storj/satellite/overlay/selection_test.go
Michal Niewrzal 1aa24b9f0d satellite/audit: remove segments loop parts
We are switching completely to ranged loop.

https://github.com/storj/storj/issues/5368

Change-Id: I9cec0ac454f40f19d52c078a8b1870c4d192bd7a
2023-04-24 15:52:11 +00:00

791 lines
26 KiB
Go

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package overlay_test
import (
"crypto/tls"
"crypto/x509"
"fmt"
"net"
"runtime"
"strings"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/zeebo/errs"
"go.uber.org/zap"
"storj.io/common/memory"
"storj.io/common/pb"
"storj.io/common/rpc/rpcpeer"
"storj.io/common/storj"
"storj.io/common/testcontext"
"storj.io/storj/private/testplanet"
"storj.io/storj/satellite"
"storj.io/storj/satellite/overlay"
"storj.io/storj/satellite/reputation"
)
func TestMinimumDiskSpace(t *testing.T) {
if runtime.GOOS == "darwin" {
t.Skip("Test does not work with macOS")
}
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 2, UplinkCount: 0,
Reconfigure: testplanet.Reconfigure{
UniqueIPCount: 2,
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Overlay.Node.MinimumDiskSpace = 10 * memory.MB
config.Overlay.NodeSelectionCache.Staleness = lowStaleness
config.Overlay.NodeCheckInWaitPeriod = 0
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
saOverlay := planet.Satellites[0].Overlay
nodeConfig := planet.Satellites[0].Config.Overlay.Node
node0 := planet.StorageNodes[0]
node0.Contact.Chore.Pause(ctx)
nodeInfo := node0.Contact.Service.Local()
ident := node0.Identity
peer := rpcpeer.Peer{
Addr: &net.TCPAddr{
IP: net.ParseIP(nodeInfo.Address),
Port: 5,
},
State: tls.ConnectionState{
PeerCertificates: []*x509.Certificate{ident.Leaf, ident.CA},
},
}
peerCtx := rpcpeer.NewContext(ctx, &peer)
// report disk space less than minimum
_, err := planet.Satellites[0].Contact.Endpoint.CheckIn(peerCtx, &pb.CheckInRequest{
Address: nodeInfo.Address,
Version: &nodeInfo.Version,
Capacity: &pb.NodeCapacity{
FreeDisk: 9 * memory.MB.Int64(),
},
Operator: &nodeInfo.Operator,
})
require.NoError(t, err)
req := overlay.FindStorageNodesRequest{
RequestedCount: 2,
}
// request 2 nodes, expect failure from not enough nodes
n1, err := saOverlay.Service.FindStorageNodesForUpload(ctx, req)
require.Error(t, err)
require.True(t, overlay.ErrNotEnoughNodes.Has(err))
n2, err := saOverlay.Service.UploadSelectionCache.GetNodes(ctx, req)
require.Error(t, err)
require.True(t, overlay.ErrNotEnoughNodes.Has(err))
require.Equal(t, len(n2), len(n1))
n3, err := saOverlay.Service.FindStorageNodesWithPreferences(ctx, req, &nodeConfig)
require.Error(t, err)
require.Equal(t, len(n3), len(n1))
// report disk space greater than minimum
_, err = planet.Satellites[0].Contact.Endpoint.CheckIn(peerCtx, &pb.CheckInRequest{
Address: nodeInfo.Address,
Version: &nodeInfo.Version,
Capacity: &pb.NodeCapacity{
FreeDisk: 11 * memory.MB.Int64(),
},
Operator: &nodeInfo.Operator,
})
require.NoError(t, err)
// request 2 nodes, expect success
n1, err = planet.Satellites[0].Overlay.Service.FindStorageNodesForUpload(ctx, req)
require.NoError(t, err)
require.Equal(t, 2, len(n1))
n2, err = saOverlay.Service.FindStorageNodesWithPreferences(ctx, req, &nodeConfig)
require.NoError(t, err)
require.Equal(t, len(n1), len(n2))
n3, err = saOverlay.Service.UploadSelectionCache.GetNodes(ctx, req)
require.NoError(t, err)
require.Equal(t, len(n1), len(n3))
})
}
