/usr/share/pyshared/pywbem/mof_compiler.py is in python-pywbem 0.7.0-4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# (C) Copyright 2006-2007 Novell, Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License as
# published by the Free Software Foundation; either version 2 of the
# License.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this program; if not, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
#
# Author: Bart Whiteley <bwhiteley suse.de>
import sys
import os
import ply.lex as lex
import ply.yacc as yacc
from ply.lex import TOKEN
from cim_operations import CIMError, WBEMConnection
from cim_obj import *
from cim_constants import *
from getpass import getpass
_optimize = 1
_tabmodule='mofparsetab'
_lextab='moflextab'
reserved = {
'any':'ANY',
'as':'AS',
'association':'ASSOCIATION',
'class':'CLASS',
'disableoverride':'DISABLEOVERRIDE',
'boolean':'DT_BOOL',
'char16':'DT_CHAR16',
'datetime':'DT_DATETIME',
'pragma':'PRAGMA',
'real32':'DT_REAL32',
'real64':'DT_REAL64',
'sint16':'DT_SINT16',
'sint32':'DT_SINT32',
'sint64':'DT_SINT64',
'sint8':'DT_SINT8',
'string':'DT_STR',
'uint16':'DT_UINT16',
'uint32':'DT_UINT32',
'uint64':'DT_UINT64',
'uint8':'DT_UINT8',
'enableoverride':'ENABLEOVERRIDE',
'false':'FALSE',
'flavor':'FLAVOR',
'indication':'INDICATION',
'instance':'INSTANCE',
'method':'METHOD',
'null':'NULL',
'of':'OF',
'parameter':'PARAMETER',
'property':'PROPERTY',
'qualifier':'QUALIFIER',
'ref':'REF',
'reference':'REFERENCE',
'restricted':'RESTRICTED',
'schema':'SCHEMA',
'scope':'SCOPE',
'tosubclass':'TOSUBCLASS',
'translatable':'TRANSLATABLE',
'true':'TRUE',
}
tokens = reserved.values() + [
'IDENTIFIER',
'stringValue',
'floatValue',
'charValue',
'binaryValue',
'octalValue',
'decimalValue',
'hexValue',
]
literals = '#(){};[],$:='
# UTF-8 (from Unicode 4.0.0 standard):
# Table 3-6. Well-Formed UTF-8 Byte Sequences Code Points
# 1st Byte 2nd Byte 3rd Byte 4th Byte
# U+0000..U+007F 00..7F
# U+0080..U+07FF C2..DF 80..BF
# U+0800..U+0FFF E0 A0..BF 80..BF
# U+1000..U+CFFF E1..EC 80..BF 80..BF
# U+D000..U+D7FF ED 80..9F 80..BF
# U+E000..U+FFFF EE..EF 80..BF 80..BF
# U+10000..U+3FFFF F0 90..BF 80..BF 80..BF
# U+40000..U+FFFFF F1..F3 80..BF 80..BF 80..BF
# U+100000..U+10FFFF F4 80..8F 80..BF 80..BF
utf8_2 = r'[\xC2-\xDF][\x80-\xBF]'
utf8_3_1 = r'\xE0[\xA0-\xBF][\x80-\xBF]'
utf8_3_2 = r'[\xE1-\xEC][\x80-\xBF][\x80-\xBF]'
utf8_3_3 = r'\xED[\x80-\x9F][\x80-\xBF]'
utf8_3_4 = r'[\xEE-\xEF][\x80-\xBF][\x80-\xBF]'
utf8_4_1 = r'\xF0[\x90-\xBF][\x80-\xBF][\x80-\xBF]'
utf8_4_2 = r'[\xF1-\xF3][\x80-\xBF][\x80-\xBF][\x80-\xBF]'
utf8_4_3 = r'\xF4[\x80-\x8F][\x80-\xBF][\x80-\xBF]'
utf8Char = r'(%s)|(%s)|(%s)|(%s)|(%s)|(%s)|(%s)|(%s)' % (utf8_2, utf8_3_1,
utf8_3_2, utf8_3_3, utf8_3_4, utf8_4_1, utf8_4_2, utf8_4_3)
def t_COMMENT(t):
r'//.*'
pass
def t_MCOMMENT(t):
r'/\*(.|\n)*?\*/'
t.lineno += t.value.count('\n')
t_binaryValue = r'[+-]?[01]+[bB]'
t_octalValue = r'[+-]?0[0-7]+'
t_decimalValue = r'[+-]?([1-9][0-9]*|0)'
t_hexValue = r'[+-]?0[xX][0-9a-fA-F]+'
t_floatValue = r'[+-]?[0-9]*\.[0-9]+([eE][+-]?[0-9]+)?'
simpleEscape = r"""[bfnrt'"\\]"""
hexEscape = r'x[0-9a-fA-F]{1,4}'
escapeSequence = r'[\\]((%s)|(%s))' % (simpleEscape, hexEscape)
cChar = r"[^'\\\n\r]|(%s)" % escapeSequence
sChar = r'[^"\\\n\r]|(%s)' % escapeSequence
charValue = r"'%s'" % cChar
t_stringValue = r'"(%s)*"' % sChar
identifier_re = r'([a-zA-Z_]|(%s))([0-9a-zA-Z_]|(%s))*' % (utf8Char, utf8Char)
@TOKEN(identifier_re)
def t_IDENTIFIER(t):
t.type = reserved.get(t.value.lower(),'IDENTIFIER') # check for reserved word
return t
# Define a rule so we can track line numbers
def t_newline(t):
r'\n+'
t.lexer.lineno += len(t.value)
t.lexer.linestart = t.lexpos
t_ignore = ' \r\t'
# Error handling rule
def t_error(t):
msg = "Illegal character '%s' " % t.value[0]
msg+= "Line %d, col %d" % (t.lineno, _find_column(t.lexer.parser.mof, t))
t.lexer.parser.log(msg)
t.lexer.skip(1)
class MOFParseError(ValueError):
pass
def p_error(p):
ex = MOFParseError()
if p is None:
ex.args = ('Unexpected end of file',)
raise ex
ex.file = p.lexer.parser.file
ex.lineno = p.lineno
ex.column = _find_column(p.lexer.parser.mof, p)
ex.context = _get_error_context(p.lexer.parser.mof, p)
raise ex
def p_mofSpecification(p):
"""mofSpecification : mofProductionList"""
def p_mofProductionList(p):
"""mofProductionList : empty
| mofProductionList mofProduction
"""
def p_mofProduction(p):
"""mofProduction : compilerDirective
| mp_createClass
| mp_setQualifier
| mp_createInstance
"""
def _create_ns(p, handle, ns):
# Figure out the flavor of cim server
cimom_type = None
ns = ns.strip('/')
try:
inames = handle.EnumerateInstanceNames('__Namespace', namespace='root')
inames = [x['name'] for x in inames]
if 'PG_InterOp' in inames:
cimom_type = 'pegasus'
except CIMError, ce:
if ce.args[0] != CIM_ERR_NOT_FOUND:
ce.file_line = (p.parser.file, p.lexer.lineno)
raise
if not cimom_type:
try:
inames = handle.EnumerateInstanceNames('CIM_Namespace',
namespace='Interop')
inames = [x['name'] for x in inames]
cimom_type = 'proper'
except CIMError, ce:
ce.file_line = (p.parser.file, p.lexer.lineno)
raise
if not cimom_type:
ce = CIMError(CIM_ERR_FAILED,
'Unable to determine CIMOM type')
ce.file_line = (p.parser.file, p.lexer.lineno)
raise ce
if cimom_type == 'pegasus':
