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# Copyright (c) 2017 Ansible Project # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import (absolute_import, division, print_function) __metaclass__ = type DOCUMENTATION = ''' name: ini version_added: "2.4" short_description: Uses an Ansible INI file as inventory source. description: - INI file based inventory, sections are groups or group related with special C(:modifiers). - Entries in sections C([group_1]) are hosts, members of the group. - Hosts can have variables defined inline as key/value pairs separated by C(=). - The C(children) modifier indicates that the section contains groups. - The C(vars) modifier indicates that the section contains variables assigned to members of the group. - Anything found outside a section is considered an 'ungrouped' host. - Values passed in the INI format using the C(key=value) syntax are interpreted differently depending on where they are declared within your inventory. - When declared inline with the host, INI values are processed by Python's ast.literal_eval function (U(https://docs.python.org/3/library/ast.html#ast.literal_eval)) and interpreted as Python literal structures (strings, numbers, tuples, lists, dicts, booleans, None). If you want a number to be treated as a string, you must quote it. Host lines accept multiple C(key=value) parameters per line. Therefore they need a way to indicate that a space is part of a value rather than a separator. - When declared in a C(:vars) section, INI values are interpreted as strings. For example C(var=FALSE) would create a string equal to C(FALSE). Unlike host lines, C(:vars) sections accept only a single entry per line, so everything after the C(=) must be the value for the entry. - Do not rely on types set during definition, always make sure you specify type with a filter when needed when consuming the variable. - See the Examples for proper quoting to prevent changes to variable type. notes: - Enabled in configuration by default. - Consider switching to YAML format for inventory sources to avoid confusion on the actual type of a variable. The YAML inventory plugin processes variable values consistently and correctly. ''' EXAMPLES = '''# fmt: ini # Example 1 [web] host1 host2 ansible_port=222 # defined inline, interpreted as an integer [web:vars] http_port=8080 # all members of 'web' will inherit these myvar=23 # defined in a :vars section, interpreted as a string [web:children] # child groups will automatically add their hosts to parent group apache nginx [apache] tomcat1 tomcat2 myvar=34 # host specific vars override group vars tomcat3 mysecret="'03#pa33w0rd'" # proper quoting to prevent value changes [nginx] jenkins1 [nginx:vars] has_java = True # vars in child groups override same in parent [all:vars] has_java = False # 'all' is 'top' parent # Example 2 host1 # this is 'ungrouped' # both hosts have same IP but diff ports, also 'ungrouped' host2 ansible_host=127.0.0.1 ansible_port=44 host3 ansible_host=127.0.0.1 ansible_port=45 [g1] host4 [g2] host4 # same host as above, but member of 2 groups, will inherit vars from both # inventory hostnames are unique ''' import ast import re from ansible.inventory.group import to_safe_group_name from ansible.plugins.inventory import BaseFileInventoryPlugin from ansible.errors import AnsibleError, AnsibleParserError from ansible.module_utils._text import to_bytes, to_text from ansible.utils.shlex import shlex_split class InventoryModule(BaseFileInventoryPlugin): """ Takes an INI-format inventory file and builds a list of groups and subgroups with their associated hosts and variable settings. """ NAME = 'ini' _COMMENT_MARKERS = frozenset((u';', u'#')) b_COMMENT_MARKERS = frozenset((b';', b'#')) def __init__(self): super(InventoryModule, self).__init__() self.patterns = {} self._filename = None def parse(self, inventory, loader, path, cache=True): super(InventoryModule, self).parse(inventory, loader, path) self._filename = path try: # Read in the hosts, groups, and variables defined in the inventory file. if self.loader: (b_data, private) = self.loader._get_file_contents(path) else: b_path = to_bytes(path, errors='surrogate_or_strict') with open(b_path, 'rb') as fh: b_data = fh.read() try: # Faster to do to_text once on a long string than many # times on smaller strings data = to_text(b_data, errors='surrogate_or_strict').splitlines() except UnicodeError: # Handle non-utf8 in comment lines: https://github.com/ansible/ansible/issues/17593 data = [] for line in b_data.splitlines(): if line and line[0] in self.b_COMMENT_MARKERS: # Replace is okay for comment lines # data.append(to_text(line, errors='surrogate_then_replace')) # Currently