func TestOffline(t *testing.T) {
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 4, UplinkCount: 1,
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
service := satellite.Overlay.Service
// TODO: handle cleanup
result, err := service.KnownUnreliableOrOffline(ctx, []storj.NodeID{
planet.StorageNodes[0].ID(),
})
require.NoError(t, err)
require.Empty(t, result)
result, err = service.KnownUnreliableOrOffline(ctx, []storj.NodeID{
planet.StorageNodes[0].ID(),
planet.StorageNodes[1].ID(),
planet.StorageNodes[2].ID(),
})
require.NoError(t, err)
require.Empty(t, result)
result, err = service.KnownUnreliableOrOffline(ctx, []storj.NodeID{
planet.StorageNodes[0].ID(),
{1, 2, 3, 4}, // note that this succeeds by design
planet.StorageNodes[2].ID(),
})
require.NoError(t, err)
require.Len(t, result, 1)
require.Equal(t, result[0], storj.NodeID{1, 2, 3, 4})
})
}
func TestEnsureMinimumRequested(t *testing.T) {
if runtime.GOOS == "darwin" {
t.Skip("Test does not work with macOS")
}
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 10, UplinkCount: 1,
Reconfigure: testplanet.Reconfigure{
UniqueIPCount: 5,
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Overlay.Node.MinimumDiskSpace = 10 * memory.MB
config.Reputation.InitialAlpha = 1
config.Reputation.AuditLambda = 1
config.Reputation.UnknownAuditLambda = 1
config.Reputation.AuditWeight = 1
config.Reputation.AuditDQ = 0.5
config.Reputation.UnknownAuditDQ = 0.5
config.Reputation.AuditCount = 1
config.Reputation.AuditHistory = testAuditHistoryConfig()
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
// pause chores that might update node data
satellite.RangedLoop.RangedLoop.Service.Loop.Stop()
satellite.Repair.Checker.Loop.Pause()
satellite.Repair.Repairer.Loop.Pause()
for _, node := range planet.StorageNodes {
node.Contact.Chore.Pause(ctx)
}
service := satellite.Overlay.Service
repService := satellite.Reputation.Service
reputable := map[storj.NodeID]bool{}
countReputable := func(selected []*overlay.SelectedNode) (count int) {
for _, n := range selected {
if reputable[n.ID] {
count++
}
}
return count
}
// update half of nodes to be reputable
for i := 0; i < 5; i++ {
node := planet.StorageNodes[i]
reputable[node.ID()] = true
err := repService.ApplyAudit(ctx, node.ID(), overlay.ReputationStatus{}, reputation.AuditSuccess)
require.NoError(t, err)
}
err := repService.TestFlushAllNodeInfo(ctx)
require.NoError(t, err)
t.Run("request 5, where 1 new", func(t *testing.T) {
requestedCount, newCount := 5, 1
newNodeFraction := float64(newCount) / float64(requestedCount)
preferences := testNodeSelectionConfig(newNodeFraction)
req := overlay.FindStorageNodesRequest{
RequestedCount: requestedCount,
}
nodes, err := service.FindStorageNodesWithPreferences(ctx, req, &preferences)
require.NoError(t, err)
require.Len(t, nodes, requestedCount)
require.Equal(t, requestedCount-newCount, countReputable(nodes))
})
t.Run("request 5, all new", func(t *testing.T) {
requestedCount, newCount := 5, 5
newNodeFraction := float64(newCount) / float64(requestedCount)
preferences := testNodeSelectionConfig(newNodeFraction)
req := overlay.FindStorageNodesRequest{
RequestedCount: requestedCount,
}
nodes, err := service.FindStorageNodesWithPreferences(ctx, req, &preferences)
require.NoError(t, err)
require.Len(t, nodes, requestedCount)
require.Equal(t, 0, countReputable(nodes))
n2, err := service.UploadSelectionCache.GetNodes(ctx, req)
