mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-22 22:32:22 +00:00
512 lines
15 KiB
C++
512 lines
15 KiB
C++
/*
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* ZeroTier One - Network Virtualization Everywhere
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* Copyright (C) 2011-2016 ZeroTier, Inc. https://www.zerotier.com/
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef ZT_NETWORKCONFIG_HPP
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#define ZT_NETWORKCONFIG_HPP
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#include <stdint.h>
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#include <string.h>
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#include <stdlib.h>
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#include <vector>
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#include <stdexcept>
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#include <algorithm>
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#include "../include/ZeroTierOne.h"
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#include "Constants.hpp"
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#include "Buffer.hpp"
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#include "InetAddress.hpp"
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#include "MulticastGroup.hpp"
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#include "Address.hpp"
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#include "CertificateOfMembership.hpp"
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#include "Capability.hpp"
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#include "Tag.hpp"
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#include "Dictionary.hpp"
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#include "Identity.hpp"
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/**
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* Flag: allow passive bridging (experimental)
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*/
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#define ZT_NETWORKCONFIG_FLAG_ALLOW_PASSIVE_BRIDGING 0x0000000000000001ULL
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/**
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* Flag: enable broadcast
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*/
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#define ZT_NETWORKCONFIG_FLAG_ENABLE_BROADCAST 0x0000000000000002ULL
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/**
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* Flag: enable IPv6 NDP emulation for certain V6 address patterns
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*/
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#define ZT_NETWORKCONFIG_FLAG_ENABLE_IPV6_NDP_EMULATION 0x0000000000000004ULL
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/**
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* Device is an active bridge
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*/
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#define ZT_NETWORKCONFIG_SPECIALIST_TYPE_ACTIVE_BRIDGE 0x0000020000000000ULL
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/**
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* An anchor is a device that is willing to be one and has been online/stable for a long time on this network
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*/
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#define ZT_NETWORKCONFIG_SPECIALIST_TYPE_ANCHOR 0x0000040000000000ULL
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namespace ZeroTier {
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// Dictionary capacity needed for max size network config
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#define ZT_NETWORKCONFIG_DICT_CAPACITY (4096 + (sizeof(ZT_VirtualNetworkRule) * ZT_MAX_NETWORK_RULES) + (sizeof(Capability) * ZT_MAX_NETWORK_CAPABILITIES) + (sizeof(Tag) * ZT_MAX_NETWORK_TAGS))
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// Dictionary capacity needed for max size network meta-data
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#define ZT_NETWORKCONFIG_METADATA_DICT_CAPACITY 1024
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// Network config version
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#define ZT_NETWORKCONFIG_VERSION 6
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// Fields for meta-data sent with network config requests
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// Network config version
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_VERSION "v"
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// Protocol version (see Packet.hpp)
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_PROTOCOL_VERSION "pv"
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// Software major, minor, revision
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_NODE_MAJOR_VERSION "majv"
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_NODE_MINOR_VERSION "minv"
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_NODE_REVISION "revv"
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// Maximum number of rules per network this node can accept
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_MAX_NETWORK_RULES "mr"
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// Maximum number of capabilities this node can accept
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_MAX_NETWORK_CAPABILITIES "mc"
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// Maximum number of rules per capability this node can accept
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_MAX_CAPABILITY_RULES "mcr"
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// Maximum number of tags this node can accept
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#define ZT_NETWORKCONFIG_REQUEST_METADATA_KEY_MAX_NETWORK_TAGS "mt"
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// These dictionary keys are short so they don't take up much room.
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// By convention we use upper case for binary blobs, but it doesn't really matter.
