Introduction
This page describes the way we generate reverse LDIF, for each forward operation. A reverse LDIF can be applied on a server in order to revert an operation.
In this document we do not consider what is required to revert a series of operations which have ordering requirements: i.e. they must be applied in reverse order. Here we simply focus on how to generate the LDIF for each atomic operation.
Operations
Operations to generate reverse LDIF for:
Operation |
AddRequest |
DelRequest |
ModifyRequest |
ModifyDNRequest |
AddRequest
Computing the reverse LDIF for an AddRequest is easy: it's a DelRequest where we use the DN of the created entry.
An AddRequest contains those informations :
AddRequest ::= [APPLICATION 8] SEQUENCE { entry LDAPDN, attributes AttributeList } AttributeList ::= SEQUENCE OF attribute Attribute
For the added entry :
dn: cn=test, dc=example, dc=com objectclass: top objectclass: person cn: test sn: This is a test
the reverse LDIF will be :
dn: cn=test, dc=example, dc=com changetype: delete
DelRequest
To produce a reverse LDIF for a DelRequest, we must first read the deleted attribute. We will create a AddRequest based on the read deleted entry :
* read the entry to be deleted * create a revert ldif AddRequest with this deleted entry * delete the entry
Considering the existing entry :
dn: cn=test, dc=example, dc=com objectclass: top objectclass: person cn: test sn: This is a testcreatorsName: dc=admin, ou=systemcreateTimestamp: 20071010150132ZmodifiersName: dc=admin, ou=systemmodifyTimestamp: 20071010150133Z
if we have a delRequest which ldif is :
dn: cn=test, dc=example, dc=com changetype: delete
the reversed ldif should be :
dn: cn=test, dc=example, dc=comchangetype: add objectclass: top objectclass: person cn: test sn: This is a test
There is still a question regarding operational attributes: should we keep them (in the LDIF)? How do we guarantee that the creatorsName and createTimeStamp attributes are the original ones, instead of the one injected while creating the saved entry? Operational attribute state needs to be captured out of band (from the LDIF data) and is the responsibility of the change log service to manage, capture and track. This information is made available to higher level interfaces which handle all this. So at this level we need not worry: the LDIF's generated have no operational attributes in them as would be normally expected for a valid LDIF.
To be able to build this reverse ldif, we need to read the previous entry before the deletion.
ModifyRequest
This is the most complex operation. The modification is applied on a specific entry, and can impact one or more attribute, one or more value, but it can't modify an attribute which is part iof the entry RDN.
We have three kind of modifications : add, delete and replace. They are applied in the order they are found in the Modify request, so the reverse LDIF must store them in reverse order too.
Depending on the modified values, each basic operation may have some different semantic. The following table present all the possible actions :
modification |
initial entry |
imported Ldif |
resulting entry |
Comments |
Reverse LDIF |
add |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
In this case, the ou value is simply added |
dn: cn=test, ou=system |
add |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
The ou attribute and its value has been created |
dn: cn=test, ou=system |
add |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
Nothing is done. |
no reverse, void operation |
delete |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
The ou=acme corp value has been deleted |
dn: cn=test, ou=system |
delete |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
The ou attribute has been removed |
dn: cn=test, ou=system |
delete |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
As all the ou values have been removed, |
dn: cn=test, ou=system |
replace |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
The ou attributes' values are replaced |
dn: cn=test, ou=system |
replace |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
Create the ou attribute |
dn: cn=test, ou=system |
replace |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
dn: cn=test, ou=system |
Delete the ou attribute |
dn: cn=test, ou=system |
ModifyDNRequest
This request is used to move entries or to rename entries or to move and rename entries. Its counterpart in a ldif file is a 'changetype: moddn' or a 'changetype: modrdn' operation (moddn or modrdn are synonymous).
There are four cases :
- we don't change the superior and we don't delete the old RDN
- we don't change the superior and we delete the old RDN
- we change the superior and we don't delete the old RDN
- we change the superior and we delete the old RDN
The following table gives an example for each of those cases applied on the initial entry :
dn: cn=test, dc=example, dc=com objectclass: top objectclass: person cn: test sn: This is a test
The new superior will be 'ou=system'
the new RDN will be 'cn=joe'
case |
deleteoldrdn |
new superior |
modifying ldif |
resulting entry |
reverse ldif |
1 |
no |
none |
dn: cn=test, dc=example, dc=com |
dn: cn=joe, dc=example, dc=com |
dn: cn=joe, dc=example, dc=com |
1 |
yes |
none |
dn: cn=test, dc=example, dc=com |
dn: cn=joe, dc=example, dc=com |
dn: cn=joe, dc=example, dc=com |
1 |
no |
ou=system |
dn: cn=test, dc=example, dc=org |
dn: cn=joe, ou=system |
dn: cn=joe, ou=system |
1 |
yes |
ou=system |
dn: cn=test, dc=example, dc=org |
dn: cn=joe, ou=system |
dn: cn=joe, ou=system |
Computing the reverse LDIF for a ModifyDN request follows the algorithm :
reverseLdif.deleteOldRdn = true
if modifyDn.newSuperior not empty
then reverseLdif.newSuperior = modifyDn.dn minus the modifyDN.dn.getRDN
reverseLdif.newRdn = modifyDn.dn.getRDN