6c2e4cc0cd
overlay.GetOfflineNodesLimited We only care about node ID, address, and last contact success/failure from the downtime service, so the overlay should only return these values for the downtime-specific queries. Change-Id: I08a6ecfdd2a12b82cae62e87d6adeab53975bfce
512 lines
19 KiB
Go
512 lines
19 KiB
Go
// Copyright (C) 2019 Storj Labs, Inc.
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// See LICENSE for copying information.
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package overlay
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import (
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"context"
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"errors"
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"net"
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"time"
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"github.com/zeebo/errs"
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"go.uber.org/zap"
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"storj.io/common/pb"
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"storj.io/common/storj"
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"storj.io/storj/storage"
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)
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// ErrEmptyNode is returned when the nodeID is empty
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var ErrEmptyNode = errs.New("empty node ID")
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// ErrNodeNotFound is returned if a node does not exist in database
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var ErrNodeNotFound = errs.Class("node not found")
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// ErrNodeOffline is returned if a nodes is offline
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var ErrNodeOffline = errs.Class("node is offline")
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// ErrNodeDisqualified is returned if a nodes is disqualified
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var ErrNodeDisqualified = errs.Class("node is disqualified")
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// ErrNotEnoughNodes is when selecting nodes failed with the given parameters
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var ErrNotEnoughNodes = errs.Class("not enough nodes")
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// DB implements the database for overlay.Service
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//
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// architecture: Database
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type DB interface {
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// SelectStorageNodes looks up nodes based on criteria
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SelectStorageNodes(ctx context.Context, count int, criteria *NodeCriteria) ([]*pb.Node, error)
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// SelectNewStorageNodes looks up nodes based on new node criteria
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SelectNewStorageNodes(ctx context.Context, count int, criteria *NodeCriteria) ([]*pb.Node, error)
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// Get looks up the node by nodeID
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Get(ctx context.Context, nodeID storj.NodeID) (*NodeDossier, error)
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// KnownOffline filters a set of nodes to offline nodes
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KnownOffline(context.Context, *NodeCriteria, storj.NodeIDList) (storj.NodeIDList, error)
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// KnownUnreliableOrOffline filters a set of nodes to unhealth or offlines node, independent of new
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KnownUnreliableOrOffline(context.Context, *NodeCriteria, storj.NodeIDList) (storj.NodeIDList, error)
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// KnownReliable filters a set of nodes to reliable (online and qualified) nodes.
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KnownReliable(ctx context.Context, onlineWindow time.Duration, nodeIDs storj.NodeIDList) ([]*pb.Node, error)
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// Reliable returns all nodes that are reliable
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Reliable(context.Context, *NodeCriteria) (storj.NodeIDList, error)
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// Paginate will page through the database nodes
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Paginate(ctx context.Context, offset int64, limit int) ([]*NodeDossier, bool, error)
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// PaginateQualified will page through the qualified nodes
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PaginateQualified(ctx context.Context, offset int64, limit int) ([]*pb.Node, bool, error)
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// Update updates node address
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UpdateAddress(ctx context.Context, value *pb.Node, defaults NodeSelectionConfig) error
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// BatchUpdateStats updates multiple storagenode's stats in one transaction
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BatchUpdateStats(ctx context.Context, updateRequests []*UpdateRequest, batchSize int) (failed storj.NodeIDList, err error)
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// UpdateStats all parts of single storagenode's stats.
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UpdateStats(ctx context.Context, request *UpdateRequest) (stats *NodeStats, err error)
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// UpdateNodeInfo updates node dossier with info requested from the node itself like node type, email, wallet, capacity, and version.
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UpdateNodeInfo(ctx context.Context, node storj.NodeID, nodeInfo *pb.InfoResponse) (stats *NodeDossier, err error)
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// UpdateUptime updates a single storagenode's uptime stats.
