forgejo/vendor/gopkg.in/ldap.v2/search.go

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2016-11-04 01:16:01 +03:00
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
//
// File contains Search functionality
//
// https://tools.ietf.org/html/rfc4511
//
// SearchRequest ::= [APPLICATION 3] SEQUENCE {
// baseObject LDAPDN,
// scope ENUMERATED {
// baseObject (0),
// singleLevel (1),
// wholeSubtree (2),
// ... },
// derefAliases ENUMERATED {
// neverDerefAliases (0),
// derefInSearching (1),
// derefFindingBaseObj (2),
// derefAlways (3) },
// sizeLimit INTEGER (0 .. maxInt),
// timeLimit INTEGER (0 .. maxInt),
// typesOnly BOOLEAN,
// filter Filter,
// attributes AttributeSelection }
//
// AttributeSelection ::= SEQUENCE OF selector LDAPString
// -- The LDAPString is constrained to
// -- <attributeSelector> in Section 4.5.1.8
//
// Filter ::= CHOICE {
// and [0] SET SIZE (1..MAX) OF filter Filter,
// or [1] SET SIZE (1..MAX) OF filter Filter,
// not [2] Filter,
// equalityMatch [3] AttributeValueAssertion,
// substrings [4] SubstringFilter,
// greaterOrEqual [5] AttributeValueAssertion,
// lessOrEqual [6] AttributeValueAssertion,
// present [7] AttributeDescription,
// approxMatch [8] AttributeValueAssertion,
// extensibleMatch [9] MatchingRuleAssertion,
// ... }
//
// SubstringFilter ::= SEQUENCE {
// type AttributeDescription,
// substrings SEQUENCE SIZE (1..MAX) OF substring CHOICE {
// initial [0] AssertionValue, -- can occur at most once
// any [1] AssertionValue,
// final [2] AssertionValue } -- can occur at most once
// }
//
// MatchingRuleAssertion ::= SEQUENCE {
// matchingRule [1] MatchingRuleId OPTIONAL,
// type [2] AttributeDescription OPTIONAL,
// matchValue [3] AssertionValue,
// dnAttributes [4] BOOLEAN DEFAULT FALSE }
//
//
package ldap
import (
"errors"
"fmt"
"sort"
"strings"
"gopkg.in/asn1-ber.v1"
)
// scope choices
const (
ScopeBaseObject = 0
ScopeSingleLevel = 1
ScopeWholeSubtree = 2
)
// ScopeMap contains human readable descriptions of scope choices
var ScopeMap = map[int]string{
ScopeBaseObject: "Base Object",
ScopeSingleLevel: "Single Level",
ScopeWholeSubtree: "Whole Subtree",
}
// derefAliases
const (
NeverDerefAliases = 0
DerefInSearching = 1
DerefFindingBaseObj = 2
DerefAlways = 3
)
// DerefMap contains human readable descriptions of derefAliases choices
var DerefMap = map[int]string{
NeverDerefAliases: "NeverDerefAliases",
DerefInSearching: "DerefInSearching",
DerefFindingBaseObj: "DerefFindingBaseObj",
DerefAlways: "DerefAlways",
}
// NewEntry returns an Entry object with the specified distinguished name and attribute key-value pairs.
// The map of attributes is accessed in alphabetical order of the keys in order to ensure that, for the
// same input map of attributes, the output entry will contain the same order of attributes
func NewEntry(dn string, attributes map[string][]string) *Entry {
var attributeNames []string
for attributeName := range attributes {
attributeNames = append(attributeNames, attributeName)
}
sort.Strings(attributeNames)
var encodedAttributes []*EntryAttribute
for _, attributeName := range attributeNames {
encodedAttributes = append(encodedAttributes, NewEntryAttribute(attributeName, attributes[attributeName]))
}
return &Entry{
DN: dn,
Attributes: encodedAttributes,
}
}
// Entry represents a single search result entry
type Entry struct {
// DN is the distinguished name of the entry
DN string
// Attributes are the returned attributes for the entry
Attributes []*EntryAttribute
}
// GetAttributeValues returns the values for the named attribute, or an empty list
func (e *Entry) GetAttributeValues(attribute string) []string {
for _, attr := range e.Attributes {
if attr.Name == attribute {
return attr.Values
}
}
return []string{}
}
// GetRawAttributeValues returns the byte values for the named attribute, or an empty list
func (e *Entry) GetRawAttributeValues(attribute string) [][]byte {
for _, attr := range e.Attributes {
if attr.Name == attribute {
return attr.ByteValues
}
}
return [][]byte{}
}
// GetAttributeValue returns the first value for the named attribute, or ""
func (e *Entry) GetAttributeValue(attribute string) string {
values := e.GetAttributeValues(attribute)
if len(values) == 0 {
return ""
}
return values[0]
}
// GetRawAttributeValue returns the first value for the named attribute, or an empty slice
