storj/satellite/satellitedb/overlaycache.go
Egon Elbre dc41978743 all: fix golangci failures
Change-Id: I07421388d53c837e35a4727cead26fc21c324d04
2023-08-09 11:44:44 +03:00

1617 lines
49 KiB
Go

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package satellitedb
import (
"context"
"database/sql"
"errors"
"fmt"
"sort"
"strings"
"time"
"github.com/spacemonkeygo/monkit/v3"
"github.com/zeebo/errs"
"go.uber.org/zap"
"storj.io/common/pb"
"storj.io/common/storj"
"storj.io/common/storj/location"
"storj.io/private/dbutil/cockroachutil"
"storj.io/private/dbutil/pgutil"
"storj.io/private/tagsql"
"storj.io/private/version"
"storj.io/storj/satellite/nodeselection"
"storj.io/storj/satellite/overlay"
"storj.io/storj/satellite/satellitedb/dbx"
)
var (
mon = monkit.Package()
)
var _ overlay.DB = (*overlaycache)(nil)
type overlaycache struct {
db *satelliteDB
}
// SelectAllStorageNodesUpload returns all nodes that qualify to store data, organized as reputable nodes and new nodes.
func (cache *overlaycache) SelectAllStorageNodesUpload(ctx context.Context, selectionCfg overlay.NodeSelectionConfig) (reputable, new []*nodeselection.SelectedNode, err error) {
for {
reputable, new, err = cache.selectAllStorageNodesUpload(ctx, selectionCfg)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return reputable, new, err
}
err = cache.addNodeTags(ctx, append(reputable, new...))
if err != nil {
return reputable, new, err
}
break
}
return reputable, new, err
}
func (cache *overlaycache) selectAllStorageNodesUpload(ctx context.Context, selectionCfg overlay.NodeSelectionConfig) (reputable, new []*nodeselection.SelectedNode, err error) {
defer mon.Task()(&ctx)(&err)
query := `
SELECT id, address, last_net, last_ip_port, vetted_at, country_code, noise_proto, noise_public_key, debounce_limit, features, country_code
FROM nodes
` + cache.db.impl.AsOfSystemInterval(selectionCfg.AsOfSystemTime.Interval()) + `
WHERE disqualified IS NULL
AND unknown_audit_suspended IS NULL
AND offline_suspended IS NULL
AND exit_initiated_at IS NULL
AND type = $1
AND free_disk >= $2
AND last_contact_success > $3
`
args := []interface{}{
// $1
int(pb.NodeType_STORAGE),
// $2
selectionCfg.MinimumDiskSpace.Int64(),
// $3
time.Now().Add(-selectionCfg.OnlineWindow),
}
if selectionCfg.MinimumVersion != "" {
version, err := version.NewSemVer(selectionCfg.MinimumVersion)
if err != nil {
return nil, nil, err
}
query += `AND (major > $4 OR (major = $5 AND (minor > $6 OR (minor = $7 AND patch >= $8)))) AND release`
args = append(args,
// $4 - $8
version.Major, version.Major, version.Minor, version.Minor, version.Patch,
)
}
rows, err := cache.db.Query(ctx, query, args...)
if err != nil {
return nil, nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
var reputableNodes []*nodeselection.SelectedNode
var newNodes []*nodeselection.SelectedNode
for rows.Next() {
var node nodeselection.SelectedNode
node.Address = &pb.NodeAddress{}
var lastIPPort sql.NullString
var vettedAt *time.Time
var noise noiseScanner
err = rows.Scan(&node.ID, &node.Address.Address, &node.LastNet, &lastIPPort, &vettedAt, &node.CountryCode, &noise.Proto,
&noise.PublicKey, &node.Address.DebounceLimit, &node.Address.Features, &node.CountryCode)
if err != nil {
return nil, nil, err
}
if lastIPPort.Valid {
node.LastIPPort = lastIPPort.String
}
node.Address.NoiseInfo = noise.Convert()
// node.Exiting and node.Suspended are always false here, as we filter them out unconditionally above.
// By similar logic, all nodes selected here are "online" in terms of the specified selectionCfg
// (specifically, OnlineWindow).
node.Online = true
if vettedAt == nil {
newNodes = append(newNodes, &node)
continue
}
reputableNodes = append(reputableNodes, &node)
}
return reputableNodes, newNodes, Error.Wrap(rows.Err())
}
// SelectAllStorageNodesDownload returns all nodes that qualify to store data, organized as reputable nodes and new nodes.
func (cache *overlaycache) SelectAllStorageNodesDownload(ctx context.Context, onlineWindow time.Duration, asOf overlay.AsOfSystemTimeConfig) (nodes []*nodeselection.SelectedNode, err error) {
for {
nodes, err = cache.selectAllStorageNodesDownload(ctx, onlineWindow, asOf)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return nodes, err
}
err = cache.addNodeTags(ctx, nodes)
if err != nil {
return nodes, err
}
break
}
return nodes, err
}
func (cache *overlaycache) selectAllStorageNodesDownload(ctx context.Context, onlineWindow time.Duration, asOfConfig overlay.AsOfSystemTimeConfig) (_ []*nodeselection.SelectedNode, err error) {
defer mon.Task()(&ctx)(&err)
query := `
SELECT id, address, last_net, last_ip_port, noise_proto, noise_public_key, debounce_limit, features, country_code,
exit_initiated_at IS NOT NULL AS exiting, (unknown_audit_suspended IS NOT NULL OR offline_suspended IS NOT NULL) AS suspended
FROM nodes
` + cache.db.impl.AsOfSystemInterval(asOfConfig.Interval()) + `
WHERE disqualified IS NULL
AND exit_finished_at IS NULL
AND last_contact_success > $1
`
args := []interface{}{
// $1
time.Now().Add(-onlineWindow),
}
rows, err := cache.db.Query(ctx, query, args...)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
var nodes []*nodeselection.SelectedNode
for rows.Next() {
var node nodeselection.SelectedNode
node.Address = &pb.NodeAddress{}
var lastIPPort sql.NullString
var noise noiseScanner
err = rows.Scan(&node.ID, &node.Address.Address, &node.LastNet, &lastIPPort, &noise.Proto,
&noise.PublicKey, &node.Address.DebounceLimit, &node.Address.Features, &node.CountryCode,
&node.Exiting, &node.Suspended)
if err != nil {
return nil, err
}
if lastIPPort.Valid {
node.LastIPPort = lastIPPort.String
}
node.Address.NoiseInfo = noise.Convert()
// we consider all nodes in the download selection cache to be online.