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UpdateUptime(ctx context.Context, nodeID storj.NodeID, isUp bool, lambda, weight, uptimeDQ float64) (stats *NodeStats, err error)
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// UpdateCheckIn updates a single storagenode's check-in stats.
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UpdateCheckIn(ctx context.Context, node NodeCheckInInfo, timestamp time.Time, config NodeSelectionConfig) (err error)
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// AllPieceCounts returns a map of node IDs to piece counts from the db.
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AllPieceCounts(ctx context.Context) (pieceCounts map[storj.NodeID]int, err error)
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// UpdatePieceCounts sets the piece count field for the given node IDs.
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UpdatePieceCounts(ctx context.Context, pieceCounts map[storj.NodeID]int) (err error)
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// UpdateExitStatus is used to update a node's graceful exit status.
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UpdateExitStatus(ctx context.Context, request *ExitStatusRequest) (_ *NodeDossier, err error)
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// GetExitingNodes returns nodes who have initiated a graceful exit, but have not completed it.
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GetExitingNodes(ctx context.Context) (exitingNodes []*ExitStatus, err error)
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// GetGracefulExitCompletedByTimeFrame returns nodes who have completed graceful exit within a time window (time window is around graceful exit completion).
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GetGracefulExitCompletedByTimeFrame(ctx context.Context, begin, end time.Time) (exitedNodes storj.NodeIDList, err error)
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// GetGracefulExitIncompleteByTimeFrame returns nodes who have initiated, but not completed graceful exit within a time window (time window is around graceful exit initiation).
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GetGracefulExitIncompleteByTimeFrame(ctx context.Context, begin, end time.Time) (exitingNodes storj.NodeIDList, err error)
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// GetExitStatus returns a node's graceful exit status.
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GetExitStatus(ctx context.Context, nodeID storj.NodeID) (exitStatus *ExitStatus, err error)
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// GetNodeIPs returns a list of IP addresses associated with given node IDs.
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GetNodeIPs(ctx context.Context, nodeIDs []storj.NodeID) (nodeIPs []string, err error)
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// GetSuccesfulNodesNotCheckedInSince returns all nodes that last check-in was successful, but haven't checked-in within a given duration.
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GetSuccesfulNodesNotCheckedInSince(ctx context.Context, duration time.Duration) (nodeAddresses []NodeLastContact, err error)
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// GetOfflineNodesLimited returns a list of the first N offline nodes ordered by least recently contacted.
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GetOfflineNodesLimited(ctx context.Context, limit int) ([]NodeLastContact, error)
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}
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// NodeCheckInInfo contains all the info that will be updated when a node checkins
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type NodeCheckInInfo struct {
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NodeID storj.NodeID
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Address *pb.NodeAddress
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LastIP string
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IsUp bool
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Operator *pb.NodeOperator
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Capacity *pb.NodeCapacity
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Version *pb.NodeVersion
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}
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// FindStorageNodesRequest defines easy request parameters.
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type FindStorageNodesRequest struct {
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MinimumRequiredNodes int
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RequestedCount int
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FreeBandwidth int64
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FreeDisk int64
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ExcludedNodes []storj.NodeID
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MinimumVersion string // semver or empty
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}
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// NodeCriteria are the requirements for selecting nodes
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type NodeCriteria struct {
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FreeBandwidth int64
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FreeDisk int64
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AuditCount int64
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UptimeCount int64
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ExcludedNodes []storj.NodeID
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ExcludedIPs []string
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MinimumVersion string // semver or empty
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OnlineWindow time.Duration
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DistinctIP bool
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}
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// UpdateRequest is used to update a node status.
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type UpdateRequest struct {
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NodeID storj.NodeID
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AuditSuccess bool
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IsUp bool
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// n.b. these are set values from the satellite.
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// They are part of the UpdateRequest struct in order to be
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// more easily accessible in satellite/satellitedb/overlaycache.go.