require.NoError(t, err)
require.Equal(t, requestedCount, len(n2))
})
// update all of them to be reputable
for i := 5; i < 10; i++ {
node := planet.StorageNodes[i]
reputable[node.ID()] = true
err := repService.ApplyAudit(ctx, node.ID(), overlay.ReputationStatus{}, reputation.AuditSuccess)
require.NoError(t, err)
}
t.Run("no new nodes", func(t *testing.T) {
requestedCount, newCount := 5, 1.0
newNodeFraction := newCount / float64(requestedCount)
preferences := testNodeSelectionConfig(newNodeFraction)
satellite.Config.Overlay.Node = testNodeSelectionConfig(newNodeFraction)
nodes, err := service.FindStorageNodesWithPreferences(ctx, overlay.FindStorageNodesRequest{
RequestedCount: requestedCount,
}, &preferences)
require.NoError(t, err)
require.Len(t, nodes, requestedCount)
// all of them should be reputable because there are no new nodes
require.Equal(t, 5, countReputable(nodes))
})
})
}
func TestNodeSelection(t *testing.T) {
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 6, UplinkCount: 1,
Reconfigure: testplanet.Reconfigure{
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Reputation.AuditHistory = testAuditHistoryConfig()
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
service := satellite.Overlay.Service
errNotEnoughNodes := &overlay.ErrNotEnoughNodes
tests := []struct {
description string
requestCount int
newNodeFraction float64
reputableNodes int
expectedCount int
shouldFailWith *errs.Class
exclude func() (excludedNodes []storj.NodeID)
}{
{
description: "all reputable nodes, only reputable nodes requested",
requestCount: 6,
newNodeFraction: 0,
reputableNodes: 6,
expectedCount: 6,
},
{
description: "all reputable nodes, up to 100% new nodes requested",
requestCount: 5,
newNodeFraction: 1,
reputableNodes: 6,
expectedCount: 5,
},
{
description: "3 reputable and 3 new nodes, 6 reputable nodes requested, not enough reputable nodes",
requestCount: 6,
newNodeFraction: 0,
reputableNodes: 3,
expectedCount: 3,
shouldFailWith: errNotEnoughNodes,
},
{
description: "50-50 reputable and new nodes, reputable and new nodes requested, not enough reputable nodes",
requestCount: 5,
newNodeFraction: 0.2,
reputableNodes: 3,
expectedCount: 4,
shouldFailWith: errNotEnoughNodes,
},
{
description: "all new nodes except one, reputable and new nodes requested (happy path)",
requestCount: 2,
newNodeFraction: 0.5,
reputableNodes: 1,
expectedCount: 2,
},
{
description: "all new nodes except one, reputable and new nodes requested (not happy path)",
requestCount: 4,
newNodeFraction: 0.5,
reputableNodes: 1,
expectedCount: 3,
shouldFailWith: errNotEnoughNodes,
},
{
description: "all new nodes, reputable and new nodes requested",
requestCount: 6,
newNodeFraction: 1,
reputableNodes: 0,
expectedCount: 6,
},
{
description: "excluded node ids",
requestCount: 6,
newNodeFraction: 0,
reputableNodes: 6,
expectedCount: 1,
shouldFailWith: errNotEnoughNodes,
exclude: func() (excludedNodes []storj.NodeID) {
for _, storageNode := range planet.StorageNodes[:5] {
excludedNodes = append(excludedNodes, storageNode.ID())
}
return excludedNodes
},
},
}
for _, tt := range tests {
t.Log(tt.description)
var excludedNodes []storj.NodeID
if tt.exclude != nil {
excludedNodes = tt.exclude()
}
for i, node := range planet.StorageNodes {
if i < tt.reputableNodes {
_, err := satellite.Overlay.Service.TestVetNode(ctx, node.ID())
require.NoError(t, err)
} else {
