在oracle 11g的RAC中增加了SCAN IP,而使用 SCAN IP的一种方式就是使用DNS,这里介绍在Redhat Linux 5.4中DNS的详细配置操作
在配置DNS之前修改主机名
Redhat linux 5.4 DNS配置操作
在配置DNS之前修改主机名
[root@beiku1 etc]# hostname beiku1.sbyy.com
[root@beiku1 etc]# vi /etc/hosts
# Do not remove the following line, or various programs
# that require network functionality will fail.
127.0.0.1 beiku1.sbyy.com localhost
::1 localhost6.localdomain6 localhost6
10.138.130.161 beiku1 [root@beiku1 etc]# vi /etc/sysconfig/network
NETWORKING=yes
NETWORKING_IPV6=no
HOSTNAME=beiku1.sbyy.com
GATEWAY=10.138.130.254
一.安装软件包
Redhat linux 5.4 下的dns服务所有的bind包如下:
bind-9.3.6-4.P1.el5
bind-libbind-devel-9.3.6-4.P1.el5
kdebindings-devel-3.5.4-6.el5
kdebindings-3.5.4-6.el5
bind-devel-9.3.6-4.P1.el5
bind-utils-9.3.6-4.P1.el5
bind-chroot-9.3.6-4.P1.el5
ypbind-1.19-12.el5
system-config-bind-4.0.3-4.el5
bind-libs-9.3.6-4.P1.el5
bind-sdb-9.3.6-4.P1.el5
使用rpm –qa | grep bind来检查系统是否已经安装了以上软件包:
[root@beiku1 soft]# rpm -qa | grep bind
bind-chroot-9.3.6-4.P1.el5
kdebindings-3.5.4-6.el5
ypbind-1.19-12.el5
bind-libs-9.3.6-4.P1.el5
bind-9.3.6-4.P1.el5
system-config-bind-4.0.3-4.el5
bind-utils-9.3.6-4.P1.el5
对于没有安装的软件包执行以下命令进行安装
[root@beiku1 soft]# rpm -ivh bind-9.3.6-4.P1.el5.i386.rpm
warning: bind-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
package bind-9.3.6-4.P1.el5.i386 is already installed
[root@beiku1 soft]# rpm -ivh caching-nameserver-9.3.6-4.P1.el5.i386.rpm
warning: caching-nameserver-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:caching-nameserver ########################################### [100%] [root@beiku1 soft]# rpm -ivh install kdebindings-devel-3.5.4-6.el5.i386.rpm
error: open of install failed: No such file or directory
warning: kdebindings-devel-3.5.4-6.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
[root@beiku1 soft]# rpm -ivh kdebindings-devel-3.5.4-6.el5.i386.rpm
warning: kdebindings-devel-3.5.4-6.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:kdebindings-devel ########################################### [100%]
[root@beiku1 soft]# rpm -ivh bind-sdb-9.3.6-4.P1.el5.i386.rpm
warning: bind-sdb-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:bind-sdb ########################################### [100%]
[root@beiku1 soft]# rpm -ivh bind-libbind-devel-9.3.6-4.P1.el5.i386.rpm
warning: bind-libbind-devel-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:bind-libbind-devel ########################################### [100%]
[root@beiku1 soft]# rpm -ivh bind-devel-9.3.6-4.P1.el5.i386.rpm
warning: bind-devel-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:bind-devel ########################################### [100%]
还要手动安装一个软件包caching-nameserver-9.3.6-4.P1.el5 ,不安装这个软件包named服务不能启动,会报错误信息 例如:
[root@beiku1 ~]# service named start
Locating /var/named/chroot//etc/named.conf failed:
[FAILED] [root@beiku1 soft]# rpm -ivh caching-nameserver-9.3.6-4.P1.el5.i386.rpm
warning: caching-nameserver-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:caching-nameserver ########################################### [100%] [root@beiku1 soft]# service named start
Starting named: [ OK ]
二.复制模板文件
由于安装了chroot环境,所以我们的DNS主配置文件应该在/var/named/chroot/etc目录下面
[root@beiku1 soft]# cd /var/named/chroot/
[root@beiku1 chroot]# ls
dev etc proc var
[root@beiku1 chroot]# cd etc
[root@beiku1 etc]# ls
localtime named.caching-nameserver.conf named.rfc1912.zones rndc.key
[root@beiku1 etc]#
named.caching-nameserver.conf文件内容如下:
[root@beiku1 etc]# cat named.caching-nameserver.conf
//
// named.caching-nameserver.conf
//
// Provided by Red Hat caching-nameserver package to configure the
// ISC BIND named(8) DNS server as a caching only nameserver
// (as a localhost DNS resolver only).
