open-consul/agent/consul/fsm/snapshot_test.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
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package fsm
import (
"bytes"
"net"
"testing"
"time"
"github.com/hashicorp/go-raftchunking"
"github.com/stretchr/testify/require"
"github.com/hashicorp/consul-net-rpc/go-msgpack/codec"
"github.com/hashicorp/consul/agent/connect"
"github.com/hashicorp/consul/agent/consul/state"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/api"
"github.com/hashicorp/consul/lib/stringslice"
Protobuf Refactoring for Multi-Module Cleanliness (#16302) Protobuf Refactoring for Multi-Module Cleanliness This commit includes the following: Moves all packages that were within proto/ to proto/private Rewrites imports to account for the packages being moved Adds in buf.work.yaml to enable buf workspaces Names the proto-public buf module so that we can override the Go package imports within proto/buf.yaml Bumps the buf version dependency to 1.14.0 (I was trying out the version to see if it would get around an issue - it didn't but it also doesn't break things and it seemed best to keep up with the toolchain changes) Why: In the future we will need to consume other protobuf dependencies such as the Google HTTP annotations for openapi generation or grpc-gateway usage. There were some recent changes to have our own ratelimiting annotations. The two combined were not working when I was trying to use them together (attempting to rebase another branch) Buf workspaces should be the solution to the problem Buf workspaces means that each module will have generated Go code that embeds proto file names relative to the proto dir and not the top level repo root. This resulted in proto file name conflicts in the Go global protobuf type registry. The solution to that was to add in a private/ directory into the path within the proto/ directory. That then required rewriting all the imports. Is this safe? AFAICT yes The gRPC wire protocol doesn't seem to care about the proto file names (although the Go grpc code does tack on the proto file name as Metadata in the ServiceDesc) Other than imports, there were no changes to any generated code as a result of this.
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"github.com/hashicorp/consul/proto/private/pbpeering"
"github.com/hashicorp/consul/proto/private/prototest"
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"github.com/hashicorp/consul/sdk/testutil"
)
func TestFSM_SnapshotRestore_OSS(t *testing.T) {
t.Parallel()
logger := testutil.Logger(t)
fsm, err := New(nil, logger)
require.NoError(t, err)
// Add some state
node1 := &structs.Node{
ID: "610918a6-464f-fa9b-1a95-03bd6e88ed92",
Node: "foo",
Datacenter: "dc1",
Address: "127.0.0.1",
}
node2 := &structs.Node{
ID: "40e4a748-2192-161a-0510-9bf59fe950b5",
Node: "baz",
Datacenter: "dc1",
Address: "127.0.0.2",
TaggedAddresses: map[string]string{
"hello": "1.2.3.4",
},
Meta: map[string]string{
"testMeta": "testing123",
},
}
require.NoError(t, fsm.state.EnsureNode(1, node1))
require.NoError(t, fsm.state.EnsureNode(2, node2))
// Add a service instance with Connect config.
connectConf := structs.ServiceConnect{
Native: true,
}
fsm.state.EnsureService(3, "foo", &structs.NodeService{
ID: "web",
Service: "web",
Tags: nil,
Address: "127.0.0.1",
Port: 80,
Connect: connectConf,
})
fsm.state.EnsureService(4, "foo", &structs.NodeService{ID: "db", Service: "db", Tags: []string{"primary"}, Address: "127.0.0.1", Port: 5000})
fsm.state.EnsureService(5, "baz", &structs.NodeService{ID: "web", Service: "web", Tags: nil, Address: "127.0.0.2", Port: 80})
fsm.state.EnsureService(6, "baz", &structs.NodeService{ID: "db", Service: "db", Tags: []string{"secondary"}, Address: "127.0.0.2", Port: 5000})