err := satellite.Overlay.Service.TestUnvetNode(ctx, node.ID())
require.NoError(t, err)
}
}
config := testNodeSelectionConfig(tt.newNodeFraction)
response, err := service.FindStorageNodesWithPreferences(ctx, overlay.FindStorageNodesRequest{RequestedCount: tt.requestCount, ExcludedIDs: excludedNodes}, &config)
if tt.shouldFailWith != nil {
require.Error(t, err)
assert.True(t, tt.shouldFailWith.Has(err))
} else {
require.NoError(t, err)
}
if len(excludedNodes) > 0 {
for _, n := range response {
for _, m := range excludedNodes {
require.NotEqual(t, n.ID, m)
}
}
}
require.Equal(t, tt.expectedCount, len(response))
}
})
}
func TestNodeSelectionGracefulExit(t *testing.T) {
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 10, UplinkCount: 1,
Reconfigure: testplanet.Reconfigure{
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Overlay.Node.MinimumDiskSpace = 10 * memory.MB
config.Reputation.InitialAlpha = 1
config.Reputation.AuditLambda = 1
config.Reputation.UnknownAuditLambda = 1
config.Reputation.AuditWeight = 1
config.Reputation.AuditDQ = 0.5
config.Reputation.UnknownAuditDQ = 0.5
config.Reputation.AuditHistory = testAuditHistoryConfig()
config.Reputation.AuditCount = 5 // need 5 audits to be vetted
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
exitingNodes := make(map[storj.NodeID]bool)
// This sets audit counts of 0, 1, 2, 3, ... 9
// so that we can fine-tune how many nodes are considered new or reputable
// by modifying the audit count cutoff passed into FindStorageNodesWithPreferences
// nodes at indices 0, 2, 4, 6, 8 are gracefully exiting
for i, node := range planet.StorageNodes {
for k := 0; k < i; k++ {
err := satellite.Reputation.Service.ApplyAudit(ctx, node.ID(), overlay.ReputationStatus{}, reputation.AuditSuccess)
require.NoError(t, err)
}
// make half the nodes gracefully exiting
if i%2 == 0 {
_, err := satellite.DB.OverlayCache().UpdateExitStatus(ctx, &overlay.ExitStatusRequest{
NodeID: node.ID(),
ExitInitiatedAt: time.Now(),
})
require.NoError(t, err)
exitingNodes[node.ID()] = true
}
}
// There are now 5 new nodes, and 5 reputable (vetted) nodes. 3 of the
// new nodes are gracefully exiting, and 2 of the reputable nodes.
type test struct {
Preferences overlay.NodeSelectionConfig
ExcludeCount int
RequestCount int
ExpectedCount int
ShouldFailWith *errs.Class
}
for i, tt := range []test{
{ // reputable and new nodes, happy path
Preferences: testNodeSelectionConfig(0.5),
RequestCount: 5,
ExpectedCount: 5, // 2 new + 3 vetted
},
{ // all reputable nodes, happy path
Preferences: testNodeSelectionConfig(0),
RequestCount: 3,
ExpectedCount: 3,
},
{ // all new nodes, happy path
Preferences: testNodeSelectionConfig(1),
RequestCount: 2,
ExpectedCount: 2,
},
{ // reputable and new nodes, requested too many
Preferences: testNodeSelectionConfig(0.5),
RequestCount: 10,
ExpectedCount: 5, // 2 new + 3 vetted
ShouldFailWith: &overlay.ErrNotEnoughNodes,
},
{ // all reputable nodes, requested too many
Preferences: testNodeSelectionConfig(0),
RequestCount: 10,
ExpectedCount: 3,
ShouldFailWith: &overlay.ErrNotEnoughNodes,
},
{ // all new nodes, requested too many
Preferences: testNodeSelectionConfig(1),
RequestCount: 10,
ExpectedCount: 2,
ShouldFailWith: &overlay.ErrNotEnoughNodes,
},
} {
t.Logf("#%2d. %+v", i, tt)
response, err := satellite.Overlay.Service.FindStorageNodesWithPreferences(ctx,
overlay.FindStorageNodesRequest{