# To create a namespace in Pegasus, create an instance of
# __Namespace with __Namespace.Name = '', and create it in
# the target namespace to be created.
inst = CIMInstance('__Namespace',
properties={'Name':''},
path=CIMInstanceName('__Namespace',
keybindings={'Name':''},
namespace=ns))
try:
handle.CreateInstance(inst)
except CIMError, ce:
if ce.args[0] != CIM_ERR_ALREADY_EXISTS:
ce.file_line = (p.parser.file, p.lexer.lineno)
raise
elif cimom_type == 'proper':
inst = CIMInstance('CIM_Namespace',
properties={'Name': ns},
path=CIMInstanceName('CIM_Namespace',
namespace='root',
keybindings={'Name':ns}))
handle.CreateInstance(inst)
def p_mp_createClass(p):
"""mp_createClass : classDeclaration
| assocDeclaration
| indicDeclaration
"""
ns = p.parser.handle.default_namespace
cc = p[1]
try:
fixedNS = fixedRefs = fixedSuper = False
while not fixedNS or not fixedRefs or not fixedSuper:
try:
if p.parser.verbose:
p.parser.log('Creating class %s:%s' % (ns, cc.classname))
p.parser.handle.CreateClass(cc)
if p.parser.verbose:
p.parser.log('Created class %s:%s' % (ns,cc.classname))
p.parser.classnames[ns].append(cc.classname.lower())
break
except CIMError, ce:
ce.file_line = (p.parser.file, p.lexer.lineno)
errcode = ce.args[0]
if errcode == CIM_ERR_INVALID_NAMESPACE:
if fixedNS:
raise
if p.parser.verbose:
p.parser.log('Creating namespace ' + ns)
_create_ns(p, p.parser.handle, ns)
fixedNS = True
continue
if not p.parser.search_paths:
raise
if errcode == CIM_ERR_INVALID_SUPERCLASS:
if fixedSuper:
raise
moffile = p.parser.mofcomp.find_mof(cc.superclass)
if not moffile:
raise
p.parser.mofcomp.compile_file(moffile, ns)
fixedSuper = True
elif errcode in [CIM_ERR_INVALID_PARAMETER,
CIM_ERR_NOT_FOUND,
CIM_ERR_FAILED]:
if fixedRefs:
raise
if not p.parser.qualcache[ns]:
for fname in ['qualifiers', 'qualifiers_optional']:
qualfile = p.parser.mofcomp.find_mof(fname)
if qualfile:
p.parser.mofcomp.compile_file(qualfile,ns)
if not p.parser.qualcache[ns]:
# can't find qualifiers
raise
objects = cc.properties.values()
for meth in cc.methods.values():
objects+= meth.parameters.values()
dep_classes = []
for obj in objects:
if obj.type not in ['reference','string']:
continue
if obj.type == 'reference':
if obj.reference_class.lower() not in dep_classes:
dep_classes.append(obj.reference_class.lower())
continue
# else obj.type is 'string'
try:
embedded_inst= obj.qualifiers['embeddedinstance']
except KeyError:
continue
embedded_inst = embedded_inst.value.lower()
if embedded_inst not in dep_classes:
dep_classes.append(embedded_inst)
continue
for klass in dep_classes:
if klass in p.parser.classnames[ns]:
continue
try:
# don't limit it with LocalOnly=True,
# PropertyList, IncludeQualifiers=False, ...
# because of caching in case we're using the
# special WBEMConnection subclass used for
# removing schema elements
p.parser.handle.GetClass(klass,
LocalOnly=False,
IncludeQualifiers=True)
p.parser.classnames[ns].append(klass)
except CIMError:
moffile = p.parser.mofcomp.find_mof(klass)
if not moffile:
raise
p.parser.mofcomp.compile_file(moffile, ns)
p.parser.classnames[ns].append(klass)
fixedRefs = True
else:
raise
except CIMError, ce:
ce.file_line = (p.parser.file, p.lexer.lineno)
if ce.args[0] != CIM_ERR_ALREADY_EXISTS:
raise
if p.parser.verbose:
p.parser.log('Class %s already exist. Modifying...' % cc.classname)
try:
p.parser.handle.ModifyClass(cc, ns)
except CIMError, ce:
p.parser.log('Error Modifying class %s: %s, %s'
% (cc.classname, ce.args[0], ce.args[1]))
def p_mp_createInstance(p):
"""mp_createInstance : instanceDeclaration"""
inst = p[1]
if p.parser.verbose:
p.parser.log('Creating instance of %s.' % inst.classname)
try:
p.parser.handle.CreateInstance(inst)
except CIMError, ce:
if ce.args[0] == CIM_ERR_ALREADY_EXISTS:
if p.parser.verbose:
p.parser.log('Instance of class %s already exist. Modifying...' % inst.classname)
try:
p.parser.handle.ModifyInstance(inst)
except CIMError, ce:
if ce.args[0] == CIM_ERR_NOT_SUPPORTED:
if p.parser.verbose:
p.parser.log('ModifyInstance not supported. Deleting instance of %s: %s' % (inst.classname, inst.path))
p.parser.handle.DeleteInstance(inst.path)
if p.parser.verbose:
p.parser.log('Creating instance of %s.' % inst.classname)
p.parser.handle.CreateInstance(inst)
else:
ce.file_line = (p.parser.file, p.lexer.lineno)
raise
def p_mp_setQualifier(p):
"""mp_setQualifier : qualifierDeclaration"""
qualdecl = p[1]
ns = p.parser.handle.default_namespace
if p.parser.verbose:
p.parser.log('Setting qualifier %s' % qualdecl.name)
try:
p.parser.handle.SetQualifier(qualdecl)
except CIMError, ce:
if ce.args[0] == CIM_ERR_INVALID_NAMESPACE:
if p.parser.verbose:
p.parser.log('Creating namespace ' + ns)
_create_ns(p, p.parser.handle, ns)
if p.parser.verbose:
p.parser.log('Setting qualifier %s' % qualdecl.name)
p.parser.handle.SetQualifier(qualdecl)
elif ce.args[0] == CIM_ERR_NOT_SUPPORTED:
if p.parser.verbose:
p.parser.log('Qualifier %s already exists. Deleting...'