fsm.state.EnsureCheck(7, &structs.HealthCheck{
Node: "foo",
CheckID: "web",
Name: "web connectivity",
Status: api.HealthPassing,
ServiceID: "web",
})
fsm.state.KVSSet(8, &structs.DirEntry{
Key: "/test",
Value: []byte("foo"),
})
session := &structs.Session{ID: generateUUID(), Node: "foo"}
fsm.state.SessionCreate(9, session)
policy := &structs.ACLPolicy{
ID: structs.ACLPolicyGlobalManagementID,
Name: "global-management",
Description: "Builtin Policy that grants unlimited access",
Rules: structs.ACLPolicyGlobalManagement,
}
policy.SetHash(true)
require.NoError(t, fsm.state.ACLPolicySet(1, policy))
role := &structs.ACLRole{
ID: "86dedd19-8fae-4594-8294-4e6948a81f9a",
Name: "some-role",
Description: "test snapshot role",
ServiceIdentities: []*structs.ACLServiceIdentity{
{
ServiceName: "example",
},
},
}
role.SetHash(true)
require.NoError(t, fsm.state.ACLRoleSet(1, role))
token := &structs.ACLToken{
AccessorID: "30fca056-9fbb-4455-b94a-bf0e2bc575d6",
SecretID: "cbe1c6fd-d865-4034-9d6d-64fef7fb46a9",
Description: "Bootstrap Token (Global Management)",
Policies: []structs.ACLTokenPolicyLink{
{
ID: structs.ACLPolicyGlobalManagementID,
},
},
CreateTime: time.Now(),
Local: false,
}
require.NoError(t, fsm.state.ACLBootstrap(10, 0, token))
method := &structs.ACLAuthMethod{
Name: "some-method",
Type: "testing",
Description: "test snapshot auth method",
Config: map[string]interface{}{
"SessionID": "952ebfa8-2a42-46f0-bcd3-fd98a842000e",
},
}
require.NoError(t, fsm.state.ACLAuthMethodSet(1, method))
method = &structs.ACLAuthMethod{
Name: "some-method2",
Type: "testing",
Description: "test snapshot auth method",
}
require.NoError(t, fsm.state.ACLAuthMethodSet(1, method))
bindingRule := &structs.ACLBindingRule{
ID: "85184c52-5997-4a84-9817-5945f2632a17",
Description: "test snapshot binding rule",
AuthMethod: "some-method",
Selector: "serviceaccount.namespace==default",
BindType: structs.BindingRuleBindTypeService,
BindName: "${serviceaccount.name}",
}
require.NoError(t, fsm.state.ACLBindingRuleSet(1, bindingRule))
fsm.state.KVSSet(11, &structs.DirEntry{
Key: "/remove",
Value: []byte("foo"),
})
fsm.state.KVSDelete(12, "/remove", nil)
idx, _, err := fsm.state.KVSList(nil, "/remove", nil)
require.NoError(t, err)
require.EqualValues(t, 12, idx, "bad index")
updates := structs.Coordinates{
&structs.Coordinate{
Node: "baz",
Coord: generateRandomCoordinate(),
},
&structs.Coordinate{
Node: "foo",
Coord: generateRandomCoordinate(),
},
}
require.NoError(t, fsm.state.CoordinateBatchUpdate(13, updates))
query := structs.PreparedQuery{
ID: generateUUID(),
Service: structs.ServiceQuery{
Service: "web",
},
RaftIndex: structs.RaftIndex{
CreateIndex: 14,
ModifyIndex: 14,
},
}
require.NoError(t, fsm.state.PreparedQuerySet(14, &query))
autopilotConf := &structs.AutopilotConfig{
CleanupDeadServers: true,
LastContactThreshold: 100 * time.Millisecond,
MaxTrailingLogs: 222,
}
require.NoError(t, fsm.state.AutopilotSetConfig(15, autopilotConf))
// Legacy Intentions
ixn := structs.TestIntention(t)
ixn.ID = generateUUID()
ixn.RaftIndex = structs.RaftIndex{
CreateIndex: 14,
ModifyIndex: 14,
}
//nolint:staticcheck
require.NoError(t, fsm.state.LegacyIntentionSet(14, ixn))
// CA Roots
roots := []*structs.CARoot{
connect.TestCA(t, nil),
connect.TestCA(t, nil),
}
for _, r := range roots[1:] {
r.Active = false
}
ok, err := fsm.state.CARootSetCAS(15, 0, roots)
require.NoError(t, err)
require.True(t, ok)
ok, err = fsm.state.CASetProviderState(16, &structs.CAConsulProviderState{
ID: "asdf",
PrivateKey: "foo",
RootCert: "bar",
})
require.NoError(t, err)
require.True(t, ok)
// CA Config
caConfig := &structs.CAConfiguration{
ClusterID: "foo",
