// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: BUSL-1.1 package agent import ( "bytes" "context" "crypto/x509" "fmt" "io" "net" "net/http/httptest" "path/filepath" "strconv" "testing" "text/template" "time" "github.com/armon/go-metrics" "github.com/hashicorp/go-hclog" "github.com/hashicorp/go-uuid" "github.com/hashicorp/consul/acl" "github.com/hashicorp/consul/agent/config" "github.com/hashicorp/consul/agent/connect" "github.com/hashicorp/consul/agent/consul" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/api" "github.com/hashicorp/consul/lib" "github.com/hashicorp/consul/sdk/freeport" "github.com/hashicorp/consul/sdk/testutil" "github.com/hashicorp/consul/sdk/testutil/retry" "github.com/hashicorp/consul/tlsutil" ) // TestAgent encapsulates an Agent with a default configuration and // startup procedure suitable for testing. It panics if there are errors // during creation or startup instead of returning errors. It manages a // temporary data directory which is removed after shutdown. type TestAgent struct { // Name is an optional name of the agent. Name string configFiles []string HCL string // Config is the agent configuration. If Config is nil then // TestConfig() is used. If Config.DataDir is set then it is // the callers responsibility to clean up the data directory. // Otherwise, a temporary data directory is created and removed // when Shutdown() is called. Config *config.RuntimeConfig // LogOutput is the sink for the logs. If nil, logs are written to os.Stderr. // The io.Writer must allow concurrent reads and writes. Note that // bytes.Buffer is not safe for concurrent reads and writes. LogOutput io.Writer LogLevel hclog.Level // DataDir may be set to a directory which exists. If is it not set, // TestAgent.Start will create one and set DataDir to the directory path. // In all cases the agent will be configured to use this path as the data directory, // and the directory will be removed once the test ends. DataDir string // UseHTTPS, if true, will disable the HTTP port and enable the HTTPS // one. UseHTTPS bool // UseGRPCTLS, if true, will disable the GRPC port and enable the GRPC+TLS // one. UseGRPCTLS bool // dns is a reference to the first started DNS endpoint. // It is valid after Start(). dns *DNSServer // srv is an HTTPHandlers that may be used to test http endpoints. srv *HTTPHandlers // overrides is an hcl config source to use to override otherwise // non-user settable configurations Overrides string // allows the BaseDeps to be modified before starting the embedded agent OverrideDeps func(deps *BaseDeps) // Agent is the embedded consul agent. // It is valid after Start(). *Agent } // NewTestAgent returns a started agent with the given configuration. It fails // the test if the Agent could not be started. func NewTestAgent(t *testing.T, hcl string) *TestAgent { a := StartTestAgent(t, TestAgent{HCL: hcl}) t.Cleanup(func() { a.Shutdown() }) return a } // NewTestAgent returns a started agent with the given configuration. It fails // the test if the Agent could not be started. // The caller is responsible for calling Shutdown() to stop the agent and remove // temporary directories. func NewTestAgentWithConfigFile(t *testing.T, hcl string, configFiles []string) *TestAgent { a := StartTestAgent(t, TestAgent{configFiles: configFiles, HCL: hcl}) t.Cleanup(func() { a.Shutdown() }) return a } // StartTestAgent and wait for it to become available. If the agent fails to // start the test will be marked failed and execution will stop. // // The caller is responsible for calling Shutdown() to stop the agent and remove // temporary directories. func StartTestAgent(t *testing.T, a TestAgent) *TestAgent { t.Helper() retry.RunWith(retry.ThreeTimes(), t, func(r *retry.R) { r.Helper() if err := a.Start(r); err != nil { r.Fatal(err) } }) return &a } func TestConfigHCL(nodeID string) string { return fmt.Sprintf(` bind_addr = "127.0.0.1" advertise_addr = "127.0.0.1" datacenter = "dc1" bootstrap = true server = true node_id = "%[1]s" node_name = "Node-%[1]s" connect { enabled = true ca_config { cluster_id = "%[2]s" } } performance { raft_multiplier = 1 } peering { enabled = true }`, nodeID, connect.TestClusterID, ) } // Start starts a test agent. It returns an error if the agent