package provisioner import ( "context" "crypto" "crypto/rand" "crypto/rsa" "crypto/x509" "net/http" "strings" "testing" "time" "github.com/pkg/errors" "github.com/smallstep/assert" "github.com/smallstep/certificates/errs" "go.step.sm/crypto/jose" ) func TestJWK_Getters(t *testing.T) { p, err := generateJWK() assert.FatalError(t, err) if got := p.GetID(); got != p.Name+":"+p.Key.KeyID { t.Errorf("JWK.GetID() = %v, want %v:%v", got, p.Name, p.Key.KeyID) } if got := p.GetName(); got != p.Name { t.Errorf("JWK.GetName() = %v, want %v", got, p.Name) } if got := p.GetType(); got != TypeJWK { t.Errorf("JWK.GetType() = %v, want %v", got, TypeJWK) } kid, key, ok := p.GetEncryptedKey() if kid != p.Key.KeyID || key != p.EncryptedKey || ok == false { t.Errorf("JWK.GetEncryptedKey() = (%v, %v, %v), want (%v, %v, %v)", kid, key, ok, p.Key.KeyID, p.EncryptedKey, true) } p.EncryptedKey = "" kid, key, ok = p.GetEncryptedKey() if kid != p.Key.KeyID || key != "" || ok == true { t.Errorf("JWK.GetEncryptedKey() = (%v, %v, %v), want (%v, %v, %v)", kid, key, ok, p.Key.KeyID, "", false) } } func TestJWK_Init(t *testing.T) { type ProvisionerValidateTest struct { p *JWK err error } tests := map[string]func(*testing.T) ProvisionerValidateTest{ "fail-empty": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &JWK{}, err: errors.New("provisioner type cannot be empty"), } }, "fail-empty-name": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &JWK{ Type: "JWK", }, err: errors.New("provisioner name cannot be empty"), } }, "fail-empty-type": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &JWK{Name: "foo"}, err: errors.New("provisioner type cannot be empty"), } }, "fail-empty-key": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &JWK{Name: "foo", Type: "bar"}, err: errors.New("provisioner key cannot be empty"), } }, "fail-bad-claims": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &JWK{Name: "foo", Type: "bar", Key: &jose.JSONWebKey{}, Claims: &Claims{DefaultTLSDur: &Duration{0}}}, err: errors.New("claims: MinTLSCertDuration must be greater than 0"), } }, "ok": func(t *testing.T) ProvisionerValidateTest { return ProvisionerValidateTest{ p: &JWK{Name: "foo", Type: "bar", Key: &jose.JSONWebKey{}}, } }, } 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 TestJWK_authorizeToken(t *testing.T) { p1, err := generateJWK() assert.FatalError(t, err) p2, err := generateJWK() assert.FatalError(t, err) key1, err := decryptJSONWebKey(p1.EncryptedKey) assert.FatalError(t, err) key2, err := decryptJSONWebKey(p2.EncryptedKey) assert.FatalError(t, err) t1, err := generateSimpleToken(p1.Name, testAudiences.Sign[0], key1) assert.FatalError(t, err) t2, err := generateSimpleToken(p2.Name, testAudiences.Sign[1], key2) assert.FatalError(t, err) t3, err := generateToken("test.smallstep.com", p1.Name, testAudiences.Sign[0], "", []string{}, time.Now(), key1) assert.FatalError(t, err) // Invalid tokens parts := strings.Split(t1, ".") key3, err := generateJSONWebKey() assert.FatalError(t, err) // missing key failKey, err := generateSimpleToken(p1.Name, testAudiences.Sign[0], key3) assert.FatalError(t, err) // invalid token failTok := "foo." + parts[1] + "." + parts[2] // invalid claims failClaims := parts[0] + ".foo." + parts[1] // invalid issuer failIss, err := generateSimpleToken("foobar", testAudiences.Sign[0], key1) assert.FatalError(t, err) // invalid audience failAud, err := generateSimpleToken(p1.Name, "foobar", key1) assert.FatalError(t, err) // invalid signature failSig := t1[0 : len(t1)-2] // no subject failSub, err := generateToken("", p1.Name, testAudiences.Sign[0], "", []string{"test.smallstep.com"}, time.Now(), key1) assert.FatalError(t, err) // expired failExp, err := generateToken("subject", p1.Name, testAudiences.Sign[0], "", []string{"test.smallstep.com"}, time.Now().Add(-360*time.Second), key1) assert.FatalError(t, err) // not before failNbf, err := generateToken("subject", p1.Name, testAudiences.Sign[0], "", []string{"test.smallstep.com"}, time.Now().Add(360*time.Second), key1) assert.FatalError(t, err) // Remove encrypted key for p2 p2.EncryptedKey = "" type args struct { token string } tests := []struct { name string prov *JWK args args code int err error }{ {"fail-token", p1, args{failTok}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; error parsing jwk token")}, {"fail-key", p1, args{failKey}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; error parsing jwk claims")}, {"fail-claims", p1, args{failClaims}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; error parsing jwk claims")}, {"fail-signature", p1, args{failSig}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; error parsing jwk claims: square/go-jose: error in cryptographic primitive")}, {"fail-issuer", p1, args{failIss}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; invalid jwk claims: square/go-jose/jwt: validation failed, invalid issuer claim (iss)")}, {"fail-expired", p1, args{failExp}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; invalid jwk claims: square/go-jose/jwt: validation failed, token is expired (exp)")}, {"fail-not-before", p1, args{failNbf}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; invalid jwk claims: square/go-jose/jwt: validation failed, token not valid yet (nbf)")}, {"fail-audience", p1, args{failAud}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; invalid jwk token audience claim (aud)")}, {"fail-subject", p1, args{failSub}, http.StatusUnauthorized, errors.New("jwk.authorizeToken; jwk token subject cannot be empty")}, {"ok", p1, args{t1}, http.StatusOK, nil}, {"ok-no-encrypted-key", p2, args{t2}, http.StatusOK, nil}, {"ok-no-sans", p1, args{t3}, http.StatusOK, nil}, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { if got, err := tt.prov.authorizeToken(tt.args.token, testAudiences.Sign); err != nil { if assert.NotNil(t, tt.err) { sc, ok := err.(errs.StatusCoder) assert.Fatal(t, ok, "error does not implement StatusCoder interface") assert.Equals(t, sc.StatusCode(), tt.code) assert.HasPrefix(t, err.Error(), tt.err.Error()) } } else { assert.Nil(t, tt.err) assert.NotNil(t, got) } }) } } func TestJWK_AuthorizeRevoke(t *testing.T) { p1, err := generateJWK() assert.FatalError(t, err) key1, err := decryptJSONWebKey(p1.EncryptedKey) assert.FatalError(t, err) t1, err := generateSimpleToken(p1.Name, testAudiences.Revoke[0], key1) assert.FatalError(t, err) // invalid signature failSig := t1[0 : len(t1)-2] type args struct { token string } tests := []struct { name string prov *JWK args args code int err error }{ {"fail-signature", p1, args{failSig}, http.StatusUnauthorized, errors.New("jwk.AuthorizeRevoke: jwk.authorizeToken; error parsing jwk claims: square/go-jose: error in cryptographic primitive")}, {"ok", p1, args{t1}, http.StatusOK, nil}, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { if err := tt.prov.AuthorizeRevoke(context.Background(), tt.args.token); err != nil { if assert.NotNil(t, tt.err) { sc, ok := err.(errs.StatusCoder) assert.Fatal(t, ok, "error does not implement StatusCoder interface") assert.Equals(t, sc.StatusCode(), tt.code) assert.HasPrefix(t, err.Error(), tt.err.Error()) } } }) } } func TestJWK_AuthorizeSign(t *testing.T) { p1, err := generateJWK() assert.FatalError(t, err) key1, err := decryptJSONWebKey(p1.EncryptedKey) assert.FatalError(t, err) t1, err := generateToken("subject", p1.Name, testAudiences.Sign[0], "name@smallstep.com", []string{"127.0.0.1", "max@smallstep.com", "foo"}, time.Now(), key1) assert.FatalError(t, err) t2, err := generateToken("subject", p1.Name, testAudiences.Sign[0], "name@smallstep.com", []string{}, time.Now(), key1) assert.FatalError(t, err) // invalid signature failSig := t1[0 : len(t1)-2] type args struct { token string } tests := []struct { name string prov *JWK args args code int err error sans []string }{ { name: "fail-signature", prov: p1, args: args{failSig}, code: http.StatusUnauthorized, err: errors.New("jwk.AuthorizeSign: jwk.authorizeToken; error parsing jwk claims: square/go-jose: error in cryptographic primitive"), }, { name: "ok-sans", prov: p1, args: args{t1}, code: http.StatusOK, err: nil, sans: []string{"127.0.0.1", "max@smallstep.com", "foo"}, }, { name: "ok-no-sans", prov: p1, args: args{t2}, code: http.StatusOK, err: nil, sans: []string{"subject"}, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { ctx := NewContextWithMethod(context.Background(), SignMethod) if got, err := tt.prov.AuthorizeSign(ctx, tt.args.token); err != nil { if assert.NotNil(t, tt.err) { sc, ok := err.