinterpret_cast<char const*>(&optval), sizeof(optval));
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#endif
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#ifdef _WIN32
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if (listen(fd, SOMAXCONN) == -1)
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#else /* _WIN32 */
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/* Listen queue backlog will be capped to the operating system's limit. */
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if (listen(fd, INT_MAX) == -1)
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#endif /* _WIN32 */
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{
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*errOut = sockerrno;
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tr_netCloseSocket(fd);
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return TR_BAD_SOCKET;
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}
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return fd;
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}
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tr_socket_t tr_netBindTCP(tr_address const* addr, tr_port port, bool suppressMsgs)
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{
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int unused = 0;
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return tr_netBindTCPImpl(addr, port, suppressMsgs, &unused);
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}
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bool tr_net_hasIPv6(tr_port port)
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{
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static bool result = false;
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static bool alreadyDone = false;
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if (!alreadyDone)
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{
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int err = 0;
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auto const fd = tr_netBindTCPImpl(&tr_in6addr_any, port, true, &err);
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if (fd != TR_BAD_SOCKET || err != EAFNOSUPPORT) /* we support ipv6 */
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{
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result = true;
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}
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if (fd != TR_BAD_SOCKET)
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{
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tr_netCloseSocket(fd);
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}
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alreadyDone = true;
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}
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return result;
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}
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tr_socket_t tr_netAccept(tr_session* session, tr_socket_t listening_sockfd, tr_address* addr, tr_port* port)
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{
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TR_ASSERT(session != nullptr);
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TR_ASSERT(addr != nullptr);
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TR_ASSERT(port != nullptr);
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// accept the incoming connection
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struct sockaddr_storage sock;
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socklen_t len = sizeof(struct sockaddr_storage);
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auto const sockfd = accept(listening_sockfd, (struct sockaddr*)&sock, &len);
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if (sockfd == TR_BAD_SOCKET)
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{
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return TR_BAD_SOCKET;
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}
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// get the address and port,
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// make the socket unblocking,
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// and confirm we don't have too many peers
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if (!tr_address_from_sockaddr_storage(addr, port, &sock) || evutil_make_socket_nonblocking(sockfd) == -1 ||
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!session->incPeerCount())
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{
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tr_netCloseSocket(sockfd);
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return TR_BAD_SOCKET;
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}
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return sockfd;
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}
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void tr_netCloseSocket(tr_socket_t sockfd)
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{
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evutil_closesocket(sockfd);
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}
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void tr_netClose(tr_session* session, tr_socket_t sockfd)
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{
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tr_netCloseSocket(sockfd);
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session->decPeerCount();
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}
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/*
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get_source_address() and global_unicast_address() were written by
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Juliusz Chroboczek, and are covered under the same license as dht.c.
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Please feel free to copy them into your software if it can help
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unbreaking the double-stack Internet. */
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/* Get the source address used for a given destination address. Since
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there is no official interface to get this information, we create
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a connected UDP socket (connected UDP... hmm...) and check its source
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address. */
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static int get_source_address(struct sockaddr const* dst, socklen_t dst_len, struct sockaddr* src, socklen_t* src_len)
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{
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tr_socket_t const s = socket(dst->sa_family, SOCK_DGRAM, 0);
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if (s == TR_BAD_SOCKET)
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{
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return -1;
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}
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// since it's a UDP socket, this doesn't actually send any packets
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if (connect(s, dst, dst_len) == 0 && getsockname(s, src, src_len) == 0)
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{
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evutil_closesocket(s);
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return 0;
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}
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auto const save = errno;
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evutil_closesocket(s);
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errno = save;
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return -1;
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}
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/* We all hate NATs. */
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static int global_unicast_address(struct sockaddr_storage* ss)
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{
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if (ss->ss_family == AF_INET)
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{
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unsigned char const* a = (unsigned char*)&((struct sockaddr_in*)ss)->sin_addr;
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if (a[0] == 0 || a[0] == 127 || a[0] >= 224 || a[0] == 10 || (a[0] == 172 && a[1] >= 16 && a[1] <= 31) ||
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(a[0] == 192 && a[1] == 168))
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{
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return 0;
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}
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return 1;
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}
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if (ss->ss_family == AF_INET6)
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{
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unsigned char const* a = (unsigned char*)&((struct sockaddr_in6*)ss)->sin6_addr;
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/* 2000::/3 */
