package validation import ( "regexp" "testing" "github.com/hashicorp/terraform/helper/schema" ) type testCase struct { val interface{} f schema.SchemaValidateFunc expectedErr *regexp.Regexp } func TestValidationIntBetween(t *testing.T) { runTestCases(t, []testCase{ { val: 1, f: IntBetween(1, 1), }, { val: 1, f: IntBetween(0, 2), }, { val: 1, f: IntBetween(2, 3), expectedErr: regexp.MustCompile("expected [\\w]+ to be in the range \\(2 - 3\\), got 1"), }, { val: "1", f: IntBetween(2, 3), expectedErr: regexp.MustCompile("expected type of [\\w]+ to be int"), }, }) } func TestValidationIntAtLeast(t *testing.T) { runTestCases(t, []testCase{ { val: 1, f: IntAtLeast(1), }, { val: 1, f: IntAtLeast(0), }, { val: 1, f: IntAtLeast(2), expectedErr: regexp.MustCompile("expected [\\w]+ to be at least \\(2\\), got 1"), }, { val: "1", f: IntAtLeast(2), expectedErr: regexp.MustCompile("expected type of [\\w]+ to be int"), }, }) } func TestValidationIntAtMost(t *testing.T) { runTestCases(t, []testCase{ { val: 1, f: IntAtMost(1), }, { val: 1, f: IntAtMost(2), }, { val: 1, f: IntAtMost(0), expectedErr: regexp.MustCompile("expected [\\w]+ to be at most \\(0\\), got 1"), }, { val: "1", f: IntAtMost(0), expectedErr: regexp.MustCompile("expected type of [\\w]+ to be int"), }, }) } func TestValidationStringInSlice(t *testing.T) { runTestCases(t, []testCase{ { val: "ValidValue", f: StringInSlice([]string{"ValidValue", "AnotherValidValue"}, false), }, // ignore case { val: "VALIDVALUE", f: StringInSlice([]string{"ValidValue", "AnotherValidValue"}, true), }, { val: "VALIDVALUE", f: StringInSlice([]string{"ValidValue", "AnotherValidValue"}, false), expectedErr: regexp.MustCompile("expected [\\w]+ to be one of \\[ValidValue AnotherValidValue\\], got VALIDVALUE"), }, { val: "InvalidValue", f: StringInSlice([]string{"ValidValue", "AnotherValidValue"}, false), expectedErr: regexp.MustCompile("expected [\\w]+ to be one of \\[ValidValue AnotherValidValue\\], got InvalidValue"), }, { val: 1, f: StringInSlice([]string{"ValidValue", "AnotherValidValue"}, false), expectedErr: regexp.MustCompile("expected type of [\\w]+ to be string"), }, }) } func TestValidationStringMatch(t *testing.T) { runTestCases(t, []testCase{ { val: "foobar", f: StringMatch(regexp.MustCompile(".*foo.*"), ""), }, { val: "bar", f: StringMatch(regexp.MustCompile(".*foo.*"), ""), expectedErr: regexp.MustCompile("expected value of [\\w]+ to match regular expression " + regexp.QuoteMeta(`".*foo.*"`)), }, { val: "bar", f: StringMatch(regexp.MustCompile(".*foo.*"), "value must contain foo"), expectedErr: regexp.MustCompile("invalid value for [\\w]+ \\(value must contain foo\\)"), }, }) } func TestValidationRegexp(t *testing.T) { runTestCases(t, []testCase{ { val: ".*foo.*", f: ValidateRegexp, }, { val: "foo(bar", f: ValidateRegexp, expectedErr: regexp.MustCompile(regexp.QuoteMeta("error parsing regexp: missing closing ): `foo(bar`")), }, }) } func TestValidationSingleIP(t *testing.T) { runTestCases(t, []testCase{ { val: "172.10.10.10", f: SingleIP(), }, { val: "1.1.1", f: SingleIP(), expectedErr: regexp.MustCompile(regexp.QuoteMeta("expected test_property to contain a valid IP, got:")), }, { val: "1.1.1.0/20", f: SingleIP(), expectedErr: regexp.MustCompile(regexp.QuoteMeta("expected test_property to contain a valid IP, got:")), }, { val: "256.1.1.1", f: SingleIP(), expectedErr: regexp.MustCompile(regexp.QuoteMeta("expected test_property to contain a valid IP, got:")), }, }) } func TestValidationIPRange(t *testing.T) { runTestCases(t, []testCase{ { val: "172.10.10.10-172.10.10.12", f: IPRange(), }, { val: "172.10.10.20", f: IPRange(), expectedErr: regexp.MustCompile(regexp.QuoteMeta("expected test_property to contain a valid IP range, got:")), }, { val: "172.10.10.20-172.10.10.12", f: IPRange(), expectedErr: regexp.MustCompile(regexp.QuoteMeta("expected test_property to contain a valid IP range, got:")), }, }) } func TestValidateRFC3339TimeString(t *testing.T) { runTestCases(t, []testCase{ { val: "2018-03-01T00:00:00Z", f: ValidateRFC3339TimeString, }, { val: "2018-03-01T00:00:00-05:00", f: ValidateRFC3339TimeString, }, { val: "2018-03-01T00:00:00+05:00", f: ValidateRFC3339TimeString, }, { val: "03/01/2018", f: ValidateRFC3339TimeString, expectedErr: