When a client application connects to the database server, it specifies which PostgreSQL user name it wants to connect as, much the same way one logs into a Unix computer as a particular user. Within the SQL environment the active database user name determines access privileges to database objects -- see Chapter 17 for more information. Therefore, it is essential to restrict which database users can connect.
Authentication is the process by which the database server establishes the identity of the client, and by extension determines whether the client application (or the user who runs the client application) is permitted to connect with the user name that was requested.
PostgreSQL offers a number of different client authentication methods. The method used to authenticate a particular client connection can be selected on the basis of (client) host address, database, and user.
PostgreSQL user names are logically separate from user names of the operating system in which the server runs. If all the users of a particular server also have accounts on the server's machine, it makes sense to assign database user names that match their operating system user names. However, a server that accepts remote connections may have many database users who have no local operating system account, and in such cases there need be no connection between database user names and OS user names.
Client authentication is controlled by the file pg_hba.conf in the data directory, e.g., /usr/local/pgsql/data/pg_hba.conf. (HBA stands for host-based authentication.) A default pg_hba.conf file is installed when the data directory is initialized by initdb.
The general format of the pg_hba.conf file is a set of records, one per line. Blank lines are ignored, as is any text after the # comment character. A record is made up of a number of fields which are separated by spaces and/or tabs. Fields can contain white space if the field value is quoted. Records cannot be continued across lines.
Each record specifies a connection type, a client IP address range (if relevant for the connection type), a database name, a user name, and the authentication method to be used for connections matching these parameters. The first record with a matching connection type, client address, requested database, and user name is used to perform authentication. There is no "fall-through" or "backup": if one record is chosen and the authentication fails, subsequent records are not considered. If no record matches, access is denied.
A record may have one of the seven formats
local database user authentication-method [authentication-option] host database user IP-address IP-mask authentication-method [authentication-option] hostssl database user IP-address IP-mask authentication-method [authentication-option] hostnossl database user IP-address IP-mask authentication-method [authentication-option] host database user IP-address/IP-masklen authentication-method [authentication-option] hostssl database user IP-address/IP-masklen authentication-method [authentication-option] hostnossl database user IP-address/IP-masklen authentication-method [authentication-option]
The meaning of the fields is as follows:
This record matches connection attempts using Unix-domain sockets. Without a record of this type, Unix-domain socket connections are disallowed.
This record matches connection attempts using TCP/IP networks. Note that TCP/IP connections are disabled unless the server is started with the -i option or the tcpip_socket configuration parameter is enabled.
This record matches connection attempts using SSL over TCP/IP. host records will match either SSL or non-SSL connection attempts, but hostssl records require SSL connections.
To make use of this option the server must be built with SSL support enabled. Furthermore, SSL must be enabled by enabling the ssl configuration parameter (see Section 16.4 for more information).
This record is similar to hostssl but with the opposite logic: it matches only regular connection attempts not using SSL.
Specifies which databases this record matches. The value all specifies that it matches all databases. The value sameuser specifies that the record matches if the requested database has the same name as the requested user. The value samegroup specifies that the requested user must a member of the group with the same name as the requested database. Otherwise, this is the name of a specific PostgreSQL database. Multiple database names can be supplied by separating them with commas. A file containing database names can be specified by preceding the file name with @. The file must be in the same directory as pg_hba.conf.
Specifies which PostgreSQL users this record matches. The value all specifies that it matches all users. Otherwise, this is the name of a specific PostgreSQL user. Multiple user names can be supplied by separating them with commas. Group names can be specified by preceding the group name with +. A file containing user names can be specified by preceding the file name with @. The file must be in the same directory as pg_hba.conf.
These two fields contain IP address and mask values in standard dotted decimal notation. (IP addresses can only be specified numerically, not as domain or host names.) Taken together they specify the client machine IP addresses that this record matches. The precise logic is that
(actual-IP-address xor IP-address-field) and IP-mask-field
must be zero for the record to match.
An IP address given in IPv4 format will match IPv6 connections that have the corresponding address, for example 127.0.0.1 will match the IPv6 address ::ffff:127.0.0.1. An entry given in IPv6 format will match only IPv6 connections, even if the represented address is in the IPv4-in-IPv6 range. Note that entries in IPv6 format will be rejected if the system's C library does not have support for IPv6 addresses.
These fields only apply to host, hostssl, and hostnossl records.
This field may be used as an alternative to the IP-mask notation. It is an integer specifying the number of high-order bits to set in the mask. The number must be between 0 and 32 (in the case of an IPv4 address) or 128 (in the case of an IPv6 address) inclusive. 0 will match any address, while 32 (or 128, respectively) will match only the exact host specified. The same matching logic is used as for a dotted notation IP-mask.
There must be no white space between the IP-address and the / or the / and the IP-masklen, or the file will not be parsed correctly.
This field only applies to host, hostssl, and hostnossl records.
Specifies the authentication method to use when connecting via this record. The possible choices are summarized here; details are in Section 19.2.
The connection is allowed unconditionally. This method allows anyone that can connect to the PostgreSQL database server to login as any PostgreSQL user they like, without the need for a password. See Section 19.2.1 for details.
The connection is rejected unconditionally. This is useful for "filtering out" certain hosts from a group.
Requires the client to supply an MD5 encrypted password for authentication. This is the only method that allows encrypted passwords to be stored in pg_shadow. See Section 19.2.2 for details.
Like the md5 method but
encryption, which is needed for pre-7.2 clients.
md5 is preferred for 7.2
and later clients. See Section
19.2.2 for details.
