def real_parsing_and_adding_test(self):
"""Test file spec handling in KernelArguments."""
ka = KernelArguments()
self.assertEqual(ka.read(["/proc/cmdlin*", "/nonexistent/file"]), ["/proc/cmdline"])
self.assertEqual(ka.read("/another/futile/attempt"), [])
self.assertTrue(ka.getbool("root")) # expect this to be set in most environments
def test_real_parsing_and_adding(self):
"""Test file spec handling in KernelArguments."""
ka = KernelArguments()
self.assertEqual(ka.read(["/proc/cmdlin*", "/nonexistent/file"]),
["/proc/cmdline"])
self.assertEqual(ka.read("/another/futile/attempt"), [])
def test_addrepo(self):
# Test invalid options.
with pytest.raises(ValueError):
self._parseCmdline(["--addrepo=r1"])
with pytest.raises(ValueError):
self._parseCmdline(["--addrepo=http://url/1"])
# Test cmdline options.
opts, _removed = self._parseCmdline(["--addrepo=r1,http://url/1"])
assert opts.addRepo == [("r1", "http://url/1")]
opts, _removed = self._parseCmdline([
"--addrepo=r1,http://url/1",
"--addrepo=r2,http://url/2",
"--addrepo=r3,http://url/3",
])
assert opts.addRepo == [
("r1", "http://url/1"),
("r2", "http://url/2"),
("r3", "http://url/3"),
]
# Test invalid boot options.
boot_cmdline = KernelArguments.from_string("inst.addrepo=r1")
with pytest.raises(ValueError) as cm:
self._parseCmdline([], boot_cmdline)
expected = \
"The addrepo option has incorrect format ('r1'). " \
"Use: inst.addrepo=<name>,<url>"
assert str(cm.value) == expected
boot_cmdline = KernelArguments.from_string("inst.addrepo=http://url/1")
with pytest.raises(ValueError):
self._parseCmdline([], boot_cmdline)
# Test boot options.
boot_cmdline = KernelArguments.from_string(
"inst.addrepo=r1,http://url/1")
opts, _removed = self._parseCmdline([], boot_cmdline)
assert opts.addRepo == [("r1", "http://url/1")]
boot_cmdline = KernelArguments.from_string(
"inst.addrepo=r1,http://url/1 "
"inst.addrepo=r2,http://url/2 "
"inst.addrepo=r3,http://url/3 ")
opts, _removed = self._parseCmdline([], boot_cmdline)
assert opts.addRepo == [
("r1", "http://url/1"),
("r2", "http://url/2"),
("r3", "http://url/3"),
]
def test_without_inst_prefix(self):
boot_cmdline = KernelArguments.from_string("stage2=http://cool.server.com/test")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
assert opts.stage2 is None
assert removed == ["stage2"]
boot_cmdline = KernelArguments.from_string("stage2=http://cool.server.com/test "
"vnc")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
assert opts.stage2 is None
assert not opts.vnc
assert removed == ["stage2", "vnc"]
def without_inst_prefix_test(self):
boot_cmdline = KernelArguments.from_string("stage2=http://cool.server.com/test")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
self.assertEqual(opts.stage2, None)
self.assertEqual(removed, ["stage2"])
boot_cmdline = KernelArguments.from_string("stage2=http://cool.server.com/test "
"vnc")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
self.assertEqual(opts.stage2, None)
self.assertFalse(opts.vnc)
self.assertListEqual(removed, ["stage2", "vnc"])
def with_inst_prefix_test(self):
boot_cmdline = KernelArguments.from_string("inst.stage2=http://cool.server.com/test")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
self.assertEqual(opts.stage2, "http://cool.server.com/test")
self.assertEqual(removed, [])
boot_cmdline = KernelArguments.from_string("inst.stage2=http://cool.server.com/test "
"inst.vnc")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
self.assertEqual(opts.stage2, "http://cool.server.com/test")
self.assertTrue(opts.vnc)
self.assertEqual(removed, [])
