mindoc/vendor/gopkg.in/ldap.v2/dn_test.go

package ldap_test

import (
	"reflect"
	"testing"

	"gopkg.in/ldap.v2"
)

func TestSuccessfulDNParsing(t *testing.T) {
	testcases := map[string]ldap.DN{
		"": ldap.DN{[]*ldap.RelativeDN{}},
		"cn=Jim\\2C \\22Hasse Hö\\22 Hansson!,dc=dummy,dc=com": ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"cn", "Jim, \"Hasse Hö\" Hansson!"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"dc", "dummy"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"dc", "com"}}}}},
		"UID=jsmith,DC=example,DC=net": ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"UID", "jsmith"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "example"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "net"}}}}},
		"OU=Sales+CN=J. Smith,DC=example,DC=net": ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{
				&ldap.AttributeTypeAndValue{"OU", "Sales"},
				&ldap.AttributeTypeAndValue{"CN", "J. Smith"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "example"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "net"}}}}},
		"1.3.6.1.4.1.1466.0=#04024869": ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"1.3.6.1.4.1.1466.0", "Hi"}}}}},
		"1.3.6.1.4.1.1466.0=#04024869,DC=net": ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"1.3.6.1.4.1.1466.0", "Hi"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "net"}}}}},
		"CN=Lu\\C4\\8Di\\C4\\87": ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"CN", "Lučić"}}}}},
		"  CN  =  Lu\\C4\\8Di\\C4\\87  ": ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"CN", "Lučić"}}}}},
		`   A   =   1   ,   B   =   2   `: ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"A", "1"}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"B", "2"}}}}},
		`   A   =   1   +   B   =   2   `: ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{
				&ldap.AttributeTypeAndValue{"A", "1"},
				&ldap.AttributeTypeAndValue{"B", "2"}}}}},
		`   \ \ A\ \    =   \ \ 1\ \    ,   \ \ B\ \    =   \ \ 2\ \    `: ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"  A  ", "  1  "}}},
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"  B  ", "  2  "}}}}},
		`   \ \ A\ \    =   \ \ 1\ \    +   \ \ B\ \    =   \ \ 2\ \    `: ldap.DN{[]*ldap.RelativeDN{
			&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{
				&ldap.AttributeTypeAndValue{"  A  ", "  1  "},
				&ldap.AttributeTypeAndValue{"  B  ", "  2  "}}}}},
	}

	for test, answer := range testcases {
		dn, err := ldap.ParseDN(test)
		if err != nil {
			t.Errorf(err.Error())
			continue
		}
		if !reflect.DeepEqual(dn, &answer) {
			t.Errorf("Parsed DN %s is not equal to the expected structure", test)
			t.Logf("Expected:")
			for _, rdn := range answer.RDNs {
				for _, attribs := range rdn.Attributes {
					t.Logf("#%v\n", attribs)
				}
			}
			t.Logf("Actual:")
			for _, rdn := range dn.RDNs {
				for _, attribs := range rdn.Attributes {
					t.Logf("#%v\n", attribs)
				}
			}
		}
	}
}

func TestErrorDNParsing(t *testing.T) {
	testcases := map[string]string{
		"*":               "DN ended with incomplete type, value pair",
		"cn=Jim\\0Test":   "Failed to decode escaped character: encoding/hex: invalid byte: U+0054 'T'",
		"cn=Jim\\0":       "Got corrupted escaped character",
		"DC=example,=net": "DN ended with incomplete type, value pair",
		"1=#0402486":      "Failed to decode BER encoding: encoding/hex: odd length hex string",
	}

	for test, answer := range testcases {
		_, err := ldap.ParseDN(test)
		if err == nil {
			t.Errorf("Expected %s to fail parsing but succeeded\n", test)
		} else if err.Error() != answer {
			t.Errorf("Unexpected error on %s:\n%s\nvs.\n%s\n", test, answer, err.Error())
		}
	}
}

func TestDNEqual(t *testing.T) {
	testcases := []struct {
		A     string
		B     string
		Equal bool
	}{
		// Exact match
		{"", "", true},
		{"o=A", "o=A", true},
		{"o=A", "o=B", false},