% qualdecl.name)
p.parser.handle.DeleteQualifier(qualdecl.name)
if p.parser.verbose:
p.parser.log('Setting qualifier %s' % qualdecl.name)
p.parser.handle.SetQualifier(qualdecl)
else:
ce.file_line = (p.parser.file, p.lexer.lineno)
raise
p.parser.qualcache[ns][qualdecl.name] = qualdecl
def p_compilerDirective(p):
"""compilerDirective : '#' PRAGMA pragmaName '(' pragmaParameter ')'"""
directive = p[3].lower()
param = p[5]
if directive == 'include':
fname = param
#if p.parser.file:
fname = os.path.dirname(p.parser.file) + '/' + fname
p.parser.mofcomp.compile_file(fname, p.parser.handle.default_namespace)
elif directive == 'namespace':
p.parser.handle.default_namespace = param
if param not in p.parser.qualcache:
p.parser.qualcache[param] = NocaseDict()
p[0] = None
def p_pragmaName(p):
"""pragmaName : identifier"""
p[0] = p[1]
def p_pragmaParameter(p):
"""pragmaParameter : stringValue"""
p[0] = _fixStringValue(p[1])
def p_classDeclaration(p):
"""classDeclaration : CLASS className '{' classFeatureList '}' ';'
| CLASS className superClass '{' classFeatureList '}' ';'
| CLASS className alias '{' classFeatureList '}' ';'
| CLASS className alias superClass '{' classFeatureList '}' ';'
| qualifierList CLASS className '{' classFeatureList '}' ';'
| qualifierList CLASS className superClass '{' classFeatureList '}' ';'
| qualifierList CLASS className alias '{' classFeatureList '}' ';'
| qualifierList CLASS className alias superClass '{' classFeatureList '}' ';'
"""
superclass = None
alias = None
quals = []
if isinstance(p[1], basestring): # no class qualifiers
cname = p[2]
if p[3][0] == '$': # alias present
alias = p[3]
if p[4] == '{': # no superclass
cfl = p[5]
else: # superclass
superclass = p[4]
cfl = p[6]
else: # no alias
if p[3] == '{': # no superclass
cfl = p[4]
else: # superclass
superclass = p[3]
cfl = p[5]
else: # class qualifiers
quals = p[1]
cname = p[3]
if p[4][0] == '$': # alias present
alias = p[4]
if p[5] == '{': # no superclass
cfl = p[6]
else: # superclass
superclass = p[5]
cfl = p[7]
else: # no alias
if p[4] == '{': # no superclass
cfl = p[5]
else: # superclass
superclass = p[4]
cfl = p[6]
quals = dict([(x.name, x) for x in quals])
methods = {}
props = {}
for item in cfl:
item.class_origin = cname
if isinstance(item, CIMMethod):
methods[item.name] = item
else:
props[item.name] = item
p[0] = CIMClass(cname, properties=props, methods=methods,
superclass=superclass, qualifiers=quals)
if alias:
p.parser.aliases[alias] = p[0]
def p_classFeatureList(p):
"""classFeatureList : empty
| classFeatureList classFeature
"""
if len(p) == 2:
p[0] = []
else:
p[0] = p[1] + [p[2]]
def p_assocDeclaration(p):
"""assocDeclaration : '[' ASSOCIATION qualifierListEmpty ']' CLASS className '{' associationFeatureList '}' ';'
| '[' ASSOCIATION qualifierListEmpty ']' CLASS className superClass '{' associationFeatureList '}' ';'
| '[' ASSOCIATION qualifierListEmpty ']' CLASS className alias '{' associationFeatureList '}' ';'
| '[' ASSOCIATION qualifierListEmpty ']' CLASS className alias superClass '{' associationFeatureList '}' ';'
"""
aqual = CIMQualifier('ASSOCIATION', True, type='boolean')
# TODO flavor trash.
quals = [aqual] + p[3]
p[0] = _assoc_or_indic_decl(quals, p)
def p_indicDeclaration(p):
"""indicDeclaration : '[' INDICATION qualifierListEmpty ']' CLASS className '{' classFeatureList '}' ';'
| '[' INDICATION qualifierListEmpty ']' CLASS className superClass '{' classFeatureList '}' ';'
| '[' INDICATION qualifierListEmpty ']' CLASS className alias '{' classFeatureList '}' ';'
| '[' INDICATION qualifierListEmpty ']' CLASS className alias superClass '{' classFeatureList '}' ';'
"""
iqual = CIMQualifier('INDICATION', True, type='boolean')
