storj/satellite/satellitedb/overlaycache.go
Jeff Wendling 9da16b1d9e satellite/satellitedb/dbx: name the package dbx
everyone was importing it as dbx anyway. why should it be
named satellitedb? so yeah just pass the "-p dbx" flag.

Change-Id: I5efa669f4f00f196b38a9acd0d402009475a936f
2020-01-15 15:16:39 -07:00

1487 lines
44 KiB
Go

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package satellitedb
import (
"context"
"database/sql"
"encoding/hex"
"fmt"
"sort"
"strings"
"time"
"github.com/lib/pq"
"github.com/zeebo/errs"
monkit "gopkg.in/spacemonkeygo/monkit.v2"
"storj.io/common/pb"
"storj.io/common/storj"
"storj.io/storj/private/version"
"storj.io/storj/satellite/overlay"
"storj.io/storj/satellite/satellitedb/dbx"
"storj.io/storj/storage"
)
var (
mon = monkit.Package()
)
var _ overlay.DB = (*overlaycache)(nil)
type overlaycache struct {
db *satelliteDB
}
func (cache *overlaycache) SelectStorageNodes(ctx context.Context, count int, criteria *overlay.NodeCriteria) (nodes []*pb.Node, err error) {
defer mon.Task()(&ctx)(&err)
nodeType := int(pb.NodeType_STORAGE)
safeQuery := `
WHERE disqualified IS NULL
AND exit_initiated_at IS NULL
AND type = ?
AND free_bandwidth >= ?
AND free_disk >= ?
AND total_audit_count >= ?
AND total_uptime_count >= ?
AND last_contact_success > ?`
args := append(make([]interface{}, 0, 13),
nodeType, criteria.FreeBandwidth, criteria.FreeDisk, criteria.AuditCount,
criteria.UptimeCount, time.Now().Add(-criteria.OnlineWindow))
if criteria.MinimumVersion != "" {
v, err := version.NewSemVer(criteria.MinimumVersion)
if err != nil {
return nil, Error.New("invalid node selection criteria version: %v", err)
}
safeQuery += `
AND (major > ? OR (major = ? AND (minor > ? OR (minor = ? AND patch >= ?))))
AND release`
args = append(args, v.Major, v.Major, v.Minor, v.Minor, v.Patch)
}
if !criteria.DistinctIP {
nodes, err = cache.queryNodes(ctx, criteria.ExcludedNodes, count, safeQuery, args...)
if err != nil {
return nil, err
}
return nodes, nil
}
// query for distinct IPs
for i := 0; i < 3; i++ {
moreNodes, err := cache.queryNodesDistinct(ctx, criteria.ExcludedNodes, criteria.ExcludedIPs, count-len(nodes), safeQuery, criteria.DistinctIP, args...)
if err != nil {
return nil, err
}
for _, n := range moreNodes {
nodes = append(nodes, n)
criteria.ExcludedNodes = append(criteria.ExcludedNodes, n.Id)
criteria.ExcludedIPs = append(criteria.ExcludedIPs, n.LastIp)
}
if len(nodes) == count {
break
}
}
return nodes, nil
}
func (cache *overlaycache) SelectNewStorageNodes(ctx context.Context, count int, criteria *overlay.NodeCriteria) (nodes []*pb.Node, err error) {
defer mon.Task()(&ctx)(&err)
nodeType := int(pb.NodeType_STORAGE)
safeQuery := `
WHERE disqualified IS NULL
AND exit_initiated_at IS NULL
AND type = ?
AND free_bandwidth >= ?
AND free_disk >= ?
AND (total_audit_count < ? OR total_uptime_count < ?)
AND last_contact_success > ?`
args := append(make([]interface{}, 0, 10),
nodeType, criteria.FreeBandwidth, criteria.FreeDisk, criteria.AuditCount, criteria.UptimeCount, time.Now().Add(-criteria.OnlineWindow))
if criteria.MinimumVersion != "" {
v, err := version.NewSemVer(criteria.MinimumVersion)
if err != nil {
return nil, Error.New("invalid node selection criteria version: %v", err)
}
safeQuery += `
AND (major > ? OR (major = ? AND (minor > ? OR (minor = ? AND patch >= ?))))
AND release`
args = append(args, v.Major, v.Major, v.Minor, v.Minor, v.Patch)
}
if !criteria.DistinctIP {
nodes, err = cache.queryNodes(ctx, criteria.ExcludedNodes, count, safeQuery, args...)
if err != nil {
return nil, err
}
return nodes, nil
}
// query for distinct IPs
for i := 0; i < 3; i++ {
moreNodes, err := cache.queryNodesDistinct(ctx, criteria.ExcludedNodes, criteria.ExcludedIPs, count-len(nodes), safeQuery, criteria.DistinctIP, args...)
if err != nil {
return nil, err
}
for _, n := range moreNodes {
nodes = append(nodes, n)
criteria.ExcludedNodes = append(criteria.ExcludedNodes, n.Id)
criteria.ExcludedIPs = append(criteria.ExcludedIPs, n.LastIp)
}
if len(nodes) == count {
break
}
}
return nodes, nil
}
// GetNodeIPs returns a list of node IP addresses. Warning: these node IP addresses might be returned out of order.