(errs.StatusCoder) assert.Fatal(t, ok, "error does not implement StatusCoder interface") assert.Equals(t, sc.StatusCode(), tt.code) assert.HasPrefix(t, err.Error(), tt.err.Error()) } } else { if assert.NotNil(t, got) { assert.Len(t, 7, got) for _, o := range got { switch v := o.(type) { case certificateOptionsFunc: case *provisionerExtensionOption: assert.Equals(t, v.Type, TypeJWK) assert.Equals(t, v.Name, tt.prov.GetName()) assert.Equals(t, v.CredentialID, tt.prov.Key.KeyID) assert.Len(t, 0, v.KeyValuePairs) case profileDefaultDuration: assert.Equals(t, time.Duration(v), tt.prov.ctl.Claimer.DefaultTLSCertDuration()) case commonNameValidator: assert.Equals(t, string(v), "subject") case defaultPublicKeyValidator: case *validityValidator: assert.Equals(t, v.min, tt.prov.ctl.Claimer.MinTLSCertDuration()) assert.Equals(t, v.max, tt.prov.ctl.Claimer.MaxTLSCertDuration()) case defaultSANsValidator: assert.Equals(t, []string(v), tt.sans) default: assert.FatalError(t, errors.Errorf("unexpected sign option of type %T", v)) } } } } }) } } func TestJWK_AuthorizeRenew(t *testing.T) { now := time.Now().Truncate(time.Second) p1, err := generateJWK() assert.FatalError(t, err) p2, err := generateJWK() assert.FatalError(t, err) // disable renewal disable := true p2.Claims = &Claims{DisableRenewal: &disable} p2.ctl.Claimer, err = NewClaimer(p2.Claims, globalProvisionerClaims) assert.FatalError(t, err) type args struct { cert *x509.Certificate } tests := []struct { name string prov *JWK args args code int wantErr bool }{ {"ok", p1, args{&x509.Certificate{ NotBefore: now, NotAfter: now.Add(time.Hour), }}, http.StatusOK, false}, {"fail/renew-disabled", p2, args{&x509.Certificate{ NotBefore: now, NotAfter: now.Add(time.Hour), }}, http.StatusUnauthorized, true}, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { if err := tt.prov.AuthorizeRenew(context.Background(), tt.args.cert); (err != nil) != tt.wantErr { t.Errorf("JWK.AuthorizeRenew() error = %v, wantErr %v", err, tt.wantErr) } else if err != nil { sc, ok := err.(errs.StatusCoder) assert.Fatal(t, ok, "error does not implement StatusCoder interface") assert.Equals(t, sc.StatusCode(), tt.code) } }) } } func TestJWK_AuthorizeSSHSign(t *testing.T) { tm, fn := mockNow() defer fn() p1, err := generateJWK() assert.FatalError(t, err) p2, err := generateJWK() assert.FatalError(t, err) // disable sshCA disable := false p2.Claims = &Claims{EnableSSHCA: &disable} p2.ctl.Claimer, err = NewClaimer(p2.Claims, globalProvisionerClaims) assert.FatalError(t, err) jwk, err := decryptJSONWebKey(p1.EncryptedKey) assert.FatalError(t, err) iss, aud := p1.Name, testAudiences.SSHSign[0] t1, err := generateSimpleSSHUserToken(iss, aud, jwk) assert.FatalError(t, err) t2, err := generateSimpleSSHHostToken(iss, aud, jwk) assert.FatalError(t, err) // invalid signature failSig := t1[0 : len(t1)-2] key, err := generateJSONWebKey() assert.FatalError(t, err) signer, err := generateJSONWebKey() assert.FatalError(t, err) pub := key.Public().Key rsa2048, err := rsa.GenerateKey(rand.Reader, 2048) assert.FatalError(t, err) rsa1024, err := rsa.GenerateKey(rand.Reader, 1024) assert.FatalError(t, err) userDuration := p1.ctl.Claimer.DefaultUserSSHCertDuration() hostDuration := p1.ctl.Claimer.DefaultHostSSHCertDuration() expectedUserOptions := &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(userDuration)), } expectedHostOptions := &SignSSHOptions{ CertType: "host", Principals: []string{"smallstep.com"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(hostDuration)), } type args struct { token string sshOpts SignSSHOptions key interface{} } tests := []struct { name string prov *JWK args args expected *SignSSHOptions code int wantErr bool wantSignErr bool }{ {"user", p1, args{t1, SignSSHOptions{}, pub}, expectedUserOptions, http.StatusOK, false, false}, {"user-rsa2048", p1, args{t1, SignSSHOptions{}, rsa2048.Public()}, expectedUserOptions, http.StatusOK, false, false}, {"user-type", p1, args{t1, SignSSHOptions{CertType: "user"}, pub}, expectedUserOptions, http.StatusOK, false, false}, {"user-principals", p1, args{t1, SignSSHOptions{Principals: []string{"name"}}, pub}, expectedUserOptions, http.StatusOK, false, false}, {"user-options", p1, args{t1, SignSSHOptions{CertType: "user", Principals: []string{"name"}}, pub}, expectedUserOptions, http.StatusOK, false, false}, {"host", p1, args{t2, SignSSHOptions{}, pub}, expectedHostOptions, http.StatusOK, false, false}, {"host-type", p1, args{t2, SignSSHOptions{CertType: "host"}, pub}, expectedHostOptions, http.StatusOK, false, false}, {"host-principals", p1, args{t2, SignSSHOptions{Principals: []string{"smallstep.com"}}, pub}, expectedHostOptions, http.StatusOK, false, false}, {"host-options", p1, args{t2, SignSSHOptions{CertType: "host", Principals: []string{"smallstep.com"}}, pub}, expectedHostOptions, http.StatusOK, false, false}, {"fail-sshCA-disabled", p2, args{"foo", SignSSHOptions{}, pub}, expectedUserOptions, http.StatusUnauthorized, true, false}, {"fail-signature", p1, args{failSig, SignSSHOptions{}, pub}, nil, http.StatusUnauthorized, true, false}, {"rail-rsa1024", p1, args{t1, SignSSHOptions{}, rsa1024.Public()}, expectedUserOptions, http.StatusOK, false, true}, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { got, err := tt.prov.AuthorizeSSHSign(context.Background(), tt.args.token) if (err != nil) != tt.wantErr { t.Errorf("JWK.AuthorizeSSHSign() error = %v, wantErr %v", err, tt.wantErr) return } if err != nil { sc, ok := err.(errs.StatusCoder) assert.Fatal(t, ok, "error does not implement StatusCoder interface") assert.Equals(t, sc.StatusCode(), tt.code) assert.Nil(t, got) } else if assert.NotNil(t, got) { cert, err := signSSHCertificate(tt.args.key, tt.args.sshOpts, got, signer.Key.(crypto.Signer)) if (err != nil) != tt.wantSignErr { t.Errorf("SignSSH error = %v, wantSignErr %v", err, tt.wantSignErr) } else { if tt.wantSignErr { assert.Nil(t, cert) } else { assert.NoError(t, validateSSHCertificate(cert, tt.expected)) } } } }) } } func TestJWK_AuthorizeSign_SSHOptions(t *testing.T) { tm, fn := mockNow() defer fn() p1, err := generateJWK() assert.FatalError(t, err) jwk, err := decryptJSONWebKey(p1.EncryptedKey) assert.FatalError(t, err) sub, iss, aud, iat := "subject@smallstep.com", p1.Name, testAudiences.SSHSign[0], time.Now() key, err := generateJSONWebKey() assert.FatalError(t, err) signer, err := generateJSONWebKey() assert.FatalError(t, err) userDuration := p1.ctl.Claimer.DefaultUserSSHCertDuration() hostDuration := p1.ctl.Claimer.DefaultHostSSHCertDuration() expectedUserOptions := &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(userDuration)), } expectedHostOptions := &SignSSHOptions{ CertType: "host", Principals: []string{"smallstep.com"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(hostDuration)), } type args struct { sub, iss, aud string iat time.Time tokSSHOpts *SignSSHOptions userSSHOpts *SignSSHOptions jwk *jose.JSONWebKey } tests := []struct { name string prov *JWK args args expected *SignSSHOptions wantErr bool wantSignErr bool }{ {"ok-user", p1, args{sub, iss, aud, iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{}, jwk}, expectedUserOptions, false, false}, {"ok-host", p1, args{sub, iss, aud, iat, &SignSSHOptions{CertType: "host", Principals: []string{"smallstep.com"}}, &SignSSHOptions{}, jwk}, expectedHostOptions, false, false}, {"ok-user-validAfter", p1, args{sub, iss, aud, iat, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, }, &SignSSHOptions{ ValidAfter: NewTimeDuration(tm.Add(-time.Hour)), }, jwk}, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm.Add(-time.Hour)), ValidBefore: NewTimeDuration(tm.Add(userDuration - time.Hour)), }, false, false}, {"ok-user-validBefore", p1, args{sub, iss, aud, iat, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, }, &SignSSHOptions{ ValidBefore: NewTimeDuration(tm.Add(time.Hour)), }, jwk}, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(time.Hour)), }, false, false}, {"ok-user-validAfter-validBefore", p1, args{sub, iss, aud, iat, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, }, &SignSSHOptions{ ValidAfter: NewTimeDuration(tm.Add(10 * time.Minute)), ValidBefore: NewTimeDuration(tm.Add(time.Hour)), }, jwk}, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm.Add(10 * time.Minute)), ValidBefore: NewTimeDuration(tm.Add(time.Hour)), }, false, false}, {"ok-user-match", p1, args{sub, iss, aud, iat, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(1 * time.Hour)), }, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(1 * time.Hour)), }, jwk}, &SignSSHOptions{ CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm), ValidBefore: NewTimeDuration(tm.Add(time.Hour)), }, false, false}, {"fail-certType", p1, args{sub, iss, aud, iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{CertType: "host"}, jwk}, nil, false, true}, {"fail-principals", p1, args{sub, iss, aud, iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{Principals: []string{"root"}}, jwk}, nil, false, true}, {"fail-validAfter", p1, args{sub, iss, aud, iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}, ValidAfter: NewTimeDuration(tm)}, &SignSSHOptions{ValidAfter: NewTimeDuration(tm.Add(time.Hour))}, jwk}, nil, false, true}, {"fail-validBefore", p1, args{sub, iss, aud, iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}, ValidBefore: NewTimeDuration(tm.Add(time.Hour))}, &SignSSHOptions{ValidBefore: NewTimeDuration(tm.Add(10 * time.Hour))}, jwk}, nil, false, true}, {"fail-subject", p1, args{"", iss, aud, iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{}, jwk}, nil, true, false}, {"fail-issuer", p1, args{sub, "invalid", aud, iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{}, jwk}, nil, true, false}, {"fail-audience", p1, args{sub, iss, "invalid", iat, &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{}, jwk}, nil, true, false}, {"fail-expired", p1, args{sub, iss, aud, iat.Add(-6 * time.Minute), &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{}, jwk}, nil, true, false}, {"fail-notBefore", p1, args{sub, iss, aud, iat.Add(5 * time.Minute), &SignSSHOptions{CertType: "user", Principals: []string{"name"}}, &SignSSHOptions{}, jwk}, nil, true, false}, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { token, err := generateSSHToken(tt.args.sub, tt.args.iss, tt.args.aud, tt.args.iat, tt.args.tokSSHOpts, tt.args.jwk) assert.FatalError(t, err) if got, err := tt.prov.AuthorizeSSHSign(context.Background(), token); (err != nil) != tt.wantErr { t.Errorf("JWK.AuthorizeSSHSign() error = %v, wantErr %v", err, tt.wantErr) } else if !tt.wantErr && assert.NotNil(t, got) { var opts SignSSHOptions if tt.args.userSSHOpts != nil { opts = *tt.args.userSSHOpts } cert, err := signSSHCertificate(key.Public().Key, opts, got, signer.Key.(crypto.Signer)) if (err != nil) != tt.wantSignErr { t.Errorf("SignSSH error = %v, wantSignErr %v", err, tt.wantSignErr) } else { if tt.wantSignErr { assert.Nil(t, cert) } else { assert.NoError(t, validateSSHCertificate(cert, tt.expected)) } } } }) } } func TestJWK_AuthorizeSSHRevoke(t *testing.T) { type test struct { p *JWK token string code int err error } tests := map[string]func(*testing.T) test{ "fail/invalid-token": func(t *testing.T) test { p, err := generateJWK() assert.FatalError(t, err) return test{ p: p, token: "foo", code: http.StatusUnauthorized, err: errors.New("jwk.AuthorizeSSHRevoke: jwk.authorizeToken; error parsing jwk token"), } }, "ok": func(t *testing.T) test { p, err := generateJWK() assert.FatalError(t, err) jwk, err := decryptJSONWebKey(p.EncryptedKey) assert.FatalError(t, err) tok, err := generateToken("subject", p.Name, testAudiences.SSHRevoke[0], "name@smallstep.com", []string{"127.0.0.1", "max@smallstep.com", "foo"}, time.Now(), jwk) assert.FatalError(t, err) return test{ p: p, token: tok, } }, } for name, tt := range tests { t.Run(name, func(t *testing.T) { tc := tt(t) if err := tc.p.AuthorizeSSHRevoke(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 { assert.Nil(t, tc.err) } }) } }