# # This is the Apache server configuration file providing SSL support using. # the mod_nss plugin. It contains the configuration directives to instruct # the server how to serve pages over an https connection. # # Do NOT simply read the instructions in here without understanding # what they do. They're here only as hints or reminders. If you are unsure # consult the online docs. You have been warned. # LoadModule nss_module modules/mod_nss.so # # When we also provide SSL we have to listen to the # standard HTTP port (see above) and to the HTTPS port # # Note: Configurations that use IPv6 but not IPv4-mapped addresses need two # Listen directives: "Listen [::]:8443" and "Listen 0.0.0.0:8443" # Listen 8443 ## ## SSL Global Context ## ## All SSL configuration in this context applies both to ## the main server and all SSL-enabled virtual hosts. ## # # Some MIME-types for downloading Certificates and CRLs # AddType application/x-x509-ca-cert .crt AddType application/x-pkcs7-crl .crl # Pass Phrase Dialog: # Configure the pass phrase gathering process. # The filtering dialog program (`builtin' is a internal # terminal dialog) has to provide the pass phrase on stdout. NSSPassPhraseDialog builtin # Pass Phrase Helper: # This helper program stores the token password pins between # restarts of Apache. NSSPassPhraseHelper /usr/sbin/nss_pcache # Configure the SSL Session Cache. # NSSSessionCacheSize is the number of entries in the cache. # NSSSessionCacheTimeout is the SSL2 session timeout (in seconds). # NSSSession3CacheTimeout is the SSL3/TLS session timeout (in seconds). NSSSessionCacheSize 10000 NSSSessionCacheTimeout 100 NSSSession3CacheTimeout 86400 # # Pseudo Random Number Generator (PRNG): # Configure one or more sources to seed the PRNG of the SSL library. # The seed data should be of good random quality. # WARNING! On some platforms /dev/random blocks if not enough entropy # is available. Those platforms usually also provide a non-blocking # device, /dev/urandom, which may be used instead. # # This does not support seeding the RNG with each connection. NSSRandomSeed startup builtin #NSSRandomSeed startup file:/dev/random 512 #NSSRandomSeed startup file:/dev/urandom 512 ## ## SSL Virtual Host Context ## # General setup for the virtual host #DocumentRoot "/usr/htdocs" #ServerName www.example.com:8443 #ServerAdmin you@example.com # mod_nss can log to separate log files, you can choose to do that if you'd like # LogLevel is not inherited from httpd.conf. #ErrorLog /usr/logs/error_log #TransferLog /usr/logs/access_log LogLevel warn # SSL Engine Switch: # Enable/Disable SSL for this virtual host. NSSEngine on # SSL Cipher Suite: # List the ciphers that the client is permitted to negotiate. # See the mod_nss documentation for a complete list. # SSL 3 ciphers. SSL 2 is disabled by default. NSSCipherSuite +rsa_rc4_128_md5,+rsa_rc4_128_sha,+rsa_3des_sha,-rsa_des_sha,-rsa_rc4_40_md5,-rsa_rc2_40_md5,-rsa_null_md5,-rsa_null_sha,+fips_3des_sha,-fips_des_sha,-fortezza,-fortezza_rc4_128_sha,-fortezza_null,-rsa_des_56_sha,-rsa_rc4_56_sha,+rsa_aes_128_sha,+rsa_aes_256_sha # SSL 3 ciphers + ECC ciphers. SSL 2 is disabled by default. # # Comment out the NSSCipherSuite line above and use the one below if you have # ECC enabled NSS and mod_nss and want to use Elliptical Curve Cryptography #NSSCipherSuite +rsa_rc4_128_md5,+rsa_rc4_128_sha,+rsa_3des_sha,-rsa_des_sha,-rsa_rc4_40_md5,-rsa_rc2_40_md5,-rsa_null_md5,-rsa_null_sha,+fips_3des_sha,-fips_des_sha,-fortezza,-fortezza_rc4_128_sha,-fortezza_null,-rsa_des_56_sha,-rsa_rc4_56_sha,+rsa_aes_128_sha,+rsa_aes_256_sha,-ecdh_ecdsa_null_sha,+ecdh_ecdsa_rc4_128_sha,+ecdh_ecdsa_3des_sha,+ecdh_ecdsa_aes_128_sha,+ecdh_ecdsa_aes_256_sha,-ecdhe_ecdsa_null_sha,+ecdhe_ecdsa_rc4_128_sha,+ecdhe_ecdsa_3des_sha,+ecdhe_ecdsa_aes_128_sha,+ecdhe_ecdsa_aes_256_sha,-ecdh_rsa_null_sha,+ecdh_rsa_128_sha,+ecdh_rsa_3des_sha,+ecdh_rsa_aes_128_sha,+ecdh_rsa_aes_256_sha,-echde_rsa_null,+ecdhe_rsa_rc4_128_sha,+ecdhe_rsa_3des_sha,+ecdhe_rsa_aes_128_sha,+ecdhe_rsa_aes_256_sha