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- On the Controller instance's server create the keystore using the
keytool
from your Java JRE or JDK or a third party utility.- For use with a third party utility create a keystore, e.g.
https-keystore.p12
, in PKCS12 format and import:- Controller private key and certificate for Server Authentication
- Root CA certificate
- Intermediate CA certificatescertificate(s)
- For use with
keytool
create create the keystore with the private key and certificate for Server Authentication from the command line. The The examples below show one possible approach for certificate management - however, there may be are other ways of achieving similar results.Example for the use of private key and CA-signed certificate with PKCS12 keystore:
Code Block language bash title Example how to add a private key and CA-signed certificate to a PKCS12 keystore # If the Controller's private key and certificate are to be provided with a .jks keystore (keypair.jks) then temporarily convert the keystore to pkcs12 (keystore.p12) # for later use with openssl, assuming the alias name of the Controller's private key to be "controller-https" # keytool -importkeystore -srckeystore keypair.jks -srcstoretype JKS -destkeystore keystore.p12 -deststoretype PKCS12 -srcalias controller-https # assuming the Controller's private key from a pkcs12 keystore (keystore.p12), store the Controller's private key in a .key file in PEM format (controller-https.key) openssl pkcs12 -in keystore.p12 -nocerts -out controller-https.key # concatenate CA Root certificate and CA Intermediate certificate to a single CA Bundle certificate file (ca-bundle.crt) cat RootCACertificate.crt > ca-bundle.crt cat CACertificate.crt >> ca-bundle.crt # Export the Controller's private key (controller-https.key), Controller's certificate (controller-https.crt) and CA Bundle (ca-bundle.crt) in PEM format to a new keystore (https-keystore.p12) # assuming the fully qualified hostnamedomain name (FQDN) of the Controller server is "controller.example.com" openssl pkcs12 -export -in controller-https.crt -inkey controller-https.key -chain -CAfile ca-bundle.crt -name controller.example.com -out JS7_CONTROLLER_CONFIG_DIR/private/https-keystore.p12 # IF you require use of a .jks keystore type then convert the pkcs12 keystore, assuming the alias name of the Controller private key being "controller-https" # keytool -importkeystore -srckeystore https-keystore.p12 -srcstoretype PKCS12 -destkeystore JS7_CONTROLLER_CONFIG_DIR/private/https-keystore.jks -deststoretype JKS -srcalias controller-https
Example for the use of private key and self-signed certificate with PKCS12 keystore:
Code Block language bash title Example how to generate a private key and self-signed certificate for import into a PKCS12 keystore collapse true # generate the Controller's private key with alias name "controller-https" in a keystore (https-keystore.p12) # use the fully qualified domain hostnamename (FQDN) assumed to be "controller.example.com" and name of your organization for the distinguished name # consider that PKCS12 keystores require the use of the same key password and store password keytool -genkey -alias "controller-https" -dname "CN=hostnamecontroller.example.com,O=organization" -validity 1461 -keyalg RSA -keysize 2048 -keypass jobscheduler -keystore "JS7_CONTROLLER_CONFIG_DIR/private/https-keystore.p12" -storepass jobscheduler -storetype PKCS12
Example for the use of private key and self-signed certificate with JKS keystore:
Code Block language bash title Example how to generate a private key and self-signed certificate for import into a JKS keystore collapse true # generate the Controller's private key with the alias name "controller-https" in a keystore (https-keystore.jks) # use the fully qualified domain hostnamename (FQDN) assumed to be "controller.example.com" and name of your organization for the distinguished name keytool -genkey -alias "controller-https" -dname "CN=hostnamecontroller.example.com,O=organization" -validity 1461 -keyalg RSA -keysize 2048 -keypass jobscheduler -keystore "JS7_CONTROLLER_CONFIG_DIR/private/https-keystore.jks" -storepass jobscheduler -storetype JKS
Explanation:
- The
-dname
option option specifies the certificate issuer, therefore use your own set of CN, O, OU, DC that specify the issuer's distinguished nameDistinguished Name. The O setting is required for the issuer. - The
-keypass
option accepts the password that you will need later on to manage your private key. - The
-keystore
option specifies the location of the keystore file. The keystore file should be in reach of the Controller, it is recommended using theprivate
sub-folder in theJS7_CONTROLLER_CONFIG_DIR
directory. - The
-storepass
option specifies the password for access to the keystore file. - The
-storetype
option is used to specify the PKCS12 or JKS keystore format.