# TODO flavor trash.
quals = [iqual] + p[3]
p[0] = _assoc_or_indic_decl(quals, p)
def _assoc_or_indic_decl(quals, p):
"""(refer to grammer rules on p_assocDeclaration and p_indicDeclaration)"""
superclass = None
alias = None
cname = p[6]
if p[7] == '{':
cfl = p[8]
elif p[7][0] == '$': # alias
alias = p[7]
if p[8] == '{':
cfl = p[9]
else:
superclass = p[8]
cfl = p[10]
else:
superclass = p[7]
cfl = p[9]
props = {}
methods = {}
for item in cfl:
item.class_origin = cname
if isinstance(item, CIMMethod):
methods[item.name] = item
else:
props[item.name] = item
quals = dict([(x.name, x) for x in quals])
cc = CIMClass(cname, properties=props, methods=methods,
superclass=superclass, qualifiers=quals)
if alias:
p.parser.aliases[alias] = cc
return cc
def p_qualifierListEmpty(p):
"""qualifierListEmpty : empty
| qualifierListEmpty ',' qualifier
"""
if len(p) == 2:
p[0] = []
else:
p[0] = p[1] + [p[3]]
def p_associationFeatureList(p):
"""associationFeatureList : empty
| associationFeatureList associationFeature
"""
if len(p) == 2:
p[0] = []
else:
p[0] = p[1] + [p[2]]
def p_className(p):
"""className : identifier"""
p[0] = p[1]
def p_alias(p):
"""alias : AS aliasIdentifier"""
p[0] = p[2]
def p_aliasIdentifier(p):
"""aliasIdentifier : '$' identifier"""
p[0] = '$%s' % p[2]
def p_superClass(p):
"""superClass : ':' className"""
p[0] = p[2]
def p_classFeature(p):
"""classFeature : propertyDeclaration
| methodDeclaration
| referenceDeclaration
"""
p[0] = p[1]
def p_associationFeature(p):
"""associationFeature : classFeature"""
p[0] = p[1]
def p_qualifierList(p):
"""qualifierList : '[' qualifier qualifierListEmpty ']'"""
p[0] = [p[2]] + p[3]
def p_qualifier(p):
"""qualifier : qualifierName
| qualifierName ':' flavorList
| qualifierName qualifierParameter
| qualifierName qualifierParameter ':' flavorList
"""
qname = p[1]
ns = p.parser.handle.default_namespace
qval = None
flavorlist = []
if len(p) == 3:
qval = p[2]
elif len(p) == 4:
flavorlist = p[3]
elif len(p) == 5:
qval = p[2]
flavorlist = p[4]
try:
qualdecl = p.parser.qualcache[ns][qname]
except KeyError:
try:
quals = p.parser.handle.EnumerateQualifiers()
except CIMError, ce:
if ce.args[0] != CIM_ERR_INVALID_NAMESPACE:
ce.file_line = (p.parser.file, p.lexer.lineno)
raise
_create_ns(p, p.parser.handle, ns)
quals = None
if quals:
for qual in quals:
p.parser.qualcache[ns][qual.name] = qual
else:
for fname in ['qualifiers', 'qualifiers_optional']:
qualfile = p.parser.mofcomp.find_mof(fname)
if qualfile:
p.parser.mofcomp.compile_file(qualfile, ns)
try:
qualdecl = p.parser.qualcache[ns][qname]
except KeyError:
ce = CIMError(CIM_ERR_FAILED, 'Unknown Qualifier: %s' % qname)
ce.file_line = (p.parser.file, p.lexer.lineno)
raise ce
flavors = _build_flavors(flavorlist, qualdecl)
if qval is None:
if qualdecl.type == 'boolean':
qval = True
else:
qval = qualdecl.value # default value
else:
qval = tocimobj(qualdecl.type, qval)
p[0] = CIMQualifier(qname, qval, type=qualdecl.type, **flavors)
# TODO propagated?
def p_flavorList(p):
"""flavorList : flavor
| flavorList flavor
"""
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_qualifierParameter(p):
"""qualifierParameter : '(' constantValue ')'
| arrayInitializer
"""
if len(p) == 2:
p[0] = p[1]
else:
p[0] = p[2]
def p_flavor(p):
"""flavor : ENABLEOVERRIDE
| DISABLEOVERRIDE
| RESTRICTED
| TOSUBCLASS
| TRANSLATABLE
"""
p[0] = p[1].lower()
def p_propertyDeclaration(p):
"""propertyDeclaration : propertyDeclaration_1
| propertyDeclaration_2
| propertyDeclaration_3
| propertyDeclaration_4
| propertyDeclaration_5
| propertyDeclaration_6
| propertyDeclaration_7
| propertyDeclaration_8
"""
p[0] = p[1]
def p_propertyDeclaration_1(p):
"""propertyDeclaration_1 : dataType propertyName ';'"""
p[0] = CIMProperty(p[2], None, type=p[1])
def p_propertyDeclaration_2(p):
"""propertyDeclaration_2 : dataType propertyName defaultValue ';'"""
p[0] = CIMProperty(p[2], p[3], type=p[1])
def p_propertyDeclaration_3(p):
"""propertyDeclaration_3 : dataType propertyName array ';'"""
p[0] = CIMProperty(p[2], None, type=p[1], is_array=True,
array_size=p[3])
def p_propertyDeclaration_4(p):
"""propertyDeclaration_4 : dataType propertyName array defaultValue ';'"""
p[0] = CIMProperty(p[2], p[4], type=p[1], is_array=True,
array_size=p[3])
def p_propertyDeclaration_5(p):
"""propertyDeclaration_5 : qualifierList dataType propertyName ';'"""
quals = dict([(x.name, x) for x in p[1]])
p[0] = CIMProperty(p[3], None, type=p[2], qualifiers=quals)
def p_propertyDeclaration_6(p):
"""propertyDeclaration_6 : qualifierList dataType propertyName defaultValue ';'"""
quals = dict([(x.name, x) for x in p[1]])
p[0] = CIMProperty(p[3], tocimobj(p[2], p[4]),
type=p[2], qualifiers=quals)
def p_propertyDeclaration_7(p):
"""propertyDeclaration_7 : qualifierList dataType propertyName array ';'"""
quals = dict([(x.name, x) for x in p[1]])
p[0] = CIMProperty(p[3], None, type=p[2], qualifiers=quals,
is_array=True, array_size=p[4])
def p_propertyDeclaration_8(p):
"""propertyDeclaration_8 : qualifierList dataType propertyName array defaultValue ';'"""
quals = dict([(x.name, x) for x in p[1]])
p[0] = CIMProperty(p[3], tocimobj(p[2], p[5]),
type=p[2], qualifiers=quals, is_array=True, array_size=p[4])
def p_referenceDeclaration(p):
"""referenceDeclaration : objectRef referenceName ';'
| objectRef referenceName defaultValue ';'
| qualifierList objectRef referenceName ';'
| qualifierList objectRef referenceName defaultValue ';'
"""
quals = []
dv = None
if isinstance(p[1], list): # qualifiers
quals = p[1]
cname = p[2]
pname = p[3]
if len(p) == 6:
dv = p[4]
else:
cname = p[1]
pname = p[2]
if len(p) == 5:
dv = p[3]
quals = dict([(x.name, x) for x in quals])
p[0] = CIMProperty(pname, dv, type='reference',
reference_class=cname, qualifiers=quals)
def p_methodDeclaration(p):
"""methodDeclaration : dataType methodName '(' ')' ';'
| dataType methodName '(' parameterList ')' ';'
| qualifierList dataType methodName '(' ')' ';'
| qualifierList dataType methodName '(' parameterList ')' ';'
"""
paramlist = []
quals = []
if isinstance(p[1], basestring): # no quals
dt = p[1]
mname = p[2]
if p[4] != ')':
paramlist = p[4]
else: # quals present
quals = p[1]
dt = p[2]
mname = p[3]
if p[5] != ')':
paramlist = p[5]
params = dict([(param.name, param) for param in paramlist])
quals = dict([(q.name, q) for q in quals])
p[0] = CIMMethod(mname, return_type=dt, parameters=params,
qualifiers=quals)