Provider: "consul",
Config: map[string]interface{}{
"foo": "asdf",
"bar": 6.5,
},
}
err = fsm.state.CASetConfig(17, caConfig)
require.NoError(t, err)
// Config entries
serviceConfig := &structs.ServiceConfigEntry{
Kind: structs.ServiceDefaults,
Name: "foo",
Protocol: "http",
}
proxyConfig := &structs.ProxyConfigEntry{
Kind: structs.ProxyDefaults,
Name: "global",
}
require.NoError(t, fsm.state.EnsureConfigEntry(18, serviceConfig))
require.NoError(t, fsm.state.EnsureConfigEntry(19, proxyConfig))
ingress := &structs.IngressGatewayConfigEntry{
Kind: structs.IngressGateway,
Name: "ingress",
Listeners: []structs.IngressListener{
{
Port: 8080,
Protocol: "http",
Services: []structs.IngressService{
{
Name: "foo",
},
},
},
},
}
require.NoError(t, fsm.state.EnsureConfigEntry(20, ingress))
_, gatewayServices, err := fsm.state.GatewayServices(nil, "ingress", structs.DefaultEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
// Raft Chunking
chunkState := &raftchunking.State{
ChunkMap: make(raftchunking.ChunkMap),
}
chunkState.ChunkMap[0] = []*raftchunking.ChunkInfo{
{
OpNum: 0,
SequenceNum: 0,
NumChunks: 3,
Data: []byte("foo"),
},
nil,
{
OpNum: 0,
SequenceNum: 2,
NumChunks: 3,
Data: []byte("bar"),
},
}
chunkState.ChunkMap[20] = []*raftchunking.ChunkInfo{
nil,
{
OpNum: 20,
SequenceNum: 1,
NumChunks: 2,
Data: []byte("bar"),
},
}
err = fsm.chunker.RestoreState(chunkState)
require.NoError(t, err)
// Federation states
fedState1 := &structs.FederationState{
Datacenter: "dc1",
MeshGateways: []structs.CheckServiceNode{
{
Node: &structs.Node{
ID: "664bac9f-4de7-4f1b-ad35-0e5365e8f329",
Node: "gateway1",
Datacenter: "dc1",
Address: "1.2.3.4",
},
Service: &structs.NodeService{
ID: "mesh-gateway",
Service: "mesh-gateway",
Kind: structs.ServiceKindMeshGateway,
Port: 1111,
Meta: map[string]string{structs.MetaWANFederationKey: "1"},
},
Checks: []*structs.HealthCheck{
{
Name: "web connectivity",
Status: api.HealthPassing,
ServiceID: "mesh-gateway",
},
},
},
{
Node: &structs.Node{
ID: "3fb9a696-8209-4eee-a1f7-48600deb9716",
Node: "gateway2",
Datacenter: "dc1",
Address: "9.8.7.6",
},
Service: &structs.NodeService{
ID: "mesh-gateway",
Service: "mesh-gateway",
Kind: structs.ServiceKindMeshGateway,
Port: 2222,
Meta: map[string]string{structs.MetaWANFederationKey: "1"},
},
Checks: []*structs.HealthCheck{
{
Name: "web connectivity",
Status: api.HealthPassing,
ServiceID: "mesh-gateway",
},
},
},
},
UpdatedAt: time.Now().UTC(),
}
fedState2 := &structs.FederationState{
Datacenter: "dc2",
MeshGateways: []structs.CheckServiceNode{
{
Node: &structs.Node{
ID: "0f92b02e-9f51-4aa2-861b-4ddbc3492724",
Node: "gateway1",
Datacenter: "dc2",
Address: "8.8.8.8",
},
Service: &structs.NodeService{
ID: "mesh-gateway",
Service: "mesh-gateway",
Kind: structs.ServiceKindMeshGateway,
Port: 3333,
Meta: map[string]string{structs.MetaWANFederationKey: "1"},
},
Checks: []*structs.HealthCheck{
{
Name: "web connectivity",
Status: api.HealthPassing,
ServiceID: "mesh-gateway",
},
},
},
{
Node: &structs.Node{
ID: "99a76121-1c3f-4023-88ef-805248beb10b",
Node: "gateway2",
Datacenter: "dc2",
Address: "5.5.5.5",
},
Service: &structs.NodeService{
ID: "mesh-gateway",
Service: "mesh-gateway",
Kind: structs.ServiceKindMeshGateway,
Port: 4444,
Meta: map[string]string{structs.MetaWANFederationKey: "1"},
},
Checks: []*structs.HealthCheck{
{
Name: "web connectivity",
Status: api.HealthPassing,
ServiceID: "mesh-gateway",
},
},
},
},
UpdatedAt: time.Now().UTC(),
}
require.NoError(t, fsm.state.FederationStateSet(21, fedState1))
require.NoError(t, fsm.state.FederationStateSet(22, fedState2))
// Update a node, service and health check to make sure the ModifyIndexes are preserved correctly after restore.