//
// See /usr/share/doc/bind*/sample/ for example named configuration files.
//
// DO NOT EDIT THIS FILE - use system-config-bind or an editor
// to create named.conf - edits to this file will be lost on
// caching-nameserver package upgrade.
//
options {
listen-on port 53 { 127.0.0.1; };
listen-on-v6 port 53 { ::1; };
directory "/var/named";
dump-file "/var/named/data/cache_dump.db";
statistics-file "/var/named/data/named_stats.txt";
memstatistics-file "/var/named/data/named_mem_stats.txt"; // Those options should be used carefully because they disable port
// randomization
// query-source port 53;
// query-source-v6 port 53; allow-query { localhost; };
allow-query-cache { localhost; };
};
logging {
channel default_debug {
file "data/named.run";
severity dynamic;
};
};
view localhost_resolver {
match-clients { localhost; };
match-destinations { localhost; };
recursion yes;
include "/etc/named.rfc1912.zones";
};
这个文件告诉我们不要直接的编辑这个文件,去创建一个named.conf文件,然后编辑named.conf文件,当有了named.conf,将不在读取这个文件。现在就将named.caching-nameserver.conf文件复制成named.conf文件。
[root@beiku1 etc]# cp -p named.caching-nameserver.conf named.conf
[root@beiku1 etc]# ls
localtime named.caching-nameserver.conf named.conf named.rfc1912.zones rndc.key
可以看到,named.conf文件就被创建成功了。最好在copy的时候加上-P的参数,保留权限。否则启动服务的时候会报权限拒绝的。
三.编辑named.conf文件
[root@beiku1 etc]# vi named.conf
//
// named.caching-nameserver.conf
//
// Provided by Red Hat caching-nameserver package to configure the
// ISC BIND named(8) DNS server as a caching only nameserver
// (as a localhost DNS resolver only).
//
// See /usr/share/doc/bind*/sample/ for example named configuration files.
//
// DO NOT EDIT THIS FILE - use system-config-bind or an editor
// to create named.conf - edits to this file will be lost on
// caching-nameserver package upgrade.
//
options {
listen-on port 53 { any; };
listen-on-v6 port 53 { ::1; };
directory "/var/named";
dump-file "/var/named/data/cache_dump.db";
statistics-file "/var/named/data/named_stats.txt";
memstatistics-file "/var/named/data/named_mem_stats.txt"; // Those options should be used carefully because they disable port
// randomization
// query-source port 53;
// query-source-v6 port 53; allow-query { 10.138.130.0/24; };
allow-query-cache { any; };
};
logging {
channel default_debug {
file "data/named.run";
severity dynamic;
};
};
view localhost_resolver {
match-clients { 10.138.130.0/24; };
match-destinations { any; };
recursion yes;
include "/etc/named.rfc1912.zones";
};
解释这些语法参数的意思
options
代表全局配置
listen-on port 53 { any; };
DNS服务监听在所有接口
listen-on-v6 port 53 { ::1; };
ipv6监听在本地回环接口
directory “/var/named”;
zone文件的存放目录,指的是chroot环境下面的/var/named
dump-file “/var/named/data/cache_dump.db”;
存放缓存的信息
statistics-file “/var/named/data/named_stats.txt”;
统计用户的访问状态
memstatistics-file “/var/named/data/named_mem_stats.txt”;
每一次访问耗费了多数内存的存放文件
allow-query { 10.138.130.0/24 };
允许查询的客户端,现在修改成本地网段,
allow-query-cache {any; };
允许那些客户端来查询缓存,any表示允许任何人。
logging {
channel default_debug {
file “data/named.run”;
severity dynamic;
};
定义日志的存放位置在/var/named/chroot/var/named/data/目录下面
};
view localhost_resolver {
match-clients { 10.138.130.0/24; };
match-destinations { any; };
recursion yes;
include “/etc/named.rfc1912.zones”;
};
这里是定义视图的功能,
Match-clients 是指匹配的客户端
Match-destination 是指匹配的目标
到这里,named.conf文件就已经配置成功了,这个视图最后写include “/etc/named.rfc1912.zones”;接下面,就去配置这个文件。当然,我们可以匹配不同的客户端来创建不同的视图。
四.定义zone文件
[root@beiku1 etc]# vi named.rfc1912.zones
// named.rfc1912.zones:
//
// Provided by Red Hat caching-nameserver package
//
// ISC BIND named zone configuration for zones recommended by
// RFC 1912 section 4.1 : localhost TLDs and address zones
//
// See /usr/share/doc/bind*/sample/ for example named configuration files.