def test_with_inst_prefix(self):
boot_cmdline = KernelArguments.from_string("inst.stage2=http://cool.server.com/test")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
assert opts.stage2 == "http://cool.server.com/test"
assert removed == []
boot_cmdline = KernelArguments.from_string("inst.stage2=http://cool.server.com/test "
"inst.vnc")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
assert opts.stage2 == "http://cool.server.com/test"
assert opts.vnc
assert removed == []
def display_mode_test(self):
opts, _deprecated = self._parseCmdline(['--cmdline'])
self.assertEqual(opts.display_mode, DisplayModes.TUI)
self.assertTrue(opts.noninteractive)
opts, _deprecated = self._parseCmdline(['--graphical'])
self.assertEqual(opts.display_mode, DisplayModes.GUI)
self.assertFalse(opts.noninteractive)
opts, _deprecated = self._parseCmdline(['--text'])
self.assertEqual(opts.display_mode, DisplayModes.TUI)
self.assertFalse(opts.noninteractive)
opts, _deprecated = self._parseCmdline(['--noninteractive'])
self.assertTrue(opts.noninteractive)
# Test the default
opts, _deprecated = self._parseCmdline([])
self.assertEqual(opts.display_mode, DisplayModes.GUI)
self.assertFalse(opts.noninteractive)
# console=whatever in the boot args defaults to --text
boot_cmdline = KernelArguments.from_string("console=/dev/ttyS0")
opts, _deprecated = self._parseCmdline([], boot_cmdline=boot_cmdline)
self.assertEqual(opts.display_mode, DisplayModes.TUI)
def test_value_retrieval(self):
"""KernelArguments value retrieval test."""
ka = KernelArguments.from_string(
"inst.blah foo=anything inst.bar=1 baz=0 nowhere inst.nothing=indeed beep=off "
"derp=no nobody=0")
# test using "in" operator on the class
assert "blah" in ka
assert "foo" in ka
assert not ("thisisnotthere" in ka)
assert not ("body" in ka)
assert "nobody" in ka
# test the get() method
assert ka.get("foo") == "anything"
assert ka.get("thisisnotthere") is None
assert ka.get("thisisnotthere", "fallback") == "fallback"
# test the is_enabled() method
assert ka.is_enabled("blah") # present
assert ka.is_enabled("foo") # any value
assert ka.is_enabled("bar") # 1 = any value
assert not ka.is_enabled("baz") # 0
assert ka.is_enabled("nowhere") # present
assert ka.is_enabled("nothing") # present
assert not ka.is_enabled("beep") # off
assert ka.is_enabled("derp") # no = any value
assert not ka.is_enabled("nobody") # 0
assert not ka.is_enabled("thing") # not present
assert not ka.is_enabled("where") # not present
def test_value_retrieval(self):
"""KernelArguments value retrieval test."""
ka = KernelArguments.from_string(
"inst.blah foo=anything inst.bar=1 baz=0 nowhere inst.nothing=indeed beep=off "
"derp=no nobody=0")
# test using "in" operator on the class
self.assertTrue("blah" in ka)
self.assertTrue("foo" in ka)
self.assertFalse("thisisnotthere" in ka)
self.assertFalse("body" in ka)
self.assertTrue("nobody" in ka)
# test the get() method
self.assertEqual(ka.get("foo"), "anything")
self.assertIsNone(ka.get("thisisnotthere"))
self.assertEqual(ka.get("thisisnotthere", "fallback"), "fallback")
# test the is_enabled() method
self.assertTrue(ka.is_enabled("blah")) # present
self.assertTrue(ka.is_enabled("foo")) # any value
self.assertTrue(ka.is_enabled("bar")) # 1 = any value
self.assertFalse(ka.is_enabled("baz")) # 0
self.assertTrue(ka.is_enabled("nowhere")) # present
self.assertTrue(ka.is_enabled("nothing")) # present
self.assertFalse(ka.is_enabled("beep")) # off
self.assertTrue(ka.is_enabled("derp")) # no = any value
self.assertFalse(ka.is_enabled("nobody")) # 0