node.Online = true
nodes = append(nodes, &node)
}
return nodes, Error.Wrap(rows.Err())
}
// GetNodesNetwork returns the /24 subnet for each storage node. Order is not guaranteed.
// If a requested node is not in the database, no corresponding last_net will be returned
// for that node.
func (cache *overlaycache) GetNodesNetwork(ctx context.Context, nodeIDs []storj.NodeID) (nodeNets []string, err error) {
query := `
SELECT last_net FROM nodes
WHERE id = any($1::bytea[])
`
for {
nodeNets, err = cache.getNodesNetwork(ctx, nodeIDs, query)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return nodeNets, err
}
break
}
return nodeNets, err
}
// GetNodesNetworkInOrder returns the /24 subnet for each storage node, in order. If a
// requested node is not in the database, an empty string will be returned corresponding
// to that node's last_net.
func (cache *overlaycache) GetNodesNetworkInOrder(ctx context.Context, nodeIDs []storj.NodeID) (nodeNets []string, err error) {
query := `
SELECT coalesce(n.last_net, '')
FROM unnest($1::bytea[]) WITH ORDINALITY AS input(node_id, ord)
LEFT OUTER JOIN nodes n ON input.node_id = n.id
ORDER BY input.ord
`
for {
nodeNets, err = cache.getNodesNetwork(ctx, nodeIDs, query)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return nodeNets, err
}
break
}
return nodeNets, err
}
func (cache *overlaycache) getNodesNetwork(ctx context.Context, nodeIDs []storj.NodeID, query string) (nodeNets []string, err error) {
defer mon.Task()(&ctx)(&err)
var rows tagsql.Rows
rows, err = cache.db.Query(ctx, cache.db.Rebind(query), pgutil.NodeIDArray(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
}
nodeNets = append(nodeNets, ip)
}
return nodeNets, Error.Wrap(rows.Err())
}
// Get looks up the node by nodeID.
func (cache *overlaycache) Get(ctx context.Context, id storj.NodeID) (dossier *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 errors.Is(err, sql.ErrNoRows) {
return nil, overlay.ErrNodeNotFound.New("%v", id)
}
if err != nil {
return nil, err
}
return convertDBNode(ctx, node)
}
// GetOnlineNodesForAuditRepair returns a map of nodes for the supplied nodeIDs.
func (cache *overlaycache) GetOnlineNodesForAuditRepair(ctx context.Context, nodeIDs []storj.NodeID, onlineWindow time.Duration) (nodes map[storj.NodeID]*overlay.NodeReputation, err error) {
for {
nodes, err = cache.getOnlineNodesForAuditRepair(ctx, nodeIDs, onlineWindow)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return nodes, err
}
break
}
return nodes, err
}
func (cache *overlaycache) getOnlineNodesForAuditRepair(ctx context.Context, nodeIDs []storj.NodeID, onlineWindow time.Duration) (_ map[storj.NodeID]*overlay.NodeReputation, err error) {
defer mon.Task()(&ctx)(&err)
var rows tagsql.Rows
rows, err = cache.db.Query(ctx, cache.db.Rebind(`
SELECT last_net, id, address, email, last_ip_port, noise_proto, noise_public_key, debounce_limit, features,
vetted_at, unknown_audit_suspended, offline_suspended
FROM nodes
WHERE id = any($1::bytea[])
AND disqualified IS NULL
AND exit_finished_at IS NULL
AND last_contact_success > $2
`), pgutil.NodeIDArray(nodeIDs), time.Now().Add(-onlineWindow))
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
nodes := make(map[storj.NodeID]*overlay.NodeReputation)
for rows.Next() {
var node overlay.NodeReputation
node.Address = &pb.NodeAddress{}
var lastIPPort sql.NullString
var noise noiseScanner
err = rows.Scan(&node.LastNet, &node.ID, &node.Address.Address, &node.Reputation.Email, &lastIPPort, &noise.Proto, &noise.PublicKey, &node.Address.DebounceLimit, &node.Address.Features, &node.Reputation.VettedAt, &node.Reputation.UnknownAuditSuspended, &node.Reputation.OfflineSuspended)
if err != nil {
return nil, err
}
if lastIPPort.Valid {
node.LastIPPort = lastIPPort.String
}
node.Address.NoiseInfo = noise.Convert()
nodes[node.ID] = &node
}
return nodes, Error.Wrap(rows.Err())
}
// GetOfflineNodesForEmail gets nodes that we want to send an email to. These are non-disqualified, non-exited nodes where
// last_contact_success is between two points: the point where it is considered offline (offlineWindow), and the point where we don't want
// to send more emails (cutoff). It also filters nodes where last_offline_email is too recent (cooldown).