we only need these lines for accurate lineno in errors data.append(u'') else: # Non-comment lines still have to be valid uf-8 data.append(to_text(line, errors='surrogate_or_strict')) self._parse(path, data) except Exception as e: raise AnsibleParserError(e) def _raise_error(self, message): raise AnsibleError("%s:%d: " % (self._filename, self.lineno) + message) def _parse(self, path, lines): ''' Populates self.groups from the given array of lines. Raises an error on any parse failure. ''' self._compile_patterns() # We behave as though the first line of the inventory is '[ungrouped]', # and begin to look for host definitions. We make a single pass through # each line of the inventory, building up self.groups and adding hosts, # subgroups, and setting variables as we go. pending_declarations = {} groupname = 'ungrouped' state = 'hosts' self.lineno = 0 for line in lines: self.lineno += 1 line = line.strip() # Skip empty lines and comments if not line or line[0] in self._COMMENT_MARKERS: continue # Is this a [section] header? That tells us what group we're parsing # definitions for, and what kind of definitions to expect. m = self.patterns['section'].match(line) if m: (groupname, state) = m.groups() groupname = to_safe_group_name(groupname) state = state or 'hosts' if state not in ['hosts', 'children', 'vars']: title = ":".join(m.groups()) self._raise_error("Section [%s] has unknown type: %s" % (title, state)) # If we haven't seen this group before, we add a new Group. if groupname not in self.inventory.groups: # Either [groupname] or [groupname:children] is sufficient to declare a group, # but [groupname:vars] is allowed only if the # group is declared elsewhere. # We add the group anyway, but make a note in pending_declarations to check at the end. # # It's possible that a group is previously pending due to being defined as a child # group, in that case we simply pass so that the logic below to process pending # declarations will take the appropriate action for a pending child group instead of # incorrectly handling it as a var state pending declaration if state == 'vars' and groupname not in pending_declarations: pending_declarations[groupname] = dict(line=self.lineno, state=state, name=groupname) self.inventory.add_group(groupname) # When we see a declaration that we've been waiting for, we process and delete. if groupname in pending_declarations and state != 'vars': if pending_declarations[groupname]['state'] == 'children': self._add_pending_children(groupname, pending_declarations) elif pending_declarations[groupname]['state'] == 'vars': del pending_declarations[groupname] continue elif line.startswith('[') and line.endswith(']'): self._raise_error("Invalid section entry: '%s'. Please make sure that there are no spaces" % line + " " + "in the section entry, and that there are no other invalid characters") # It's not a section, so the current state tells us what kind of # definition it must be. The individual parsers will raise an # error if we feed them something they can't digest. # [groupname] contains host definitions that must be added to # the current group. if state == 'hosts': hosts, port, variables = self._parse_host_definition(line) self._populate_host_vars(hosts, variables, groupname, port) # [groupname:vars] contains variable definitions that must be # applied to the current group. elif state == 'vars': (k, v) = self._parse_variable_definition(line) self.inventory.set_variable(groupname, k, v) # [groupname:children] contains subgroup names that must be # added as children of the current group. The subgroup names # must themselves be declared as groups, but as before, they # may only be declared later. elif state == 'children': child = self._parse_group_name(line) if child not in self.inventory.groups: if child not in pending_declarations: pending_declarations[child] = dict(line=self.lineno, state=state, name=child, parents=[groupname]) else: pending_declarations[child]['parents'].append(groupname) else: self.inventory.add_child(groupname, child) else: # This can happen only if the state checker accepts a state that isn't handled above. self._raise_error("Entered unhandled state: %s" % (state)) # Any entries in pending_declarations not removed by a group declaration above mean that there was an unresolved reference. # We report only the first such error here. for g in pending_declarations: decl = pending_declarations[g] if decl['state'] == 'vars': raise AnsibleError("%s:%d: Section [%s:vars] not valid for undefined group: %s" % (path, decl['line'], decl['name'], decl['name'])) elif decl['state'] == 'children': raise AnsibleError("%s:%d: Section [%s:children] includes undefined group: %s" % (path, decl['line'], decl['parents'].pop(), decl['name'])) def _add_pending_children(self, group, pending): for parent in pending[group]['parents']: self.inventory.add_child(parent, group) if parent in pending and pending[parent]['state'] == 'children': self._add_pending_children(parent, pending) del pending[group] def _parse_group_name(self, line): ''' Takes a single line and tries to parse it as a group name. Returns the group name if successful, or raises an error. ''' m = self.patterns['groupname'].match(line) if m: return m.group(1) self._raise_error("Expected group name, got: %s" % (line)) def _parse_variable_definition(self, line): ''' Takes a string and tries to parse it as a variable definition. Returns the key and value if successful, or raises an error. ''' # TODO: We parse variable assignments as a key (anything to the left of # an '='"), an '=', and a value (anything left) and leave the value to # _parse_value to sort out. We should be more systematic here about # defining what is acceptable, how quotes work, and so on. if '=' in line: (k, v) = [e.strip() for e in line.split("=", 1)] return (k, self._parse_value(v)) self._raise_error("Expected key=value, got: %s" % (line)) def _parse_host_definition(self, line): ''' Takes a single line and tries to parse it as a host definition. Returns a list of Hosts if successful, or raises an error. ''' # A host definition comprises (1) a non-whitespace hostname or range, # optionally followed by (2) a series of key="some value" assignments. # We ignore any trailing whitespace and/or comments. For example, here # are a series of host definitions in a group: # # [groupname] # alpha # beta:2345 user=admin # we'll tell shlex # gamma sudo=True user=root # to ignore comments try: tokens = shlex_split(line, comments=True) except ValueError as e: self._raise_error("Error parsing host definition '%s': %s" % (line, e)) (hostnames, port) = self._expand_hostpattern(tokens[0]) # Try to process anything remaining as a series of key=value pairs. variables = {} for t in tokens[1:]: if '=' not in t: self._raise_error("Expected key=value host variable assignment, got: %s" % (t)) (k, v) = t.split('=', 1) variables[k] = self._parse_value(v) return hostnames, port, variables def _expand_hostpattern(self, hostpattern): ''' do some extra checks over normal processing ''' # specification? hostnames, port = super(InventoryModule, self)._expand_hostpattern(hostpattern) if hostpattern.strip().endswith(':') and port is None: raise AnsibleParserError("Invalid host pattern '%s' supplied, ending in ':' is not allowed, this character is reserved to provide a port." % hostpattern) for pattern in hostnames: # some YAML parsing prevention checks if pattern.strip() == '---': raise AnsibleParserError("Invalid host pattern '%s' supplied, '---' is normally a sign this is a YAML file." % hostpattern) return (hostnames, port) @staticmethod def _parse_value(v): ''' Attempt to transform the string value from an ini file into a basic python object (int, dict, list, unicode string, etc). ''' try: v = ast.literal_eval(v) # Using explicit exceptions. # Likely a string that literal_eval does not like. We wil then just set it. except ValueError: # For some reason this was thought to be malformed. pass except SyntaxError: # Is this a hash with an equals at the end? pass return to_text(v, nonstring='passthru', errors='surrogate_or_strict') def _compile_patterns(self): ''' Compiles the regular expressions required to parse the inventory and stores them in self.patterns. ''' # Section names are square-bracketed expressions at the beginning of a # line, comprising (1) a group name optionally followed by (2) a tag # that specifies the contents of the section. We ignore any trailing # whitespace and/or comments. For example: # # [groupname] # [somegroup:vars] # [naughty:children] # only get coal in their stockings self.patterns['section'] = re.compile( to_text(r'''^\[ ([^:\]\s]+) # group name (see groupname below) (?::(\w+))? # optional : and tag name \] \s* # ignore trailing whitespace (?:\#.*)? # and/or a comment till the $ # end of the line ''', errors='surrogate_or_strict'), re.X ) # FIXME: What are the real restrictions on group names, or rather, what # should they be? At the moment, they must be non-empty sequences of non # whitespace characters excluding ':' and ']', but we should define more # precise rules in order to support better diagnostics. self.patterns['groupname'] = re.compile( to_text(r'''^ ([^:\]\s]+) \s* # ignore trailing whitespace (?:\#.*)? # and/or a comment till the $ # end of the line ''', errors='surrogate_or_strict'), re.X )