def validate(self, validate_this):
'''
Load and perform validation on file given as input.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(validate_this, not self.OVERLAY)
mim.validate()
def test_commit_2(self):
'''
Test that validation takes place when requested.
'''
self.create_small_xml()
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.IN_XML_FILE, not self.OVERLAY)
self.assertRaises(milib.MimDTDInvalid, mim.commit)
def test_commit_2(self):
'''
Test that validation takes place when requested.
'''
self.create_small_xml()
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.IN_XML_FILE, not self.OVERLAY)
self.assertRaises(milib.MimDTDInvalid, mim.commit)
def test_commit_3(self):
'''
Test that file gets written without validation when requested.
'''
self.create_small_xml()
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.IN_XML_FILE, not self.OVERLAY)
mim.commit(validate=False)
def test_overlay_7(self):
'''
Try to overlay a leaf element (id by attr) where it does not belong.
Give element an attribute to identify it.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.assertRaises(milib.MimInvalidError, mim.load,
self.OVERLAY_XML_FILE, self.OVERLAY)
def test_overlay_7(self):
'''
Try to overlay a leaf element (id by attr) where it does not belong.
Give element an attribute to identify it.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.assertRaises(milib.MimInvalidError, mim.load,
self.OVERLAY_XML_FILE, self.OVERLAY)
def test_overlay_6(self):
'''
Try to overlay a leaf element (id by value) where it does not belong.
Give element a value to identify it.
'''
# Note: giving a bogus attribute is not checked, only a bogus element.
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.assertRaises(milib.MimInvalidError, mim.load,
self.OVERLAY_XML_FILE, self.OVERLAY)
def test_overlay_6(self):
'''
Try to overlay a leaf element (id by value) where it does not belong.
Give element a value to identify it.
'''
# Note: giving a bogus attribute is not checked, only a bogus element.
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.assertRaises(milib.MimInvalidError, mim.load,
self.OVERLAY_XML_FILE, self.OVERLAY)
def test_overlay_5(self):
'''
Overlay same-tagged non-leaf element with new attr where not allowed.
Same-tagged non-leaf elements are not allowed.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Verify auto_reboot attribute was added to existing element.
(value, path) = mim.get("/auto_install/ai_instance@name")
self.assertEquals(value, "firstname",
"Error finding original attribute of existing node")
self.assertEquals(
path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting" +
"\"name\" attr")
(value, path) = mim.get("/auto_install/ai_instance@auto_reboot")
self.assertEquals(value, "true",
"Error adding new attribute to existing node")
self.assertEquals(
path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting " +
"\"auto_reboot\" attr")
def test_overlay_9(self):
'''
Add new leaf elem where same-tagged elements are allowed and none exist
'''
self.mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
self.mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Software[1] means a first software element was (properly) added.
(value, path) = self.mim.get("/auto_install/ai_instance/software")
self.assertEquals(
path, "/auto_install[1]/ai_instance[1]/software[1]",
"Error adding leaf element where like-tagged " +
"elements are allowed.")
def check_insertion_order(self):
'''
Verify that target, sofware, add_drivers nodes are present and in order
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
ai_instance_node = mim._xpath_search("/auto_install[1]/ai_instance[1]")
found_target = found_software = found_add_drivers = False
for child in ai_instance_node[0]:
if child.tag == "target":
self.assertTrue(
not found_software and not found_add_drivers,
"Target element not added before software " +
"or add_drivers elements")
found_target = True
continue
if child.tag == "software":
self.assertTrue(
found_target and not found_add_drivers,
"Software element not added between target " +
"and add_drivers elements")
found_software = True
continue
if child.tag == "add_drivers":
self.assertTrue(
found_target and found_software,
"Add_drivers element not added after target " +
"and software elements")
return
self.assertTrue(found_target, "Target element not added")
self.assertTrue(found_software, "Software element not added")
self.assertTrue(found_add_drivers, "Add_drivers element not added")
def test_overlay_15(self):
'''
Interleaves two files with same nodes. Verifies order.
