18.9. Secure TCP/IP Connections with SSL
PostgreSQL has native support for using SSL connections to encrypt client/server communications for increased security. This requires that OpenSSL is installed on both client and server systems and that support in PostgreSQL is enabled at build time (see Chapter 16).
With SSL support compiled in, the PostgreSQL server can be started with SSL enabled by setting the parameter ssl to on
in postgresql.conf
. The server will listen for both normal and SSL connections on the same TCP port, and will negotiate with any connecting client on whether to use SSL. By default, this is at the client's option; see Section 20.1 about how to set up the server to require use of SSL for some or all connections.
PostgreSQL reads the system-wide OpenSSL configuration file. By default, this file is named openssl.cnf
and is located in the directory reported by openssl version -d
. This default can be overridden by setting environment variable OPENSSL_CONF
to the name of the desired configuration file.
OpenSSL supports a wide range of ciphers and authentication algorithms, of varying strength. While a list of ciphers can be specified in the OpenSSL configuration file, you can specify ciphers specifically for use by the database server by modifying ssl_ciphers in postgresql.conf
.
Note: It is possible to have authentication without encryption overhead by using
NULL-SHA
orNULL-MD5
ciphers. However, a man-in-the-middle could read and pass communications between client and server. Also, encryption overhead is minimal compared to the overhead of authentication. For these reasons NULL ciphers are not recommended.
To start in SSL mode, files containing the server certificate and private key must exist. By default, these files are expected to be named server.crt
and server.key
, respectively, in the server's data directory, but other names and locations can be specified using the configuration parameters ssl_cert_file and ssl_key_file.
On Unix systems, the permissions on server.key
must disallow any access to world or group; achieve this by the command chmod 0600 server.key
. Alternatively, the file can be owned by root and have group read access (that is, 0640
permissions). That setup is intended for installations where certificate and key files are managed by the operating system. The user under which the PostgreSQL server runs should then be made a member of the group that has access to those certificate and key files.
If the private key is protected with a passphrase, the server will prompt for the passphrase and will not start until it has been entered.
The first certificate in server.crt
must be the server's certificate because it must match the server's private key. The certificates of "intermediate" certificate authorities can also be appended to the file. Doing this avoids the necessity of storing intermediate certificates on clients, assuming the root and intermediate certificates were created with v3_ca
extensions. This allows easier expiration of intermediate certificates.
It is not necessary to add the root certificate to server.crt
. Instead, clients must have the root certificate of the server's certificate chain.
18.9.1. Using Client Certificates
To require the client to supply a trusted certificate, place certificates of the root certificate authorities (CAs) you trust in a file in the data directory, set the parameter ssl_ca_file in postgresql.conf
to the new file name, and add the authentication option clientcert=1
to the appropriate hostssl
line(s) in pg_hba.conf
. A certificate will then be requested from the client during SSL connection startup. (See Section 32.18 for a description of how to set up certificates on the client.) The server will verify that the client's certificate is signed by one of the trusted certificate authorities.
Intermediate certificates that chain up to existing root certificates can also appear in the file root.crt
if you wish to avoid storing them on clients (assuming the root and intermediate certificates were created with v3_ca
extensions). Certificate Revocation List (CRL) entries are also checked if the parameter ssl_crl_file is set. (See http://h41379.www4.hpe.com/doc/83final/ba554_90007/ch04s02.html for diagrams showing SSL certificate usage.)
The clientcert
authentication option is available for all authentication methods, but only in pg_hba.conf
lines specified as hostssl
. When clientcert
is not specified or is set to 0, the server will still verify any presented client certificates against its CA file, if one is configured — but it will not insist that a client certificate be presented.
If you are setting up client certificates, you may wish to use the cert
authentication method, so that the certificates control user authentication as well as providing connection security. See Section 20.3.9 for details. (It is not necessary to specify clientcert=1
explicitly when using the cert
authentication method.)
18.9.2. SSL Server File Usage
Table 18-2 summarizes the files that are relevant to the SSL setup on the server. (The shown file names are default or typical names. The locally configured names could be different.)
