Introduction
JS7 - Deployment of Scheduling Objects makes use of signing certificates to digitally sign workflows and other objects. Use of certificates for signing is not related to use of certificates to secure connections such as HTTPS.
- Certificates for the specific use of code signing should be used.
- Users choose which approach they want to follow:
- Creating self-signed certificates.
- Creating CA-signed certificates.
Rollout of certificates to Controllers and Agents depends on the following choice:
- Self-signed certificates have to be deployed from individual certificate files made available for Controllers and Agents.
- There is no security gap in use of self-signed certificates. When users store certificate files to Controllers and Agents then this proves that they trust the certificates.
- CA-signed certificates usually are not deployed. Instead, the CA Certificate is deployed that was used to sign individual 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 Signing CA.
Creating self-signed Certificates
Using ECDSA Encryption
# Specify key name used for file names key_name=signing # Step 1 - Generate Private Key openssl ecparam -name secp256k1 -genkey -noout -out ${key_name}.key # Step 2 - Generate and sign the Certificate openssl req -new -x509 -key ${key_name}.key -out ${key_name}.crt -days 5475
Explanation:
- Step 1: The Private Key is created.
- Choice of algorithm such as
secp256k1
is up to the user.
- Choice of algorithm such as
- Step 2: The Certificate is created.
- The
-days
argument optionally specifies the validity period of the Certificate.
- The
Using RSA Encryption
# Specify key name used for file names key_name=signing # Generate Private Key and Certificate openssl req -x509 -sha256 -newkey rsa:4096 -nodes -keyout ${key_name}.key -out ${key_name}.crt -days 5475
Explanation:
- The Private Key is created using the specified key size of 4096.
- The Certificate is created with the
-days
argument optionally specified for the validity period of the Certificate.
Creating CA-signed Certificates
Creating the Signing CA Certificate
The first step includes to create the signing-ca.key
private key file and the signing-ca.crt
self-signed certificate file for the Signing CA both in PEM format. This step is performed just once.
# Generate Signing Certificate Authority (CA) Private Key openssl ecparam -name secp256k1 -genkey -noout -out signing-ca.key # prime256v1 # Generate Signing CA Certificate openssl req -new -x509 -sha256 -days 5475 -key signing-ca.key -out signing-ca.crt # You are about to be asked to enter information that will be incorporated # into your certificate request. # What you are about to enter is what is called a Distinguished Name or a DN. # There are quite a few fields but you can leave some blank # For some fields there will be a default value, # If you enter '.', the field will be left blank. # ----- # Country Name (2 letter code) [XX]:DE # State or Province Name (full name) []:Berlin # Locality Name (eg, city) [Default City]:Berlin # Organization Name (eg, company) [Default Company Ltd]:SOS # Organizational Unit Name (eg, section) []:JS7 # Common Name (eg, your name or your server's hostname) []:JS7 Deployment CA # Email Address []:
# Generate Signing Certificate Authority (CA) Private Key using passphrase openssl ecparam -genkey -name secp256k1 | openssl ec -aes256 -passout pass:jobscheduler -out signing-ca.key # Generate Signing CA Certificate openssl req -new -x509 -sha256 -days 5475 -key signing-ca.key -passin pass:jobscheduler -out signing-ca.crt
Explanation:
As a response to the second command the OpenSSL utility prompts for a number of specifications for the Distinguished Name, i.e. the unique name of the Signing CA Certificate:
Country Name
: a 2 letter country code is expected as stated for example with https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2State or Province Name
: the name of a state is expectedLocality Name
: the name of a city is expectedOrganization Name
: arbitrary input is allowedOrganizational Unit Name
: arbitrary input is allowedCommon Name
: an arbitrary name can be chosen as the name of the Signing CAEmail Address
: empty input is allowed
Creating a Signing Certificate
For a new signing certificate the steps include to create a private key and Certificate Signing Request (CSR). The resulting signing certificate will be signed by the Signing CA.
Run the following commands from a bash shell and replace the value of the certificate_name
variable with an arbitrary name for the certificate:
# Specify server for which the certificate should be created certificate_name=signing # Step 1 - Generate Private Key and Certificate Signing Request openssl req -new -sha256 -config <(cat openssl-cert.config <(printf "\n[SAN]\nnsCertType = objsign\nkeyUsage = critical, nonRepudiation, digitalSignature, keyEncipherment\n\nextendedKeyUsage = critical, codeSigning\n\nsubjectKeyIdentifier = hash\n")) \ -key ${certificate_name}.key -out ${certificate_name}.csr # -days 5475 -newkey rsa:4096 -keyout ${certificate_name}.key -out ${certificate_name}.csr # -extensions 'standard exts' -nodes \ # self signed # openssl ecparam -name secp256k1 -genkey -noout -out ${certificate_name}.key # openssl req -new -x509 -key ${certificate_name}.key -out ${certificate_name}.crt -days 5475 # Step 2 - Generate and sign the Server Certificate openssl x509 -req \ -in ${certificate_name}.csr \ -CA signing-ca.crt \ -CAkey signing-ca.key \ -CAcreateserial \ -out ${certificate_name}.crt -days 7300 \ -extfile <(printf 'nsCertType = objsign\nkeyUsage = critical, nonRepudiation, digitalSignature, keyEncipherment\n\n\nextendedKeyUsage = critical, codeSigning\n\nsubjectKeyIdentifier = hash\n' "${certificate_name}")
Explanation:
- The Certificate Signing Request is created for the Key Usage and Extended Key Usage as indicated.
- The following files will be created for the given server:
<certificate_name>
.key
: the Private Key<certificate_name>
.csr
: the Certificate Signing Request<certificate_name>
.crt
: the Signing Certificate
In order to run the script successfully the following openssl-cert.config
file has to be present. To create a Server Certificate the CommonName
attribute has to be adjusted.
- Download: openssl-cert.config
- Replace the value of the
commonName
attribute with the hostname of the server for which the certificate should be created. - Adjust other attributes in the
[ standard_dn ]
section to your needs.
[ req ] prompt = no distinguished_name = standard dn [ standard dn ] commonName = signing countryName = DE localityName = Berlin organizationName = SOS organizationalUnitName = IT stateOrProvinceName = Berlin [ standard exts ] keyUsage = critical, nonRepudiation, digitalSignature # see x509v3_config for other extensions