PostgreSQL has native support for using SSL connections to encrypt client/server communications for increased security. See Section 17.9 for details about the server-side SSL functionality.
libpq 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.
By default, PostgreSQL will not perform any verification of the server certificate. This means that it is possible to spoof the server identity (for example by modifying a DNS record or by taking over the server IP address) without the client knowing. In order to prevent spoofing, SSL certificate verification must be used.
If the parameter sslmode is set to verify-ca, libpq will verify that the server is trustworthy by checking the certificate chain up to a trusted certificate authority (CA). If sslmode is set to verify-full, libpq will also verify that the server host name matches its certificate. The SSL connection will fail if the server certificate cannot be verified. verify-full is recommended in most security-sensitive environments.
In verify-full mode, the cn (Common Name) attribute of the certificate is matched against the host name. If the cn attribute starts with an asterisk (*), it will be treated as a wildcard, and will match all characters except a dot (.). This means the certificate will not match subdomains. If the connection is made using an IP address instead of a host name, the IP address will be matched (without doing any DNS lookups).
To allow server certificate verification, the certificate(s) of one or more trusted CAs must be placed in the file ~/.postgresql/root.crt in the user's home directory. (On Microsoft Windows the file is named %APPDATA%\postgresql\root.crt.)
Certificate Revocation List (CRL) entries are also checked if the file ~/.postgresql/root.crl exists (%APPDATA%\postgresql\root.crl on Microsoft Windows).
The location of the root certificate file and the CRL can be changed by setting the connection parameters sslrootcert and sslcrl or the environment variables PGSSLROOTCERT and PGSSLCRL.
Note: For backwards compatibility with earlier versions of PostgreSQL, if a root CA file exists, the behavior of sslmode=require will be the same as that of verify-ca, meaning the sever certificate is validated against the CA. Relying on this behavior is discouraged, and applications that need certificate validation should always use verify-ca or verify-full.
If the server requests a trusted client certificate, libpq will send the certificate stored in file ~/.postgresql/postgresql.crt in the user's home directory. The certificate must be signed by one of the certificate authorities (CA) trusted by the server. A matching private key file ~/.postgresql/postgresql.key must also be present. The private key file must not allow any access to world or group; achieve this by the command chmod 0600 ~/.postgresql/postgresql.key. On Microsoft Windows these files are named %APPDATA%\postgresql\postgresql.crt and %APPDATA%\postgresql\postgresql.key, and there is no special permissions check since the directory is presumed secure. The location of the certificate and key files can be overridden by the connection parameters sslcert and sslkey or the environment variables PGSSLCERT and PGSSLKEY.
In some cases, the client certificate might be signed by an "intermediate" certificate authority, rather than one that is directly trusted by the server. To use such a certificate, append the certificate of the signing authority to the postgresql.crt file, then its parent authority's certificate, and so on up to a "root" authority that is trusted by the server. The root certificate should be included in every case where postgresql.crt contains more than one certificate.
Note that root.crt lists the top-level CAs that are considered trusted for signing server certificates. In principle it need not list the CA that signed the client's certificate, though in most cases that CA would also be trusted for server certificates.
The different values for the sslmode parameter provide different levels of protection. SSL can provide protection against three types of attacks:
If a third party can examine the network traffic between the client and the server, it can read both connection information (including the user name and password) and the data that is passed. SSL uses encryption to prevent this.
If a third party can modify the data while passing between the client and server, it can pretend to be the server and therefore see and modify data even if it is encrypted. The third party can then forward the connection information and data to the original server, making it impossible to detect this attack. Common vectors to do this include DNS poisoning and address hijacking, whereby the client is directed to a different server than intended. There are also several other attack methods that can accomplish this. SSL uses certificate verification to prevent this, by authenticating the server to the client.
If a third party can pretend to be an authorized client, it can simply access data it should not have access to. Typically this can happen through insecure password management. SSL uses client certificates to prevent this, by making sure that only holders of valid certificates can access the server.
