建站服务器 环境 Red Hat Enterprise Linux 6 and below NFS protocol versions 3 and 4 问题 How to configure NFSv4 with kerberos authentication in Red Hat Enterprise Linux 5? GIDs of users in more than 16 groups are not recognized properly on NFS in RHEL 决议
To allow NFS manipulate properly the file permissions of users that participate in more than 16 Groups, RPCSEC_GSS and Kerberos need to be used instead the default authentication method (AUTH_SYS). To configure Kerberos and NFSv4, the following article could be used :
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Red Hat Enterprise Linux 5.5 x86_64 server as NFSv4 server and KDC - hostname server.example.com Red Hat Enterprise Linux 4 x86_64 as NFS client - hostname client.example.comImportant points :
Time Synchronization: All machines that will participate in Kerberos authentication must have a reliable, synchronized time source. Most large organization offer their own time sources. You can use the RHEL configuration tool system-config-time to set this up. So, time of both the server and clients will be same. Hostnames : All hosts must have their hostname set to the fully qualified hostname as reported by dns. Both forward and reverse mapping must work properly. The host may be referenced by a CNAME, but the official host name (as reported by hostname) must be an ‘A’ record. This is important; if you don’t have this setup properly then some things will work, while other things will fail mysteriously. If the host name does not match the reverse DNS lookup, Kerberos authentication will fail. You need to choose a kerberos realm. A kerberos realm is completely different from a DNS domain, but in most cases you will want to use the same name. By convention, kerberos realms are all upper case. The kerberos realm used in this article will be EXAMPLE.COM.Packages needed :
On client machine, make it sure that following packages are installed :
krb5-libs krb5-workstation pam_krb5 cyrus-sasl-gssapiOn server machine, make it sure that following package is installed :
krb5-serverConfiguring Kerberos service on the Server :
1.1 There are a number of files that have to be manually edited on the server :
Edit /etc/krb5.conf
The stock version of this file will have EXAMPLE.COM or example.com everywhere you want to put your own realm or domain name. The two sections in question are libdefaults and domain_realm. The other sections do not need to be changed. In libdefaults, enter your own Kerberos realm name. You may want to set the clock skew to a lower value (provided you are synchronizing time with ntp). The file will look like :
Raw[root@server ~]# cat /etc/krb5.conf [logging] default = FILE:/var/log/krb5libs.log kdc = FILE:/var/log/krb5kdc.log admin_server = FILE:/var/log/kadmind.log [libdefaults] default_realm = EXAMPLE.COM dns_lookup_realm = false dns_lookup_kdc = false ticket_lifetime = 24h forwardable = yes [realms] EXAMPLE.COM = { kdc = server.example.com:88 admin_server = server.example.com:749 default_domain = example.com } [domain_realm] .example.com = EXAMPLE.COM example.com = EXAMPLE.COM [appdefaults] pam = { debug = false ticket_lifetime = 36000 renew_lifetime = 36000 forwardable = true krb4_convert = false }
1.2 Edit /var/kerberos/krb5kdc/kdc.conf
In this file, only the realms section needs to be modified. It is important to change the key types as well. I can confirm that the setting below work perfectly in our environment. You may want to decide on appropriate values for the maximum life of each ticket, and for how long each ticket can be renewed. Reasonable values are 1 day and 1 week but your needs will vary. The values here are the absolute maximum that the KDC will issue. Each principal has its own maximum as well. File will look like :
Raw[root@server ~]# cat /var/kerberos/krb5kdc/kdc.conf [kdcdefaults] v4_mode = nopreauth kdc_tcp_ports = 88 [realms] EXAMPLE.COM = { #master_key_type = des3-hmac-sha1 acl_file = /var/kerberos/krb5kdc/kadm5.acl dict_file = /usr/share/dict/words admin_keytab = /var/kerberos/krb5kdc/kadm5.keytab supported_enctypes = aes256-cts:normal aes128-cts:normal des3-hmac-sha1:normal arcfour-hmac:normal des-hmac-sha1:normal des-cbc-md5:normal des-cbc-crc:normal des-cbc-crc:v4 des-cbc-crc:afs3 }
1.3 Edit /var/kerberos/krb5kdc/kadm5.acl :
This file determines who can modify the Kerberos database. You need to change the realm. File will look like :
Raw[root@server ~]# cat /var/kerberos/krb5kdc/kadm5.acl */admin@EXAMPLE.COM *
1.4 Make sure /etc/gssapi_mech.conf looks like :
Raw[root@server ~]# cat /etc/gssapi_mech.conf # library initialization function # ================================ ========================== # The MIT K5 gssapi library, use special function for initialization. libgssapi_krb5.so.2 mechglue_internal_krb5_init #
1.5 Create the Kerberos database :
Execute the following command :
Raw[root@server ~]# kdb5_util -r EXAMPLE.COM create -s
This will prompt you for a password. You will only have to enter this password when you initially configure a slave KDC, so choose something large and random and store it in a secure place. Really, you may only have to enter this once more, so make it secure.
1.6 Add the first Administrative User :
I do administration as root, so the first user I add is root/admin. The default realm is appended automatically, so the command to use is as follows :
Raw[root@server ~]# kadmin.local -q addprinc root/admin
Enter a password when prompted. You will need this password every time you administer the database.
1.7 At this point it is necessary to enable and start the kerberos services :
Raw[root@server ~]# chkconfig kadmin on [root@server ~]# service kadmin start [root@server ~]# chkconfig krb5kdc on [root@server ~]# service krb5kdc start
To test if everything is working, execute kadmin or kadmin.local. By default, the current user appended with ‘/admin’ is used as the principle.