func (cache *overlaycache) GetNodeIPs(ctx context.Context, nodeIDs []storj.NodeID) (nodeIPs []string, err error) {
defer mon.Task()(&ctx)(&err)
var rows *sql.Rows
rows, err = cache.db.Query(cache.db.Rebind(`
SELECT last_net FROM nodes
WHERE id = any($1::bytea[])
`), postgresNodeIDList(nodeIDs),
)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
for rows.Next() {
var ip string
err = rows.Scan(&ip)
if err != nil {
return nil, err
}
nodeIPs = append(nodeIPs, ip)
}
return nodeIPs, nil
}
func (cache *overlaycache) queryNodes(ctx context.Context, excludedNodes []storj.NodeID, count int, safeQuery string, args ...interface{}) (_ []*pb.Node, err error) {
defer mon.Task()(&ctx)(&err)
if count == 0 {
return nil, nil
}
safeExcludeNodes := ""
if len(excludedNodes) > 0 {
safeExcludeNodes = ` AND id NOT IN (?` + strings.Repeat(", ?", len(excludedNodes)-1) + `)`
for _, id := range excludedNodes {
args = append(args, id.Bytes())
}
}
args = append(args, count)
var rows *sql.Rows
rows, err = cache.db.Query(cache.db.Rebind(`SELECT id, type, address, last_net,
free_bandwidth, free_disk, total_audit_count, audit_success_count,
total_uptime_count, uptime_success_count, disqualified, audit_reputation_alpha,
audit_reputation_beta
FROM nodes
`+safeQuery+safeExcludeNodes+`
ORDER BY RANDOM()
LIMIT ?`), args...)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
var nodes []*pb.Node
for rows.Next() {
dbNode := &dbx.Node{}
err = rows.Scan(&dbNode.Id, &dbNode.Type,
&dbNode.Address, &dbNode.LastNet, &dbNode.FreeBandwidth, &dbNode.FreeDisk,
&dbNode.TotalAuditCount, &dbNode.AuditSuccessCount,
&dbNode.TotalUptimeCount, &dbNode.UptimeSuccessCount, &dbNode.Disqualified,
&dbNode.AuditReputationAlpha, &dbNode.AuditReputationBeta,
)
if err != nil {
return nil, err
}
dossier, err := convertDBNode(ctx, dbNode)
if err != nil {
return nil, err
}
nodes = append(nodes, &dossier.Node)
}
return nodes, rows.Err()
}
func (cache *overlaycache) queryNodesDistinct(ctx context.Context, excludedNodes []storj.NodeID, excludedIPs []string, count int, safeQuery string, distinctIP bool, args ...interface{}) (_ []*pb.Node, err error) {
defer mon.Task()(&ctx)(&err)
if count == 0 {
return nil, nil
}
safeExcludeNodes := ""
if len(excludedNodes) > 0 {
safeExcludeNodes = ` AND id NOT IN (?` + strings.Repeat(", ?", len(excludedNodes)-1) + `)`
for _, id := range excludedNodes {
args = append(args, id.Bytes())
}
}
safeExcludeIPs := ""
if len(excludedIPs) > 0 {
safeExcludeIPs = ` AND last_net NOT IN (?` + strings.Repeat(", ?", len(excludedIPs)-1) + `)`
for _, ip := range excludedIPs {
args = append(args, ip)
}
}
args = append(args, count)
rows, err := cache.db.Query(cache.db.Rebind(`
SELECT *
FROM (
SELECT DISTINCT ON (last_net) last_net, -- choose at max 1 node from this IP or network
id, type, address, free_bandwidth, free_disk, total_audit_count,
audit_success_count, total_uptime_count, uptime_success_count,
audit_reputation_alpha, audit_reputation_beta
FROM nodes
`+safeQuery+safeExcludeNodes+safeExcludeIPs+`
AND last_net <> '' -- don't try to IP-filter nodes with no known IP yet
ORDER BY last_net, RANDOM() -- equal chance of choosing any qualified node at this IP or network
) filteredcandidates
ORDER BY RANDOM() -- do the actual node selection from filtered pool
LIMIT ?`), args...)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
var nodes []*pb.Node
for rows.Next() {
dbNode := &dbx.Node{}
err = rows.Scan(&dbNode.LastNet, &dbNode.Id, &dbNode.Type,
&dbNode.Address, &dbNode.FreeBandwidth, &dbNode.FreeDisk,
&dbNode.TotalAuditCount, &dbNode.AuditSuccessCount,
&dbNode.TotalUptimeCount, &dbNode.UptimeSuccessCount,
&dbNode.AuditReputationAlpha, &dbNode.AuditReputationBeta,
)
if err != nil {
return nil, err
}
dossier, err := convertDBNode(ctx, dbNode)
if err != nil {
return nil, err
}
nodes = append(nodes, &dossier.Node)
}
return nodes, rows.Err()
}
// Get looks up the node by nodeID
func (cache *overlaycache) Get(ctx context.Context, id storj.NodeID) (_ *overlay.NodeDossier, err error) {
defer mon.Task()(&ctx)(&err)
if id.IsZero() {
return nil, overlay.ErrEmptyNode
}
node, err := cache.db.Get_Node_By_Id(ctx, dbx.Node_Id(id.Bytes()))
if err == sql.ErrNoRows {
return nil, overlay.ErrNodeNotFound.New("%v", id)
}
if err != nil {
return nil, err
}
return convertDBNode(ctx, node)
}
// KnownOffline filters a set of nodes to offline nodes
func (cache *overlaycache) KnownOffline(ctx context.Context, criteria *overlay.NodeCriteria, nodeIds storj.NodeIDList) (offlineNodes storj.NodeIDList, err error) {
defer mon.Task()(&ctx)(&err)
if len(nodeIds) == 0 {
return nil, Error.New("no ids provided")
}
// get offline nodes
var rows *sql.Rows
rows, err = cache.db.Query(cache.db.Rebind(`
SELECT id FROM nodes
WHERE id = any($1::bytea[])
AND (
last_contact_success < $2
)
`), postgresNodeIDList(nodeIds), time.Now().Add(-criteria.OnlineWindow),
)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
for rows.Next() {
var id storj.NodeID
err = rows.Scan(&id)
if err != nil {
return nil, err
}
offlineNodes = append(offlineNodes, id)
}
return offlineNodes, nil
}
// KnownUnreliableOrOffline filters a set of nodes to unreliable or offlines node, independent of new
func (cache *overlaycache) KnownUnreliableOrOffline(ctx context.Context, criteria *overlay.NodeCriteria, nodeIds storj.NodeIDList) (badNodes storj.NodeIDList, err error) {
defer mon.Task()(&ctx)(&err)
if len(nodeIds) == 0 {
return nil, Error.New("no ids provided")
}
// get reliable and online nodes
var rows *sql.Rows
rows, err = cache.db.Query(cache.db.Rebind(`
SELECT id FROM nodes
WHERE id = any($1::bytea[])
AND disqualified IS NULL
AND last_contact_success > $2
`), postgresNodeIDList(nodeIds), time.Now().Add(-criteria.OnlineWindow),
)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
goodNodes := make(map[storj.NodeID]struct{}, len(nodeIds))
for rows.Next() {
var id storj.NodeID
err = rows.Scan(&id)
if err != nil {
return nil, err
}
goodNodes[id] = struct{}{}
}
for _, id := range nodeIds {
if _, ok := goodNodes[id]; !ok {
badNodes = append(badNodes, id)
}
}
return badNodes, nil
}
// KnownReliable filters a set of nodes to reliable (online and qualified) nodes.