func (cache *overlaycache) GetOfflineNodesForEmail(ctx context.Context, offlineWindow, cutoff, cooldown time.Duration, limit int) (nodes map[storj.NodeID]string, err error) {
defer mon.Task()(&ctx)(&err)
now := time.Now()
nodes = make(map[storj.NodeID]string)
rows, err := cache.db.QueryContext(ctx, `
SELECT id, email
FROM nodes
WHERE last_contact_success < $1
AND last_contact_success > $2
AND (last_offline_email IS NULL OR last_offline_email < $3)
AND email != ''
AND disqualified is NULL
AND exit_finished_at is NULL
LIMIT $4
`, now.Add(-offlineWindow), now.Add(-cutoff), now.Add(-cooldown), limit)
if err != nil {
return nil, Error.Wrap(err)
}
defer func() { err = errs.Combine(err, rows.Close()) }()
var idBytes []byte
var email string
var nodeID storj.NodeID
for rows.Next() {
err = rows.Scan(&idBytes, &email)
nodeID, err = storj.NodeIDFromBytes(idBytes)
if err != nil {
return nil, Error.Wrap(err)
}
nodes[nodeID] = email
}
return nodes, Error.Wrap(rows.Err())
}
// UpdateLastOfflineEmail updates last_offline_email for a list of nodes.
func (cache *overlaycache) UpdateLastOfflineEmail(ctx context.Context, nodeIDs storj.NodeIDList, timestamp time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
_, err = cache.db.ExecContext(ctx, `
UPDATE nodes
SET last_offline_email = $1
WHERE id = any($2::bytea[])
`, timestamp, pgutil.NodeIDArray(nodeIDs))
return err
}
// KnownReliable filters a set of nodes to reliable nodes. List is split into online and offline nodes.
func (cache *overlaycache) KnownReliable(ctx context.Context, nodeIDs storj.NodeIDList, onlineWindow, asOfSystemInterval time.Duration) (online []nodeselection.SelectedNode, offline []nodeselection.SelectedNode, err error) {
for {
online, offline, err = cache.knownReliable(ctx, nodeIDs, onlineWindow, asOfSystemInterval)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return nil, nil, err
}
break
}
return online, offline, err
}
func (cache *overlaycache) knownReliable(ctx context.Context, nodeIDs storj.NodeIDList, onlineWindow, asOfSystemInterval time.Duration) (online []nodeselection.SelectedNode, offline []nodeselection.SelectedNode, err error) {
defer mon.Task()(&ctx)(&err)
if len(nodeIDs) == 0 {
return nil, nil, Error.New("no ids provided")
}
err = withRows(cache.db.Query(ctx, `
SELECT id, address, last_net, last_ip_port, country_code, last_contact_success > $2 as online, exit_initiated_at IS NOT NULL as exiting
FROM nodes
`+cache.db.impl.AsOfSystemInterval(asOfSystemInterval)+`
WHERE id = any($1::bytea[])
AND disqualified IS NULL
AND unknown_audit_suspended IS NULL
AND offline_suspended IS NULL
AND exit_finished_at IS NULL
`, pgutil.NodeIDArray(nodeIDs), time.Now().Add(-onlineWindow),
))(func(rows tagsql.Rows) error {
for rows.Next() {
node, err := scanSelectedNode(rows)
if err != nil {
return err
}
if node.Online {
online = append(online, node)
} else {
offline = append(offline, node)
}
}
return nil
})
return online, offline, Error.Wrap(err)
}
// Reliable returns all nodes that are reliable, online and offline.
func (cache *overlaycache) Reliable(ctx context.Context, onlineWindow, asOfSystemInterval time.Duration) (online []nodeselection.SelectedNode, offline []nodeselection.SelectedNode, err error) {
for {
online, offline, err = cache.reliable(ctx, onlineWindow, asOfSystemInterval)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return nil, nil, err
}
break
}
return online, offline, nil
}
func (cache *overlaycache) reliable(ctx context.Context, onlineWindow, asOfSystemInterval time.Duration) (online []nodeselection.SelectedNode, offline []nodeselection.SelectedNode, err error) {
defer mon.Task()(&ctx)(&err)
err = withRows(cache.db.Query(ctx, `
SELECT id, address, last_net, last_ip_port, country_code, last_contact_success > $1 as online, exit_initiated_at IS NOT NULL as exiting
FROM nodes
`+cache.db.impl.AsOfSystemInterval(asOfSystemInterval)+`
WHERE disqualified IS NULL
AND unknown_audit_suspended IS NULL
AND offline_suspended IS NULL
AND exit_finished_at IS NULL
`, time.Now().Add(-onlineWindow),
))(func(rows tagsql.Rows) error {
for rows.Next() {
node, err := scanSelectedNode(rows)
if err != nil {
return err
}
if node.Online {
online = append(online, node)
} else {
offline = append(offline, node)
}
}
return nil
})
return online, offline, Error.Wrap(err)
}
func scanSelectedNode(rows tagsql.Rows) (nodeselection.SelectedNode, error) {
var node nodeselection.SelectedNode
node.Address = &pb.NodeAddress{}
var lastIPPort sql.NullString
err := rows.Scan(&node.ID, &node.Address.Address, &node.LastNet, &lastIPPort, &node.CountryCode, &node.Online, &node.Exiting)
if err != nil {
return nodeselection.SelectedNode{}, err
}
if lastIPPort.Valid {
node.LastIPPort = lastIPPort.String
}
// node.Suspended is always false for now, but that will change in a coming
// commit; we need to include suspended nodes in return values from
// Reliable() and KnownReliable() (in case they are in excluded countries,
// are out of placement, are on clumped IP networks, etc).
return node, nil
}
// UpdateReputation updates the DB columns for any of the reputation fields in ReputationUpdate.
