package opts import ( "fmt" "strings" "testing" "gotest.tools/v3/assert" is "gotest.tools/v3/assert/cmp" ) func TestValidateIPAddress(t *testing.T) { tests := []struct { doc string input string expectedOut string expectedErr string }{ { doc: "IPv4 loopback", input: `127.0.0.1`, expectedOut: `127.0.0.1`, }, { doc: "IPv4 loopback with whitespace", input: ` 127.0.0.1 `, expectedOut: `127.0.0.1`, }, { doc: "IPv6 loopback long form", input: `0:0:0:0:0:0:0:1`, expectedOut: `::1`, }, { doc: "IPv6 loopback", input: `::1`, expectedOut: `::1`, }, { doc: "IPv6 loopback with whitespace", input: ` ::1 `, expectedOut: `::1`, }, { doc: "IPv6 lowercase", input: `2001:db8::68`, expectedOut: `2001:db8::68`, }, { doc: "IPv6 uppercase", input: `2001:DB8::68`, expectedOut: `2001:db8::68`, }, { doc: "IPv6 with brackets", input: `[::1]`, expectedErr: `IP address is not correctly formatted: [::1]`, }, { doc: "IPv4 partial", input: `127`, expectedErr: `IP address is not correctly formatted: 127`, }, { doc: "random invalid string", input: `random invalid string`, expectedErr: `IP address is not correctly formatted: random invalid string`, }, } for _, tc := range tests { tc := tc t.Run(tc.input, func(t *testing.T) { actualOut, actualErr := ValidateIPAddress(tc.input) assert.Check(t, is.Equal(tc.expectedOut, actualOut)) if tc.expectedErr == "" { assert.Check(t, actualErr) } else { assert.Check(t, is.Error(actualErr, tc.expectedErr)) } }) } } func TestMapOpts(t *testing.T) { tmpMap := make(map[string]string) o := NewMapOpts(tmpMap, sampleValidator) err := o.Set("valid-option=1") if err != nil { t.Error(err) } if o.String() != "map[valid-option:1]" { t.Errorf("%s != [map[valid-option:1]", o.String()) } err = o.Set("valid-option2=2") if err != nil { t.Error(err) } if len(tmpMap) != 2 { t.Errorf("map length %d != 2", len(tmpMap)) } if tmpMap["valid-option"] != "1" { t.Errorf("valid-option = %s != 1", tmpMap["valid-option"]) } if tmpMap["valid-option2"] != "2" { t.Errorf("valid-option2 = %s != 2", tmpMap["valid-option2"]) } if o.Set("dummy-val=3") == nil { t.Error("validator is not being called") } } func TestListOptsWithoutValidator(t *testing.T) { o := NewListOpts(nil) err := o.Set("foo") if err != nil { t.Error(err) } if o.String() != "[foo]" { t.Errorf("%s != [foo]", o.String()) } err = o.Set("bar") if err != nil { t.Error(err) } if o.Len() != 2 { t.Errorf("%d != 2", o.Len()) } err = o.Set("bar") if err != nil { t.Error(err) } if o.Len() != 3 { t.Errorf("%d != 3", o.Len()) } if !o.Get("bar") { t.Error("o.Get(\"bar\") == false") } if o.Get("baz") { t.Error("o.Get(\"baz\") == true") } o.Delete("foo") if o.String() != "[bar bar]" { t.Errorf("%s != [bar bar]", o.String()) } listOpts := o.GetAll() if len(listOpts) != 2 || listOpts[0] != "bar" || listOpts[1] != "bar" { t.Errorf("Expected [[bar bar]], got [%v]", listOpts) } mapListOpts := o.GetMap() if len(mapListOpts) != 1 { t.Errorf("Expected [map[bar:{}]], got [%v]", mapListOpts) } } func TestListOptsWithValidator(t *testing.T) { o := NewListOpts(sampleValidator) err := o.Set("foo") if err == nil { t.Error(err) } if o.String() != "" { t.Errorf(`%s != ""`, o.String()) } err = o.Set("foo=bar") if err == nil { t.Error(err) } if o.String() != "" { t.Errorf(`%s != ""`, o.String()) } err = o.Set("valid-option2=2") if err != nil { t.Error(err) } if o.Len() != 1 { t.Errorf("%d != 1", o.Len()) } if !o.Get("valid-option2=2") { t.Error(`o.Get("valid-option2=2") == false`) } if o.Get("baz") { t.Error(`o.Get("baz") == true`) } o.Delete("valid-option2=2") if o.String() != "" { t.Errorf(`%s != ""`, o.String()) } } //nolint:lll func TestValidateDNSSearch(t *testing.T) { valid := []string{ `.