ZeroTierOne/node/Path.hpp

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/*
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* Copyright (c)2013-2020 ZeroTier, Inc.
*
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* Use of this software is governed by the Business Source License included
* in the LICENSE.TXT file in the project's root directory.
*
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* Change Date: 2025-01-01
*
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* 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.
*/
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/****/
#ifndef ZT_PATH_HPP
#define ZT_PATH_HPP
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include <stdexcept>
#include <algorithm>
#include "Constants.hpp"
#include "InetAddress.hpp"
#include "SharedPtr.hpp"
#include "AtomicCounter.hpp"
#include "Utils.hpp"
#include "Packet.hpp"
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#include "RingBuffer.hpp"
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/**
* Maximum return value of preferenceRank()
*/
#define ZT_PATH_MAX_PREFERENCE_RANK ((ZT_INETADDRESS_MAX_SCOPE << 1) | 1)
namespace ZeroTier {
class RuntimeEnvironment;
/**
* A path across the physical network
*/
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class Path
{
friend class SharedPtr<Path>;
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friend class Bond;
public:
/**
* Efficient unique key for paths in a Hashtable
*/
class HashKey
{
public:
HashKey() {}
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HashKey(const int64_t l,const InetAddress &r)
{
if (r.ss_family == AF_INET) {
_k[0] = (uint64_t)reinterpret_cast<const struct sockaddr_in *>(&r)->sin_addr.s_addr;
_k[1] = (uint64_t)reinterpret_cast<const struct sockaddr_in *>(&r)->sin_port;
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_k[2] = (uint64_t)l;
} else if (r.ss_family == AF_INET6) {
memcpy(_k,reinterpret_cast<const struct sockaddr_in6 *>(&r)->sin6_addr.s6_addr,16);
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_k[2] = ((uint64_t)reinterpret_cast<const struct sockaddr_in6 *>(&r)->sin6_port << 32) ^ (uint64_t)l;
} else {
memcpy(_k,&r,std::min(sizeof(_k),sizeof(InetAddress)));
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_k[2] += (uint64_t)l;
}
}
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inline unsigned long hashCode() const { return (unsigned long)(_k[0] + _k[1] + _k[2]); }
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inline bool operator==(const HashKey &k) const { return ( (_k[0] == k._k[0]) && (_k[1] == k._k[1]) && (_k[2] == k._k[2]) ); }
inline bool operator!=(const HashKey &k) const { return (!(*this == k)); }
private:
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uint64_t _k[3];
};
Path() :
_lastOut(0),
_lastIn(0),
_lastTrustEstablishedPacketReceived(0),
_lastEchoRequestReceived(0),
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_localSocket(-1),
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_latencyMean(0.0),
_latencyVariance(0.0),
_packetLossRatio(0.0),
_packetErrorRatio(0.0),
_valid(true),
_eligible(false),
_bonded(false),
_givenLinkSpeed(0),
_allocation(0),
_latency(0xffff),
_addr(),
_ipScope(InetAddress::IP_SCOPE_NONE)
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{}
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Path(const int64_t localSocket,const InetAddress &addr) :
_lastOut(0),
_lastIn(0),
_lastTrustEstablishedPacketReceived(0),
_lastEchoRequestReceived(0),
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_localSocket(localSocket),
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_latencyMean(0.0),
_latencyVariance(0.0),
_packetLossRatio(0.0),
_packetErrorRatio(0.0),
_valid(true),
_eligible(false),
_bonded(false),
_givenLinkSpeed(0),
_allocation(0),
_latency(0xffff),
_addr(addr),
_ipScope(addr.ipScope())
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{}
/**
* Called when a packet is received from this remote path, regardless of content
*
* @param t Time of receive
*/
inline void received(const uint64_t t)
{
_lastIn = t;
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}
/**
* Set time last trusted packet was received (done in Peer::received())
*/
inline void trustedPacketReceived(const uint64_t t) { _lastTrustEstablishedPacketReceived = t; }
/**
* Send a packet via this path (last out time is also updated)
*
* @param RR Runtime environment
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param data Packet data
* @param len Packet length
* @param now Current time
* @return True if transport reported success
*/
bool send(const RuntimeEnvironment *RR,void *tPtr,const void *data,unsigned int len,int64_t now);
/**
* Manually update last sent time
*
* @param t Time of send
*/
inline void sent(const int64_t t) { _lastOut = t; }
/**
* Update path latency with a new measurement
*
* @param l Measured latency
*/
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inline void updateLatency(const unsigned int l, int64_t now)
{
unsigned int pl = _latency;
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if (pl < 0xffff) {
_latency = (pl + l) / 2;
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}
else {
_latency = l;
}
}
/**
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* @return Local socket as specified by external code
*/
inline int64_t localSocket() const { return _localSocket; }
/**
* @return Physical address
*/
inline const InetAddress &address() const { return _addr; }
/**
* @return IP scope -- faster shortcut for address().ipScope()
*/
inline InetAddress::IpScope ipScope() const { return _ipScope; }
/**
* @return True if path has received a trust established packet (e.g. common network membership) in the past ZT_TRUST_EXPIRATION ms
*/
inline bool trustEstablished(const int64_t now) const { return ((now - _lastTrustEstablishedPacketReceived) < ZT_TRUST_EXPIRATION); }
/**
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* @return Preference rank, higher == better
*/
inline unsigned int preferenceRank() const
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{
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// This causes us to rank paths in order of IP scope rank (see InetAdddress.hpp) but
// within each IP scope class to prefer IPv6 over IPv4.
return ( ((unsigned int)_ipScope << 1) | (unsigned int)(_addr.ss_family == AF_INET6) );
}
/**
* Check whether this address is valid for a ZeroTier path
*
* This checks the address type and scope against address types and scopes
* that we currently support for ZeroTier communication.