func (cache *overlaycache) UpdateReputation(ctx context.Context, id storj.NodeID, request overlay.ReputationUpdate) (err error) {
defer mon.Task()(&ctx)(&err)
updateFields := dbx.Node_Update_Fields{}
updateFields.UnknownAuditSuspended = dbx.Node_UnknownAuditSuspended_Raw(request.UnknownAuditSuspended)
updateFields.OfflineSuspended = dbx.Node_OfflineSuspended_Raw(request.OfflineSuspended)
updateFields.VettedAt = dbx.Node_VettedAt_Raw(request.VettedAt)
updateFields.Disqualified = dbx.Node_Disqualified_Raw(request.Disqualified)
if request.Disqualified != nil {
updateFields.DisqualificationReason = dbx.Node_DisqualificationReason(int(request.DisqualificationReason))
}
err = cache.db.UpdateNoReturn_Node_By_Id_And_Disqualified_Is_Null_And_ExitFinishedAt_Is_Null(ctx, dbx.Node_Id(id.Bytes()), updateFields)
return Error.Wrap(err)
}
// UpdateNodeInfo updates the following fields for a given node ID:
// wallet, email for node operator, free disk, and version.
func (cache *overlaycache) UpdateNodeInfo(ctx context.Context, nodeID storj.NodeID, nodeInfo *overlay.InfoResponse) (stats *overlay.NodeDossier, err error) {
defer mon.Task()(&ctx)(&err)
var updateFields dbx.Node_Update_Fields
if nodeInfo != nil {
if nodeInfo.Type != pb.NodeType_INVALID {
updateFields.Type = dbx.Node_Type(int(nodeInfo.Type))
}
if nodeInfo.Operator != nil {
walletFeatures, err := encodeWalletFeatures(nodeInfo.Operator.GetWalletFeatures())
if err != nil {
return nil, Error.Wrap(err)
}
updateFields.Wallet = dbx.Node_Wallet(nodeInfo.Operator.GetWallet())
updateFields.Email = dbx.Node_Email(nodeInfo.Operator.GetEmail())
updateFields.WalletFeatures = dbx.Node_WalletFeatures(walletFeatures)
}
if nodeInfo.Capacity != nil {
updateFields.FreeDisk = dbx.Node_FreeDisk(nodeInfo.Capacity.GetFreeDisk())
}
if nodeInfo.Version != nil {
semVer, err := version.NewSemVer(nodeInfo.Version.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.Version.GetCommitHash())
updateFields.Timestamp = dbx.Node_Timestamp(nodeInfo.Version.Timestamp)
updateFields.Release = dbx.Node_Release(nodeInfo.Version.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)
}
// DisqualifyNode disqualifies a storage node.
func (cache *overlaycache) DisqualifyNode(ctx context.Context, nodeID storj.NodeID, disqualifiedAt time.Time, reason overlay.DisqualificationReason) (email string, err error) {
defer mon.Task()(&ctx)(&err)
updateFields := dbx.Node_Update_Fields{}
updateFields.Disqualified = dbx.Node_Disqualified(disqualifiedAt.UTC())
updateFields.DisqualificationReason = dbx.Node_DisqualificationReason(int(reason))
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 dbNode.Email, nil
}
// TestSuspendNodeUnknownAudit suspends a storage node for unknown audits.
func (cache *overlaycache) TestSuspendNodeUnknownAudit(ctx context.Context, nodeID storj.NodeID, suspendedAt time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
updateFields := dbx.Node_Update_Fields{}
updateFields.UnknownAuditSuspended = dbx.Node_UnknownAuditSuspended(suspendedAt.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
}
// TestUnsuspendNodeUnknownAudit unsuspends a storage node for unknown audits.
func (cache *overlaycache) TestUnsuspendNodeUnknownAudit(ctx context.Context, nodeID storj.NodeID) (err error) {
defer mon.Task()(&ctx)(&err)
updateFields := dbx.Node_Update_Fields{}
updateFields.UnknownAuditSuspended = dbx.Node_UnknownAuditSuspended_Null()
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]int64, 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]int64)
nodeIDErrs := errs.Group{}
for _, row := range rows {
nodeID, err := storj.NodeIDFromBytes(row.Id)
if err != nil {
nodeIDErrs.Add(err)
continue
}
pieceCounts[nodeID] = row.PieceCount
}
return pieceCounts, nodeIDErrs.Err()
}
func (cache *overlaycache) UpdatePieceCounts(ctx context.Context, pieceCounts map[storj.NodeID]int64) (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: 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
`, pgutil.NodeIDArray(nodeIDs), pgutil.Int8Array(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) {
for {
exitingNodes, err = cache.getExitingNodes(ctx)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return exitingNodes, err
}
break
}
return exitingNodes, err
}
func (cache *overlaycache) getExitingNodes(ctx context.Context) (exitingNodes []*overlay.ExitStatus, err error) {
defer mon.Task()(&ctx)(&err)
rows, err := cache.db.Query(ctx, 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, Error.Wrap(rows.Err())
}
// GetExitStatus returns a node's graceful exit status.