self.assertFalse(ka.is_enabled("thing")) # not present
self.assertFalse(ka.is_enabled("where")) # not present
def test_display_mode(self):
opts, _removed = self._parseCmdline(['--cmdline'])
assert opts.display_mode == DisplayModes.TUI
assert opts.noninteractive
opts, _removed = self._parseCmdline(['--graphical'])
assert opts.display_mode == DisplayModes.GUI
assert not opts.noninteractive
opts, _removed = self._parseCmdline(['--text'])
assert opts.display_mode == DisplayModes.TUI
assert not opts.noninteractive
opts, _removed = self._parseCmdline(['--noninteractive'])
assert opts.noninteractive
# Test the default
opts, _removed = self._parseCmdline([])
assert opts.display_mode == DisplayModes.GUI
assert not opts.noninteractive
# console=whatever in the boot args defaults to --text
boot_cmdline = KernelArguments.from_string("console=/dev/ttyS0")
opts, _removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
assert opts.display_mode == DisplayModes.TUI
def __init__(self):
self.__dict__['_in_init'] = True
self.usevnc = False
self.vncquestion = True
self.mpath = True
self.debug = False
self.preexisting_x11 = False
self.noverifyssl = False
self.automatedInstall = False
self.eject = True
# ksprompt is whether or not to prompt for missing ksdata
self.ksprompt = True
self.rescue_mode = False
self.kexec = False
# nosave options
self.nosave_input_ks = False
self.nosave_output_ks = False
self.nosave_logs = False
# single language options
self.singlelang = False
# enable SE/HMC
self.hmc = False
# current runtime environments
self.environs = [ANACONDA_ENVIRON]
# parse the boot commandline
self.cmdline = KernelArguments.from_defaults()
# Lock it down: no more creating new flags!
self.__dict__['_in_init'] = False
def test_inst_prefix_mixed(self):
boot_cmdline = KernelArguments.from_string(
"inst.stage2=http://cool.server.com/test "
"vnc")
opts, removed = self._parseCmdline([], boot_cmdline=boot_cmdline)
self.assertEqual(opts.stage2, "http://cool.server.com/test")
self.assertFalse(opts.vnc)
self.assertListEqual(removed, ["vnc"])
def special_argument_handling_test(self):
"""Test handling of special arguments in KernelArguments."""
ka = KernelArguments.from_string("modprobe.blacklist=floppy modprobe.blacklist=reiserfs")
self.assertEqual(ka.get("modprobe.blacklist"), "floppy reiserfs")
ka.read_string("inst.addrepo=yum inst.addrepo=dnf")
self.assertEqual(ka.get("addrepo"), ["yum", "dnf"])
ka.read_string("inst.ks=kickstart")
self.assertEqual(ka.get("ks"), "kickstart")
def test_special_argument_handling(self):
"""Test handling of special arguments in KernelArguments."""
ka = KernelArguments.from_string(
"modprobe.blacklist=floppy modprobe.blacklist=reiserfs")
assert ka.get("modprobe.blacklist") == "floppy reiserfs"
ka.read_string("inst.addrepo=yum inst.addrepo=dnf")
assert ka.get("addrepo") == ["yum", "dnf"]
ka.read_string("inst.ks=kickstart")
assert ka.get("ks") == "kickstart"
def test_items(self):
"""Test KernelArguments access to contents with iterator."""
ka = KernelArguments.from_defaults()
it = ka.items()
assert isinstance(it, Iterable)
root_seen = False
for k, v in it: # pylint: disable=unused-variable
if k == "root":
root_seen = True
assert root_seen
def items_test(self):
"""Test KernelArguments access to contents with iterator."""
ka = KernelArguments.from_defaults()
it = ka.items()
self.assertIsInstance(it, collections.Iterable)
root_seen = False
for k, v in it: # pylint: disable=unused-variable
if k == "root":
root_seen = True
self.assertTrue(root_seen)
def value_retrieval_test(self):
"""KernelArguments value retrieval test."""
