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Stateful Architecture
This page describes the current stateful architecture used in PKI 11.4. In the future it might be converted into a stateless architecture.
In CA the certificate profiles are managed by the profile subsystem.
The AbstractProfileSubsystem
provides the base implementation.
The ProfileSubsystem
provides the implementation for file-based profiles which is the default.
The LDAPProfileSubsystem
provides the implementation for LDAP-based profiles which is mainly used in IPA.
When PKI server is started the profile subsystem will load the profile configuration
from files or LDAP and store the Profile
objects in memory.
If the admin updates the profile configuration, both the profile configuration in file/LDAP
and the profile object in memory will be updated.
In LDAPProfileSubsysstem
when PKI server is started it will start a ProfileChangeMonitor
thread
which will start a persistent search against the profile subtree in ou=certificateProfiles,ou=ca,<suffix>
.
The thread will initially load all profile configuration stored in the subtree,
create the profile objects based on the configuration, then listen to changes in the subtree.
If there’s a change in the subtree, the old profile object will be discarded
and a new profile object will be created.
The file-based ProfileSubsystem
does not have such monitor.
Any change in profile configuration files will require restarting PKI server.
The lightweight CAs are managed by CA subsystem. LWCA is only supported in IPA since it requires an IPA-specific key retriever tool to work properly in cluster environment.
When PKI server started, it will create an AuthorityMonitor
thread
which will start a persistent search against the LWCA subtree in ou=authorities,ou=ca,<suffix>
.
The thread will initially load all LWCA configuration stored in the subtree,
create the LWCA objects based on the configuration, then listen to changes in the subtree.
If there’s a change in the subtree, the old LWCA object will be discarded
and a new LWCA object will be created.
If the signing cert or key of the LWCA doesn’t exist yet on the server,
the AuthorityMonitor
will create a KeyRetriever-<ID>
thread for the LWCA
which will retrieve the cert and key from another host in the cluster.
When PKI server is started it will initialize the CRL issuing points
and start CertStatusUpdateTask
and RetrieveModificationTask
threads.
Each CRL issuing points maintain lists of revoked certs, unrevoked certs, and expired certs in memory. When the CA revokes/unrevokes a cert, or when a cert becomes expired, these lists will be updated.
The CertStatusUpdateTask
will periodically run LDAP searches to find not-yet-valid certs that have become valid,
valid certs that have become expired, and revoked certs that have become expired,
then update the cert status in LDAP.
It will also update the list of expired cts in all CRL issuing points.
The RetrieveModificationTask
will start a persistent search to monitor cert status changes in LDAP.
If a cert is revoked/unrevoked in LDAP, the thread will the list of revoked/unrevoked certs in all CRL issuing points.
Each CRL issuing point also runs a CRLIssuingPoint-<ID>
thread to periodically generate a CRL and publish the CRL.
When CA is started it will start a SerialNumberUpdateTask
thread
which will find the largest serial number in LDAP
and update the counter of remaining RSNv1 numbers in range in CS.cfg
.
If there are only few numbers remaining, CA will allocate a new range in LDAP for the server.
When the CA creates a new cert or cert request, if there’s no more available serial number in the range it will switch to the new serial number range.
KRA also has a KeyStatusUpdateTask
thread that does the same process for keys and key requests.
When PKI server is started, the ACME responder will create an LDAPConfigMonitor
thread
which will start a persistent search to monitor changes in ACME configuration stored in LDAP.
This is mechanism is used to manage ACME responders on all servers in the cluster.
When PKI server is started, OCSP responder will create a DefStore
that stores the following information in memory:
-
a cache for CRL issuing points
-
the number of CRL updates since startup
-
the number of requests for each CRL issuing point since startup
The OCSP responder will also start a DefStoreCRLUpdater
thread that will periodically clear the CRL issuing point cache.
When the OCSP responder receives a request, it will try to find the CRL issuing point in LDAP, then store it in the cache.
Each PKI subsystem has a job scheduler. The scheduler keeps the following information in memory:
-
job plugins
-
job instances
-
job threads
-
scheduler thread
When PKI server is started, it will load job scheduler configuration and create the job plugins and instances,
It will also start a JobScheduler
thread that will wake up periodically and find jobs instances that match the schedule.
Then it will create to run the job in the background.
If the configuration is updated, the server will need to be restarted.
If all servers in the cluster have identical job scheduler configuration, the same jobs will be executed on multiple servers simultaneously, which in the best case could cause redundancy and in the worst case could cause race conditions.
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