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// network config version
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#define ZT_NETWORKCONFIG_DICT_KEY_VERSION "v"
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// network ID
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#define ZT_NETWORKCONFIG_DICT_KEY_NETWORK_ID "nwid"
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// integer(hex)
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#define ZT_NETWORKCONFIG_DICT_KEY_TIMESTAMP "ts"
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// integer(hex)
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#define ZT_NETWORKCONFIG_DICT_KEY_REVISION "r"
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// address of member
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#define ZT_NETWORKCONFIG_DICT_KEY_ISSUED_TO "id"
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// flags(hex)
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#define ZT_NETWORKCONFIG_DICT_KEY_FLAGS "f"
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// integer(hex)
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#define ZT_NETWORKCONFIG_DICT_KEY_MULTICAST_LIMIT "ml"
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// network type (hex)
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#define ZT_NETWORKCONFIG_DICT_KEY_TYPE "t"
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// text
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#define ZT_NETWORKCONFIG_DICT_KEY_NAME "n"
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// binary serialized certificate of membership
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#define ZT_NETWORKCONFIG_DICT_KEY_COM "C"
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// specialists (binary array of uint64_t)
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#define ZT_NETWORKCONFIG_DICT_KEY_SPECIALISTS "S"
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// routes (binary blob)
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#define ZT_NETWORKCONFIG_DICT_KEY_ROUTES "RT"
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// static IPs (binary blob)
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#define ZT_NETWORKCONFIG_DICT_KEY_STATIC_IPS "I"
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// rules (binary blob)
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#define ZT_NETWORKCONFIG_DICT_KEY_RULES "R"
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// capabilities (binary blobs)
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#define ZT_NETWORKCONFIG_DICT_KEY_CAPABILITIES "CAP"
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// tags (binary blobs)
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#define ZT_NETWORKCONFIG_DICT_KEY_TAGS "TAG"
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// curve25519 signature
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#define ZT_NETWORKCONFIG_DICT_KEY_SIGNATURE "C25519"
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// Legacy fields -- these are obsoleted but are included when older clients query
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// boolean (now a flag)
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#define ZT_NETWORKCONFIG_DICT_KEY_ALLOW_PASSIVE_BRIDGING_OLD "pb"
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// boolean (now a flag)
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#define ZT_NETWORKCONFIG_DICT_KEY_ENABLE_BROADCAST_OLD "eb"
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// IP/bits[,IP/bits,...]
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// Note that IPs that end in all zeroes are routes with no assignment in them.
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#define ZT_NETWORKCONFIG_DICT_KEY_IPV4_STATIC_OLD "v4s"
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// IP/bits[,IP/bits,...]
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// Note that IPs that end in all zeroes are routes with no assignment in them.
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#define ZT_NETWORKCONFIG_DICT_KEY_IPV6_STATIC_OLD "v6s"
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// 0/1
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#define ZT_NETWORKCONFIG_DICT_KEY_PRIVATE_OLD "p"
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// integer(hex)[,integer(hex),...]
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#define ZT_NETWORKCONFIG_DICT_KEY_ALLOWED_ETHERNET_TYPES_OLD "et"
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// string-serialized CertificateOfMembership
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#define ZT_NETWORKCONFIG_DICT_KEY_CERTIFICATE_OF_MEMBERSHIP_OLD "com"
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// node[,node,...]
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#define ZT_NETWORKCONFIG_DICT_KEY_ACTIVE_BRIDGES_OLD "ab"
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// node;IP/port[,node;IP/port]
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#define ZT_NETWORKCONFIG_DICT_KEY_RELAYS_OLD "rl"
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/**
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* Network configuration received from network controller nodes
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*
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* This is a memcpy()'able structure and is safe (in a crash sense) to modify
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* without locks.
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*/
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class NetworkConfig
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{
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public:
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/**
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* Create an instance of a NetworkConfig for the test network ID
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*
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* The test network ID is defined as ZT_TEST_NETWORK_ID. This is a
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* "fake" network with no real controller and default options.
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*
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* @param self This node's ZT address
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* @return Configuration for test network ID
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*/
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static inline NetworkConfig createTestNetworkConfig(const Address &self)
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{
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NetworkConfig nc;
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nc.networkId = ZT_TEST_NETWORK_ID;
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nc.timestamp = 1;
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nc.revision = 1;
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nc.issuedTo = self;
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nc.multicastLimit = ZT_MULTICAST_DEFAULT_LIMIT;
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nc.flags = ZT_NETWORKCONFIG_FLAG_ENABLE_BROADCAST;
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nc.type = ZT_NETWORK_TYPE_PUBLIC;
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nc.rules[0].t = ZT_NETWORK_RULE_ACTION_ACCEPT;
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nc.ruleCount = 1;
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Utils::snprintf(nc.name,sizeof(nc.name),"ZT_TEST_NETWORK");
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// Make up a V4 IP from 'self' in the 10.0.0.0/8 range -- no
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// guarantee of uniqueness but collisions are unlikely.