'''
values_order = [
"target2", "software1", "software2", "source1", "source2"
]
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
ai_instance_node = mim._xpath_search("/auto_install[1]/ai_instance[1]")
values_order_index = 0
for child in ai_instance_node[0]:
self.assertEquals(child.text, values_order[values_order_index],
("Child \"%s\" is out of order. " +
"Found \"%s\" in its place at index %d.\n") %
(child.tag, values_order[values_order_index],
values_order_index))
values_order_index += 1
self.assertEquals(
values_order_index, len(values_order),
"Only %d of %d were found.\n" %
(values_order_index, len(values_order)))
def test_overlay_14(self):
'''
Verify that add_drivers goes after target.
Normally it would go after software, but software is missing and
software comes after target.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
ai_instance_node = mim._xpath_search("/auto_install[1]/ai_instance[1]")
found_target = found_add_drivers = False
for child in ai_instance_node[0]:
if child.tag == "target":
self.assertTrue(
not found_add_drivers,
"Target element not added before software " +
"or add_drivers elements")
found_target = True
continue
if child.tag == "add_drivers":
self.assertTrue(
found_target,
"Add_drivers element not added after target " +
"and software elements")
return
self.assertTrue(found_target, "Target element not added")
self.assertTrue(found_add_drivers, "Add_drivers element not added")
def test_overlay_1(self):
'''
Put original manifest together from pieces, and verify it.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE)
mim.load(self.TARGET_XML, not self.OVERLAY)
mim.load(self.ADD_DRIVER_XML, self.OVERLAY)
mim.load(self.SOFTWARE_XML, self.OVERLAY)
mim.commit()
TestOverlayA.strip_blank_lines(self.AIM_MANIFEST_FILE)
# Raises an exception if diff command finds differences from original.
Popen.check_call([self.DIFF, self.FULL_XML, self.AIM_MANIFEST_FILE])
class TestOverlay9(TestMIMOverlayCommon):
def setUp(self):
'''
Create needed files.
'''
TestMIMOverlayCommon.setUp(self)
self.create_starting_file()
with open(self.OVERLAY_XML_FILE, "w") as ovrl_xml:
ovrl_xml.write('<auto_install>\n')
ovrl_xml.write(' <ai_instance>\n')
ovrl_xml.write(' <software/>\n')
ovrl_xml.write(' </ai_instance>\n')
ovrl_xml.write('</auto_install>\n')
def tearDown(self):
'''
Destroy files created for these tests.
'''
TestMIMOverlayCommon.tearDown(self)
self.destroy_starting_file()
if os.path.exists(self.OVERLAY_XML_FILE):
os.unlink(self.OVERLAY_XML_FILE)
def test_overlay_9(self):
'''
Add new leaf elem where same-tagged elements are allowed and none exist
'''
self.mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
self.mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Software[1] means a first software element was (properly) added.
(value, path) = self.mim.get("/auto_install/ai_instance/software")
self.assertEquals(path, "/auto_install[1]/ai_instance[1]/software[1]",
"Error adding leaf element where like-tagged " +
"elements are allowed.")
def test_overlay_14(self):
'''
Verify that add_drivers goes after target.
