/* * Copyright (c)2013-2021 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: 2026-01-01 * * 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 "../osdep/Phy.hpp" #include "Packet.hpp" #include "Path.hpp" #include "RuntimeEnvironment.hpp" #include "Trace.hpp" #include #include #include #include /** * Indices for the path quality weight vector */ enum ZT_BondQualityWeightIndex { ZT_QOS_LAT_IDX, ZT_QOS_LTM_IDX, ZT_QOS_PDV_IDX, ZT_QOS_PLR_IDX, ZT_QOS_PER_IDX, ZT_QOS_THR_IDX, ZT_QOS_THM_IDX, ZT_QOS_THV_IDX, ZT_QOS_AGE_IDX, ZT_QOS_SCP_IDX, ZT_QOS_WEIGHT_SIZE }; /** * Multipath bonding policy */ enum ZT_BondBondingPolicy { /** * Normal operation. No fault tolerance, no load balancing */ ZT_BOND_POLICY_NONE = 0, /** * Sends traffic out on only one path at a time. Configurable immediate * fail-over. */ ZT_BOND_POLICY_ACTIVE_BACKUP = 1, /** * Sends traffic out on all paths */ ZT_BOND_POLICY_BROADCAST = 2, /** * Stripes packets across all paths */ ZT_BOND_POLICY_BALANCE_RR = 3, /** * Packets destined for specific peers will always be sent over the same * path. */ ZT_BOND_POLICY_BALANCE_XOR = 4, /** * Balances flows among all paths according to path performance */ ZT_BOND_POLICY_BALANCE_AWARE = 5 }; /** * Multipath active re-selection policy (linkSelectMethod) */ enum ZT_BondLinkSelectMethod { /** * Primary link regains status as active link whenever it comes back up * (default when links are explicitly specified) */ ZT_BOND_RESELECTION_POLICY_ALWAYS = 0, /** * Primary link regains status as active link when it comes back up and * (if) it is better than the currently-active link. */ ZT_BOND_RESELECTION_POLICY_BETTER = 1, /** * Primary link regains status as active link only if the currently-active * link fails. */ ZT_BOND_RESELECTION_POLICY_FAILURE = 2, /** * The primary link can change if a superior path is detected. * (default if user provides no fail-over guidance) */ ZT_BOND_RESELECTION_POLICY_OPTIMIZE = 3 }; /** * Mode of multipath link interface */ enum ZT_BondLinkMode { ZT_BOND_SLAVE_MODE_PRIMARY = 0, ZT_BOND_SLAVE_MODE_SPARE = 1 }; #include "../node/AtomicCounter.hpp" #include "../node/SharedPtr.hpp" #include namespace ZeroTier { class Link { friend class SharedPtr; public: /** * * @param ifnameStr * @param ipvPref * @param speed * @param enabled * @param mode * @param failoverToLinkStr * @param userSpecifiedAlloc */ Link(std::string ifnameStr, uint8_t ipvPref, uint32_t speed, bool enabled, uint8_t mode, std::string failoverToLinkStr, float userSpecifiedAlloc) : _ifnameStr(ifnameStr) , _ipvPref(ipvPref) , _speed(speed) , _relativeSpeed(0) , _enabled(enabled) , _mode(mode) , _failoverToLinkStr(failoverToLinkStr) , _userSpecifiedAlloc(userSpecifiedAlloc) , _isUserSpecified(false) { } /** * @return The string representation of this link's underlying interface's system name. */ inline std::string ifname() { return _ifnameStr; } /** * @return Whether this link is designated as a primary. */ inline bool primary() { return _mode == ZT_BOND_SLAVE_MODE_PRIMARY; } /** * @return Whether this link is designated as a spare. */ inline bool spare() { return _mode == ZT_BOND_SLAVE_MODE_SPARE; } /** * @return The name of the link interface that should be used in the event of a failure. */ inline std::string failoverToLink() { return _failoverToLinkStr; } /** * @return Whether this link interface was specified by the user or auto-detected. */ inline bool isUserSpecified() { return _isUserSpecified; } /** * Signify that this link was specified by the user and not the result of auto-detection. * * @param isUserSpecified */ inline void setAsUserSpecified(bool isUserSpecified) { _isUserSpecified = isUserSpecified; } /** * @return Whether or not the user has specified failover instructions. */ inline bool userHasSpecifiedFailoverInstructions() { return _failoverToLinkStr.length(); } /** * @return The speed of the link relative to others in the bond. */ inline uint8_t relativeSpeed() { return _relativeSpeed; } /** * Sets the speed of the link relative to others in the bond. * * @param