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JS7 - Deployment of Scheduling Objects makes use of Signing Certificates to digitally sign workflows and other objects. Signing Certificates are deployed to Controllers and Agents. Use of certificates for signing is not related to use of certificates to secure HTTPS connections, see JS7 - How to create X.509 SSL TLS Certificates.

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• Self-issued Certificates are created individually per user and are deployed from individual certificate files to Controllers and Agents.
  • There is no security gap in use of self-issued Certificates. When users store certificate files to Controllers and Agents then this proves that they trust the certificates.
• Private CA-signed Certificates are issued by users who operate their own Private Certificate Authority (CA). Individual Signing Certficates on behalf of users are not deployed to Controllers and Agents. Instead, the CA Certificate is deployed that was used to sign individual Signing Certificates.
  • The approach includes that any Signing Certificate signed by the CA will be accepted for deployment of scheduling objects.
  • For better control which certificates are made available for deplyoment, users might decide to use a specific Private CA.
• Public CA-signed Certificates are issued by a trusted Certificate Authority (CA) that validates the domain owner. They Such certificates are not created by users but are purchased from the trusted CA and therefore are not considered in the scope of this article.

There is no difference in using a Private CA or Public CA concerning functionality of X.509 certificates, usage for Signing, or security of certificates. The only difference is that users trust the Private CA that they set up on their own instead of trusting an external Public CA.

Self-issued Certificates and Private CA Certificates are deployed to the <data>/config/private/trusted-x509-keys directory of Controller and Agent instances.

The article explains how to create Signing Certificates for use with JS7. Users who operate an existing Private Certificate Authority might find different approaches and different responsibilities for the indicated steps. There's more than one way how to do it.

Examples in the article make use of JS7 Release 2.7.2, OpenSSL 1.1.1k  FIPS 25 Mar 2021 for Unix and OpenSSL 3.1.4 24 Oct 2023 for Windows. OpenSSL ships with Linux & other Unix OS and is available for Windows.

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Creating self-issued Certificates

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Users chose this approach if they intend to authorize specific users to deploy scheduling objects:

• The approach is managable if the number of Controller and Agent instances that receive the certificate is within acceptable limits.
  • Consider certificate renewal that includes to update the certificate file on related Controller and Agent instances.
  • Consider certificate revocation that includes to remove the certificate file from related Controller and Agent instances.
• The approach allows fine-grained control, but comes at a price of having to manage deployment of user certificates individually.

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Creating the Private Key and Certificate Signing Request

The steps to create a Private Key and Certificate Signing Request are similar for self-issued Certificates and Private CA-signed Certificates.

Users have the option to use ECDSA or RSA algorithms for encryption performed using the Private Key.

Users can run the following commands from the shell and replace the value of the key_name environment variable with a name of their choice that is used when creating related files.

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Using ECDSA Encryption

# Specify key name used for file names
key_

The steps to create a Private Key and Certificate Signing Request are similar for self-issued Certificates and Private CA-signed Certificates.

Users have the option to use ECDSA or RSA for the encryption type applied to the Private Key.

Users can run the following commands from the shell and replace the value of the key_name environment variable with a name of their choice that is used when creating related files.

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# Specify key name used for file names
key_name=signing

# Create Private Key
openssl ecparam -genkey -name secp384r1 -out ${key_name}.key

# Create Certificate Signing Request
 openssl req -new -sha512 -nodes \
    -key ${key_name}.key \
    -out ${key_name}.csr \
    -subj "/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=${key_name}"

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Creating CA-signed Certificates

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Users chose this approach if they intend to authorize users to deploy scheduling objects based on Signing Certificates issued by a specific CA.

• Any certificates signed by the CA will be accepted by Controllers and Agents to which the CA Certificate is deployed.
• The approach makes sense if users are in control of certificates created by the CA. Benefits include that a single CA Certificate is deployed to Controller and Agents instead of individual certificate files from self-issued Certificates.

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Setting up the Private CA

For Private CA-signed Certificates a Certificate Authority (CA) is required owning a CA Private Key and CA Certificate. The CA Private Key and CA For Private CA-signed Certificates a Certificate Authority (CA) is required owning a CA Private Key and CA Certificate. The CA Private Key and CA Certificate will be used to sign certificates on behalf of users.

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Steps include to create the signing-ca.key CA Private Key file and signing-ca.csr CA Certificate Signing Request file both in PEM format.

Users have the option to use ECDSA or RSA algorithms for encryption performed using the Private Key.

Users can run the following commands from the shell and replace the value of the ca_key_name environment variable with a name of their choice that is used when creating related files.

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# Specify key name used for file names
ca_key_name=signing-ca

# Create Private Key
openssl ecparam -genkey -name secp384r1 -out ${ca_key_name}.key

# Create Certificate Signing Request
openssl req -new -sha512 -nodes \
    -key ${ca_key_name}.key \
    -out ${ca_key_name}.csr \
    -subj "/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=${ca_key_name}"

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# Specify key name used for file names
ca_key_name=signing-ca

# Create Private Key and Certificate Signing Request
openssl req -new -newkey rsa:4096 -sha256 -nodes \
    -keyout ${ca_key_name}.key \
    -out ${ca_key_name}.csr \
    -subj "/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=${ca_key_name}"

@rem Specify key name used for file names
set ca_key_name=signing-ca
 
@rem Create Private Key and Certificate Signing Request
openssl req -new -newkey rsa:4096 -sha256 -nodes ^
    -keyout %ca_key_name%.key ^
    -out %ca_key_name%.csr ^
    -subj "/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=%ca_key_name%"

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creating_ca_certificate creating_ca_certificate

Creating the CA Certificate

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Steps include to create the signing.key Private Key file and signing.csr Certificate Signing Request file both in PEM format.