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return (a[0] & 0xE0) == 0x20 ? 1 : 0;
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}
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errno = EAFNOSUPPORT;
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return -1;
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}
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static int tr_globalAddress(int af, void* addr, int* addr_len)
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{
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struct sockaddr_storage ss;
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socklen_t sslen = sizeof(ss);
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struct sockaddr_in sin;
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struct sockaddr_in6 sin6;
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struct sockaddr const* sa = nullptr;
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socklen_t salen = 0;
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switch (af)
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{
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case AF_INET:
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memset(&sin, 0, sizeof(sin));
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sin.sin_family = AF_INET;
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evutil_inet_pton(AF_INET, "91.121.74.28", &sin.sin_addr);
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sin.sin_port = htons(6969);
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sa = (struct sockaddr const*)&sin;
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salen = sizeof(sin);
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break;
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case AF_INET6:
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memset(&sin6, 0, sizeof(sin6));
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sin6.sin6_family = AF_INET6;
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/* In order for address selection to work right, this should be
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a native IPv6 address, not Teredo or 6to4. */
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evutil_inet_pton(AF_INET6, "2001:1890:1112:1::20", &sin6.sin6_addr);
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sin6.sin6_port = htons(6969);
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sa = (struct sockaddr const*)&sin6;
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salen = sizeof(sin6);
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break;
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default:
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return -1;
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}
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if (int const rc = get_source_address(sa, salen, (struct sockaddr*)&ss, &sslen); rc < 0)
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{
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return -1;
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}
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if (global_unicast_address(&ss) == 0)
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{
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return -1;
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}
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switch (af)
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{
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case AF_INET:
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if (*addr_len < 4)
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{
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return -1;
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}
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memcpy(addr, &((struct sockaddr_in*)&ss)->sin_addr, 4);
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*addr_len = 4;
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return 1;
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case AF_INET6:
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if (*addr_len < 16)
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{
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return -1;
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}
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memcpy(addr, &((struct sockaddr_in6*)&ss)->sin6_addr, 16);
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*addr_len = 16;
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return 1;
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default:
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return -1;
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}
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}
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/* Return our global IPv6 address, with caching. */
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unsigned char const* tr_globalIPv6(tr_session const* session)
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{
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static auto ipv6 = std::array<unsigned char, 16>{};
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static time_t last_time = 0;
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static bool have_ipv6 = false;
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/* Re-check every half hour */
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if (auto const now = tr_time(); last_time < now - 1800)
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{
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int addrlen = 16;
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int const rc = tr_globalAddress(AF_INET6, std::data(ipv6), &addrlen);
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have_ipv6 = rc >= 0 && addrlen == 16;
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last_time = now;
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}
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if (!have_ipv6)
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{
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return nullptr; /* No IPv6 address at all. */
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}
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/* Return the default address.
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* This is useful for checking for connectivity in general. */
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if (session == nullptr)
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{
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return std::data(ipv6);
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}
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/* We have some sort of address, now make sure that we return
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our bound address if non-default. */
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auto const [ipv6_bindaddr, is_default] = session->publicAddress(TR_AF_INET6);
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if (!is_default)
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{
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/* Explicitly bound. Return that address. */
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memcpy(std::data(ipv6), ipv6_bindaddr.addr.addr6.s6_addr, 16);
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}
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return std::data(ipv6);
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}
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/***
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****
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****
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***/
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static bool isIPv4MappedAddress(tr_address const* addr)
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{
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return addr->isIPv6() && IN6_IS_ADDR_V4MAPPED(&addr->addr.addr6);
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}
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static bool isIPv6LinkLocalAddress(tr_address const* addr)
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{
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return addr->isIPv6() && IN6_IS_ADDR_LINKLOCAL(&addr->addr.addr6);
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}
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/* isMartianAddr was written by Juliusz Chroboczek,
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and is covered under the same license as third-party/dht/dht.c. */
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static bool isMartianAddr(struct tr_address const* a)
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{
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TR_ASSERT(tr_address_is_valid(a));
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static auto constexpr Zeroes = std::array<unsigned char, 16>{};
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switch (a->type)
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{
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case TR_AF_INET:
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{
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auto const* const address = (unsigned char const*)&a->addr.addr4;
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return address[0] == 0 || address[0] == 127 || (address[0] & 0xE0) == 0xE0;
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}
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case TR_AF_INET6:
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{
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auto const* const address = (unsigned char const*)&a->addr.addr6;
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return address[0] == 0xFF ||
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(memcmp(address, std::data(Zeroes), 15) == 0 && (address[15] == 0 || address[15] == 1));
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}
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default:
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return true;
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}
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}
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bool tr_address_is_valid_for_peers(tr_address const* addr, tr_port port)
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{
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return !std::empty(port) && tr_address_is_valid(addr) && !isIPv6LinkLocalAddress(addr) && !isIPv4MappedAddress(addr) &&
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!isMartianAddr(addr);
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}
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struct tr_peer_socket tr_peer_socket_tcp_create(tr_socket_t const handle)
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{
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TR_ASSERT(handle != TR_BAD_SOCKET);
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return { TR_PEER_SOCKET_TYPE_TCP, { handle } };
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}
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struct tr_peer_socket tr_peer_socket_utp_create(struct UTPSocket* const handle)
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{
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TR_ASSERT(handle != nullptr);
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auto ret = tr_peer_socket{ TR_PEER_SOCKET_TYPE_UTP, {} };
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ret.handle.utp = handle;
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return ret;
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}
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/// tr_port
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std::pair<tr_port, uint8_t const*> tr_port::fromCompact(uint8_t const* compact) noexcept
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{
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static auto constexpr PortLen = size_t{ 2 };
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static_assert(PortLen == sizeof(uint16_t));
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auto nport = uint16_t{};
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std::copy_n(compact, PortLen, reinterpret_cast<uint8_t*>(&nport));
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compact += PortLen;
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return std::make_pair(tr_port::fromNetwork(nport), compact);
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}
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/// tr_address
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std::optional<tr_address> tr_address::fromString(std::string_view address_sv)
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{
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auto const address_sz = tr_strbuf<char, TR_ADDRSTRLEN>{ address_sv };
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auto addr = tr_address{};
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if (evutil_inet_pton(AF_INET, address_sz, &addr.addr) == 1)
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{
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addr.type = TR_AF_INET;
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return addr;
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}
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if (evutil_inet_pton(AF_INET6, address_sz, &addr.addr) == 1)
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{
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addr.type = TR_AF_INET6;
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return addr;
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}
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return {};
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}
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std::string_view tr_address::readable(char* out, size_t outlen, tr_port port) const
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{
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if (std::empty(port))
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{
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return isIPv4() ? evutil_inet_ntop(AF_INET, &addr, out, outlen) : evutil_inet_ntop(AF_INET6, &addr, out, outlen);
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}
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auto buf = std::array<char, INET6_ADDRSTRLEN>{};
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auto const addr_sv = readable(std::data(buf), std::size(buf));
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auto const [end, size] = fmt::format_to_n(out, outlen - 1, FMT_STRING("[{:s}]:{:d}"), addr_sv, port.host());
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return { out, size };
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}
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template<typename OutputIt>
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OutputIt tr_address::readable(OutputIt out, tr_port port) const
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{
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auto addrbuf = std::array<char, TR_ADDRSTRLEN + 16>{};
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auto const addr_sv = readable(std::data(addrbuf), std::size(addrbuf), port);
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return std::copy(std::begin(addr_sv), std::end(addr_sv), out);
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}
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template char* tr_address::readable<char*>(char*, tr_port) const;
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[[nodiscard]] std::string tr_address::readable(tr_port port) const
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{
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auto buf = std::string{};
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buf.reserve(INET6_ADDRSTRLEN + 16);
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this->readable(std::back_inserter(buf), port);
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return buf;
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}
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std::pair<tr_address, uint8_t const*> tr_address::fromCompact4(uint8_t const* compact) noexcept
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{
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static auto constexpr Addr4Len = size_t{ 4 };
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auto address = tr_address{};
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static_assert(sizeof(address.addr.addr4) == Addr4Len);
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address.type = TR_AF_INET;
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std::copy_n(compact, Addr4Len, reinterpret_cast<uint8_t*>(&address.addr));
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compact += Addr4Len;
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return std::make_pair(address, compact);
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}
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std::pair<tr_address, uint8_t const*> tr_address::fromCompact6(uint8_t const* compact) noexcept
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{
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static auto constexpr Addr6Len = size_t{ 16 };
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auto address = tr_address{};
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address.type = TR_AF_INET6;
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std::copy_n(compact, Addr6Len, reinterpret_cast<uint8_t*>(&address.addr.addr6.s6_addr));
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compact += Addr6Len;
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return std::make_pair(address, compact);
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}
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int tr_address::compare(tr_address const& that) const noexcept // <=>
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{
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return tr_address_compare(this, &that);
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}
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