		{"o=A,o=B", "o=A,o=B", true},
		{"o=A,o=B", "o=A,o=C", false},

		{"o=A+o=B", "o=A+o=B", true},
		{"o=A+o=B", "o=A+o=C", false},

		// Case mismatch in type is ignored
		{"o=A", "O=A", true},
		{"o=A,o=B", "o=A,O=B", true},
		{"o=A+o=B", "o=A+O=B", true},

		// Case mismatch in value is significant
		{"o=a", "O=A", false},
		{"o=a,o=B", "o=A,O=B", false},
		{"o=a+o=B", "o=A+O=B", false},

		// Multi-valued RDN order mismatch is ignored
		{"o=A+o=B", "O=B+o=A", true},
		// Number of RDN attributes is significant
		{"o=A+o=B", "O=B+o=A+O=B", false},

		// Missing values are significant
		{"o=A+o=B", "O=B+o=A+O=C", false}, // missing values matter
		{"o=A+o=B+o=C", "O=B+o=A", false}, // missing values matter

		// Whitespace tests
		// Matching
		{
			"cn=John Doe, ou=People, dc=sun.com",
			"cn=John Doe, ou=People, dc=sun.com",
			true,
		},
		// Difference in leading/trailing chars is ignored
		{
			"cn=John Doe, ou=People, dc=sun.com",
			"cn=John Doe,ou=People,dc=sun.com",
			true,
		},
		// Difference in values is significant
		{
			"cn=John Doe, ou=People, dc=sun.com",
			"cn=John  Doe, ou=People, dc=sun.com",
			false,
		},
	}

	for i, tc := range testcases {
		a, err := ldap.ParseDN(tc.A)
		if err != nil {
			t.Errorf("%d: %v", i, err)
			continue
		}
		b, err := ldap.ParseDN(tc.B)
		if err != nil {
			t.Errorf("%d: %v", i, err)
			continue
		}
		if expected, actual := tc.Equal, a.Equal(b); expected != actual {
			t.Errorf("%d: when comparing '%s' and '%s' expected %v, got %v", i, tc.A, tc.B, expected, actual)
			continue
		}
		if expected, actual := tc.Equal, b.Equal(a); expected != actual {
			t.Errorf("%d: when comparing '%s' and '%s' expected %v, got %v", i, tc.A, tc.B, expected, actual)
			continue
		}
	}
}

func TestDNAncestor(t *testing.T) {
	testcases := []struct {
		A        string
		B        string
		Ancestor bool
	}{
		// Exact match returns false
		{"", "", false},
		{"o=A", "o=A", false},
		{"o=A,o=B", "o=A,o=B", false},
		{"o=A+o=B", "o=A+o=B", false},

		// Mismatch
		{"ou=C,ou=B,o=A", "ou=E,ou=D,ou=B,o=A", false},

		// Descendant
		{"ou=C,ou=B,o=A", "ou=E,ou=C,ou=B,o=A", true},
	}

	for i, tc := range testcases {
		a, err := ldap.ParseDN(tc.A)
		if err != nil {
			t.Errorf("%d: %v", i, err)
			continue
		}
		b, err := ldap.ParseDN(tc.B)
		if err != nil {
			t.Errorf("%d: %v", i, err)
			continue
		}
		if expected, actual := tc.Ancestor, a.AncestorOf(b); expected != actual {
			t.Errorf("%d: when comparing '%s' and '%s' expected %v, got %v", i, tc.A, tc.B, expected, actual)
			continue
		}
	}
}
改用glide做包管理工具 2017-05-30 19:09:50 +08:00			`package ldap_test`

