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require 'openssl'
require 'certificate_authority'
require 'date'
require 'digest/md5'
module LeapCli; module Commands
desc 'Creates the public and private key for your Certificate Authority.'
command :'init-ca' do |c|
c.action do |global_options,options,args|
assert_files_missing! :ca_cert, :ca_key
assert_config! 'provider.ca.name'
assert_config! 'provider.ca.bit_size'
provider = manager.provider
root = CertificateAuthority::Certificate.new
# set subject
root.subject.common_name = provider.ca.name
possible = ['country', 'state', 'locality', 'organization', 'organizational_unit', 'email_address']
provider.ca.keys.each do |key|
if possible.include?(key)
root.subject.send(key + '=', provider.ca[key])
end
end
# set expiration
years = 2
today = Date.today
root.not_before = Time.gm today.year, today.month, today.day
root.not_after = root.not_before + years * 60 * 60 * 24 * 365
# generate private key
root.serial_number.number = 1
root.key_material.generate_key(provider.ca.bit_size)
# sign self
root.signing_entity = true
root.parent = root
root.sign!(ca_root_signing_profile)
# save
write_file!(:ca_key, root.key_material.private_key.to_pem)
write_file!(:ca_cert, root.to_pem)
end
end
desc 'Creates or renews a X.509 certificate/key pair for a single node or all nodes'
arg_name '<node-name | "all">', :optional => false, :multiple => false
command :'update-cert' do |c|
c.action do |global_options,options,args|
assert_files_exist! :ca_cert, :ca_key, :msg => 'Run init-ca to create them'
assert_config! 'provider.ca.server_certificates.bit_size'
assert_config! 'provider.ca.server_certificates.life_span'
if args.first == 'all'
bail! 'not supported yet'
else
provider = manager.provider
ca_root = cert_from_files(:ca_cert, :ca_key)
node = get_node_from_args(args)
# set subject
cert = CertificateAuthority::Certificate.new
cert.subject.common_name = node.domain.full
# set expiration
years = provider.ca.server_certificates.life_span.to_i
today = Date.today
cert.not_before = Time.gm today.year, today.month, today.day
cert.not_after = cert.not_before + years * 60 * 60 * 24 * 365
# generate key
cert.serial_number.number = cert_serial_number(node.domain.full)
cert.key_material.generate_key(provider.ca.server_certificates.bit_size)
# sign
cert.parent = ca_root
cert.sign!(server_signing_profile(node))
# save
write_file!([:node_x509_key, node.name], cert.key_material.private_key.to_pem)
write_file!([:node_x509_cert, node.name], cert.to_pem)
end
end
end
desc 'Generates Diffie-Hellman parameter file (needed for server-side of TLS connections)'
command :'init-dh' do |c|
c.action do |global_options,options,args|
long_running do
if cmd_exists?('certtool')
progress('Generating DH parameters (takes a long time)...')
output = assert_run!('certtool --generate-dh-params --sec-param high')
write_file!(:dh_params, output)
else
progress('Generating DH parameters (takes a REALLY long time)...')
output = OpenSSL::PKey::DH.generate(3248).to_pem
write_file!(:dh_params, output)
end
end
end
end
private
def cert_from_files(crt, key)
crt = read_file!(crt)
key = read_file!(key)
openssl_cert = OpenSSL::X509::Certificate.new(crt)
cert = CertificateAuthority::Certificate.from_openssl(openssl_cert)
cert.key_material.private_key = OpenSSL::PKey::RSA.new(key, nil) # second argument is password, if set
return cert
end
def ca_root_signing_profile
{
"extensions" => {
"basicConstraints" => {"ca" => true},
"keyUsage" => {
"usage" => ["critical", "keyCertSign"]
},
"extendedKeyUsage" => {
"usage" => []
}
}
}
end
#
# for keyusage, openvpn server certs can have keyEncipherment or keyAgreement. I am not sure which is preferable.
# going with keyAgreement for now.
#
# digest options: SHA512, SHA1
#
def server_signing_profile(node)
{
"digest" => "SHA256",
"extensions" => {
"keyUsage" => {
"usage" => ["digitalSignature", "keyAgreement"]
},
"extendedKeyUsage" => {
"usage" => ["serverAuth"]
},
"subjectAltName" => {
"uris" => [
"IP:#{node.ip_address}",
"DNS:#{node.domain.internal}"
]
}
}
}
end
#
# For cert serial numbers, we need a non-colliding number less than 160 bits.
# md5 will do nicely, since there is no need for a secure hash, just a short one.
# (md5 is 128 bits)
#
def cert_serial_number(domain_name)
Digest::MD5.hexdigest("#{domain_name} -- #{Time.now}").to_i(16)
end
end; end
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