require.NoError(t, fsm.state.EnsureNode(23, &structs.Node{
ID: "610918a6-464f-fa9b-1a95-03bd6e88ed92",
Node: "foo",
Datacenter: "dc1",
Address: "127.0.0.3",
}))
require.NoError(t, fsm.state.EnsureService(24, "foo", &structs.NodeService{ID: "db", Service: "db", Tags: []string{"primary"}, Address: "127.0.0.1", Port: 5001}))
require.NoError(t, fsm.state.EnsureCheck(25, &structs.HealthCheck{
Node: "foo",
CheckID: "web",
Name: "web connectivity",
Status: api.HealthCritical,
ServiceID: "web",
}))
// system metadata
systemMetadataEntry := &structs.SystemMetadataEntry{
Key: "key1", Value: "val1",
}
require.NoError(t, fsm.state.SystemMetadataSet(25, systemMetadataEntry))
// service-intentions
serviceIxn := &structs.ServiceIntentionsConfigEntry{
Kind: structs.ServiceIntentions,
Name: "foo",
Sources: []*structs.SourceIntention{
{
Name: "bar",
Action: structs.IntentionActionAllow,
},
},
}
require.NoError(t, fsm.state.EnsureConfigEntry(26, serviceIxn))
// mesh config entry
meshConfig := &structs.MeshConfigEntry{
TransparentProxy: structs.TransparentProxyMeshConfig{
MeshDestinationsOnly: true,
},
}
require.NoError(t, fsm.state.EnsureConfigEntry(27, meshConfig))
// Connect-native services for virtual IP generation
systemMetadataEntry = &structs.SystemMetadataEntry{
Key: structs.SystemMetadataVirtualIPsEnabled,
Value: "true",
}
require.NoError(t, fsm.state.SystemMetadataSet(28, systemMetadataEntry))
fsm.state.EnsureService(29, "foo", &structs.NodeService{
ID: "frontend",
Service: "frontend",
Address: "127.0.0.1",
Port: 8000,
Connect: connectConf,
})
psn := structs.PeeredServiceName{ServiceName: structs.NewServiceName("frontend", nil)}
vip, err := fsm.state.VirtualIPForService(psn)
require.NoError(t, err)
require.Equal(t, vip, "240.0.0.1")
fsm.state.EnsureService(30, "foo", &structs.NodeService{
ID: "backend",
Service: "backend",
Address: "127.0.0.1",
Port: 9000,
Connect: connectConf,
})
psn = structs.PeeredServiceName{ServiceName: structs.NewServiceName("backend", nil)}
vip, err = fsm.state.VirtualIPForService(psn)
require.NoError(t, err)
require.Equal(t, vip, "240.0.0.2")
_, serviceNames, err := fsm.state.ServiceNamesOfKind(nil, structs.ServiceKindTypical)
require.NoError(t, err)
expect := []string{"backend", "db", "frontend", "web"}
for i, sn := range serviceNames {
require.Equal(t, expect[i], sn.Service.Name)
}
// Peerings
require.NoError(t, fsm.state.PeeringWrite(31, &pbpeering.PeeringWriteRequest{
Peering: &pbpeering.Peering{
ID: "1fabcd52-1d46-49b0-b1d8-71559aee47f5",
Name: "qux",
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},
SecretsRequest: &pbpeering.SecretsWriteRequest{
PeerID: "1fabcd52-1d46-49b0-b1d8-71559aee47f5",
Request: &pbpeering.SecretsWriteRequest_GenerateToken{
GenerateToken: &pbpeering.SecretsWriteRequest_GenerateTokenRequest{
EstablishmentSecret: "baaeea83-8419-4aa8-ac89-14e7246a3d2f",
},
},
},
}))
// Peering Trust Bundles
require.NoError(t, fsm.state.PeeringTrustBundleWrite(32, &pbpeering.PeeringTrustBundle{
TrustDomain: "qux.com",
PeerName: "qux",
RootPEMs: []string{"qux certificate bundle"},
}))
// Issue two more secrets writes so that there are three secrets associated with the peering:
// - Establishment: "389bbcdf-1c31-47d6-ae96-f2a3f4c45f84"
// - Pending: "0b7812d4-32d9-4e54-b1b3-4d97084982a0"
require.NoError(t, fsm.state.PeeringSecretsWrite(34, &pbpeering.SecretsWriteRequest{
PeerID: "1fabcd52-1d46-49b0-b1d8-71559aee47f5",
Request: &pbpeering.SecretsWriteRequest_ExchangeSecret{
ExchangeSecret: &pbpeering.SecretsWriteRequest_ExchangeSecretRequest{
EstablishmentSecret: "baaeea83-8419-4aa8-ac89-14e7246a3d2f",
PendingStreamSecret: "0b7812d4-32d9-4e54-b1b3-4d97084982a0",
},
},
}))
require.NoError(t, fsm.state.PeeringSecretsWrite(33, &pbpeering.SecretsWriteRequest{
PeerID: "1fabcd52-1d46-49b0-b1d8-71559aee47f5",
Request: &pbpeering.SecretsWriteRequest_GenerateToken{
GenerateToken: &pbpeering.SecretsWriteRequest_GenerateTokenRequest{
EstablishmentSecret: "389bbcdf-1c31-47d6-ae96-f2a3f4c45f84",
},
},
}))
// Add a service-resolver entry to get a virtual IP for service foo
resolverEntry := &structs.ServiceResolverConfigEntry{
Kind: structs.ServiceResolver,
Name: "foo",
}
require.NoError(t, fsm.state.EnsureConfigEntry(34, resolverEntry))
vip, err = fsm.state.VirtualIPForService(structs.PeeredServiceName{ServiceName: structs.NewServiceName("foo", nil)})
require.NoError(t, err)
require.Equal(t, vip, "240.0.0.3")
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// Snapshot
snap, err := fsm.Snapshot()
require.NoError(t, err)
defer snap.Release()
// Persist
buf := bytes.NewBuffer(nil)
sink := &MockSink{buf, false}
require.NoError(t, snap.Persist(sink))
// create an encoder to handle some custom persisted data
// this is mainly to inject data that would no longer ever
// be persisted but that we still need to be able to restore
encoder := codec.NewEncoder(sink, structs.MsgpackHandle)
// Persist a ACLToken without a Hash - the state store will
// now tack these on but we want to ensure we can restore
// tokens without a hash and have the hash be set.