func (cache *overlaycache) KnownReliable(ctx context.Context, onlineWindow time.Duration, nodeIDs storj.NodeIDList) (nodes []*pb.Node, err error) {
defer mon.Task()(&ctx)(&err)
if len(nodeIDs) == 0 {
return nil, Error.New("no ids provided")
}
// get online nodes
rows, err := cache.db.Query(cache.db.Rebind(`
SELECT id, last_net, address, protocol FROM nodes
WHERE id = any($1::bytea[])
AND disqualified IS NULL
AND last_contact_success > $2
`), postgresNodeIDList(nodeIDs), time.Now().Add(-onlineWindow),
)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
for rows.Next() {
row := &dbx.Id_LastNet_Address_Protocol_Row{}
err = rows.Scan(&row.Id, &row.LastNet, &row.Address, &row.Protocol)
if err != nil {
return nil, err
}
node, err := convertDBNodeToPBNode(ctx, row)
if err != nil {
return nil, err
}
nodes = append(nodes, node)
}
return nodes, nil
}
// Reliable returns all reliable nodes.
func (cache *overlaycache) Reliable(ctx context.Context, criteria *overlay.NodeCriteria) (nodes storj.NodeIDList, err error) {
// get reliable and online nodes
rows, err := cache.db.Query(cache.db.Rebind(`
SELECT id FROM nodes
WHERE disqualified IS NULL
AND last_contact_success > ?`),
time.Now().Add(-criteria.OnlineWindow))
if err != nil {
return nil, err
}
defer func() {
err = errs.Combine(err, rows.Close())
}()
for rows.Next() {
var id storj.NodeID
err = rows.Scan(&id)
if err != nil {
return nil, err
}
nodes = append(nodes, id)
}
return nodes, nil
}
// Paginate will run through
func (cache *overlaycache) Paginate(ctx context.Context, offset int64, limit int) (_ []*overlay.NodeDossier, _ bool, err error) {
defer mon.Task()(&ctx)(&err)
cursor := storj.NodeID{}
// more represents end of table. If there are more rows in the database, more will be true.
more := true
if limit <= 0 || limit > storage.LookupLimit {
limit = storage.LookupLimit
}
dbxInfos, err := cache.db.Limited_Node_By_Id_GreaterOrEqual_OrderBy_Asc_Id(ctx, dbx.Node_Id(cursor.Bytes()), limit, offset)
if err != nil {
return nil, false, err
}
if len(dbxInfos) < limit {
more = false
}
infos := make([]*overlay.NodeDossier, len(dbxInfos))
for i, dbxInfo := range dbxInfos {
infos[i], err = convertDBNode(ctx, dbxInfo)
if err != nil {
return nil, false, err
}
}
return infos, more, nil
}
// PaginateQualified will retrieve all qualified nodes
func (cache *overlaycache) PaginateQualified(ctx context.Context, offset int64, limit int) (_ []*pb.Node, _ bool, err error) {
defer mon.Task()(&ctx)(&err)
cursor := storj.NodeID{}
// more represents end of table. If there are more rows in the database, more will be true.
more := true
if limit <= 0 || limit > storage.LookupLimit {
limit = storage.LookupLimit
}
dbxInfos, err := cache.db.Limited_Node_Id_Node_LastNet_Node_Address_Node_Protocol_By_Id_GreaterOrEqual_And_Disqualified_Is_Null_OrderBy_Asc_Id(ctx, dbx.Node_Id(cursor.Bytes()), limit, offset)
if err != nil {
return nil, false, err
}
if len(dbxInfos) < limit {
more = false
}
infos := make([]*pb.Node, len(dbxInfos))
for i, dbxInfo := range dbxInfos {
infos[i], err = convertDBNodeToPBNode(ctx, dbxInfo)
if err != nil {
return nil, false, err
}
}
return infos, more, nil
}
// Update updates node address
func (cache *overlaycache) UpdateAddress(ctx context.Context, info *pb.Node, defaults overlay.NodeSelectionConfig) (err error) {
defer mon.Task()(&ctx)(&err)
if info == nil || info.Id.IsZero() {
return overlay.ErrEmptyNode
}
err = cache.db.WithTx(ctx, func(ctx context.Context, tx *dbx.Tx) (err error) {
// TODO: use upsert
_, err = tx.Get_Node_By_Id(ctx, dbx.Node_Id(info.Id.Bytes()))
address := info.Address
if address == nil {
address = &pb.NodeAddress{}
}
if err != nil {
if err != sql.ErrNoRows {
return err
}
// add the node to DB for first time
err = tx.CreateNoReturn_Node(
ctx,
dbx.Node_Id(info.Id.Bytes()),
dbx.Node_Address(address.Address),
dbx.Node_LastNet(info.LastIp),
dbx.Node_Protocol(int(address.Transport)),
dbx.Node_Type(int(pb.NodeType_INVALID)),
dbx.Node_Email(""),
dbx.Node_Wallet(""),
dbx.Node_FreeBandwidth(-1),
dbx.Node_FreeDisk(-1),
dbx.Node_Major(0),
dbx.Node_Minor(0),
dbx.Node_Patch(0),
dbx.Node_Hash(""),
dbx.Node_Timestamp(time.Time{}),
dbx.Node_Release(false),
dbx.Node_Latency90(0),
dbx.Node_AuditSuccessCount(0),
dbx.Node_TotalAuditCount(0),
dbx.Node_UptimeSuccessCount(0),
dbx.Node_TotalUptimeCount(0),
dbx.Node_LastContactSuccess(time.Now()),
dbx.Node_LastContactFailure(time.Time{}),
dbx.Node_Contained(false),
dbx.Node_AuditReputationAlpha(defaults.AuditReputationAlpha0),
dbx.Node_AuditReputationBeta(defaults.AuditReputationBeta0),
//TODO: remove uptime reputation after finishing db migration
dbx.Node_UptimeReputationAlpha(0),
dbx.Node_UptimeReputationBeta(0),
dbx.Node_ExitSuccess(false),
dbx.Node_Create_Fields{
Disqualified: dbx.Node_Disqualified_Null(),
},
)
} else {
err = tx.UpdateNoReturn_Node_By_Id(ctx, dbx.Node_Id(info.Id.Bytes()),
dbx.Node_Update_Fields{
Address: dbx.Node_Address(address.Address),
LastNet: dbx.Node_LastNet(info.LastIp),
Protocol: dbx.Node_Protocol(int(address.Transport)),
})
}
return err
})
return Error.Wrap(err)
}
// BatchUpdateStats updates multiple storagenode's stats in one transaction
func (cache *overlaycache) BatchUpdateStats(ctx context.Context, updateRequests []*overlay.UpdateRequest, batchSize int) (failed storj.NodeIDList, err error) {
defer mon.Task()(&ctx)(&err)
if len(updateRequests) == 0 {
return failed, nil
}
// ensure updates happen in-order
sort.Slice(updateRequests, func(i, k int) bool {
return updateRequests[i].NodeID.Less(updateRequests[k].NodeID)
})
doUpdate := func(updateSlice []*overlay.UpdateRequest) (duf storj.NodeIDList, err error) {
appendAll := func() {
for _, ur := range updateRequests {
duf = append(duf, ur.NodeID)
}
}
doAppendAll := true
err = cache.db.WithTx(ctx, func(ctx context.Context, tx *dbx.Tx) (err error) {
var allSQL string
for _, updateReq := range updateSlice {
dbNode, err := tx.Get_Node_By_Id(ctx, dbx.Node_Id(updateReq.NodeID.Bytes()))
if err != nil {
doAppendAll = false
return err
}