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uint32_t ip = (uint32_t)((self.toInt() & 0x00ffffff) | 0x0a000000); // 10.x.x.x
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if ((ip & 0x000000ff) == 0x000000ff) ip ^= 0x00000001; // but not ending in .255
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if ((ip & 0x000000ff) == 0x00000000) ip ^= 0x00000001; // or .0
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nc.staticIps[0] = InetAddress(Utils::hton(ip),8);
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// Assign an RFC4193-compliant IPv6 address -- will never collide
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nc.staticIps[1] = InetAddress::makeIpv6rfc4193(ZT_TEST_NETWORK_ID,self.toInt());
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nc.staticIpCount = 2;
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return nc;
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}
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NetworkConfig()
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{
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memset(this,0,sizeof(NetworkConfig));
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}
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NetworkConfig(const NetworkConfig &nc)
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{
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memcpy(this,&nc,sizeof(NetworkConfig));
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}
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inline NetworkConfig &operator=(const NetworkConfig &nc)
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{
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memcpy(this,&nc,sizeof(NetworkConfig));
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return *this;
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}
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/**
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* Write this network config to a dictionary for transport
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*
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* @param d Dictionary
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* @param includeLegacy If true, include legacy fields for old node versions
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* @return True if dictionary was successfully created, false if e.g. overflow
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*/
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bool toDictionary(Dictionary<ZT_NETWORKCONFIG_DICT_CAPACITY> &d,bool includeLegacy) const;
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/**
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* Read this network config from a dictionary
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*
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* @param controllerId Controller identity for verification of any signature or NULL identity to skip
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* @param d Dictionary (non-const since it might be modified during parse, should not be used after call)
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* @return True if dictionary was valid and network config successfully initialized
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*/
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bool fromDictionary(const Identity &controllerId,Dictionary<ZT_NETWORKCONFIG_DICT_CAPACITY> &d);
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/**
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* @return True if passive bridging is allowed (experimental)
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*/
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inline bool allowPassiveBridging() const throw() { return ((this->flags & ZT_NETWORKCONFIG_FLAG_ALLOW_PASSIVE_BRIDGING) != 0); }
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/**
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* @return True if broadcast (ff:ff:ff:ff:ff:ff) address should work on this network
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*/
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inline bool enableBroadcast() const throw() { return ((this->flags & ZT_NETWORKCONFIG_FLAG_ENABLE_BROADCAST) != 0); }
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/**
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* @return True if IPv6 NDP emulation should be allowed for certain "magic" IPv6 address patterns
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*/
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inline bool ndpEmulation() const throw() { return ((this->flags & ZT_NETWORKCONFIG_FLAG_ENABLE_IPV6_NDP_EMULATION) != 0); }
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/**
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* @return Network type is public (no access control)
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*/
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inline bool isPublic() const throw() { return (this->type == ZT_NETWORK_TYPE_PUBLIC); }
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/**
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* @return Network type is private (certificate access control)
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*/
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inline bool isPrivate() const throw() { return (this->type == ZT_NETWORK_TYPE_PRIVATE); }
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/**
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* @return ZeroTier addresses of devices on this network designated as active bridges
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*/
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inline std::vector<Address> activeBridges() const
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{
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std::vector<Address> r;
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for(unsigned int i=0;i<specialistCount;++i) {
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if ((specialists[i] & ZT_NETWORKCONFIG_SPECIALIST_TYPE_ACTIVE_BRIDGE) != 0)
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r.push_back(Address(specialists[i]));
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}
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return r;
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}
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/**
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* @return ZeroTier addresses of "anchor" devices on this network
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*/
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inline std::vector<Address> anchors() const
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{
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std::vector<Address> r;
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for(unsigned int i=0;i<specialistCount;++i) {
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if ((specialists[i] & ZT_NETWORKCONFIG_SPECIALIST_TYPE_ANCHOR) != 0)
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r.push_back(Address(specialists[i]));
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}
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return r;
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}
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/**
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* @param fromPeer Peer attempting to bridge other Ethernet peers onto network
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* @return True if this network allows bridging
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*/
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inline bool permitsBridging(const Address &fromPeer) const
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{
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if ((flags & ZT_NETWORKCONFIG_FLAG_ALLOW_PASSIVE_BRIDGING) != 0)
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return true;
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for(unsigned int i=0;i<specialistCount;++i) {
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if ((fromPeer == specialists[i])&&((specialists[i] & ZT_NETWORKCONFIG_SPECIALIST_TYPE_ACTIVE_BRIDGE) != 0))
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return true;
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}
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return false;
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}
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/**
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* @return True if this network config is non-NULL
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*/
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inline operator bool() const throw() { return (networkId != 0); }
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inline bool operator==(const NetworkConfig &nc) const { return (memcmp(this,&nc,sizeof(NetworkConfig)) == 0); }
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inline bool operator!=(const NetworkConfig &nc) const { return (!(*this == nc)); }
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/**
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* Add a specialist or mask flags if already present
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*
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* This masks the existing flags if the specialist is already here or adds
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* it otherwise.
