open-consul/connect/tls_test.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package connect
import (
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"crypto/tls"
"crypto/x509"
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"encoding/pem"
"testing"
"github.com/google/go-cmp/cmp"
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"github.com/google/go-cmp/cmp/cmpopts"
"github.com/stretchr/testify/require"
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"github.com/hashicorp/consul/agent"
"github.com/hashicorp/consul/agent/connect"
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"github.com/hashicorp/consul/api"
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/prototest"
"github.com/hashicorp/consul/sdk/testutil"
"github.com/hashicorp/consul/testrpc"
)
func Test_verifyServerCertMatchesURI(t *testing.T) {
ca1 := connect.TestCA(t, nil)
tests := []struct {
name string
certs []*x509.Certificate
expected connect.CertURI
wantErr bool
}{
{
name: "simple match",
certs: TestPeerCertificates(t, "web", ca1),
expected: connect.TestSpiffeIDService(t, "web"),
wantErr: false,
},
{
// Could happen during migration of secondary DC to multi-DC. Trust domain
// validity is enforced with x509 name constraints where needed.
name: "different trust-domain allowed",
certs: TestPeerCertificates(t, "web", ca1),
expected: connect.TestSpiffeIDServiceWithHost(t, "web", "other.consul"),
wantErr: false,
},
{
name: "mismatch",
certs: TestPeerCertificates(t, "web", ca1),
expected: connect.TestSpiffeIDService(t, "db"),
wantErr: true,
},
{
name: "no certs",
certs: []*x509.Certificate{},
expected: connect.TestSpiffeIDService(t, "db"),
wantErr: true,
},
{
name: "nil certs",
certs: nil,
expected: connect.TestSpiffeIDService(t, "db"),
wantErr: true,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
err := verifyServerCertMatchesURI(tt.certs, tt.expected)
if tt.wantErr {
require.NotNil(t, err)
} else {
require.Nil(t, err)
}
})
}
}
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func testCertPEMBlock(t *testing.T, pemValue string) []byte {
t.Helper()
// The _ result below is not an error but the remaining PEM bytes.
block, _ := pem.Decode([]byte(pemValue))
require.NotNil(t, block)
require.Equal(t, "CERTIFICATE", block.Type)
return block.Bytes
}
func TestClientSideVerifier(t *testing.T) {
ca1 := connect.TestCA(t, nil)
ca2 := connect.TestCA(t, ca1)
webCA1PEM, _ := connect.TestLeaf(t, "web", ca1)
webCA2PEM, _ := connect.TestLeaf(t, "web", ca2)
webCA1 := testCertPEMBlock(t, webCA1PEM)
xcCA2 := testCertPEMBlock(t, ca2.SigningCert)
webCA2 := testCertPEMBlock(t, webCA2PEM)
tests := []struct {
name string
tlsCfg *tls.Config
rawCerts [][]byte
wantErr string
}{
{
name: "ok service ca1",
tlsCfg: TestTLSConfig(t, "web", ca1),
rawCerts: [][]byte{webCA1},
wantErr: "",
},
{
name: "untrusted CA",
tlsCfg: TestTLSConfig(t, "web", ca2), // only trust ca2
rawCerts: [][]byte{webCA1}, // present ca1
wantErr: "unknown authority",
},
{
name: "cross signed intermediate",
tlsCfg: TestTLSConfig(t, "web", ca1), // only trust ca1
rawCerts: [][]byte{webCA2, xcCA2}, // present ca2 signed cert, and xc
wantErr: "",
},
{
name: "cross signed without intermediate",
tlsCfg: TestTLSConfig(t, "web", ca1), // only trust ca1
rawCerts: [][]byte{webCA2}, // present ca2 signed cert only
wantErr: "unknown authority",
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
err := clientSideVerifier(tt.tlsCfg, tt.rawCerts)
if tt.wantErr == "" {
require.Nil(t, err)
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} else {
require.NotNil(t, err)
require.Contains(t, err.Error(), tt.wantErr)
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}
})
}
}
func TestServerSideVerifier(t *testing.T) {
if testing.Short() {
t.Skip("too slow for testing.Short")
}
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ca1 := connect.TestCA(t, nil)
ca2 := connect.TestCA(t, ca1)
webCA1PEM, _ := connect.TestLeaf(t, "web", ca1)
webCA2PEM, _ := connect.TestLeaf(t, "web", ca2)
apiCA1PEM, _ := connect.TestLeaf(t, "api", ca1)
apiCA2PEM, _ := connect.TestLeaf(t, "api", ca2)
webCA1 := testCertPEMBlock(t, webCA1PEM)
xcCA2 := testCertPEMBlock(t, ca2.SigningCert)
webCA2 := testCertPEMBlock(t, webCA2PEM)
apiCA1 := testCertPEMBlock(t, apiCA1PEM)
apiCA2 := testCertPEMBlock(t, apiCA2PEM)
// Setup a local test agent to query
agent := agent.StartTestAgent(t, agent.TestAgent{Name: "test-consul"})
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defer agent.Shutdown()
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testrpc.WaitForTestAgent(t, agent.RPC, "dc1")
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cfg := api.DefaultConfig()
cfg.Address = agent.HTTPAddr()
client, err := api.NewClient(cfg)
require.NoError(t, err)
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// Setup intentions to validate against. We actually default to allow so first
// setup a blanket deny rule for db, then only allow web.