Raw[root@server ~]# kadmin Authenticating as principal root/admin@EXAMPLE.COM with password. Password for root/admin@EXAMPLE.COM: //Please enter admin password kadmin: listprincs K/M@EXAMPLE.COM host/server.example.com@EXAMPLE.COM host/client.example.com@EXAMPLE.COM kadmin/admin@EXAMPLE.COM kadmin/changepw@EXAMPLE.COM kadmin/history@EXAMPLE.COM kadmin/server.example.com@EXAMPLE.COM kmaiti@EXAMPLE.COM krbtgt/EXAMPLE.COM@EXAMPLE.COM nc@EXAMPLE.COM nfs/server.example.com@EXAMPLE.COM nfs/client.example.com@EXAMPLE.COM root/admin@EXAMPLE.COM kadmin:
The additional principles have been created by the tool. They are required so leave them be.
1.8 Create a Host Principal for the KDC :
Now you will want to create a nfs service principal for nfs server. You also need to add this principal to the local key table.
Raw[root@server ~]# kadmin Authenticating as principal root/admin@EXAMPLE.COM with password. Password for root/admin@EXAMPLE.COM: kadmin: addprinc -randkey nfs/server.example.com //Execute this command. Don\'t forget to replace the hostname. kadmin: ktadd nfs/server.example.com // Adding key to keytab file.
1.9 Creating Kerberos Principals for client :
Run kadmin on the server and create the following principals. Replace client.example.com with the fully qualified name of the client machine.
Raw[root@server ~]# kadmin Authenticating as principal root/admin@EXAMPLE.COM with password. Password for root/admin@EXAMPLE.COM: kadmin: addprinc -randkey nfs/client.example.com
1.10 Generate key in the keytab file for the admin and this will be saved in /var/kerberos/krb5kdc/kadm5.keytab since this has been mentioned in /var/kerberos/krb5kdc/kdc.conf. Use following commands :
Raw[root@server ~]# kadmin Authenticating as principal root/admin@EXAMPLE.COM with password. Password for root/admin@EXAMPLE.COM: kadmin: ktadd -k /var/kerberos/krb5kdc/kadm5.keytab kadmin/admin //Execute these commands kadmin: ktadd -k /var/kerberos/krb5kdc/kadm5.keytab kadmin/changepw
1.11 Make it sure that ports 88 and 749 has opened at the firewall. Restart the firewall, kadmin and krb5kdc services.
Client Setup :
2.1 Copy the file /etc/krb5.conf from server (Kerberos server) to client machine.
2.2 Make it sure that ports 88 and 749 has opened at the firewall. Restart the firewall.
2.3 Create Kerberos Principals:
Execute kadmin command on the client console. Add the principal to the keytab file as follows for NFS :
Raw[root@client ~]# kadmin Authenticating as principal root/admin@EXAMPLE.COM with password. Password for root/admin@EXAMPLE.COM: kadmin: ktadd -e des-cbc-crc:normal nfs/client.example.com
Configuring kerberos for NFSv4 (Assuming that NFSv4 has been installed on the server), on the kerberos (i.e NFSv4) server :
3.1 Create the necessary entries in /etc/exports. First, create an NFSv4 mount point. I would suggest /export. Next bind the real path to the NFSv4 mount point. In this example, we want to export the /data directory. We create /export/data for NFSv4 and mount /data there.
Raw[root@server /]# mkdir -m 1777 /export [root@server /]# mkdir /export/data [root@server /]# mount -n --bind /data /export/data
3.2 Add the following lines in the /etc/exports file :
Raw/export gss/krb5(sync,rw,fsid=0,insecure,no_subtree_check,anonuid=65534,anongid=65534) /export/data gss/krb5(sync,rw,nohide,insecure,no_subtree_check,anonuid=65534,anongid=65534)
3.3 Modify /etc/idmapd.conf and it\'ll look like :
Raw[root@server /]# cat /etc/idmapd.conf [General] Verbosity = 0 Pipefs-Directory = /var/lib/nfs/rpc_pipefs Domain = example.com [Mapping] Nobody-User = nfsnobody Nobody-Group = nfsnobody [Translation] Method = nsswitch
3.4 Make the value of SECURE_NFS to yes in /etc/sysconfig/nfs. To enable secure NFS, you must add the following line to /etc/sysconfig/nfs :
RawSECURE_NFS=yes
After the restart the NFS servers, the environment is able to work properly using Kerberos authentication and RPCSEC_GSS.
Testing :
On client machine issue the following command to mount the exporting directory of the server :
Raw# mount -t nfs4 -o sec=krb5 server.example.com:/ /mnt/my_nfs_mount_point
Now create the files inside the /data directory on the server and view the files inside /mnt directory on the client machine.
Note : NFS daemons looks like on the server :
Raw[root@server /]# service nfs status rpc.svcgssd (pid 8974) is running... rpc.mountd (pid 8994) is running... nfsd (pid 8991 8990 8989 8988 8987 8986 8985 8984) is running... rpc.rquotad (pid 8979) is running...根源
By default NFS clients and servers use the AUTH_SYS protocol to authenticate users.
AUTH_SYS is defined in RPC v2 (http://www.ietf.org/rfc/rfc1831.txt) to allocate a 4 bit value to group memberships, hence the 16 groups limitation.
But since v4, NFS can use a different authentication protocol such as RPCSEC_GSS which supports more groups.
The following considerations can help to debug problems with the above setup.
Are hosts properly resolved via DNS or/etc/hosts? Are the expected principals in the keytab? This can be verified withklist -ke. Are the required services running on client and server? Have the services been restarted? Are the required modules loaded? In some casesrpcsec_gss_krb5was not loaded automatically on RHEL5. Isshowmount -e