Normally it would go after software, but software is missing and
software comes after target.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
ai_instance_node = mim._xpath_search("/auto_install[1]/ai_instance[1]")
found_target = found_add_drivers = False
for child in ai_instance_node[0]:
if child.tag == "target":
self.assertTrue(not found_add_drivers,
"Target element not added before software " +
"or add_drivers elements")
found_target = True
continue
if child.tag == "add_drivers":
self.assertTrue(found_target,
"Add_drivers element not added after target " +
"and software elements")
return
self.assertTrue(found_target, "Target element not added")
self.assertTrue(found_add_drivers, "Add_drivers element not added")
def check_insertion_order(self):
'''
Verify that target, sofware, add_drivers nodes are present and in order
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
ai_instance_node = mim._xpath_search("/auto_install[1]/ai_instance[1]")
found_target = found_software = found_add_drivers = False
for child in ai_instance_node[0]:
if child.tag == "target":
self.assertTrue(not found_software and not found_add_drivers,
"Target element not added before software " +
"or add_drivers elements")
found_target = True
continue
if child.tag == "software":
self.assertTrue(found_target and not found_add_drivers,
"Software element not added between target " +
"and add_drivers elements")
found_software = True
continue
if child.tag == "add_drivers":
self.assertTrue(found_target and found_software,
"Add_drivers element not added after target " +
"and software elements")
return
self.assertTrue(found_target, "Target element not added")
self.assertTrue(found_software, "Software element not added")
self.assertTrue(found_add_drivers, "Add_drivers element not added")
def validate(self, validate_this):
'''
Load and perform validation on file given as input.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(validate_this, not self.OVERLAY)
mim.validate()
class TestOverlay9(TestMIMOverlayCommon):
def setUp(self):
'''
Create needed files.
'''
TestMIMOverlayCommon.setUp(self)
self.create_starting_file()
with open(self.OVERLAY_XML_FILE, "w") as ovrl_xml:
ovrl_xml.write('<auto_install>\n')
ovrl_xml.write(' <ai_instance>\n')
ovrl_xml.write(' <software/>\n')
ovrl_xml.write(' </ai_instance>\n')
ovrl_xml.write('</auto_install>\n')
def tearDown(self):
'''
Destroy files created for these tests.
'''
TestMIMOverlayCommon.tearDown(self)
self.destroy_starting_file()
if os.path.exists(self.OVERLAY_XML_FILE):
os.unlink(self.OVERLAY_XML_FILE)
def test_overlay_9(self):
'''
Add new leaf elem where same-tagged elements are allowed and none exist
'''
self.mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
self.mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Software[1] means a first software element was (properly) added.
(value, path) = self.mim.get("/auto_install/ai_instance/software")
self.assertEquals(
path, "/auto_install[1]/ai_instance[1]/software[1]",
"Error adding leaf element where like-tagged " +
"elements are allowed.")
def test_overlay_9(self):
'''
Add new leaf elem where same-tagged elements are allowed and none exist
'''
self.mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
self.mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
self.mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Software[1] means a first software element was (properly) added.
(value, path) = self.mim.get("/auto_install/ai_instance/software")
self.assertEquals(path, "/auto_install[1]/ai_instance[1]/software[1]",
"Error adding leaf element where like-tagged " +
"elements are allowed.")
def test_commit_3(self):
'''
Test that file gets written without validation when requested.
'''
self.create_small_xml()
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.IN_XML_FILE, not self.OVERLAY)
mim.commit(validate=False)
def test_overlay_1(self):
'''
Put original manifest together from pieces, and verify it.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE)
mim.load(self.TARGET_XML, not self.OVERLAY)
mim.load(self.ADD_DRIVER_XML, self.OVERLAY)
mim.load(self.SOFTWARE_XML, self.OVERLAY)
mim.commit()
TestOverlayA.strip_blank_lines(self.AIM_MANIFEST_FILE)
# Raises an exception if diff command finds differences from original.
Popen.check_call([self.DIFF, self.FULL_XML, self.AIM_MANIFEST_FILE])
def do_test(self):
'''
Load main, then overlay and test.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
(value, path) = mim.get("/auto_install/ai_instance@name")
self.assertEquals(
path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting " +
"\"name\" attribute")
self.assertEquals(
value, "secondname",
"Error changing existing attribute " + "of non-leaf node.")
def do_test(self):
'''
Load main, then overlay and test.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
(value, path) = mim.get("/auto_install/ai_instance@name")
self.assertEquals(path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting " +
"\"name\" attribute")
self.assertEquals(value, "secondname",
"Error changing existing attribute " +
"of non-leaf node.")