regexp.MustCompile(regexp.QuoteMeta(`invalid RFC3339 timestamp`)), }, { val: "03-01-2018", f: ValidateRFC3339TimeString, expectedErr: regexp.MustCompile(regexp.QuoteMeta(`invalid RFC3339 timestamp`)), }, { val: "2018-03-01", f: ValidateRFC3339TimeString, expectedErr: regexp.MustCompile(regexp.QuoteMeta(`invalid RFC3339 timestamp`)), }, { val: "2018-03-01T", f: ValidateRFC3339TimeString, expectedErr: regexp.MustCompile(regexp.QuoteMeta(`invalid RFC3339 timestamp`)), }, { val: "2018-03-01T00:00:00", f: ValidateRFC3339TimeString, expectedErr: regexp.MustCompile(regexp.QuoteMeta(`invalid RFC3339 timestamp`)), }, { val: "2018-03-01T00:00:00Z05:00", f: ValidateRFC3339TimeString, expectedErr: regexp.MustCompile(regexp.QuoteMeta(`invalid RFC3339 timestamp`)), }, { val: "2018-03-01T00:00:00Z-05:00", f: ValidateRFC3339TimeString, expectedErr: regexp.MustCompile(regexp.QuoteMeta(`invalid RFC3339 timestamp`)), }, }) } func TestValidateJsonString(t *testing.T) { type testCases struct { Value string ErrCount int } invalidCases := []testCases{ { Value: `{0:"1"}`, ErrCount: 1, }, { Value: `{'abc':1}`, ErrCount: 1, }, { Value: `{"def":}`, ErrCount: 1, }, { Value: `{"xyz":[}}`, ErrCount: 1, }, } for _, tc := range invalidCases { _, errors := ValidateJsonString(tc.Value, "json") if len(errors) != tc.ErrCount { t.Fatalf("Expected %q to trigger a validation error.", tc.Value) } } validCases := []testCases{ { Value: ``, ErrCount: 0, }, { Value: `{}`, ErrCount: 0, }, { Value: `{"abc":["1","2"]}`, ErrCount: 0, }, } for _, tc := range validCases { _, errors := ValidateJsonString(tc.Value, "json") if len(errors) != tc.ErrCount { t.Fatalf("Expected %q not to trigger a validation error.", tc.Value) } } } func TestValidateListUniqueStrings(t *testing.T) { runTestCases(t, []testCase{ { val: []interface{}{"foo", "bar"}, f: ValidateListUniqueStrings, }, { val: []interface{}{"foo", "bar", "foo"}, f: ValidateListUniqueStrings, expectedErr: regexp.MustCompile("duplicate entry - foo"), }, { val: []interface{}{"foo", "bar", "foo", "baz", "bar"}, f: ValidateListUniqueStrings, expectedErr: regexp.MustCompile("duplicate entry - (?:foo|bar)"), }, }) } func TestValidationNoZeroValues(t *testing.T) { runTestCases(t, []testCase{ { val: "foo", f: NoZeroValues, }, { val: 1, f: NoZeroValues, }, { val: float64(1), f: NoZeroValues, }, { val: "", f: NoZeroValues, expectedErr: regexp.MustCompile("must not be empty"), }, { val: 0, f: NoZeroValues, expectedErr: regexp.MustCompile("must not be zero"), }, { val: float64(0), f: NoZeroValues, expectedErr: regexp.MustCompile("must not be zero"), }, }) } func runTestCases(t *testing.T, cases []testCase) { matchErr := func(errs []error, r *regexp.Regexp) bool { // err must match one provided for _, err := range errs { if r.MatchString(err.Error()) { return true } } return false } for i, tc := range cases { _, errs := tc.f(tc.val, "test_property") if len(errs) == 0 && tc.expectedErr == nil { continue } if len(errs) != 0 && tc.expectedErr == nil { t.Fatalf("expected test case %d to produce no errors, got %v", i, errs) } if !matchErr(errs, tc.expectedErr) { t.Fatalf("expected test case %d to produce error matching \"%s\", got %v", i, tc.expectedErr, errs) } } } func TestFloatBetween(t *testing.T) { cases := map[string]struct { Value interface{} ValidateFunc schema.SchemaValidateFunc ExpectValidationErrors bool }{ "accept valid value": { Value: 1.5, ValidateFunc: FloatBetween(1.0, 2.0), ExpectValidationErrors: false, }, "accept valid value inclusive upper bound": { Value: 1.0, ValidateFunc: FloatBetween(0.0, 1.0), ExpectValidationErrors: false, }, "accept valid value inclusive lower bound": { Value: 0.0, ValidateFunc: FloatBetween(0.0, 1.0), ExpectValidationErrors: false, }, "reject out of range value": { Value: -1.0, ValidateFunc: FloatBetween(0.0, 1.0), ExpectValidationErrors: true, }, "reject incorrectly typed value": { Value: 1, ValidateFunc: FloatBetween(0.0, 1.0), ExpectValidationErrors: true, }, } for tn, tc := range cases { _, errors := tc.ValidateFunc(tc.Value, tn) if len(errors) > 0 && !tc.ExpectValidationErrors { t.Errorf("%s: unexpected errors %s", tn, errors) } else if len(errors) == 0 && tc.ExpectValidationErrors { t.Errorf("%s: expected errors but got none", tn) } } }