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337 lines
11 KiB
C++
337 lines
11 KiB
C++
// Copyright (c) 2011-2020 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#if defined(HAVE_CONFIG_H)
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#include <config/bitcoin-config.h>
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#endif
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#include <mapport.h>
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#include <clientversion.h>
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#include <logging.h>
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#include <net.h>
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#include <netaddress.h>
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#include <netbase.h>
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#include <threadinterrupt.h>
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#include <util/system.h>
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#ifdef USE_NATPMP
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#include <compat.h>
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#include <natpmp.h>
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#endif // USE_NATPMP
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#ifdef USE_UPNP
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#include <miniupnpc/miniupnpc.h>
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#include <miniupnpc/upnpcommands.h>
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#include <miniupnpc/upnperrors.h>
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// The minimum supported miniUPnPc API version is set to 10. This keeps compatibility
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// with Ubuntu 16.04 LTS and Debian 8 libminiupnpc-dev packages.
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static_assert(MINIUPNPC_API_VERSION >= 10, "miniUPnPc API version >= 10 assumed");
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#endif // USE_UPNP
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#include <atomic>
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#include <cassert>
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#include <chrono>
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#include <functional>
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#include <string>
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#include <thread>
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#if defined(USE_NATPMP) || defined(USE_UPNP)
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static CThreadInterrupt g_mapport_interrupt;
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static std::thread g_mapport_thread;
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static std::atomic_uint g_mapport_enabled_protos{MapPortProtoFlag::NONE};
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static std::atomic<MapPortProtoFlag> g_mapport_current_proto{MapPortProtoFlag::NONE};
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using namespace std::chrono_literals;
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static constexpr auto PORT_MAPPING_REANNOUNCE_PERIOD{20min};
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static constexpr auto PORT_MAPPING_RETRY_PERIOD{5min};
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#ifdef USE_NATPMP
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static uint16_t g_mapport_external_port = 0;
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static bool NatpmpInit(natpmp_t* natpmp)
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{
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const int r_init = initnatpmp(natpmp, /* detect gateway automatically */ 0, /* forced gateway - NOT APPLIED*/ 0);
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if (r_init == 0) return true;
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LogPrintf("natpmp: initnatpmp() failed with %d error.\n", r_init);
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return false;
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}
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static bool NatpmpDiscover(natpmp_t* natpmp, struct in_addr& external_ipv4_addr)
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{
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const int r_send = sendpublicaddressrequest(natpmp);
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if (r_send == 2 /* OK */) {
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int r_read;
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natpmpresp_t response;
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do {
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r_read = readnatpmpresponseorretry(natpmp, &response);
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} while (r_read == NATPMP_TRYAGAIN);
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if (r_read == 0) {
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external_ipv4_addr = response.pnu.publicaddress.addr;
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return true;
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} else if (r_read == NATPMP_ERR_NOGATEWAYSUPPORT) {
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LogPrintf("natpmp: The gateway does not support NAT-PMP.\n");
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} else {
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LogPrintf("natpmp: readnatpmpresponseorretry() for public address failed with %d error.\n", r_read);
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}
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} else {
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LogPrintf("natpmp: sendpublicaddressrequest() failed with %d error.\n", r_send);
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}
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return false;
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}
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static bool NatpmpMapping(natpmp_t* natpmp, const struct in_addr& external_ipv4_addr, uint16_t private_port, bool& external_ip_discovered)
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{
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const uint16_t suggested_external_port = g_mapport_external_port ? g_mapport_external_port : private_port;
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const int r_send = sendnewportmappingrequest(natpmp, NATPMP_PROTOCOL_TCP, private_port, suggested_external_port, 3600 /*seconds*/);
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if (r_send == 12 /* OK */) {
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int r_read;
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natpmpresp_t response;
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do {
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r_read = readnatpmpresponseorretry(natpmp, &response);
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} while (r_read == NATPMP_TRYAGAIN);
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if (r_read == 0) {
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auto pm = response.pnu.newportmapping;
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if (private_port == pm.privateport && pm.lifetime > 0) {
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g_mapport_external_port = pm.mappedpublicport;
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const CService external{external_ipv4_addr, pm.mappedpublicport};
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if (!external_ip_discovered && fDiscover) {
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AddLocal(external, LOCAL_MAPPED);
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external_ip_discovered = true;
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}
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LogPrintf("natpmp: Port mapping successful. External address = %s\n", external.ToString());
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return true;
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} else {
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LogPrintf("natpmp: Port mapping failed.\n");
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}
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} else if (r_read == NATPMP_ERR_NOGATEWAYSUPPORT) {
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LogPrintf("natpmp: The gateway does not support NAT-PMP.\n");
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} else {