			`import (`
			`"reflect"`
			`"testing"`

			`"gopkg.in/ldap.v2"`
			`)`

			`func TestSuccessfulDNParsing(t *testing.T) {`
			`testcases := map[string]ldap.DN{`
			`"": ldap.DN{[]*ldap.RelativeDN{}},`
			`"cn=Jim\\2C \\22Hasse Hö\\22 Hansson!,dc=dummy,dc=com": ldap.DN{[]*ldap.RelativeDN{`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"cn", "Jim, \"Hasse Hö\" Hansson!"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"dc", "dummy"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"dc", "com"}}}}},`
			`"UID=jsmith,DC=example,DC=net": ldap.DN{[]*ldap.RelativeDN{`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"UID", "jsmith"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "example"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "net"}}}}},`
			`"OU=Sales+CN=J. Smith,DC=example,DC=net": ldap.DN{[]*ldap.RelativeDN{`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{`
			`&ldap.AttributeTypeAndValue{"OU", "Sales"},`
			`&ldap.AttributeTypeAndValue{"CN", "J. Smith"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "example"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "net"}}}}},`
			`"1.3.6.1.4.1.1466.0=#04024869": ldap.DN{[]*ldap.RelativeDN{`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"1.3.6.1.4.1.1466.0", "Hi"}}}}},`
			`"1.3.6.1.4.1.1466.0=#04024869,DC=net": ldap.DN{[]*ldap.RelativeDN{`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"1.3.6.1.4.1.1466.0", "Hi"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"DC", "net"}}}}},`
			`"CN=Lu\\C4\\8Di\\C4\\87": ldap.DN{[]*ldap.RelativeDN{`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"CN", "Lučić"}}}}},`
			`" CN = Lu\\C4\\8Di\\C4\\87 ": ldap.DN{[]*ldap.RelativeDN{`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"CN", "Lučić"}}}}},`
			` A = 1 , B = 2 `: ldap.DN{[]*ldap.RelativeDN{
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"A", "1"}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{"B", "2"}}}}},`
			` A = 1 + B = 2 `: ldap.DN{[]*ldap.RelativeDN{
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{`
			`&ldap.AttributeTypeAndValue{"A", "1"},`
			`&ldap.AttributeTypeAndValue{"B", "2"}}}}},`
			` \ \ A\ \ = \ \ 1\ \ , \ \ B\ \ = \ \ 2\ \ `: ldap.DN{[]*ldap.RelativeDN{
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{" A ", " 1 "}}},`
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{&ldap.AttributeTypeAndValue{" B ", " 2 "}}}}},`
			` \ \ A\ \ = \ \ 1\ \ + \ \ B\ \ = \ \ 2\ \ `: ldap.DN{[]*ldap.RelativeDN{
			`&ldap.RelativeDN{[]*ldap.AttributeTypeAndValue{`
			`&ldap.AttributeTypeAndValue{" A ", " 1 "},`
			`&ldap.AttributeTypeAndValue{" B ", " 2 "}}}}},`
			`}`

			`for test, answer := range testcases {`
			`dn, err := ldap.ParseDN(test)`
			`if err != nil {`
			`t.Errorf(err.Error())`
			`continue`
			`}`
			`if !reflect.DeepEqual(dn, &answer) {`
			`t.Errorf("Parsed DN %s is not equal to the expected structure", test)`
			`t.Logf("Expected:")`
			`for _, rdn := range answer.RDNs {`
			`for _, attribs := range rdn.Attributes {`
			`t.Logf("#%v\n", attribs)`
			`}`
			`}`
			`t.Logf("Actual:")`
			`for _, rdn := range dn.RDNs {`
			`for _, attribs := range rdn.Attributes {`
			`t.Logf("#%v\n", attribs)`
			`}`
			`}`
			`}`
			`}`
			`}`

			`func TestErrorDNParsing(t *testing.T) {`
			`testcases := map[string]string{`
			`"*": "DN ended with incomplete type, value pair",`
			`"cn=Jim\\0Test": "Failed to decode escaped character: encoding/hex: invalid byte: U+0054 'T'",`
			`"cn=Jim\\0": "Got corrupted escaped character",`
			`"DC=example,=net": "DN ended with incomplete type, value pair",`
			`"1=#0402486": "Failed to decode BER encoding: encoding/hex: odd length hex string",`
			`}`

			`for test, answer := range testcases {`
			`_, err := ldap.ParseDN(test)`
			`if err == nil {`
			`t.Errorf("Expected %s to fail parsing but succeeded\n", test)`
			`} else if err.Error() != answer {`
			`t.Errorf("Unexpected error on %s:\n%s\nvs.\n%s\n", test, answer, err.Error())`
			`}`
			`}`
			`}`

