From b849e2353601f5209a7033e26ea474f23fb13ce9 Mon Sep 17 00:00:00 2001 From: Grant Limberg Date: Tue, 7 Jan 2025 11:06:42 -0800 Subject: [PATCH] Moved zerotier-root code to its own repo --- CMakeLists.txt | 7 +- root/CMakeLists.txt | 19 - root/geoip-html.h | 55 -- root/root.cpp | 1493 ------------------------------------------- 4 files changed, 3 insertions(+), 1571 deletions(-) delete mode 100644 root/CMakeLists.txt delete mode 100644 root/geoip-html.h delete mode 100644 root/root.cpp diff --git a/CMakeLists.txt b/CMakeLists.txt index be34c7e51..e154a45cc 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -1,4 +1,4 @@ -cmake_minimum_required (VERSION 3.8) +cmake_minimum_required (VERSION 3.10) if(${CMAKE_VERSION} VERSION_LESS 3.15) cmake_policy(VERSION ${CMAKE_MAJOR_VERSION}.${CMAKE_MINOR_VERSION}) @@ -133,7 +133,6 @@ endif() add_subdirectory(node) add_subdirectory(controller) add_subdirectory(osdep) -add_subdirectory(root) add_subdirectory(go/native) #if(WIN32) @@ -150,8 +149,8 @@ set( ) configure_file( - ${CMAKE_SOURCE_DIR}/version.h.in - ${CMAKE_BINARY_DIR}/version.h + ${CMAKE_CURRENT_SOURCE_DIR}/version.h.in + ${CMAKE_CURRENT_BINARY_DIR}/version.h ) #set(src diff --git a/root/CMakeLists.txt b/root/CMakeLists.txt deleted file mode 100644 index 593bc1318..000000000 --- a/root/CMakeLists.txt +++ /dev/null @@ -1,19 +0,0 @@ -cmake_minimum_required(VERSION 2.8) -project(zerotier-root) - -if(WIN32) - add_definitions(-DNOMINMAX) -endif(WIN32) - -add_executable(${PROJECT_NAME} root.cpp) - -target_link_libraries(${PROJECT_NAME} zt_core zt_osdep pthread resolv jemalloc) - -target_compile_features(${PROJECT_NAME} PUBLIC cxx_std_11) - -target_include_directories(${PROJECT_NAME} PRIVATE - ${CMAKE_SOURCE_DIR}/node - ${CMAKE_SOURCE_DIR}/osdep - ${CMAKE_SOURCE_DIR}/ext/json - ${CMAKE_SOURCE_DIR}/ext/cpp-httplib -) diff --git a/root/geoip-html.h b/root/geoip-html.h deleted file mode 100644 index 863f20bb5..000000000 --- a/root/geoip-html.h +++ /dev/null @@ -1,55 +0,0 @@ -#ifndef ZT_ROOT_GEOIP_HTML_H -#define ZT_ROOT_GEOIP_HTML_H - -#define ZT_GEOIP_HTML_HEAD \ -"\n" \ -"\n" \ -" \n" \ -" \n" \ -" \n" \ -" \n" \ -" GeoIP Map\n" \ -" \n" \ -" \n" \ -" \n" \ -"
\n" \ -" \n" \ -" \n" \ -" \n" \ -" \n" \ -"" - -#endif diff --git a/root/root.cpp b/root/root.cpp deleted file mode 100644 index 796c879f4..000000000 --- a/root/root.cpp +++ /dev/null @@ -1,1493 +0,0 @@ -/* - * Copyright (c)2019 ZeroTier, Inc. - * - * Use of this software is governed by the Business Source License included - * in the LICENSE.TXT file in the project's root directory. - * - * Change Date: 2023-01-01 - * - * On the date above, in accordance with the Business Source License, use - * of this software will be governed by version 2.0 of the Apache License. - */ -/****/ - -/* - * This is a high-throughput minimal root server. It implements only - * those functions of a ZT node that a root must perform and does so - * using highly efficient multithreaded I/O code. It's only been - * thoroughly tested on Linux but should also run on BSDs. - * - * Root configuration file format (JSON): - * - * { - * "name": Name of this root for documentation/UI purposes (string) - * "port": UDP port (int) - * "httpPort": Local HTTP port for basic stats (int) - * "relayMaxHops": Max hops (up to 7) - * "planetFile": Location of planet file for pre-2.x peers (string) - * "statsRoot": If present, path to periodically save stats files (string) - * "s_siblings": [ - * { - * "name": Sibling name for UI/documentation purposes (string) - * "id": Full public identity of subling (string) - * "ip": IP address of sibling (string) - * "port": port of subling (for ZeroTier UDP) (int) - * }, ... - * ] - * } - * - * The only required field is port. If statsRoot is present then files - * are periodically written there containing the root's current state. - * It should be a memory filesystem like /dev/shm on Linux as these - * files are large and rewritten frequently and do not need to be - * persisted. - * - * s_siblings are other root servers that should receive packets to peers - * that we can't find. This can occur due to e.g. network topology - * hiccups, IP blockages, etc. s_siblings are used in the order in which - * they appear with the first alive sibling being used. - */ - -#include "../ext/cpp-httplib/httplib.h" -#include "../ext/json/json.hpp" -#include "../node/Address.hpp" -#include "../node/CertificateOfMembership.hpp" -#include "../node/Constants.hpp" -#include "../node/Identity.hpp" -#include "../node/InetAddress.hpp" -#include "../node/Meter.hpp" -#include "../node/MulticastGroup.hpp" -#include "../node/Mutex.hpp" -#include "../node/Packet.hpp" -#include "../node/SharedPtr.hpp" -#include "../node/Utils.hpp" -#include "../node/AES.hpp" -#include "../osdep/BlockingQueue.hpp" -#include "../osdep/OSUtils.hpp" -#include "geoip-html.h" - -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include - -using namespace ZeroTier; -using json = nlohmann::json; - -#ifdef MSG_DONTWAIT -#define SENDTO_FLAGS MSG_DONTWAIT -#define RECVFROM_FLAGS 0 -#else -#define SENDTO_FLAGS 0 -#define RECVFROM_FLAGS 0 -#endif - -////////////////////////////////////////////////////////////////////////////// -////////////////////////////////////////////////////////////////////////////// - -/** - * RootPeer is a normal peer known to this root - * - * This struct must remain memcpy-able. Identity, InetAddress, and - * AtomicCounter all satisfy this. Take care when adding fields that - * this remains true. - */ -struct RootPeer { - ZT_ALWAYS_INLINE RootPeer() : v4s(-1), v6s(-1), lastSend(0), lastReceive(0), lastReceiveV4(0), lastReceiveV6(0), lastEcho(0), lastHello(0), vProto(-1), vMajor(-1), vMinor(-1), vRev(-1), identityValidated(false) - { - } - ZT_ALWAYS_INLINE ~RootPeer() - { - Utils::burn(key, sizeof(key)); - } - - Identity