def install(cls, mh):
super(TestCertsInIDOverrides, cls).install(mh)
cls.ad = config.ad_domains[0].ads[0]
cls.ad_domain = cls.ad.domain.name
cls.aduser = "******" % cls.ad_domain
master = cls.master
# A setup for test_dbus_user_lookup
master.run_command(['dnf', 'install', '-y', 'sssd-dbus'],
raiseonerr=False)
# The tasks.modify_sssd_conf way did not work because
# sssd_domain.set_option knows nothing about 'services' parameter of
# the sssd config file. Therefore I am using sed approach
master.run_command(
"sed -i '/^services/ s/$/, ifp/' %s" % paths.SSSD_CONF)
master.run_command(
"sed -i 's/= 7/= 0xFFF0/' %s" % paths.SSSD_CONF, raiseonerr=False)
master.run_command(['systemctl', 'restart', 'sssd.service'])
# End of setup for test_dbus_user_lookup
# AD-related stuff
tasks.install_adtrust(master)
tasks.sync_time(master, cls.ad)
tasks.establish_trust_with_ad(cls.master, cls.ad_domain,
extra_args=['--range-type',
'ipa-ad-trust'])
cls.reqdir = os.path.join(master.config.test_dir, "certs")
cls.reqfile1 = os.path.join(cls.reqdir, "test1.csr")
cls.reqfile2 = os.path.join(cls.reqdir, "test2.csr")
cls.pwname = os.path.join(cls.reqdir, "pwd")
# Create a NSS database folder
master.run_command(['mkdir', cls.reqdir], raiseonerr=False)
# Create an empty password file
master.run_command(["touch", cls.pwname], raiseonerr=False)
# Initialize NSS database
tasks.run_certutil(master, ["-N", "-f", cls.pwname], cls.reqdir)
# Now generate self-signed certs for a windows user
stdin_text = string.digits+string.ascii_letters[2:] + '\n'
tasks.run_certutil(master, ['-S', '-s',
"cn=%s,dc=ad,dc=test" % cls.adcert1, '-n',
cls.adcert1, '-x', '-t', 'CT,C,C', '-v',
'120', '-m', '1234'],
cls.reqdir, stdin=stdin_text)
tasks.run_certutil(master, ['-S', '-s',
"cn=%s,dc=ad,dc=test" % cls.adcert2, '-n',
cls.adcert2, '-x', '-t', 'CT,C,C', '-v',
'120', '-m', '1234'],
cls.reqdir, stdin=stdin_text)
# Export the previously generated cert
tasks.run_certutil(master, ['-L', '-n', cls.adcert1, '-a', '>',
cls.adcert1_file], cls.reqdir)
tasks.run_certutil(master, ['-L', '-n', cls.adcert2, '-a', '>',
cls.adcert2_file], cls.reqdir)
cls.cert1_base64 = cls.master.run_command(
"openssl x509 -outform der -in %s | base64 -w 0" % cls.adcert1_file
).stdout_text
cls.cert2_base64 = cls.master.run_command(
"openssl x509 -outform der -in %s | base64 -w 0" % cls.adcert2_file
).stdout_text
cls.cert1_pem = cls.master.run_command(
"openssl x509 -in %s -outform pem" % cls.adcert1_file
).stdout_text
cls.cert2_pem = cls.master.run_command(
"openssl x509 -in %s -outform pem" % cls.adcert2_file
).stdout_text
def configure_dns_and_time(cls):
tasks.configure_dns_for_trust(cls.master, cls.ad_domain)
tasks.sync_time(cls.master, cls.ad)
def install(cls, mh):
super(TestCertsInIDOverrides, cls).install(mh)
cls.ad = config.ad_domains[0].ads[0]
cls.ad_domain = cls.ad.domain.name
cls.aduser = "******" % cls.ad_domain
master = cls.master
# A setup for test_dbus_user_lookup
master.run_command(['dnf', 'install', '-y', 'sssd-dbus'],
raiseonerr=False)
# The tasks.modify_sssd_conf way did not work because
# sssd_domain.set_option knows nothing about 'services' parameter of
# the sssd config file. Therefore I am using sed approach
master.run_command("sed -i '/^services/ s/$/, ifp/' %s" %
paths.SSSD_CONF)
master.run_command("sed -i 's/= 7/= 0xFFF0/' %s" % paths.SSSD_CONF,
raiseonerr=False)
master.run_command(['systemctl', 'restart', 'sssd.service'])
# End of setup for test_dbus_user_lookup
# AD-related stuff
tasks.install_adtrust(master)
tasks.sync_time(master, cls.ad)
tasks.establish_trust_with_ad(
cls.master,
cls.ad_domain,
extra_args=['--range-type', 'ipa-ad-trust'])
cls.reqdir = os.path.join(master.config.test_dir, "certs")
cls.reqfile1 = os.path.join(cls.reqdir, "test1.csr")
cls.reqfile2 = os.path.join(cls.reqdir, "test2.csr")
cls.pwname = os.path.join(cls.reqdir, "pwd")
# Create a NSS database folder
master.run_command(['mkdir', cls.reqdir], raiseonerr=False)
# Create an empty password file
master.run_command(["touch", cls.pwname], raiseonerr=False)
# Initialize NSS database
tasks.run_certutil(master, ["-N", "-f", cls.pwname], cls.reqdir)
# Now generate self-signed certs for a windows user
stdin_text = string.digits + string.ascii_letters[2:] + '\n'
tasks.run_certutil(master, [
'-S', '-s',
"cn=%s,dc=ad,dc=test" % cls.adcert1, '-n', cls.adcert1, '-x', '-t',
'CT,C,C', '-v', '120', '-m', '1234'
],
cls.reqdir,
stdin=stdin_text)
tasks.run_certutil(master, [
'-S', '-s',
"cn=%s,dc=ad,dc=test" % cls.adcert2, '-n', cls.adcert2, '-x', '-t',
'CT,C,C', '-v', '120', '-m', '1234'
],
cls.reqdir,
stdin=stdin_text)
# Export the previously generated cert
tasks.run_certutil(
master, ['-L', '-n', cls.adcert1, '-a', '>', cls.adcert1_file],
cls.reqdir)
tasks.run_certutil(
master, ['-L', '-n', cls.adcert2, '-a', '>', cls.adcert2_file],
cls.reqdir)
cls.cert1_base64 = cls.master.run_command(
"openssl x509 -outform der -in %s | base64 -w 0" %
cls.adcert1_file).stdout_text
cls.cert2_base64 = cls.master.run_command(
"openssl x509 -outform der -in %s | base64 -w 0" %
cls.adcert2_file).stdout_text
cls.cert1_pem = cls.master.run_command(
"openssl x509 -in %s -outform pem" % cls.adcert1_file).stdout_text
cls.cert2_pem = cls.master.run_command(
"openssl x509 -in %s -outform pem" % cls.adcert2_file).stdout_text