ka = KernelArguments.from_string(
"blah foo=anything bar=1 baz=0 nowhere nothing=indeed beep=off derp=no nobody=0")
# test using "in" operator on the class
self.assertTrue("blah" in ka)
self.assertTrue("foo" in ka)
self.assertFalse("thisisnotthere" in ka)
self.assertFalse("body" in ka)
self.assertTrue("nobody" in ka)
# test the get() method
self.assertEqual(ka.get("foo"), "anything")
self.assertIsNone(ka.get("thisisnotthere"))
self.assertEqual(ka.get("thisisnotthere", "fallback"), "fallback")
# test the getbool() method - presence
self.assertTrue(ka.getbool("blah")) # is present
self.assertTrue(ka.getbool("foo")) # has any value
# test the getbool() method - simple names and values
self.assertTrue(ka.getbool("bar")) # 1
self.assertFalse(ka.getbool("baz")) # 0
self.assertFalse(ka.getbool("beep")) # off
self.assertFalse(ka.getbool("derp")) # no
# test the getbool() method - the super magical "no" prefix
self.assertFalse(ka.getbool("where")) # is present with no-prefix
self.assertFalse(ka.getbool("thing")) # is set and has no-prefix
self.assertTrue(ka.getbool("nothing")) # full name incl. the "no" prefix = is present
self.assertFalse(ka.getbool("nobody")) # full name incl. the "no" prefix, value is 0
self.assertFalse(ka.get("body")) # no-prefix and has a value
# test the is_enabled() method
self.assertTrue(ka.is_enabled("blah")) # present
self.assertTrue(ka.is_enabled("foo")) # any value
self.assertTrue(ka.is_enabled("bar")) # 1 = any value
self.assertFalse(ka.is_enabled("baz")) # 0
self.assertTrue(ka.is_enabled("nowhere")) # present
self.assertTrue(ka.is_enabled("nothing")) # present
self.assertFalse(ka.is_enabled("beep")) # off
self.assertTrue(ka.is_enabled("derp")) # no = any value
self.assertFalse(ka.is_enabled("nobody")) # 0
self.assertFalse(ka.is_enabled("thing")) # not present
self.assertFalse(ka.is_enabled("where")) # not present
def __init__(self):
self.__dict__['_in_init'] = True
self.livecdInstall = False
self.ibft = True
self.nonibftiscsiboot = False
self.usevnc = False
self.vncquestion = True
self.mpath = True
self.dmraid = True
self.selinux = SELINUX_DEFAULT
if not selinux.is_selinux_enabled():
self.selinux = SELINUX_DISABLED
self.debug = False
self.armPlatform = None
self.preexisting_x11 = False
self.noverifyssl = False
self.imageInstall = False
self.automatedInstall = False
self.dirInstall = False
self.askmethod = False
self.eject = True
self.extlinux = False
self.nombr = False
self.gpt = False
self.leavebootorder = False
self.mpathFriendlyNames = True
# ksprompt is whether or not to prompt for missing ksdata
self.ksprompt = True
self.rescue_mode = False
self.kexec = False
# nosave options
self.nosave_input_ks = False
self.nosave_output_ks = False
self.nosave_logs = False
# single language options
self.singlelang = False
# enable SE/HMC
self.hmc = False
# current runtime environments
self.environs = [ANACONDA_ENVIRON]
# parse the boot commandline
self.cmdline = KernelArguments.from_defaults()
# Lock it down: no more creating new flags!
self.__dict__['_in_init'] = False
def test_items_raw(self):
"""Test KernelArguments access to raw contents with iterator."""
ka = KernelArguments.from_string(
"blah inst.foo=anything inst.nothing=indeed")
it = ka.items_raw()
self.assertIsInstance(it, Iterable)
res = dict()
for k, v in it:
res[k] = v
self.assertIn("inst.foo", res)
self.assertIn("blah", res)
self.assertIn("inst.nothing", res)
self.assertEqual(res["inst.nothing"], "indeed")
def test_items_raw(self):
"""Test KernelArguments access to raw contents with iterator."""
ka = KernelArguments.from_string(
"blah inst.foo=anything inst.nothing=indeed")
it = ka.items_raw()
assert isinstance(it, Iterable)
res = dict()
for k, v in it:
res[k] = v
assert "inst.foo" in res
assert "blah" in res
assert "inst.nothing" in res
assert res["inst.nothing"] == "indeed"
def parse_boot_cmdline(self, boot_cmdline):
"""
Parse the boot cmdline and create an appropriate Namespace instance
according to the option definitions set by add_argument.
boot_cmdline can be given as a string (to be parsed by KernelArguments), or a
dict (or any object with .items()) of {bootarg:value} pairs.
If boot_cmdline is None, the boot_cmdline data will be whatever KernelArguments reads
by default (/proc/cmdline, /run/initramfs/etc/cmdline, /etc/cmdline).
