Showing posts with label kadmin. Show all posts
Showing posts with label kadmin. Show all posts

Sunday, May 22, 2016

Kerberos Setup with Ambari----LDAP/AD setup With Ambari.Iptables and chains



 Package manager installers:

 YUM with Red hat, Centos, Oracle Linux.
 ZIPPER for SLES-11,
APT-GET for ubuntu 12

-Kerberosserver components and users are referred as principals. Is a authentication mechanism that is used by principals connecting to different server components or communication between server components between one and other is accomplished by Kerberos .
Kerberos when installed on cluster it has two components:
KDC (key distribution c enter server) and creating a Kerberos database. After installing a Kerberos server start the server and creating a KDC admin.
Realm: Is nothing but a set of hosts, services and users over which the Kerberos server has control
                On Centos using yum installing Kerberos on a host in a cluster step up
                1) yum install krb5-server krb5-libs krb5-auth-dialog krb5-workstation
2)Here you are installing a krb5 workstation,
  cli>Gedit /etc/krb.conf in its installing path.
3) In krb.conf file change realm properties with FQDN
 KDC = FQDN and
 ADMIN_SERVER = FQDN
4) Database installation for principal’s storage (server components and user limitation)
      cli>Kdb5_util create –s
5) Start the KDC
cli>/etc/rc.d/init.d/krb5kdc start
cli>/etc/rc.d/init.d/kadmin start
      6)create admin principals using kadmin.local util
            ·  Open the kadmin.local utility on the KDC machine
               /usr/sbin/kadmin.local

            /usr/sbin>kadmin.local -q "addprinc admin/admin"
      7)In location /var/kerberos/krb5kdc/kadm5.acl check for entry .edit
                                realm: */admin@FQDN *.( And restart the kadmind process.)
The next step is setup Kerberos for ambari server
                The views that can be enabled in Ambari  web  needs  access to certain service components  like ATS . But the YARN ATS component require SPENGO authentication to connect to these views developed on such API’s. Therefore, the Ambari Server requires a Kerberos principal in order to authenticate via SPNEGO against these APIs.
So Ambari Server with a Kerberos principal and keytab allows views to authenticate via SPNEGO against cluster components.
1) (the host where the ambari server is installed)
         addprinc -randkey ambari-server@FQDN
        
        2) To generate a keytab
                xst -k ambari.server.keytab ambari-server@EXAMPLE.COM
 
                3) Place that keytab on the Ambari Server host.                                                                                                                                                /etc/security/keytabs/ambari.server.keytab
        
        4)Stop the server
                ambari-server stop
        
        5)Setup-security command
               ambari-server setup-security
      6) Select 3 for Setup Ambari kerberos JAAS configuration.
7) Enter the Kerberos principal name for the Ambari Server you set up earlier.
8)  Enter the path to the keytab for the Ambari principal.
9)  Restart Ambari Server.
               ambari-server restart
 
On the Ambari Server, run the special setup command and answer the prompts:
ambari-server setup-security
·         Select Option 3: Choose one of the following options:
o    [1] Enable HTTPS for Ambari server.
o    [2] Encrypt passwords stored in ambari.properties file.
o    [3] Setup Ambari kerberos JAAS configuration.
 

To transfer principals from KDC to Ambari persistence store:
            Post mapping you need to do is:
1)In core-site.xml we need to set a property to map the principals of  Kerberos into Hadoop (user mapping/Group mappings)
Hadoop.security.auth-to-local = default( rule is to apply for user names syntax’s to translate from existing systems to Hadoop syntax’s properly) 
Auth-to-local rules: Base, filter and substitution 