def test_overlay_8(self):
'''
Add a new non-leaf element where same-tagged elements are allowed.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
(value, path) = mim.get("/auto_install/ai_instance/"
"software/software_data@action")
self.assertEquals(value, "install",
"Error adding new same-tagged element")
# Target[2] means a second element was (properly) added.
self.assertEquals(
path, "/auto_install[1]/ai_instance[1]/software[2]" +
"/software_data[1]",
"Error: incorrect pathname returned when getting " +
"\"action\" attr.")
def test_overlay_8(self):
'''
Add a new non-leaf element where same-tagged elements are allowed.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
(value, path) = mim.get("/auto_install/ai_instance/"
"software/software_data@action")
self.assertEquals(value, "install",
"Error adding new same-tagged element")
# Target[2] means a second element was (properly) added.
self.assertEquals(path, "/auto_install[1]/ai_instance[1]/software[2]" +
"/software_data[1]",
"Error: incorrect pathname returned when getting " +
"\"action\" attr.")
def test_overlay_4(self):
'''
Leaf overlayed where same-tagged elements not allowed
... replaces existing element and any subtree from it.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Verify the old element with name attribute is gone.
self.assertRaises(milib.MimMatchError, mim.get,
"/auto_install/ai_instance@name")
# Verify the new element with auto_reboot attribute is present.
(value, path) = mim.get("/auto_install/ai_instance@auto_reboot")
self.assertEquals(value, "true",
"Error adding new element with new attribute")
self.assertEquals(
path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting " +
"\"auto_reboot\" attribute")
def test_overlay_5(self):
'''
Overlay same-tagged non-leaf element with new attr where not allowed.
Same-tagged non-leaf elements are not allowed.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Verify auto_reboot attribute was added to existing element.
(value, path) = mim.get("/auto_install/ai_instance@name")
self.assertEquals(value, "firstname",
"Error finding original attribute of existing node")
self.assertEquals(path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting" +
"\"name\" attr")
(value, path) = mim.get("/auto_install/ai_instance@auto_reboot")
self.assertEquals(value, "true",
"Error adding new attribute to existing node")
self.assertEquals(path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting " +
"\"auto_reboot\" attr")
def test_overlay_4(self):
'''
Leaf overlayed where same-tagged elements not allowed
... replaces existing element and any subtree from it.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
# Verify the old element with name attribute is gone.
self.assertRaises(milib.MimMatchError, mim.get,
"/auto_install/ai_instance@name")
# Verify the new element with auto_reboot attribute is present.
(value, path) = mim.get("/auto_install/ai_instance@auto_reboot")
self.assertEquals(value, "true",
"Error adding new element with new attribute")
self.assertEquals(path, "/auto_install[1]/ai_instance[1]",
"Error: incorrect pathname returned when getting " +
"\"auto_reboot\" attribute")
def test_overlay_15(self):
'''
Interleaves two files with same nodes. Verifies order.
'''
values_order = ["target2", "software1", "software2",
"source1", "source2"]
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
mim.load(self.MAIN_XML_FILE, not self.OVERLAY)
mim.load(self.OVERLAY_XML_FILE, self.OVERLAY)
ai_instance_node = mim._xpath_search("/auto_install[1]/ai_instance[1]")
values_order_index = 0
for child in ai_instance_node[0]:
self.assertEquals(child.text, values_order[values_order_index],
("Child \"%s\" is out of order. " +
"Found \"%s\" in its place at index %d.\n") %
(child.tag, values_order[values_order_index],
values_order_index))
values_order_index += 1
self.assertEquals(values_order_index, len(values_order),
"Only %d of %d were found.\n" % (values_order_index,
len(values_order)))
def test_commit_1(self):
'''
Test proper handling of an empty tree.
'''
mim = ManifestInput(self.AIM_MANIFEST_FILE, self.SCHEMA)
self.assertRaises(milib.MimEmptyTreeError, mim.commit)
def _do_aimanifest(argv):
'''
Main. See usage for argv details.