# note: class_origin is set when adding method to class.
# TODO what to do with propagated?
def p_propertyName(p):
"""propertyName : identifier"""
p[0] = p[1]
def p_referenceName(p):
"""referenceName : identifier"""
p[0] = p[1]
def p_methodName(p):
"""methodName : identifier"""
p[0] = p[1]
def p_dataType(p):
"""dataType : DT_UINT8
| DT_SINT8
| DT_UINT16
| DT_SINT16
| DT_UINT32
| DT_SINT32
| DT_UINT64
| DT_SINT64
| DT_REAL32
| DT_REAL64
| DT_CHAR16
| DT_STR
| DT_BOOL
| DT_DATETIME
"""
p[0] = p[1].lower()
def p_objectRef(p):
"""objectRef : className REF"""
p[0] = p[1]
def p_parameterList(p):
"""parameterList : parameter
| parameterList ',' parameter
"""
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[3]]
def p_parameter(p):
"""parameter : parameter_1
| parameter_2
| parameter_3
| parameter_4
"""
p[0] = p[1]
def p_parameter_1(p):
"""parameter_1 : dataType parameterName
| dataType parameterName array
"""
args = {}
if len(p) == 4:
args['is_array'] = True
args['array_size'] = p[3]
p[0] = CIMParameter(p[2], p[1], **args)
def p_parameter_2(p):
"""parameter_2 : qualifierList dataType parameterName
| qualifierList dataType parameterName array
"""
args = {}
if len(p) == 5:
args['is_array'] = True
args['array_size'] = p[4]
quals = dict([(x.name, x) for x in p[1]])
p[0] = CIMParameter(p[3], p[2], qualifiers=quals, **args)
def p_parameter_3(p):
"""parameter_3 : objectRef parameterName
| objectRef parameterName array
"""
args = {}
if len(p) == 4:
args['is_array'] = True
args['array_size'] = p[3]
p[0] = CIMParameter(p[2], 'reference', reference_class=p[1], **args)
def p_parameter_4(p):
"""parameter_4 : qualifierList objectRef parameterName
| qualifierList objectRef parameterName array
"""
args = {}
if len(p) == 5:
args['is_array'] = True
args['array_size'] = p[4]
quals = dict([(x.name, x) for x in p[1]])
p[0] = CIMParameter(p[3], 'reference', qualifiers=quals,
reference_class=p[2], **args)
def p_parameterName(p):
"""parameterName : identifier"""
p[0] = p[1]
def p_array(p):
"""array : '[' ']'
| '[' integerValue ']'
"""
if len(p) == 3:
p[0] = None
else:
p[0] = p[2]
def p_defaultValue(p):
"""defaultValue : '=' initializer"""
p[0] = p[2]
def p_initializer(p):
"""initializer : constantValue
| arrayInitializer
| referenceInitializer
"""
p[0] = p[1]
def p_arrayInitializer(p):
"""arrayInitializer : '{' constantValueList '}'
| '{' '}'
"""
if len(p) == 3:
p[0] = []
else:
p[0] = p[2]
def p_constantValueList(p):
"""constantValueList : constantValue
| constantValueList ',' constantValue
"""
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[3]]
def _fixStringValue(s):
s = s[1:-1]
rv = ''
esc = False
i = -1
while i < len(s) -1:
i+= 1
ch = s[i]
if ch == '\\' and not esc:
esc = True
continue
if not esc:
rv+= ch
continue
if ch == '"' : rv+= '"'
elif ch == 'n' : rv+= '\n'
elif ch == 't' : rv+= '\t'
elif ch == 'b' : rv+= '\b'
elif ch == 'f' : rv+= '\f'
elif ch == 'r' : rv+= '\r'
elif ch == '\\': rv+= '\\'
elif ch in ['x','X']:
hexc = 0
j = 0
i+= 1
while j < 4:
c = s[i+j];
c = c.upper()
if not c.isdigit() and not c in 'ABCDEF':
break;
hexc <<= 4
if c.isdigit():
hexc |= ord(c) - ord('0')
else:
hexc |= ord(c) - ord('A') + 0XA
j+= 1
rv+= chr(hexc)
i+= j-1
esc = False
return rv
def p_stringValueList(p):
"""stringValueList : stringValue
| stringValueList stringValue
"""
if len(p) == 2:
p[0] = _fixStringValue(p[1])
else:
p[0] = p[1] + _fixStringValue(p[2])
def p_constantValue(p):
"""constantValue : integerValue
| floatValue
| charValue
| stringValueList
| booleanValue
| nullValue
"""
p[0] = p[1]
def p_integerValue(p):
"""integerValue : binaryValue
| octalValue
| decimalValue
| hexValue
"""
p[0] = int(p[1])