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LogPrintf("natpmp: readnatpmpresponseorretry() for port mapping failed with %d error.\n", r_read);
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}
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} else {
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LogPrintf("natpmp: sendnewportmappingrequest() failed with %d error.\n", r_send);
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}
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return false;
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}
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static bool ProcessNatpmp()
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{
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bool ret = false;
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natpmp_t natpmp;
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struct in_addr external_ipv4_addr;
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if (NatpmpInit(&natpmp) && NatpmpDiscover(&natpmp, external_ipv4_addr)) {
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bool external_ip_discovered = false;
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const uint16_t private_port = GetListenPort();
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do {
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ret = NatpmpMapping(&natpmp, external_ipv4_addr, private_port, external_ip_discovered);
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} while (ret && g_mapport_interrupt.sleep_for(PORT_MAPPING_REANNOUNCE_PERIOD));
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g_mapport_interrupt.reset();
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const int r_send = sendnewportmappingrequest(&natpmp, NATPMP_PROTOCOL_TCP, private_port, g_mapport_external_port, /* remove a port mapping */ 0);
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g_mapport_external_port = 0;
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if (r_send == 12 /* OK */) {
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LogPrintf("natpmp: Port mapping removed successfully.\n");
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} else {
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LogPrintf("natpmp: sendnewportmappingrequest(0) failed with %d error.\n", r_send);
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}
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}
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closenatpmp(&natpmp);
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return ret;
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}
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#endif // USE_NATPMP
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#ifdef USE_UPNP
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static bool ProcessUpnp()
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{
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bool ret = false;
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std::string port = strprintf("%u", GetListenPort());
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const char * multicastif = nullptr;
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const char * minissdpdpath = nullptr;
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struct UPNPDev * devlist = nullptr;
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char lanaddr[64];
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int error = 0;
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#if MINIUPNPC_API_VERSION < 14
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devlist = upnpDiscover(2000, multicastif, minissdpdpath, 0, 0, &error);
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#else
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devlist = upnpDiscover(2000, multicastif, minissdpdpath, 0, 0, 2, &error);
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#endif
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struct UPNPUrls urls;
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struct IGDdatas data;
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int r;
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r = UPNP_GetValidIGD(devlist, &urls, &data, lanaddr, sizeof(lanaddr));
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if (r == 1)
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{
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if (fDiscover) {
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char externalIPAddress[40];
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r = UPNP_GetExternalIPAddress(urls.controlURL, data.first.servicetype, externalIPAddress);
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if (r != UPNPCOMMAND_SUCCESS) {
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LogPrintf("UPnP: GetExternalIPAddress() returned %d\n", r);
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} else {
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if (externalIPAddress[0]) {
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CNetAddr resolved;
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if (LookupHost(externalIPAddress, resolved, false)) {
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LogPrintf("UPnP: ExternalIPAddress = %s\n", resolved.ToString());
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AddLocal(resolved, LOCAL_MAPPED);
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}
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} else {
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LogPrintf("UPnP: GetExternalIPAddress failed.\n");
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}
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}
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}
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std::string strDesc = PACKAGE_NAME " " + FormatFullVersion();
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do {
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r = UPNP_AddPortMapping(urls.controlURL, data.first.servicetype, port.c_str(), port.c_str(), lanaddr, strDesc.c_str(), "TCP", 0, "0");
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if (r != UPNPCOMMAND_SUCCESS) {
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ret = false;
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LogPrintf("AddPortMapping(%s, %s, %s) failed with code %d (%s)\n", port, port, lanaddr, r, strupnperror(r));
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break;
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} else {
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ret = true;
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LogPrintf("UPnP Port Mapping successful.\n");
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}
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} while (g_mapport_interrupt.sleep_for(PORT_MAPPING_REANNOUNCE_PERIOD));
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g_mapport_interrupt.reset();
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r = UPNP_DeletePortMapping(urls.controlURL, data.first.servicetype, port.c_str(), "TCP", 0);
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LogPrintf("UPNP_DeletePortMapping() returned: %d\n", r);
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freeUPNPDevlist(devlist); devlist = nullptr;
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FreeUPNPUrls(&urls);
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} else {
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LogPrintf("No valid UPnP IGDs found\n");
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freeUPNPDevlist(devlist); devlist = nullptr;
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if (r != 0)
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FreeUPNPUrls(&urls);
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}
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return ret;
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}
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#endif // USE_UPNP
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static void ThreadMapPort()
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{
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bool ok;
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do {
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ok = false;
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#ifdef USE_UPNP
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// High priority protocol.