`, `a`, `a.`, `1.foo`, `17.foo`, `foo.bar`, `foo.bar.baz`, `foo.bar.`, `foo.bar.baz`, `foo1.bar2`, `foo1.bar2.baz`, `1foo.2bar.`, `1foo.2bar.baz`, `foo-1.bar-2`, `foo-1.bar-2.baz`, `foo-1.bar-2.`, `foo-1.bar-2.baz`, `1-foo.2-bar`, `1-foo.2-bar.baz`, `1-foo.2-bar.`, `1-foo.2-bar.baz`, } invalid := []string{ ``, ` `, ` `, `17`, `17.`, `.17`, `17-.`, `17-.foo`, `.foo`, `foo-.bar`, `-foo.bar`, `foo.bar-`, `foo.bar-.baz`, `foo.-bar`, `foo.-bar.baz`, `foo.bar.baz.this.should.fail.on.long.name.because.it.is.longer.thanisshouldbethis.should.fail.on.long.name.because.it.is.longer.thanisshouldbethis.should.fail.on.long.name.because.it.is.longer.thanisshouldbethis.should.fail.on.long.name.because.it.is.longer.thanisshouldbe`, } for _, domain := range valid { if ret, err := ValidateDNSSearch(domain); err != nil || ret == "" { t.Fatalf("ValidateDNSSearch(`"+domain+"`) got %s %s", ret, err) } } for _, domain := range invalid { if ret, err := ValidateDNSSearch(domain); err == nil || ret != "" { t.Fatalf("ValidateDNSSearch(`"+domain+"`) got %s %s", ret, err) } } } func TestValidateLabel(t *testing.T) { tests := []struct { name string value string expectedErr string }{ { name: "empty", expectedErr: `invalid label '': empty name`, }, { name: "whitespace only ", value: " ", expectedErr: `invalid label ' ': empty name`, }, { name: "whitespace around equal-sign", value: " = ", expectedErr: `invalid label ' = ': empty name`, }, { name: "leading whitespace", value: " label=value", }, { name: "whitespaces in key without value", value: "this is a label without value", expectedErr: `label 'this is a label without value' contains whitespaces`, }, { name: "whitespaces in key", value: "this is a label=value", expectedErr: `label 'this is a label' contains whitespaces`, }, { name: "whitespaces in value", value: "label=a value that has whitespace", }, { name: "trailing whitespace in value", value: "label=value ", }, { name: "leading whitespace in value", value: "label= value", }, { name: "no value", value: "label", }, { name: "no key", value: "=label", expectedErr: `invalid label '=label': empty name`, }, { name: "empty value", value: "label=", }, { name: "key value", value: "key1=value1", }, { name: "double equal-signs", value: "key1=value1=value2", }, { name: "multiple equal-signs", value: "key1=value1=value2=value", }, { name: "double quotes in key and value", value: `key"with"quotes={"hello"}`, }, { name: "double quotes around key and value", value: `"quoted-label"="quoted value"`, }, { name: "single quotes in key and value", value: `key'with'quotes=hello'with'quotes`, }, { name: "single quotes around key and value", value: `'quoted-label'='quoted value''`, }, } for _, tc := range tests { tc := tc t.Run(tc.name, func(t *testing.T) { val, err := ValidateLabel(tc.value) if tc.expectedErr != "" { assert.Error(t, err, tc.expectedErr) return } assert.NilError(t, err) assert.Equal(t, val, tc.value) }) } } func sampleValidator(val string) (string, error) { allowedKeys := map[string]string{"valid-option": "1", "valid-option2": "2"} k, _, _ := strings.Cut(val, "=") if allowedKeys[k] != "" { return val, nil } return "", fmt.Errorf("invalid key %s", k) } func TestNamedListOpts(t *testing.T) { var v []string o := NewNamedListOptsRef("foo-name", &v, nil) o.Set("foo") if o.String() != "[foo]" { t.Errorf("%s != [foo]", o.String()) } if o.Name() != "foo-name" { t.Errorf("%s != foo-name", o.Name()) } if len(v) != 1 { t.Errorf("expected foo to be in the values, got %v", v) } } func TestNamedMapOpts(t *testing.T) { tmpMap := make(map[string]string) o := NewNamedMapOpts("max-name", tmpMap, nil) o.Set("max-size=1") if o.String() != "map[max-size:1]" { t.Errorf("%s != [map[max-size:1]", o.String()) } if o.Name() != "max-name" { t.Errorf("%s != max-name", o.Name()) } if _, exist := tmpMap["max-size"]; !exist { t.Errorf("expected map-size to be in the values, got %v", tmpMap) } } func TestValidateMACAddress(t *testing.T) { if _, err := ValidateMACAddress(`92:d0:c6:0a:29:33`); err != nil { t.Fatalf("ValidateMACAddress(`92:d0:c6:0a:29:33`) got %s", err) } if _, err := ValidateMACAddress(`92:d0:c6:0a:33`); err == nil { t.Fatalf("ValidateMACAddress(`92:d0:c6:0a:33`) succeeded; expected failure on invalid MAC") } if _, err := ValidateMACAddress(`random invalid string`); err == nil { t.Fatalf("ValidateMACAddress(`random invalid string`) succeeded; expected failure on invalid MAC") } } func TestValidateLink(t *testing.T) { valid := []string{ "name", "dcdfbe62ecd0:alias", "7a67485460b7642516a4ad82ecefe7f57d0c4916f530561b71a50a3f9c4e33da", "angry_torvalds:linus", } invalid := map[string]string{ "": "empty string specified for links", "too:much:of:it": "bad format for links: too:much:of:it", } for _, link := range valid { if _, err := ValidateLink(link); err != nil { t.Fatalf("ValidateLink(`%q`) should succeed: error %q", link, err) } } for link, expectedError := range invalid { if _, err := ValidateLink(link); err == nil { t.Fatalf("ValidateLink(`%q`) should have failed validation", link) } else if !strings.Contains(err.Error(), expectedError) { t.Fatalf("ValidateLink(`%q`) error should contain %q", link, expectedError) } } } func TestParseLink(t *testing.T) { name, alias, err := ParseLink("name:alias") if err != nil { t.Fatalf("Expected not to error out on a valid name:alias format but got: %v", err) } if name != "name" { t.Fatalf("Link name should have been name, got %s instead", name) } if alias != "alias" { t.Fatalf("Link alias should have been alias, got %s instead", alias) } // short format definition name, alias, err = ParseLink("name") if err != nil { t.Fatalf("Expected not to error out on a valid name only format but got: %v", err) } if name != "name" { t.Fatalf("Link name should have been name, got %s instead", name) } if alias != "name" { t.Fatalf("Link alias should have been name, got %s instead", alias) } // empty string link definition is not allowed if _, _, err := ParseLink(""); err == nil || !strings.Contains(err.Error(), "empty string specified for links") { t.Fatalf("Expected error 'empty string specified for links' but got: %v", err) } // more than two colons are not allowed if _, _, err := ParseLink("link:alias:wrong"); err == nil || !strings.Contains(err.Error(), "bad format for links: link:alias:wrong") { t.Fatalf("Expected error 'bad format for links: link:alias:wrong' but got: %v", err) } } func TestGetAllOrEmptyReturnsNilOrValue(t *testing.T) { opts := NewListOpts(nil) assert.Check(t, is.DeepEqual(opts.GetAllOrEmpty(), []string{})) opts.Set("foo") assert.Check(t, is.DeepEqual(opts.GetAllOrEmpty(), []string{"foo"})) } func TestParseCPUsReturnZeroOnInvalidValues(t *testing.T) { resValue, _ := ParseCPUs("foo") var z1 int64 = 0 assert.Equal(t, z1, resValue) resValue, _ = ParseCPUs("1e-32") assert.Equal(t, z1, resValue) }