// do not update reputation if node is disqualified
if dbNode.Disqualified != nil {
continue
}
updateNodeStats := populateUpdateNodeStats(dbNode, updateReq)
sql := buildUpdateStatement(updateNodeStats)
allSQL += sql
}
if allSQL != "" {
results, err := tx.Tx.Exec(allSQL)
if err != nil {
return err
}
_, err = results.RowsAffected()
if err != nil {
return err
}
}
return nil
})
if err != nil {
if doAppendAll {
appendAll()
}
return duf, Error.Wrap(err)
}
return duf, nil
}
var errlist errs.Group
length := len(updateRequests)
for i := 0; i < length; i += batchSize {
end := i + batchSize
if end > length {
end = length
}
failedBatch, err := doUpdate(updateRequests[i:end])
if err != nil && len(failedBatch) > 0 {
for _, fb := range failedBatch {
errlist.Add(err)
failed = append(failed, fb)
}
}
}
return failed, errlist.Err()
}
// UpdateStats a single storagenode's stats in the db
func (cache *overlaycache) UpdateStats(ctx context.Context, updateReq *overlay.UpdateRequest) (stats *overlay.NodeStats, err error) {
defer mon.Task()(&ctx)(&err)
nodeID := updateReq.NodeID
var dbNode *dbx.Node
err = cache.db.WithTx(ctx, func(ctx context.Context, tx *dbx.Tx) (err error) {
dbNode, err = tx.Get_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()))
if err != nil {
return err
}
// do not update reputation if node is disqualified
if dbNode.Disqualified != nil {
return nil
}
updateFields := populateUpdateFields(dbNode, updateReq)
dbNode, err = tx.Update_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()), updateFields)
if err != nil {
return err
}
// Cleanup containment table too
_, err = tx.Delete_PendingAudits_By_NodeId(ctx, dbx.PendingAudits_NodeId(nodeID.Bytes()))
return err
})
if err != nil {
return nil, Error.Wrap(err)
}
// TODO: Allegedly tx.Get_Node_By_Id and tx.Update_Node_By_Id should never return a nil value for dbNode,
// however we've seen from some crashes that it does. We need to track down the cause of these crashes
// but for now we're adding a nil check to prevent a panic.
if dbNode == nil {
return nil, Error.New("unable to get node by ID: %v", nodeID)
}
return getNodeStats(dbNode), nil
}
// UpdateNodeInfo updates the following fields for a given node ID:
// wallet, email for node operator, free disk and bandwidth capacity, and version
func (cache *overlaycache) UpdateNodeInfo(ctx context.Context, nodeID storj.NodeID, nodeInfo *pb.InfoResponse) (stats *overlay.NodeDossier, err error) {
defer mon.Task()(&ctx)(&err)
var updateFields dbx.Node_Update_Fields
if nodeInfo != nil {
if nodeInfo.GetType() != pb.NodeType_INVALID {
updateFields.Type = dbx.Node_Type(int(nodeInfo.GetType()))
}
if nodeInfo.GetOperator() != nil {
updateFields.Wallet = dbx.Node_Wallet(nodeInfo.GetOperator().GetWallet())
updateFields.Email = dbx.Node_Email(nodeInfo.GetOperator().GetEmail())
}
if nodeInfo.GetCapacity() != nil {
updateFields.FreeDisk = dbx.Node_FreeDisk(nodeInfo.GetCapacity().GetFreeDisk())
updateFields.FreeBandwidth = dbx.Node_FreeBandwidth(nodeInfo.GetCapacity().GetFreeBandwidth())
}
if nodeInfo.GetVersion() != nil {
semVer, err := version.NewSemVer(nodeInfo.GetVersion().GetVersion())
if err != nil {
return nil, errs.New("unable to convert version to semVer")
}
updateFields.Major = dbx.Node_Major(int64(semVer.Major))
updateFields.Minor = dbx.Node_Minor(int64(semVer.Minor))
updateFields.Patch = dbx.Node_Patch(int64(semVer.Patch))
updateFields.Hash = dbx.Node_Hash(nodeInfo.GetVersion().GetCommitHash())
updateFields.Timestamp = dbx.Node_Timestamp(nodeInfo.GetVersion().Timestamp)
updateFields.Release = dbx.Node_Release(nodeInfo.GetVersion().GetRelease())
}
}
updatedDBNode, err := cache.db.Update_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()), updateFields)
if err != nil {
return nil, Error.Wrap(err)
}
return convertDBNode(ctx, updatedDBNode)
}
// UpdateUptime updates a single storagenode's uptime stats in the db
func (cache *overlaycache) UpdateUptime(ctx context.Context, nodeID storj.NodeID, isUp bool) (stats *overlay.NodeStats, err error) {
defer mon.Task()(&ctx)(&err)
var dbNode *dbx.Node
err = cache.db.WithTx(ctx, func(ctx context.Context, tx *dbx.Tx) (err error) {
dbNode, err = tx.Get_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()))
if err != nil {
return err
}
// do not update reputation if node is disqualified
if dbNode.Disqualified != nil {
return nil
}
updateFields := dbx.Node_Update_Fields{}
totalUptimeCount := dbNode.TotalUptimeCount
lastContactSuccess := dbNode.LastContactSuccess
lastContactFailure := dbNode.LastContactFailure
mon.Meter("uptime_updates").Mark(1)
if isUp {
totalUptimeCount++
updateFields.UptimeSuccessCount = dbx.Node_UptimeSuccessCount(dbNode.UptimeSuccessCount + 1)
updateFields.LastContactSuccess = dbx.Node_LastContactSuccess(time.Now())
mon.Meter("uptime_update_successes").Mark(1)
// we have seen this node in the past 24 hours
if time.Since(lastContactFailure) > time.Hour*24 {
mon.Meter("uptime_seen_24h").Mark(1)
}
// we have seen this node in the past week
if time.Since(lastContactFailure) > time.Hour*24*7 {
mon.Meter("uptime_seen_week").Mark(1)
}
} else {
updateFields.LastContactFailure = dbx.Node_LastContactFailure(time.Now())
mon.Meter("uptime_update_failures").Mark(1)
// it's been over 24 hours since we've seen this node
if time.Since(lastContactSuccess) > time.Hour*24 {
mon.Meter("uptime_not_seen_24h").Mark(1)
}
// it's been over a week since we've seen this node
if time.Since(lastContactSuccess) > time.Hour*24*7 {
mon.Meter("uptime_not_seen_week").Mark(1)
}
}
updateFields.TotalUptimeCount = dbx.Node_TotalUptimeCount(totalUptimeCount)
dbNode, err = tx.Update_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()), updateFields)
return err
})
if err != nil {
return nil, Error.Wrap(err)
}
// TODO: Allegedly tx.Get_Node_By_Id and tx.Update_Node_By_Id should never return a nil value for dbNode,
// however we've seen from some crashes that it does. We need to track down the cause of these crashes
// but for now we're adding a nil check to prevent a panic.