relativeSpeed The speed relative to the rest of the link. */ inline void setRelativeSpeed(uint8_t relativeSpeed) { _relativeSpeed = relativeSpeed; } /** * @return The absolute speed of the link (as specified by the user.) */ inline uint32_t speed() { return _speed; } /** * @return The address preference for this link (as specified by the user.) */ inline uint8_t ipvPref() { return _ipvPref; } /** * @return The mode (e.g. primary/spare) for this link (as specified by the user.) */ inline uint8_t mode() { return _mode; } /** * @return Whether this link is enabled or disabled */ inline uint8_t enabled() { return _enabled; } private: /** * String representation of underlying interface's system name */ std::string _ifnameStr; /** * What preference (if any) a user has for IP protocol version used in * path aggregations. Preference is expressed in the order of the digits: * * 0: no preference * 4: IPv4 only * 6: IPv6 only * 46: IPv4 over IPv6 * 64: IPv6 over IPv4 */ uint8_t _ipvPref; /** * User-specified speed of this link */ uint32_t _speed; /** * Speed relative to other specified links (computed by Bond) */ uint8_t _relativeSpeed; /** * Whether this link is enabled, or (disabled (possibly bad config)) */ uint8_t _enabled; /** * Whether this link is designated as a primary, a spare, or no preference. */ uint8_t _mode; /** * The specific name of the link to be used in the event that this * link fails. */ std::string _failoverToLinkStr; /** * User-specified allocation */ float _userSpecifiedAlloc; /** * Whether or not this link was created as a result of manual user specification. This is * important to know because certain policy decisions are dependent on whether the user * intents to use a specific set of interfaces. */ bool _isUserSpecified; AtomicCounter __refCount; }; class Link; class Peer; class Bond { public: /** * @return Whether this link is permitted to become a member of a bond. */ static bool linkAllowed(std::string& policyAlias, SharedPtr link); /** * @return The minimum interval required to poll the active bonds to fulfill all active monitoring timing requirements. */ static int minReqMonitorInterval() { return _minReqMonitorInterval; } /** * @return Whether the bonding layer is currently set up to be used. */ static bool inUse() { return ! _bondPolicyTemplates.empty() || _defaultPolicy; } /** * @param basePolicyName Bonding policy name (See ZeroTierOne.h) * @return The bonding policy code for a given human-readable bonding policy name */ static int getPolicyCodeByStr(const std::string& basePolicyName) { if (basePolicyName == "active-backup") { return 1; } if (basePolicyName == "broadcast") { return 2; } if (basePolicyName == "balance-rr") { return 3; } if (basePolicyName == "balance-xor") { return 4; } if (basePolicyName == "balance-aware") { return 5; } return 0; // "none" } /** * @param policy Bonding policy code (See ZeroTierOne.h) * @return The human-readable name for the given bonding policy code */ static std::string getPolicyStrByCode(int policy) { if (policy == 1) { return "active-backup"; } if (policy == 2) { return "broadcast"; } if (policy == 3) { return "balance-rr"; } if (policy == 4) { return "balance-xor"; } if (policy == 5) { return "balance-aware"; } return "none"; } /** * Sets the default bonding policy for new or undefined bonds. * * @param bp Bonding policy */ static void setBondingLayerDefaultPolicy(uint8_t bp) { _defaultPolicy = bp; } /** * Sets the default (custom) bonding policy for new or undefined bonds. * * @param alias Human-readable string alias for bonding policy */ static void setBondingLayerDefaultPolicyStr(std::string alias) { _defaultPolicyStr = alias; } /** * Add a user-defined link to a given bonding policy. * * @param policyAlias User-defined custom name for variant of bonding policy * @param link Pointer to new link definition */ static void addCustomLink(std::string& policyAlias, SharedPtr link); /** * Add a user-defined bonding policy that is based on one of the standard types. * * @param newBond Pointer to custom Bond