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AuditLambda float64
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AuditWeight float64
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AuditDQ float64
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UptimeLambda float64
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UptimeWeight float64
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UptimeDQ float64
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}
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// ExitStatus is used for reading graceful exit status.
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type ExitStatus struct {
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NodeID storj.NodeID
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ExitInitiatedAt *time.Time
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ExitLoopCompletedAt *time.Time
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ExitFinishedAt *time.Time
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ExitSuccess bool
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}
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// ExitStatusRequest is used to update a node's graceful exit status.
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type ExitStatusRequest struct {
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NodeID storj.NodeID
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ExitInitiatedAt time.Time
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ExitLoopCompletedAt time.Time
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ExitFinishedAt time.Time
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ExitSuccess bool
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}
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// NodeDossier is the complete info that the satellite tracks for a storage node
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type NodeDossier struct {
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pb.Node
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Type pb.NodeType
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Operator pb.NodeOperator
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Capacity pb.NodeCapacity
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Reputation NodeStats
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Version pb.NodeVersion
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Contained bool
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Disqualified *time.Time
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PieceCount int64
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ExitStatus ExitStatus
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CreatedAt time.Time
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}
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// NodeStats contains statistics about a node.
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type NodeStats struct {
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Latency90 int64
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AuditSuccessCount int64
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AuditCount int64
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UptimeSuccessCount int64
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UptimeCount int64
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LastContactSuccess time.Time
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LastContactFailure time.Time
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AuditReputationAlpha float64
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UptimeReputationAlpha float64
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AuditReputationBeta float64
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UptimeReputationBeta float64
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Disqualified *time.Time
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}
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// NodeLastContact contains the ID, address, and timestamp
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type NodeLastContact struct {
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ID storj.NodeID
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Address string
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LastContactSuccess time.Time
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LastContactFailure time.Time
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}
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// Service is used to store and handle node information
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//
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// architecture: Service
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type Service struct {
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log *zap.Logger
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db DB
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config Config
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}
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// NewService returns a new Service
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func NewService(log *zap.Logger, db DB, config Config) *Service {
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return &Service{
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log: log,
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db: db,
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config: config,
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}
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}
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// Close closes resources
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func (service *Service) Close() error { return nil }
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// Inspect lists limited number of items in the cache
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func (service *Service) Inspect(ctx context.Context) (_ storage.Keys, err error) {
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defer mon.Task()(&ctx)(&err)
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// TODO: implement inspection tools
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return nil, errors.New("not implemented")
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}
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// Paginate returns a list of `limit` nodes starting from `start` offset.
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func (service *Service) Paginate(ctx context.Context, offset int64, limit int) (_ []*NodeDossier, _ bool, err error) {
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defer mon.Task()(&ctx)(&err)
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return service.db.Paginate(ctx, offset, limit)
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}
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// PaginateQualified returns a list of `limit` qualified nodes starting from `start` offset.
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func (service *Service) PaginateQualified(ctx context.Context, offset int64, limit int) (_ []*pb.Node, _ bool, err error) {
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defer mon.Task()(&ctx)(&err)
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return service.db.PaginateQualified(ctx, offset, limit)
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}
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// Get looks up the provided nodeID from the overlay.
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func (service *Service) Get(ctx context.Context, nodeID storj.NodeID) (_ *NodeDossier, err error) {
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defer mon.Task()(&ctx)(&err)
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if nodeID.IsZero() {
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return nil, ErrEmptyNode
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}
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return service.db.Get(ctx, nodeID)
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}
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// IsOnline checks if a node is 'online' based on the collected statistics.