func (cache *overlaycache) GetExitStatus(ctx context.Context, nodeID storj.NodeID) (exitStatus *overlay.ExitStatus, err error) {
for {
exitStatus, err = cache.getExitStatus(ctx, nodeID)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return exitStatus, err
}
break
}
return exitStatus, err
}
func (cache *overlaycache) getExitStatus(ctx context.Context, nodeID storj.NodeID) (_ *overlay.ExitStatus, err error) {
defer mon.Task()(&ctx)(&err)
rows, err := cache.db.Query(ctx, 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)
if err != nil {
return nil, err
}
}
return exitStatus, Error.Wrap(rows.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) {
for {
exitedNodes, err = cache.getGracefulExitCompletedByTimeFrame(ctx, begin, end)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return exitedNodes, err
}
break
}
return exitedNodes, err
}
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(ctx, 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, Error.Wrap(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) {
for {
exitingNodes, err = cache.getGracefulExitIncompleteByTimeFrame(ctx, begin, end)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return exitingNodes, err
}
break
}
return exitingNodes, err
}
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(ctx, 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, Error.Wrap(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)
}
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
}
func convertDBNode(ctx context.Context, info *dbx.Node) (_ *overlay.NodeDossier, err error) {
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
}
var noiseInfo *pb.NoiseInfo
if info.NoiseProto != nil && len(info.NoisePublicKey) > 0 {
noiseInfo = &pb.NoiseInfo{
Proto: pb.NoiseProtocol(*info.NoiseProto),
PublicKey: info.NoisePublicKey,
}
}
exitStatus := overlay.ExitStatus{NodeID: id}
exitStatus.ExitInitiatedAt = info.ExitInitiatedAt
exitStatus.ExitLoopCompletedAt = info.ExitLoopCompletedAt
exitStatus.ExitFinishedAt = info.ExitFinishedAt
exitStatus.ExitSuccess = info.ExitSuccess
node := &overlay.NodeDossier{
Node: pb.Node{
Id: id,
Address: &pb.NodeAddress{
Address: info.Address,
NoiseInfo: noiseInfo,
DebounceLimit: int32(info.DebounceLimit),
Features: uint64(info.Features),
},
},
Type: pb.NodeType(info.Type),
Operator: pb.NodeOperator{
Email: info.Email,
Wallet: info.Wallet,
WalletFeatures: decodeWalletFeatures(info.WalletFeatures),
},
Capacity: pb.NodeCapacity{
FreeDisk: info.FreeDisk,
},
Reputation: *getNodeStats(info),
Version: pb.NodeVersion{
Version: ver.String(),
CommitHash: info.Hash,
Timestamp: info.Timestamp,
Release: info.Release,
},
Disqualified: info.Disqualified,
DisqualificationReason: (*overlay.DisqualificationReason)(info.DisqualificationReason),
UnknownAuditSuspended: info.UnknownAuditSuspended,
OfflineSuspended: info.OfflineSuspended,
OfflineUnderReview: info.UnderReview,
PieceCount: info.PieceCount,
ExitStatus: exitStatus,
CreatedAt: info.CreatedAt,
LastNet: info.LastNet,
LastOfflineEmail: info.LastOfflineEmail,
LastSoftwareUpdateEmail: info.LastSoftwareUpdateEmail,
}
if info.LastIpPort != nil {
node.LastIPPort = *info.LastIpPort
}
if info.CountryCode != nil {
node.CountryCode = location.ToCountryCode(*info.CountryCode)
}
if info.Contained != nil {
node.Contained = true
}
return node, nil
}
// encodeWalletFeatures encodes wallet features into comma separated list string.
func encodeWalletFeatures(features []string) (string, error) {
var errGroup errs.Group
for _, feature := range features {
if strings.Contains(feature, ",") {
errGroup.Add(errs.New("error encoding %s, can not contain separator \",\"", feature))
}
}
if err := errGroup.Err(); err != nil {
return "", Error.Wrap(err)
}
return strings.Join(features, ","), nil
}
// decodeWalletFeatures decodes comma separated wallet features list string.
func decodeWalletFeatures(encoded string) []string {
if encoded == "" {
return nil
}
return strings.Split(encoded, ",")
}
func getNodeStats(dbNode *dbx.Node) *overlay.NodeStats {
nodeStats := &overlay.NodeStats{
Latency90: dbNode.Latency90,
LastContactSuccess: dbNode.LastContactSuccess,
LastContactFailure: dbNode.LastContactFailure,
OfflineUnderReview: dbNode.UnderReview,
Status: overlay.ReputationStatus{
Email: dbNode.Email,
VettedAt: dbNode.VettedAt,
Disqualified: dbNode.Disqualified,
UnknownAuditSuspended: dbNode.UnknownAuditSuspended,
OfflineSuspended: dbNode.OfflineSuspended,
},
}
return nodeStats
}
// DQNodesLastSeenBefore disqualifies a limited number of nodes where last_contact_success < cutoff except those already disqualified
// or gracefully exited or where last_contact_success = '0001-01-01 00:00:00+00'.
func (cache *overlaycache) DQNodesLastSeenBefore(ctx context.Context, cutoff time.Time, limit int) (nodeEmails map[storj.NodeID]string, count int, err error) {
defer mon.Task()(&ctx)(&err)
var nodeIDs []storj.NodeID
nodeEmails = make(map[storj.NodeID]string)
for {
nodeIDs, err = cache.getNodesForDQLastSeenBefore(ctx, cutoff, limit)
if err != nil {
if cockroachutil.NeedsRetry(err) {
continue
}
return nil, 0, err
}
if len(nodeIDs) == 0 {
return nil, 0, nil
}
break
}
var rows tagsql.Rows
rows, err = cache.db.Query(ctx, cache.db.Rebind(`
UPDATE nodes
SET disqualified = current_timestamp,
disqualification_reason = $3
WHERE id = any($1::bytea[])
AND disqualified IS NULL
AND exit_finished_at IS NULL
AND last_contact_success < $2
AND last_contact_success != '0001-01-01 00:00:00+00'::timestamptz
RETURNING id, email, last_contact_success;
`), pgutil.NodeIDArray(nodeIDs), cutoff, overlay.DisqualificationReasonNodeOffline)
if err != nil {
return nil, 0, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
for rows.Next() {
var id storj.NodeID
var email string
var lcs time.Time
err = rows.Scan(&id, &email, &lcs)
if err != nil {
return nil, count, err
}
cache.db.log.Info("Disqualified",
zap.String("DQ type", "stray node"),
zap.Stringer("Node ID", id),
zap.Stringer("Last contacted", lcs))
nodeEmails[id] = email
count++
}
return nodeEmails, count, rows.Err()
}
func (cache *overlaycache) getNodesForDQLastSeenBefore(ctx context.Context, cutoff time.Time, limit int) (nodes []storj.NodeID, err error) {
defer mon.Task()(&ctx)(&err)
rows, err := cache.db.Query(ctx, cache.db.Rebind(`
SELECT id
FROM nodes
WHERE last_contact_success < $1
AND disqualified is NULL
AND exit_finished_at is NULL
AND last_contact_success != '0001-01-01 00:00:00+00'::timestamptz
LIMIT $2
`), cutoff, limit)
if err != nil {
return nil, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
var nodeIDs []storj.NodeID
for rows.Next() {
var id storj.NodeID
err = rows.Scan(&id)
if err != nil {
return nil, err
}
nodeIDs = append(nodeIDs, id)
}
return nodeIDs, rows.Err()
}
func (cache *overlaycache) updateCheckInDirectUpdate(ctx context.Context, node overlay.NodeCheckInInfo, timestamp time.Time, semVer version.SemVer, walletFeatures string) (updated bool, err error) {
var noiseProto sql.NullInt32
var noisePublicKey []byte
if node.Address.NoiseInfo != nil {
noiseProto = sql.NullInt32{
Int32: int32(node.Address.NoiseInfo.Proto),
Valid: true,
}
noisePublicKey = node.Address.NoiseInfo.PublicKey
}
// First try the fast path.