token2 := &structs.ACLToken{
AccessorID: "4464e4c2-1c55-4c37-978a-66cb3abe6587",
SecretID: "fc8708dc-c5ae-4bb2-a9af-a1ca456548fb",
Description: "Test No Hash",
CreateTime: time.Now(),
Local: false,
Policies: []structs.ACLTokenPolicyLink{
{
Name: "global-management",
ID: structs.ACLPolicyGlobalManagementID,
},
},
RaftIndex: structs.RaftIndex{CreateIndex: 1, ModifyIndex: 2},
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}
_, err = sink.Write([]byte{byte(structs.ACLTokenSetRequestType)})
require.NoError(t, err)
require.NoError(t, encoder.Encode(&token2))
// Try to restore on a new FSM
fsm2, err := New(nil, logger)
require.NoError(t, err)
// Do a restore
require.NoError(t, fsm2.Restore(sink))
// Verify the contents
_, nodes, err := fsm2.state.Nodes(nil, nil, "")
require.NoError(t, err)
require.Len(t, nodes, 2, "incorect number of nodes: %v", nodes)
// validate the first node. Note that this test relies on stable
// iteration through the memdb index and the fact that node2 has
// a name of "baz" so it should be indexed before node1 with a
// name of "foo". If memdb our our indexing changes this is likely
// to break.
require.Equal(t, node2.ID, nodes[0].ID)
require.Equal(t, "baz", nodes[0].Node)
require.Equal(t, "dc1", nodes[0].Datacenter)
require.Equal(t, "127.0.0.2", nodes[0].Address)
require.Len(t, nodes[0].Meta, 1)
require.Equal(t, "testing123", nodes[0].Meta["testMeta"])
require.Len(t, nodes[0].TaggedAddresses, 1)
require.Equal(t, "1.2.3.4", nodes[0].TaggedAddresses["hello"])
require.Equal(t, uint64(2), nodes[0].CreateIndex)
require.Equal(t, uint64(2), nodes[0].ModifyIndex)
require.Equal(t, node1.ID, nodes[1].ID)
require.Equal(t, "foo", nodes[1].Node)
require.Equal(t, "dc1", nodes[1].Datacenter)
require.Equal(t, "127.0.0.3", nodes[1].Address)
require.Empty(t, nodes[1].TaggedAddresses)
require.Equal(t, uint64(1), nodes[1].CreateIndex)
require.Equal(t, uint64(23), nodes[1].ModifyIndex)
_, fooSrv, err := fsm2.state.NodeServices(nil, "foo", nil, "")
require.NoError(t, err)
require.Len(t, fooSrv.Services, 4)
require.Contains(t, fooSrv.Services["db"].Tags, "primary")
require.True(t, stringslice.Contains(fooSrv.Services["db"].Tags, "primary"))
require.Equal(t, 5001, fooSrv.Services["db"].Port)
require.Equal(t, uint64(4), fooSrv.Services["db"].CreateIndex)
require.Equal(t, uint64(24), fooSrv.Services["db"].ModifyIndex)
connectSrv := fooSrv.Services["web"]
require.Equal(t, connectConf, connectSrv.Connect)
require.Equal(t, uint64(3), fooSrv.Services["web"].CreateIndex)
require.Equal(t, uint64(3), fooSrv.Services["web"].ModifyIndex)
_, checks, err := fsm2.state.NodeChecks(nil, "foo", nil, "")
require.NoError(t, err)
require.Len(t, checks, 1)
require.Equal(t, "foo", checks[0].Node)
require.Equal(t, "web", checks[0].ServiceName)
require.Equal(t, uint64(7), checks[0].CreateIndex)
require.Equal(t, uint64(25), checks[0].ModifyIndex)
// Verify virtual IPs are consistent.
