MySQL provides these ways to create the SSL certificate and key files and RSA key-pair files required to support encrypted connections using SSL and secure password exchange using RSA over unencrypted connections, if those files are missing:
The server can autogenerate these files at startup, for MySQL distributions.
Server autogeneration helps lower the barrier to using SSL by making it easier to generate the required files. However, certificates generated by this method are self-signed, which may not be very secure. After you gain experience using these, consider obtaining certificate and key material from a registered certificate authority.
If a client connecting to a MySQL server instance uses an SSL
certificate with the extendedKeyUsage
extension (an X.509 v3 extension), the extended key usage must
include client authentication (clientAuth
).
If the SSL certificate is only specified for server
authentication (serverAuth
) and other
non-client certificate purposes, certificate verification
fails and the client connection to the MySQL server instance
fails. There is no extendedKeyUsage
extension in SSL certificates generated by MySQL Server. If
you use your own client certificate created in another way,
ensure any extendedKeyUsage
extension
includes client authentication.
For MySQL distributions compiled using OpenSSL, the MySQL
server has the capability of automatically generating missing
SSL and RSA files at startup. The
auto_generate_certs
,
sha256_password_auto_generate_rsa_keys
,
and
caching_sha2_password_auto_generate_rsa_keys
system variables control automatic generation of these files.
These variables are enabled by default. They can be enabled at
startup and inspected but not set at runtime.
At startup, the server automatically generates server-side and
client-side SSL certificate and key files in the data
directory if the
auto_generate_certs
system
variable is enabled, no SSL options are specified, and the
server-side SSL files are missing from the data directory.
These files enable encrypted client connections using SSL; see
Section 8.3.1, “Configuring MySQL to Use Encrypted Connections”.
The server checks the data directory for SSL files with the following names:
ca.pem server-cert.pem server-key.pem
If any of those files are present, the server creates no SSL files. Otherwise, it creates them, plus some additional files:
ca.pem Self-signed CA certificate ca-key.pem CA private key server-cert.pem Server certificate server-key.pem Server private key client-cert.pem Client certificate client-key.pem Client private key
If the server autogenerates SSL files, it uses the names of the
ca.pem
,server-cert.pem
, andserver-key.pem
files to set the corresponding system variables (ssl_ca
,ssl_cert
,ssl_key
).
At startup, the server automatically generates RSA
private/public key-pair files in the data directory if all of
these conditions are true: The
sha256_password_auto_generate_rsa_keys
or
caching_sha2_password_auto_generate_rsa_keys
system variable is enabled; no RSA options are specified; the
RSA files are missing from the data directory. These key-pair
files enable secure password exchange using RSA over
unencrypted connections for accounts authenticated by the
sha256_password
(deprecated) or
caching_sha2_password
plugin; see
Section 8.4.1.2, “SHA-256 Pluggable Authentication”, and
Section 8.4.1.1, “Caching SHA-2 Pluggable Authentication”.
The server checks the data directory for RSA files with the following names:
private_key.pem Private member of private/public key pair public_key.pem Public member of private/public key pair
If any of these files are present, the server creates no RSA files. Otherwise, it creates them.
If the server autogenerates the RSA files, it uses their names to set the corresponding system variables (
sha256_password_private_key_path
andsha256_password_public_key_path
;caching_sha2_password_private_key_path
andcaching_sha2_password_public_key_path
).
SSL and RSA files created automatically by the server have these characteristics:
SSL and RSA keys have a size of 2048 bits.
The SSL CA certificate is self signed.
The SSL server and client certificates are signed with the CA certificate and key, using the
sha256WithRSAEncryption
signature algorithm.SSL certificates use these Common Name (CN) values, with the appropriate certificate type (CA, Server, Client):
ca.pem: MySQL_Server_suffix_Auto_Generated_CA_Certificate server-cert.pm: MySQL_Server_suffix_Auto_Generated_Server_Certificate client-cert.pm: MySQL_Server_suffix_Auto_Generated_Client_Certificate
The
suffix
value is based on the MySQL version number.For files generated by the server, if the resulting CN values exceed 64 characters, the
_
portion of the name is omitted.suffix
SSL files have blank values for Country (C), State or Province (ST), Organization (O), Organization Unit Name (OU) and email address.
SSL files created by the server are valid for ten years from the time of generation.
RSA files do not expire.
SSL files have different serial numbers for each certificate/key pair (1 for CA, 2 for Server, 3 for Client).
Files created automatically by the server are owned by the account that runs the server.
On Unix and Unix-like systems, the file access mode is 644 for certificate files (that is, world readable) and 600 for key files (that is, accessible only by the account that runs the server).
To see the contents of an SSL certificate (for example, to check the range of dates over which it is valid), invoke openssl directly:
openssl x509 -text -in ca.pem
openssl x509 -text -in server-cert.pem
openssl x509 -text -in client-cert.pem
It is also possible to check SSL certificate expiration information using this SQL statement:
mysql> SHOW STATUS LIKE 'Ssl_server_not%';
+-----------------------+--------------------------+
| Variable_name | Value |
+-----------------------+--------------------------+
| Ssl_server_not_after | Apr 28 14:16:39 2027 GMT |
| Ssl_server_not_before | May 1 14:16:39 2017 GMT |
+-----------------------+--------------------------+