connect := client.Connect()
ixn := &api.Intention{
SourceNS: "default",
SourceName: "*",
DestinationNS: "default",
DestinationName: "db",
Action: api.IntentionActionDeny,
SourceType: api.IntentionSourceConsul,
Meta: map[string]string{},
}
connect: intentions are now managed as a new config entry kind "service-intentions" (#8834) - Upgrade the ConfigEntry.ListAll RPC to be kind-aware so that older copies of consul will not see new config entries it doesn't understand replicate down. - Add shim conversion code so that the old API/CLI method of interacting with intentions will continue to work so long as none of these are edited via config entry endpoints. Almost all of the read-only APIs will continue to function indefinitely. - Add new APIs that operate on individual intentions without IDs so that the UI doesn't need to implement CAS operations. - Add a new serf feature flag indicating support for intentions-as-config-entries. - The old line-item intentions way of interacting with the state store will transparently flip between the legacy memdb table and the config entry representations so that readers will never see a hiccup during migration where the results are incomplete. It uses a piece of system metadata to control the flip. - The primary datacenter will begin migrating intentions into config entries on startup once all servers in the datacenter are on a version of Consul with the intentions-as-config-entries feature flag. When it is complete the old state store representations will be cleared. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up. - The secondary datacenters continue to run the old intentions replicator until all servers in the secondary DC and primary DC support intentions-as-config-entries (via serf flag). Once this condition it met the old intentions replicator ceases. - The secondary datacenters replicate the new config entries as they are migrated in the primary. When they detect that the primary has zeroed it's old state store table it waits until all config entries up to that point are replicated and then zeroes its own copy of the old state store table. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up.
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//nolint:staticcheck
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id, _, err := connect.IntentionCreate(ixn, nil)
require.NoError(t, err)
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require.NotEmpty(t, id)
ixn = &api.Intention{
SourceNS: "default",
SourceName: "web",
DestinationNS: "default",
DestinationName: "db",
Action: api.IntentionActionAllow,
SourceType: api.IntentionSourceConsul,
Meta: map[string]string{},
}
connect: intentions are now managed as a new config entry kind "service-intentions" (#8834) - Upgrade the ConfigEntry.ListAll RPC to be kind-aware so that older copies of consul will not see new config entries it doesn't understand replicate down. - Add shim conversion code so that the old API/CLI method of interacting with intentions will continue to work so long as none of these are edited via config entry endpoints. Almost all of the read-only APIs will continue to function indefinitely. - Add new APIs that operate on individual intentions without IDs so that the UI doesn't need to implement CAS operations. - Add a new serf feature flag indicating support for intentions-as-config-entries. - The old line-item intentions way of interacting with the state store will transparently flip between the legacy memdb table and the config entry representations so that readers will never see a hiccup during migration where the results are incomplete. It uses a piece of system metadata to control the flip. - The primary datacenter will begin migrating intentions into config entries on startup once all servers in the datacenter are on a version of Consul with the intentions-as-config-entries feature flag. When it is complete the old state store representations will be cleared. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up. - The secondary datacenters continue to run the old intentions replicator until all servers in the secondary DC and primary DC support intentions-as-config-entries (via serf flag). Once this condition it met the old intentions replicator ceases. - The secondary datacenters replicate the new config entries as they are migrated in the primary. When they detect that the primary has zeroed it's old state store table it waits until all config entries up to that point are replicated and then zeroes its own copy of the old state store table. We also record a piece of system metadata indicating this has occurred. We use this metadata to skip ALL of this code the next time the leader starts up.