var res sql.Result
res, err = cache.db.ExecContext(ctx, `
UPDATE nodes
SET
address=$2,
last_net=$3,
protocol=$4,
email=$5,
wallet=$6,
free_disk=$7,
major=$9, minor=$10, patch=$11, hash=$12, timestamp=$13, release=$14,
last_contact_success = CASE WHEN $8::bool IS TRUE
THEN $15::timestamptz
ELSE nodes.last_contact_success
END,
last_contact_failure = CASE WHEN $8::bool IS FALSE
THEN $15::timestamptz
ELSE nodes.last_contact_failure
END,
last_ip_port=$16,
wallet_features=$17,
country_code=$18,
noise_proto=$21,
noise_public_key=$22,
debounce_limit=$23,
features=$24,
last_software_update_email = CASE
WHEN $19::bool IS TRUE THEN $15::timestamptz
WHEN $20::bool IS FALSE THEN NULL
ELSE nodes.last_software_update_email
END,
last_offline_email = CASE WHEN $8::bool IS TRUE
THEN NULL
ELSE nodes.last_offline_email
END
WHERE id = $1
`, // args $1 - $4
node.NodeID.Bytes(), node.Address.GetAddress(), node.LastNet, pb.NodeTransport_TCP_TLS_RPC,
// args $5 - $7
node.Operator.GetEmail(), node.Operator.GetWallet(), node.Capacity.GetFreeDisk(),
// args $8
node.IsUp,
// args $9 - $14
semVer.Major, semVer.Minor, semVer.Patch, node.Version.GetCommitHash(), node.Version.Timestamp, node.Version.GetRelease(),
// args $15
timestamp,
// args $16
node.LastIPPort,
// args $17,
walletFeatures,
// args $18,
node.CountryCode.String(),
// args $19 - $20
node.SoftwareUpdateEmailSent, node.VersionBelowMin,
// args $21 - $24
noiseProto, noisePublicKey, node.Address.DebounceLimit, node.Address.Features,
)
if err != nil {
return false, Error.Wrap(err)
}
affected, affectedErr := res.RowsAffected()
if affectedErr != nil {
return false, Error.Wrap(err)
}
return affected > 0, nil
}
// 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")
}
walletFeatures, err := encodeWalletFeatures(node.Operator.GetWalletFeatures())
if err != nil {
return Error.Wrap(err)
}
updated, err := cache.updateCheckInDirectUpdate(ctx, node, timestamp, semVer, walletFeatures)
if err != nil {
return Error.Wrap(err)
}
if updated {
return nil
}
var noiseProto sql.NullInt32
var noisePublicKey []byte
if node.Address.NoiseInfo != nil {
noiseProto = sql.NullInt32{
Int32: int32(node.Address.NoiseInfo.Proto),
Valid: true,
}
noisePublicKey = node.Address.NoiseInfo.PublicKey
}
_, err = cache.db.ExecContext(ctx, `
INSERT INTO nodes
(
id, address, last_net, protocol, type,
email, wallet, free_disk,
last_contact_success,
last_contact_failure,
major, minor, patch, hash, timestamp, release,
last_ip_port, wallet_features, country_code,
noise_proto, noise_public_key, debounce_limit,
features
)
VALUES (
$1, $2, $3, $4, $5,
$6, $7, $8,
CASE WHEN $9::bool IS TRUE THEN $16::timestamptz
ELSE '0001-01-01 00:00:00+00'::timestamptz
END,
CASE WHEN $9::bool IS FALSE THEN $16::timestamptz
ELSE '0001-01-01 00:00:00+00'::timestamptz
END,
$10, $11, $12, $13, $14, $15,
$17, $18, $19,
$22, $23, $24,
$25
)
ON CONFLICT (id)
DO UPDATE
SET
address=$2,
last_net=$3,
protocol=$4,
email=$6,
wallet=$7,
free_disk=$8,
major=$10, minor=$11, patch=$12, hash=$13, timestamp=$14, release=$15,
last_contact_success = CASE WHEN $9::bool IS TRUE
THEN $16::timestamptz
ELSE nodes.last_contact_success
END,
last_contact_failure = CASE WHEN $9::bool IS FALSE
THEN $16::timestamptz
ELSE nodes.last_contact_failure
END,
last_ip_port=$17,
wallet_features=$18,
country_code=$19,
noise_proto=$22,
noise_public_key=$23,
debounce_limit=$24,
features=$25,
last_software_update_email = CASE
WHEN $20::bool IS TRUE THEN $16::timestamptz
WHEN $21::bool IS FALSE THEN NULL
ELSE nodes.last_software_update_email
END,
last_offline_email = CASE WHEN $9::bool IS TRUE
THEN NULL
ELSE nodes.last_offline_email
END;
`,
// args $1 - $5
node.NodeID.Bytes(), node.Address.GetAddress(), node.LastNet, pb.NodeTransport_TCP_TLS_RPC, int(pb.NodeType_STORAGE),
// args $6 - $8
node.Operator.GetEmail(), node.Operator.GetWallet(), node.Capacity.GetFreeDisk(),
// args $9
node.IsUp,
// args $10 - $15
semVer.Major, semVer.Minor, semVer.Patch, node.Version.GetCommitHash(), node.Version.Timestamp, node.Version.GetRelease(),
// args $16
timestamp,
// args $17 - $19
node.LastIPPort, walletFeatures, node.CountryCode.String(),
// args $20 - $21
node.SoftwareUpdateEmailSent, node.VersionBelowMin,
// args $22 - $25
noiseProto, noisePublicKey, node.Address.DebounceLimit, node.Address.Features,
)
if err != nil {
return Error.Wrap(err)
}
return nil
}
// SetNodeContained updates the contained field for the node record. If
// `contained` is true, the contained field in the record is set to the current
// database time, if it is not already set. If `contained` is false, the
// contained field in the record is set to NULL. All other fields are left
// alone.