func (e *Entry) GetRawAttributeValue(attribute string) []byte {
values := e.GetRawAttributeValues(attribute)
if len(values) == 0 {
return []byte{}
}
return values[0]
}
// Print outputs a human-readable description
func (e *Entry) Print() {
fmt.Printf("DN: %s\n", e.DN)
for _, attr := range e.Attributes {
attr.Print()
}
}
// PrettyPrint outputs a human-readable description indenting
func (e *Entry) PrettyPrint(indent int) {
fmt.Printf("%sDN: %s\n", strings.Repeat(" ", indent), e.DN)
for _, attr := range e.Attributes {
attr.PrettyPrint(indent + 2)
}
}
// NewEntryAttribute returns a new EntryAttribute with the desired key-value pair
func NewEntryAttribute(name string, values []string) *EntryAttribute {
var bytes [][]byte
for _, value := range values {
bytes = append(bytes, []byte(value))
}
return &EntryAttribute{
Name: name,
Values: values,
ByteValues: bytes,
}
}
// EntryAttribute holds a single attribute
type EntryAttribute struct {
// Name is the name of the attribute
Name string
// Values contain the string values of the attribute
Values []string
// ByteValues contain the raw values of the attribute
ByteValues [][]byte
}
// Print outputs a human-readable description
func (e *EntryAttribute) Print() {
fmt.Printf("%s: %s\n", e.Name, e.Values)
}
// PrettyPrint outputs a human-readable description with indenting
func (e *EntryAttribute) PrettyPrint(indent int) {
fmt.Printf("%s%s: %s\n", strings.Repeat(" ", indent), e.Name, e.Values)
}
// SearchResult holds the server's response to a search request
type SearchResult struct {
// Entries are the returned entries
Entries []*Entry
// Referrals are the returned referrals
Referrals []string
// Controls are the returned controls
Controls []Control
}
// Print outputs a human-readable description
func (s *SearchResult) Print() {
for _, entry := range s.Entries {
entry.Print()
}
}
// PrettyPrint outputs a human-readable description with indenting
func (s *SearchResult) PrettyPrint(indent int) {
for _, entry := range s.Entries {
entry.PrettyPrint(indent)
}
}
// SearchRequest represents a search request to send to the server
type SearchRequest struct {
BaseDN string
Scope int
DerefAliases int
SizeLimit int
TimeLimit int
TypesOnly bool
Filter string
Attributes []string
Controls []Control
}
func (s *SearchRequest) encode() (*ber.Packet, error) {
request := ber.Encode(ber.ClassApplication, ber.TypeConstructed, ApplicationSearchRequest, nil, "Search Request")
request.AppendChild(ber.NewString(ber.ClassUniversal, ber.TypePrimitive, ber.TagOctetString, s.BaseDN, "Base DN"))
request.AppendChild(ber.NewInteger(ber.ClassUniversal, ber.TypePrimitive, ber.TagEnumerated, uint64(s.Scope), "Scope"))
request.AppendChild(ber.NewInteger(ber.ClassUniversal, ber.TypePrimitive, ber.TagEnumerated, uint64(s.DerefAliases), "Deref Aliases"))
request.AppendChild(ber.NewInteger(ber.ClassUniversal, ber.TypePrimitive, ber.TagInteger, uint64(s.SizeLimit), "Size Limit"))
request.AppendChild(ber.NewInteger(ber.ClassUniversal, ber.TypePrimitive, ber.TagInteger, uint64(s.TimeLimit), "Time Limit"))
request.AppendChild(ber.NewBoolean(ber.ClassUniversal, ber.TypePrimitive, ber.TagBoolean, s.TypesOnly, "Types Only"))
// compile and encode filter
filterPacket, err := CompileFilter(s.Filter)
if err != nil {
return nil, err
}
request.AppendChild(filterPacket)
// encode attributes
attributesPacket := ber.Encode(ber.ClassUniversal, ber.TypeConstructed, ber.TagSequence, nil, "Attributes")
for _, attribute := range s.Attributes {
attributesPacket.AppendChild(ber.NewString(ber.ClassUniversal, ber.TypePrimitive, ber.TagOctetString, attribute, "Attribute"))
}
request.AppendChild(attributesPacket)
return request, nil
}
// NewSearchRequest creates a new search request
func NewSearchRequest(
BaseDN string,
Scope, DerefAliases, SizeLimit, TimeLimit int,
TypesOnly bool,
Filter string,
Attributes []string,
Controls []Control,
) *SearchRequest {
return &SearchRequest{
BaseDN: BaseDN,
Scope: Scope,
DerefAliases: DerefAliases,
SizeLimit: SizeLimit,
TimeLimit: TimeLimit,
TypesOnly: TypesOnly,
Filter: Filter,
Attributes: Attributes,
Controls: Controls,
}
}
// SearchWithPaging accepts a search request and desired page size in order to execute LDAP queries to fulfill the
// search request. All paged LDAP query responses will be buffered and the final result will be returned atomically.