object * @return Whether a uniquely-named custom policy was successfully added */ static bool addCustomPolicy(const SharedPtr& newBond); /** * Assigns a specific bonding policy * * @param identity * @param policyAlias * @return */ static bool assignBondingPolicyToPeer(int64_t identity, const std::string& policyAlias); /** * Get pointer to bond by a given peer ID * * @param peer Remote peer ID * @return A pointer to the Bond */ static SharedPtr getBondByPeerId(int64_t identity); /** * Add a new bond to the bond controller. * * @param renv Runtime environment * @param peer Remote peer that this bond services * @return A pointer to the newly created Bond */ static SharedPtr createBond(const RuntimeEnvironment* renv, const SharedPtr& peer); /** * Remove a bond from the bond controller. * * @param peerId Remote peer that this bond services */ static void destroyBond(uint64_t peerId); /** * Periodically perform maintenance tasks for the bonding layer. * * @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call * @param now Current time */ static void processBackgroundTasks(void* tPtr, int64_t now); /** * Gets a reference to a physical link definition given a policy alias and a local socket. * * @param policyAlias Policy in use * @param localSocket Local source socket * @return Physical link definition */ static SharedPtr getLinkBySocket(const std::string& policyAlias, uint64_t localSocket); /** * Gets a reference to a physical link definition given its human-readable system name. * * @param policyAlias Policy in use * @param ifname Alphanumeric human-readable name * @return Physical link definition */ static SharedPtr getLinkByName(const std::string& policyAlias, const std::string& ifname); private: static Phy* _phy; static Mutex _bonds_m; static Mutex _links_m; /** * The minimum required monitoring interval among all bonds */ static int _minReqMonitorInterval; /** * The default bonding policy used for new bonds unless otherwise specified. */ static uint8_t _defaultPolicy; /** * The default bonding policy used for new bonds unless otherwise specified. */ static std::string _defaultPolicyStr; /** * All currently active bonds. */ static std::map > _bonds; /** * Map of peers to custom bonding policies */ static std::map _policyTemplateAssignments; /** * User-defined bonding policies (can be assigned to a peer) */ static std::map > _bondPolicyTemplates; /** * Set of links defined for a given bonding policy */ static std::map > > _linkDefinitions; /** * Set of link objects mapped to their physical interfaces */ static std::map > > _interfaceToLinkMap; struct NominatedPath; struct Flow; friend class SharedPtr; friend class Peer; public: void dumpInfo(int64_t now, bool force); std::string pathToStr(const SharedPtr& path); void dumpPathStatus(int64_t now, int pathIdx); SharedPtr getLink(const SharedPtr& path); /** * Constructor * * */ Bond(const RuntimeEnvironment* renv); /** * 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); /** * 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); /** * 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 originalBond, const SharedPtr& 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. * If the path is allowed to be used, it will be inducted into the bond on a trial * period where link statistics will be collected to judge its quality. * * @param path Newly-learned Path which should now be handled by the Bond * @param now Current time */ void nominatePathToBond(const SharedPtr& path, int64_t now); /** * Add a nominated path to the bond. This merely maps the index from the nominated set * to a smaller set and sets the path's bonded flag to true. * * @param nominatedIdx The index in the nominated set * @param bondedIdx The index in the bonded set (subset of nominated) */ void addPathToBond(int nominatedIdx, int bondedIdx); /** * 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(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); /** * 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, 