psn = structs.PeeredServiceName{ServiceName: structs.NewServiceName("frontend", nil)}
vip, err = fsm2.state.VirtualIPForService(psn)
require.NoError(t, err)
require.Equal(t, vip, "240.0.0.1")
psn = structs.PeeredServiceName{ServiceName: structs.NewServiceName("backend", nil)}
vip, err = fsm2.state.VirtualIPForService(psn)
require.NoError(t, err)
require.Equal(t, vip, "240.0.0.2")
psn = structs.PeeredServiceName{ServiceName: structs.NewServiceName("foo", nil)}
vip, err = fsm2.state.VirtualIPForService(psn)
require.NoError(t, err)
require.Equal(t, vip, "240.0.0.3")
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// Verify key is set
_, d, err := fsm2.state.KVSGet(nil, "/test", nil)
require.NoError(t, err)
require.EqualValues(t, "foo", d.Value)
// Verify session is restored
idx, s, err := fsm2.state.SessionGet(nil, session.ID, nil)
require.NoError(t, err)
require.Equal(t, "foo", s.Node)
require.EqualValues(t, 9, idx)
// Verify ACL Binding Rule is restored
_, bindingRule2, err := fsm2.state.ACLBindingRuleGetByID(nil, bindingRule.ID, nil)
require.NoError(t, err)
require.Equal(t, bindingRule, bindingRule2)
// Verify ACL Auth Methods are restored
_, authMethods, err := fsm2.state.ACLAuthMethodList(nil, nil)
require.NoError(t, err)
require.Len(t, authMethods, 2)
require.Equal(t, "some-method", authMethods[0].Name)
require.Equal(t, "some-method2", authMethods[1].Name)
// Verify ACL Token is restored
_, rtoken, err := fsm2.state.ACLTokenGetByAccessor(nil, token.AccessorID, nil)
require.NoError(t, err)
require.NotNil(t, rtoken)
// the state store function will add on the Hash if its empty
require.NotEmpty(t, rtoken.Hash)
token.CreateTime = token.CreateTime.Round(0)
rtoken.CreateTime = rtoken.CreateTime.Round(0)
// note that this can work because the state store will add the Hash to the token before
// storing. That token just happens to be a pointer to the one in this function so it
// adds the Hash to our local var.
require.Equal(t, token, rtoken)
// Verify ACLToken without hash computes the Hash during restoration
_, rtoken, err = fsm2.state.ACLTokenGetByAccessor(nil, token2.AccessorID, nil)
require.NoError(t, err)
require.NotNil(t, rtoken)
require.NotEmpty(t, rtoken.Hash)
// nil the Hash so we can compare them
rtoken.Hash = nil
token2.CreateTime = token2.CreateTime.Round(0)
rtoken.CreateTime = rtoken.CreateTime.Round(0)
require.Equal(t, token2, rtoken)
// Verify the acl-token-bootstrap index was restored
canBootstrap, index, err := fsm2.state.CanBootstrapACLToken()
require.NoError(t, err)
require.False(t, canBootstrap)
require.True(t, index > 0)
// Verify ACL Role is restored
_, role2, err := fsm2.state.ACLRoleGetByID(nil, role.ID, nil)
require.NoError(t, err)
require.Equal(t, role, role2)
// Verify ACL Policy is restored
_, policy2, err := fsm2.state.ACLPolicyGetByID(nil, structs.ACLPolicyGlobalManagementID, nil)
require.NoError(t, err)
require.Equal(t, policy, policy2)
// Verify tombstones are restored
func() {
snap := fsm2.state.Snapshot()
defer snap.Close()
stones, err := snap.Tombstones()
require.NoError(t, err)
stone := stones.Next().(*state.Tombstone)
require.NotNil(t, stone)
require.Equal(t, "/remove", stone.Key)
require.Nil(t, stones.Next())
}()
// Verify coordinates are restored
_, coords, err := fsm2.state.Coordinates(nil, nil)
require.NoError(t, err)
require.Equal(t, updates, coords)
// Verify queries are restored.
_, queries, err := fsm2.state.PreparedQueryList(nil)
require.NoError(t, err)
require.Len(t, queries, 1)
require.Equal(t, &query, queries[0])
// Verify autopilot config is restored.
_, restoredConf, err := fsm2.state.AutopilotConfig()
require.NoError(t, err)
require.Equal(t, autopilotConf, restoredConf)
// Verify legacy intentions are restored.
_, ixns, err := fsm2.state.LegacyIntentions(nil, structs.WildcardEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
require.Len(t, ixns, 1)
require.Equal(t, ixn, ixns[0])
// Verify CA roots are restored.
_, roots, err = fsm2.state.CARoots(nil)
require.NoError(t, err)
require.Len(t, roots, 2)
// Verify provider state is restored.