++++++++++++++++++++++++++++++++++++++++++++++++

Configuring Ambari for LDAP or Active Directory Authentication
  • mkdir /etc/ambari-server/keys
where the keys directory does not exist, but should be created.
  • $JAVA_HOME/bin/keytool -import -trustcacerts -alias root -file $PATH_TO_YOUR_LDAPS_CERT -keystore /etc/ambari-server/keys/ldaps-keystore.jks
  • Set a password when prompted. You will use this during ambari-server setup-ldap.
ambari-server setup-ldap
  • At the Primary URL* prompt, enter the server URL and port you collected above. Prompts marked with an asterisk are required values.
  • At the Secondary URL* prompt, enter the secondary server URL and port. This value is optional.
  • At the Use SSL* prompt, enter your selection. If using LDAPS, enter true.
  • At the User object class* prompt, enter the object class that is used for users.
  • At the User name attribute* prompt, enter your selection. The default value is uid.
  • At the Group object class* prompt, enter the object class that is used for groups.
  • At the Group name attribute* prompt, enter the attribute for group name.
  • At the Group member attribute* prompt, enter the attribute for group membership.
  • At the Distinguished name attribute* prompt, enter the attribute that is used for the distinguished name.
  • At the Base DN* prompt, enter your selection.
  • At the Referral method* prompt, enter to follow or ignore LDAP referrals.
  • At the Bind anonymously* prompt, enter your selection.
  • At the Manager DN* prompt, enter your selection if you have set bind.Anonymously to false.
  • At the Enter the Manager Password* prompt, enter the password for your LDAP manager DN.
  • If you set Use SSL* = true in step 3, the following prompt appears: Do you want to provide custom TrustStore for Ambari?
Consider the following options and respond as appropriate.
    • More secure option: If using a self-signed certificate that you do not want imported to the existing JDK keystore, enter y.
For example, you want this certificate used only by Ambari, not by any other applications run by JDK on the same host.
If you choose this option, additional prompts appear. Respond to the additional prompts as follows:
      • At the TrustStore type prompt, enter jks.
      • At the Path to TrustStore file prompt, enter /keys/ldaps-keystore.jks (or the actual path to your keystore file).
      • At the Password for TrustStore prompt, enter the password that you defined for the keystore.
    • Less secure option: If using a self-signed certificate that you want to import and store in the existing, default JDK keystore, enter n.
      • Convert the SSL certificate to X.509 format, if necessary, by executing the following command:
openssl x509 -in slapd.pem -out <slapd.crt>
Where <slapd.crt> is the path to the X.509 certificate.
      • Import the SSL certificate to the existing keystore, for example the default jre certificates storage, using the following instruction:
/usr/jdk64/jdk1.7.0_45/bin/keytool -import -trustcacerts -file slapd.crt -keystore /usr/jdk64/jdk1.7.0_45/jre/lib/security/cacerts
Where Ambari is set up to use JDK 1.7. Therefore, the certificate must be imported in the JDK 7 keystore.
  • Review your settings and if they are correct, select y.
  • Start or restart the Server
ambari-server restart
The users you have just imported are initially granted the Ambari User privilege. Ambari Users can read metrics, view service status and configuration, and browse job information. For these new users to be able to start or stop services, modify configurations, and run smoke tests, they need to be Admins. To make this change, as an Ambari Admin, use Manage Ambari > Users > Edit. For instructions, see Managing Users and Groups.

Active Directory Configuration

Directory Server implementations use specific object classes and attributes for storing identities. In this example, configurations specific to Active Directory are displayed as an example. Only those properties that are specific to Active Directory are displayed.

Run
ambari-server setup-ldap and provide the following information about your Domain.
Prompt
Example AD Values
User object class* (posixAccount)
user
User name attribute* (uid)
cn
Group object class* (posixGroup)
group
Group member attribute* (memberUid)
member

Synchronizing LDAP Users and Groups

Run the LDAP synchronize command and answer the prompts to initiate the sync:

ambari-server sync-ldap [option]
To perform this operation, your Ambari Server must be running.
·         When prompted, you must provide credentials for an Ambari Admin.
·         When syncing ldap, Local user accounts with matching username will switch to LDAP type, which means their authentication will be against the external LDAP and not against the Local Ambari user store.
·         LDAP sync only syncs up-to-1000 users. If your LDAP contains over 1000 users and you plan to import over 1000 users, you must use the --users option when syncing and specify a filtered list of users to perform import in batches.
The utility provides three options for synchronization:
·         Specific set of users and groups, or
·         Synchronize the existing users and groups in Ambari with LDAP, or
·         All users and groups
Review log files for failed synchronization attempts, at /var/log/ambari-server/ambari-server.log on the Ambari Server host.

Specific Set of Users and Groups

ambari-server sync-ldap --users users.txt --groups groups.txt
Use this option to synchronize a specific set of users and groups from LDAP into Ambari. Provide the command a text file of comma-separated users and groups. The comma separated entries in each of these files should be based off of the values in LDAP of the attributes chosen during setup. The "User name attribute" should be used for the users.txt file, and the "Group name attribute" should be used for the groups.txt file. This command will find, import, and synchronize the matching LDAP entities with Ambari.
Group membership is determined using the Group Membership Attribute (groupMembershipAttr) specified during setup-ldap. User name is determined by using the Username Attribute (usernameAttribute) specified during setup-ldap.