NSSProtocol SSLv3,TLSv1 # SSL Certificate Nickname: # The nickname of the RSA server certificate you are going to use. NSSNickname Server-Cert # SSL Certificate Nickname: # The nickname of the ECC server certificate you are going to use, if you # have an ECC-enabled version of NSS and mod_nss #NSSECCNickname Server-Cert-ecc # Server Certificate Database: # The NSS security database directory that holds the certificates and # keys. The database consists of 3 files: cert8.db, key3.db and secmod.db. # Provide the directory that these files exist. NSSCertificateDatabase /etc/apache2 # Database Prefix: # In order to be able to store multiple NSS databases in one directory # they need unique names. This option sets the database prefix used for # cert8.db and key3.db. #NSSDBPrefix my-prefix- # Client Authentication (Type): # Client certificate verification type. Types are none, optional and # require. #NSSVerifyClient none # # Online Certificate Status Protocol (OCSP). # Verify that certificates have not been revoked before accepting them. #NSSOCSP off # # Use a default OCSP responder. If enabled this will be used regardless # of whether one is included in a client certificate. Note that the # server certificate is verified during startup. # # NSSOCSPDefaultURL defines the service URL of the OCSP responder # NSSOCSPDefaultName is the nickname of the certificate to trust to # sign the OCSP responses. #NSSOCSPDefaultResponder on #NSSOCSPDefaultURL http://example.com/ocsp/status #NSSOCSPDefaultName ocsp-nickname # Access Control: # With SSLRequire you can do per-directory access control based # on arbitrary complex boolean expressions containing server # variable checks and other lookup directives. The syntax is a # mixture between C and Perl. See the mod_nss documentation # for more details. # #NSSRequire ( %{SSL_CIPHER} !~ m/^(EXP|NULL)/ \ # and %{SSL_CLIENT_S_DN_O} eq "Snake Oil, Ltd." \ # and %{SSL_CLIENT_S_DN_OU} in {"Staff", "CA", "Dev"} \ # and %{TIME_WDAY} >= 1 and %{TIME_WDAY} <= 5 \ # and %{TIME_HOUR} >= 8 and %{TIME_HOUR} <= 20 ) \ # or %{REMOTE_ADDR} =~ m/^192\.76\.162\.[0-9]+$/ # # SSL Engine Options: # Set various options for the SSL engine. # o FakeBasicAuth: # Translate the client X.509 into a Basic Authorisation. This means that # the standard Auth/DBMAuth methods can be used for access control. The # user name is the `one line' version of the client's X.509 certificate. # Note that no password is obtained from the user. Every entry in the user # file needs this password: `xxj31ZMTZzkVA'. # o ExportCertData: # This exports two additional environment variables: SSL_CLIENT_CERT and # SSL_SERVER_CERT. These contain the PEM-encoded certificates of the # server (always existing) and the client (only existing when client # authentication is used). This can be used to import the certificates # into CGI scripts. # o StdEnvVars: # This exports the standard SSL/TLS related `SSL_*' environment variables. # Per default this exportation is switched off for performance reasons, # because the extraction step is an expensive operation and is usually # useless for serving static content. So one usually enables the # exportation for CGI and SSI requests only. # o StrictRequire: # This denies access when "NSSRequireSSL" or "NSSRequire" applied even # under a "Satisfy any" situation, i.e. when it applies access is denied # and no other module can change it. # o OptRenegotiate: # This enables optimized SSL connection renegotiation handling when SSL # directives are used in per-directory context. #NSSOptions +FakeBasicAuth +ExportCertData +CompatEnvVars +StrictRequire NSSOptions +StdEnvVars NSSOptions +StdEnvVars # Per-Server Logging: # The home of a custom SSL log file. Use this when you want a # compact non-error SSL logfile on a virtual host basis. #CustomLog /home/rcrit/redhat/apache/logs/ssl_request_log \ # "%t %h %{SSL_PROTOCOL}x %{SSL_CIPHER}x \"%r\" %b"