if dbNode == nil {
return nil, Error.New("unable to get node by ID: %v", nodeID)
}
return getNodeStats(dbNode), nil
}
// DisqualifyNode disqualifies a storage node.
func (cache *overlaycache) DisqualifyNode(ctx context.Context, nodeID storj.NodeID) (err error) {
defer mon.Task()(&ctx)(&err)
updateFields := dbx.Node_Update_Fields{}
updateFields.Disqualified = dbx.Node_Disqualified(time.Now().UTC())
dbNode, err := cache.db.Update_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()), updateFields)
if err != nil {
return err
}
if dbNode == nil {
return errs.New("unable to get node by ID: %v", nodeID)
}
return nil
}
// AllPieceCounts returns a map of node IDs to piece counts from the db.
// NB: a valid, partial piece map can be returned even if node ID parsing error(s) are returned.
func (cache *overlaycache) AllPieceCounts(ctx context.Context) (_ map[storj.NodeID]int, err error) {
defer mon.Task()(&ctx)(&err)
// NB: `All_Node_Id_Node_PieceCount_By_PieceCount_Not_Number` selects node
// ID and piece count from the nodes table where piece count is not zero.
rows, err := cache.db.All_Node_Id_Node_PieceCount_By_PieceCount_Not_Number(ctx)
if err != nil {
return nil, Error.Wrap(err)
}
pieceCounts := make(map[storj.NodeID]int)
nodeIDErrs := errs.Group{}
for _, row := range rows {
nodeID, err := storj.NodeIDFromBytes(row.Id)
if err != nil {
nodeIDErrs.Add(err)
continue
}
pieceCounts[nodeID] = int(row.PieceCount)
}
return pieceCounts, nodeIDErrs.Err()
}
func (cache *overlaycache) UpdatePieceCounts(ctx context.Context, pieceCounts map[storj.NodeID]int) (err error) {
defer mon.Task()(&ctx)(&err)
if len(pieceCounts) == 0 {
return nil
}
// TODO: pass in the apprioriate struct to database, rather than constructing it here
type NodeCount struct {
ID storj.NodeID
Count int64
}
var counts []NodeCount
for nodeid, count := range pieceCounts {
counts = append(counts, NodeCount{
ID: nodeid,
Count: int64(count),
})
}
sort.Slice(counts, func(i, k int) bool {
return counts[i].ID.Less(counts[k].ID)
})
var nodeIDs []storj.NodeID
var countNumbers []int64
for _, count := range counts {
nodeIDs = append(nodeIDs, count.ID)
countNumbers = append(countNumbers, count.Count)
}
_, err = cache.db.ExecContext(ctx, `
UPDATE nodes
SET piece_count = update.count
FROM (
SELECT unnest($1::bytea[]) as id, unnest($2::bigint[]) as count
) as update
WHERE nodes.id = update.id
`, postgresNodeIDList(nodeIDs), pq.Array(countNumbers))
return Error.Wrap(err)
}
// GetExitingNodes returns nodes who have initiated a graceful exit and is not disqualified, but have not completed it.
func (cache *overlaycache) GetExitingNodes(ctx context.Context) (exitingNodes []*overlay.ExitStatus, err error) {
defer mon.Task()(&ctx)(&err)
rows, err := cache.db.Query(cache.db.Rebind(`
SELECT id, exit_initiated_at, exit_loop_completed_at, exit_finished_at, exit_success FROM nodes
WHERE exit_initiated_at IS NOT NULL
AND exit_finished_at IS NULL
AND disqualified is NULL
`),
)
if err != nil {
return nil, err
}
defer func() {
err = errs.Combine(err, rows.Close())
}()
for rows.Next() {
var exitingNodeStatus overlay.ExitStatus
err = rows.Scan(&exitingNodeStatus.NodeID, &exitingNodeStatus.ExitInitiatedAt, &exitingNodeStatus.ExitLoopCompletedAt, &exitingNodeStatus.ExitFinishedAt, &exitingNodeStatus.ExitSuccess)
if err != nil {
return nil, err
}
exitingNodes = append(exitingNodes, &exitingNodeStatus)
}
return exitingNodes, nil
}
// GetExitStatus returns a node's graceful exit status.