For a connection to be known secure, SSL usage must be configured on both the client and the server before the connection is made. If it is only configured on the server, the client may end up sending sensitive information (e.g. passwords) before it knows that the server requires high security. In libpq, secure connections can be ensured by setting the sslmode parameter to verify-full or verify-ca, and providing the system with a root certificate to verify against. This is analogous to using an https URL for encrypted web browsing.
Once the server has been authenticated, the client can pass sensitive data. This means that up until this point, the client does not need to know if certificates will be used for authentication, making it safe to specify that only in the server configuration.
All SSL options carry overhead in the form of encryption and key-exchange, so there is a tradeoff that has to be made between performance and security. Table 31-1 illustrates the risks the different sslmode values protect against, and what statement they make about security and overhead.
Table 31-1. SSL Mode Descriptions
|sslmode||Eavesdropping protection||MITM protection||Statement|
|disable||No||No||I don't care about security, and I don't want to pay the overhead of encryption.|
|allow||Maybe||No||I don't care about security, but I will pay the overhead of encryption if the server insists on it.|
|prefer||Maybe||No||I don't care about encryption, but I wish to pay the overhead of encryption if the server supports it.|
|require||Yes||No||I want my data to be encrypted, and I accept the overhead. I trust that the network will make sure I always connect to the server I want.|
|verify-ca||Yes||Depends on CA-policy||I want my data encrypted, and I accept the overhead. I want to be sure that I connect to a server that I trust.|
|verify-full||Yes||Yes||I want my data encrypted, and I accept the overhead. I want to be sure that I connect to a server I trust, and that it's the one I specify.|
The difference between verify-ca and verify-full depends on the policy of the root CA. If a public CA is used, verify-ca allows connections to a server that somebody else may have registered with the CA. In this case, verify-full should always be used. If a local CA is used, or even a self-signed certificate, using verify-ca often provides enough protection.
The default value for sslmode is prefer. As is shown in the table, this makes no sense from a security point of view, and it only promises performance overhead if possible. It is only provided as the default for backward compatibility, and is not recommended in secure deployments.
Table 31-2 summarizes the files that are relevant to the SSL setup on the client.
Table 31-2. Libpq/Client SSL File Usage
|~/.postgresql/postgresql.crt||client certificate||requested by server|
|~/.postgresql/postgresql.key||client private key||proves client certificate sent by owner; does not indicate certificate owner is trustworthy|
|~/.postgresql/root.crt||trusted certificate authorities||checks that server certificate is signed by a trusted certificate authority|
|~/.postgresql/root.crl||certificates revoked by certificate authorities||server certificate must not be on this list|
If your application initializes libssl and/or libcrypto
libraries and libpq is built
with SSL support, you should
PQinitOpenSSL to tell
libpq that the libssl and/or libcrypto
libraries have been initialized by your application, so that
libpq will not also initialize
those libraries. See http://h71000.www7.hp.com/doc/83final/BA554_90007/ch04.html
for details on the SSL API.
Allows applications to select which security libraries to initialize.
void PQinitOpenSSL(int do_ssl, int do_crypto);
When do_ssl is non-zero,
libpq will initialize
the OpenSSL library
before first opening a database connection. When
do_crypto is non-zero, the
libcrypto library will be
initialized. By default (if
PQinitOpenSSL is not called), both
libraries are initialized. When SSL support is not
compiled in, this function is present but does
If your application uses and initializes either OpenSSL or its underlying libcrypto library, you must call this function with zeroes for the appropriate parameter(s) before first opening a database connection. Also be sure that you have done that initialization before opening a database connection.
Allows applications to select which security libraries to initialize.
void PQinitSSL(int do_ssl);
This function is equivalent to PQinitOpenSSL(do_ssl, do_ssl). It is sufficient for applications that initialize both or neither of OpenSSL and libcrypto.
PQinitSSL has been
present since PostgreSQL
was added in PostgreSQL
PQinitSSL might be
preferable for applications that need to work with older
versions of libpq.
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