id; // Identity - uint8_t key[32]; // Shared secret key - InetAddress ip4, ip6; // IPv4 and IPv6 addresses - int v4s, v6s; // IPv4 and IPv6 sockets - int64_t lastSend; // Time of last send (any packet) - int64_t lastReceive; // Time of last receive (any packet) - int64_t lastReceiveV4; // Time of last IPv4 receive - int64_t lastReceiveV6; // Time of last IPv6 receive - int64_t lastEcho; // Time of last received ECHO - int64_t lastHello; // Time of last received HELLO - int vProto; // Protocol version or -1 if unknown - int vMajor, vMinor, vRev; // Peer version or -1,-1,-1 if unknown - bool identityValidated; // Identity has been fully verified - - AtomicCounter __refCount; -}; - -// Hashers for std::unordered_map -struct IdentityHasher { - ZT_ALWAYS_INLINE std::size_t operator()(const Identity& id) const - { - return (std::size_t)id.hashCode(); - } -}; -struct AddressHasher { - ZT_ALWAYS_INLINE std::size_t operator()(const Address& a) const - { - return (std::size_t)a.toInt(); - } -}; -struct InetAddressHasher { - ZT_ALWAYS_INLINE std::size_t operator()(const InetAddress& ip) const - { - return (std::size_t)ip.hashCode(); - } -}; -struct MulticastGroupHasher { - ZT_ALWAYS_INLINE std::size_t operator()(const MulticastGroup& mg) const - { - return (std::size_t)mg.hashCode(); - } -}; - -// An ordered tuple key representing an introduction of one peer to another -struct RendezvousKey { - RendezvousKey(const Address& aa, const Address& bb) - { - if (aa > bb) { - a = aa; - b = bb; - } - else { - a = bb; - b = aa; - } - } - Address a, b; - ZT_ALWAYS_INLINE bool operator==(const RendezvousKey& k) const - { - return ((a == k.a) && (b == k.b)); - } - ZT_ALWAYS_INLINE bool operator!=(const RendezvousKey& k) const - { - return ((a != k.a) || (b != k.b)); - } - struct Hasher { - ZT_ALWAYS_INLINE std::size_t operator()(const RendezvousKey& k) const - { - return (std::size_t)(k.a.toInt() ^ k.b.toInt()); - } - }; -}; - -struct RendezvousStats { - RendezvousStats() : count(0), ts(0) - { - } - int64_t count; - int64_t ts; -}; - -// These fields are not locked as they're only initialized on startup or are atomic -static int64_t s_startTime; // Time service was started -static std::vector s_ports; // Ports to bind for UDP traffic -static int s_relayMaxHops = 0; // Max relay hops -static Identity s_self; // My identity (including secret) -static std::atomic_bool s_run; // Remains true until shutdown is ordered -static json s_config; // JSON config file contents -static std::string s_statsRoot; // Root to write stats, peers, etc. -static std::atomic_bool s_geoInit; // True if geoIP data is initialized -static std::string s_googleMapsAPIKey; // Google maps API key for GeoIP /map feature - -// These are only modified during GeoIP database load (if enabled) and become static after s_geoInit is set to true. -static std::map, std::pair > s_geoIp4; -static std::map, std::array >, std::pair > s_geoIp6; - -// Rate meters for statistical purposes (locks are internal to Meter) -static Meter s_inputRate; -static Meter s_outputRate; -static Meter s_forwardRate; -static Meter s_discardedForwardRate; - -// These fields are locked using mutexes below as they're modified during runtime -static std::string s_planet; -static std::vector > s_peers; -static std::vector > s_peersToValidate; -static std::unordered_map, MulticastGroupHasher> > s_multicastSubscriptions; -static std::unordered_map, AddressHasher> s_peersByVirtAddr; -static std::unordered_map s_rendezvousTracking; - -static std::mutex s_planet_l; -static std::mutex s_peers_l; -static std::mutex s_peersToValidate_l; -static std::mutex s_multicastSubscriptions_l; -static std::mutex s_peersByVirtAddr_l; -static std::mutex s_rendezvousTracking_l; - -////////////////////////////////////////////////////////////////////////////// -////////////////////////////////////////////////////////////////////////////// - -// Construct GeoIP key for IPv4 IPs -static ZT_ALWAYS_INLINE uint32_t ip4ToH32(const InetAddress& ip) -{ - return Utils::ntoh((uint32_t)(((const struct sockaddr_in*)&ip)->sin_addr.s_addr)); -} - -// Construct GeoIP key for IPv6 IPs -static ZT_ALWAYS_INLINE std::array ip6ToH128(const InetAddress& ip) -{ - std::array i128; - memcpy(i128.data(), ip.rawIpData(), 16); - i128[0] = Utils::ntoh(i128[0]); - i128[1] = Utils::ntoh(i128[1]); - return i128; -} - -#define ZT_PACKET_IDX_EXTENDED_ARMOR_START 19 - -static void handlePacket(const int sock, const InetAddress* const ip, Packet& pkt) -{ - char ipstr[128], ipstr2[128], astr[32], astr2[32], tmpstr[256]; - const bool fragment = pkt[ZT_PACKET_FRAGMENT_IDX_FRAGMENT_INDICATOR] == ZT_PACKET_FRAGMENT_INDICATOR; - const Address source(pkt.source()); - const Address dest(pkt.destination()); - const int64_t now = OSUtils::now(); - - s_inputRate.log(now, pkt.size()); - - if ((! fragment) && (pkt.size() < ZT_PROTO_MIN_PACKET_LENGTH)) - return; - - if ((! fragment) && (! pkt.fragmented()) && (dest == s_self.address())) { - SharedPtr peer; - - if ((pkt.cipher() == ZT_PROTO_CIPHER_SUITE__POLY1305_NONE) && pkt.extendedArmor()) { - if (pkt.size() < (ZT_PROTO_MIN_PACKET_LENGTH + 32)) { - return; - } - uint8_t ephemeralSymmetric[64]; - C25519::agree(s_self.c25519SecretKey(), (const uint8_t *)pkt.data() + (pkt.size() - 32), ephemeralSymmetric); - SHA512(ephemeralSymmetric, ephemeralSymmetric, 32); - - AES cipher(ephemeralSymmetric); - uint32_t ctrIv[4]; - memcpy(ctrIv, pkt.data(), 12); - ctrIv[3] = 0; - cipher.ctr((const uint8_t *)ctrIv, (const uint8_t *)pkt.data() + ZT_PACKET_IDX_EXTENDED_ARMOR_START, (pkt.size() - ZT_PACKET_IDX_EXTENDED_ARMOR_START) - 32, (uint8_t *)pkt.data() + ZT_PACKET_IDX_EXTENDED_ARMOR_START); - - pkt.setSize(pkt.size() - 32); - } - - // If this is an un-encrypted HELLO, either learn a new peer or verify - // that this is a peer we already know. - if ((pkt.cipher() == ZT_PROTO_CIPHER_SUITE__POLY1305_NONE) && (pkt.verb() == Packet::VERB_HELLO)) { - Identity id; - if (id.deserialize(pkt, ZT_PROTO_VERB_HELLO_IDX_IDENTITY)) { - { - std::lock_guard p_l(s_peersByVirtAddr_l); - auto p = s_peersByVirtAddr.find(source); - if (p != s_peersByVirtAddr.end()) { - peer = p->second; - } - } - - if (peer) { - if (unlikely(peer->id != id)) { - printf("%s HELLO rejected: identity address collision!" ZT_EOL_S, ip->toString(ipstr)); - - uint8_t key[48]; - if (s_self.agree(id, key)) { - const uint64_t origId = pkt.packetId(); - pkt.reset(source, s_self.address(), Packet::VERB_ERROR); - pkt.append((uint8_t)Packet::VERB_HELLO); - pkt.append(origId); - pkt.append((uint8_t)Packet::ERROR_IDENTITY_COLLISION); - pkt.armor(key, true); - sendto(sock, pkt.data(), pkt.size(), SENDTO_FLAGS, (const struct sockaddr*)ip, (socklen_t)((ip->ss_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6))); - } - - return; - } - } - else { - peer.set(new RootPeer); - peer->identityValidated = false; - - if (! s_self.agree(id, peer->key)) { - printf("%s HELLO rejected: key agreement failed" ZT_EOL_S, ip->toString(ipstr)); - return; - } - if (! pkt.dearmor(peer->key)) { - printf("%s HELLO rejected: packet authentication failed" ZT_EOL_S, ip->toString(ipstr)); - return; - } - if (! pkt.uncompress()) { - printf("%s HELLO rejected: decompression failed" ZT_EOL_S, ip->toString(ipstr)); - return; - } - - peer->id = id; - peer->lastReceive = now; - - { - std::lock_guard pbv_l(s_peersByVirtAddr_l); - s_peersByVirtAddr[id.address()] = peer; - } - { - std::lock_guard pl(s_peers_l); - s_peers.emplace_back(peer); - } - { - std::lock_guard pv(s_peersToValidate_l); - s_peersToValidate.emplace_back(peer); - } - } - } - } - - if (! peer) { - { - std::lock_guard pbv_l(s_peersByVirtAddr_l); - auto p = s_peersByVirtAddr.find(source); - if (p != s_peersByVirtAddr.end()) { - peer = p->second; - } - } - if (peer) { - if (! pkt.dearmor(peer->key)) { - printf("%s HELLO rejected: packet authentication failed" ZT_EOL_S, ip->toString(ipstr)); - return; - } - if (! pkt.uncompress()) { - printf("%s packet rejected: decompression failed" ZT_EOL_S, ip->toString(ipstr)); - return; - } - } - else { - return; - } - } - - const int64_t now = OSUtils::now(); - - if (ip->isV4()) { - peer->ip4 = ip; - peer->v4s = sock; - peer->lastReceiveV4 = now; - if ((now - peer->lastReceiveV6) > ZT_PEER_ACTIVITY_TIMEOUT) - peer->v6s = -1; - } - else if (ip->isV6()) { - peer->ip6 = ip; - peer->v6s = sock; - peer->lastReceiveV6 = now; - if ((now - peer->lastReceiveV4) > ZT_PEER_ACTIVITY_TIMEOUT) - peer->v4s = -1; - } - peer->lastReceive = now; - - switch (pkt.verb()) { - case Packet::VERB_HELLO: - try { - if ((now - peer->lastHello) > 250) { - peer->lastHello = now; - - peer->vProto = (int)pkt[ZT_PROTO_VERB_HELLO_IDX_PROTOCOL_VERSION]; - peer->vMajor = (int)pkt[ZT_PROTO_VERB_HELLO_IDX_MAJOR_VERSION]; - peer->vMinor = (int)pkt[ZT_PROTO_VERB_HELLO_IDX_MINOR_VERSION]; - peer->vRev = (int)pkt.template at(ZT_PROTO_VERB_HELLO_IDX_REVISION); - const uint64_t origId = pkt.packetId(); - const uint64_t ts = pkt.template at(ZT_PROTO_VERB_HELLO_IDX_TIMESTAMP); - - pkt.reset(source, s_self.address(), Packet::VERB_OK); - pkt.append((uint8_t)Packet::VERB_HELLO); - pkt.append(origId); - pkt.append(ts); - pkt.append((uint8_t)ZT_PROTO_VERSION); - pkt.append((uint8_t)0); - pkt.append((uint8_t)0); - pkt.append((uint16_t)0); - ip->serialize(pkt); - if (peer->vProto < 20) { // send planet file for pre-2.x peers - std::lock_guard pl(s_planet_l); - if (s_planet.length() > 0) { - pkt.append((uint16_t)s_planet.size()); - pkt.append((const uint8_t*)s_planet.data(), s_planet.size()); - } - } - pkt.armor(peer->key, true); - sendto(sock, pkt.data(), pkt.size(), SENDTO_FLAGS, (const struct sockaddr*)ip, (socklen_t)((ip->ss_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6))); - - s_outputRate.log(now, pkt.size()); - peer->lastSend = now; - } - } - catch (...) { - printf("* unexpected exception handling HELLO from %s" ZT_EOL_S, ip->toString(ipstr)); - } - break; - - case Packet::VERB_ECHO: - try { - if ((now - peer->lastEcho) > 500) { - peer->lastEcho = now; - - Packet outp(source, s_self.address(), Packet::VERB_OK); - outp.append((uint8_t)Packet::VERB_ECHO); - outp.append(pkt.packetId()); - outp.append(((const uint8_t*)pkt.data()) + ZT_PACKET_IDX_PAYLOAD, pkt.size() - ZT_PACKET_IDX_PAYLOAD); - outp.compress(); - outp.armor(peer->key, true); - sendto(sock, outp.data(), outp.size(), SENDTO_FLAGS, (const struct sockaddr*)ip, (socklen_t)((ip->ss_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6))); - - s_outputRate.log(now, outp.size()); - peer->lastSend = now; - } - } - catch (...) { - printf("* unexpected exception handling ECHO from %s" ZT_EOL_S, ip->toString(ipstr)); - } - - case Packet::VERB_WHOIS: - try { - std::vector > results; - results.reserve(4); - { - std::lock_guard l(s_peersByVirtAddr_l); - for (unsigned int ptr = ZT_PACKET_IDX_PAYLOAD; (ptr + ZT_ADDRESS_LENGTH) <= pkt.size(); ptr += ZT_ADDRESS_LENGTH) { - auto p = s_peersByVirtAddr.find(Address(pkt.field(ptr, ZT_ADDRESS_LENGTH), ZT_ADDRESS_LENGTH)); - if (p != s_peersByVirtAddr.end()) { - results.push_back(p->second); - } - } - } - - if (! results.empty()) { - const uint64_t origId = pkt.packetId(); - pkt.reset(source, s_self.address(), Packet::VERB_OK); - pkt.append((uint8_t)Packet::VERB_WHOIS); - pkt.append(origId); - for (auto p = results.begin(); p != results.end(); ++p) - (*p)->id.serialize(pkt, false); - pkt.armor(peer->key, true); - sendto(sock, pkt.data(), pkt.size(), SENDTO_FLAGS, (const struct sockaddr*)ip, (socklen_t)((ip->ss_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6))); - - s_outputRate.log(now, pkt.size()); - peer->lastSend = now; - } - } - catch (...) { - printf("* unexpected exception handling ECHO from %s" ZT_EOL_S, ip->toString(ipstr)); - } - - case Packet::VERB_MULTICAST_LIKE: - try { - std::lock_guard l(s_multicastSubscriptions_l); - for (unsigned int ptr = ZT_PACKET_IDX_PAYLOAD; (ptr + 18) <= pkt.size(); ptr += 18) { - const uint64_t nwid = pkt.template at(ptr); - const MulticastGroup mg(MAC(pkt.field(ptr + 8, 6), 6), pkt.template at(ptr + 14)); - s_multicastSubscriptions[nwid][mg][source] = now; - } - } - catch (...) { - printf("* unexpected exception handling MULTICAST_LIKE from %s" ZT_EOL_S, ip->toString(ipstr)); - } - break; - - case Packet::VERB_MULTICAST_GATHER: - try { - const uint64_t nwid = pkt.template at(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_NETWORK_ID); - // const unsigned int flags = pkt[ZT_PROTO_VERB_MULTICAST_GATHER_IDX_FLAGS]; - const MulticastGroup mg(MAC(pkt.field(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_MAC, 6), 6), pkt.template at(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_ADI)); - unsigned int gatherLimit = pkt.template at(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_GATHER_LIMIT); - if (gatherLimit > 255) - gatherLimit = 255; - - const uint64_t origId = pkt.packetId(); - pkt.reset(source, s_self.address(), Packet::VERB_OK); - pkt.append((uint8_t)Packet::VERB_MULTICAST_GATHER); - pkt.append(origId); - pkt.append(nwid); - mg.mac().appendTo(pkt); - pkt.append((uint32_t)mg.adi()); - - { - std::lock_guard l(s_multicastSubscriptions_l); - auto forNet = s_multicastSubscriptions.find(nwid); - if (forNet != s_multicastSubscriptions.end()) { - auto forGroup = forNet->second.find(mg); - if (forGroup != forNet->second.end()) { - pkt.append((uint32_t)forGroup->second.size()); - const unsigned int countAt = pkt.size(); - pkt.addSize(2); - - unsigned int l = 0; - for (auto g = forGroup->second.begin(); ((l < gatherLimit) && (g != forGroup->second.end())); ++g) { - if (g->first != source) { - ++l; - g->first.appendTo(pkt); - } - } - - if (l > 0) { - pkt.setAt(countAt, (uint16_t)l); - pkt.armor(peer->key, true); - sendto(sock, pkt.data(), pkt.size(), SENDTO_FLAGS, (const struct sockaddr*)ip, (socklen_t)(ip->isV4() ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6))); - - s_outputRate.log(now, pkt.size()); - peer->lastSend = now; - } - } - } - } - } - catch (...) { - printf("* unexpected exception handling MULTICAST_GATHER from %s" ZT_EOL_S, ip->toString(ipstr)); - } - break; - - default: - break; - } - - return; - } - - // If we made it here, we are forwarding this packet to someone else and also possibly - // sending a RENDEZVOUS message. - - int hops = 0; - bool introduce = false; - if (fragment) { - if ((hops = (int)reinterpret_cast(&pkt)->incrementHops()) > s_relayMaxHops) { - // printf("%s refused to forward to %s: max hop count exceeded" ZT_EOL_S,ip->toString(ipstr),dest.toString(astr)); - s_discardedForwardRate.log(now, pkt.size()); - return; - } - } - else { - if ((hops = (int)pkt.incrementHops()) > s_relayMaxHops) { - // printf("%s refused to forward to %s: max hop count exceeded" ZT_EOL_S,ip->toString(ipstr),dest.toString(astr)); - s_discardedForwardRate.log(now, pkt.size()); - return; - } - - if (hops == 1) { - RendezvousKey rk(source, dest); - std::lock_guard l(s_rendezvousTracking_l); - RendezvousStats& lr = s_rendezvousTracking[rk]; - if ((now - lr.ts) >= 30000) { - ++lr.count; - lr.ts = now; - introduce = true; - } - } - } - - SharedPtr forwardTo; - { - std::lock_guard pbv_l(s_peersByVirtAddr_l); - auto p = s_peersByVirtAddr.find(dest); - if (p != s_peersByVirtAddr.end()) { - forwardTo = p->second; - } - } - - if (unlikely(! forwardTo)) { - s_discardedForwardRate.log(now, pkt.size()); - return; - } - - if (introduce) { - SharedPtr sourcePeer; - { - std::lock_guard l(s_peersByVirtAddr_l); - auto sp = s_peersByVirtAddr.find(source); - if (sp != s_peersByVirtAddr.end()) { - sourcePeer = sp->second; - } - } - if (likely(sourcePeer)) { - if ((sourcePeer->v6s >= 0) && (forwardTo->v6s >= 0)) { - Packet outp(dest, s_self.address(), Packet::VERB_RENDEZVOUS); - outp.append((uint8_t)0); - source.appendTo(outp); - outp.append((uint16_t)sourcePeer->ip6.port()); - outp.append((uint8_t)16); - outp.append((const uint8_t*)(sourcePeer->ip6.rawIpData()), 16); - outp.armor(forwardTo->key, true); - sendto(forwardTo->v6s, outp.data(), outp.size(), SENDTO_FLAGS, (const struct sockaddr*)&(forwardTo->ip6), (socklen_t)sizeof(struct sockaddr_in6)); - - s_outputRate.log(now, outp.size()); - forwardTo->lastSend = now; - - outp.reset(source, s_self.address(), Packet::VERB_RENDEZVOUS); - outp.append((uint8_t)0); - dest.appendTo(outp); - outp.append((uint16_t)forwardTo->ip6.port()); - outp.append((uint8_t)16); - outp.append((const uint8_t*)(forwardTo->ip6.rawIpData()), 16); - outp.armor(sourcePeer->key, true); - sendto(sourcePeer->v6s, outp.data(), outp.size(), SENDTO_FLAGS, (const struct sockaddr*)&(sourcePeer->ip6), (socklen_t)sizeof(struct sockaddr_in6)); - - s_outputRate.log(now, outp.size()); - sourcePeer->lastSend = now; - } - - if ((sourcePeer->v4s >= 0) && (forwardTo->v4s >= 0)) { - Packet outp(dest, s_self.address(), Packet::VERB_RENDEZVOUS); - outp.append((uint8_t)0); - source.appendTo(outp); - outp.append((uint16_t)sourcePeer->ip4.port()); - outp.append((uint8_t)4); - outp.append((const uint8_t*)sourcePeer->ip4.rawIpData(), 4); - outp.armor(forwardTo->key, true); - sendto(forwardTo->v4s, outp.data(), outp.size(), SENDTO_FLAGS, (const struct sockaddr*)&(forwardTo->ip4), (socklen_t)sizeof(struct sockaddr_in)); - - s_outputRate.log(now, outp.size()); - forwardTo->lastSend = now; - - outp.reset(source, s_self.address(), Packet::VERB_RENDEZVOUS); - outp.append((uint8_t)0); - dest.appendTo(outp); - outp.append((uint16_t)forwardTo->ip4.port()); - outp.append((uint8_t)4); - outp.append((const uint8_t*)(forwardTo->ip4.rawIpData()), 4); - outp.armor(sourcePeer->key, true); - sendto(sourcePeer->v4s, outp.data(), outp.size(), SENDTO_FLAGS, (const