Programmers used to working with relational databases coming to the LDAP world often express surprise to the fact that there is no notion of transactions. It is not specified in the protocol, and thus no servers support it. Recognizing that this may be a major problem, Spring LDAP provides support for client-side, compensating transactions on LDAP resources.
LDAP transaction support is provided by ContextSourceTransactionManager, a
PlatformTransactionManager implementation that manages Spring transaction
support for LDAP operations. Along with its collaborators it keeps track of the LDAP operations
performed in a transaction, making record of the state before each operation and taking steps to
restore the initial state should the transaction need to be rolled back.
In addition to the actual transaction management, Spring LDAP transaction support also
makes sure that the same DirContext instance will be used throughout the same transaction,
i.e. the DirContext will not actually be closed until the transaction is finished,
allowing for more efficient resources usage.
![[Note]](images/note.png) | Note |
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| It is important to note that while the approach used by Spring LDAP to provide transaction support is sufficient for many cases it is by no means "real" transactions in the traditional sense. The server is completely unaware of the transactions, so e.g. if the connection is broken there will be no hope to rollback the transaction. While this should be carefully considered it should also be noted that the alternative will be to operate without any transaction support whatsoever; this is pretty much as good as it gets. |
| Note |
|---|---|
The client side transaction support will add some overhead in addition to the work required
by the original operations. While this overhead should not be something to worry about in most cases,
if your application will not perform several LDAP operations within the same
transaction (e.g. a modifyAttributes followed by a rebind), or
if transaction synchronization with a JDBC data source is not required (see below) there will be nothing to gain
by using the LDAP transaction support. |
| Note |
|---|---|
While the default setup will work fine for most simple use cases, some more complex scenarios will
require additional configuration; more specifically if you will be creating or deleting subtrees within
transactions, you will need to use an alternative TempEntryRenamingStrategy, as described
in Section 6.4.1, “Renaming Strategies” below |
Configuring Spring LDAP transactions should look very familiar if you're used to configuring Spring transactions.
You will create a TransactionManager instance and wrap your target object using a
TransactionProxyFactoryBean. In addition to this, you will also need to wrap your
ContextSource in a TransactionAwareContextSourceProxy.
<beans>
...
<bean id="contextSourceTarget" class="org.springframework.ldap.core.support.LdapContextSource">
<property name="url" value="ldap://localhost:389" />
<property name="base" value="dc=example,dc=com" />
<property name="userDn" value="cn=Manager" />
<property name="password" value="secret" />
</bean>
<bean id="contextSource"
class="org.springframework.ldap.transaction.compensating.manager.TransactionAwareContextSourceProxy">
<constructor-arg ref="contextSourceTarget" />
</bean>
<bean id="ldapTemplate" class="org.springframework.ldap.core.LdapTemplate">
<constructor-arg ref="contextSource" />
</bean>
<bean id="transactionManager"
class="org.springframework.ldap.transaction.compensating.manager.ContextSourceTransactionManager">
<property name="contextSource" ref="contextSource" />
</bean>
<bean id="myDataAccessObjectTarget" class="com.example.MyDataAccessObject">
<property name="ldapTemplate" ref="ldapTemplate" />
</bean>
<bean id="myDataAccessObject"
class="org.springframework.transaction.interceptor.TransactionProxyFactoryBean">
<property name="transactionManager" ref="transactionManager" />
<property name="target" ref="myDataAccessObjectTarget" />
<property name="transactionAttributes">
<props>
<prop key="*">PROPAGATION_REQUIRES_NEW</prop>
</props>
</property>
</bean>
...In a real world example you would probably apply the transactions on the service object level rather than the DAO level; the above serves as an example to demonstrate the general idea.
| Note |
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You'll notice that the actual ContextSource and DAO instances get ids with a
"Target" suffix. The beans you will actually refer to are the Proxies that are created
around the targets; contextSource and myDataAccessObject |
A common use case when working against LDAP is that some of the data is stored in the LDAP tree, but other data is stored in a relational database. In this case, transaction support becomes even more important, since the update of the different resources should be synchronized.
While actual XA transactions is not supported, support is provided to conceptually wrap JDBC and LDAP
access within the same transaction using the ContextSourceAndDataSourceTransactionManager.
