ZeroTierOne/node/Bond.hpp

707 lines
20 KiB
C++

/*
* Copyright (c)2013-2020 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: 2024-01-01
*
* 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_BOND_HPP
#define ZT_BOND_HPP
#include <map>
#include "Path.hpp"
#include "Peer.hpp"
#include "../osdep/Link.hpp"
#include "Flow.hpp"
namespace ZeroTier {
class RuntimeEnvironment;
class Link;
class Bond
{
friend class SharedPtr<Bond>;
friend class Peer;
friend class BondController;
struct PathQualityComparator
{
bool operator ()(const SharedPtr<Path> & a, const SharedPtr<Path> & b)
{
if(a->_failoverScore == b->_failoverScore) {
return a < b;
}
return a->_failoverScore > b->_failoverScore;
}
};
public:
// TODO: Remove
bool _header;
int64_t _lastLogTS;
int64_t _lastPrintTS;
void dumpInfo(const int64_t now);
bool relevant();
SharedPtr<Link> getLink(const SharedPtr<Path>& path);
/**
* Constructor. Creates a bond based off of ZT defaults
*
* @param renv Runtime environment
* @param policy Bonding policy
* @param peer
*/
Bond(const RuntimeEnvironment *renv, int policy, const SharedPtr<Peer>& peer);
/**
* Constructor. For use when user intends to manually specify parameters
*
* @param basePolicy
* @param policyAlias
* @param peer
*/
Bond(const RuntimeEnvironment *renv, std::string& basePolicy, std::string& policyAlias, const SharedPtr<Peer>& peer);
/**
* Constructor. Creates a bond based off of a user-defined bond template
*
* @param renv Runtime environment
* @param original
* @param peer
*/
Bond(const RuntimeEnvironment *renv, SharedPtr<Bond> originalBond, const SharedPtr<Peer>& peer);
/**
* @return The human-readable name of the bonding policy
*/
std::string policyAlias() { return _policyAlias; }
/**
* Inform the bond about the path that its peer (owning object) just learned about
*
* @param path Newly-learned Path which should now be handled by the Bond
* @param now Current time
*/
void nominatePath(const SharedPtr<Path>& path, int64_t now);
/**
* Propagate and memoize often-used bonding preferences for each path
*/
void applyUserPrefs();
/**
* Check path states and perform bond rebuilds if needed.
*
* @param now Current time
* @param rebuild Whether or not the bond should be reconstructed.
*/
void curateBond(const int64_t now, bool rebuild);
/**
* Periodically perform statistical summaries of quality metrics for all paths.
*
* @param now Current time
*/
void estimatePathQuality(int64_t now);
/**
* Record an invalid incoming packet. This packet failed
* MAC/compression/cipher checks and will now contribute to a
* Packet Error Ratio (PER).
*
* @param path Path over which packet was received
*/
void recordIncomingInvalidPacket(const SharedPtr<Path>& path);
/**
* Record statistics on outbound an packet.
*
* @param path Path over which packet is being sent
* @param packetId Packet ID
* @param payloadLength Packet data length
* @param verb Packet verb
* @param flowId Flow ID
* @param now Current time
*/
void recordOutgoingPacket(const SharedPtr<Path> &path, uint64_t packetId,
uint16_t payloadLength, Packet::Verb verb, int32_t flowId, int64_t now);
/**
* Process the contents of an inbound VERB_QOS_MEASUREMENT to gather path quality observations.
*
* @param now Current time
* @param count Number of records
* @param rx_id table of packet IDs
* @param rx_ts table of holding times
*/
void receivedQoS(const SharedPtr<Path>& path, int64_t now, int count, uint64_t *rx_id, uint16_t *rx_ts);
/**
* Process the contents of an inbound VERB_ACK to gather path quality observations.
*
* @param path Path over which packet was received
* @param now Current time
* @param ackedBytes Number of bytes ACKed by this VERB_ACK
*/
void receivedAck(const SharedPtr<Path>& path, int64_t now, int32_t ackedBytes);
/**
* Generate the contents of a VERB_QOS_MEASUREMENT packet.