If an option requires a value but the boot arg doesn't provide one,
we'll quietly not set anything in the Namespace. We also skip any boot options
that were not specified by add_argument as we don't care about them
(there will usually be quite a lot of them (rd.*, etc.).
:param boot_cmdline: the Anaconda boot command line arguments
:type boot_cmdline: string, dict or None
:returns: an argparse Namespace instance
:rtype: Namespace
"""
namespace = Namespace()
if boot_cmdline is None:
bootargs = KernelArguments.from_defaults()
elif isinstance(boot_cmdline, str):
bootargs = KernelArguments.from_string(boot_cmdline)
else:
bootargs = boot_cmdline
self.deprecated_bootargs = []
# go over all options corresponding to current boot cmdline
# and do any modifications necessary
# NOTE: program cmdline overrides boot cmdline
for arg, val in bootargs.items():
option = self._get_bootarg_option(arg)
if option is None:
# this boot option is unknown to Anaconda, skip it
continue
if option.nargs != 0 and val is None:
# nargs == 0 -> the option expects one or more arguments but the
# boot option was not given any, so we skip it
log.warning(
"boot option specified without expected number of "
"arguments and will be ignored: %s", arg)
continue
elif option.nargs == 0 and option.const is not None:
# nargs == 0 & constr == True -> store_true
# (we could also check the class, but it begins with an
# underscore, so it would be ugly)
# special case: "mpath=0" would otherwise set mpath to True
if option.const is True and val in ("0", "no", "off"):
setattr(namespace, option.dest, False)
# Set all other set_const cases to the const specified
else:
setattr(namespace, option.dest, option.const)
# anaconda considers cases such as noselinux=off to be a negative
# concord, which is to say that selinux will be set to False and
# we hate you.
continue
elif type(val) is list:
for item in val:
option(self, namespace, item)
continue
option(self, namespace, val)
return namespace
def parse_boot_cmdline(self, boot_cmdline):
"""
Parse the boot cmdline and create an appropriate Namespace instance
according to the option definitions set by add_argument.
boot_cmdline can be given as a string (to be parsed by KernelArguments), or a
dict (or any object with .items()) of {bootarg:value} pairs.
If boot_cmdline is None, the boot_cmdline data will be whatever KernelArguments reads
by default (/proc/cmdline, /run/initramfs/etc/cmdline, /etc/cmdline).
If an option requires a value but the boot arg doesn't provide one,
we'll quietly not set anything in the Namespace. We also skip any boot options
that were not specified by add_argument as we don't care about them
(there will usually be quite a lot of them (rd.*, etc.).
:param boot_cmdline: the Anaconda boot command line arguments
:type boot_cmdline: string, dict or None
:returns: an argparse Namespace instance
:rtype: Namespace
"""
namespace = Namespace()
if boot_cmdline is None:
bootargs = KernelArguments.from_defaults()
elif isinstance(boot_cmdline, str):
bootargs = KernelArguments.from_string(boot_cmdline)
else:
bootargs = boot_cmdline
self.deprecated_bootargs = []
# go over all options corresponding to current boot cmdline
# and do any modifications necessary
# NOTE: program cmdline overrides boot cmdline
for arg, val in bootargs.items():
option = self._get_bootarg_option(arg)
if option is None:
# this boot option is unknown to Anaconda, skip it
continue
if option.nargs != 0 and val is None:
# nargs == 0 -> the option expects one or more arguments but the
# boot option was not given any, so we skip it
log.warning("boot option specified without expected number of "
"arguments and will be ignored: %s", arg)
continue
elif option.nargs == 0 and option.const is not None:
# nargs == 0 & constr == True -> store_true
# (we could also check the class, but it begins with an
# underscore, so it would be ugly)
# special case: "mpath=0" would otherwise set mpath to True
if option.const is True and val in ("0", "no", "off"):
setattr(namespace, option.dest, False)
# Set all other set_const cases to the const specified
else:
setattr(namespace, option.dest, option.const)
# anaconda considers cases such as noselinux=off to be a negative
# concord, which is to say that selinux will be set to False and
# we hate you.
continue
elif type(val) is list:
for item in val:
option(self, namespace, item)
continue
option(self, namespace, val)
return namespace