//
zone "." IN {
type hint;
file "named.ca";
}; zone "sbyy.com" IN {
type master;
file "sbyy.zone";
allow-update { none; };
}; zone "130.138.10.in-addr.arpa" IN {
type master;
file "named.sbyy";
allow-update { none; };
};
解释这些语法参数的意思
Zone “.” 根区域
Zone “sbyy.com” 定义正向解析的区域
zone “130.138.10.in-addr.arpa” 定义反向解析的区域
IN Internet记录
type hint 根区域的类型为hint
type master 区域的类型为主要的
file “named.ca” ; 区域文件是named,ca
file “sbyy.zone”; 指定正向解析的区域文件是sbyy.zone
file “named.sbyy”; 指定反向解析的区域文件是named,sbyy
allow-update { none; }; 默认情况下,是否允许客户端自动更新
在named.ca文件中就定义了全球的13台根服务器,
在sbyy.com文件中就定义DNS的正向解析数据库
在named.sbyy文件中就定义DNS反向解析的数据库
定义zone文件就完成了,下面来编辑DNS的数据库文件。
五.使用模板文件来创建数据库文件
[root@beiku1 etc]# cd /var/named/chroot/var/named/
[root@beiku1 named]# ls
data localdomain.zone localhost.zone named.broadcast named.ca named.ip6.local named.local named.zero slaves
可以看到,在chroot环境下面的/var/named/有很多模板文件。Named.ca就是根区域的数据库文件,我们将localhost.zone复制成sbyy.zone,这个是正向解析的数据库文件,将named.local复制成named.sbyy,这个是反向解析的数据库文件。数据库文件一定要和/etc/named.rfc1912.zones这个文件里面的匹配。
[root@beiku1 named]# cp -p localhost.zone sbyy.zone
[root@beiku1 named]# cp -p named.local named.sbyy
[root@beiku1 named]# ls
data named.broadcast named.local sbyy.zone
localdomain.zone named.ca named.sbyy slaves
localhost.zone named.ip6.local named.zero
复制成功,正向解析和反向解析的数据库文件就创建完成了。
六.定义数据库文件
1. 定义正向解析数据库文件
[root@beiku1 named]# vi sbyy.zone
$TTL 86400
@ IN SOA beiku1.sbyy.com. root.sbyy.com. (
44 ; serial (d. adams)
3H ; refresh
15M ; retry
1W ; expiry
1D ) ; minimum @ IN NS beiku1.sbyy.com. beikuscan IN A 10.138.130.167
beikuscan IN A 10.138.130.168
beikuscan IN A 10.138.130.169
beiku2 IN A 10.138.130.162
beiku1 IN A 10.138.130.161
关于正向解析数据库中每一行参数的解释
$TTL 86400
最小的存活的时间是86400S(24H)
@ IN SOA @ root (
这是一笔SOA记录,只允许存在一个SOA记录
@是代表要解析的这个域本身()
IN是Internet记录。
SOA 是初始授权记录,指定网络中第一台DNS Server。
root是指管理员的邮箱。
44 ; serial (d. adams)
3H ; refresh
15M ; retry
1W ; expiry
1D ) ; minimum
这些部分主要是用来主DNS和辅助DNS做同步用的
44 序列号,当主DNS数据改变时,这个序列号就要被增加1,而辅助DNS通过序列号来和主DNS同步。
3H 刷新,主DNS和辅助DNS每隔三小时同步一次。
15M 重试,3H之内,没有同步,每隔15M在尝试同步
1W 过期,1W之内,还没有同步,就不同步了
1D 生存期,没有这条记录,缓存的时间。
@ IN NS beiku1.sbyy.com.
