package provisioner import ( "context" "crypto/x509" "net/http" "testing" "time" "github.com/pkg/errors" "github.com/smallstep/assert" "github.com/smallstep/certificates/errs" ) func TestACME_Getters(t *testing.T) { p, err := generateACME() assert.FatalError(t, err) id := "acme/" + p.Name if got := p.GetID(); got != id { t.Errorf("ACME.GetID() = %v, want %v", got, id) } if got := p.GetName(); got != p.Name { t.Errorf("ACME.GetName() = %v, want %v", got, p.Name) } if got := p.GetType(); got != TypeACME { t.Errorf("ACME.GetType() = %v, want %v", got, TypeACME) } kid, key, ok := p.GetEncryptedKey() if kid != "" || key != "" || ok == true { t.Errorf("ACME.GetEncryptedKey() = (%v, %v, %v), want (%v, %v, %v)", kid, key, ok, "", "", false) } } func TestACME_Init(t *testing.T) { type ProvisionerValidateTest struct { p *ACME err error } tests := map[string]func(*testing.T) ProvisionerValidateTest{ "fail-empty": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &ACME{}, err: errors.New("provisioner type cannot be empty"), } }, "fail-empty-name": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &ACME{ Type: "ACME", }, err: errors.New("provisioner name cannot be empty"), } }, "fail-empty-type": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &ACME{Name: "foo"}, err: errors.New("provisioner type cannot be empty"), } }, "fail-bad-claims": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &ACME{Name: "foo", Type: "bar", Claims: &Claims{DefaultTLSDur: &Duration{0}}}, err: errors.New("claims: MinTLSCertDuration must be greater than 0"), } }, "ok": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &ACME{Name: "foo", Type: "bar"}, } }, } config := Config{ Claims: globalProvisionerClaims, Audiences: testAudiences, } for name, get := range tests { t.Run(name, func(t *testing.T) { tc := get(t) err := tc.p.Init(config) if err != nil { if assert.NotNil(t, tc.err) { assert.Equals(t, tc.err.Error(), err.Error()) } } else { assert.Nil(t, tc.err) } }) } } func TestACME_AuthorizeRenew(t *testing.T) { now := time.Now().Truncate(time.Second) type test struct { p *ACME cert *x509.Certificate err error code int } tests := map[string]func(*testing.T) test{ "fail/renew-disabled": func(t *testing.T) test { p, err := generateACME() assert.FatalError(t, err) // disable renewal disable := true p.Claims = &Claims{DisableRenewal: &disable} p.ctl.Claimer, err = NewClaimer(p.Claims, globalProvisionerClaims) assert.FatalError(t, err) return test{ p: p, cert: &x509.Certificate{ NotBefore: now, NotAfter: now.Add(time.Hour), }, code: http.StatusUnauthorized, err: errors.Errorf("renew is disabled for provisioner '%s'", p.GetName()), } }, "ok": func(t *testing.T) test { p, err := generateACME() assert.FatalError(t, err) return test{ p: p, cert: &x509.Certificate{ NotBefore: now, NotAfter: now.Add(time.Hour), }, } }, } for name, tt := range tests { t.Run(name, func(t *testing.T) { tc := tt(t) if err := tc.p.AuthorizeRenew(context.Background(), tc.cert); err != nil { sc, ok := err.(errs.StatusCoder) assert.Fatal(t, ok, "error does not implement StatusCoder interface") assert.Equals(t, sc.StatusCode(), tc.code) if assert.NotNil(t, tc.err) { assert.HasPrefix(t, err.Error(), tc.err.Error()) } } else { assert.Nil(t, tc.err) } }) } } func TestACME_AuthorizeSign(t *testing.T) { type test struct { p *ACME token string code int err error } tests := map[string]func(*testing.T) test{ "ok": func(t *testing.T) test { p, err := generateACME() assert.FatalError(t, err) return test{ p: p, token: "foo", } }, } for name, tt := range tests { t.Run(name, func(t *testing.T) { tc := tt(t) if opts, err := tc.p.AuthorizeSign(context.Background(), tc.token); err != nil { if assert.NotNil(t, tc.err) { sc, ok := err.(errs.StatusCoder) assert.Fatal(t, ok, "error does not implement StatusCoder interface") assert.Equals(t, sc.StatusCode(), tc.code) assert.HasPrefix(t, err.Error(), tc.err.Error()) } } else { if assert.Nil(t, tc.err) && assert.NotNil(t, opts) { assert.Len(t, 6, opts) // number of SignOptions returned for _, o := range opts { switch v := o.(type) { case *provisionerExtensionOption: assert.Equals(t, v.Type, TypeACME) assert.Equals(t, v.Name, tc.p.GetName()) assert.Equals(t, v.CredentialID, "") assert.Len(t, 0, v.KeyValuePairs) case *forceCNOption: assert.Equals(t, v.ForceCN, tc.p.ForceCN) case profileDefaultDuration: assert.Equals(t, time.Duration(v), tc.p.ctl.Claimer.DefaultTLSCertDuration()) case defaultPublicKeyValidator: case *validityValidator: assert.Equals(t, v.min, tc.p.ctl.Claimer.MinTLSCertDuration()) assert.Equals(t, v.max, tc.p.ctl.Claimer.MaxTLSCertDuration()) case *x509NamePolicyValidator: assert.Equals(t, nil, v.policyEngine) default: assert.FatalError(t, errors.Errorf("unexpected sign option of type %T", v)) } } } } }) } }