RequestedCount: tt.RequestCount,
AsOfSystemInterval: -time.Microsecond,
}, &tt.Preferences)
t.Log(len(response), err)
if tt.ShouldFailWith != nil {
assert.Error(t, err)
assert.True(t, tt.ShouldFailWith.Has(err))
} else {
assert.NoError(t, err)
}
assert.Equal(t, tt.ExpectedCount, len(response))
// expect no exiting nodes in selection
for _, node := range response {
assert.False(t, exitingNodes[node.ID])
}
}
})
}
func TestFindStorageNodesDistinctNetworks(t *testing.T) {
if runtime.GOOS == "darwin" {
t.Skip("Test does not work with macOS")
}
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 5, UplinkCount: 1,
Reconfigure: testplanet.Reconfigure{
// will create 3 storage nodes with same IP; 2 will have unique
UniqueIPCount: 2,
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Overlay.Node.DistinctIP = true
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
// select one of the nodes that shares an IP with others to exclude
var excludedNodes storj.NodeIDList
addrCounts := make(map[string]int)
var excludedNodeAddr string
for _, node := range planet.StorageNodes {
addrNoPort := strings.Split(node.Addr(), ":")[0]
if addrCounts[addrNoPort] > 0 && len(excludedNodes) == 0 {
excludedNodes = append(excludedNodes, node.ID())
break
}
addrCounts[addrNoPort]++
}
require.Len(t, excludedNodes, 1)
res, err := satellite.Overlay.Service.Get(ctx, excludedNodes[0])
require.NoError(t, err)
excludedNodeAddr = res.LastIPPort
req := overlay.FindStorageNodesRequest{
RequestedCount: 2,
ExcludedIDs: excludedNodes,
}
nodes, err := satellite.Overlay.Service.FindStorageNodesForUpload(ctx, req)
require.NoError(t, err)
require.Len(t, nodes, 2)
require.NotEqual(t, nodes[0].LastIPPort, nodes[1].LastIPPort)
require.NotEqual(t, nodes[0].LastIPPort, excludedNodeAddr)
require.NotEqual(t, nodes[1].LastIPPort, excludedNodeAddr)
n2, err := satellite.Overlay.Service.UploadSelectionCache.GetNodes(ctx, req)
require.NoError(t, err)
require.Len(t, n2, 2)
require.NotEqual(t, n2[0].LastIPPort, n2[1].LastIPPort)
require.NotEqual(t, n2[0].LastIPPort, excludedNodeAddr)
require.NotEqual(t, n2[1].LastIPPort, excludedNodeAddr)
n3, err := satellite.Overlay.Service.FindStorageNodesWithPreferences(ctx, req, &satellite.Config.Overlay.Node)
require.NoError(t, err)
require.Len(t, n3, 2)
require.NotEqual(t, n3[0].LastIPPort, n3[1].LastIPPort)
require.NotEqual(t, n3[0].LastIPPort, excludedNodeAddr)
require.NotEqual(t, n3[1].LastIPPort, excludedNodeAddr)
req = overlay.FindStorageNodesRequest{
RequestedCount: 4,
ExcludedIDs: excludedNodes,
}
n, err := satellite.Overlay.Service.FindStorageNodesForUpload(ctx, req)
require.Error(t, err)
n1, err := satellite.Overlay.Service.FindStorageNodesWithPreferences(ctx, req, &satellite.Config.Overlay.Node)
require.Error(t, err)
require.Equal(t, len(n), len(n1))
n2, err = satellite.Overlay.Service.UploadSelectionCache.GetNodes(ctx, req)
require.Error(t, err)
require.Equal(t, len(n1), len(n2))
})
}
func TestSelectNewStorageNodesExcludedIPs(t *testing.T) {
if runtime.GOOS == "darwin" {
t.Skip("Test does not work with macOS")
}
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 4, UplinkCount: 1,
Reconfigure: testplanet.Reconfigure{
// will create 2 storage nodes with same IP; 2 will have unique
UniqueIPCount: 2,
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Overlay.Node.DistinctIP = true
config.Overlay.Node.NewNodeFraction = 1