'''
usage_str = usage(argv)
if len(argv) <= 1:
AIM_LOGGER.error(_("Error: Missing subcommand"))
print >> sys.stderr, _("Usage:\n") + usage_str
return errno.EINVAL
parser = AimOptionParser(usage=usage_str)
parser.add_option("-i",
"--incremental",
dest="is_incremental",
default=False,
action="store_true",
help=_("Do not clear data before adding new data"))
parser.add_option("-r",
"--return-path",
dest="show_path",
default=False,
action="store_true",
help=_("Return unique path to affected node"))
(options, args) = parser.parse_args(argv[1:])
len_args = len(args)
command = args[0]
path = args[1] if (len_args > 1) else None
value = args[2] if (len_args > 2) else None
cmds_r_option = ["add", "set", "get"]
cmds_w_value_arg = ["add", "set"]
cmds_wo_value_arg = ["get", "load"]
cmds_w_no_args = ["validate"]
if ((command in cmds_w_value_arg and (len_args < 3))
or (command in cmds_wo_value_arg and (len_args < 2))):
parser.error_w_errno(errno.EINVAL, _("missing argument"))
if ((command in cmds_w_value_arg and (len_args > 3))
or (command in cmds_wo_value_arg and (len_args > 2))
or (command in cmds_w_no_args and (len_args > 1))):
parser.error_w_errno(errno.EINVAL, _("extra arguments given"))
if (command != "load") and options.is_incremental:
parser.error_w_errno(errno.EINVAL,
_("-i is not applicable for command given"))
if command not in cmds_r_option and options.show_path:
parser.error_w_errno(errno.EINVAL,
_("-r is not applicable for command given"))
# Pass AIM_MANIFEST as the output file.
try:
mim = ManifestInput(os.environ.get("AIM_MANIFEST"),
os.environ.get("AIM_DTD"))
except (milib.MimError, IOError) as err:
return (_handle_error(err))
if (command == "set") or (command == "add"):
AIM_LOGGER.info(
_("command:%(mcommand)s, path:%(mpath)s, "
"value:%(mvalue)s") % {
"mcommand": command,
"mpath": path,
"mvalue": value
})
try:
if command == "set":
path = mim.set(path, value)
else:
path = mim.add(path, value)
mim.commit(NO_VALIDATE)
except (milib.MimError, IOError) as err:
return (_handle_error(err))
_log_final_status(mim, path)
if options.show_path:
# Localization not needed here.
print path
elif command == "get":
AIM_LOGGER.info(
_("command:%(mcommand)s, path:%(mpath)s") % {
"mcommand": command,
"mpath": path
})
try:
(value, path) = mim.get(path)
except (milib.MimError, IOError) as err:
return (_handle_error(err))
if value is None or not len(value):
value = "\"\""
AIM_LOGGER.info(
_("successful: returns value:%(mvalue)s, "
"path:%(mpath)s") % {
"mvalue": value,
"mpath": path
})
if not options.show_path:
path = ""
# Localization not needed here.
print "%s %s" % (value, path)
elif (command == "load"):
# path arg holds the filename
AIM_LOGGER.info(
_("command:%(mcommand)s, "
"incremental:%(mincr)s, file:%(mfile)s") % {
"mcommand": command,
"mincr": str(options.is_incremental),
"mfile": path
})
try:
mim.load(path, options.is_incremental)
mim.commit(NO_VALIDATE)
except (milib.MimError, IOError) as err:
return (_handle_error(err))
_log_final_status(mim, path)
elif (command == "validate"):
AIM_LOGGER.info(_("Command:%s") % command)
try:
mim.validate()
AIM_LOGGER.info(_("Validation successful"))
except (milib.MimError, IOError) as err:
return (_handle_error(err))
else:
AIM_LOGGER.error(_("Invalid subcommand \"%s\"") % command)
print >> sys.stderr, _("Usage:\n") + usage_str
return errno.EINVAL
return 0 # No errors
def _do_aimanifest(argv):
'''
Main. See usage for argv details.