Existing Users and Groups

ambari-server sync-ldap --existing

After you have performed a synchronization of a specific set of users and groups, you use this option to synchronize only those entities that are in Ambari with LDAP. Users will be removed from Ambari if they no longer exist in LDAP, and group membership in Ambari will be updated to match LDAP.
Group membership is determined using the Group Membership Attribute specified during setup-ldap.

All Users and Groups

Only use this option if you are sure you want to synchronize all users and groups from LDAP into Ambari. If you only want to synchronize a subset of users and groups, use a specific set of users and groups option.
ambari-server sync-ldap --all

This will import all entities with matching LDAP user and group object classes into Ambari.
  +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

Prerequisites: Before enabling Kerberos JCE(java cryptography encryption) should be installed on every node
1)  obtain the JCE policy file appropriate for the JDK version in your cluster.
2)  On Ambari Server and on each host in the cluster, add the unlimited security policy JCE jars to $JAVA_HOME/jre/lib/security/.
For example, run the following to extract the policy jars into the JDK installed on your host:
unzip -o -j -q jce_policy-8.zip -d /usr/jdk64/jdk1.8.0_60/jre/lib/security/
       
        3)After that start the wizard in ambari
            ·  Log in to Ambari Web and Browse to Admin > Kerberos.
·  Click “Enable Kerberos” to launch the wizard.
3)  Ambari Metrics will not be secured with Kerberos unless it is configured for distributed metrics storage
---Ambari Metrics will not be secured with Kerberos unless it is configured for distributed metrics storage
--When running in embedded mode, you should confirm the "         hbase.rootdir" and "hbase.tmp.dir" directory configurations in Ambari Metrics > Configs > Advanced > ams-hbase-site are using a sufficiently sized and not heavily utilized partition, such as:
````                    --Note 1: If your cluster if configured for a highly-available NameNode, set the hbase.rootdir value to use the HDFS nameservice, instead of the NameNode hostname:
hdfs://hdfsnameservice/apps/ams/metrics
·  Copy the metric data from the AMS local directory to an HDFS directory. This is the value of hbase.rootdir in Advanced ams-hbase-site used when running in embedded mode. For example:
su - hdfs -c 'hdfs dfs -copyFromLocal /var/lib/ambari-metrics-collector/hbase/* /apps/ams/metrics'
su - hdfs -c 'hdfs dfs -chown -R ams:hadoop /apps/ams/metrics'
Script for generating service principals and keytabs:In Ambari before enabling Kerberos the required principals and keytabs for services must be created in kdc host machine for service components using kadmin.local utility .
            As the components for services might get installed on different FQDN on different hosts so the components in general has a principal name of for example datanode would be  dn/FQDN
            --So to get huge list of default principal names and key tabs use a work around go to
--Select Admin view->Security->Enable Security-> and run the Add security wizard, using the default values. At the bottom of the third page, Create Principals and Keytabs, click Download CSV. Then use the Back button to exit the wizard until you have finished your setup.

Table 13.3. Ambari Principals
User
Mandatory Principal Name
Ambari Smoke Test User
ambari-user
Ambari HDFS Test User
hdfs
Ambari HBase Test User
hbase

·  When the keytab files have been created, on each host create a directory for them and set appropriate permissions.
mkdir -p /etc/security/keytabs/
chown root:hadoop /etc/security/keytabs
chmod 750 /etc/security/keytabs
·  Copy the appropriate keytab file to each host. If a host runs more than one component (for example, both TaskTracker and DataNode), copy keytabs for both components. The Ambari Test User keytabs should be copied to the NameNode host.
·  Set appropriate permissions for the keytabs.
a.       On the HDFS NameNode and SecondaryNameNode hosts:
b.  chown hdfs:hadoop /etc/security/keytabs/nn.service.keytab
c.  chmod 400 /etc/security/keytabs/nn.service.keytab
d.  chown root:hadoop /etc/security/keytabs/spnego.service.keytab 
chmod 440 /etc/security/keytabs/spnego.service.keytab
e.       On the HDFS NameNode host, for the Ambari Test Users:
f.  chown ambari-qa:hadoop /etc/security/keytabs/smokeuser.headless.keytab