Same as md5, but the password is sent in clear text over the network. This should not be used on untrusted networks. See Section 19.2.2 for details.
Kerberos V4 is used to authenticate the user. This is only available for TCP/IP connections. See Section 19.2.3 for details.
Kerberos V5 is used to authenticate the user. This is only available for TCP/IP connections. See Section 19.2.3 for details.
Obtain the operating system user name of the client (for TCP/IP connections by contacting the ident server on the client, for local connections by getting it from the operating system) and check if the user is allowed to connect as the requested database user by consulting the map specified after the ident key word.
If you use the map sameuser, the user names are required to be identical. If not, the map name is looked up in the file pg_ident.conf in the same directory as pg_hba.conf. The connection is accepted if that file contains an entry for this map name with the operating-system user name and the requested PostgreSQL user name.
For local connections, this only works on machines that support Unix-domain socket credentials (currently Linux, FreeBSD, NetBSD, OpenBSD, and BSD/OS).
See Section 19.2.4 below for details.
Authenticate using the Pluggable Authentication Modules (PAM) service provided by the operating system. See Section 19.2.5 for details.
The meaning of this optional field depends on the chosen authentication method and is described in the next section.
Since the pg_hba.conf records are examined sequentially for each connection attempt, the order of the records is significant. Typically, earlier records will have tight connection match parameters and weaker authentication methods, while later records will have looser match parameters and stronger authentication methods. For example, one might wish to use trust authentication for local TCP/IP connections but require a password for remote TCP/IP connections. In this case a record specifying trust authentication for connections from 127.0.0.1 would appear before a record specifying password authentication for a wider range of allowed client IP addresses.
Important: Do not prevent the superuser from accessing the template1 database. Various utility commands need access to template1.
The pg_hba.conf file is read on start-up and when the main server process (postmaster) receives a SIGHUP signal. If you edit the file on an active system, you will need to signal the postmaster (using pg_ctl reload or kill -HUP) to make it re-read the file.
An example of a pg_hba.conf file is shown in Example 19-1. See the next section for details on the different authentication methods.
Example 19-1. An example pg_hba.conf file
# Allow any user on the local system to connect to any database under # any user name using Unix-domain sockets (the default for local # connections). # # TYPE DATABASE USER IP-ADDRESS IP-MASK METHOD local all all trust # The same using local loopback TCP/IP connections. # # TYPE DATABASE USER IP-ADDRESS IP-MASK METHOD host all all 127.0.0.1 255.255.255.255 trust # The same as the last line but using a CIDR mask # # TYPE DATABASE USER IP-ADDRESS/CIDR-mask METHOD host all all 127.0.0.1/32 trust # Allow any user from any host with IP address 192.168.93.x to connect # to database "template1" as the same user name that ident reports for # the connection (typically the Unix user name). # # TYPE DATABASE USER IP-ADDRESS IP-MASK METHOD host template1 all 192.168.93.0 255.255.255.0 ident sameuser # The same as the last line but using a CIDR mask # # TYPE DATABASE USER IP-ADDRESS/CIDR-mask METHOD host template1 all 192.168.93.0/24 ident sameuser # Allow a user from host 192.168.12.10 to connect to database # "template1" if the user's password is correctly supplied. # # TYPE DATABASE USER IP-ADDRESS IP-MASK METHOD host template1 all 192.168.12.10 255.255.255.255 md5 # In the absence of preceding "host" lines, these two lines will # reject all connection from 192.168.54.1 (since that entry will be # matched first), but allow Kerberos V connections from anywhere else # on the Internet. The zero mask means that no bits of the host IP # address are considered so it matches any host. # # TYPE DATABASE USER IP-ADDRESS IP-MASK METHOD host all all 192.168.54.1 255.255.255.255 reject host all all 0.0.0.0 0.0.0.0 krb5 # Allow users from 192.168.x.x hosts to connect to any database, if # they pass the ident check. If, for example, ident says the user is # "bryanh" and he requests to connect as PostgreSQL user "guest1", the # connection is allowed if there is an entry in pg_ident.conf for map # "omicron" that says "bryanh" is allowed to connect as "guest1". # # TYPE DATABASE USER IP-ADDRESS IP-MASK METHOD host all all 192.168.0.0 255.255.0.0 ident omicron # If these are the only three lines for local connections, they will # allow local users to connect only to their own databases (databases # with the same name as their user name) except for administrators and # members of group "support" who may connect to all databases. The file # $PGDATA/admins contains a list of user names. Passwords are required in # all cases. # # TYPE DATABASE USER IP-ADDRESS IP-MASK METHOD local sameuser all md5 local all @admins md5 local all +support md5 # The last two lines above can be combined into a single line: local all @admins,+support md5 # The database column can also use lists and file names, but not groups: local db1,db2,@demodbs all md5
My case is Redhat 9 and use Webmin to start up Postgres. I have the same problem of pg_hba.conf. After search for the whole harddrive, the pg_hba.conf file located at /var/lib/pgsql/data/pg_hba.conf
"Important: if you call initdb manually, please don't forget to call
it with the --debian-conffile option to automatically take care of
putting the conffiles into /etc/postgresql/ and link them to
The order of 'local' entries seems to be important. Specifically, in the following sequence root will not be able to login as jdoe:
jdoeroot root jdoe
local all all ident sameuser
local all jdoe ident jdoeroot
Switching the lines around in pg_hba.conf solves the problem.