// The following four cases are possible given the arguments:
// - given SearchRequest missing a control of type ControlTypePaging: we will add one with the desired paging size
// - given SearchRequest contains a control of type ControlTypePaging that isn't actually a ControlPaging: fail without issuing any queries
// - given SearchRequest contains a control of type ControlTypePaging with pagingSize equal to the size requested: no change to the search request
// - given SearchRequest contains a control of type ControlTypePaging with pagingSize not equal to the size requested: fail without issuing any queries
// A requested pagingSize of 0 is interpreted as no limit by LDAP servers.
func (l *Conn) SearchWithPaging(searchRequest *SearchRequest, pagingSize uint32) (*SearchResult, error) {
var pagingControl *ControlPaging
control := FindControl(searchRequest.Controls, ControlTypePaging)
if control == nil {
pagingControl = NewControlPaging(pagingSize)
searchRequest.Controls = append(searchRequest.Controls, pagingControl)
} else {
castControl, ok := control.(*ControlPaging)
if !ok {
return nil, fmt.Errorf("Expected paging control to be of type *ControlPaging, got %v", control)
}
if castControl.PagingSize != pagingSize {
return nil, fmt.Errorf("Paging size given in search request (%d) conflicts with size given in search call (%d)", castControl.PagingSize, pagingSize)
}
pagingControl = castControl
}
searchResult := new(SearchResult)
for {
result, err := l.Search(searchRequest)
l.Debug.Printf("Looking for Paging Control...")
if err != nil {
return searchResult, err
}
if result == nil {
return searchResult, NewError(ErrorNetwork, errors.New("ldap: packet not received"))
}
for _, entry := range result.Entries {
searchResult.Entries = append(searchResult.Entries, entry)
}
for _, referral := range result.Referrals {
searchResult.Referrals = append(searchResult.Referrals, referral)
}
for _, control := range result.Controls {
searchResult.Controls = append(searchResult.Controls, control)
}
l.Debug.Printf("Looking for Paging Control...")
pagingResult := FindControl(result.Controls, ControlTypePaging)
if pagingResult == nil {
pagingControl = nil
l.Debug.Printf("Could not find paging control. Breaking...")
break
}
cookie := pagingResult.(*ControlPaging).Cookie
if len(cookie) == 0 {
pagingControl = nil
l.Debug.Printf("Could not find cookie. Breaking...")
break
}
pagingControl.SetCookie(cookie)
}
if pagingControl != nil {
l.Debug.Printf("Abandoning Paging...")
pagingControl.PagingSize = 0
l.Search(searchRequest)
}
return searchResult, nil
}
// Search performs the given search request
func (l *Conn) Search(searchRequest *SearchRequest) (*SearchResult, error) {
packet := ber.Encode(ber.ClassUniversal, ber.TypeConstructed, ber.TagSequence, nil, "LDAP Request")
packet.AppendChild(ber.NewInteger(ber.ClassUniversal, ber.TypePrimitive, ber.TagInteger, l.nextMessageID(), "MessageID"))
// encode search request
encodedSearchRequest, err := searchRequest.encode()
if err != nil {
return nil, err
}
packet.AppendChild(encodedSearchRequest)
// encode search controls
if searchRequest.Controls != nil {
packet.AppendChild(encodeControls(searchRequest.Controls))
}
l.Debug.PrintPacket(packet)
msgCtx, err := l.sendMessage(packet)
if err != nil {
return nil, err
}
defer l.finishMessage(msgCtx)
result := &SearchResult{
Entries: make([]*Entry, 0),
Referrals: make([]string, 0),
Controls: make([]Control, 0)}
foundSearchResultDone := false
for !foundSearchResultDone {
l.Debug.Printf("%d: waiting for response", msgCtx.id)
packetResponse, ok := <-msgCtx.responses
if !ok {
return nil, NewError(ErrorNetwork, errors.New("ldap: response channel closed"))
}
packet, err = packetResponse.ReadPacket()
l.Debug.Printf("%d: got response %p", msgCtx.id, packet)
if err != nil {
return nil, err
}
if l.Debug {
if err := addLDAPDescriptions(packet); err != nil {
return nil, err
}
ber.PrintPacket(packet)
}
switch packet.Children[1].Tag {
case 4:
entry := new(Entry)
entry.DN = packet.Children[1].Children[0].Value.(string)
for _, child := range packet.Children[1].Children[1].Children {
attr := new(EntryAttribute)
attr.Name = child.Children[0].Value.(string)
for _, value := range child.Children[1].Children {
attr.Values = append(attr.Values, value.Value.(string))
attr.ByteValues = append(attr.ByteValues, value.ByteValue)
}
entry.Attributes = append(entry.Attributes, attr)
}
result.Entries = append(result.Entries, entry)
case 5:
resultCode, resultDescription := getLDAPResultCode(packet)
if resultCode != 0 {
return result, NewError(resultCode, errors.New(resultDescription))
}
if len(packet.Children) == 3 {
for _, child := range packet.Children[2].Children {
result.Controls = append(result.Controls, DecodeControl(child))
}
}
foundSearchResultDone = true
case 19:
result.Referrals = append(result.Referrals, packet.Children[1].Children[0].Value.(string))
}
}
l.Debug.Printf("%d: returning", msgCtx.id)
return result, nil
}