g.  chmod 440 /etc/security/keytabs/smokeuser.headless.keytab
h.  chown hdfs:hadoop /etc/security/keytabs/hdfs.headless.keytab
i.  chmod 440 /etc/security/keytabs/hdfs.headless.keytab
j.  chown hbase:hadoop /etc/security/keytabs/hbase.headless.keytab
chmod 440 /etc/security/keytabs/hbase.headless.keytab
k.      On each host that runs an HDFS DataNode:
l.  chown hdfs:hadoop /etc/security/keytabs/dn.service.keytab
chmod 400 /etc/security/keytabs/dn.service.keytab
m.    On the host that runs the MapReduce JobTracker:
n.  chown mapred:hadoop /etc/security/keytabs/jt.service.keytab
chmod 400 /etc/security/keytabs/jt.service.keytab
o.      On each host that runs a MapReduce TaskTracker:
p.  chown mapred:hadoop /etc/security/keytabs/tt.service.keytab
chmod 400 /etc/security/keytabs/tt.service.keytab
q.      On the host that runs the Oozie Server:
r.  chown oozie:hadoop /etc/security/keytabs/oozie.service.keytab
s.  chmod 400 /etc/security/keytabs/oozie.service.keytab
t.  chown root:hadoop /etc/security/keytabs/spnego.service.keytab 
chmod 440 /etc/security/keytabs/spnego.service.keytab
u.      On the host that runs the Hive Metastore, HiveServer2 and WebHCat:
v.  chown hive:hadoop /etc/security/keytabs/hive.service.keytab
w.  chmod 400 /etc/security/keytabs/hive.service.keytab
x.  chown root:hadoop /etc/security/keytabs/spnego.service.keytab 
chmod 440 /etc/security/keytabs/spnego.service.keytab
y.      On hosts that run the HBase MasterServer, RegionServer and ZooKeeper:
z.  chown hbase:hadoop /etc/security/keytabs/hbase.service.keytab
aa.chmod 400 /etc/security/keytabs/hbase.service.keytab
bb.chown zookeeper:hadoop /etc/security/keytabs/zk.service.keytab 
chmod 400 /etc/security/keytabs/zk.service.keytab
cc.   On the host that runs the Nagios server:
dd.chown nagios:nagios /etc/security/keytabs/nagios.service.keytab
chmod 400 /etc/security/keytabs/nagios.service.keytab
·  Verify that the correct keytab files and principals are associated with the correct service using the klist command. For example, on the NameNode:
        klist –k -t /etc/security/nn.service.keytab
Do this on each respective service in your cluster.
==================================

iptables --- administration tool for IPv4 packet filtering and NAT  
Linux IP TABLES works with chains(chains are set of rules)
TCP and UDP:
  TCP protocols: FTP -21/20,
ssh(secure shell) – 22,
Telnet –23,
smtp email out -25,
 pop3 email in ----110,
Imap email in --–143,vpn—1723,
Kerberos—88, web/http-tcp80,
 ssl(secure socket layer)/https---tcp 443,
  DNS-UDP 53,
DHCP –UDP 67/68,
samba-137/139/445,
netbios-137/139,
Active D-445,
snmp-161/162

There are three types of IP chains in IPTables: Input, Forward, output
---Define the rules which you want to govern first and at last define a catch all block specifying in which traffic you don’t want to allow
       
        ---Vsftpd:very secure file transfer protocol daemon port 21.
       
--cli>sudo IPtables –A input allow –j accept –p tcp –-destination –port 22 –I eth0\

--cli>sudo IPtables –A input allow –j Drop –p tcp –I eth0

--cli>sudo IPtables –L

--cli>sudo Iptables –D delete chain number(is the number of line in the list from top to bottom)

Sample output cli>sudo iptables -L
Chain INPUT (policy ACCEPT)
target     prot opt source               destination        
ACCEPT     all  --  anywhere             anywhere            state
                                                     RELATED,ESTABLISHED
ACCEPT     icmp --  anywhere             anywhere           
ACCEPT     all  --  anywhere             anywhere           
ACCEPT     tcp  --  anywhere             anywhere            state NEW tcp
                                                                     dpt:ssh
REJECT     all  --  anywhere             anywhere            reject-with
                                                     icmp-host-prohibited

Chain FORWARD (policy ACCEPT)
target     prot opt source               destination        
REJECT     all  --  anywhere             anywhere            reject-with
                                                     icmp-host-prohibited

Chain OUTPUT (policy ACCEPT)
target     prot opt source               destination   

 --------------------------------------------------------------------
To know iptables and chains run the following commands below

cli>sudo iptables -t filter -L
cli> sudo iptables -t nat -L
cli> sudo iptables -t mangle -L
cli> sudo iptables -t raw -L
Cli>sudo iptables --help