这是一笔NS记录,指定nameserver为beiku1.sbyy.com至少要有一笔NS记录
beiku1 IN A 10.138.130.161
指定beiku1的ip地址为10.138.130.161
beikuscan IN A 10.138.130.167
指定beikuscan的ip地址为10.138.130.167
beikuscan IN A 10.138.130.168
指定beikuscan的ip地址为10.138.130.168
beikuscan IN A 10.138.130.169
指定beikuscan的ip地址为10.138.130.169
beiku2 IN A 10.138.130.162
指定beiku2的ip地址为10.138.130.162
正向解析的数据库就完成了,下面定义反向解析的数据库。
2. 定义反向解析数据库
[root@beiku1 named]# vi named.sbyy
$TTL 86400
@ IN SOA beiku1.sbyy.com. root.sbyy.com. (
1997022702 ; Serial
120 ; Refresh
120 ; Retry
3600000 ; Expire
86400 ) ; Minimum
@ IN NS beiku1.sbyy.com. 167 IN PTR beikuscan.sbyy.com.
168 IN PTR beikuscan.sbyy.com.
169 IN PTR beikuscan.sbyy.com.
162 IN PTR beiku2.sbyy.com.
161 IN PTR beiku1.sbyy.com.
其实反向解析的数据库文件的配置和正向解析的差不多,只需要将ip地址和域名换一个位置就可以了,把A换成PTR就ok了。
DNS的基本配置就完成了,在来看看DNS是否能够正常工作。
我们先重启一下DNS服务
[root@beiku1 etc]# service named restart
Stopping named: [ OK ]
Starting named: [ OK ]
可以看到,DNS服务启动成功了。
在查询以前,要在客户端来指定DNS Server,在/etc/resolv.conf这个文件中指定。
[root@beiku1 etc]# vi /etc/resolv.conf
search sbyy.com
nameserver 10.138.130.161 [root@beiku1 etc]# service named restart
Stopping named: [ OK ]
Starting named: [ OK ]
参数及意义:
nameserver 表明dns 服务器的ip 地址,可以有很多行的nameserver,每一个带一个ip地址。
在查询时就按nameserver 在本文件中的顺序进行,且只有当第一个nameserver 没有反应时才查询下面的nameserver.
domain 声明主机的域名。很多程序用到它,如邮件系统;当为没有域名的主机进行dns 查询时,也要用到。如果没有域名,主机名将被使,用删除所有在第一个点( . )前面的内容。
search 它的多个参数指明域名查询顺序。当要查询没有域名的主机,主机将在由search 声明的域中分别查找。
domain 和search 不能共存;如果同时存在,后面出现的将会被使用。
sortlist 允许将得到域名结果进行特定的排序。它的参数为网络/掩码对,允许任意的排列顺序。
再来使用nslookup工具来查询一下
[root@beiku1 named]# nslookup beiku1.sbyy.com
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beiku1.sbyy.com
Address: 10.138.130.161 [root@beiku1 named]# nslookup beiku2.sbyy.com
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beiku2.sbyy.com
Address: 10.138.130.162 [root@beiku1 named]# nslookup beikuscan.sbyy.com
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beikuscan.sbyy.com
Address: 10.138.130.169
Name: beikuscan.sbyy.com
Address: 10.138.130.167
Name: beikuscan.sbyy.com
Address: 10.138.130.168 [root@beiku1 named]# nslookup beiku1
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beiku1.sbyy.com
Address: 10.138.130.161 [root@beiku1 named]# nslookup beiku2
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beiku2.sbyy.com
Address: 10.138.130.162 [root@beiku1 named]# nslookup beikuscan
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beikuscan.sbyy.com
Address: 10.138.130.168
Name: beikuscan.sbyy.com
Address: 10.138.130.169
Name: beikuscan.sbyy.com
Address: 10.138.130.167 [root@beiku1 named]# nslookup 10.138.130.161
Server: 10.138.130.161
Address: 10.138.130.161#53 161.130.138.10.in-addr.arpa name = beiku1.sbyy.com. [root@beiku1 named]# nslookup 10.138.130.162
Server: 10.138.130.161
Address: 10.138.130.161#53 162.130.138.10.in-addr.arpa name = beiku2.sbyy.com. [root@beiku1 named]# nslookup 10.138.130.167
Server: 10.138.130.161
Address: 10.138.130.161#53 167.130.138.10.in-addr.arpa name = beikuscan.sbyy.com. [root@beiku1 named]# nslookup 10.138.130.168
Server: 10.138.130.161
Address: 10.138.130.161#53 168.130.138.10.in-addr.arpa name = beikuscan.sbyy.com. [root@beiku1 named]# nslookup 10.138.130.169
Server: 10.138.130.161
Address: 10.138.130.161#53 169.130.138.10.in-addr.arpa name = beikuscan.sbyy.com.