# TODO deal with non-decimal values.
def p_referenceInitializer(p):
"""referenceInitializer : objectHandle
| aliasIdentifier
"""
if p[1][0] == '$':
try:
p[0] = p.parser.aliases[p[1]]
except KeyError:
ce = CIMError(CIM_ERR_FAILED,
'Unknown alias: ' + p[0])
ce.file_line = (p.parser.file, p.lexer.lineno)
raise ce
else:
p[0] = p[1]
def p_objectHandle(p):
"""objectHandle : identifier"""
p[0] = p[1]
def p_qualifierDeclaration(p):
"""qualifierDeclaration : QUALIFIER qualifierName qualifierType scope ';'
| QUALIFIER qualifierName qualifierType scope defaultFlavor ';'
"""
qualtype = p[3]
dt, is_array, array_size, value = qualtype
qualname = p[2]
scopes = p[4]
if len(p) == 5:
flist = []
else:
flist = p[5]
flavors = _build_flavors(flist)
p[0] = CIMQualifierDeclaration(qualname, dt, value=value,
is_array=is_array, array_size=array_size,
scopes=scopes, **flavors)
def _build_flavors(flist, qualdecl=None):
flavors = {}
if qualdecl is not None:
flavors = {'overridable':qualdecl.overridable,
'translatable':qualdecl.translatable,
'toinstance':qualdecl.toinstance,
'tosubclass':qualdecl.tosubclass}
if 'disableoverride' in flist:
flavors['overridable'] = False
if 'enableoverride' in flist:
flavors['overridable'] = True
if 'translatable' in flist:
flavors['translatable'] = True
if 'restricted' in flist:
flavors['tosubclass'] = False
if 'tosubclass' in flist:
flavors['tosubclass'] = True
try:
if flavors['tosubclass']:
flavors['toinstance'] = True
except KeyError:
pass
return flavors
def p_qualifierName(p):
"""qualifierName : identifier
| ASSOCIATION
| INDICATION
"""
p[0] = p[1]
def p_qualifierType(p):
"""qualifierType : qualifierType_1
| qualifierType_2
"""
p[0] = p[1]
def p_qualifierType_1(p):
"""qualifierType_1 : ':' dataType array
| ':' dataType array defaultValue
"""
dv = None
if len(p) == 5:
dv = p[4]
p[0] = (p[2], True, p[3], dv)
def p_qualifierType_2(p):
"""qualifierType_2 : ':' dataType
| ':' dataType defaultValue
"""
dv = None
if len(p) == 4:
dv = p[3]
p[0] = (p[2], False, None, dv)
def p_scope(p):
"""scope : ',' SCOPE '(' metaElementList ')'"""
slist = p[4]
scopes = {}
for i in ('SCHEMA',
'CLASS',
'ASSOCIATION',
'INDICATION',
'QUALIFIER',
'PROPERTY',
'REFERENCE',
'METHOD',
'PARAMETER',
'ANY'):
scopes[i] = i in slist
p[0] = scopes
def p_metaElementList(p):
"""metaElementList : metaElement
| metaElementList ',' metaElement
"""
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[3]]
def p_metaElement(p):
"""metaElement : SCHEMA
| CLASS
| ASSOCIATION
| INDICATION
| QUALIFIER
| PROPERTY
| REFERENCE
| METHOD
| PARAMETER
| ANY
"""
p[0] = p[1].upper()
def p_defaultFlavor(p):
"""defaultFlavor : ',' FLAVOR '(' flavorListWithComma ')'"""
flist = p[4]
flavors = {'ENABLEOVERRIDE':True,
'TOSUBCLASS':True,
'DISABLEOVERRIDE':False,
'RESTRICTED':False,
'TRANSLATABLE':False}
for i in flist:
flavors[i] = True
p[0] = flavors
def p_flavorListWithComma(p):
"""flavorListWithComma : flavor
| flavorListWithComma ',' flavor
"""
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[3]]
def p_instanceDeclaration(p):
"""instanceDeclaration : INSTANCE OF className '{' valueInitializerList '}' ';'
| INSTANCE OF className alias '{' valueInitializerList '}' ';'
| qualifierList INSTANCE OF className '{' valueInitializerList '}' ';'
| qualifierList INSTANCE OF className alias '{' valueInitializerList '}' ';'
"""
alias = None
quals = {}
ns = p.parser.handle.default_namespace
if isinstance(p[1], basestring): # no qualifiers
cname = p[3]
if p[4] == '{':
props = p[5]
else:
props = p[6]
alias = p[4]
else:
cname = p[4]
#quals = p[1] # qualifiers on instances are deprecated -- rightly so.
if p[5] == '{':
props = p[6]
else:
props = p[7]
alias = p[5]
try:
cc = p.parser.handle.GetClass(cname,
LocalOnly=False, IncludeQualifiers=True)
p.parser.classnames[ns].append(cc.classname.lower())
except CIMError, ce:
ce.file_line = (p.parser.file, p.lexer.lineno)
if ce.args[0] == CIM_ERR_NOT_FOUND:
file_ = p.parser.mofcomp.find_mof(cname)
if p.parser.verbose:
p.parser.log('Class %s does not exist' % cname)
if file_:
p.parser.mofcomp.compile_file(file_, ns)
cc = p.parser.handle.GetClass(cname, LocalOnly=False,
IncludeQualifiers=True)
else:
if p.parser.verbose:
p.parser.log("Can't find file to satisfy class")
ce = CIMError(CIM_ERR_INVALID_CLASS, cname)
ce.file_line = (p.parser.file, p.lexer.lineno)
raise ce
else:
raise
path = CIMInstanceName(cname, namespace=ns)
inst = CIMInstance(cname, properties=cc.properties,
qualifiers=quals, path=path)
for prop in props:
pname = prop[1]
pval = prop[2]
try:
cprop = inst.properties[pname]
cprop.value = tocimobj(cprop.type, pval)
except KeyError:
ce = CIMError(CIM_ERR_INVALID_PARAMETER,
'Invalid property: %s' % pname)
ce.file_line = (p.parser.file, p.lexer.lineno)
raise ce
except ValueError, ve:
ce = CIMError(CIM_ERR_INVALID_PARAMETER,
'Invalid value for property: %s: %s' % (pname,ve.message))
ce.file_line = (p.parser.file, p.lexer.lineno)
raise ce
for prop in inst.properties.values():
if 'key' not in prop.qualifiers or not prop.qualifiers['key']:
continue
if prop.value is None:
ce = CIMError(CIM_ERR_FAILED,
'Key property %s.%s is not set' % (cname, prop.name))
ce.file_line = (p.parser.file, p.lexer.lineno)
raise ce
inst.path.keybindings[prop.name] = prop.value
if alias:
p.parser.aliases[alias] = inst.path
p[0] = inst
def p_valueInitializerList(p):
"""valueInitializerList : valueInitializer
| valueInitializerList valueInitializer
"""
if len(p) == 2:
p[0] = [p[1]]
else:
p[0] = p[1] + [p[2]]
def p_valueInitializer(p):
"""valueInitializer : identifier defaultValue ';'
| qualifierList identifier defaultValue ';'
"""
if len(p) == 4:
id_ = p[1]
val = p[2]
quals = []
else:
quals = p[1]
id_ = p[2]
val = p[3]
p[0] = (quals, id_, val)
def p_booleanValue(p):
"""booleanValue : FALSE
| TRUE
"""
p[0] = p[1].lower() == 'true'
def p_nullValue(p):
"""nullValue : NULL"""
p[0] = None
def p_identifier(p):
"""identifier : IDENTIFIER
| ANY
| AS
| CLASS
| DISABLEOVERRIDE
| dataType
| ENABLEOVERRIDE
| FLAVOR
| INSTANCE
| METHOD
| OF
| PARAMETER
| PRAGMA
| PROPERTY
| QUALIFIER
| REFERENCE
| RESTRICTED
| SCHEMA
| SCOPE
| TOSUBCLASS
| TRANSLATABLE
"""
#| ASSOCIATION
#| INDICATION