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func (service *Service) IsOnline(node *NodeDossier) bool {
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return time.Since(node.Reputation.LastContactSuccess) < service.config.Node.OnlineWindow
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}
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// FindStorageNodes searches the overlay network for nodes that meet the provided requirements
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func (service *Service) FindStorageNodes(ctx context.Context, req FindStorageNodesRequest) (_ []*pb.Node, err error) {
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defer mon.Task()(&ctx)(&err)
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return service.FindStorageNodesWithPreferences(ctx, req, &service.config.Node)
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}
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// FindStorageNodesWithPreferences searches the overlay network for nodes that meet the provided criteria
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func (service *Service) FindStorageNodesWithPreferences(ctx context.Context, req FindStorageNodesRequest, preferences *NodeSelectionConfig) (nodes []*pb.Node, err error) {
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defer mon.Task()(&ctx)(&err)
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// TODO: add sanity limits to requested node count
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// TODO: add sanity limits to excluded nodes
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reputableNodeCount := req.MinimumRequiredNodes
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if reputableNodeCount <= 0 {
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reputableNodeCount = req.RequestedCount
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}
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excludedNodes := req.ExcludedNodes
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// get and exclude IPs associated with excluded nodes if distinctIP is enabled
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var excludedIPs []string
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if preferences.DistinctIP && len(excludedNodes) > 0 {
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excludedIPs, err = service.db.GetNodeIPs(ctx, excludedNodes)
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if err != nil {
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return nil, Error.Wrap(err)
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}
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}
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newNodeCount := 0
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if preferences.NewNodePercentage > 0 {
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newNodeCount = int(float64(reputableNodeCount) * preferences.NewNodePercentage)
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}
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var newNodes []*pb.Node
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if newNodeCount > 0 {
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newNodes, err = service.db.SelectNewStorageNodes(ctx, newNodeCount, &NodeCriteria{
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FreeBandwidth: req.FreeBandwidth,
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FreeDisk: req.FreeDisk,
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AuditCount: preferences.AuditCount,
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ExcludedNodes: excludedNodes,
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MinimumVersion: preferences.MinimumVersion,
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OnlineWindow: preferences.OnlineWindow,
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DistinctIP: preferences.DistinctIP,
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})
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if err != nil {
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return nil, Error.Wrap(err)
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}
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}
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// add selected new nodes and their IPs to the excluded lists for reputable node selection
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for _, newNode := range newNodes {
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excludedNodes = append(excludedNodes, newNode.Id)
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if preferences.DistinctIP {
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excludedIPs = append(excludedIPs, newNode.LastIp)
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}
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}
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criteria := NodeCriteria{
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FreeBandwidth: req.FreeBandwidth,
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FreeDisk: req.FreeDisk,
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AuditCount: preferences.AuditCount,
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UptimeCount: preferences.UptimeCount,
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ExcludedNodes: excludedNodes,
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ExcludedIPs: excludedIPs,
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MinimumVersion: preferences.MinimumVersion,
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OnlineWindow: preferences.OnlineWindow,
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DistinctIP: preferences.DistinctIP,
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}
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reputableNodes, err := service.db.SelectStorageNodes(ctx, reputableNodeCount-len(newNodes), &criteria)
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if err != nil {
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return nil, Error.Wrap(err)
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}
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nodes = append(nodes, newNodes...)
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nodes = append(nodes, reputableNodes...)
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if len(nodes) < reputableNodeCount {
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return nodes, ErrNotEnoughNodes.New("requested %d found %d; %+v ", reputableNodeCount, len(nodes), criteria)
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}
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return nodes, nil
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}
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// KnownOffline filters a set of nodes to offline nodes
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func (service *Service) KnownOffline(ctx context.Context, nodeIds storj.NodeIDList) (offlineNodes storj.NodeIDList, err error) {
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defer mon.Task()(&ctx)(&err)
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criteria := &NodeCriteria{
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OnlineWindow: service.config.Node.OnlineWindow,
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}
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return service.db.KnownOffline(ctx, criteria, nodeIds)
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}
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// KnownUnreliableOrOffline filters a set of nodes to unhealth or offlines node, independent of new.
