In order to configure MQTT.Cool in HTTPS/WSS mode (see the various
<keystore> blocks in the server configuration file), an SSL/TLS
certificate is required.
This tutorial shows an example of the tasks needed to create an appropriate keystore in the Java JKS format, using the tools provided by the
Java Development Kit.
The JKS format ensures the support by all versions of the Java runtime. The provided instructions, based on the JDK’s keytool utility, are also valid for all JDK versions since JDK 7.
Depending on the Java runtime used to run the server, other keystore types may be supported.
This regards in particular the PKCS12 keystore format which is more powerful, and whose support is guaranteed since Java 9 and on late versions of Java 8.
Several other tools are available to create and handle PKCS12 keystores; the most widespread among them is openssl.
The demo keystore created through this example, named
myserver.keystore, is already available in the
conf directory of MQTT.Cool distribution.
2.1. Creation and Installation
Generate a new keystore, called
myserver.keystore, where the key pair is identified by the MC alias (you are free to change it). In this example the target hostname is
$ keytool -genkeypair -alias MC -keystore myserver.keystore -keypass mypassword -storepass mypassword -storetype JKS -keyalg "RSA" -keysize 2048 -validity 365 -dname "CN=mqtt.mycompany.com, O=MYCOMPANY INC., L=MyCity, ST=MyState, C=MyCountry" -ext SAN=dns:mqtt.mycompany.com
keypassis the password of the key pair;
storepassis the password of the keystore. The two passwords must be the same (for example, see https://search.thawte.com/support/ssl-digital-certificates/index?page=content&id=SO832).
Of course you are free to change any parameters to meet your requirements in terms of algorithms, validity, and contact details. For instance, by leveraging the SAN (Subject Alternative Name) field, it is possible to create a Multi-domain and/or Wildcard Certificate.
The keytool command line may turn out to be limited as for support for the SAN field. In this case, you may try other tools. For instance, you can resort to the PKCS12 keystore format and use openssl, which doesn’t suffer from such limitation.
At this point, the
myserver.keystorefile can already be used with MQTT.Cool for test purpose. But since it is a self-signed keystore, it will raise a security alert in any browser. So, for production environment it is necessary to have the certificate signed by a Certification Authority. The following steps show how to accomplish this goal.
Create the Certificate Signing Request (CSR) to be delivered to a Certification Authority (CA):
$ keytool -certreq -alias MC -keystore myserver.keystore -keypass mypassword -storepass mypassword -ext SAN=dns:mqtt.mycompany.com -file myserver.req
Note the replication, in particular, of the -ext parameter.
myserver.reqfile is created. It must be sent to a CA to be signed.
Some CA may require that in the previous step (i.e. the keystore generation) you have set the "CN" attribute to a proper personal identification key, instead of the target hostname, as a condition for them to accept the CSR. Obviously, you have to supply the target hostname to the CA in some other part of the interaction, as determined by the CA. The CA will take care of providing a signed certificate with the "CN" attribute set to the correct hostname.
When the CA sends the certificate back, it is necessary to import the certificate chain provided by the CA (not including the final certificate) in
In this example, the certificate provided by the CA is called
mqtt.mycompany.com.crt, which is validated through the following certification chain: "Thawte SGC CA" and "VeriSign Class 3 Public Primary CA".
Let the intermediate certificate in the chain be the
SuperCertIntermediateCA.crtfile, and the root certificate be the
VeriSign.Class3.Public.Primary.CA.cerfile. Then issue:
$ keytool -importcert -alias int1 -keystore myserver.keystore -keypass mypassword -storepass mypassword -file SuperCertIntermediateCA.crt $ keytool -importcert -alias int2 -keystore myserver.keystore -keypass mypassword -storepass mypassword -file VeriSign.Class3.Public.Primary.CA.cer
Make sure that all the needed certificates were either supplied by the CA or included in the returned .crt file (
mqtt.mycompany.com.crt). Otherwise you may need to acquire them in another way.
To extract any certificate from a chain, open the main .crt file (
mqtt.mycompany.com.crt) in Windows by double clicking, select an intermediate certificate under the "Certification Path" tab, display its details, then copy it on file. An export wizard will open. Choose the binary X.509 format coded with DER and the file name (e.g.
In fact, all intermediate certificates are public and should be made available by the CA also directly.
After importing the intermediate certificates of the chain, the final certificate can be imported too:
$ keytool -importcert -alias MC -keystore myserver.keystore -keypass mypassword -storepass mypassword -file mqtt.mycompany.com.crt –trustcacerts
Make sure you use the same alias you used with the
myserver.keystorefile is now ready to be used with MQTT.Cool.
2.2. Conversion of an Existing Certificate Chain Available in a Different Format
The keytool utility supports conversions from different keystore formats into the Java format (JKS), through the
This enables, for instance, the reuse of existing certificate chains stored in the PKCS12 format, in case the format is not supported by the Java installation running MQTT.Cool.
Other format conversions might be supported by keytool as well.
2.2.1. Case 1
mycerts.p12 is a container file in PKCS12 format (the .pfx extension is also commonly used for such files), an equivalent JKS keystore can be created through:
$ keytool -importkeystore -destkeystore myserver.keystore -deststorepass mypassword -deststoretype JKS -srckeystore mycerts.p12 -srcstoretype PKCS12
The command will prompt you for the password associated to
In the above command,
mypassword is the password to be assigned to the new keystore; it should be the same as the password associated to
myserver.keystore file is now ready to be used with MQTT.Cool.
2.2.2. Case 2
openssl was used to generate a key pair and the related certification request.
MYKEY.key in PEM format has been produced and a
MYCERT.crt public key certificate has been received back from the Certification Authority.
Furthermore, the CA should have supplied a root and one or more intermediate certificates (in PEM format).
Make sure that all the needed intermediate certificates have been received. Otherwise you may need to acquire them in PEM format, in another way, similarly to how discussed above.
Now you could import all of them into a PKCS12 keystore through openssl. The openssl command has the form:
$ openssl pkcs12 -export -in MYCERT.crt -inkey MYKEY.key -out mycerts.p12 -name MC -CAfile MYCACERT.crt -caname myCAname -chain
The command will prompt you for a password to be associated to
Note that the
MYCACERT.crt file must be the chain of the root and all the intermediate certificates of your CA.
If you have these in different PEM files you can create the
MYCACERT.crt file as:
MYCACERT.crt = <concatenation of the encoded public key certificates>
you must order the certificates such that the root certificate is the last certificate in the chain.
Now, depending on the Java installation running MQTT.Cool, the generated
mycerts.p12 file may or may not be supported.
If not supported, you can now convert the keystore to JKS format by just falling into the previous case 1.
The certificates included in a keystore can be listed with the following command:
$ keytool -list -keystore myserver.keystore -storepass mypassword
Each certificate in the keystore can be extracted in a readable format with the following command:
$ keytool -exportcert -alias int1 -keystore myserver.keystore -storepass mypassword -file int1.cer