- The
- With the keystore set up, specify the relevant properties with the
JS7_CONTROLLER_CONFIG_DIR
/private/private.conf
configuration file:Example
Code Block language text title Example for private.conf file specifying the Controller keystore js7 { web { # keystore location for https connections https { keystore { # Default: ${js7.config-directory}"/private/https-keystore.p12" file=${js7.config-directory}"/private/https-keystore.p12" key-password="jobscheduler" store-password="jobscheduler" } } } }
Explanation:js7.web.https.keystore.file
is used for the path to the keystore.js7.web.https.keystore.key-password
is used for access to the private key.js7.web.https.keystore.store-password
is used for access to the keystore.
- For use with a third party utility create a keystore, e.g.
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- By default mutual authentication is in place.
- The JOC Cockpit is challenged by the Controller to present its Client Authentication certificate that is then verified by the Controller.
- In addition the distinguished name Distinguished Name of the JOC Cockpit , the Client Authentication certificate is checked and a password is used to identify the JOC Cockpit instance.
- Note that any number of clustered JOC Cockpit instances can connect to a Controller.
- If a Controller cluster is used then connections from the partnering Controller instance are authenticated by the distinguished name Distinguished Name of the instance's Client Authentication certificate.
- The JOC Cockpit is challenged by the Controller to present its Client Authentication certificate that is then verified by the Controller.
The
JS7_CONTROLLER_CONFIG_DIR
/private/private.conf
configuration file should include authentication details such as:Code Block title Example for private.conf file specifying JOC Cockpit authentication js7 { auth { users { # History account (used for releasereleasing events) History { distinguished-names=[ "DNQ=SOS CA, CN=apmacwin_joc_client, OU=IT, O=SOS, L=Berlin, ST=Berlin, C=DE" ] password="sha512:B793649879D61613FD3F711B68F7FF3DB19F2FE2D2C136E8523ABC87612219D5AECB4A09035AD88D544E227400A0A56F02BC990CF0D4CB348F8413DE00BCBF08" } # JOC account (needs UpdateItem permission for deployment) JOC { distinguished-names=[ "DNQ=SOS CA, CN=apmacwin_joc_client, OU=IT, O=SOS, L=Berlin, ST=Berlin, C=DE" ] password="sha512:3662FD6BF84C6B8385FC15F66A137AB75C755147A81CC7AE64092BFE8A18723A7C049D459AB35C059B78FD6028BB61DCFC55801AE3894D2B52401643F17A07FE" permissions=[ UpdateItem ] } # Controller ID for connections by primary/secondary controller instance jobscheduler { distinguished-names=[ "DNQ=SOS CA, CN=apmacwin_secondary_client, OU=IT, O=SOS, L=Berlin, ST=Berlin, C=DE" ] } } } }
Explanation:- The
History
andJOC
user accounts are used by the JS7 - History Service and by the JS7 - REST Web Service API.- The
distinguished-names
property allows the addition of a number of distinguished names Distinguished Names as available from the subject of the Client Authentication certificates which are used by JOC Cockpit instances when connecting to the Controller.- Except for whitespace between attributes, the precise sequence and values as available from the certificate's subject has to match this property value.
- The
password
is used for authentication of theHistory
andJOC
service accounts with the Controller. Both accounts are typically running in the same JOC Cockpit instance.- If HTTP connections are used then the password is the only means for authentication. If HTTPS connections with mutual authentication are used then the password is not relevant as certificate based authentication is in place.
- The symmetric password is specified with the section joc of the the JS7 - Settingspage of the JOC Cockpit and in the
private.conf
file.- User Input to the Settings page of the JOC Cockpit can look like this:
Input to the GUI simply accepts the password and does not require to use the prefixessha512:
orplain:.