struct sockaddr*)&(sourcePeer->ip4), (socklen_t)sizeof(struct sockaddr_in)); - - s_outputRate.log(now, outp.size()); - sourcePeer->lastSend = now; - } - } - } - - if (forwardTo->v6s >= 0) { - if (sendto(forwardTo->v6s, pkt.data(), pkt.size(), SENDTO_FLAGS, (const struct sockaddr*)&(forwardTo->ip6), (socklen_t)sizeof(struct sockaddr_in6)) > 0) { - s_outputRate.log(now, pkt.size()); - s_forwardRate.log(now, pkt.size()); - forwardTo->lastSend = now; - } - } - else if (forwardTo->v4s >= 0) { - if (sendto(forwardTo->v4s, pkt.data(), pkt.size(), SENDTO_FLAGS, (const struct sockaddr*)&(forwardTo->ip4), (socklen_t)sizeof(struct sockaddr_in)) > 0) { - s_outputRate.log(now, pkt.size()); - s_forwardRate.log(now, pkt.size()); - forwardTo->lastSend = now; - } - } -} - -////////////////////////////////////////////////////////////////////////////// -////////////////////////////////////////////////////////////////////////////// - -static int bindSocket(struct sockaddr* const bindAddr) -{ - const int s = socket(bindAddr->sa_family, SOCK_DGRAM, 0); - if (s < 0) { - close(s); - return -1; - } - - int f = 16777216; - while (f > 65536) { - if (setsockopt(s, SOL_SOCKET, SO_RCVBUF, (const char*)&f, sizeof(f)) == 0) - break; - f -= 65536; - } - f = 16777216; - while (f > 65536) { - if (setsockopt(s, SOL_SOCKET, SO_SNDBUF, (const char*)&f, sizeof(f)) == 0) - break; - f -= 65536; - } - - if (bindAddr->sa_family == AF_INET6) { - f = 1; - setsockopt(s, IPPROTO_IPV6, IPV6_V6ONLY, (void*)&f, sizeof(f)); -#ifdef IPV6_MTU_DISCOVER - f = 0; - setsockopt(s, IPPROTO_IPV6, IPV6_MTU_DISCOVER, &f, sizeof(f)); -#endif -#ifdef IPV6_DONTFRAG - f = 0; - setsockopt(s, IPPROTO_IPV6, IPV6_DONTFRAG, &f, sizeof(f)); -#endif - } -#ifdef IP_DONTFRAG - f = 0; - setsockopt(s, IPPROTO_IP, IP_DONTFRAG, &f, sizeof(f)); -#endif -#ifdef IP_MTU_DISCOVER - f = IP_PMTUDISC_DONT; - setsockopt(s, IPPROTO_IP, IP_MTU_DISCOVER, &f, sizeof(f)); -#endif - - /* - #ifdef SO_NO_CHECK - if (bindAddr->sa_family == AF_INET) { - f = 1; setsockopt(s,SOL_SOCKET,SO_NO_CHECK,(void *)&f,sizeof(f)); - } - #endif - */ - -#ifdef SO_REUSEPORT - f = 1; - setsockopt(s, SOL_SOCKET, SO_REUSEPORT, (void*)&f, sizeof(f)); -#endif -#ifndef __LINUX__ // linux wants just SO_REUSEPORT - f = 1; - setsockopt(s, SOL_SOCKET, SO_REUSEADDR, (void*)&f, sizeof(f)); -#endif - -#ifdef __LINUX__ - struct timeval tv; - tv.tv_sec = 1; - tv.tv_usec = 0; - setsockopt(s, SOL_SOCKET, SO_RCVTIMEO, (const void*)&tv, sizeof(tv)); -#endif - - if (bind(s, bindAddr, (bindAddr->sa_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6))) { - close(s); - // printf("%s\n",strerror(errno)); - return -1; - } - - return s; -} - -static void shutdownSigHandler(int sig) -{ - s_run = false; -} - -int main(int argc, char** argv) -{ - std::vector threads; - std::vector sockets; - int v4Sock = -1, v6Sock = -1; - - signal(SIGTERM, shutdownSigHandler); - signal(SIGINT, shutdownSigHandler); - signal(SIGQUIT, shutdownSigHandler); - signal(SIGPIPE, SIG_IGN); - signal(SIGUSR1, SIG_IGN); - signal(SIGUSR2, SIG_IGN); - signal(SIGCHLD, SIG_IGN); - - s_startTime = OSUtils::now(); - s_geoInit = false; - - if (argc < 3) { - printf("Usage: zerotier-root " ZT_EOL_S); - return 1; - } - - { - std::string myIdStr; - if (! OSUtils::readFile(argv[1], myIdStr)) { - printf("FATAL: cannot read identity.secret at %s" ZT_EOL_S, argv[1]); - return 1; - } - if (! s_self.fromString(myIdStr.c_str())) { - printf("FATAL: cannot read identity.secret at %s (invalid identity)" ZT_EOL_S, argv[1]); - return 1; - } - if (! s_self.hasPrivate()) { - printf("FATAL: cannot read identity.secret at %s (missing secret key)" ZT_EOL_S, argv[1]); - return 1; - } - } - { - std::string configStr; - if (! OSUtils::readFile(argv[2], configStr)) { - printf("FATAL: cannot read config file at %s" ZT_EOL_S, argv[2]); - return 1; - } - try { - s_config = json::parse(configStr); - } - catch (std::exception& exc) { - printf("FATAL: config file at %s invalid: %s" ZT_EOL_S, argv[2], exc.what()); - return 1; - } - catch (...) { - printf("FATAL: config file at %s invalid: unknown exception" ZT_EOL_S, argv[2]); - return 1; - } - if (! s_config.is_object()) { - printf("FATAL: config file at %s invalid: does not contain a JSON object" ZT_EOL_S, argv[2]); - return 1; - } - } - - try { - auto jport = s_config["port"]; - if (jport.is_array()) { - for (long i = 0; i < (long)jport.size(); ++i) { - int port = jport[i]; - if ((port <= 0) || (port > 65535)) { - printf("FATAL: invalid port in config file %d" ZT_EOL_S, port); - return 1; - } - s_ports.push_back(port); - } - } - else { - int port = jport; - if ((port <= 0) || (port > 65535)) { - printf("FATAL: invalid port in config file %d" ZT_EOL_S, port); - return 1; - } - s_ports.push_back(port); - } - } - catch (...) { - } - if (s_ports.empty()) - s_ports.push_back(ZT_DEFAULT_PORT); - std::sort(s_ports.begin(), s_ports.end()); - - int httpPort = ZT_DEFAULT_PORT; - try { - httpPort = s_config["httpPort"]; - if ((httpPort <= 0) || (httpPort > 65535)) { - printf("FATAL: invalid HTTP port in config file %d" ZT_EOL_S, httpPort); - return 1; - } - } - catch (...) { - httpPort = ZT_DEFAULT_PORT; - } - - std::string planetFilePath; - try { - planetFilePath = s_config["planetFile"]; - } - catch (...) { - planetFilePath = ""; - } - - try { - s_statsRoot = s_config["statsRoot"]; - while ((s_statsRoot.length() > 0) && (s_statsRoot[s_statsRoot.length() - 1] == ZT_PATH_SEPARATOR)) - s_statsRoot = s_statsRoot.substr(0, s_statsRoot.length() - 1); - if (s_statsRoot.length() > 0) - OSUtils::mkdir(s_statsRoot); - } - catch (...) { - s_statsRoot = ""; - } - - s_relayMaxHops = ZT_RELAY_MAX_HOPS; - try { - s_relayMaxHops = s_config["relayMaxHops"]; - if (s_relayMaxHops > ZT_PROTO_MAX_HOPS) - s_relayMaxHops = ZT_PROTO_MAX_HOPS; - else if (s_relayMaxHops < 