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, int64_t now, int count, uint64_t* rx_id, uint16_t* rx_ts); /** * Generate the contents of a VERB_QOS_MEASUREMENT packet. * * @param now Current time * @param qosBuffer destination buffer * @return Size of payload */ int32_t generateQoSPacket(int pathIdx, 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, 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 getAppropriatePath(int64_t now, int32_t flowId); /** * Creates a new flow record * * @param np 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 createFlow(int pathIdx, 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, 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, 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, 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, int pathIdx, 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, int pathIdx, 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, int pathIdx); /** * * @param now Current time */ void processBalanceTasks(int64_t now); /** * Perform periodic tasks unique to active-backup * * @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call * @param now Current time */ void processActiveBackupTasks(void* tPtr, 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); /** * Zero all timers */ void initTimers(); /** * Set bond parameters to reasonable defaults, these may later be overwritten by * user-specified parameters. * * @param policy Bonding policy * @param templateBond */ void setBondParameters(int policy, SharedPtr 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 = (uint8_t)(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 processBackgroundBondTasks(void* tPtr, int64_t now); /** * Rate limit gate for VERB_QOS_MEASUREMENT * * @param now Current time * @return Whether the incoming packet should be rate-gated */ inline bool rateGateQoS(int64_t now, SharedPtr& path) { // TODO: Verify before production char pathStr[64] = { 0 }; path->address().toString(pathStr); int diff = now - _lastQoSRateCheck; if ((diff) <= (_qosSendInterval / ZT_MAX_PEER_NETWORK_PATHS)) { ++_qosCutoffCount; } else { _qosCutoffCount = 0; } _lastQoSRateCheck = now; // fprintf(stderr, "rateGateQoS (count=%d, send_interval=%d, diff=%d, path=%s)\n", _qosCutoffCount, _qosSendInterval, diff, pathStr); return (_qosCutoffCount < (ZT_MAX_PEER_NETWORK_PATHS * 2)); } /** * Rate limit gate for VERB_PATH_NEGOTIATION_REQUEST * * @param now Current time * @return Whether the incoming packet should be rate-gated */ inline bool rateGatePathNegotiation(int64_t now, SharedPtr& path) { // TODO: Verify before production char pathStr[64] = { 0 }; path->address().toString(pathStr); int diff = now - _lastPathNegotiationReceived; if ((diff) <= (ZT_PATH_NEGOTIATION_CUTOFF_TIME / ZT_MAX_PEER_NETWORK_PATHS)) { ++_pathNegotiationCutoffCount; } else { _pathNegotiationCutoffCount = 0; } _lastPathNegotiationReceived = now; // fprintf(stderr, "rateGateNeg (count=%d, send_interval=%d, diff=%d, path=%s)\n", _pathNegotiationCutoffCount, (ZT_PATH_NEGOTIATION_CUTOFF_TIME / ZT_MAX_PEER_NETWORK_PATHS), diff, pathStr); return (_pathNegotiationCutoffCount < (ZT_MAX_PEER_NETWORK_PATHS * 2)); } /** * @param interval Maximum amount of time user expects a failover to take on this bond. */ inline void setFailoverInterval(uint32_t interval) { _failoverInterval = interval; } /** * @param interval Maximum amount of time user expects a failover to take on this bond. */ inline uint32_t getFailoverInterval() { return _failoverInterval; } /** * @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 */ inline int monitorInterval() { return _monitorInterval; } /** * 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) { _monitorInterval = interval; } /** * @param policy Bonding policy for this bond */ inline void setPolicy(uint8_t policy) { _policy = policy; } /** * @return the current bonding policy */ inline uint8_t policy() { return _policy; } /** * @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; } /** * @return Number of packets to be sent on each interface in a