- User Input to the Settings page of the JOC Cockpit can look like this:
- In the
private.conf
file a hashed value or a plain text value can be specified like this:password="sha512:B793649879D6..."
password="plain:JS7-History"
- If the password is modified in the
private.conf
file then it has to be modified in the JOC Cockpit settings as well, so that the passwords match. - The password setting cannot be omitted. However, an empty password can be specified, for example, with mutual authentication HTTPS connections such as:
password="plain:"
- From the
private.conf
file that ships by default the plain text value and the hashed values are:- History:
- Plain Text:
JS7-History
- Hash:
sha512:B793649879D61613FD3F711B68F7FF3DB19F2FE2D2C136E8523ABC87612219D5AECB4A09035AD88D544E227400A0A56F02BC990CF0D4CB348F8413DE00BCBF08
- Plain Text:
- JOC:
- Plain Text:
JS7-JOC
- Hash:
sha512:3662FD6BF84C6B8385FC15F66A137AB75C755147A81CC7AE64092BFE8A18723A7C049D459AB35C059B78FD6028BB61DCFC55801AE3894D2B52401643F17A07FE
- Plain Text:
- History:
- The
- The
jobscheduler
user account is an example of a Controller ID that is used by a partnering Controller instance.- This setting is not required if a standalone Standalone Controller is used.
- For a Controller cluster Cluster the Controller ID is specified during installation.
- The
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To make a Controller use HTTPS the respective port setting has to be specified with the Controller's Instance Start Script.
For Unix the Instance Start Script is available from
JS7_CONTROLLER_HOME/
bin/controller_instance.sh
:Code Block language xml title Example for HTTP and HTTPS port settings with Controller Instance Start Script for Unix # Sets the http port for the JS7 Controller. # Without this setting the default port 4444 is used. # If just a port is specified then the JS7 Controller listens to all # available network interfaces. This corresponds to 0.0.0.0:<port>. # Use the form <ip address or hostname>:<port> to indicate # a specific network interface the JS7 Controller should listen to. # The command line option --http-port beats the environment # variable JS7_CONTROLLER_HTTP_PORT. JS7_CONTROLLER_HTTP_PORT=localhost:4444 # In addition to the http port an https port for the # JS7 Controller can be specified. If just a port is specified # then the JS7 Controller listens to all available network interfaces. # This corresponds to using 0.0.0.0:<port>. # Use the form <ip address or hostname>:<port> to indicate # a specific network interface the JS7 Controller should listen to. # The command line option --https-port beats the environment # variable JS7_CONTROLLER_HTTPS_PORT. JS7_CONTROLLER_HTTPS_PORT=apmacwincontroller.example.com:4444
For Windows the Instance Start Script is available from
JS7_CONTROLLER_HOME\
bin\controller_instance.cmd
:Code Block language xml title Example for HTTP and HTTPS port settings with Controller Instance Start Script for Windows collapse true rem # Sets the http port for the JS7 Controller. rem # Without this setting the default port 4444 is used. rem # If just a port is specified then the JS7 Controller listens to all rem # available network interfaces. This corresponds to 0.0.0.0:<port>. rem # Use the form <ip address or hostname>:<port> to indicate rem # a specific network interface the JS7 Controller should listen to. rem # The command line option --http-port beats the environment rem # variable JS7_CONTROLLER_HTTP_PORT. set JS7_CONTROLLER_HTTP_PORT=localhost:4444 rem # In addition to the http port an https port for the rem # JS7 Controller can be specified. If just a port is specified rem # then the JS7 Controller listens to all available network interfaces. rem # This corresponds to using 0.0.0.0:<port>. rem # Use the form <ip address or hostname>:<port> to indicate rem # a specific network interface the JS7 Controller should listen to. rem # The command line option --https-port beats the environment rem # variable JS7_CONTROLLER_HTTPS_PORT. set JS7_CONTROLLER_HTTPS_PORT=apmacwincontroller.example.com:4444
Explanation:- The HTTP port is required but is limited to the localhost network interface with the
localhost
prefix. - The HTTPS port is specified with the hostname prefix that indicates the network interface.