func (cache *overlaycache) GetExitStatus(ctx context.Context, nodeID storj.NodeID) (_ *overlay.ExitStatus, err error) {
defer mon.Task()(&ctx)(&err)
rows, err := cache.db.Query(cache.db.Rebind("select id, exit_initiated_at, exit_loop_completed_at, exit_finished_at, exit_success from nodes where id = ?"), nodeID)
if err != nil {
return nil, Error.Wrap(err)
}
defer func() {
err = errs.Combine(err, rows.Close())
}()
exitStatus := &overlay.ExitStatus{}
if rows.Next() {
err = rows.Scan(&exitStatus.NodeID, &exitStatus.ExitInitiatedAt, &exitStatus.ExitLoopCompletedAt, &exitStatus.ExitFinishedAt, &exitStatus.ExitSuccess)
}
return exitStatus, Error.Wrap(err)
}
// GetGracefulExitCompletedByTimeFrame returns nodes who have completed graceful exit within a time window (time window is around graceful exit completion).
func (cache *overlaycache) GetGracefulExitCompletedByTimeFrame(ctx context.Context, begin, end time.Time) (exitedNodes storj.NodeIDList, err error) {
defer mon.Task()(&ctx)(&err)
rows, err := cache.db.Query(cache.db.Rebind(`
SELECT id FROM nodes
WHERE exit_initiated_at IS NOT NULL
AND exit_finished_at IS NOT NULL
AND exit_finished_at >= ?
AND exit_finished_at < ?
`), begin, end,
)
if err != nil {
return nil, err
}
defer func() {
err = errs.Combine(err, rows.Close())
}()
for rows.Next() {
var id storj.NodeID
err = rows.Scan(&id)
if err != nil {
return nil, err
}
exitedNodes = append(exitedNodes, id)
}
return exitedNodes, rows.Err()
}
// GetGracefulExitIncompleteByTimeFrame returns nodes who have initiated, but not completed graceful exit within a time window (time window is around graceful exit initiation).
func (cache *overlaycache) GetGracefulExitIncompleteByTimeFrame(ctx context.Context, begin, end time.Time) (exitingNodes storj.NodeIDList, err error) {
defer mon.Task()(&ctx)(&err)
rows, err := cache.db.Query(cache.db.Rebind(`
SELECT id FROM nodes
WHERE exit_initiated_at IS NOT NULL
AND exit_finished_at IS NULL
AND exit_initiated_at >= ?
AND exit_initiated_at < ?
`), begin, end,
)
if err != nil {
return nil, err
}
defer func() {
err = errs.Combine(err, rows.Close())
}()
// TODO return more than just ID
for rows.Next() {
var id storj.NodeID
err = rows.Scan(&id)
if err != nil {
return nil, err
}
exitingNodes = append(exitingNodes, id)
}
return exitingNodes, rows.Err()
}
// UpdateExitStatus is used to update a node's graceful exit status.
func (cache *overlaycache) UpdateExitStatus(ctx context.Context, request *overlay.ExitStatusRequest) (_ *overlay.NodeDossier, err error) {
defer mon.Task()(&ctx)(&err)
nodeID := request.NodeID
updateFields := populateExitStatusFields(request)
dbNode, err := cache.db.Update_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()), updateFields)
if err != nil {
return nil, Error.Wrap(err)
}
if dbNode == nil {
return nil, Error.Wrap(errs.New("unable to get node by ID: %v", nodeID))
}
return convertDBNode(ctx, dbNode)
}
// GetSuccesfulNodesNotCheckedInSince returns all nodes that last check-in was successful, but haven't checked-in within a given duration.
func (cache *overlaycache) GetSuccesfulNodesNotCheckedInSince(ctx context.Context, duration time.Duration) (nodeLastContacts []overlay.NodeLastContact, err error) {
// get successful nodes that have not checked-in with the hour
defer mon.Task()(&ctx)(&err)
dbxNodes, err := cache.db.DB.All_Node_Id_Node_Address_Node_LastContactSuccess_Node_LastContactFailure_By_LastContactSuccess_Less_And_LastContactSuccess_Greater_LastContactFailure_And_Disqualified_Is_Null_OrderBy_Asc_LastContactSuccess(
ctx, dbx.Node_LastContactSuccess(time.Now().UTC().Add(-duration)))
if err != nil {
return nil, Error.Wrap(err)
}
for _, node := range dbxNodes {
nodeID, err := storj.NodeIDFromBytes(node.Id)
if err != nil {
return nil, err
}
nodeLastContact := overlay.NodeLastContact{
ID: nodeID,
Address: node.Address,
LastContactSuccess: node.LastContactSuccess.UTC(),
LastContactFailure: node.LastContactFailure.UTC(),
}
nodeLastContacts = append(nodeLastContacts, nodeLastContact)
}
return nodeLastContacts, nil
}
func populateExitStatusFields(req *overlay.ExitStatusRequest) dbx.Node_Update_Fields {
dbxUpdateFields := dbx.Node_Update_Fields{}
if !req.ExitInitiatedAt.IsZero() {
dbxUpdateFields.ExitInitiatedAt = dbx.Node_ExitInitiatedAt(req.ExitInitiatedAt)
}
if !req.ExitLoopCompletedAt.IsZero() {
dbxUpdateFields.ExitLoopCompletedAt = dbx.Node_ExitLoopCompletedAt(req.ExitLoopCompletedAt)
}
if !req.ExitFinishedAt.IsZero() {
dbxUpdateFields.ExitFinishedAt = dbx.Node_ExitFinishedAt(req.ExitFinishedAt)
}
dbxUpdateFields.ExitSuccess = dbx.Node_ExitSuccess(req.ExitSuccess)
return dbxUpdateFields
}
// GetOfflineNodesLimited returns a list of the first N offline nodes ordered by least recently contacted.