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*
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* @param a Address of specialist
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* @param f Flags (OR of specialist role/type flags)
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* @return True if successfully masked or added
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*/
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inline bool addSpecialist(const Address &a,const uint64_t f)
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{
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const uint64_t aint = a.toInt();
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for(unsigned int i=0;i<specialistCount;++i) {
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if ((specialists[i] & 0xffffffffffULL) == aint) {
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specialists[i] |= f;
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return true;
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}
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}
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if (specialistCount < ZT_MAX_NETWORK_SPECIALISTS) {
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specialists[specialistCount++] = f | aint;
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return true;
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}
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return false;
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}
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const Capability *capability(const uint32_t id) const
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{
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for(unsigned int i=0;i<capabilityCount;++i) {
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if (capabilities[i].id() == id)
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return &(capabilities[i]);
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}
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return (Capability *)0;
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}
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const Tag *tag(const uint32_t id) const
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{
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for(unsigned int i=0;i<tagCount;++i) {
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if (tags[i].id() == id)
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return &(tags[i]);
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}
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return (Tag *)0;
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}
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/*
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inline void dump() const
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{
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printf("networkId==%.16llx\n",networkId);
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printf("timestamp==%llu\n",timestamp);
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printf("revision==%llu\n",revision);
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printf("issuedTo==%.10llx\n",issuedTo.toInt());
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printf("multicastLimit==%u\n",multicastLimit);
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printf("flags=%.8lx\n",(unsigned long)flags);
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printf("specialistCount==%u\n",specialistCount);
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for(unsigned int i=0;i<specialistCount;++i)
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printf(" specialists[%u]==%.16llx\n",i,specialists[i]);
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printf("routeCount==%u\n",routeCount);
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for(unsigned int i=0;i<routeCount;++i) {
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printf(" routes[i].target==%s\n",reinterpret_cast<const InetAddress *>(&(routes[i].target))->toString().c_str());
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printf(" routes[i].via==%s\n",reinterpret_cast<const InetAddress *>(&(routes[i].via))->toIpString().c_str());
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printf(" routes[i].flags==%.4x\n",(unsigned int)routes[i].flags);
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printf(" routes[i].metric==%u\n",(unsigned int)routes[i].metric);
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}
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printf("staticIpCount==%u\n",staticIpCount);
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for(unsigned int i=0;i<staticIpCount;++i)
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printf(" staticIps[i]==%s\n",staticIps[i].toString().c_str());
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printf("ruleCount==%u\n",ruleCount);
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printf("name==%s\n",name);
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printf("com==%s\n",com.toString().c_str());
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}
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*/
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/**
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* Network ID that this configuration applies to
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*/
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uint64_t networkId;
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/**
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* Controller-side time of config generation/issue
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*/
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uint64_t timestamp;
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/**
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* Controller-side revision counter for this configuration
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*/
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uint64_t revision;
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/**
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* Address of device to which this config is issued
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*/
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Address issuedTo;
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/**
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* Flags (64-bit)
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*/
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uint64_t flags;
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/**
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* Maximum number of recipients per multicast (not including active bridges)
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*/
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unsigned int multicastLimit;
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/**
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* Number of specialists
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*/
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unsigned int specialistCount;
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/**
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* Number of routes
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*/
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unsigned int routeCount;
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/**
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* Number of ZT-managed static IP assignments
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*/
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unsigned int staticIpCount;
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/**
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* Number of pinned devices (devices with physical address hints)
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*/
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unsigned int pinnedCount;
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/**
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* Number of rule table entries
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*/
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unsigned int ruleCount;
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/**
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* Number of capabilities
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*/
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unsigned int capabilityCount;
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/**
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* Number of tags
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*/
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unsigned int tagCount;
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/**
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* Specialist devices
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*
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* For each entry the least significant 40 bits are the device's ZeroTier
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* address and the most significant 24 bits are flags indicating its role.
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*/
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uint64_t specialists[ZT_MAX_NETWORK_SPECIALISTS];
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/**
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* Statically defined "pushed" routes (including default gateways)
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*/
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ZT_VirtualNetworkRoute routes[ZT_MAX_NETWORK_ROUTES];
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/**
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* Static IP assignments
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*/
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InetAddress staticIps[ZT_MAX_ZT_ASSIGNED_ADDRESSES];
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/**
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* Base network rules
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*/
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ZT_VirtualNetworkRule rules[ZT_MAX_NETWORK_RULES];
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/**
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* Capabilities for this node on this network, in ascending order of capability ID
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*/
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Capability capabilities[ZT_MAX_NETWORK_CAPABILITIES];
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/**
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* Tags for this node on this network, in ascending order of tag ID
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|
*/
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|
Tag tags[ZT_MAX_NETWORK_TAGS];
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|
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/**
|
|
* Network type (currently just public or private)
|
|
*/
|
|
ZT_VirtualNetworkType type;
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|
|
|
/**
|
|
* Network short name or empty string if not defined
|
|
*/
|
|
char name[ZT_MAX_NETWORK_SHORT_NAME_LENGTH + 1];
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|
|
|
/**
|
|
* Certficiate of membership (for private networks)
|
|
*/
|
|
CertificateOfMembership com;
|
|
};
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} // namespace ZeroTier
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|
#endif
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