Table 18-2. SSL Server File Usage
File | Contents | Effect |
---|---|---|
ssl_cert_file ($PGDATA/server.crt ) | server certificate | sent to client to indicate server's identity |
ssl_key_file ($PGDATA/server.key ) | server private key | proves server certificate was sent by the owner; does not indicate certificate owner is trustworthy |
ssl_ca_file ($PGDATA/root.crt ) | trusted certificate authorities | checks that client certificate is signed by a trusted certificate authority |
ssl_crl_file ($PGDATA/root.crl ) | certificates revoked by certificate authorities | client certificate must not be on this list |
The files server.key
, server.crt
, root.crt
, and root.crl
(or their configured alternative names) are only examined during server start; so you must restart the server for changes in them to take effect.
18.9.3. Creating Certificates
To create a simple self-signed certificate for the server, valid for 365 days, use the following OpenSSL command, replacing dbhost.yourdomain.com
with the server's host name:
openssl req -new -x509 -days 365 -nodes -text -out server.crt \ -keyout server.key -subj "/CN=dbhost.yourdomain.com"
Then do:
chmod og-rwx server.key
because the server will reject the file if its permissions are more liberal than this. For more details on how to create your server private key and certificate, refer to the OpenSSL documentation.
While a self-signed certificate can be used for testing, a certificate signed by a certificate authority (CA) (usually an enterprise-wide root CA) should be used in production.
To create a server certificate whose identity can be validated by clients, first create a certificate signing request (CSR) and a public/private key file:
openssl req -new -nodes -text -out root.csr \ -keyout root.key -subj "/CN=root.yourdomain.com" chmod og-rwx root.key
Then, sign the request with the key to create a root certificate authority (using the default OpenSSL configuration file location on Linux):
openssl x509 -req -in root.csr -text -days 3650 \ -extfile /etc/ssl/openssl.cnf -extensions v3_ca \ -signkey root.key -out root.crt
Finally, create a server certificate signed by the new root certificate authority:
openssl req -new -nodes -text -out server.csr \ -keyout server.key -subj "/CN=dbhost.yourdomain.com" chmod og-rwx server.key openssl x509 -req -in server.csr -text -days 365 \ -CA root.crt -CAkey root.key -CAcreateserial \ -out server.crt
server.crt
and server.key
should be stored on the server, and root.crt
should be stored on the client so the client can verify that the server's leaf certificate was signed by its trusted root certificate. root.key
should be stored offline for use in creating future certificates.
It is also possible to create a chain of trust that includes intermediate certificates:
# root openssl req -new -nodes -text -out root.csr \ -keyout root.key -subj "/CN=root.yourdomain.com" chmod og-rwx root.key openssl x509 -req -in root.csr -text -days 3650 \ -extfile /etc/ssl/openssl.cnf -extensions v3_ca \ -signkey root.key -out root.crt # intermediate openssl req -new -nodes -text -out intermediate.csr \ -keyout intermediate.key -subj "/CN=intermediate.yourdomain.com" chmod og-rwx intermediate.key openssl x509 -req -in intermediate.csr -text -days 1825 \ -extfile /etc/ssl/openssl.cnf -extensions v3_ca \ -CA root.crt -CAkey root.key -CAcreateserial \ -out intermediate.crt # leaf openssl req -new -nodes -text -out server.csr \ -keyout server.key -subj "/CN=dbhost.yourdomain.com" chmod og-rwx server.key openssl x509 -req -in server.csr -text -days 365 \ -CA intermediate.crt -CAkey intermediate.key -CAcreateserial \ -out server.crt
server.crt
and intermediate.crt
should be concatenated into a certificate file bundle and stored on the server. server.key
should also be stored on the server. root.crt
should be stored on the client so the client can verify that the server's leaf certificate was signed by a chain of certificates linked to its trusted root certificate. root.key
and intermediate.key
should be stored offline for use in creating future certificates.
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