_, provider, err := fsm2.state.CAProviderState("asdf")
require.NoError(t, err)
require.Equal(t, "foo", provider.PrivateKey)
require.Equal(t, "bar", provider.RootCert)
// Verify CA configuration is restored.
_, caConf, err := fsm2.state.CAConfig(nil)
require.NoError(t, err)
require.Equal(t, caConfig, caConf)
// Verify config entries are restored
_, serviceConfEntry, err := fsm2.state.ConfigEntry(nil, structs.ServiceDefaults, "foo", structs.DefaultEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
require.Equal(t, serviceConfig, serviceConfEntry)
_, proxyConfEntry, err := fsm2.state.ConfigEntry(nil, structs.ProxyDefaults, "global", structs.DefaultEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
require.Equal(t, proxyConfig, proxyConfEntry)
_, ingressRestored, err := fsm2.state.ConfigEntry(nil, structs.IngressGateway, "ingress", structs.DefaultEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
require.Equal(t, ingress, ingressRestored)
_, restoredGatewayServices, err := fsm2.state.GatewayServices(nil, "ingress", structs.DefaultEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
require.Equal(t, gatewayServices, restoredGatewayServices)
newChunkState, err := fsm2.chunker.CurrentState()
require.NoError(t, err)
require.Equal(t, newChunkState, chunkState)
// Verify federation states are restored.
_, fedStateLoaded1, err := fsm2.state.FederationStateGet(nil, "dc1")
require.NoError(t, err)
require.Equal(t, fedState1, fedStateLoaded1)
_, fedStateLoaded2, err := fsm2.state.FederationStateGet(nil, "dc2")
require.NoError(t, err)
require.Equal(t, fedState2, fedStateLoaded2)
// Verify usage data is correctly updated
idx, nodeUsage, err := fsm2.state.NodeUsage()
require.NoError(t, err)
require.Equal(t, len(nodes), nodeUsage.Nodes)
require.NotZero(t, idx)
// Verify system metadata is restored.
_, systemMetadataLoaded, err := fsm2.state.SystemMetadataList(nil)
require.NoError(t, err)
require.Len(t, systemMetadataLoaded, 2)
require.Equal(t, systemMetadataEntry, systemMetadataLoaded[1])
// Verify service-intentions is restored
_, serviceIxnEntry, err := fsm2.state.ConfigEntry(nil, structs.ServiceIntentions, "foo", structs.DefaultEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
require.Equal(t, serviceIxn, serviceIxnEntry)
// Verify mesh config entry is restored
_, meshConfigEntry, err := fsm2.state.ConfigEntry(nil, structs.MeshConfig, structs.MeshConfigMesh, structs.DefaultEnterpriseMetaInDefaultPartition())
require.NoError(t, err)
require.Equal(t, meshConfig, meshConfigEntry)
_, restoredServiceNames, err := fsm2.state.ServiceNamesOfKind(nil, structs.ServiceKindTypical)
require.NoError(t, err)
expect = []string{"backend", "db", "frontend", "web"}
for i, sn := range restoredServiceNames {
require.Equal(t, expect[i], sn.Service.Name)
}
// Verify peering is restored
idx, prngRestored, err := fsm2.state.PeeringRead(nil, state.Query{
Value: "qux",
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})
require.NoError(t, err)
require.Equal(t, uint64(32), idx) // This is the index of the PTB write, which updates the peering
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require.NotNil(t, prngRestored)
require.Equal(t, "qux", prngRestored.Name)
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// Verify peering secrets are restored
secretsRestored, err := fsm2.state.PeeringSecretsRead(nil, "1fabcd52-1d46-49b0-b1d8-71559aee47f5")
require.NoError(t, err)
expectSecrets := &pbpeering.PeeringSecrets{
PeerID: "1fabcd52-1d46-49b0-b1d8-71559aee47f5",
Establishment: &pbpeering.PeeringSecrets_Establishment{
SecretID: "389bbcdf-1c31-47d6-ae96-f2a3f4c45f84",
},
Stream: &pbpeering.PeeringSecrets_Stream{
PendingSecretID: "0b7812d4-32d9-4e54-b1b3-4d97084982a0",
},
}
prototest.AssertDeepEqual(t, expectSecrets, secretsRestored)
uuids := []string{"389bbcdf-1c31-47d6-ae96-f2a3f4c45f84", "0b7812d4-32d9-4e54-b1b3-4d97084982a0"}
for _, id := range uuids {
free, err := fsm2.state.ValidateProposedPeeringSecretUUID(id)
require.NoError(t, err)
// The UUIDs in the peering secret should be tracked as in use.