func (cache *overlaycache) GetOfflineNodesLimited(ctx context.Context, limit int) (nodeLastContacts []overlay.NodeLastContact, err error) {
defer mon.Task()(&ctx)(&err)
dbxNodes, err := cache.db.DB.Limited_Node_Id_Node_Address_Node_LastContactSuccess_Node_LastContactFailure_By_LastContactSuccess_Less_LastContactFailure_And_Disqualified_Is_Null_OrderBy_Asc_LastContactFailure(
ctx, limit, 0)
if err != nil {
return nil, Error.Wrap(err)
}
for _, node := range dbxNodes {
nodeID, err := storj.NodeIDFromBytes(node.Id)
if err != nil {
return nil, err
}
nodeLastContact := overlay.NodeLastContact{
ID: nodeID,
Address: node.Address,
LastContactSuccess: node.LastContactSuccess.UTC(),
LastContactFailure: node.LastContactFailure.UTC(),
}
nodeLastContacts = append(nodeLastContacts, nodeLastContact)
}
return nodeLastContacts, nil
}
func convertDBNode(ctx context.Context, info *dbx.Node) (_ *overlay.NodeDossier, err error) {
defer mon.Task()(&ctx)(&err)
if info == nil {
return nil, Error.New("missing info")
}
id, err := storj.NodeIDFromBytes(info.Id)
if err != nil {
return nil, err
}
ver, err := version.NewSemVer(fmt.Sprintf("%d.%d.%d", info.Major, info.Minor, info.Patch))
if err != nil {
return nil, err
}
exitStatus := overlay.ExitStatus{NodeID: id}
exitStatus.ExitInitiatedAt = info.ExitInitiatedAt
exitStatus.ExitLoopCompletedAt = info.ExitLoopCompletedAt
exitStatus.ExitFinishedAt = info.ExitFinishedAt
node := &overlay.NodeDossier{
Node: pb.Node{
Id: id,
LastIp: info.LastNet,
Address: &pb.NodeAddress{
Address: info.Address,
Transport: pb.NodeTransport(info.Protocol),
},
},
Type: pb.NodeType(info.Type),
Operator: pb.NodeOperator{
Email: info.Email,
Wallet: info.Wallet,
},
Capacity: pb.NodeCapacity{
FreeBandwidth: info.FreeBandwidth,
FreeDisk: info.FreeDisk,
},
Reputation: *getNodeStats(info),
Version: pb.NodeVersion{
Version: ver.String(),
CommitHash: info.Hash,
Timestamp: info.Timestamp,
Release: info.Release,
},
Contained: info.Contained,
Disqualified: info.Disqualified,
PieceCount: info.PieceCount,
ExitStatus: exitStatus,
CreatedAt: info.CreatedAt,
}
return node, nil
}
func convertDBNodeToPBNode(ctx context.Context, info *dbx.Id_LastNet_Address_Protocol_Row) (_ *pb.Node, err error) {
defer mon.Task()(&ctx)(&err)
if info == nil {
return nil, Error.New("missing info")
}
id, err := storj.NodeIDFromBytes(info.Id)
if err != nil {
return nil, err
}
return &pb.Node{
Id: id,
LastIp: info.LastNet,
Address: &pb.NodeAddress{
Address: info.Address,
Transport: pb.NodeTransport(info.Protocol),
},
}, nil
}
func getNodeStats(dbNode *dbx.Node) *overlay.NodeStats {
nodeStats := &overlay.NodeStats{
Latency90: dbNode.Latency90,
AuditCount: dbNode.TotalAuditCount,
AuditSuccessCount: dbNode.AuditSuccessCount,
UptimeCount: dbNode.TotalUptimeCount,
UptimeSuccessCount: dbNode.UptimeSuccessCount,
LastContactSuccess: dbNode.LastContactSuccess,
LastContactFailure: dbNode.LastContactFailure,
AuditReputationAlpha: dbNode.AuditReputationAlpha,
AuditReputationBeta: dbNode.AuditReputationBeta,
Disqualified: dbNode.Disqualified,
}
return nodeStats
}
// updateReputation uses the Beta distribution model to determine a node's reputation.
// lambda is the "forgetting factor" which determines how much past info is kept when determining current reputation score.
// w is the normalization weight that affects how severely new updates affect the current reputation distribution.
func updateReputation(isSuccess bool, alpha, beta, lambda, w float64, totalCount int64) (newAlpha, newBeta float64, updatedCount int64) {
// v is a single feedback value that allows us to update both alpha and beta
var v float64 = -1
if isSuccess {
v = 1
}
newAlpha = lambda*alpha + w*(1+v)/2
newBeta = lambda*beta + w*(1-v)/2
return newAlpha, newBeta, totalCount + 1
}
func buildUpdateStatement(update updateNodeStats) string {
if update.NodeID.IsZero() {
return ""
}
atLeastOne := false
sql := "UPDATE nodes SET "
if update.TotalAuditCount.set {
atLeastOne = true
sql += fmt.Sprintf("total_audit_count = %v", update.TotalAuditCount.value)
}
if update.TotalUptimeCount.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("total_uptime_count = %v", update.TotalUptimeCount.value)
}
if update.AuditReputationAlpha.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("audit_reputation_alpha = %v", update.AuditReputationAlpha.value)
}
if update.AuditReputationBeta.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("audit_reputation_beta = %v", update.AuditReputationBeta.value)
}
if update.Disqualified.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("disqualified = '%v'", update.Disqualified.value.Format(time.RFC3339Nano))
}
if update.UptimeSuccessCount.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("uptime_success_count = %v", update.UptimeSuccessCount.value)
}
if update.LastContactSuccess.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("last_contact_success = '%v'", update.LastContactSuccess.value.Format(time.RFC3339Nano))
}
if update.LastContactFailure.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("last_contact_failure = '%v'", update.LastContactFailure.value.Format(time.RFC3339Nano))
}
if update.AuditSuccessCount.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("audit_success_count = %v", update.AuditSuccessCount.value)
}
if update.Contained.set {
if atLeastOne {
sql += ","
}
atLeastOne = true
sql += fmt.Sprintf("contained = %v", update.Contained.value)
}
if !atLeastOne {
return ""
}
hexNodeID := hex.EncodeToString(update.NodeID.Bytes())
sql += fmt.Sprintf(" WHERE nodes.id = decode('%v', 'hex');\n", hexNodeID)
sql += fmt.Sprintf("DELETE FROM pending_audits WHERE pending_audits.node_id = decode('%v', 'hex');\n", hexNodeID)
return sql
}
type int64Field struct {
set bool
value int64
}
type float64Field struct {
set bool
value float64
}
type boolField struct {
set bool