*
* @param now Current time
* @param qosBuffer destination buffer
* @return Size of payload
*/
int32_t generateQoSPacket(const SharedPtr<Path>& path, int64_t now, char *qosBuffer);
/**
* Record statistics for an inbound packet.
*
* @param path Path over which packet was received
* @param packetId Packet ID
* @param payloadLength Packet data length
* @param verb Packet verb
* @param flowId Flow ID
* @param now Current time
*/
void recordIncomingPacket(const SharedPtr<Path>& path, uint64_t packetId, uint16_t payloadLength,
Packet::Verb verb, int32_t flowId, int64_t now);
/**
* Determines the most appropriate path for packet and flow egress. This decision is made by
* the underlying bonding policy as well as QoS-related statistical observations of path quality.
*
* @param now Current time
* @param flowId Flow ID
* @return Pointer to suggested Path
*/
SharedPtr<Path> getAppropriatePath(int64_t now, int32_t flowId);
/**
* Creates a new flow record
*
* @param path Path over which flow shall be handled
* @param flowId Flow ID
* @param entropy A byte of entropy to be used by the bonding algorithm
* @param now Current time
* @return Pointer to newly-created Flow
*/
SharedPtr<Flow> createFlow(const SharedPtr<Path> &path, int32_t flowId, unsigned char entropy, int64_t now);
/**
* Removes flow records that are past a certain age limit.
*
* @param age Age threshold to be forgotten
* @param oldest Whether only the oldest shall be forgotten
* @param now Current time
*/
void forgetFlowsWhenNecessary(uint64_t age, bool oldest, int64_t now);
/**
* Assigns a new flow to a bonded path
*
* @param flow Flow to be assigned
* @param now Current time
*/
bool assignFlowToBondedPath(SharedPtr<Flow> &flow, int64_t now);
/**
* Determine whether a path change should occur given the remote peer's reported utility and our
* local peer's known utility. This has the effect of assigning inbound and outbound traffic to
* the same path.
*
* @param now Current time
* @param path Path over which the negotiation request was received
* @param remoteUtility How much utility the remote peer claims to gain by using the declared path
*/
void processIncomingPathNegotiationRequest(uint64_t now, SharedPtr<Path> &path, int16_t remoteUtility);
/**
* Determine state of path synchronization and whether a negotiation request
* shall be sent to the peer.
*
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param now Current time
*/
void pathNegotiationCheck(void *tPtr, const int64_t now);
/**
* Sends a VERB_ACK to the remote peer.
*
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param path Path over which packet should be sent
* @param localSocket Local source socket
* @param atAddress
* @param now Current time
*/
void sendACK(void *tPtr,const SharedPtr<Path> &path,int64_t localSocket,
const InetAddress &atAddress,int64_t now);
/**
* Sends a VERB_QOS_MEASUREMENT to the remote peer.
*
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param path Path over which packet should be sent
* @param localSocket Local source socket
* @param atAddress
* @param now Current time
*/
void sendQOS_MEASUREMENT(void *tPtr,const SharedPtr<Path> &path,int64_t localSocket,
const InetAddress &atAddress,int64_t now);
/**
* Sends a VERB_PATH_NEGOTIATION_REQUEST to the remote peer.
*
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param path Path over which packet should be sent
*/
void sendPATH_NEGOTIATION_REQUEST(void *tPtr, const SharedPtr<Path> &path);
/**
*
* @param now Current time
*/
void processBalanceTasks(int64_t now);
/**
* Perform periodic tasks unique to active-backup
*
* @param now Current time
*/
void processActiveBackupTasks(int64_t now);
/**
* Switches the active link in an active-backup scenario to the next best during
* a failover event.
*
* @param now Current time
*/
void dequeueNextActiveBackupPath(uint64_t now);
/**
* Set bond parameters to reasonable defaults, these may later be overwritten by
* user-specified parameters.
*
* @param policy Bonding policy
* @param templateBond
*/
void setReasonableDefaults(int policy, SharedPtr<Bond> templateBond, bool useTemplate);
/**
* Check and assign user-specified quality weights to this bond.