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//nolint:staticcheck
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id, _, err = connect.IntentionCreate(ixn, nil)
require.NoError(t, err)
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require.NotEmpty(t, id)
tests := []struct {
name string
service string
tlsCfg *tls.Config
rawCerts [][]byte
wantErr string
}{
{
name: "ok service ca1, allow",
service: "db",
tlsCfg: TestTLSConfig(t, "db", ca1),
rawCerts: [][]byte{webCA1},
wantErr: "",
},
{
name: "untrusted CA",
service: "db",
tlsCfg: TestTLSConfig(t, "db", ca2), // only trust ca2
rawCerts: [][]byte{webCA1}, // present ca1
wantErr: "unknown authority",
},
{
name: "cross signed intermediate, allow",
service: "db",
tlsCfg: TestTLSConfig(t, "db", ca1), // only trust ca1
rawCerts: [][]byte{webCA2, xcCA2}, // present ca2 signed cert, and xc
wantErr: "",
},
{
name: "cross signed without intermediate",
service: "db",
tlsCfg: TestTLSConfig(t, "db", ca1), // only trust ca1
rawCerts: [][]byte{webCA2}, // present ca2 signed cert only
wantErr: "unknown authority",
},
{
name: "ok service ca1, deny",
service: "db",
tlsCfg: TestTLSConfig(t, "db", ca1),
rawCerts: [][]byte{apiCA1},
wantErr: "denied",
},
{
name: "cross signed intermediate, deny",
service: "db",
tlsCfg: TestTLSConfig(t, "db", ca1), // only trust ca1
rawCerts: [][]byte{apiCA2, xcCA2}, // present ca2 signed cert, and xc
wantErr: "denied",
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
v := newServerSideVerifier(testutil.Logger(t), client, tt.service)
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err := v(tt.tlsCfg, tt.rawCerts)
if tt.wantErr == "" {
require.Nil(t, err)
} else {
require.NotNil(t, err)
require.Contains(t, err.Error(), tt.wantErr)
}
})
}
}
// requireEqualTLSConfig compares tlsConfig fields we care about. Equal and even
// cmp.Diff fail on tls.Config due to unexported fields in each. expectLeaf
// allows expecting a leaf cert different from the one in expect
func requireEqualTLSConfig(t *testing.T, expect, got *tls.Config) {
require.Equal(t, expect.RootCAs, got.RootCAs)
prototest.AssertDeepEqual(t, expect.ClientCAs, got.ClientCAs, cmpCertPool)
require.Equal(t, expect.InsecureSkipVerify, got.InsecureSkipVerify)
require.Equal(t, expect.MinVersion, got.MinVersion)
require.Equal(t, expect.CipherSuites, got.CipherSuites)
require.NotNil(t, got.GetCertificate)
require.NotNil(t, got.GetClientCertificate)
require.NotNil(t, got.GetConfigForClient)
require.Contains(t, got.NextProtos, "h2")
var expectLeaf *tls.Certificate
var err error
if expect.GetCertificate != nil {
expectLeaf, err = expect.GetCertificate(nil)
require.Nil(t, err)
} else if len(expect.Certificates) > 0 {
expectLeaf = &expect.Certificates[0]
}
gotLeaf, err := got.GetCertificate(nil)
require.Nil(t, err)
require.Equal(t, expectLeaf, gotLeaf)
gotLeaf, err = got.GetClientCertificate(nil)
require.Nil(t, err)
require.Equal(t, expectLeaf, gotLeaf)
}
// cmpCertPool is a custom comparison for x509.CertPool, because CertPool.lazyCerts
// has a func field which can't be compared.
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// lazyCerts has a func field which can't be compared.
var cmpCertPool = cmp.Options{
cmpopts.IgnoreFields(x509.CertPool{}, "lazyCerts"),
cmp.AllowUnexported(x509.CertPool{}),
}
// requireCorrectVerifier invokes got.VerifyPeerCertificate and expects the
// tls.Config arg to be returned on the provided channel. This ensures the
// correct verifier func was attached to got.