- The HTTP port is required but is limited to the localhost network interface with the
...
- On the JOC Cockpit server create the truststore using the
keytool
from your Java JRE or JDK or a third party utility.- For use with a third party utility create a truststore, e.g.
https-truststore.p12,
in PKCS12 format and import:- Root CA certificate
- For use with
keytool
create the truststore in PKCS12 or JKS format with the Root CA certificate. The examples below show one possible approach for certificate management - however, there may be other ways how to achieve similar results.Example showing the import a Root CA certificate to a PKCS12 truststore:
Code Block language bash title Example how to import a CA-signed certificate into a PKCS12 truststore # import Root CA certificate in PEM format to a PKCS12 truststore (https-truststore.p12) keytool -import -alias "root-ca" -file "RootCACertificate.crt" -keystore "JETTY_BASE/resources/joc/https-truststore.p12" -storetype PKCS12
Example showing the use of a self-signed Controller certificate with a PKCS12 truststore:
Code Block language bash title Example for import of a self-signed Controller certificate to a PKCS12 truststore collapse true # on the Controller server: export Controller's certificate from keystore (https-keystore.p12) identified by its alias name (controller-https) to a file in PEM format (controller-https.crt) keytool -exportcert -rfc -noprompt -file "controller-https.crt" -alias "controller-https" -keystore "JS7_CONTROLLER_CONFIG_DIR/private/https-keystore.p12" -storepass jobscheduler -storetype PKCS12 # on the JOC Cockpit server: import the Controller's certificate from a file in PEM format (controller-https.crt) identified by its alias name (controller-https) to the JOC Cockpit PKCS12 truststore (https-truststore.p12) keytool -importcert -noprompt -file "controller-https.crt" -alias "controller-https" -keystore "JETTY_BASE/resources/joc/https-truststore.p12" -storepass jobscheduler -storetype PKCS12 -trustcacerts
Example showing the use of a self-signed Controller certificate with a JKS truststore:
Code Block language bash title Example for import of a self-signed Controller certificate to a JKS truststore collapse true # on the Controller server: export Controller's certificate from keystore (https-keystore.jks) identified by its alias name (controller-https) to a file in PEM format (controller-https.crt) keytool -exportcert -rfc -noprompt -file "controller-https.crt" -alias "controller-https" -keystore "JS7_CONTROLLER_CONFIG_DIR/private/https-keystore.jks" -storepass jobscheduler -storetype JKS # on the JOC Cockpit server: import the Controller's certificate from a file in PEM format (controller-https.crt) identified by its alias name (controller-https) to the JOC Cockpit JKS truststore (https-truststore.jks) keytool -importcert -noprompt -file "controller-https.crt" -alias "controller-https" -keystore "JETTY_BASE/resources/joc/https-truststore.jks" -storepass jobscheduler -trustcacerts -storetype JKS
- For use with a third party utility create a truststore, e.g.
The location of the truststore is added to the
JETTY_BASE/resources/joc/joc.properties
configuration file like this:Example for a PKCS12 truststore
Code Block language text title Example how to specify a PKCS12 truststore location with the joc.properties file ### Location of the truststore that contains the certificates of all ### Controllers used for HTTPS connections. The path can be absolute or ### relative to joc.properties truststore_path = ../../resources/joc/https-truststore.p12 truststore_type = PKCS12 truststore_password = jobscheduler
Example for a JKS truststore
Code Block language text title Example how to specify a JKS truststore location with the joc.properties file collapse true ### Location of the truststore that contains the certificates of all ### Controllers used for HTTPS connections. The path can be absolute or ### relative to joc.properties truststore_path = ../../resources/joc/https-truststore.jks truststore_type = JKS truststore_password = jobscheduler
Hostname verification by default is in place with the
JETTY_BASE/resources/joc/joc.properties
configuration file.Code Block title Example how to specify hostname verification with the joc.properties file ################################################################################ ### Specifies if hostname verification should be carried out for HTTPS connections. ### Default true https_with_hostname_verification = true
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- On the JOC Cockpit server create the client keystore using the
keytool
from your Java JRE or JDK or a third party utility.- For use with a third party utility create a client keystore, e.g.
https-client-keystore.p12,
in PKCS12 format and import:- the JOC Cockpit private key and certificate for Client Authentication
- the Root CA certificate
- Intermediate CA certificatescertificate(s)
- For use with
keytool
create the client keystore in PKCS12 or JKS format according to the steps indicated with JS7 - JOC Cockpit HTTPS Connections: Step 2: Create JOC Cockpit Keystore chapter.- Apply the steps indicated to the client keystore and use the private key/certificate pair for Client Authentication.