可以看到,DNS解析一切正常,上面只是配置了主DNS服务器,而且主DNS服务器也工作正常,现在我们来配置一个辅助DNS服务器
配置辅助DNS服务器
主DNS的东西和辅助DNS东西其实是相同的
一.安装软件包
[root@beiku2 soft]# rpm -qa | grep bind
bind-chroot-9.3.6-4.P1.el5
kdebindings-3.5.4-6.el5
system-config-bind-4.0.3-4.el5
ypbind-1.19-12.el5
bind-libs-9.3.6-4.P1.el5
bind-9.3.6-4.P1.el5
bind-utils-9.3.6-4.P1.el5
[root@beiku2 soft]# rpm -ivh kdebindings-devel-3.5.4-6.el5.i386.rpm
warning: kdebindings-devel-3.5.4-6.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:kdebindings-devel ########################################### [100%]
[root@beiku2 soft]# rpm -ivh caching-nameserver-9.3.6-4.P1.el5.i386.rpm
warning: caching-nameserver-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:caching-nameserver ########################################### [100%]
[root@beiku2 soft]# rpm -ivh bind-sdb-9.3.6-4.P1.el5.i386.rpm
warning: bind-sdb-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:bind-sdb ########################################### [100%]
[root@beiku2 soft]# rpm -ivh bind-libbind-devel-9.3.6-4.P1.el5.i386.rpm
warning: bind-libbind-devel-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:bind-libbind-devel ########################################### [100%]
[root@beiku2 soft]# rpm -ivh bind-devel-9.3.6-4.P1.el5.i386.rpm
warning: bind-devel-9.3.6-4.P1.el5.i386.rpm: Header V3 DSA signature: NOKEY, key ID 37017186
Preparing... ########################################### [100%]
1:bind-devel ########################################### [100%]
二.复制模板文件
[root@beiku2 /]# cd /var/named/chroot/etc
[root@beiku2 etc]# ls -lrt
total 24
-rw-r--r-- 1 root root 3519 Feb 27 2006 localtime
-rw-r----- 1 root named 955 Jul 30 2009 named.rfc1912.zones
-rw-r----- 1 root named 1230 Jul 30 2009 named.caching-nameserver.conf
-rw-r----- 1 root named 113 Nov 15 2014 rndc.key [root@beiku2 etc]# cp -p named.caching-nameserver.conf named.conf
三.编辑named.conf文件
[root@beiku2 etc]# vi named.conf
//
// named.caching-nameserver.conf
//
// Provided by Red Hat caching-nameserver package to configure the
// ISC BIND named(8) DNS server as a caching only nameserver
// (as a localhost DNS resolver only).
//
// See /usr/share/doc/bind*/sample/ for example named configuration files.
//
// DO NOT EDIT THIS FILE - use system-config-bind or an editor
// to create named.conf - edits to this file will be lost on
// caching-nameserver package upgrade.