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if (g_mapport_enabled_protos & MapPortProtoFlag::UPNP) {
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g_mapport_current_proto = MapPortProtoFlag::UPNP;
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ok = ProcessUpnp();
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if (ok) continue;
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}
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#endif // USE_UPNP
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#ifdef USE_NATPMP
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// Low priority protocol.
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if (g_mapport_enabled_protos & MapPortProtoFlag::NAT_PMP) {
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g_mapport_current_proto = MapPortProtoFlag::NAT_PMP;
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ok = ProcessNatpmp();
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if (ok) continue;
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}
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#endif // USE_NATPMP
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g_mapport_current_proto = MapPortProtoFlag::NONE;
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if (g_mapport_enabled_protos == MapPortProtoFlag::NONE) {
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return;
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}
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} while (ok || g_mapport_interrupt.sleep_for(PORT_MAPPING_RETRY_PERIOD));
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}
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void StartThreadMapPort()
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{
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if (!g_mapport_thread.joinable()) {
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assert(!g_mapport_interrupt);
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g_mapport_thread = std::thread(std::bind(&TraceThread<void (*)()>, "mapport", &ThreadMapPort));
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}
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}
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static void DispatchMapPort()
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{
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if (g_mapport_current_proto == MapPortProtoFlag::NONE && g_mapport_enabled_protos == MapPortProtoFlag::NONE) {
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return;
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}
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if (g_mapport_current_proto == MapPortProtoFlag::NONE && g_mapport_enabled_protos != MapPortProtoFlag::NONE) {
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StartThreadMapPort();
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return;
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}
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if (g_mapport_current_proto != MapPortProtoFlag::NONE && g_mapport_enabled_protos == MapPortProtoFlag::NONE) {
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InterruptMapPort();
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StopMapPort();
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return;
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}
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if (g_mapport_enabled_protos & g_mapport_current_proto) {
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// Enabling another protocol does not cause switching from the currently used one.
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return;
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}
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assert(g_mapport_thread.joinable());
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assert(!g_mapport_interrupt);
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// Interrupt a protocol-specific loop in the ThreadUpnp() or in the ThreadNatpmp()
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// to force trying the next protocol in the ThreadMapPort() loop.
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g_mapport_interrupt();
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}
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static void MapPortProtoSetEnabled(MapPortProtoFlag proto, bool enabled)
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{
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if (enabled) {
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g_mapport_enabled_protos |= proto;
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} else {
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g_mapport_enabled_protos &= ~proto;
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}
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}
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void StartMapPort(bool use_upnp, bool use_natpmp)
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{
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MapPortProtoSetEnabled(MapPortProtoFlag::UPNP, use_upnp);
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MapPortProtoSetEnabled(MapPortProtoFlag::NAT_PMP, use_natpmp);
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DispatchMapPort();
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}
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void InterruptMapPort()
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{
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g_mapport_enabled_protos = MapPortProtoFlag::NONE;
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if (g_mapport_thread.joinable()) {
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g_mapport_interrupt();
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}
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}
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void StopMapPort()
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{
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if (g_mapport_thread.joinable()) {
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g_mapport_thread.join();
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g_mapport_interrupt.reset();
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}
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}
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#else // #if defined(USE_NATPMP) || defined(USE_UPNP)
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void StartMapPort(bool use_upnp, bool use_natpmp)
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{
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// Intentionally left blank.
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}
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void InterruptMapPort()
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{
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// Intentionally left blank.
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}
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void StopMapPort()
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{
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// Intentionally left blank.
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}
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#endif // #if defined(USE_NATPMP) || defined(USE_UPNP)
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