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
// select one of the nodes that shares an IP with others to exclude
var excludedNodes storj.NodeIDList
addrCounts := make(map[string]int)
var excludedNodeAddr string
for _, node := range planet.StorageNodes {
addrNoPort := strings.Split(node.Addr(), ":")[0]
if addrCounts[addrNoPort] > 0 {
excludedNodes = append(excludedNodes, node.ID())
break
}
addrCounts[addrNoPort]++
}
require.Len(t, excludedNodes, 1)
res, err := satellite.Overlay.Service.Get(ctx, excludedNodes[0])
require.NoError(t, err)
excludedNodeAddr = res.LastIPPort
req := overlay.FindStorageNodesRequest{
RequestedCount: 2,
ExcludedIDs: excludedNodes,
}
nodes, err := satellite.Overlay.Service.FindStorageNodesForUpload(ctx, req)
require.NoError(t, err)
require.Len(t, nodes, 2)
require.NotEqual(t, nodes[0].LastIPPort, nodes[1].LastIPPort)
require.NotEqual(t, nodes[0].LastIPPort, excludedNodeAddr)
require.NotEqual(t, nodes[1].LastIPPort, excludedNodeAddr)
n2, err := satellite.Overlay.Service.UploadSelectionCache.GetNodes(ctx, req)
require.NoError(t, err)
require.Len(t, n2, 2)
require.NotEqual(t, n2[0].LastIPPort, n2[1].LastIPPort)
require.NotEqual(t, n2[0].LastIPPort, excludedNodeAddr)
require.NotEqual(t, n2[1].LastIPPort, excludedNodeAddr)
n3, err := satellite.Overlay.Service.FindStorageNodesWithPreferences(ctx, req, &satellite.Config.Overlay.Node)
require.NoError(t, err)
require.Len(t, n3, 2)
require.NotEqual(t, n3[0].LastIPPort, n3[1].LastIPPort)
require.NotEqual(t, n3[0].LastIPPort, excludedNodeAddr)
require.NotEqual(t, n3[1].LastIPPort, excludedNodeAddr)
})
}
func TestDistinctIPs(t *testing.T) {
if runtime.GOOS == "darwin" {
t.Skip("Test does not work with macOS")
}
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 10, UplinkCount: 1,
Reconfigure: testplanet.Reconfigure{
UniqueIPCount: 3,
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Reputation.InitialAlpha = 1
config.Reputation.AuditLambda = 1
config.Reputation.UnknownAuditLambda = 1
config.Reputation.AuditWeight = 1
config.Reputation.AuditDQ = 0.5
config.Reputation.UnknownAuditDQ = 0.5
config.Reputation.AuditHistory = testAuditHistoryConfig()
config.Reputation.AuditCount = 1
config.Overlay.Node.DistinctIP = true
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
// Vets nodes[8] and nodes[9].
for i := 9; i > 7; i-- {
err := satellite.Reputation.Service.ApplyAudit(ctx, planet.StorageNodes[i].ID(), overlay.ReputationStatus{}, reputation.AuditSuccess)
assert.NoError(t, err)
}
testDistinctIPs(t, ctx, planet)
})
}
func TestDistinctIPsWithBatch(t *testing.T) {
if runtime.GOOS == "darwin" {
t.Skip("Test does not work with macOS")
}
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 10, UplinkCount: 1,
Reconfigure: testplanet.Reconfigure{
UniqueIPCount: 3, // creates 3 additional unique ip addresses, totaling to 4 IPs
Satellite: func(log *zap.Logger, index int, config *satellite.Config) {
config.Overlay.UpdateStatsBatchSize = 1
config.Reputation.InitialAlpha = 1
config.Reputation.AuditLambda = 1
config.Reputation.UnknownAuditLambda = 1
config.Reputation.AuditWeight = 1
config.Reputation.AuditDQ = 0.5
config.Reputation.UnknownAuditDQ = 0.5
config.Reputation.AuditHistory = testAuditHistoryConfig()
config.Reputation.AuditCount = 1
config.Overlay.Node.DistinctIP = true
},
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
// Vets nodes[8] and nodes[9].