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func (service *Service) KnownUnreliableOrOffline(ctx context.Context, nodeIds storj.NodeIDList) (badNodes storj.NodeIDList, err error) {
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defer mon.Task()(&ctx)(&err)
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criteria := &NodeCriteria{
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OnlineWindow: service.config.Node.OnlineWindow,
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}
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return service.db.KnownUnreliableOrOffline(ctx, criteria, nodeIds)
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}
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// KnownReliable filters a set of nodes to reliable (online and qualified) nodes.
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func (service *Service) KnownReliable(ctx context.Context, nodeIDs storj.NodeIDList) (nodes []*pb.Node, err error) {
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defer mon.Task()(&ctx)(&err)
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return service.db.KnownReliable(ctx, service.config.Node.OnlineWindow, nodeIDs)
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}
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// Reliable filters a set of nodes that are reliable, independent of new.
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func (service *Service) Reliable(ctx context.Context) (nodes storj.NodeIDList, err error) {
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defer mon.Task()(&ctx)(&err)
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criteria := &NodeCriteria{
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OnlineWindow: service.config.Node.OnlineWindow,
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}
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return service.db.Reliable(ctx, criteria)
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}
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// Put adds a node id and proto definition into the overlay.
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func (service *Service) Put(ctx context.Context, nodeID storj.NodeID, value pb.Node) (err error) {
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defer mon.Task()(&ctx)(&err)
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// If we get a Node without an ID
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// we don't want to add to the database
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if nodeID.IsZero() {
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return nil
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}
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if nodeID != value.Id {
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return errors.New("invalid request")
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}
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if value.Address == nil {
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return errors.New("node has no address")
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}
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// Resolve IP Address Network to ensure it is set
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value.LastIp, err = GetNetwork(ctx, value.Address.Address)
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if err != nil {
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return Error.Wrap(err)
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}
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return service.db.UpdateAddress(ctx, &value, service.config.Node)
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}
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// BatchUpdateStats updates multiple storagenode's stats in one transaction
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func (service *Service) BatchUpdateStats(ctx context.Context, requests []*UpdateRequest) (failed storj.NodeIDList, err error) {
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defer mon.Task()(&ctx)(&err)
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for _, request := range requests {
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request.AuditLambda = service.config.Node.AuditReputationLambda
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request.AuditWeight = service.config.Node.AuditReputationWeight
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request.AuditDQ = service.config.Node.AuditReputationDQ
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request.UptimeLambda = service.config.Node.UptimeReputationLambda
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request.UptimeWeight = service.config.Node.UptimeReputationWeight
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request.UptimeDQ = service.config.Node.UptimeReputationDQ
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}
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return service.db.BatchUpdateStats(ctx, requests, service.config.UpdateStatsBatchSize)
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}
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// UpdateStats all parts of single storagenode's stats.
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func (service *Service) UpdateStats(ctx context.Context, request *UpdateRequest) (stats *NodeStats, err error) {
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defer mon.Task()(&ctx)(&err)
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request.AuditLambda = service.config.Node.AuditReputationLambda
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request.AuditWeight = service.config.Node.AuditReputationWeight
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request.AuditDQ = service.config.Node.AuditReputationDQ
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request.UptimeLambda = service.config.Node.UptimeReputationLambda
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request.UptimeWeight = service.config.Node.UptimeReputationWeight
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request.UptimeDQ = service.config.Node.UptimeReputationDQ
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return service.db.UpdateStats(ctx, request)
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}
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// UpdateNodeInfo updates node dossier with info requested from the node itself like node type, email, wallet, capacity, and version.
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func (service *Service) UpdateNodeInfo(ctx context.Context, node storj.NodeID, nodeInfo *pb.InfoResponse) (stats *NodeDossier, err error) {
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defer mon.Task()(&ctx)(&err)
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return service.db.UpdateNodeInfo(ctx, node, nodeInfo)
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}
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// UpdateUptime updates a single storagenode's uptime stats.