*
* @param weights Set of user-specified weights
* @param len Length of weight vector
*/
void setUserQualityWeights(float weights[], int len);
/**
* @param latencyInMilliseconds Maximum acceptable latency.
*/
void setMaxAcceptableLatency(int16_t latencyInMilliseconds) {
_maxAcceptableLatency = latencyInMilliseconds;
}
/**
* @param latencyInMilliseconds Maximum acceptable (mean) latency.
*/
void setMaxAcceptableMeanLatency(int16_t latencyInMilliseconds) {
_maxAcceptableMeanLatency = latencyInMilliseconds;
}
/**
* @param latencyVarianceInMilliseconds Maximum acceptable packet delay variance (jitter).
*/
void setMaxAcceptablePacketDelayVariance(int16_t latencyVarianceInMilliseconds) {
_maxAcceptablePacketDelayVariance = latencyVarianceInMilliseconds;
}
/**
* @param lossRatio Maximum acceptable packet loss ratio (PLR).
*/
void setMaxAcceptablePacketLossRatio(float lossRatio) {
_maxAcceptablePacketLossRatio = lossRatio;
}
/**
* @param errorRatio Maximum acceptable packet error ratio (PER).
*/
void setMaxAcceptablePacketErrorRatio(float errorRatio) {
_maxAcceptablePacketErrorRatio = errorRatio;
}
/**
* @param errorRatio Maximum acceptable packet error ratio (PER).
*/
void setMinAcceptableAllocation(float minAlloc) {
_minAcceptableAllocation = minAlloc * 255;
}
/**
* @return Whether the user has defined links for use on this bond
*/
inline bool userHasSpecifiedLinks() { return _userHasSpecifiedLinks; }
/**
* @return Whether the user has defined a set of failover link(s) for this bond
*/
inline bool userHasSpecifiedFailoverInstructions() { return _userHasSpecifiedFailoverInstructions; };
/**
* @return Whether the user has specified a primary link
*/
inline bool userHasSpecifiedPrimaryLink() { return _userHasSpecifiedPrimaryLink; }
/**
* @return Whether the user has specified link speeds
*/
inline bool userHasSpecifiedLinkSpeeds() { return _userHasSpecifiedLinkSpeeds; }
/**
* Periodically perform maintenance tasks for each active bond.
*
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param now Current time
*/
void processBackgroundTasks(void *tPtr, int64_t now);
/**
* Rate limit gate for VERB_ACK
*
* @param now Current time
* @return Whether the incoming packet should be rate-gated
*/
inline bool rateGateACK(const int64_t now)
{
_ackCutoffCount++;
int numToDrain = _lastAckRateCheck ? (now - _lastAckRateCheck) / ZT_ACK_DRAINAGE_DIVISOR : _ackCutoffCount;
_lastAckRateCheck = now;
if (_ackCutoffCount > numToDrain) {
_ackCutoffCount-=numToDrain;
} else {
_ackCutoffCount = 0;
}
return (_ackCutoffCount < ZT_ACK_CUTOFF_LIMIT);
}
/**
* Rate limit gate for VERB_QOS_MEASUREMENT
*
* @param now Current time
* @return Whether the incoming packet should be rate-gated
*/
inline bool rateGateQoS(const int64_t now)
{
_qosCutoffCount++;
int numToDrain = (now - _lastQoSRateCheck) / ZT_QOS_DRAINAGE_DIVISOR;
_lastQoSRateCheck = now;
if (_qosCutoffCount > numToDrain) {
_qosCutoffCount-=numToDrain;
} else {
_qosCutoffCount = 0;
}
return (_qosCutoffCount < ZT_QOS_CUTOFF_LIMIT);
}
/**
* Rate limit gate for VERB_PATH_NEGOTIATION_REQUEST
*
* @param now Current time
* @return Whether the incoming packet should be rate-gated
*/
inline bool rateGatePathNegotiation(const int64_t now)
{
if ((now - _lastPathNegotiationReceived) <= ZT_PATH_NEGOTIATION_CUTOFF_TIME)
++_pathNegotiationCutoffCount;
else _pathNegotiationCutoffCount = 0;
_lastPathNegotiationReceived = now;
return (_pathNegotiationCutoffCount < ZT_PATH_NEGOTIATION_CUTOFF_LIMIT);
}
/**
* @param interval Maximum amount of time user expects a failover to take on this bond.
