storj/satellite/overlay/selection_test.go

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2019-01-24 20:15:10 +00:00
// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package overlay_test
import (
"crypto/tls"
"crypto/x509"
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
"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.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)
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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)
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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)
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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)
}
}
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
Preferences: testNodeSelectionConfig(0.5),
RequestCount: 5,
ExpectedCount: 5, // 2 new + 3 vetted
},
{ // all reputable nodes, happy path
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
Preferences: testNodeSelectionConfig(0),
RequestCount: 3,
ExpectedCount: 3,
},
{ // all new nodes, happy path
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
Preferences: testNodeSelectionConfig(1),
RequestCount: 2,
ExpectedCount: 2,
},
{ // reputable and new nodes, requested too many
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
Preferences: testNodeSelectionConfig(0.5),
RequestCount: 10,
ExpectedCount: 5, // 2 new + 3 vetted
ShouldFailWith: &overlay.ErrNotEnoughNodes,
},
{ // all reputable nodes, requested too many
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
Preferences: testNodeSelectionConfig(0),
RequestCount: 10,
ExpectedCount: 3,
ShouldFailWith: &overlay.ErrNotEnoughNodes,
},
{ // all new nodes, requested too many
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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,
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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))
}
}
2019-06-24 16:33:18 +01:00
func TestAddrtoNetwork_Conversion(t *testing.T) {
ctx := testcontext.New(t)
defer ctx.Cleanup()
2019-06-24 16:33:18 +01:00
satellite/overlay: configurable meaning of last_net Up to now, we have been implementing the DistinctIP preference with code in two places: 1. On check-in, the last_net is determined by taking the /24 or /64 (in ResolveIPAndNetwork()) and we store it with the node record. 2. On node selection, a preference parameter defines whether to return results that are distinct on last_net. It can be observed that we have never yet had the need to switch from DistinctIP to !DistinctIP, or from !DistinctIP to DistinctIP, on the same satellite, and we will probably never need to do so in an automated way. It can also be observed that this arrangement makes tests more complicated, because we often have to arrange for test nodes to have IP addresses in different /24 networks (a particular pain on macOS). Those two considerations, plus some pending work on the repair framework that will make repair take last_net into consideration, motivate this change. With this change, in the #2 place, we will _always_ return results that are distinct on last_net. We implement the DistinctIP preference, then, by making the #1 place (ResolveIPAndNetwork()) more flexible. When DistinctIP is enabled, last_net will be calculated as it was before. But when DistinctIP is _off_, last_net can be the same as address (IP and port). That will effectively implement !DistinctIP because every record will have a distinct last_net already. As a side effect, this flexibility will allow us to change the rules about last_net construction arbitrarily. We can do tests where last_net is set to the source IP, or to a /30 prefix, or a /16 prefix, etc., and be able to exercise the production logic without requiring a virtual network bridge. This change should be safe to make without any migration code, because all known production satellite deployments use DistinctIP, and the associated last_net values will not change for them. They will only change for satellites with !DistinctIP, which are mostly test deployments that can be recreated trivially. For those satellites which are both permanent and !DistinctIP, node selection will suddenly start acting as though DistinctIP is enabled, until the operator runs a single SQL update "UPDATE nodes SET last_net = last_ip_port". That can be done either before or after deploying software with this change. I also assert that this will not hurt performance for production deployments. It's true that adding the distinct requirement to node selection makes things a little slower, but the distinct requirement is already present for all production deployments, and they will see no change. Refs: https://github.com/storj/storj/issues/5391 Change-Id: I0e7e92498c3da768df5b4d5fb213dcd2d4862924
2023-02-28 22:57:39 +00:00
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")
2019-06-24 16:33:18 +01:00
}
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))
})
}