			`func TestDNEqual(t *testing.T) {`
			`testcases := []struct {`
			`A string`
			`B string`
			`Equal bool`
			`}{`
			`// Exact match`
			`{"", "", true},`
			`{"o=A", "o=A", true},`
			`{"o=A", "o=B", false},`

			`{"o=A,o=B", "o=A,o=B", true},`
			`{"o=A,o=B", "o=A,o=C", false},`

			`{"o=A+o=B", "o=A+o=B", true},`
			`{"o=A+o=B", "o=A+o=C", false},`

			`// Case mismatch in type is ignored`
			`{"o=A", "O=A", true},`
			`{"o=A,o=B", "o=A,O=B", true},`
			`{"o=A+o=B", "o=A+O=B", true},`

			`// Case mismatch in value is significant`
			`{"o=a", "O=A", false},`
			`{"o=a,o=B", "o=A,O=B", false},`
			`{"o=a+o=B", "o=A+O=B", false},`

			`// Multi-valued RDN order mismatch is ignored`
			`{"o=A+o=B", "O=B+o=A", true},`
			`// Number of RDN attributes is significant`
			`{"o=A+o=B", "O=B+o=A+O=B", false},`

			`// Missing values are significant`
			`{"o=A+o=B", "O=B+o=A+O=C", false}, // missing values matter`
			`{"o=A+o=B+o=C", "O=B+o=A", false}, // missing values matter`

			`// Whitespace tests`
			`// Matching`
			`{`
			`"cn=John Doe, ou=People, dc=sun.com",`
			`"cn=John Doe, ou=People, dc=sun.com",`
			`true,`
			`},`
			`// Difference in leading/trailing chars is ignored`
			`{`
			`"cn=John Doe, ou=People, dc=sun.com",`
			`"cn=John Doe,ou=People,dc=sun.com",`
			`true,`
			`},`
			`// Difference in values is significant`
			`{`
			`"cn=John Doe, ou=People, dc=sun.com",`
			`"cn=John Doe, ou=People, dc=sun.com",`
			`false,`
			`},`
			`}`

			`for i, tc := range testcases {`
			`a, err := ldap.ParseDN(tc.A)`
			`if err != nil {`
			`t.Errorf("%d: %v", i, err)`
			`continue`
			`}`
			`b, err := ldap.ParseDN(tc.B)`
			`if err != nil {`
			`t.Errorf("%d: %v", i, err)`
			`continue`
			`}`
			`if expected, actual := tc.Equal, a.Equal(b); expected != actual {`
			`t.Errorf("%d: when comparing '%s' and '%s' expected %v, got %v", i, tc.A, tc.B, expected, actual)`
			`continue`
			`}`
			`if expected, actual := tc.Equal, b.Equal(a); expected != actual {`
			`t.Errorf("%d: when comparing '%s' and '%s' expected %v, got %v", i, tc.A, tc.B, expected, actual)`
			`continue`
			`}`
			`}`
			`}`

			`func TestDNAncestor(t *testing.T) {`
			`testcases := []struct {`
			`A string`
			`B string`
			`Ancestor bool`
			`}{`
			`// Exact match returns false`
			`{"", "", false},`
			`{"o=A", "o=A", false},`
			`{"o=A,o=B", "o=A,o=B", false},`
			`{"o=A+o=B", "o=A+o=B", false},`

			`// Mismatch`
			`{"ou=C,ou=B,o=A", "ou=E,ou=D,ou=B,o=A", false},`

			`// Descendant`
			`{"ou=C,ou=B,o=A", "ou=E,ou=C,ou=B,o=A", true},`
			`}`

			`for i, tc := range testcases {`
			`a, err := ldap.ParseDN(tc.A)`
			`if err != nil {`
			`t.Errorf("%d: %v", i, err)`
			`continue`
			`}`
			`b, err := ldap.ParseDN(tc.B)`
			`if err != nil {`
			`t.Errorf("%d: %v", i, err)`
			`continue`
			`}`
			`if expected, actual := tc.Ancestor, a.AncestorOf(b); expected != actual {`
			`t.Errorf("%d: when comparing '%s' and '%s' expected %v, got %v", i, tc.A, tc.B, expected, actual)`
			`continue`
			`}`
			`}`
			`}`