p[0] = p[1]
def p_empty(p):
'empty :'
pass
def _find_column(input, token):
i = token.lexpos
while i > 0:
if input[i] == '\n':
break
i-= 1
column = (token.lexpos - i)+1
return column
def _get_error_context(input, token):
try:
line = input[token.lexpos : input.index('\n', token.lexpos)]
except ValueError:
line = input[token.lexpos:]
i = input.rfind('\n', 0, token.lexpos)
if i < 0:
i = 0
line = input[i:token.lexpos] + line
lines = [line.strip('\r\n')]
col = token.lexpos - i
while len(lines) < 5 and i > 0:
end = i
i = input.rfind('\n', 0, i)
if i < 0:
i = 0
lines.insert(0, input[i:end].strip('\r\n'))
pointer = ''
for ch in token.value:
pointer+= '^'
pointline = ''
i = 0
while i < col -1:
if lines[-1][i].isspace():
pointline+= lines[-1][i]
# otherwise, tabs complicate the alignment
else:
pointline+= ' '
i+= 1
lines.append(pointline + pointer)
return lines
def _print_logger(str):
print str
class MOFWBEMConnection(object):
def __init__(self, conn=None):
self.conn = conn
self.class_names = {}
self.qualifiers = {}
self.instances = {}
self.classes = {}
if conn is None:
self.__default_namespace = 'root/cimv2'
def setns(self, value):
if self.conn is not None:
self.conn.default_namespace = value
else:
self.__default_namespace = value
def getns(self):
if self.conn is not None:
return self.conn.default_namespace
else:
return self.__default_namespace
default_namespace = property(getns, setns, None,
"default_namespace property")
def GetClass(self, *args, **kwargs):
cname = len(args) > 0 and args[0] or kwargs['ClassName']
try:
cc = self.classes[self.default_namespace][cname]
except KeyError:
if self.conn is None:
ce = CIMError(CIM_ERR_NOT_FOUND, cname)
raise ce
cc = self.conn.GetClass(*args, **kwargs)
try:
self.classes[self.default_namespace][cc.classname] = cc
except KeyError:
self.classes[self.default_namespace] = \
NocaseDict({cc.classname:cc})
if 'LocalOnly' in kwargs and not kwargs['LocalOnly']:
if cc.superclass:
try:
del kwargs['ClassName']
except KeyError:
pass
if len(args) > 0:
args = args[1:]
super_ = self.GetClass(cc.superclass, *args, **kwargs)
for prop in super_.properties.values():
if prop.name not in cc.properties:
cc.properties[prop.name] = prop
for meth in super_.methods.values():
if meth.name not in cc.methods:
cc.methods[meth.name] = meth
return cc
def CreateClass(self, *args, **kwargs):
cc = len(args) > 0 and args[0] or kwargs['NewClass']
if cc.superclass:
try:
super_ = self.GetClass(cc.superclass, LocalOnly=True,
IncludeQualifiers=False)
except CIMError, ce:
if ce.args[0] == CIM_ERR_NOT_FOUND:
ce.args = (CIM_ERR_INVALID_SUPERCLASS, cc.superclass)
raise
else:
raise
try:
self.classes[self.default_namespace][cc.classname] = cc
except KeyError:
self.classes[self.default_namespace] = \
NocaseDict({cc.classname:cc})
# TODO: should we see if it exists first with
# self.conn.GetClass()? Do we want to create a class
# that already existed?
try:
self.class_names[self.default_namespace].append(cc.classname)
except KeyError:
self.class_names[self.default_namespace] = [cc.classname]
def ModifyClass(self, *args, **kwargs):
raise CIMError(CIM_ERR_FAILED,
'This should not happen!')
def ModifyInstance(self, *args, **kwargs):
raise CIMError(CIM_ERR_FAILED,
'This should not happen!')
def GetQualifier(self, *args, **kwargs):
qualname = len(args) > 0 and args[0] or kwargs['QualifierName']
try:
qual = self.qualifiers[self.default_namespace][qualname]
except KeyError:
if self.conn is None:
raise CIMError(CIM_ERR_NOT_FOUND, qualname)
qual = self.conn.GetQualifier(*args, **kwargs)
return qual
def SetQualifier(self, *args, **kwargs):
qual = len(args) > 0 and args[0] or kwargs['QualifierDeclaration']
try:
self.qualifiers[self.default_namespace][qual.name] = qual
except KeyError:
self.qualifiers[self.default_namespace] = \
NocaseDict({qual.name:qual})
def EnumerateQualifiers(self, *args, **kwargs):
if self.conn is not None:
rv = self.conn.EnumerateQualifiers(*args,
**kwargs)
else:
rv = []
try:
rv+= self.qualifiers[self.default_namespace].values()
except KeyError:
pass
return rv
def CreateInstance(self, *args, **kwargs):
inst = len(args) > 0 and args[0] or kwargs['NewInstance']
try:
self.instances[self.default_namespace].append(inst)
except KeyError:
self.instances[self.default_namespace] = [inst]
return inst.path
def rollback(self, verbose=False):
for ns, insts in self.instances.items():
insts.reverse()
for inst in insts:
try:
if verbose:
print 'Deleting instance', inst.path
self.conn.DeleteInstance(inst.path)
except CIMError, ce:
print 'Error deleting instance', inst.path
print ' ', '%s %s' % (ce.args[0], ce.args[1])
for ns, cnames in self.class_names.items():
self.default_namespace = ns
cnames.reverse()
for cname in cnames:
try:
if verbose:
print 'Deleting class %s:%s' % (ns, cname)
self.conn.DeleteClass(cname)
except CIMError, ce:
print 'Error deleting class %s:%s' % (ns, cname)
print ' ', '%s %s' % (ce.args[0], ce.args[1])
# TODO: do we want to do anything with qualifiers?
def _errcode2string(code):
d = {
CIM_ERR_FAILED : 'A general error occurred',
CIM_ERR_ACCESS_DENIED : 'Resource not available',
CIM_ERR_INVALID_NAMESPACE : 'The target namespace does not exist',
CIM_ERR_INVALID_PARAMETER : 'Parameter value(s) invalid',
CIM_ERR_INVALID_CLASS : 'The specified Class does not exist',
CIM_ERR_NOT_FOUND : 'Requested object could not be found',
CIM_ERR_NOT_SUPPORTED : 'Operation not supported',
CIM_ERR_CLASS_HAS_CHILDREN : 'Class has subclasses',
CIM_ERR_CLASS_HAS_INSTANCES : 'Class has instances',
CIM_ERR_INVALID_SUPERCLASS : 'Superclass does not exist',
CIM_ERR_ALREADY_EXISTS : 'Object already exists',
CIM_ERR_NO_SUCH_PROPERTY : 'Property does not exist',
CIM_ERR_TYPE_MISMATCH : 'Value incompatible with type',
CIM_ERR_QUERY_LANGUAGE_NOT_SUPPORTED : 'Query language not supported',
CIM_ERR_INVALID_QUERY : 'Query not valid',
CIM_ERR_METHOD_NOT_AVAILABLE : 'Extrinsic method not executed',
CIM_ERR_METHOD_NOT_FOUND : 'Extrinsic method does not exist',
}
try:
s = d[code]
except KeyError:
s = 'Unknown Error'
return s
class MOFCompiler(object):
def __init__(self, handle, search_paths=[], verbose=False,
log_func=_print_logger):
"""Initialize the compiler.