A DataSource and a ContextSource is supplied to the
ContextSourceAndDataSourceTransactionManager, which will then manage the two transactions,
virtually as if they were one. When performing a commit, the LDAP part of the operation will always
be performed first, allowing both transactions to be rolled back should the LDAP commit fail. The JDBC
part of the transaction is managed exactly as in DataSourceTransactionManager, except that
nested transactions is not supported.
| Note |
|---|---|
| Once again it should be noted that the provided support is all client side. The wrapped transaction is not an XA transaction. No two-phase as such commit is performed, as the LDAP server will be unable to vote on its outcome. Once again, however, for the majority of cases the supplied support will be sufficient. |
Spring LDAP manages compensating transactions by making record of the state in the LDAP tree
before each modifying operation (bind, unbind, rebind,
modifyAttributes, and rename).
This enables the system
to perform compensating operations should the transaction need to be rolled back. In many cases the
compensating operation is pretty straightforward. E.g. the compensating rollback operation for a
bind operation will quite obviously be to unbind the entry. Other operations however require
a different, more complicated approach because of some particular characteristics of LDAP databases. Specifically,
it is not always possible to get the values of all Attributes of an entry, making the above
strategy insufficient for e.g. an unbind operation.
This is why each modifying operation performed within a Spring LDAP managed transaction is internally split up in four distinct operations - a recording operation, a preparation operation, a commit operation, and a rollback operation. The specifics for each LDAP operation is described in the table below:
Table 6.1.
| LDAP Operation | Recording | Preparation | Commit | Rollback |
|---|---|---|---|---|
bind | Make record of the DN of the entry to bind. | Bind the entry. | No operation. | Unbind the entry using the recorded DN. |
rename | Make record of the original and target DN. | Rename the entry. | No operation. | Rename the entry back to its original DN. |
unbind | Make record of the original DN and calculate a temporary DN. | Rename the entry to the temporary location. | Unbind the temporary entry. | Rename the entry from the temporary location back to its original DN. |
rebind | Make record of the original DN and the new Attributes, and calculate a temporary DN. | Rename the entry to a temporary location. | Bind the new Attributes at the original DN, and unbind the original entry
from its temporary location. | Rename the entry from the temporary location back to its original DN. |
modifyAttributes | Make record of the DN of the entry to modify and calculate compensating ModificationItems
for the modifications to be done. | Perform the modifyAttributes operation. | No operation. | Perform a modifyAttributes operation using the calculated compensating
ModificationItems. |
A more detailed description of the internal workings of the Spring LDAP transaction support is available in the javadocs.
TempEntryRenamingStrategy
supplied to the ContextSourceTransactionManager. Two implementations are supplied with Spring LDAP,
but if specific behaviour is required a custom implementation can easily be implemented by the user. The
provided TempEntryRenamingStrategy implementations are:
DefaultTempEntryRenamingStrategy(the default). Adds a suffix to the least significant part of the entry DN. E.g. for the DNcn=john doe, ou=users, this strategy would return the temporary DNcn=john doe_temp, ou=users. The suffix is configurable using thetempSuffixpropertyDifferentSubtreeTempEntryRenamingStrategy. Takes the least significant part of the DN and appends a subtree DN to this. This makes all temporary entries be placed at a specific location in the LDAP tree. The temporary subtree DN is configured using thesubtreeNodeproperty. E.g., ifsubtreeNodeisou=tempEntriesand the original DN of the entry iscn=john doe, ou=users, the temporary DN will becn=john doe, ou=tempEntries. Note that the configured subtree node needs to be present in the LDAP tree.
| Note |
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There are some situations where the DefaultTempEntryRenamingStrategy will not work. E.g. if your are planning
to do recursive deletes you'll need to use DifferentSubtreeTempEntryRenamingStrategy. This is because
the recursive delete operation actually consists of a depth-first delete of each node in the sub tree individually.
Since it is not allowed to rename an entry that has any children, and DefaultTempEntryRenamingStrategy would
leave each node in the same subtree (with a different name) in stead of actually removing it, this operation would fail.
When in doubt, use DifferentSubtreeTempEntryRenamingStrategy.
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