//
options {
listen-on port 53 { any; };
listen-on-v6 port 53 { ::1; };
directory "/var/named";
dump-file "/var/named/data/cache_dump.db";
statistics-file "/var/named/data/named_stats.txt";
memstatistics-file "/var/named/data/named_mem_stats.txt"; // Those options should be used carefully because they disable port
// randomization
// query-source port 53;
// query-source-v6 port 53; allow-query { 10.138.130.0/24; };
allow-query-cache { any; };
};
logging {
channel default_debug {
file "data/named.run";
severity dynamic;
};
};
view localhost_resolver {
match-clients { 10.138.130.0/24; };
match-destinations { any; };
recursion yes;
include "/etc/named.rfc1912.zones";
};
和主DNS配置一样
四.定义zone文件
[root@beiku2 etc]# vi named.rfc1912.zones
// named.rfc1912.zones:
//
// Provided by Red Hat caching-nameserver package
//
// ISC BIND named zone configuration for zones recommended by
// RFC 1912 section 4.1 : localhost TLDs and address zones
//
// See /usr/share/doc/bind*/sample/ for example named configuration files.
// zone "sbyy.com" IN {
type slave;
masters {10.138.130.161;};
file "slaves/sbyy.com";
}; zone "0.138.10.in-addr.arpa" IN {
type slave;
masters {10.138.130.161;};
file "slaves/named.sbyy";
};
辅助DNS在定义zone文件的时候和主DNS有些不同
在辅助DNS里面 type要改为slave
master { 10.138.130.161; }; 而且必须指定主DNS的IP address
file “slaves/sbyy.com”;
file “slaves/named.sbyy”;
为什么要指定数据库文件在slaves目录下面呢,是因为slaves目录是拥有人和拥有组都是named用户,在启动DNS服务的时候,只有named有权限进行操作,所以我们要把数据库放在这个目录下面。
[root@beiku2 etc]# cd /var/named/chroot/var/named/
[root@beiku2 named]# ls -lrt
total 44
drwxrwx--- 2 named named 4096 Jul 27 2004 slaves
drwxrwx--- 2 named named 4096 Aug 26 2004 data
-rw-r----- 1 root named 427 Jul 30 2009 named.zero
-rw-r----- 1 root named 426 Jul 30 2009 named.local
-rw-r----- 1 root named 424 Jul 30 2009 named.ip6.local
-rw-r----- 1 root named 1892 Jul 30 2009 named.ca
-rw-r----- 1 root named 427 Jul 30 2009 named.broadcast
-rw-r----- 1 root named 195 Jul 30 2009 localhost.zone
-rw-r----- 1 root named 198 Jul 30 2009 localdomain.zone
[root@beiku2 named]# cd slaves
[root@beiku2 slaves]# ls -lrt
total 0
可以看到,slaves目录的拥有人和拥有组是named,并且现在的slaves目录下面是什么东西都没有的。
现在我们重启一下DNS服务
[root@beiku2 slaves]# service named restart
Stopping named: [ OK ]
Starting named: [ OK ]
可以看到,服务启动成功了。在启动服务的同时,我们来查看一下日志信息,看看日志里面有什么提示
[root@beiku2 slaves]# tail /var/log/messages
Aug 25 23:41:49 beiku2 named[30421]: the working directory is not writable
Aug 25 23:41:49 beiku2 named[30421]: running
Aug 25 23:41:49 beiku2 named[30421]: zone 0.138.10.in-addr.arpa/IN/localhost_resolver: Transfer started.
Aug 25 23:41:49 beiku2 named[30421]: transfer of '0.138.10.in-addr.arpa/IN' from 10.138.130.161#53: connected using 10.138.130.162#44647
Aug 25 23:41:49 beiku2 named[30421]: zone 0.138.10.in-addr.arpa/IN/localhost_resolver: transferred serial 1997022700
Aug 25 23:41:49 beiku2 named[30421]: transfer of '0.138.10.in-addr.arpa/IN' from 10.138.130.161#53: end of transfer
Aug 25 23:41:49 beiku2 named[30421]: zone sbyy.com/IN/localhost_resolver: Transfer started.