balance-rr bond */ inline int getPacketsPerLink() { return _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; } /** * Forcibly rotates the currently active link used in an active-backup bond to the next link in the failover queue * * @return True if this operation succeeded, false if otherwise */ bool abForciblyRotateLink(); /** * @param now Current time * @return All known paths to this peer */ inline std::vector > paths(const int64_t now) const { std::vector > pp; Mutex::Lock _l(_paths_m); for (unsigned int i = 0; i < ZT_MAX_PEER_NETWORK_PATHS; ++i) { if (! _paths[i].p) break; pp.push_back(_paths[i].p); } return pp; } /** * Emit message to tracing system but with added timestamp and subsystem info * */ void log(const char* fmt, ...) { #ifdef ZT_TRACE time_t rawtime; struct tm* timeinfo; char timestamp[80]; time(&rawtime); timeinfo = localtime(&rawtime); strftime(timestamp, 80, "%F %T", timeinfo); #define MAX_BOND_MSG_LEN 1024 char traceMsg[MAX_BOND_MSG_LEN]; char userMsg[MAX_BOND_MSG_LEN]; va_list args; va_start(args, fmt); if (vsnprintf(userMsg, sizeof(userMsg), fmt, args) < 0) { fprintf(stderr, "Encountered format encoding error while writing to trace log\n"); return; } snprintf(traceMsg, MAX_BOND_MSG_LEN, "%s (%llx/%s) %s", timestamp, _peerId, _policyAlias.c_str(), userMsg); va_end(args); RR->t->bondStateMessage(NULL, traceMsg); #undef MAX_MSG_LEN #endif } /** * Emit message to tracing system but with added timestamp and subsystem info * */ void debug(const char* fmt, ...) { #ifdef ZT_DEBUG time_t rawtime; struct tm* timeinfo; char timestamp[80]; time(&rawtime); timeinfo = localtime(&rawtime); strftime(timestamp, 80, "%F %T", timeinfo); #define MAX_BOND_MSG_LEN 1024 char traceMsg[MAX_BOND_MSG_LEN]; char userMsg[MAX_BOND_MSG_LEN]; va_list args; va_start(args, fmt); if (vsnprintf(userMsg, sizeof(userMsg), fmt, args) < 0) { fprintf(stderr, "Encountered format encoding error while writing to trace log\n"); return; } snprintf(traceMsg, MAX_BOND_MSG_LEN, "%s (%llx/%s) %s", timestamp, _peerId, _policyAlias.c_str(), userMsg); va_end(args); RR->t->bondStateMessage(NULL, traceMsg); #undef MAX_MSG_LEN #endif } private: struct NominatedPath { NominatedPath() : lastQoSMeasurement(0) , lastThroughputEstimation(0) , lastRefractoryUpdate(0) , lastAliveToggle(0) , alive(false) , eligible(true) , whenNominated(0) , refractoryPeriod(0) , ipvPref(0) , mode(0) , onlyPathOnLink(false) , bonded(false) , negotiated(false) , shouldReallocateFlows(false) , assignedFlowCount(0) , latencyMean(0) , latencyVariance(0) , packetLossRatio(0) , packetErrorRatio(0) , throughputMean(0) , throughputMax(0) , throughputVariance(0) , allocation(0) , byteLoad(0) , relativeByteLoad(0) , affinity(0) , failoverScore(0) , packetsReceivedSinceLastQoS(0) , packetsIn(0) , packetsOut(0) { } /** * Set or update a refractory period for the path. * * @param punishment How much a path should be punished * @param pathFailure Whether this call is the result of a recent path failure */ inline void adjustRefractoryPeriod(int64_t now, uint32_t punishment, bool pathFailure) { if (pathFailure) { unsigned int suggestedRefractoryPeriod = refractoryPeriod ? punishment + (refractoryPeriod * 2) : punishment; refractoryPeriod = std::min(suggestedRefractoryPeriod, (unsigned int)ZT_BOND_MAX_REFRACTORY_PERIOD); lastRefractoryUpdate = 0; } else { uint32_t drainRefractory = 0; if (lastRefractoryUpdate) { drainRefractory = (now - lastRefractoryUpdate); } else { drainRefractory = (now - lastAliveToggle); } lastRefractoryUpdate = now; if (refractoryPeriod > drainRefractory) { refractoryPeriod -= drainRefractory; } else { refractoryPeriod = 0; lastRefractoryUpdate = 0; } } } /** * @return True if a path is permitted to be used in a bond (according to user pref.) */ inline bool allowed() { return (! ipvPref || ((p->_addr.isV4() && (ipvPref == 4 || ipvPref == 46 || ipvPref == 64)) || ((p->_addr.isV6() && (ipvPref == 6 || ipvPref == 46 || ipvPref == 64))))); } /** * @return True if a path is preferred over another on the same physical