for i := 9; i > 7; i-- {
err := satellite.Reputation.Service.ApplyAudit(ctx, planet.StorageNodes[i].ID(), overlay.ReputationStatus{}, reputation.AuditSuccess)
assert.NoError(t, err)
}
testDistinctIPs(t, ctx, planet)
})
}
func testDistinctIPs(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
satellite := planet.Satellites[0]
service := satellite.Overlay.Service
tests := []struct {
requestCount int
preferences overlay.NodeSelectionConfig
shouldFailWith *errs.Class
}{
{ // test only distinct IPs with half new nodes
// expect 2 new and 2 vetted
requestCount: 4,
preferences: testNodeSelectionConfig(0.5),
},
{ // test not enough distinct IPs
requestCount: 5, // expect 3 new, 2 old but fails because only 4 distinct IPs, not 5
preferences: testNodeSelectionConfig(0.6),
shouldFailWith: &overlay.ErrNotEnoughNodes,
},
}
for _, tt := range tests {
response, err := service.FindStorageNodesWithPreferences(ctx,
overlay.FindStorageNodesRequest{
RequestedCount: tt.requestCount,
AsOfSystemInterval: -time.Microsecond,
}, &tt.preferences)
if tt.shouldFailWith != nil {
assert.Error(t, err)
assert.True(t, tt.shouldFailWith.Has(err))
continue
} else {
require.NoError(t, err)
}
// assert all IPs are unique
if tt.preferences.DistinctIP {
ips := make(map[string]bool)
for _, n := range response {
assert.False(t, ips[n.LastIPPort])
ips[n.LastIPPort] = true
}
}
assert.Equal(t, tt.requestCount, len(response))
}
}
func TestAddrtoNetwork_Conversion(t *testing.T) {
ctx := testcontext.New(t)
defer ctx.Cleanup()
runTest := func(t *testing.T, ipAddr, port string, distinctIPEnabled bool, ipv4Mask, ipv6Mask int, expectedNetwork string) {
t.Run(fmt.Sprintf("%s-%s-%v-%d-%d", ipAddr, port, distinctIPEnabled, ipv4Mask, ipv6Mask), func(t *testing.T) {
ipAndPort := net.JoinHostPort(ipAddr, port)
config := overlay.NodeSelectionConfig{
DistinctIP: distinctIPEnabled,
NetworkPrefixIPv4: ipv4Mask,
NetworkPrefixIPv6: ipv6Mask,
}
resolvedIP, resolvedPort, network, err := overlay.ResolveIPAndNetwork(ctx, ipAndPort, config, overlay.MaskOffLastNet)
require.NoError(t, err)
assert.Equal(t, expectedNetwork, network)
assert.Equal(t, ipAddr, resolvedIP.String())
assert.Equal(t, port, resolvedPort)
})
}
runTest(t, "8.8.255.8", "28967", true, 17, 128, "8.8.128.0")
runTest(t, "8.8.255.8", "28967", false, 0, 0, "8.8.255.8:28967")
runTest(t, "fc00::1:200", "28967", true, 0, 64, "fc00::")
runTest(t, "fc00::1:200", "28967", true, 0, 128-16, "fc00::1:0")
runTest(t, "fc00::1:200", "28967", false, 0, 0, "[fc00::1:200]:28967")
}
func TestCacheSelectionVsDBSelection(t *testing.T) {
if runtime.GOOS == "darwin" {
t.Skip("Test does not work with macOS")
}
testplanet.Run(t, testplanet.Config{
SatelliteCount: 1, StorageNodeCount: 5, UplinkCount: 0,
Reconfigure: testplanet.Reconfigure{
UniqueIPCount: 5,
},
}, func(t *testing.T, ctx *testcontext.Context, planet *testplanet.Planet) {
planet.StorageNodes[0].Storage2.Monitor.Loop.Pause()
saOverlay := planet.Satellites[0].Overlay
nodeConfig := planet.Satellites[0].Config.Overlay.Node
req := overlay.FindStorageNodesRequest{RequestedCount: 5}
n1, err := saOverlay.Service.FindStorageNodesForUpload(ctx, req)
require.NoError(t, err)
n2, err := saOverlay.Service.UploadSelectionCache.GetNodes(ctx, req)
require.NoError(t, err)
require.Equal(t, len(n2), len(n1))
n3, err := saOverlay.Service.FindStorageNodesWithPreferences(ctx, req, &nodeConfig)
require.NoError(t, err)
require.Equal(t, len(n3), len(n2))
})
}