'''
usage_str = usage(argv)
if len(argv) <= 1:
AIM_LOGGER.error(_("Error: Missing subcommand"))
print >> sys.stderr, _("Usage:\n") + usage_str
return errno.EINVAL
parser = AimOptionParser(usage=usage_str)
parser.add_option("-i", "--incremental", dest="is_incremental",
default=False, action="store_true",
help=_("Do not clear data before adding new data"))
parser.add_option("-r", "--return-path", dest="show_path", default=False,
action="store_true",
help=_("Return unique path to affected node"))
(options, args) = parser.parse_args(argv[1:])
len_args = len(args)
command = args[0]
path = args[1] if (len_args > 1) else None
value = args[2] if (len_args > 2) else None
cmds_r_option = ["add", "set", "get"]
cmds_w_value_arg = ["add", "set"]
cmds_wo_value_arg = ["get", "load"]
cmds_w_no_args = ["validate"]
if ((command in cmds_w_value_arg and (len_args < 3)) or
(command in cmds_wo_value_arg and (len_args < 2))):
parser.error_w_errno(errno.EINVAL, _("missing argument"))
if ((command in cmds_w_value_arg and (len_args > 3)) or
(command in cmds_wo_value_arg and (len_args > 2)) or
(command in cmds_w_no_args and (len_args > 1))):
parser.error_w_errno(errno.EINVAL, _("extra arguments given"))
if (command != "load") and options.is_incremental:
parser.error_w_errno(errno.EINVAL,
_("-i is not applicable for command given"))
if command not in cmds_r_option and options.show_path:
parser.error_w_errno(errno.EINVAL,
_("-r is not applicable for command given"))
# Pass AIM_MANIFEST as the output file.
try:
mim = ManifestInput(os.environ.get("AIM_MANIFEST"),
os.environ.get("AIM_DTD"))
except (milib.MimError, IOError) as err:
return (_handle_error(err))
if (command == "set") or (command == "add"):
AIM_LOGGER.info(_("command:%(mcommand)s, path:%(mpath)s, "
"value:%(mvalue)s") %
{"mcommand": command, "mpath": path, "mvalue": value})
try:
if command == "set":
path = mim.set(path, value)
else:
path = mim.add(path, value)
mim.commit(NO_VALIDATE)
except (milib.MimError, IOError) as err:
return (_handle_error(err))
_log_final_status(mim, path)
if options.show_path:
# Localization not needed here.
print path
elif command == "get":
AIM_LOGGER.info(_("command:%(mcommand)s, path:%(mpath)s") %
{"mcommand": command, "mpath": path})
try:
(value, path) = mim.get(path)
except (milib.MimError, IOError) as err:
return (_handle_error(err))
if value is None or not len(value):
value = "\"\""
AIM_LOGGER.info(_("successful: returns value:%(mvalue)s, "
"path:%(mpath)s") % {"mvalue": value, "mpath": path})
if not options.show_path:
path = ""
# Localization not needed here.
print "%s %s" % (value, path)
elif (command == "load"):
# path arg holds the filename
AIM_LOGGER.info(_("command:%(mcommand)s, "
"incremental:%(mincr)s, file:%(mfile)s") %
{"mcommand": command, "mincr": str(options.is_incremental),
"mfile": path})
try:
mim.load(path, options.is_incremental)
mim.commit(NO_VALIDATE)
except (milib.MimError, IOError) as err:
return (_handle_error(err))
_log_final_status(mim, path)
elif (command == "validate"):
AIM_LOGGER.info(_("Command:%s") % command)
try:
mim.validate()
AIM_LOGGER.info(_("Validation successful"))
except (milib.MimError, IOError) as err:
return (_handle_error(err))
else:
AIM_LOGGER.error(_("Invalid subcommand \"%s\"") % command)
print >> sys.stderr, _("Usage:\n") + usage_str
return errno.EINVAL
return 0 # No errors