func (cache *overlaycache) SetNodeContained(ctx context.Context, nodeID storj.NodeID, contained bool) (err error) {
defer mon.Task()(&ctx)(&err)
var query string
if contained {
// only update the timestamp if it's not already set
query = `
UPDATE nodes SET contained = current_timestamp
WHERE id = $1 AND contained IS NULL
`
} else {
query = `
UPDATE nodes SET contained = NULL
WHERE id = $1
`
}
_, err = cache.db.DB.ExecContext(ctx, query, nodeID[:])
return Error.Wrap(err)
}
// SetAllContainedNodes updates the contained field for all nodes, as necessary.
// containedNodes is expected to be a set of all nodes that should be contained.
// All nodes which are in this set but do not already have a non-NULL contained
// field will be updated to be contained as of the current time, and all nodes
// which are not in this set but are contained in the table will be updated to
// have a NULL contained field.
func (cache *overlaycache) SetAllContainedNodes(ctx context.Context, containedNodes []storj.NodeID) (err error) {
defer mon.Task()(&ctx)(&err)
updateQuery := `
WITH should_be AS (
SELECT nodes.id, EXISTS (SELECT 1 FROM unnest($1::BYTEA[]) sb(i) WHERE sb.i = id) AS contained
FROM nodes
)
UPDATE nodes n SET contained =
CASE WHEN should_be.contained
THEN current_timestamp
ELSE NULL
END
FROM should_be
WHERE n.id = should_be.id
AND (n.contained IS NOT NULL) != should_be.contained
`
_, err = cache.db.DB.ExecContext(ctx, updateQuery, pgutil.NodeIDArray(containedNodes))
return Error.Wrap(err)
}
var (
// ErrVetting is the error class for the following test methods.
ErrVetting = errs.Class("vetting")
)
// TestVetNode directly sets a node's vetted_at timestamp to make testing easier.
func (cache *overlaycache) TestVetNode(ctx context.Context, nodeID storj.NodeID) (vettedTime *time.Time, err error) {
updateFields := dbx.Node_Update_Fields{
VettedAt: dbx.Node_VettedAt(time.Now().UTC()),
}
node, err := cache.db.Update_Node_By_Id(ctx, dbx.Node_Id(nodeID.Bytes()), updateFields)
if err != nil {
return nil, err
}
return node.VettedAt, nil
}
// TestUnvetNode directly sets a node's vetted_at timestamp to null to make testing easier.
func (cache *overlaycache) TestUnvetNode(ctx context.Context, nodeID storj.NodeID) (err error) {
_, err = cache.db.Exec(ctx, `UPDATE nodes SET vetted_at = NULL WHERE nodes.id = $1;`, nodeID)
if err != nil {
return err
}
_, err = cache.Get(ctx, nodeID)
return err
}
// TestSuspendNodeOffline suspends a storage node for offline.
func (cache *overlaycache) TestSuspendNodeOffline(ctx context.Context, nodeID storj.NodeID, suspendedAt time.Time) (err error) {
defer mon.Task()(&ctx)(&err)
updateFields := dbx.Node_Update_Fields{}
updateFields.OfflineSuspended = dbx.Node_OfflineSuspended(suspendedAt.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
}
// TestNodeCountryCode sets node country code.
func (cache *overlaycache) TestNodeCountryCode(ctx context.Context, nodeID storj.NodeID, countryCode string) (err error) {
defer mon.Task()(&ctx)(&err)
updateFields := dbx.Node_Update_Fields{}
updateFields.CountryCode = dbx.Node_CountryCode(countryCode)
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 set node country code: %v", nodeID)
}
return nil
}
// IterateAllContactedNodes will call cb on all known nodes (used in restore trash contexts).
//
// Note that this may include disqualified nodes!
func (cache *overlaycache) IterateAllContactedNodes(ctx context.Context, cb func(context.Context, *nodeselection.SelectedNode) error) (err error) {
defer mon.Task()(&ctx)(&err)
var rows tagsql.Rows
// 2018-04-06 is the date of the first storj v3 commit.
rows, err = cache.db.Query(ctx, cache.db.Rebind(`
SELECT last_net, id, address, last_ip_port, noise_proto, noise_public_key, debounce_limit, features, country_code,
exit_initiated_at IS NOT NULL AS exiting, (unknown_audit_suspended IS NOT NULL OR offline_suspended IS NOT NULL) AS suspended
FROM nodes
WHERE last_contact_success >= timestamp '2018-04-06'
`))
if err != nil {
return Error.Wrap(err)
}
defer func() { err = errs.Combine(err, rows.Close()) }()
for rows.Next() {
var node nodeselection.SelectedNode
node.Address = &pb.NodeAddress{}
var lastIPPort sql.NullString
var noise noiseScanner
err = rows.Scan(&node.LastNet, &node.ID, &node.Address.Address, &lastIPPort, &noise.Proto, &noise.PublicKey, &node.Address.DebounceLimit, &node.Address.Features, &node.CountryCode, &node.Exiting, &node.Suspended)
if err != nil {
return Error.Wrap(err)
}
if lastIPPort.Valid {
node.LastIPPort = lastIPPort.String
}
node.Address.NoiseInfo = noise.Convert()
err = cb(ctx, &node)
if err != nil {
return err
}
}
return rows.Err()
}
// IterateAllNodeDossiers will call cb on all known nodes (used for invoice generation).