require.False(t, free)
}
// Verify peering trust bundle is restored
idx, ptbRestored, err := fsm2.state.PeeringTrustBundleRead(nil, state.Query{
Value: "qux",
})
require.NoError(t, err)
require.Equal(t, uint64(32), idx)
require.NotNil(t, ptbRestored)
require.Equal(t, "qux.com", ptbRestored.TrustDomain)
require.Equal(t, "qux", ptbRestored.PeerName)
require.Len(t, ptbRestored.RootPEMs, 1)
require.Equal(t, "qux certificate bundle", ptbRestored.RootPEMs[0])
// Snapshot
snap, err = fsm2.Snapshot()
require.NoError(t, err)
defer snap.Release()
// Persist
buf = bytes.NewBuffer(nil)
sink = &MockSink{buf, false}
require.NoError(t, snap.Persist(sink))
// Try to restore on the old FSM and make sure it abandons the old state
// store.
abandonCh := fsm.state.AbandonCh()
require.NoError(t, fsm.Restore(sink))
select {
case <-abandonCh:
default:
require.Fail(t, "Old state not abandoned")
}
}
func TestFSM_BadRestore_OSS(t *testing.T) {
t.Parallel()
// Create an FSM with some state.
logger := testutil.Logger(t)
fsm, err := New(nil, logger)
require.NoError(t, err)
fsm.state.EnsureNode(1, &structs.Node{Node: "foo", Address: "127.0.0.1"})
abandonCh := fsm.state.AbandonCh()
// Do a bad restore.
buf := bytes.NewBuffer([]byte("bad snapshot"))
sink := &MockSink{buf, false}
require.Error(t, fsm.Restore(sink))
// Verify the contents didn't get corrupted.
_, nodes, err := fsm.state.Nodes(nil, nil, "")
require.NoError(t, err)
require.Len(t, nodes, 1)
require.Equal(t, "foo", nodes[0].Node)
require.Equal(t, "127.0.0.1", nodes[0].Address)
require.Empty(t, nodes[0].TaggedAddresses)
// Verify the old state store didn't get abandoned.
select {
case <-abandonCh:
require.FailNow(t, "FSM state was abandoned when it should not have been")
default:
}
}
func TestFSM_BadSnapshot_NilCAConfig(t *testing.T) {
t.Parallel()
// Create an FSM with no config entry.
logger := testutil.Logger(t)
fsm, err := New(nil, logger)
require.NoError(t, err)
// Snapshot
snap, err := fsm.Snapshot()
require.NoError(t, err)
defer snap.Release()
// Persist
buf := bytes.NewBuffer(nil)
sink := &MockSink{buf, false}
require.NoError(t, snap.Persist(sink))
// Try to restore on a new FSM
fsm2, err := New(nil, logger)
require.NoError(t, err)
// Do a restore
require.NoError(t, fsm2.Restore(sink))
// Make sure there's no entry in the CA config table.
state := fsm2.State()
idx, config, err := state.CAConfig(nil)
require.NoError(t, err)
require.EqualValues(t, 0, idx)
require.Nil(t, config)
}
// This test asserts that ServiceVirtualIP, which made a breaking change
// in 1.13.0, can still restore from older snapshots which use the old
// state.ServiceVirtualIP type.
func Test_restoreServiceVirtualIP(t *testing.T) {
psn := structs.PeeredServiceName{
ServiceName: structs.ServiceName{
Name: "foo",
},
}
run := func(t *testing.T, input interface{}) {
t.Helper()
var b []byte
buf := bytes.NewBuffer(b)
// Encode input
encoder := codec.NewEncoder(buf, structs.MsgpackHandle)
require.NoError(t, encoder.Encode(input))
// Create a decoder
dec := codec.NewDecoder(buf, structs.MsgpackHandle)
logger := testutil.Logger(t)
fsm, err := New(nil, logger)
require.NoError(t, err)
restore := fsm.State().Restore()
// Call restore
require.NoError(t, restoreServiceVirtualIP(nil, restore, dec))
require.NoError(t, restore.Commit())
ip, err := fsm.State().VirtualIPForService(psn)
require.NoError(t, err)
// 240->224 due to addIPOffset
require.Equal(t, "224.0.0.2", ip)
}
t.Run("new ServiceVirtualIP with PeeredServiceName", func(t *testing.T) {
run(t, state.ServiceVirtualIP{
Service: psn,
IP: net.ParseIP("240.0.0.2"),
RaftIndex: structs.RaftIndex{},
})
})
t.Run("pre-1.13.0 ServiceVirtualIP with ServiceName", func(t *testing.T) {
type compatServiceVirtualIP struct {
Service structs.ServiceName
IP net.IP
RaftIndex structs.RaftIndex
}
run(t, compatServiceVirtualIP{
Service: structs.ServiceName{
Name: "foo",
},
IP: net.ParseIP("240.0.0.2"),
RaftIndex: structs.RaftIndex{},
})
})
}