value bool
}
type timeField struct {
set bool
value time.Time
}
type updateNodeStats struct {
NodeID storj.NodeID
TotalAuditCount int64Field
TotalUptimeCount int64Field
AuditReputationAlpha float64Field
AuditReputationBeta float64Field
Disqualified timeField
UptimeSuccessCount int64Field
LastContactSuccess timeField
LastContactFailure timeField
AuditSuccessCount int64Field
Contained boolField
}
func populateUpdateNodeStats(dbNode *dbx.Node, updateReq *overlay.UpdateRequest) updateNodeStats {
auditAlpha, auditBeta, totalAuditCount := updateReputation(
updateReq.AuditSuccess,
dbNode.AuditReputationAlpha,
dbNode.AuditReputationBeta,
updateReq.AuditLambda,
updateReq.AuditWeight,
dbNode.TotalAuditCount,
)
mon.FloatVal("audit_reputation_alpha").Observe(auditAlpha) //locked
mon.FloatVal("audit_reputation_beta").Observe(auditBeta) //locked
totalUptimeCount := dbNode.TotalUptimeCount
if updateReq.IsUp {
totalUptimeCount++
}
updateFields := updateNodeStats{
NodeID: updateReq.NodeID,
TotalAuditCount: int64Field{set: true, value: totalAuditCount},
TotalUptimeCount: int64Field{set: true, value: totalUptimeCount},
AuditReputationAlpha: float64Field{set: true, value: auditAlpha},
AuditReputationBeta: float64Field{set: true, value: auditBeta},
}
auditRep := auditAlpha / (auditAlpha + auditBeta)
if auditRep <= updateReq.AuditDQ {
updateFields.Disqualified = timeField{set: true, value: time.Now().UTC()}
}
if updateReq.IsUp {
updateFields.UptimeSuccessCount = int64Field{set: true, value: dbNode.UptimeSuccessCount + 1}
updateFields.LastContactSuccess = timeField{set: true, value: time.Now()}
} else {
updateFields.LastContactFailure = timeField{set: true, value: time.Now()}
}
if updateReq.AuditSuccess {
updateFields.AuditSuccessCount = int64Field{set: true, value: dbNode.AuditSuccessCount + 1}
}
// Updating node stats always exits it from containment mode
updateFields.Contained = boolField{set: true, value: false}
return updateFields
}
func populateUpdateFields(dbNode *dbx.Node, updateReq *overlay.UpdateRequest) dbx.Node_Update_Fields {
update := populateUpdateNodeStats(dbNode, updateReq)
updateFields := dbx.Node_Update_Fields{}
if update.TotalAuditCount.set {
updateFields.TotalAuditCount = dbx.Node_TotalAuditCount(update.TotalAuditCount.value)
}
if update.TotalUptimeCount.set {
updateFields.TotalUptimeCount = dbx.Node_TotalUptimeCount(update.TotalUptimeCount.value)
}
if update.AuditReputationAlpha.set {
updateFields.AuditReputationAlpha = dbx.Node_AuditReputationAlpha(update.AuditReputationAlpha.value)
}
if update.AuditReputationBeta.set {
updateFields.AuditReputationBeta = dbx.Node_AuditReputationBeta(update.AuditReputationBeta.value)
}
if update.Disqualified.set {
updateFields.Disqualified = dbx.Node_Disqualified(update.Disqualified.value)
}
if update.UptimeSuccessCount.set {
updateFields.UptimeSuccessCount = dbx.Node_UptimeSuccessCount(update.UptimeSuccessCount.value)
}
if update.LastContactSuccess.set {
updateFields.LastContactSuccess = dbx.Node_LastContactSuccess(update.LastContactSuccess.value)
}
if update.LastContactFailure.set {
updateFields.LastContactFailure = dbx.Node_LastContactFailure(update.LastContactFailure.value)
}
if update.AuditSuccessCount.set {
updateFields.AuditSuccessCount = dbx.Node_AuditSuccessCount(update.AuditSuccessCount.value)
}
if update.Contained.set {
updateFields.Contained = dbx.Node_Contained(update.Contained.value)
}
if updateReq.AuditSuccess {
updateFields.AuditSuccessCount = dbx.Node_AuditSuccessCount(dbNode.AuditSuccessCount + 1)
}
return updateFields
}
// UpdateCheckIn updates a single storagenode with info from when the the node last checked in.
func (cache *overlaycache) UpdateCheckIn(ctx context.Context, node overlay.NodeCheckInInfo, timestamp time.Time, config overlay.NodeSelectionConfig) (err error) {
defer mon.Task()(&ctx)(&err)
if node.Address.GetAddress() == "" {
return Error.New("error UpdateCheckIn: missing the storage node address")
}
semVer, err := version.NewSemVer(node.Version.GetVersion())
if err != nil {
return Error.New("unable to convert version to semVer")
}
query := `
INSERT INTO nodes
(
id, address, last_net, protocol, type,
email, wallet, free_bandwidth, free_disk,
uptime_success_count, total_uptime_count,
last_contact_success,
last_contact_failure,
audit_reputation_alpha, audit_reputation_beta,
major, minor, patch, hash, timestamp, release
)
VALUES (
$1, $2, $3, $4, $5,
$6, $7, $8, $9,
$10::bool::int, 1,
CASE WHEN $10::bool IS TRUE THEN $19::timestamptz
ELSE '0001-01-01 00:00:00+00'::timestamptz
END,
CASE WHEN $10::bool IS FALSE THEN $19::timestamptz
ELSE '0001-01-01 00:00:00+00'::timestamptz
END,
$11, $12,
$13, $14, $15, $16, $17, $18
)
ON CONFLICT (id)
DO UPDATE
SET
address=$2,
last_net=$3,
protocol=$4,
email=$6,
wallet=$7,
free_bandwidth=$8,
free_disk=$9,
major=$13, minor=$14, patch=$15, hash=$16, timestamp=$17, release=$18,
total_uptime_count=nodes.total_uptime_count+1,
uptime_success_count = nodes.uptime_success_count + $10::bool::int,
last_contact_success = CASE WHEN $10::bool IS TRUE
THEN $19::timestamptz
ELSE nodes.last_contact_success
END,
last_contact_failure = CASE WHEN $10::bool IS FALSE
THEN $19::timestamptz
ELSE nodes.last_contact_failure
END;
`
_, err = cache.db.ExecContext(ctx, query,
// args $1 - $5
node.NodeID.Bytes(), node.Address.GetAddress(), node.LastIP, node.Address.GetTransport(), int(pb.NodeType_STORAGE),
// args $6 - $9
node.Operator.GetEmail(), node.Operator.GetWallet(), node.Capacity.GetFreeBandwidth(), node.Capacity.GetFreeDisk(),
// args $10
node.IsUp,
// args $11 - $12
config.AuditReputationAlpha0, config.AuditReputationBeta0,
// args $13 - $18
semVer.Major, semVer.Minor, semVer.Patch, node.Version.GetCommitHash(), node.Version.Timestamp, node.Version.GetRelease(),
// args $19
timestamp,
)
if err != nil {
return Error.Wrap(err)
}
return nil
}