*/
inline void setFailoverInterval(uint32_t interval) { _failoverInterval = interval; }
/**
* @param strategy Strategy that the bond uses to re-assign protocol flows.
*/
inline void setFlowRebalanceStrategy(uint32_t strategy) { _flowRebalanceStrategy = strategy; }
/**
* @param strategy Strategy that the bond uses to prob for path aliveness and quality
*/
inline void setLinkMonitorStrategy(uint8_t strategy) { _linkMonitorStrategy = strategy; }
/**
* @return the current up delay parameter
*/
inline uint16_t getUpDelay() { return _upDelay; }
/**
* @param upDelay Length of time before a newly-discovered path is admitted to the bond
*/
inline void setUpDelay(int upDelay) { if (upDelay >= 0) { _upDelay = upDelay; } }
/**
* @return Length of time before a newly-failed path is removed from the bond
*/
inline uint16_t getDownDelay() { return _downDelay; }
/**
* @param downDelay Length of time before a newly-failed path is removed from the bond
*/
inline void setDownDelay(int downDelay) { if (downDelay >= 0) { _downDelay = downDelay; } }
/**
* @return the current monitoring interval for the bond (can be overridden with intervals specific to certain links.)
*/
inline uint16_t getBondMonitorInterval() { return _bondMonitorInterval; }
/**
* Set the current monitoring interval for the bond (can be overridden with intervals specific to certain links.)
*
* @param monitorInterval How often gratuitous VERB_HELLO(s) are sent to remote peer.
*/
inline void setBondMonitorInterval(uint16_t interval) { _bondMonitorInterval = interval; }
/**
* @param policy Bonding policy for this bond
*/
inline void setPolicy(uint8_t policy) { _bondingPolicy = policy; }
/**
* @return the current bonding policy
*/
inline uint8_t getPolicy() { return _bondingPolicy; }
/**
* @return the health status of the bond
*/
inline bool isHealthy() { return _isHealthy; }
/**
* @return the number of links comprising this bond which are considered alive
*/
inline uint8_t getNumAliveLinks() { return _numAliveLinks; };
/**
* @return the number of links comprising this bond
*/
inline uint8_t getNumTotalLinks() { return _numTotalLinks; }
/**
*
* @param allowFlowHashing
*/
inline void setFlowHashing(bool allowFlowHashing) { _allowFlowHashing = allowFlowHashing; }
/**
* @return Whether flow-hashing is currently enabled for this bond.
*/
bool flowHashingEnabled() { return _allowFlowHashing; }
/**
*
* @param packetsPerLink
*/
inline void setPacketsPerLink(int packetsPerLink) { _packetsPerLink = packetsPerLink; }
/**
*
* @param linkSelectMethod
*/
inline void setLinkSelectMethod(uint8_t method) { _abLinkSelectMethod = method; }
/**
*
* @return
*/
inline uint8_t getLinkSelectMethod() { return _abLinkSelectMethod; }
/**
*
* @param allowPathNegotiation
*/
inline void setAllowPathNegotiation(bool allowPathNegotiation) { _allowPathNegotiation = allowPathNegotiation; }
/**
*
* @return
*/
inline bool allowPathNegotiation() { return _allowPathNegotiation; }
private:
const RuntimeEnvironment *RR;
AtomicCounter __refCount;
/**
* Custom name given by the user to this bond type.
*/
std::string _policyAlias;
/**
* Paths that this bond has been made aware of but that are not necessarily
* part of the bond proper.
*/
SharedPtr<Path> _paths[ZT_MAX_PEER_NETWORK_PATHS];
/**
* Set of indices corresponding to paths currently included in the bond proper. This
* may only be updated during a call to curateBond(). The reason for this is so that
* we can simplify the high frequency packet egress logic.
*/
int _bondedIdx[ZT_MAX_PEER_NETWORK_PATHS];
/**
* Number of paths currently included in the _bondedIdx set.