func (cache *overlaycache) IterateAllNodeDossiers(ctx context.Context, cb func(context.Context, *overlay.NodeDossier) error) (err error) {
defer mon.Task()(&ctx)(&err)
const nodesPerPage = 1000
var cont *dbx.Paged_Node_Continuation
var dbxNodes []*dbx.Node
for {
dbxNodes, cont, err = cache.db.Paged_Node(ctx, nodesPerPage, cont)
if err != nil {
return err
}
for _, node := range dbxNodes {
dossier, err := convertDBNode(ctx, node)
if err != nil {
return err
}
if err := cb(ctx, dossier); err != nil {
return err
}
}
if cont == nil {
return nil
}
}
}
func (cache *overlaycache) TestUpdateCheckInDirectUpdate(ctx context.Context, node overlay.NodeCheckInInfo, timestamp time.Time, semVer version.SemVer, walletFeatures string) (updated bool, err error) {
return cache.updateCheckInDirectUpdate(ctx, node, timestamp, semVer, walletFeatures)
}
type noiseScanner struct {
Proto sql.NullInt32
PublicKey []byte
}
func (n *noiseScanner) Convert() *pb.NoiseInfo {
if !n.Proto.Valid || len(n.PublicKey) == 0 {
return nil
}
return &pb.NoiseInfo{
Proto: pb.NoiseProtocol(n.Proto.Int32),
PublicKey: n.PublicKey,
}
}
// OneTimeFixLastNets updates the last_net values for all node records to be equal to their
// last_ip_port values.
//
// This is only appropriate to do when the satellite has DistinctIP=false, the satelliteDB is
// running on PostgreSQL (not CockroachDB), and has been upgraded from before changeset
// I0e7e92498c3da768df5b4d5fb213dcd2d4862924. These are not common circumstances, but they do
// exist. It is only necessary to run this once. When all satellite peer processes are upgraded,
// the function and trigger can be dropped if desired.
func (cache *overlaycache) OneTimeFixLastNets(ctx context.Context) error {
_, err := cache.db.ExecContext(ctx, `
CREATE OR REPLACE FUNCTION fix_last_nets()
RETURNS TRIGGER
LANGUAGE plpgsql AS $$
BEGIN
NEW.last_net = NEW.last_ip_port;
RETURN NEW;
END
$$;
CREATE TRIGGER nodes_fix_last_nets
BEFORE INSERT OR UPDATE ON nodes
FOR EACH ROW
EXECUTE PROCEDURE fix_last_nets();
`)
if err != nil {
return Error.Wrap(err)
}
_, err = cache.db.ExecContext(ctx, "UPDATE nodes SET last_net = last_ip_port")
return Error.Wrap(err)
}
func (cache *overlaycache) UpdateNodeTags(ctx context.Context, tags nodeselection.NodeTags) error {
for _, t := range tags {
err := cache.db.ReplaceNoReturn_NodeTags(ctx,
dbx.NodeTags_NodeId(t.NodeID.Bytes()),
dbx.NodeTags_Name(t.Name),
dbx.NodeTags_Value(t.Value),
dbx.NodeTags_SignedAt(t.SignedAt),
dbx.NodeTags_Signer(t.Signer.Bytes()),
)
if err != nil {
return Error.Wrap(err)
}
}
return nil
}
func (cache *overlaycache) GetNodeTags(ctx context.Context, id storj.NodeID) (nodeselection.NodeTags, error) {
rows, err := cache.db.All_NodeTags_By_NodeId(ctx, dbx.NodeTags_NodeId(id.Bytes()))
if err != nil {
return nil, Error.Wrap(err)
}
var tags nodeselection.NodeTags
for _, row := range rows {
nodeIDBytes, err := storj.NodeIDFromBytes(row.NodeId)
if err != nil {
return tags, Error.Wrap(errs.New("Invalid nodeID in the database: %x", row.NodeId))
}
signerIDBytes, err := storj.NodeIDFromBytes(row.Signer)
if err != nil {
return tags, Error.Wrap(errs.New("Invalid nodeID in the database: %x", row.NodeId))
}
tags = append(tags, nodeselection.NodeTag{
NodeID: nodeIDBytes,
Name: row.Name,
Value: row.Value,
SignedAt: row.SignedAt,
Signer: signerIDBytes,
})
}
return tags, err
}
func (cache *overlaycache) addNodeTags(ctx context.Context, nodes []*nodeselection.SelectedNode) error {
rows, err := cache.db.All_NodeTags(ctx)
if err != nil {
return Error.Wrap(err)
}
tagsByNode := map[storj.NodeID]nodeselection.NodeTags{}
for _, row := range rows {
nodeID, err := storj.NodeIDFromBytes(row.NodeId)
if err != nil {
return Error.New("Invalid nodeID in the database: %x", row.NodeId)
}
signerID, err := storj.NodeIDFromBytes(row.Signer)
if err != nil {
return Error.New("Invalid nodeID in the database: %x", row.NodeId)
}
tagsByNode[nodeID] = append(tagsByNode[nodeID], nodeselection.NodeTag{
NodeID: nodeID,
Name: row.Name,
Value: row.Value,
SignedAt: row.SignedAt,
Signer: signerID,
})
}
for _, node := range nodes {
node.Tags = tagsByNode[node.ID]
}
return nil
}