*
* @param a Address to check
* @return True if address is good for ZeroTier path use
*/
static inline bool isAddressValidForPath(const InetAddress &a)
{
if ((a.ss_family == AF_INET)||(a.ss_family == AF_INET6)) {
switch(a.ipScope()) {
/* Note: we don't do link-local at the moment. Unfortunately these
* cause several issues. The first is that they usually require a
* device qualifier, which we don't handle yet and can't portably
* push in PUSH_DIRECT_PATHS. The second is that some OSes assign
* these very ephemerally or otherwise strangely. So we'll use
* private, pseudo-private, shared (e.g. carrier grade NAT), or
* global IP addresses. */
case InetAddress::IP_SCOPE_PRIVATE:
case InetAddress::IP_SCOPE_PSEUDOPRIVATE:
case InetAddress::IP_SCOPE_SHARED:
case InetAddress::IP_SCOPE_GLOBAL:
if (a.ss_family == AF_INET6) {
// TEMPORARY HACK: for now, we are going to blacklist he.net IPv6
// tunnels due to very spotty performance and low MTU issues over
// these IPv6 tunnel links.
const uint8_t *ipd = reinterpret_cast<const uint8_t *>(reinterpret_cast<const struct sockaddr_in6 *>(&a)->sin6_addr.s6_addr);
if ((ipd[0] == 0x20)&&(ipd[1] == 0x01)&&(ipd[2] == 0x04)&&(ipd[3] == 0x70))
return false;
}
return true;
default:
return false;
}
}
return false;
}
/**
* @return Latency or 0xffff if unknown
*/
inline unsigned int latency() const { return _latency; }
/**
* @return Path quality -- lower is better
*/
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inline long quality(const int64_t now) const
{
const int l = (long)_latency;
const int age = (long)std::min((now - _lastIn),(int64_t)(ZT_PATH_HEARTBEAT_PERIOD * 10)); // set an upper sanity limit to avoid overflow
return (((age < (ZT_PATH_HEARTBEAT_PERIOD + 5000)) ? l : (l + 0xffff + age)) * (long)((ZT_INETADDRESS_MAX_SCOPE - _ipScope) + 1));
}
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/**
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* @return True if this path is alive (receiving heartbeats)
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*/
inline bool alive(const int64_t now) const {
return (now - _lastIn) < (ZT_PATH_HEARTBEAT_PERIOD + 5000);
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}
/**
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* @return True if this path needs a heartbeat
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*/
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inline bool needsHeartbeat(const int64_t now) const { return ((now - _lastOut) >= ZT_PATH_HEARTBEAT_PERIOD); }
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/**
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* @return Last time we sent something
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*/
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inline int64_t lastOut() const { return _lastOut; }
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/**
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* @return Last time we received anything
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*/
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inline int64_t lastIn() const { return _lastIn; }
/**
* @return the age of the path in terms of receiving packets
*/
inline int64_t age(int64_t now) { return (now - _lastIn); }
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/**
* @return Time last trust-established packet was received
*/
inline int64_t lastTrustEstablishedPacketReceived() const { return _lastTrustEstablishedPacketReceived; }
/**
* Rate limit gate for inbound ECHO requests
*/
inline bool rateGateEchoRequest(const int64_t now)
{
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if ((now - _lastEchoRequestReceived) >= (ZT_PEER_GENERAL_RATE_LIMIT / 6)) {
_lastEchoRequestReceived = now;
return true;
}
return false;
}
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/**
* @return Mean latency as reported by the bonding layer
*/
inline unsigned int latencyMean() const { return _latencyMean; }
/**
* @return Latency variance as reported by the bonding layer
*/
inline unsigned int latencyVariance() const { return _latencyVariance; }
/**
* @return Packet Loss Ratio as reported by the bonding layer
*/
inline unsigned int packetLossRatio() const { return _packetLossRatio; }
/**
* @return Packet Error Ratio as reported by the bonding layer
*/
inline unsigned int packetErrorRatio() const { return _packetErrorRatio; }
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/**
* @return Whether this path is valid as reported by the bonding layer. The bonding layer
* actually checks with Phy to see if the interface is still up
*/
inline unsigned int valid() const { return _valid; }
/**
* @return Whether this path is eligible for use in a bond as reported by the bonding layer
*/
inline unsigned int eligible() const { return _eligible; }
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/**
* @return Whether this path is bonded as reported by the bonding layer
*/
inline unsigned int bonded() const { return _bonded; }
/**
* @return Given link speed as reported by the bonding layer
*/
inline unsigned int givenLinkSpeed() const { return _givenLinkSpeed; }
/**
* @return Traffic allocation as reported by the bonding layer
*/
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inline unsigned char allocation() const { return _allocation; }
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/**
* @return Physical interface name that this path lives on
*/
char *ifname() {
return _ifname;
}
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private:
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char _ifname[ZT_MAX_PHYSIFNAME] = { };
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volatile int64_t _lastOut;
volatile int64_t _lastIn;
volatile int64_t _lastTrustEstablishedPacketReceived;
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int64_t _lastEchoRequestReceived;
int64_t _localSocket;
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volatile float _latencyMean;
volatile float _latencyVariance;
volatile float _packetLossRatio;
volatile float _packetErrorRatio;
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volatile bool _valid;
volatile bool _eligible;
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volatile bool _bonded;
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volatile uint32_t _givenLinkSpeed;
volatile uint8_t _allocation;
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volatile unsigned int _latency;
InetAddress _addr;
InetAddress::IpScope _ipScope; // memoize this since it's a computed value checked often
AtomicCounter __refCount;
};
} // namespace ZeroTier
#endif