Aug 25 23:41:49 beiku2 named[30421]: transfer of 'sbyy.com/IN' from 10.138.130.161#53: connected using 10.138.130.162#56490
Aug 25 23:41:49 beiku2 named[30421]: zone sbyy.com/IN/localhost_resolver: transferred serial 42
Aug 25 23:41:49 beiku2 named[30421]: transfer of 'sbyy.com/IN' from 10.138.130.161#53: end of transfer
在日志里面可以看到,主DNS与辅助DNS正在同步序列号,同步成功,这个日志里面的信息非常的详细。
接下来,我们在到slaves目录下面去看看
[root@beiku2 slaves]# ls -lrt
total 8
-rw-r--r-- 1 named named 414 Aug 25 23:41 sbyy.com
-rw-r--r-- 1 named named 451 Aug 25 23:41 named.sbyy
刚才slaves目录下面的是什么东西都没有,现在就多了两个文件,example.com和named.example这个两个文件。这个就是我们刚才在定义zone文件的时候在slaves目录下面定义的,文件名是随意写的,这个没有关系,但是里面东西是和主DNS一样的。
我们查看这两个文件的具体内容
[root@beiku2 slaves]# cat sbyy.com
$ORIGIN .
$TTL 86400 ; 1 day
sbyy.com IN SOA sbyy.com. root.sbyy.com. (
42 ; serial
10800 ; refresh (3 hours)
900 ; retry (15 minutes)
604800 ; expire (1 week)
86400 ; minimum (1 day)
)
NS sbyy.com.
A 127.0.0.1
AAAA ::1
$ORIGIN sbyy.com.
beiku1 A 10.138.130.161
beikuscan1 A 10.138.130.167
beikuscan2 A 10.138.130.168
beikuscan3 A 10.138.130.169
beiku2 A 10.138.130.162 [root@beiku2 slaves]# cat named.sbyy
$ORIGIN .
$TTL 86400 ; 1 day
0.138.10.in-addr.arpa IN SOA localhost. root.localhost. (
1997022700 ; serial
28800 ; refresh (8 hours)
14400 ; retry (4 hours)
3600000 ; expire (5 weeks 6 days 16 hours)
86400 ; minimum (1 day)
)
NS localhost.
$ORIGIN 0.138.10.in-addr.arpa.
1 PTR localhost.
161 PTR beiku1.sbyy.com
167 PTR beikuscan1.sbyy.com
168 PTR beikuscan2.sbyy.com
169 PTR beikuscan3.sbyy.com
162 PTR beiku2.sbyy.com
这两个文件里面的内容和我们的主DNS的内容都是一样的。而且还帮我们整理的非常的漂亮。这些都是系统自动生成的。
现在我们来测试一下主DNS和辅助DNS可不可以正常的工作
[root@beiku2 slaves]# vi /etc/resolv.conf
search sbyy.com
nameserver 10.138.130.161
nameserver 10.138.130.162
现在我们将主DNS和辅助DNS都设置一下。然后在使用nslookup工具来测试
[root@beiku2 slaves]# nslooup beiku1
-bash: nslooup: command not found
[root@beiku2 slaves]# nslookup beiku1
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beiku1.sbyy.com
Address: 10.138.130.161 [root@beiku2 slaves]# nslookup beiku2
Server: 10.138.130.161
Address: 10.138.130.161#53 Name: beiku2.sbyy.com
Address: 10.138.130.162
现在解析没有问题,还是有10.138.130.161这台主DNS来解析的。
接下来,我们将10.138.130.161这台主DNS给down,看下10.138.130.162这台辅助DNS能否正常工作。
[root@beiku1 named]# service named stop
Stopping named: [ OK ]
用nslookup来测试一下
[root@beiku2 slaves]# nslookup beiku1
Server: 10.138.130.162
Address: 10.138.130.162#53 Name: beiku1.sbyy.com
Address: 10.138.130.161