0) - s_relayMaxHops = 0; - } - catch (...) { - s_relayMaxHops = ZT_RELAY_MAX_HOPS; - } - - try { - s_googleMapsAPIKey = s_config["googleMapsAPIKey"]; - std::string geoIpPath = s_config["geoIp"]; - if (geoIpPath.length() > 0) { - FILE* gf = fopen(geoIpPath.c_str(), "rb"); - if (gf) { - threads.emplace_back(std::thread([gf]() { - try { - char line[1024]; - line[1023] = 0; - while (fgets(line, sizeof(line) - 1, gf)) { - InetAddress start, end; - float lat = 0.0F, lon = 0.0F; - int field = 0; - for (char *saveptr = nullptr, *f = Utils::stok(line, ",\r\n", &saveptr); (f); f = Utils::stok(nullptr, ",\r\n", &saveptr)) { - switch (field++) { - case 0: - start.fromString(f); - break; - case 1: - end.fromString(f); - break; - case 2: - lat = strtof(f, nullptr); - break; - case 3: - lon = strtof(f, nullptr); - break; - } - } - if ((start) && (end) && (start.ss_family == end.ss_family) && (lat >= -90.0F) && (lat <= 90.0F) && (lon >= -180.0F) && (lon <= 180.0F)) { - if (start.ss_family == AF_INET) { - s_geoIp4[std::pair(ip4ToH32(start), ip4ToH32(end))] = std::pair(lat, lon); - } - else if (start.ss_family == AF_INET6) { - s_geoIp6[std::pair, std::array >(ip6ToH128(start), ip6ToH128(end))] = std::pair(lat, lon); - } - } - } - s_geoInit = true; - } - catch (...) { - } - fclose(gf); - })); - } - } - } - catch (...) { - } - - unsigned int ncores = std::thread::hardware_concurrency(); - if (ncores == 0) - ncores = 1; - - s_run = true; - - threads.push_back(std::thread([]() { - std::vector > toValidate; - while (s_run) { - { - std::lock_guard l(s_peersToValidate_l); - toValidate.swap(s_peersToValidate); - } - for (auto p = toValidate.begin(); p != toValidate.end(); ++p) { - if (likely(! (*p)->identityValidated)) { - if (likely((*p)->id.locallyValidate())) { - (*p)->identityValidated = true; - } - else { - { - std::lock_guard p_l(s_peersByVirtAddr_l); - auto pp = s_peersByVirtAddr.find((*p)->id.address()); - if ((pp != s_peersByVirtAddr.end()) && (pp->second == *p)) { - s_peersByVirtAddr.erase(pp); - } - } - { - std::lock_guard p_l(s_peers_l); - for (auto pp = s_peers.begin(); pp != s_peers.end(); ++pp) { - if (*p == *pp) { - s_peers.erase(pp); - break; - } - } - } - } - } - } - toValidate.clear(); - usleep(1000); - } - })); - - for (auto port = s_ports.begin(); port != s_ports.end(); ++port) { - for (unsigned int tn = 0; tn < ncores; ++tn) { - struct sockaddr_in6 in6; - memset(&in6, 0, sizeof(in6)); - in6.sin6_family = AF_INET6; - in6.sin6_port = htons((uint16_t)*port); - const int s6 = bindSocket((struct sockaddr*)&in6); - if (s6 < 0) { - std::cout << "ERROR: unable to bind to port " << *port << ZT_EOL_S; - exit(1); - } - - struct sockaddr_in in4; - memset(&in4, 0, sizeof(in4)); - in4.sin_family = AF_INET; - in4.sin_port = htons((uint16_t)*port); - const int s4 = bindSocket((struct sockaddr*)&in4); - if (s4 < 0) { - std::cout << "ERROR: unable to bind to port " << *port << ZT_EOL_S; - exit(1); - } - - sockets.push_back(s6); - sockets.push_back(s4); - if (v4Sock < 0) - v4Sock = s4; - if (v6Sock < 0) - v6Sock = s6; - - threads.push_back(std::thread([s6, s4]() { - struct sockaddr_in6 in6; - Packet* pkt = new Packet(); - for (;;) { - memset(&in6, 0, sizeof(in6)); - socklen_t sl = sizeof(in6); - const int pl = (int)recvfrom(s6, pkt->unsafeData(), pkt->capacity(), RECVFROM_FLAGS, (struct sockaddr*)&in6, &sl); - if (pl > 0) { - if ((pl >= ZT_PROTO_MIN_FRAGMENT_LENGTH) && (pl <= ZT_PROTO_MAX_PACKET_LENGTH)) { - try { - pkt->setSize((unsigned int)pl); - handlePacket(s6, reinterpret_cast(&in6), *pkt); - } - catch (std::exception& exc) { - char ipstr[128]; - printf("WARNING: unexpected exception handling packet from %s: %s" ZT_EOL_S, reinterpret_cast(&in6)->toString(ipstr), exc.what()); - } - catch (int exc) { - char ipstr[128]; - printf("WARNING: unexpected exception handling packet from %s: ZT exception code %d" ZT_EOL_S, reinterpret_cast(&in6)->toString(ipstr), exc); - } - catch (...) { - char ipstr[128]; - printf("WARNING: unexpected exception handling packet from %s: unknown exception" ZT_EOL_S, reinterpret_cast(&in6)->toString(ipstr)); - } - } - } - else if (! s_run) { - break; - } - } - delete pkt; - })); - - threads.push_back(std::thread([s6, s4]() { - struct sockaddr_in in4; - Packet* pkt = new Packet(); - for (;;) { - memset(&in4, 0, sizeof(in4)); - socklen_t sl = sizeof(in4); - const int pl = (int)recvfrom(s4, pkt->unsafeData(), pkt->capacity(), RECVFROM_FLAGS, (struct sockaddr*)&in4, &sl); - if (pl > 0) { - if ((pl >= ZT_PROTO_MIN_FRAGMENT_LENGTH) && (pl <= ZT_PROTO_MAX_PACKET_LENGTH)) { - try { - pkt->setSize((unsigned int)pl); - handlePacket(s4, reinterpret_cast(&in4), *pkt); - } - catch (std::exception& exc) { - char ipstr[128]; - printf("WARNING: unexpected exception handling packet from %s: %s" ZT_EOL_S, reinterpret_cast(&in4)->toString(ipstr), exc.what()); - } - catch (int exc) { - char ipstr[128]; - printf("WARNING: unexpected exception handling packet from %s: ZT exception code %d" ZT_EOL_S, reinterpret_cast(&in4)->toString(ipstr), exc); - } - catch (...) { - char ipstr[128]; - printf("WARNING: unexpected exception handling packet from %s: unknown exception" ZT_EOL_S, reinterpret_cast(&in4)->toString(ipstr)); - } - } - } - else if (! s_run) { - break; - } - } - delete pkt; - })); - } - } - - // A minimal read-only local API for monitoring and status queries - httplib::Server apiServ; - threads.push_back(std::thread([&apiServ, httpPort]() { - // Human readable status page - apiServ.Get("/", [](const httplib::Request& req, httplib::Response& res) { - std::ostringstream o; - o << "ZeroTier Root Server " << ZEROTIER_ONE_VERSION_MAJOR << '.' << ZEROTIER_ONE_VERSION_MINOR << '.' << ZEROTIER_ONE_VERSION_REVISION << ZT_EOL_S; - o << "(c)2019 ZeroTier, Inc." ZT_EOL_S "Licensed under the ZeroTier BSL 1.1" ZT_EOL_S ZT_EOL_S; - s_peersByVirtAddr_l.lock(); - o << "Peers Online: " << s_peersByVirtAddr.size() << ZT_EOL_S; - s_peersByVirtAddr_l.unlock(); - res.set_content(o.str(), "text/plain"); - }); - - apiServ.Get("/metrics", [](const httplib::Request& req, httplib::Response& res) { - std::ostringstream o; - int64_t now = OSUtils::now(); - - char buf[11]; - const char* root_id = s_self.address().toString(buf); - o << "# HELP root_peers_online Number of active peers online" << ZT_EOL_S; - o << "# TYPE root_peers_online gauge" << ZT_EOL_S; - s_peersByVirtAddr_l.lock(); - o << "root_peers_online{root_id=\"" << root_id << "\"} " << s_peersByVirtAddr.size() << ZT_EOL_S; - s_peersByVirtAddr_l.unlock(); - o << "# HELP root_input_rate Input rate MiB/s" << ZT_EOL_S; - o << "# TYPE root_input_rate gauge" << ZT_EOL_S; - o << "root_input_rate{root_id=\"" << root_id << "\"} " << std::setprecision(5) << (s_inputRate.perSecond(now) / 1048576.0) << ZT_EOL_S; - o << "# HELP root_output_rate Output rate MiB/s" << ZT_EOL_S; - o << "# TYPE root_output_rate gauge" << ZT_EOL_S; - o << "root_output_rate{root_id=\"" << root_id << "\"} " << std::setprecision(5) << (s_outputRate.perSecond(now) / 1048576.0) << ZT_EOL_S; - o << "# HELP root_forwarded_rate Forwarded packet rate MiB/s" << ZT_EOL_S; - o << "# TYPE root_forwarded_rate gauge" << ZT_EOL_S; - o << "root_forwarded_rate{root_id=\"" << root_id << "\"} " << std::setprecision(5) << (s_forwardRate.perSecond(now) / 1048576.0) << ZT_EOL_S; - o << "# HELP root_discarded_rate Discarded forwards MiB/s" << ZT_EOL_S; - o << "# TYPE root_discarded_rate gauge" << ZT_EOL_S; - o << "root_discarded_rate{root_id=\"" << root_id << "\"} " << std::setprecision(5) << (s_discardedForwardRate.perSecond(now) / 1048576.0) << ZT_EOL_S; - - res.set_content(o.str(), "text/plain"); - }); - - // Peer list for compatibility with software that monitors regular nodes - apiServ.Get("/peer", [](const httplib::Request& req, httplib::Response& res) { - char tmp[256]; - std::ostringstream o; - o << '['; - try { - bool first = true; - std::lock_guard l(s_peers_l); - for (auto p = s_peers.begin(); p != s_peers.end(); ++p) { - if (first) - first = false; - else - o << ','; - o << "{\"address\":\"" << (*p)->id.address().toString(tmp) - << "\"" - ",\"latency\":-1" - ",\"paths\":["; - if ((*p)->v4s >= 0) { - o << "{\"active\":true" - ",\"address\":\"" - << (*p)->ip4.toIpString(tmp) << "\\/" << (*p)->ip4.port() - << "\"" - ",\"expired\":false" - ",\"lastReceive\":" - << (*p)->lastReceive << ",\"lastSend\":" << (*p)->lastSend - << ",\"preferred\":true" - ",\"trustedPathId\":0}"; - } - if ((*p)->v6s >= 0) { - if ((*p)->v4s >= 0) - o << ','; - o << "{\"active\":true" - ",\"address\":\"" - << (*p)->ip6.toIpString(tmp) << "\\/" << (*p)->ip6.port() - << "\"" - ",\"expired\":false" - ",\"lastReceive\":" - << (*p)->lastReceive << ",\"lastSend\":" << (*p)->lastSend << ",\"preferred\":" << (((*p)->ip4) ? "false" : "true") << ",\"trustedPathId\":0}"; - } - o << "]" - ",\"role\":\"LEAF\"" - ",\"version\":\"" - << (*p)->vMajor << '.' << (*p)->vMinor << '.' << (*p)->vRev - << "\"" - ",\"versionMajor\":" - << (*p)->vMajor << ",\"versionMinor\":" << (*p)->vMinor << ",\"versionRev\":" << (*p)->vRev << "}"; - } - } - catch (...) { - } - o << ']'; - res.set_content(o.str(), "application/json"); - }); - - // GeoIP map if enabled - apiServ.Get("/map", [](const httplib::Request& req, httplib::Response& res) { - char tmp[4096]; - if (! s_geoInit) { - res.set_content("Not enabled or GeoIP CSV file not finished reading.", "text/plain"); - return; - } - std::ostringstream o; - o << ZT_GEOIP_HTML_HEAD; - try { - bool firstCoord = true; - std::pair k4(0, 0xffffffff); - std::pair, std::array > k6; - k6.second[0] = 0xffffffffffffffffULL; - k6.second[1] = 0xffffffffffffffffULL; - - std::unordered_map, InetAddressHasher> ips; - { - std::lock_guard l(s_peers_l); - for (auto p = s_peers.begin(); p != s_peers.end(); ++p) { - if ((*p)->v4s >= 0) - ips[(*p)->ip4].insert((*p)->id.address()); - if ((*p)->v6s >= 0) - ips[(*p)->ip6].insert((*p)->id.address()); - } - } - - for (auto p = ips.begin(); p != ips.end(); ++p) { - if (p->first.isV4()) { - k4.first = ip4ToH32(p->first); - auto geo = std::map, std::pair >::reverse_iterator(s_geoIp4.upper_bound(k4)); - uint32_t bestRangeSize = 0xffffffff; - std::pair bestRangeLatLon; - while (geo != s_geoIp4.rend()) { - if ((geo->first.first <= k4.first) && (geo->first.second >= k4.first)) { - uint32_t range = geo->first.second - geo->first.first; - if (range <= bestRangeSize) { - bestRangeSize = range; - bestRangeLatLon = geo->second; - } - } - else if ((geo->first.first < k4.first) && (geo->first.second < k4.first)) { - break; - } - ++geo; - } - if (bestRangeSize != 0xffffffff) { - if (! firstCoord) - o << ','; - firstCoord = false; - o << "{lat:" << bestRangeLatLon.first << ",lng:" << bestRangeLatLon.second << ",_l:\""; - bool firstAddr = true; - for (auto a = p->second.begin(); a != p->second.end(); ++a) { - if (! firstAddr) - o << ','; - o << a->toString(tmp); - firstAddr = false; - } - o << "\"}"; - } - } - else if (p->first.isV6()) { - k6.first = ip6ToH128(p->first); - auto geo = std::map, std::array >, std::pair >::reverse_iterator(s_geoIp6.upper_bound(k6)); - while (geo != s_geoIp6.rend()) { - if ((geo->first.first <= k6.first) && (geo->first.second >= k6.first)) { - if (! firstCoord) - o << ','; - firstCoord = false; - o << "{lat:" << geo->second.first << ",lng:" << geo->second.second << ",_l:\""; - bool firstAddr = true; - for (auto a = p->second.begin(); a != p->second.end(); ++a) { - if (! firstAddr) - o << ','; - o << a->toString(tmp); - firstAddr = false; - } - o << "\"}"; - break; - } - else if ((geo->first.first < k6.first) && (geo->first.second < k6.first)) { - break; - } - ++geo; - } - } - } - } - catch (...) { - res.set_content("Internal error: unexpected exception resolving