could not be started. // If no error is returned, the caller must call Shutdown() when finished. func (a *TestAgent) Start(t testutil.TestingTB) error { t.Helper() if a.Agent != nil { return fmt.Errorf("TestAgent already started") } name := a.Name if name == "" { name = "TestAgent" } if a.DataDir == "" { dirname := name + "-agent" a.DataDir = testutil.TempDir(t, dirname) } // Convert windows style path to posix style path to avoid illegal char escape // error when hcl parsing. d := filepath.ToSlash(a.DataDir) hclDataDir := fmt.Sprintf(`data_dir = "%s"`, d) logOutput := a.LogOutput if logOutput == nil { logOutput = testutil.NewLogBuffer(t) } if a.LogLevel == 0 { a.LogLevel = testutil.TestLogLevel } logger := hclog.NewInterceptLogger(&hclog.LoggerOptions{ Level: a.LogLevel, Output: logOutput, TimeFormat: "04:05.000", Name: name, }) portsConfig := randomPortsSource(t, a.UseHTTPS) // Create NodeID outside the closure, so that it does not change testHCLConfig := TestConfigHCL(NodeID()) loader := func(source config.Source) (config.LoadResult, error) { opts := config.LoadOpts{ DefaultConfig: source, HCL: []string{testHCLConfig, portsConfig, a.HCL, hclDataDir}, Overrides: []config.Source{ config.FileSource{ Name: "test-overrides", Format: "hcl", Data: a.Overrides}, config.DefaultConsulSource(), config.DevConsulSource(), }, ConfigFiles: a.configFiles, } result, err := config.Load(opts) if result.RuntimeConfig != nil { // If prom metrics need to be enabled, do not disable telemetry if result.RuntimeConfig.Telemetry.PrometheusOpts.Expiration > 0 { result.RuntimeConfig.Telemetry.Disable = false } else { result.RuntimeConfig.Telemetry.Disable = true } // Lower the resync interval for tests. result.RuntimeConfig.LocalProxyConfigResyncInterval = 250 * time.Millisecond } return result, err } bd, err := NewBaseDeps(loader, logOutput, logger) if err != nil { return fmt.Errorf("failed to create base deps: %w", err) } bd.Logger = logger // if we are not testing telemetry things, let's use a "mock" sink for metrics if bd.RuntimeConfig.Telemetry.Disable { bd.MetricsConfig = &lib.MetricsConfig{ Handler: metrics.NewInmemSink(1*time.Second, time.Minute), } } if a.Config != nil && bd.RuntimeConfig.AutoReloadConfigCoalesceInterval == 0 { bd.RuntimeConfig.AutoReloadConfigCoalesceInterval = a.Config.AutoReloadConfigCoalesceInterval } a.Config = bd.RuntimeConfig if a.OverrideDeps != nil { a.OverrideDeps(&bd) } agent, err := New(bd) if err != nil { return fmt.Errorf("Error creating agent: %s", err) } id := string(a.Config.NodeID) if err := agent.Start(context.Background()); err != nil { agent.ShutdownAgent() agent.ShutdownEndpoints() return fmt.Errorf("%s %s Error starting agent: %s", id, name, err) } a.Agent = agent // Start the anti-entropy syncer a.Agent.StartSync() a.srv = a.Agent.httpHandlers if err := a.waitForUp(); err != nil { a.Shutdown() a.Agent = nil return fmt.Errorf("error waiting for test agent to start: %w", err) } a.dns = a.dnsServers[0] return nil } // waitForUp waits for leader election, or waits for the agent HTTP // endpoint to start responding, depending on the agent config. func (a *TestAgent) waitForUp() error { timer := retry.TwoSeconds() deadline := time.Now().Add(timer.Timeout) var retErr error var out structs.IndexedNodes for ; !time.Now().After(deadline); time.Sleep(timer.Wait) { if len(a.apiServers.servers) == 0 { retErr = fmt.Errorf("waiting for server") continue // fail, try again } if a.Config.Bootstrap && a.Config.ServerMode { if a.baseDeps.UseV2Resources() { args := structs.DCSpecificRequest{ Datacenter: "dc1", } var leader string if err := a.RPC(context.Background(), "Status.Leader", args, &leader); err != nil { retErr = fmt.Errorf("Status.Leader failed: %v", err) continue // fail, try again } if leader == "" { retErr = fmt.Errorf("No leader") continue // fail, try again } return nil // success } // Ensure we have a leader and a node registration. args := &structs.DCSpecificRequest{ Datacenter: a.Config.Datacenter, QueryOptions: structs.QueryOptions{ MinQueryIndex: out.Index, MaxQueryTime: 25 * time.Millisecond, }, } if err := a.RPC(context.Background(), "Catalog.ListNodes", args, &out); err != nil { retErr = fmt.Errorf("Catalog.ListNodes failed: %v", err) continue // fail, try again } if !out.QueryMeta.KnownLeader { retErr = fmt.Errorf("No leader") continue // fail, try again } if out.Index == 0 { retErr = fmt.Errorf("Consul index is 0") continue // fail, try again } return nil // success } else { req := httptest.NewRequest("GET", "/v1/agent/self", nil) resp := httptest.NewRecorder() _, err := a.srv.AgentSelf(resp, req) if acl.IsErrPermissionDenied(err) || resp.Code == 403 { // permission denied is enough to show that the client is // connected to the servers as it would get a 503 if // it couldn't connect to them. } else if err != nil && resp.Code != 200 { retErr = fmt.Errorf("failed OK response: %v", err) continue } return nil // success } } return fmt.Errorf("unavailable. last error: %v", retErr) } // Shutdown stops the agent and removes the data directory if it is // managed by the test agent. func (a *TestAgent) Shutdown() error { if a.Agent == nil { return nil } // shutdown agent before endpoints defer a.Agent.ShutdownEndpoints() if err := a.Agent.ShutdownAgent(); err != nil { return err } <-a.Agent.ShutdownCh() return nil } func (a *TestAgent) DNSAddr() string { if a.dns == nil { return "" } return a.dns.Addr } func (a *TestAgent) HTTPAddr() string { addr, err := firstAddr(a.Agent.apiServers, "http") if err != nil { // TODO: t.Fatal instead of panic panic("no http server registered") } return addr.String() } // firstAddr is used by tests to look up the address for the first server which // matches the protocol func firstAddr(s *apiServers, protocol string) (net.Addr, error) { for _, srv := range s.servers { if srv.Protocol == protocol { return srv.Addr, nil } } return nil, fmt.Errorf("no server registered with protocol %v", protocol) } func (a *TestAgent) SegmentAddr(name string) string { if server, ok := a.Agent.delegate.(*consul.Server); ok { return server.LANSegmentAddr(name) } return "" } func (a *TestAgent) Client() *api.Client { conf := api.DefaultConfig() conf.Address = a.HTTPAddr() c, err := api.NewClient(conf) if err != nil { panic(fmt.Sprintf("Error creating consul API client: %s", err)) } return c } // DNSDisableCompression disables compression for all started DNS servers. func (a *TestAgent) DNSDisableCompression(b bool) { for _, srv := range a.dnsServers { a.config.DNSDisableCompression = b srv.ReloadConfig(a.config) } } // FIXME: this should t.Fatal on error, not panic. // TODO: rename to newConsulConfig // TODO: remove TestAgent receiver, accept a.Agent.config as an arg func (a *TestAgent) consulConfig() *consul.Config { c, err := newConsulConfig(a.Agent.config, a.Agent.logger) if err != nil { panic(err) } return c } // Using sdk/freeport with *retry.R is not possible without changing // function signatures. We use this shim instead to save the headache // of syncing sdk submodule updates. type retryShim struct { *retry.R name string } func (r *retryShim) Name() string { return r.name } // pickRandomPorts selects random ports from fixed size random blocks of // ports. This does not eliminate the chance for port conflict but // reduces it significantly with little overhead. Furthermore, asking // the kernel for a random port by binding to port 0 prolongs the test // execution (in our case +20sec) while also not fully eliminating the // chance of port conflicts for concurrently executed test binaries. // Instead of relying on one set of ports to be sufficient we retry // starting the agent with different ports on port conflict. func randomPortsSource(t testutil.TestingTB, useHTTPS bool) string { var ports []int retry.RunWith(retry.TwoSeconds(), t, func(r *retry.R) { ports = freeport.GetN(r, 7) }) var http, https int if useHTTPS { http = -1 https = ports[1] } else { http = ports[1] https = -1 } return ` ports = { dns = ` + strconv.Itoa(ports[0]) + ` http = ` + strconv.Itoa(http) + ` https = ` + strconv.Itoa(https) + ` serf_lan = ` + strconv.Itoa(ports[2]) + ` serf_wan = ` + strconv.Itoa(ports[3]) + ` server = ` + strconv.Itoa(ports[4]) + ` grpc = ` + strconv.Itoa(ports[5]) + ` grpc_tls = ` + strconv.Itoa(ports[6]) + ` } ` } func NodeID() string { id, err := uuid.GenerateUUID() if err != nil { panic(err) } return id } // TestConfig returns a unique default configuration for testing an agent. func TestConfig(logger hclog.Logger, sources ...config.Source) *config.RuntimeConfig { nodeID := NodeID() testsrc := config.FileSource{ Name: "test", Format: "hcl", Data: ` bind_addr = "127.0.0.1" advertise_addr = "127.0.0.1" datacenter = "dc1" bootstrap = true server = true node_id = "` + nodeID + `" node_name = "Node-` + nodeID + `" connect { enabled = true ca_config { cluster_id = "` + connect.TestClusterID + `" } } performance { raft_multiplier = 1 } `, } opts := config.LoadOpts{ DefaultConfig: testsrc, Overrides: sources, } r, err := config.Load(opts) if err != nil { panic("config.Load failed: " + err.Error()) } for _, w := range r.Warnings { logger.Warn(w) } cfg := r.RuntimeConfig // Effectively disables the delay after root rotation before requesting CSRs // to make test deterministic. 0 results in default jitter being applied but a // tiny delay is effectively thre same. cfg.ConnectTestCALeafRootChangeSpread = 1 * time.Nanosecond // allows registering objects with the PeerName cfg.PeeringTestAllowPeerRegistrations = true return cfg } // TestACLConfig returns a default configuration for testing an agent // with ACLs. func TestACLConfig() string { return ` primary_datacenter = "dc1" acl { enabled = true default_policy = "deny" tokens { initial_management = "root" agent = "root" agent_recovery = "towel" } } ` } const ( TestDefaultInitialManagementToken = "d9f05e83-a7ae-47ce-839e-c0d53a68c00a" TestDefaultAgentRecoveryToken = "bca580d4-db07-4074-b766-48acc9676955'" ) type TestACLConfigParams struct { PrimaryDatacenter string DefaultPolicy string InitialManagementToken string AgentToken string DefaultToken string AgentRecoveryToken string ReplicationToken string DNSToken string EnableTokenReplication bool } func DefaultTestACLConfigParams() *TestACLConfigParams { return &TestACLConfigParams{ PrimaryDatacenter: "dc1", DefaultPolicy: "deny", InitialManagementToken: TestDefaultInitialManagementToken, AgentToken: TestDefaultInitialManagementToken, AgentRecoveryToken: TestDefaultAgentRecoveryToken, } } func (p *TestACLConfigParams) HasConfiguredTokens() bool { return p.InitialManagementToken != "" || p.AgentToken != "" || p.DefaultToken != "" || p.AgentRecoveryToken != "" || p.ReplicationToken != "" || p.DNSToken != "" } func TestACLConfigNew() string { return TestACLConfigWithParams(&TestACLConfigParams{ PrimaryDatacenter: "dc1", DefaultPolicy: "deny", InitialManagementToken: "root", AgentToken: "root", AgentRecoveryToken: "towel", DNSToken: "dns", }) } var aclConfigTpl = template.Must(template.New("ACL Config").Parse(` {{- if ne .PrimaryDatacenter "" -}} primary_datacenter = "{{ .PrimaryDatacenter }}" {{end -}} acl { enabled = true {{- if ne .DefaultPolicy ""}} default_policy = "{{ .DefaultPolicy }}" {{- end}} enable_token_replication = {{printf "%t" .EnableTokenReplication }} {{- if .HasConfiguredTokens}} tokens { {{- if ne .InitialManagementToken ""}} initial_management = "{{ .InitialManagementToken }}" {{- end}} {{- if ne .AgentToken ""}} agent = "{{ .AgentToken }}" {{- end}} {{- if ne .AgentRecoveryToken "" }} agent_recovery = "{{ .AgentRecoveryToken }}" {{- end}} {{- if ne .DefaultToken "" }} default = "{{ .DefaultToken }}" {{- end}} {{- if ne .ReplicationToken "" }} replication = "{{ .ReplicationToken }}" {{- end}} } {{- end}} } `)) func TestACLConfigWithParams(params *TestACLConfigParams) string { var buf bytes.Buffer cfg := params if params == nil { cfg = DefaultTestACLConfigParams() } err := aclConfigTpl.Execute(&buf, &cfg) if err != nil { panic(fmt.Sprintf("Failed to generate test ACL config: %v", err)) } return buf.String() } // testTLSCertificates Generates a TLS CA and server key/cert and returns them // in PEM encoded form. func testTLSCertificates(serverName string) (cert string, key string, cacert string, err error) { signer, _, err := tlsutil.GeneratePrivateKey() if err != nil { return "", "", "", err } ca, _, err := tlsutil.GenerateCA(tlsutil.CAOpts{Signer: signer}) if err != nil { return "", "", "", err } cert, privateKey, err := tlsutil.GenerateCert(tlsutil.CertOpts{ Signer: signer, CA: ca, Name: "Test Cert Name", Days: 365, DNSNames: []string{serverName}, ExtKeyUsage: []x509.ExtKeyUsage{x509.ExtKeyUsageServerAuth, x509.ExtKeyUsageClientAuth}, }) if err != nil { return "", "", "", err } return cert, privateKey, ca, nil }