Users have the option to use ECDSA or RSA algorithms for encryption performed using the Private Key.

Users can run the following commands from the shell and replace the value of the key_name environment variable with a name of their choice that is used when creating related files.

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# Specify key name used for file names
key_name=signing

# Create Private Key
openssl ecparam -genkey -name secp384r1 -out ${key_name}.key

# Create Certificate Signing Request
openssl req -new -sha512 -nodes \
    -key ${key_name}.key \
    -out ${key_name}.csr \
    -subj "/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=${key_name}"

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# Specify key name used for file names
key_name=signing

# Create Private Key and Certificate Signing Request
openssl req -new -newkey rsa:4096 -sha256 -nodes \
    -keyout ${key_name}.key \
    -out ${key_name}.csr \
    -subj "/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=${key_name}"

@rem Specify key name used for file names
set key_name=signing
 
@rem Create Private Key and Certificate Signing Request
openssl req -new -newkey rsa:4096 -sha256 -nodes ^
     -keyout %key_name%.key ^
    -out %key_name%.csr ^
    -subj "/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=%key_name%"

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# Specify key name used for file names
key_name=signing

# Create Certificate
openssl x509 -req -sha512 -days 3652 \
    -CA signing-ca.crt \
    -CAkey signing-ca.key \
    -CAcreateserial \
    -in ${key_name}.csr \
    -out ${key_name}.crt \
    -extfile <(printf '\nkeyUsagekeyUsage=critical,nonRepudiation,digitalSignature\nextendedKeyUsage=critical,codeSigning\n')

@rem Specify key name used for file names
set key_name=signing
 
@rem Create Certificate
set user_crt_tmp_file=user-crt-%RANDOM%.tmp
copy /Y NUL %user_crt_tmp_file%
echo basicConstraints=CA:TRUE >> %user_crt_tmp_file%
echo keyUsage=critical,nonRepudiation,digitalSignature >> %user_crt_tmp_file%
echo extendedKeyUsage=critical,codeSigning >> %user_crt_tmp_file%

openssl x509 -req -sha512 -days 3652 ^
    -CA signing-ca.crt ^
    -CAkey signing-ca.key ^
    -CAcreateserial ^
    -in %key_name%.csr ^
    -out %key_name%.crt ^
    -extfile %user_crt_tmp_file%

del /q %user_crt_tmp_file%

The Signing Certificate file does not require to be deployed to Controller and Agent instances. Instead, the CA Certificate file is deployed to Controller and Agent instances.

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The Signing Certificate file does not require to be deployed to Controller and Agent instances. Instead, the CA Certificate file is deployed to Controller and Agent instances.

Resources

Shell Scripts

As an alternative to running OpenSSL commands in an interactive shell, scripts are provided that perform this task.

The below scripts assume the following directory layout:

• <ca>  The directory <ca> is a placeholder. Any directory can be used.
  • create_root_ca.sh
  • create_signing_certificate.sh
  • certs
  • csr
  • private

The sub-directories certs, csr and private will be created should they not exist.

Creating the Private Root CA Certificate

Download: create_root_ca.sh

The following files will be created when executing the script:

• <ca>/certs/root-ca.crt
• <ca>/csr/root-ca.csr
• <ca>/private/root-ca.key

This step is performed just once. In case of renewal of the Root CA Certificate any Server Certificates will have to be renewed.

# Description
# create_root_ca.sh --key-name=<basename> --subject=<distinguished-name> --days=<number-of-days>

# Example for use with defaults
./create_root_ca.sh

# Example for use with basename
./create_root_ca.sh --key-name=ca-root

# Example applying specific distinguished name and lifetime
./create_root_ca.sh --subject="/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=JS7 CA" --days=7660

The shell script is optionally executed with the following arguments:

• --key-name
  • The basename of the key without extension. Default: root-ca
• --subject
  • The distinguished name that is used as the subject of the CA Certificate. Default: /C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=Root CA
• --days
  • The lifetime of the certificate is specified by the number of days. Default: 7305
  • Consider that Server Certificates have to be renewed if the Root CA Certificate expires.

Creating a Signing Certificate

Download: create_signing_certificate.sh

The following files will be created with <user> being a placeholder for the user for which a certificate should be created.

• <ca>/certs/<user>.crt
• <ca>/csr/<user>.csr
• <ca>/private/<user>.key

This step is performed for each Signing Certificate that should be created.

# Description
# create_signing_certificate.sh --key-name=<basename> --ca-key-name=<basename> --subject=<distinguished-name> --days=<number-of-days>

# Example for use with key name and lifetime
./create_signing_certificate.sh --key-name=ap --days=365

# Example for use with key name, CA key name and lifetime
./create_signing_certificate.sh --key-name=ap --ca-key-name=signing-ca --days=4017

# Example for use with key name, subject and lifetime
./create_signing_certificate.sh --key-name=ap --subject="/C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=ap" --days=4017
 

The shell script is executed with the following arguments:

• --key-name (required)
  • The basename of the key without extension. 
• --ca-key-name
  • The basename of the CA key without extension. Default: root-ca
• --subject
  • The distinguished name that is used as the subject of the Signing Certificate. Default: /C=DE/ST=Berlin/L=Berlin/O=SOS/OU=IT/CN=<key-name>
  • The CN attribute should specify the user name. By default the key name specified with the --key-name option is used.
• --days
  • The lifetime of the certificate is specified by the number of days. Default: 3652

Links

• JS7 - How to create X.509 SSL TLS Certificates
• JS7 - How to create X.509 Encryption Keys