现在解析照样成功了,现在并不是通过10.138.130.161这台主DNS来解析出来的,而是通过我们的10.138.130.162这台辅助DNS来解析出来的。当我们网络中的主DNSdown掉的时候,我们的辅助DNS照样能够正常的工作。我们还可以实现负载均衡,可以在网络中的一半客户端的主DNS指向10.138.130.161,辅助DNS指向10.138.130.161。将网络中的另一半客户端的主DNS指向10.138.130.162,辅助DNS指向10.138.130.161。这样两台服务器都可以正常的工作,正常的为客户端解析,当其中的一台DNSdown掉后,另一台DNS也会继续的工作,这样就实现了简单的负载均衡。到目前为止,我们的主DNS Server 和我们的辅助DNS Server都已经设置成功了,并且都可以正常的工作了。
接下来,我们在做一个试验,我们在主DNS添加一条记录,看下辅助DNS能否检测试到这条记录,不能够在辅助DNS上面添加记录,这样没有意义,我们的主DNS是检测不到这条记录的。
[root@beiku1 named]# vi sbyy.zone
$TTL 86400
@ IN SOA @ root (
43 ; serial (d. adams)
2M ; refresh
2M ; retry
1W ; expiry
1D ) ; minimum IN NS @
IN A 127.0.0.1
IN AAAA ::1 beiku1 IN A 10.138.130.161
beikuscan IN A 10.138.130.167
beikuscan IN A 10.138.130.168
beikuscan IN A 10.138.130.169
beiku2 IN A 10.138.130.162
www IN A 10.138.130.170
增加了www IN A 10.138.130.170记录。在主DNS里面做了新的操作以后,一定要将主DNS的序列号加一。否则辅助DNS是不会来同步我们的主DNS的。我们已经将主DNS的序列号加一了,但是默认情况下,主DNS与辅助DNS的同步时间是3H,这样我们很难看到效果,我们将它改为2M,然后在将重试时间改为2M,这样就代表每隔两分钟主DNS和辅助DNS进行同步,如果同步不成功,在隔两分钟同步一次。接下来我们将反向解析里面的也来修改一下
[root@beiku1 named]# vi named.sbyy
$TTL 86400
@ IN SOA beiku1.sbyy.com. root.sbyy.com. (
1997022703 ; Serial
120 ; Refresh
120 ; Retry
3600000 ; Expire
86400 ) ; Minimum
@ IN NS beiku1.sbyy.com. 167 IN PTR beikuscan.sbyy.com.
168 IN PTR beikuscan.sbyy.com.
169 IN PTR beikuscan.sbyy.com.
162 IN PTR beiku2.sbyy.com.
161 IN PTR beiku1.sbyy.com.
170 IN PTR www.sbyy.com.
这样,反向解析里面也已经修改完成了。现在将DNS服务重启
[root@beiku1 named]# service named restart
Stopping named: [ OK ]
Starting named: [ OK ]
重启成功,等几分钟之后在来看下效果。现在我们查看辅助DNS的正向解析数据库文件的内容
[root@beiku2 slaves]# cat sbyy.com
$ORIGIN .
$TTL 86400 ; 1 day
sbyy.com IN SOA beiku1.sbyy.com. root.sbyy.com. (
45 ; serial
120 ; refresh (2 minutes)
120 ; retry (2 minutes)
604800 ; expire (1 week)
86400 ; minimum (1 day)
)
NS beiku1.sbyy.com.
$ORIGIN sbyy.com.
beiku1 A 10.138.130.161
beiku2 A 10.138.130.162
beikuscan A 10.138.130.167
A 10.138.130.168
A 10.138.130.169
www A 10.138.130.170
OK,可以看到,我们刚才在主DNS里面添加的一条新的记录现在已经被辅助DNS同步过去了,而且辅助DNS的序列号和刷新时间,重试时间都同步了。下来我们查看辅助DNS的反向解析数据库文件的内容
[root@beiku2 slaves]# cat named.sbyy
RIGIN .
$TTL 86400 ; 1 day
0.138.10.in-addr.arpa IN SOA localhost. root.localhost. (
1997022702 ; serial
28800 ; refresh (8 hours)
14400 ; retry (4 hours)
3600000 ; expire (5 weeks 6 days 16 hours)
86400 ; minimum (1 day)
)
NS localhost.
$ORIGIN 0.138.10.in-addr.arpa.
1 PTR localhost.
161 PTR beiku1.sbyy.com
167 PTR beikuscan1.sbyy.com
168 PTR beikuscan2.sbyy.com
169 PTR beikuscan3.sbyy.com
162 PTR beiku2.sbyy.com
170 PTR www.sbyy.com
OK,也可以看到,辅助DNS也已经同步成功了,到此DNS的配置就完成了。