// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: BUSL-1.1 package ca import ( "errors" "fmt" "io" "os" "os/exec" "strings" "sync" "github.com/hashicorp/go-hclog" "github.com/hashicorp/go-uuid" vaultapi "github.com/hashicorp/vault/api" "github.com/mitchellh/go-testing-interface" "github.com/stretchr/testify/require" "github.com/hashicorp/consul/agent/connect" "github.com/hashicorp/consul/sdk/freeport" "github.com/hashicorp/consul/sdk/testutil/retry" ) // KeyTestCases is a list of the important CA key types that we should test // against when signing. For now leaf keys are always EC P256 but CA can be EC // (any NIST curve) or RSA (2048, 4096). Providers must be able to complete all // signing operations with both types that includes: // - Sign must be able to sign EC P256 leaf with all these types of CA key // - CrossSignCA must be able to sign all these types of new CA key with all // these types of old CA key. // - SignIntermediate muse bt able to sign all the types of secondary // intermediate CA key with all these types of primary CA key var KeyTestCases = []KeyTestCase{ { Desc: "Default Key Type (EC 256)", KeyType: connect.DefaultPrivateKeyType, KeyBits: connect.DefaultPrivateKeyBits, }, { Desc: "RSA 2048", KeyType: "rsa", KeyBits: 2048, }, } type KeyTestCase struct { Desc string KeyType string KeyBits int } // CASigningKeyTypes is a struct with params for tests that sign one CA CSR with // another CA key. type CASigningKeyTypes struct { Desc string SigningKeyType string SigningKeyBits int CSRKeyType string CSRKeyBits int } type vaultRequirements struct { Enterprise bool } // CASigningKeyTypeCases returns the cross-product of the important supported CA // key types for generating table tests for CA signing tests (CrossSignCA and // SignIntermediate). func CASigningKeyTypeCases() []CASigningKeyTypes { cases := make([]CASigningKeyTypes, 0, len(KeyTestCases)*len(KeyTestCases)) for _, outer := range KeyTestCases { for _, inner := range KeyTestCases { cases = append(cases, CASigningKeyTypes{ Desc: fmt.Sprintf("%s-%d signing %s-%d", outer.KeyType, outer.KeyBits, inner.KeyType, inner.KeyBits), SigningKeyType: outer.KeyType, SigningKeyBits: outer.KeyBits, CSRKeyType: inner.KeyType, CSRKeyBits: inner.KeyBits, }) } } return cases } // TestConsulProvider creates a new ConsulProvider, taking care to stub out it's // Logger so that logging calls don't panic. If logging output is important func TestConsulProvider(t testing.T, d ConsulProviderStateDelegate) *ConsulProvider { logger := hclog.New(&hclog.LoggerOptions{Output: io.Discard}) provider := &ConsulProvider{Delegate: d, logger: logger} return provider } // SkipIfVaultNotPresent skips the test if the vault binary is not in PATH. // // These tests may be skipped in CI. They are run as part of a separate // integration test suite. func SkipIfVaultNotPresent(t testing.T, reqs ...vaultRequirements) { // Try to safeguard against tests that will never run in CI. // This substring should match the pattern used by the // test-connect-ca-providers CI job. if !strings.Contains(t.Name(), "Vault") { t.Fatalf("test name must contain Vault, otherwise CI will never run it") } vaultBinaryName := os.Getenv("VAULT_BINARY_NAME") if vaultBinaryName == "" { vaultBinaryName = "vault" } path, err := exec.LookPath(vaultBinaryName) if err != nil || path == "" { t.Skipf("%q not found on $PATH - download and install to run this test", vaultBinaryName) } // Check for any additional Vault requirements. for _, r := range reqs { if r.Enterprise { ver := vaultVersion(t, vaultBinaryName) if !strings.Contains(ver, "+ent") { t.Skipf("%q is not a Vault Enterprise version", ver) } } } } func NewTestVaultServer(t retry.TestingTB) *TestVaultServer { vaultBinaryName := os.Getenv("VAULT_BINARY_NAME") if vaultBinaryName == "" { vaultBinaryName = "vault" } path, err := exec.LookPath(vaultBinaryName) if err != nil || path == "" { t.Fatalf("%q not found on $PATH", vaultBinaryName) } ports := freeport.GetN(t, 2) var ( clientAddr = fmt.Sprintf("127.0.0.1:%d", ports[0]) clusterAddr = fmt.Sprintf("127.0.0.1:%d", ports[1]) ) const token = "root" client, err := vaultapi.NewClient(&vaultapi.Config{ Address: "http://" + clientAddr, }) require.NoError(t, err) client.SetToken(token) args := []string{ "server", "-dev", "-dev-root-token-id", token, "-dev-listen-address", clientAddr, "-address", clusterAddr, // We pass '-dev-no-store-token' to avoid having multiple vaults oddly // interact and fail like this: // // Error initializing Dev mode: rename /.vault-token.tmp /.vault-token: no such file or directory // "-dev-no-store-token", } cmd := exec.Command(vaultBinaryName, args...) cmd.Stdout = io.Discard cmd.Stderr = io.Discard require.NoError(t, cmd.Start()) testVault := &TestVaultServer{ RootToken: token, Addr: "http://" + clientAddr, cmd: cmd, client: client, } t.Cleanup(func() { if err := testVault.Stop(); err != nil { t.Logf("failed to stop vault server: %v", err) } }) testVault.WaitUntilReady(t) return testVault } type TestVaultServer struct { RootToken string Addr string cmd *exec.Cmd client *vaultapi.Client } var printedVaultVersion sync.Once var vaultTestVersion string func (v *TestVaultServer) Client() *vaultapi.Client { return v.client } func (v *TestVaultServer) WaitUntilReady(t retry.TestingTB) { var version string retry.Run(t, func(r *retry.R) { resp, err := v.client.Sys().Health() if err != nil { r.Fatalf("err: %v", err) } if !resp.Initialized { r.Fatalf("vault server is not initialized") } if resp.Sealed { r.Fatalf("vault server is sealed") } version = resp.Version }) printedVaultVersion.Do(func() { vaultTestVersion = version fmt.Fprintf(os.Stderr, "[INFO] agent/connect/ca: testing with vault server version: %s\n", version) }) } func (v *TestVaultServer) Stop() error { // There was no process if v.cmd == nil { return nil } if v.cmd.Process != nil { if err := v.cmd.Process.Signal(os.Interrupt); err != nil && !errors.Is(err, os.ErrProcessDone) { return fmt.Errorf("failed to kill vault server: %v", err) } } // wait for the process to exit to be sure that the data dir can be // deleted on all platforms. if err := v.cmd.Wait(); err != nil { if strings.Contains(err.Error(), "exec: Wait was already called") { return nil } return err } return nil } func requireTrailingNewline(t testing.T, leafPEM string) { t.Helper() if len(leafPEM) == 0 { t.Fatalf("cert is empty") } if rune(leafPEM[len(leafPEM)-1]) != '\n' { t.Fatalf("cert does not end with a new line") } } // The zero value implies unprivileged. type VaultTokenAttributes struct { RootPath, IntermediatePath string ConsulManaged bool VaultManaged bool WithSudo bool CustomRules string } func (a *VaultTokenAttributes) DisplayName() string { switch { case a == nil: return "unprivileged" case a.CustomRules != "": return "custom" case a.ConsulManaged: return "consul-managed" case a.VaultManaged: return "vault-managed" default: return "unprivileged" } } func (a *VaultTokenAttributes) Rules(t testing.T) string { switch { case a == nil: return "" case a.CustomRules != "": return a.CustomRules case a.RootPath == "": t.Fatal("missing required RootPath") return "" // dead code case a.IntermediatePath == "": t.Fatal("missing required IntermediatePath") return "" // dead code case a.ConsulManaged: // Consul Managed PKI Mounts rules := fmt.Sprintf(` path "sys/mounts" { capabilities = [ "read" ] } path "sys/mounts/%[1]s" { capabilities = [ "create", "read", "update", "delete", "list" ] } path "sys/mounts/%[2]s" { capabilities = [ "create", "read", "update", "delete", "list" ] } # Needed for Consul 1.11+ path "sys/mounts/%[2]s/tune" { capabilities = [ "update" ] } # vault token renewal path "auth/token/renew-self" { capabilities = [ "update" ] } path "auth/token/lookup-self" { capabilities = [ "read" ] } path "%[1]s/*" { capabilities = [ "create", "read", "update", "delete", "list" ] } path "%[2]s/*" { capabilities = [ "create", "read", "update", "delete", "list" ] } `, a.RootPath, a.IntermediatePath) if a.WithSudo { rules += fmt.Sprintf(` path "%[1]s/root/sign-self-issued" { capabilities = [ "sudo", "update" ] } `, a.RootPath) } return rules case a.VaultManaged: // Vault-managed PKI root. t.Fatal("TODO: implement this and use it in tests") return "" default: // zero value return "" } } func CreateVaultTokenWithAttrs(t testing.T, client *vaultapi.Client, attr *VaultTokenAttributes) string { policyName, err := uuid.GenerateUUID() require.NoError(t, err) rules := attr.Rules(t) token := createVaultTokenAndPolicy(t, client, policyName, rules) // t.Logf("created vault token with scope %q: %s", attr.DisplayName(), token) return token } func createVaultTokenAndPolicy(t testing.T, client *vaultapi.Client, policyName, policyRules string) string { require.NoError(t, client.Sys().PutPolicy(policyName, policyRules)) renew := true tok, err := client.Auth().Token().Create(&vaultapi.TokenCreateRequest{ Policies: []string{policyName}, Renewable: &renew, }) require.NoError(t, err) return tok.Auth.ClientToken } func vaultVersion(t testing.T, vaultBinaryName string) string { cmd := exec.Command(vaultBinaryName, []string{"version"}...) output, err := cmd.Output() require.NoError(t, err) return string(output[:len(output)-1]) }