*/
int _numBondedPaths;
/**
* Flows hashed according to port and protocol
*/
std::map<int32_t,SharedPtr<Flow> > _flows;
float _qualityWeights[ZT_QOS_WEIGHT_SIZE]; // How much each factor contributes to the "quality" score of a path.
uint8_t _bondingPolicy;
uint32_t _upDelay;
uint32_t _downDelay;
// active-backup
SharedPtr<Path> _abPath; // current active path
std::list<SharedPtr<Path> > _abFailoverQueue;
uint8_t _abLinkSelectMethod; // link re-selection policy for the primary link in active-backup
uint64_t _lastActiveBackupPathChange;
// balance-rr
uint8_t _rrIdx; // index to path currently in use during Round Robin operation
uint16_t _rrPacketsSentOnCurrLink; // number of packets sent on this link since the most recent path switch.
/**
* How many packets will be sent on a path before moving to the next path
* in the round-robin sequence. A value of zero will cause a random path
* selection for each outgoing packet.
*/
int _packetsPerLink;
// balance-aware
uint64_t _totalBondUnderload;
uint8_t _flowRebalanceStrategy;
// dynamic link monitoring
uint8_t _linkMonitorStrategy;
uint64_t _lastFrame;
uint32_t _dynamicPathMonitorInterval;
// path negotiation
int16_t _localUtility;
SharedPtr<Path> negotiatedPath;
uint8_t _numSentPathNegotiationRequests;
unsigned int _pathNegotiationCutoffCount;
bool _allowPathNegotiation;
uint64_t _lastPathNegotiationReceived;
uint64_t _lastSentPathNegotiationRequest;
// timers
uint32_t _failoverInterval;
uint32_t _qosSendInterval;
uint32_t _ackSendInterval;
uint16_t _ackCutoffCount;
uint64_t _lastAckRateCheck;
uint16_t _qosCutoffCount;
uint64_t _lastQoSRateCheck;
uint32_t throughputMeasurementInterval;
uint32_t _qualityEstimationInterval;
// timestamps
uint64_t _lastCheckUserPreferences;
uint64_t _lastQualityEstimation;
uint64_t _lastFlowStatReset;
uint64_t _lastFlowExpirationCheck;
uint64_t _lastFlowRebalance;
uint64_t _lastPathNegotiationCheck;
uint64_t _lastBackgroundTaskCheck;
float _maxAcceptablePacketLossRatio;
float _maxAcceptablePacketErrorRatio;
uint16_t _maxAcceptableLatency;
uint16_t _maxAcceptableMeanLatency;
uint16_t _maxAcceptablePacketDelayVariance;
uint8_t _minAcceptableAllocation;
bool _isHealthy;
uint8_t _numAliveLinks;
uint8_t _numTotalLinks;
/**
* Default initial punishment inflicted on misbehaving paths. Punishment slowly
* drains linearly. For each eligibility change the remaining punishment is doubled.
*/
uint32_t _defaultPathRefractoryPeriod;
/**
* Whether the current bonding policy requires computation of path statistics
*/
bool _shouldCollectPathStatistics;
/**
* Free byte of entropy that is updated on every packet egress event.
*/
unsigned char _freeRandomByte;
/**
* Remote peer that this bond services
*/
SharedPtr<Peer> _peer;
Mutex _paths_m;
Mutex _flows_m;
/**
* Whether the user has specified links for this bond.
*/
bool _userHasSpecifiedLinks;
/**
* Whether the user has specified a primary link for this bond.
*/
bool _userHasSpecifiedPrimaryLink;
/**
* Whether the user has specified failover instructions for this bond.
*/
bool _userHasSpecifiedFailoverInstructions;
/**
* Whether the user has specified links speeds for this bond.
*/
bool _userHasSpecifiedLinkSpeeds;
/**
* How frequently (in ms) a VERB_ECHO is sent to a peer to verify that a
* path is still active. A value of zero (0) will disable active path
* monitoring; as result, all monitoring will be a function of traffic.
*/
uint16_t _bondMonitorInterval;
/**
* Whether or not flow hashing is allowed.
*/
bool _allowFlowHashing;
};
} // namespace ZeroTier
#endif