link (according to user pref.) */ inline bool preferred() { return onlyPathOnLink || (p->_addr.isV4() && (ipvPref == 4 || ipvPref == 46)) || (p->_addr.isV6() && (ipvPref == 6 || ipvPref == 64)); } /** * @param now Current time * @return Whether a QoS (VERB_QOS_MEASUREMENT) packet needs to be emitted at this time */ inline bool needsToSendQoS(int64_t now, int qosSendInterval) { // fprintf(stderr, "QOS table (%d / %d)\n", packetsReceivedSinceLastQoS, ZT_QOS_TABLE_SIZE); return ((packetsReceivedSinceLastQoS >= ZT_QOS_TABLE_SIZE) || ((now - lastQoSMeasurement) > qosSendInterval)) && packetsReceivedSinceLastQoS; } /** * Reset packet counters */ inline void resetPacketCounts() { packetsIn = 0; packetsOut = 0; } std::map qosStatsOut; // id:egress_time std::map qosStatsIn; // id:now RingBuffer qosRecordSize; RingBuffer qosRecordLossSamples; RingBuffer throughputSamples; RingBuffer packetValiditySamples; RingBuffer throughputVarianceSamples; RingBuffer latencySamples; uint64_t lastQoSMeasurement; // Last time that a VERB_QOS_MEASUREMENT was sent out on this path. uint64_t lastThroughputEstimation; // Last time that the path's throughput was estimated. uint64_t lastRefractoryUpdate; // The last time that the refractory period was updated. uint64_t lastAliveToggle; // The last time that the path was marked as "alive". bool alive; bool eligible; // State of eligibility at last check. Used for determining state changes. uint64_t whenNominated; // Timestamp indicating when this path's trial period began. uint32_t refractoryPeriod; // Amount of time that this path will be prevented from becoming a member of a bond. uint8_t ipvPref; // IP version preference inherited from the physical link. uint8_t mode; // Mode inherited from the physical link. bool onlyPathOnLink; // IP version preference inherited from the physical link. bool enabled; // Enabled state inherited from the physical link. bool bonded; // Whether this path is currently part of a bond. bool negotiated; // Whether this path was intentionally negotiated by either peer. bool shouldReallocateFlows; // Whether flows should be moved from this path. Current traffic flows will be re-allocated immediately. uint16_t assignedFlowCount; // The number of flows currently assigned to this path. float latencyMean; // The mean latency (computed from a sliding window.) float latencyVariance; // Packet delay variance (computed from a sliding window.) float packetLossRatio; // The ratio of lost packets to received packets. float packetErrorRatio; // The ratio of packets that failed their MAC/CRC checks to those that did not. uint64_t throughputMean; // The estimated mean throughput of this path. uint64_t throughputMax; // The maximum observed throughput of this path. float throughputVariance; // The variance in the estimated throughput of this path. uint8_t allocation; // The relative quality of this path to all others in the bond, [0-255]. uint64_t byteLoad; // How much load this path is under. uint8_t relativeByteLoad; // How much load this path is under (relative to other paths in the bond.) uint8_t affinity; // Relative value expressing how "deserving" this path is of new traffic. uint32_t failoverScore; // Score that indicates to what degree this path is preferred over others that are available to the bonding policy. (specifically for active-backup) int32_t packetsReceivedSinceLastQoS; // Number of packets received since the last VERB_QOS_MEASUREMENT was sent to the remote peer. /** * Counters used for tracking path load. */ int packetsIn; int packetsOut; //AtomicCounter __refCount; SharedPtr p; void set(uint64_t now, const SharedPtr& path) { p = path; whenNominated = now; p->_bondingMetricPtr = (void*)this; } }; /** * Paths nominated to the bond (may or may not actually be bonded) */ NominatedPath _paths[ZT_MAX_PEER_NETWORK_PATHS]; inline int getNominatedPathIdx(const SharedPtr& path) { for (int i = 0; i < ZT_MAX_PEER_NETWORK_PATHS; ++i) { if (_paths[i].p == path) { return i; } } return ZT_MAX_PEER_NETWORK_PATHS; } /** * A protocol