//
// It then ensures that the tls.Config passed to the verifierFunc was actually
// the same as the expected current value.
func requireCorrectVerifier(t *testing.T, expect, got *tls.Config,
ch chan *tls.Config) {
err := got.VerifyPeerCertificate(nil, nil)
require.Nil(t, err)
verifierCfg := <-ch
// The tls.Cfg passed to verifyFunc should be the expected (current) value.
requireEqualTLSConfig(t, expect, verifierCfg)
}
func TestDynamicTLSConfig(t *testing.T) {
ca1 := connect.TestCA(t, nil)
ca2 := connect.TestCA(t, nil)
baseCfg := TestTLSConfig(t, "web", ca1)
newCfg := TestTLSConfig(t, "web", ca2)
c := newDynamicTLSConfig(baseCfg, nil)
// Should set them from the base config
require.Equal(t, c.Leaf(), &baseCfg.Certificates[0])
require.Equal(t, c.Roots(), baseCfg.RootCAs)
// Create verifiers we can assert are set and run correctly.
v1Ch := make(chan *tls.Config, 1)
v2Ch := make(chan *tls.Config, 1)
v3Ch := make(chan *tls.Config, 1)
verify1 := func(cfg *tls.Config, rawCerts [][]byte) error {
v1Ch <- cfg
return nil
}
verify2 := func(cfg *tls.Config, rawCerts [][]byte) error {
v2Ch <- cfg
return nil
}
verify3 := func(cfg *tls.Config, rawCerts [][]byte) error {
v3Ch <- cfg
return nil
}
// The dynamic config should be the one we loaded (with some different hooks)
gotBefore := c.Get(verify1)
requireEqualTLSConfig(t, baseCfg, gotBefore)
requireCorrectVerifier(t, baseCfg, gotBefore, v1Ch)
// Now change the roots as if we just loaded new roots from Consul
err := c.SetRoots(newCfg.RootCAs)
require.Nil(t, err)
// The dynamic config should have the new roots, but old leaf
gotAfter := c.Get(verify2)
expect := newCfg.Clone()
expect.GetCertificate = func(_ *tls.ClientHelloInfo) (*tls.Certificate, error) {
return &baseCfg.Certificates[0], nil
}
requireEqualTLSConfig(t, expect, gotAfter)
requireCorrectVerifier(t, expect, gotAfter, v2Ch)
// The old config fetched before should still call it's own verify func, but
// that verifier should be passed the new config (expect).
requireCorrectVerifier(t, expect, gotBefore, v1Ch)
// Now change the leaf
err = c.SetLeaf(&newCfg.Certificates[0])
require.Nil(t, err)
// The dynamic config should have the new roots, AND new leaf
gotAfterLeaf := c.Get(verify3)
requireEqualTLSConfig(t, newCfg, gotAfterLeaf)
requireCorrectVerifier(t, newCfg, gotAfterLeaf, v3Ch)
// Both older configs should still call their own verify funcs, but those
// verifiers should be passed the new config.
requireCorrectVerifier(t, newCfg, gotBefore, v1Ch)
requireCorrectVerifier(t, newCfg, gotAfter, v2Ch)
}
func TestDynamicTLSConfig_Ready(t *testing.T) {
ca1 := connect.TestCA(t, nil)
baseCfg := TestTLSConfig(t, "web", ca1)
c := newDynamicTLSConfig(defaultTLSConfig(), nil)
readyCh := c.ReadyWait()
assertBlocked(t, readyCh)
require.False(t, c.Ready(), "no roots or leaf, should not be ready")
err := c.SetLeaf(&baseCfg.Certificates[0])
require.NoError(t, err)
assertBlocked(t, readyCh)
require.False(t, c.Ready(), "no roots, should not be ready")
err = c.SetRoots(baseCfg.RootCAs)
require.NoError(t, err)
assertNotBlocked(t, readyCh)
require.True(t, c.Ready(), "should be ready")
ca2 := connect.TestCA(t, nil)
ca2cfg := TestTLSConfig(t, "web", ca2)
require.NoError(t, c.SetRoots(ca2cfg.RootCAs))
assertNotBlocked(t, readyCh)
require.False(t, c.Ready(), "invalid leaf, should not be ready")
require.NoError(t, c.SetRoots(baseCfg.RootCAs))
assertNotBlocked(t, readyCh)
require.True(t, c.Ready(), "should be ready")
}
func assertBlocked(t *testing.T, ch <-chan struct{}) {
t.Helper()
select {
case <-ch:
t.Fatalf("want blocked chan")
default:
return
}
}
func assertNotBlocked(t *testing.T, ch <-chan struct{}) {
t.Helper()
select {
case <-ch:
return
default:
t.Fatalf("want unblocked chan but it blocked")
}
}