ZeroTierOne/node/Root.hpp

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/*
* 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.
*/
/****/
#ifndef ZT_ROOT_HPP
#define ZT_ROOT_HPP
#include "Constants.hpp"
#include "Str.hpp"
#include "ECC384.hpp"
#include "Locator.hpp"
#include "InetAddress.hpp"
#include "Utils.hpp"
#include "Identity.hpp"
#include "Mutex.hpp"
namespace ZeroTier {
/**
* A root entry pointing to a node capable of global identity lookup and indirect transit
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*
* Root entries point to DNS records that contain TXT entries that decode to Locator objects
* pointing to actual root nodes. A default root identity and static addresses can also be
* provided as fallback if DNS is not available.
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*
* Note that root identities can change if DNS returns a different result, but that DNS entries
* are authenticated using their own signature scheme. This allows a root DNS name to serve
* up different roots based on factors like location or relative load of different roots.
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*
* It's also possible to create a root with no DNS and no DNS validator public key. This root
* will be a static entry pointing to a single root identity and set of physical addresses.
*/
class Root
{
public:
inline Root() : _dnsPublicKeySize(0) {}
/**
* Create a new root entry
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*
* @param dn DNS name
* @param dnspk DNS public key for record validation
* @param dnspksize Size of DNS public key (currently always the size of a NIST P-384 point compressed public key)
* @param dflId Default identity if DNS is not available
* @param dflAddrs Default IP addresses if DNS is not available
*/
template<typename S>
inline Root(S dn,const uint8_t *const dnspk,const unsigned int dnspksize,const Identity &dflId,const std::vector<InetAddress> &dflAddrs) :
_defaultIdentity(dflId),
_defaultAddresses(dflAddrs),
_dnsName(dn),
_dnsPublicKeySize(dnspksize)
{
if (dnspksize != 0) {
if (dnspksize > sizeof(_dnsPublicKey))
throw ZT_EXCEPTION_INVALID_ARGUMENT;
memcpy(_dnsPublicKey,dnspk,dnspksize);
}
}
/**
* @return Current identity (either default or latest locator)
*/
inline const Identity id() const
{
if (_lastFetchedLocator.id())
return _lastFetchedLocator.id();
return _defaultIdentity;
}
/**
* @param id Identity to check
* @return True if identity equals this root's current identity
*/
inline bool is(const Identity &id) const
{
return ((_lastFetchedLocator.id()) ? (id == _lastFetchedLocator.id()) : (id == _defaultIdentity));
}
/**
* @return Current ZeroTier address (either default or latest locator)
*/
inline const Address address() const
{
if (_lastFetchedLocator.id())
return _lastFetchedLocator.id().address();
return _defaultIdentity.address();
}
/**
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* @return DNS name for this root or empty string if static entry with no DNS
*/
inline const Str dnsName() const
{
return _dnsName;
}
/**
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* @return Latest locator or NIL locator object if none
*/
inline Locator locator() const
{
return _lastFetchedLocator;
}
/**
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* @return Timestamp of latest retrieved locator or 0 if none
*/
inline int64_t locatorTimestamp() const
{
return _lastFetchedLocator.timestamp();
}
/**
* Update locator, returning true if new locator is valid and newer than existing
*/
inline bool updateLocator(const Locator &loc)
{
if (!loc.verify())
return false;
if ((loc.phy().size() > 0)&&(loc.timestamp() > _lastFetchedLocator.timestamp())) {
_lastFetchedLocator = loc;
return true;
}
return false;
}
/**
* Update this root's locator from a series of TXT records
*/
template<typename I>
inline bool updateLocatorFromTxt(I start,I end)
{
try {
if (_dnsPublicKeySize != ZT_ECC384_PUBLIC_KEY_SIZE)
return false;
Locator loc;
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if (!loc.decodeTxtRecords(start,end,_dnsPublicKey)) // also does verify()
return false;
if ((loc.phy().size() > 0)&&(loc.timestamp() > _lastFetchedLocator.timestamp())) {
_lastFetchedLocator = loc;
return true;
}
return false;
} catch ( ... ) {}
return false;
}
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/**
* Pick a random physical IP for this root with the given address family
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*
* @param addressFamily AF_INET or AF_INET6
* @return Address or InetAddress::NIL if no addresses exist for the given family
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*/
inline const InetAddress &pickPhysical(const int addressFamily) const
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{
std::vector<const InetAddress *> pickList;
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const std::vector<InetAddress> *const av = (_lastFetchedLocator) ? &(_lastFetchedLocator.phy()) : &_defaultAddresses;
for(std::vector<InetAddress>::const_iterator i(av->begin());i!=av->end();++i) {
if (addressFamily == (int)i->ss_family) {
pickList.push_back(&(*i));
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}
}
if (pickList.size() == 1)
return *pickList[0];
else if (pickList.size() > 1)
return *pickList[(unsigned long)Utils::random() % (unsigned long)pickList.size()];
return InetAddress::NIL;
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}
private:
Identity _defaultIdentity;
std::vector<InetAddress> _defaultAddresses;
Str _dnsName;
Locator _lastFetchedLocator;
unsigned int _dnsPublicKeySize;
uint8_t _dnsPublicKey[ZT_ECC384_PUBLIC_KEY_SIZE];
};
} // namespace ZeroTier
#endif