Keyword arguments:
handle -- A WBEMConnection or similar object. The following
attributes and methods need to be present, corresponding to the
the attributes and methods on pywbem.WBEMConnection having
the same names:
- default_namespace
- EnumerateInstanceNames()
- CreateClass()
- GetClass()
- ModifyClass()
- DeleteInstance()
- CreateInstance()
- ModifyInstance()
- DeleteQualifier()
- EnumerateQualifiers()
- SetQualifier()
search_paths -- A list of file system paths specifying where
missing schema elements should be looked for.
verbose -- True if extra messages should be printed.
log_func -- A callable that takes a single string argument.
The default logger prints to stdout.
"""
self.parser = yacc.yacc(tabmodule=_tabmodule, optimize=_optimize)
self.parser.search_paths = search_paths
self.handle = handle
self.parser.handle = handle
self.lexer = lex.lex(lextab=_lextab, optimize=_optimize)
self.lexer.parser = self.parser
self.parser.qualcache = {handle.default_namespace:NocaseDict()}
self.parser.classnames = {handle.default_namespace:[]}
self.parser.mofcomp = self
self.parser.verbose = verbose
self.parser.log = log_func
self.parser.aliases = {}
def compile_string(self, mof, ns, filename=None):
"""Compile a string of MOF.
Arguments:
mof -- The string of MOF
ns -- The CIM namespace
Keyword arguments:
filename -- The name of the file that the MOF was read from. This
is used in status and error messages.
"""
lexer = self.lexer.clone()
lexer.parser = self.parser
try:
oldfile = self.parser.file
except AttributeError:
oldfile = None
self.parser.file = filename
try:
oldmof = self.parser.mof
except AttributeError:
oldmof = None
self.parser.mof = mof
self.parser.handle.default_namespace = ns
if ns not in self.parser.qualcache:
self.parser.qualcache[ns] = NocaseDict()
if ns not in self.parser.classnames:
self.parser.classnames[ns] = []
try:
rv = self.parser.parse(mof, lexer=lexer)
self.parser.file = oldfile
self.parser.mof = oldmof
return rv
except MOFParseError, pe:
self.parser.log('Syntax error:')
if hasattr(pe, 'file') and hasattr(pe, 'lineno'):
self.parser.log('%s:%s:' % (pe.file, pe.lineno))
if hasattr(pe, 'context'):
self.parser.log('\n'.join(pe.context))
if str(pe):
self.parser.log(str(pe))
raise
except CIMError, ce:
if hasattr(ce, 'file_line'):
self.parser.log('Fatal Error: %s:%s' % (ce.file_line[0],
ce.file_line[1]))
else:
self.parser.log('Fatal Error:')
self.parser.log('%s%s' % (_errcode2string(ce.args[0]),
ce.args[1] and ': '+ce.args[1] or ''))
raise
def compile_file(self, filename, ns):
"""Compile MOF from a file.
Arguments:
filename -- The file to read MOF from
ns -- The CIM namespace
"""
if self.parser.verbose:
self.parser.log('Compiling file ' + filename)
f = open(filename, 'r')
mof = f.read()
f.close()
return self.compile_string(mof, ns, filename=filename)
def find_mof(self, classname):
"""Find a MOF file corresponding to a CIM class name. The search_paths
provided to __init__() are searched recursively.
Arguments:
classname -- The name of the class to look for
"""
classname = classname.lower()
for search in self.parser.search_paths:
for root, dirs, files in os.walk(search):
for file_ in files:
if file_.endswith('.mof') and \
file_[:-4].lower() == classname:
return root + '/' + file_
return None
def rollback(self, verbose=False):
self.handle.rollback(verbose=verbose)
def _build():
yacc.yacc(optimize=_optimize, tabmodule=_tabmodule)
lex.lex(optimize=_optimize, lextab=_lextab)
if __name__ == '__main__':
from optparse import OptionParser
usage = 'usage: %prog -n <namespace> [options] <MOF file> ...'
oparser = OptionParser(usage=usage)
oparser.add_option('-s', '--search', dest='search',
help='Search path to find missing schema elements. This option can be present multiple times.',
metavar='Path', action='append')
oparser.add_option('-n', '--namespace', dest='ns',
help='Specify the namespace', metavar='Namespace')
oparser.add_option('-u', '--url', dest='url',
help='URL to the CIM Server', metavar='URL',
default='/var/run/tog-pegasus/cimxml.socket')
oparser.add_option('-v', '--verbose',
action='store_true', dest='verbose', default=False,
help='Print more messages to stdout')
oparser.add_option('-r', '--remove',
action='store_true', dest='remove', default=False,
help='Remove elements found in MOF, instead of create them')
oparser.add_option('-l', '--username',
dest='username', metavar='Username',
help='Specify the username')
oparser.add_option('-p', '--password',
dest='password', metavar='Password',
help='Specify the password')
(options, args) = oparser.parse_args()
search = options.search
if not args:
oparser.error('No input files given for parsing')
if options.ns is None:
oparser.error('No namespace given')
passwd = options.password
if options.username and not passwd:
passwd = getpass('Enter password for %s: ' % options.username)
if options.username:
conn = WBEMConnection(options.url, (options.username, passwd))
else:
conn = WBEMConnection(options.url)
if options.remove:
conn = MOFWBEMConnection(conn=conn)
#conn.debug = True
conn.default_namespace = options.ns
if search is None:
search = []
search = [os.path.abspath(x) for x in search]
for fname in args:
path = os.path.abspath(os.path.dirname(fname))
for spath in search:
if path.startswith(spath):
break
else:
search.append(path)
# if removing, we'll be verbose later when we actually remove stuff.
# We don't want MOFCompiler to be verbose, as that would be confusing.
verbose = options.verbose and not options.remove
mofcomp = MOFCompiler(handle=conn, search_paths=search,
verbose=verbose)
try:
for fname in args:
if fname[0] != '/':
fname = os.path.curdir + '/' + fname
mofcomp.compile_file(fname, options.ns)
except MOFParseError, pe:
sys.exit(1)
except CIMError, ce:
sys.exit(1)
if options.remove:
conn.rollback(verbose=options.verbose)
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