flow that is identified by the origin and destination port. */ struct Flow { /** * @param flowId Given flow ID * @param now Current time */ Flow(int32_t flowId, int64_t now) : id(flowId), bytesIn(0), bytesOut(0), lastActivity(now), lastPathReassignment(0), assignedPath(ZT_MAX_PEER_NETWORK_PATHS) { } /** * Reset flow statistics */ inline void resetByteCounts() { bytesIn = 0; bytesOut = 0; } /** * How long since a packet was sent or received in this flow * * @param now Current time * @return The age of the flow in terms of last recorded activity */ int64_t age(int64_t now) { return now - lastActivity; } /** * @param path Assigned path over which this flow should be handled */ inline void assignPath(int pathIdx, int64_t now) { assignedPath = pathIdx; lastPathReassignment = now; } AtomicCounter __refCount; int32_t id; // Flow ID used for hashing and path selection uint64_t bytesIn; // Used for tracking flow size uint64_t bytesOut; // Used for tracking flow size int64_t lastActivity; // The last time that this flow handled traffic int64_t lastPathReassignment; // Time of last path assignment. Used for anti-flapping int assignedPath; // Index of path to which this flow is assigned }; const RuntimeEnvironment* RR; AtomicCounter __refCount; std::string _policyAlias; // Custom name given by the user to this bond type. /** * 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 _bondIdxMap[ZT_MAX_PEER_NETWORK_PATHS]; int _numBondedPaths; // Number of paths currently included in the _bondIdxMap set. std::map > _flows; // Flows hashed according to port and protocol float _qw[ZT_QOS_WEIGHT_SIZE]; // How much each factor contributes to the "quality" score of a path. uint8_t _policy; uint32_t _upDelay; uint32_t _downDelay; // active-backup int _abPathIdx; // current active path std::deque _abFailoverQueue; uint8_t _abLinkSelectMethod; // link re-selection policy for the primary link in active-backup // 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; // path negotiation int16_t _localUtility; int _negotiatedPathIdx; uint8_t _numSentPathNegotiationRequests; bool _allowPathNegotiation; /** * Timers and intervals */ uint32_t _failoverInterval; uint32_t _qosSendInterval; uint32_t _ackSendInterval; uint32_t throughputMeasurementInterval; uint32_t _qualityEstimationInterval; /** * Acceptable quality thresholds */ float _maxAcceptablePacketLossRatio; float _maxAcceptablePacketErrorRatio; uint16_t _maxAcceptableLatency; uint16_t _maxAcceptableMeanLatency; uint16_t _maxAcceptablePacketDelayVariance; uint8_t _minAcceptableAllocation; /** * Link state reporting */ 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; unsigned char _freeRandomByte; // Free byte of entropy that is updated on every packet egress event. SharedPtr _peer; // Remote peer that this bond services unsigned long long _peerId; // ID of the peer that this bond services bool _isLeaf; /** * Rate-limiting */ uint16_t _qosCutoffCount; uint64_t _lastQoSRateCheck; uint16_t _pathNegotiationCutoffCount; uint64_t _lastPathNegotiationReceived; /** * Recent event timestamps */ uint64_t _lastSummaryDump; uint64_t _lastQualityEstimation; uint64_t _lastBackgroundTaskCheck; uint64_t _lastBondStatusLog; uint64_t _lastPathNegotiationCheck; uint64_t _lastSentPathNegotiationRequest; uint64_t _lastFlowExpirationCheck; uint64_t _lastFlowRebalance; uint64_t _lastFrame; uint64_t _lastActiveBackupPathChange; Mutex _paths_m; Mutex _flows_m; bool _userHasSpecifiedLinks; // Whether the user has specified links for this bond. bool _userHasSpecifiedPrimaryLink; // Whether the user has specified a primary link for this bond. bool _userHasSpecifiedFailoverInstructions; // Whether the user has specified failover instructions for this bond. bool _userHasSpecifiedLinkSpeeds; // Whether the user has specified links speeds for this bond. /** * 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. */ int _monitorInterval; bool _allowFlowHashing; // Whether or not flow hashing is allowed. uint64_t _overheadBytes; }; } // namespace ZeroTier #endif