- For use with a third party utility create a client keystore, e.g.
The location of the client keystore is added to the
JETTY_BASE/resources/joc/joc.properties
configuration file like this:Example for a PKCS12 client keystore:
Code Block language text title Example how to specify the PKCS12 client keystore location with joc.properties file ### Location of the client keystore that contains the private key and ### certificate for JOC Cockpit client authentication relative to ### joc.properties keystore_path = ../../resources/joc/https-client-keystore.p12 keystore_type = PKCS12 keystore_password = jobscheduler
Example for a JKS client keystore:
Code Block language text title Example how to specify the JKS client keystore location with joc.properties file collapse true ### Location of the client keystore that contains the private key and ### certificate for JOC Cockpit client authentication relative to ### joc.properties keystore_path = ../../resources/joc/https-client-keystore.jks keystore_type = JKS keystore_password = jobscheduler
...
- On the Controller server create the truststore using the
keytool
from your Java JRE or JDK or a third party utility.- For use with a third party utility create a truststore, e.g.
https-truststore.p12,
in PKCS12 format and import:- Root CA certificate
- For use with
keytool
create the truststore in PKCS12 or JKS format with the Root CA certificate. The The below examples suggest one possible approach for certificate management, however, there may be are other ways how to achieve similar results.Example for import of a Root CA certificate to a PKCS12 truststore:
Code Block language bash title Example how to import a CA-signed certificate into a PKCS12 truststore # on Controller server: import Root CA certificate in PEM format to a PKCS12 truststore (https-truststore.p12) keytool -import -alias "root-ca" -file "RootCACertificate.crt" -keystore "JS7_CONTROLLER_CONFIG_DIR/private/https-truststore.p12" -storetype PKCS12
Example for export/import of self-signed client authentication Client Authentication certificate to a PKCS12 keystore:
Code Block language bash title Example how to export/import a self-signed certificate to a PKCS12 truststore collapse true # on JOC Cockpit server: export JOC Cockpit's certificate from client keystore (https-client-keystore.p12) identified by its alias name (joc-client-https) to a file in PEM format (joc-client-https.crt) keytool -exportcert -rfc -noprompt -file "joc-client-https.crt" -alias "joc-client-https" -keystore "JETTY_BASE/resources/joc/https-client-keystore.p12" -storepass jobscheduler -storetype PKCS12 # on Controller server: import JOC Cockpit's certificate in PEM format to a PKCS12 truststore (https-truststore.p12) keytool -import -alias "joc-client-https" -file "joc-clent-https.crt" -keystore "JS7_CONTROLLER_CONFIG_DIR/private/https-truststore.p12" -storetype PKCS12
Example for export/import of self-signed client authentication Client Authentication certificate to a JKS keystore:
Code Block language bash title Example how to export/import a self-signed certificate to a JKS truststore collapse true # on JOC Cockpit server: export JOC Cockpit's certificate from client keystore (https-client-keystore.jks) identified by its alias name (joc-client-https) to a file in PEM format (joc-client-https.crt) keytool -exportcert -rfc -noprompt -file "joc-client-https.crt" -alias "joc-client-https" -keystore "JETTY_BASE/resources/joc/https-client-keystore.jks" -storepass jobscheduler # on Controller server: import JOC Cockpit's certificate in PEM format to a JKS truststore (https-truststore.jks) keytool -import -alias "joc-client-https" -file "joc-client-https.crt" -keystore "JS7_CONTROLLER_CONFIG_DIR/private/https-truststore.jks" -storetype JKS
- For use with a third party utility create a truststore, e.g.
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