GeoIP locations", "text/plain"); - return; - } - OSUtils::ztsnprintf(tmp, sizeof(tmp), ZT_GEOIP_HTML_TAIL, s_googleMapsAPIKey.c_str()); - o << tmp; - res.set_content(o.str(), "text/html"); - }); - - apiServ.listen("127.0.0.1", httpPort, 0); - })); - - // In the main thread periodically clean stuff up - int64_t lastCleaned = 0; - int64_t lastWroteStats = 0; - while (s_run) { - sleep(1); - - const int64_t now = OSUtils::now(); - - if ((now - lastCleaned) > 300000) { - lastCleaned = now; - - // Old multicast subscription cleanup - { - std::lock_guard l(s_multicastSubscriptions_l); - for (auto a = s_multicastSubscriptions.begin(); a != s_multicastSubscriptions.end();) { - for (auto b = a->second.begin(); b != a->second.end();) { - for (auto c = b->second.begin(); c != b->second.end();) { - if ((now - c->second) > ZT_MULTICAST_LIKE_EXPIRE) - b->second.erase(c++); - else - ++c; - } - if (b->second.empty()) - a->second.erase(b++); - else - ++b; - } - if (a->second.empty()) - s_multicastSubscriptions.erase(a++); - else - ++a; - } - } - - try { - std::vector > toRemove; - toRemove.reserve(1024); - { - std::lock_guard pbi_l(s_peers_l); - std::vector > newPeers; - newPeers.reserve(s_peers.size()); - for (auto p = s_peers.begin(); p != s_peers.end(); ++p) { - if ((now - (*p)->lastReceive) > ZT_PEER_ACTIVITY_TIMEOUT) { - toRemove.emplace_back(); - p->swap(toRemove.back()); - } - else { - newPeers.emplace_back(); - p->swap(newPeers.back()); - } - } - newPeers.swap(s_peers); - } - for (auto p = toRemove.begin(); p != toRemove.end(); ++p) { - { - std::lock_guard pbv_l(s_peersByVirtAddr_l); - auto pbv = s_peersByVirtAddr.find((*p)->id.address()); - if ((pbv != s_peersByVirtAddr.end()) && (pbv->second == *p)) { - s_peersByVirtAddr.erase(pbv); - } - } - } - } - catch (...) { - } - - // Remove old rendezvous entries - { - std::lock_guard l(s_rendezvousTracking_l); - for (auto lr = s_rendezvousTracking.begin(); lr != s_rendezvousTracking.end();) { - if ((now - lr->second.ts) > ZT_PEER_ACTIVITY_TIMEOUT) - s_rendezvousTracking.erase(lr++); - else - ++lr; - } - } - } - - // Write stats if configured to do so, and periodically refresh planet file (if any) - if (((now - lastWroteStats) > 15000) && (s_statsRoot.length() > 0)) { - lastWroteStats = now; - - try { - if (planetFilePath.length() > 0) { - std::string planetData; - if ((OSUtils::readFile(planetFilePath.c_str(), planetData)) && (planetData.length() > 0)) { - std::lock_guard pl(s_planet_l); - s_planet = planetData; - } - } - } - catch (...) { - std::lock_guard pl(s_planet_l); - s_planet.clear(); - } - - std::string peersFilePath(s_statsRoot); - peersFilePath.append("/.peers.tmp"); - FILE* pf = fopen(peersFilePath.c_str(), "wb"); - if (pf) { - std::vector > sp; - { - std::lock_guard pbi_l(s_peers_l); - sp.reserve(s_peers.size()); - for (auto p = s_peers.begin(); p != s_peers.end(); ++p) { - sp.emplace_back(*p); - } - } - std::sort(sp.begin(), sp.end(), [](const SharedPtr& a, const SharedPtr& b) { return (a->id < b->id); }); - - fprintf(pf, "Address %21s %45s %10s %6s %10s" ZT_EOL_S, "IPv4", "IPv6", "Age(sec)", "Vers", "Fwd(KiB/s)"); - { - char ip4[128], ip6[128], ver[128]; - for (auto p = sp.begin(); p != sp.end(); ++p) { - if ((*p)->v4s >= 0) { - (*p)->ip4.toString(ip4); - } - else { - ip4[0] = '-'; - ip4[1] = 0; - } - if ((*p)->v6s >= 0) { - (*p)->ip6.toString(ip6); - } - else { - ip6[0] = '-'; - ip6[1] = 0; - } - OSUtils::ztsnprintf(ver, sizeof(ver), "%d.%d.%d", (*p)->vMajor, (*p)->vMinor, (*p)->vRev); - fprintf(pf, "%.10llx %21s %45s %10.4f %6s" ZT_EOL_S, (unsigned long long)(*p)->id.address().toInt(), ip4, ip6, fabs((double)(now - (*p)->lastReceive) / 1000.0), ver); - } - } - - fclose(pf); - std::string peersFilePath2(s_statsRoot); - peersFilePath2.append("/peers"); - OSUtils::rm(peersFilePath2); - OSUtils::rename(peersFilePath.c_str(), peersFilePath2.c_str()); - } - - std::string statsFilePath(s_statsRoot); - statsFilePath.append("/.stats.tmp"); - FILE* sf = fopen(statsFilePath.c_str(), "wb"); - if (sf) { - fprintf(sf, "Uptime (seconds) : %ld" ZT_EOL_S, (long)((now - s_startTime) / 1000)); - s_peersByVirtAddr_l.lock(); - fprintf(sf, "Peers : %llu" ZT_EOL_S, (unsigned long long)s_peersByVirtAddr.size()); - s_peersByVirtAddr_l.unlock(); - s_rendezvousTracking_l.lock(); - uint64_t unsuccessfulp2p = 0; - for (auto lr = s_rendezvousTracking.begin(); lr != s_rendezvousTracking.end(); ++lr) { - if (lr->second.count > 6) // 6 == two attempts per edge, one for each direction - ++unsuccessfulp2p; - } - fprintf(sf, "Recent P2P Graph Edges : %llu" ZT_EOL_S, (unsigned long long)s_rendezvousTracking.size()); - if (s_rendezvousTracking.empty()) { - fprintf(sf, "Recent P2P Success Rate : 100.0000%%" ZT_EOL_S); - } - else { - fprintf(sf, "Recent P2P Success Rate : %.4f%%" ZT_EOL_S, (1.0 - ((double)unsuccessfulp2p / (double)s_rendezvousTracking.size())) * 100.0); - } - s_rendezvousTracking_l.unlock(); - fprintf(sf, "Input (MiB/s) : %.4f" ZT_EOL_S, s_inputRate.perSecond(now) / 1048576.0); - fprintf(sf, "Output (MiB/s) : %.4f" ZT_EOL_S, s_outputRate.perSecond(now) / 1048576.0); - fprintf(sf, "Forwarded (MiB/s) : %.4f" ZT_EOL_S, s_forwardRate.perSecond(now) / 1048576.0); - fprintf(sf, "Discarded Forward (MiB/s) : %.4f" ZT_EOL_S, s_discardedForwardRate.perSecond(now) / 1048576.0); - - fclose(sf); - std::string statsFilePath2(s_statsRoot); - statsFilePath2.append("/stats"); - OSUtils::rm(statsFilePath2); - OSUtils::rename(statsFilePath.c_str(), statsFilePath2.c_str()); - } - } - } - - // If we received a kill signal, close everything and wait - // for threads to die before exiting. - s_run = false; // sanity check - apiServ.stop(); - for (auto s = sockets.begin(); s != sockets.end(); ++s) { - shutdown(*s, SHUT_RDWR); - close(*s); - } - for (auto t = threads.begin(); t != threads.end(); ++t) - t->join(); - - return 0; -}