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func (service *Service) UpdateUptime(ctx context.Context, nodeID storj.NodeID, isUp bool) (stats *NodeStats, err error) {
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defer mon.Task()(&ctx)(&err)
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lambda := service.config.Node.UptimeReputationLambda
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weight := service.config.Node.UptimeReputationWeight
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uptimeDQ := service.config.Node.UptimeReputationDQ
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return service.db.UpdateUptime(ctx, nodeID, isUp, lambda, weight, uptimeDQ)
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}
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// UpdateCheckIn updates a single storagenode's check-in info.
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func (service *Service) UpdateCheckIn(ctx context.Context, node NodeCheckInInfo, timestamp time.Time) (err error) {
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defer mon.Task()(&ctx)(&err)
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return service.db.UpdateCheckIn(ctx, node, timestamp, service.config.Node)
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}
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// GetSuccesfulNodesNotCheckedInSince returns all nodes that last check-in was successful, but haven't checked-in within a given duration.
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func (service *Service) GetSuccesfulNodesNotCheckedInSince(ctx context.Context, duration time.Duration) (nodeLastContacts []NodeLastContact, err error) {
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defer mon.Task()(&ctx)(&err)
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return service.db.GetSuccesfulNodesNotCheckedInSince(ctx, duration)
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}
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// GetMissingPieces returns the list of offline nodes
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func (service *Service) GetMissingPieces(ctx context.Context, pieces []*pb.RemotePiece) (missingPieces []int32, err error) {
|
|
defer mon.Task()(&ctx)(&err)
|
|
var nodeIDs storj.NodeIDList
|
|
for _, p := range pieces {
|
|
nodeIDs = append(nodeIDs, p.NodeId)
|
|
}
|
|
badNodeIDs, err := service.KnownUnreliableOrOffline(ctx, nodeIDs)
|
|
if err != nil {
|
|
return nil, Error.New("error getting nodes %s", err)
|
|
}
|
|
|
|
for _, p := range pieces {
|
|
for _, nodeID := range badNodeIDs {
|
|
if nodeID == p.NodeId {
|
|
missingPieces = append(missingPieces, p.GetPieceNum())
|
|
}
|
|
}
|
|
}
|
|
return missingPieces, nil
|
|
}
|
|
|
|
func getIP(ctx context.Context, target string) (ip net.IPAddr, err error) {
|
|
defer mon.Task()(&ctx)(&err)
|
|
host, _, err := net.SplitHostPort(target)
|
|
if err != nil {
|
|
return net.IPAddr{}, err
|
|
}
|
|
ipAddr, err := net.ResolveIPAddr("ip", host)
|
|
if err != nil {
|
|
return net.IPAddr{}, err
|
|
}
|
|
return *ipAddr, nil
|
|
}
|
|
|
|
// GetNetwork resolves the target address and determines its IP /24 Subnet
|
|
func GetNetwork(ctx context.Context, target string) (network string, err error) {
|
|
defer mon.Task()(&ctx)(&err)
|
|
|
|
addr, err := getIP(ctx, target)
|
|
if err != nil {
|
|
return "", err
|
|
}
|
|
|
|
// If addr can be converted to 4byte notation, it is an IPv4 address, else its an IPv6 address
|
|
if ipv4 := addr.IP.To4(); ipv4 != nil {
|
|
//Filter all IPv4 Addresses into /24 Subnet's
|
|
mask := net.CIDRMask(24, 32)
|
|
return ipv4.Mask(mask).String(), nil
|
|
}
|
|
if ipv6 := addr.IP.To16(); ipv6 != nil {
|
|
//Filter all IPv6 Addresses into /64 Subnet's
|
|
mask := net.CIDRMask(64, 128)
|
|
return ipv6.Mask(mask).String(), nil
|
|
}
|
|
|
|
return "", errors.New("unable to get network for address " + addr.String())
|
|
}
|