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# (c) 2014 James Cammarata, <jcammarata@ansible.com> # # This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible 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 General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see <http://www.gnu.org/licenses/>. # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type import codecs import re from ansible.errors import AnsibleParserError from ansible.module_utils._text import to_text from ansible.parsing.quoting import unquote # Decode escapes adapted from rspeer's answer here: # http://stackoverflow.com/questions/4020539/process-escape-sequences-in-a-string-in-python _HEXCHAR = '[a-fA-F0-9]' _ESCAPE_SEQUENCE_RE = re.compile(r''' ( \\U{0} # 8-digit hex escapes | \\u{1} # 4-digit hex escapes | \\x{2} # 2-digit hex escapes | \\N\{{[^}}]+\}} # Unicode characters by name | \\[\\'"abfnrtv] # Single-character escapes )'''.format(_HEXCHAR * 8, _HEXCHAR * 4, _HEXCHAR * 2), re.UNICODE | re.VERBOSE) def _decode_escapes(s): def decode_match(match): return codecs.decode(match.group(0), 'unicode-escape') return _ESCAPE_SEQUENCE_RE.sub(decode_match, s) def parse_kv(args, check_raw=False): ''' Convert a string of key/value items to a dict. If any free-form params are found and the check_raw option is set to True, they will be added to a new parameter called '_raw_params'. If check_raw is not enabled, they will simply be ignored. ''' args = to_text(args, nonstring='passthru') options = {} if args is not None: try: vargs = split_args(args) except IndexError as e: raise AnsibleParserError("Unable to parse argument string", orig_exc=e) except ValueError as ve: if 'no closing quotation' in str(ve).lower(): raise AnsibleParserError("error parsing argument string, try quoting the entire line.", orig_exc=ve) else: raise raw_params = [] for orig_x in vargs: x = _decode_escapes(orig_x) if "=" in x: pos = 0 try: while True: pos = x.index('=', pos + 1) if pos > 0 and x[pos - 1] != '\\': break except ValueError: # ran out of string, but we must have some escaped equals, # so replace those and append this to the list of raw params raw_params.append(x.replace('\\=', '=')) continue k = x[:pos] v = x[pos + 1:] # FIXME: make the retrieval of this list of shell/command options a function, so the list is centralized if check_raw and k not in ('creates', 'removes', 'chdir', 'executable', 'warn', 'stdin', 'stdin_add_newline', 'strip_empty_ends'): raw_params.append(orig_x) else: options[k.strip()] = unquote(v.strip()) else: raw_params.append(orig_x) # recombine the free-form params, if any were found, and assign # them to a special option for use later by the shell/command module if len(raw_params) > 0: options[u'_raw_params'] = join_args(raw_params) return options def _get_quote_state(token, quote_char): ''' the goal of this block is to determine if the quoted string is unterminated in which case it needs to be put back together ''' # the char before the current one, used to see if # the current character is escaped prev_char = None for idx, cur_char in enumerate(token): if idx > 0: prev_char = token[idx - 1] if cur_char in '"\'' and prev_char != '\\': if quote_char: if cur_char == quote_char: quote_char = None else: quote_char = cur_char return quote_char def _count_jinja2_blocks(token, cur_depth, open_token, close_token): ''' this function counts the number of opening/closing blocks for a given opening/closing type and adjusts the current depth for that block based on the difference ''' num_open = token.count(open_token) num_close = token.count(close_token) if num_open != num_close: cur_depth += (num_open - num_close) if cur_depth < 0: cur_depth = 0 return cur_depth def join_args(s): ''' Join the original cmd based on manipulations by split_args(). This retains the original newlines and whitespaces. ''' result = '' for p in s: if len(result) == 0 or result.endswith('\n'): result += p else: result += ' ' + p return result def split_args(args): ''' Splits args on whitespace, but intelligently reassembles those that may have been split over a jinja2 block or quotes. When used in a remote module, we won't ever have to be concerned about jinja2 blocks, however this function is/will be used in the core portions as well before the args are templated. example input: a=b c="foo bar" example output: ['a=b', 'c="foo bar"'] Basically this is a variation shlex that has some more intelligence for how Ansible needs to use it. ''' # the list of params parsed out of the arg string # this is going to be the result value when we are done params = [] # Initial split on newlines items = args.split('\n') # iterate over the tokens, and reassemble any that may have been # split on a space inside a jinja2 block. # ex if tokens are "{{", "foo", "}}" these go together # These variables are used # to keep track of the state of the parsing, since blocks and quotes # may be nested within each other. quote_char = None inside_quotes = False print_depth = 0 # used to count nested jinja2 {{ }} blocks block_depth = 0 # used to count nested jinja2 {% %} blocks comment_depth = 0 # used to count nested jinja2 {# #} blocks # now we loop over each split chunk, coalescing tokens if the white space # split occurred within quotes or a jinja2 block of some kind for (itemidx, item) in enumerate(items): # we split on spaces and newlines separately, so that we # can tell which character we split on for reassembly # inside quotation characters tokens = item.split(' ') line_continuation = False for (idx, token) in enumerate(tokens): # Empty entries means we have subsequent spaces # We want to hold onto them so we can reconstruct them later if len(token) == 0 and idx != 0: params[-1] += ' ' continue # if we hit a line continuation character, but # we're not inside quotes, ignore it and continue # on to the next token while setting a flag if token == '\\' and not inside_quotes: line_continuation = True continue # store the previous quoting state for checking later was_inside_quotes = inside_quotes quote_char = _get_quote_state(token, quote_char) inside_quotes = quote_char is not None # multiple conditions may append a token to the list of params, # so we keep track with this flag to make sure it only happens once # append means add to the end of the list, don't append means concatenate # it to the end of the last token appended = False # if we're inside quotes now, but weren't before, append the token # to the end of the list, since we'll tack on more to it later # otherwise, if we're inside any jinja2 block, inside quotes, or we were # inside quotes (but aren't now) concat this token to the last param if inside_quotes and not was_inside_quotes and not (print_depth or block_depth or comment_depth): params.append(token) appended = True elif print_depth or block_depth or comment_depth or inside_quotes or was_inside_quotes: if idx == 0 and was_inside_quotes: params[-1] = "%s%s" % (params[-1], token) elif len(tokens) > 1: spacer = '' if idx > 0: spacer = ' ' params[-1] = "%s%s%s" % (params[-1], spacer, token) else: params[-1] = "%s\n%s" % (params[-1], token) appended = True # if the number of paired block tags is not the same, the depth has changed, so we calculate that here # and may append the current token to the params (if we haven't previously done so) prev_print_depth = print_depth print_depth = _count_jinja2_blocks(token, print_depth, "{{", "}}") if print_depth != prev_print_depth and not appended: params.append(token) appended = True prev_block_depth = block_depth block_depth = _count_jinja2_blocks(token, block_depth, "{%", "%}") if block_depth != prev_block_depth and not appended: params.append(token) appended = True prev_comment_depth = comment_depth comment_depth = _count_jinja2_blocks(token, comment_depth, "{#", "#}") if comment_depth != prev_comment_depth and not appended: params.append(token) appended = True # finally, if we're at zero depth for all blocks and not inside quotes, and have not # yet appended anything to the list of params, we do so now if not (print_depth or block_depth or comment_depth) and not inside_quotes and not appended and token != '': params.append(token) # if this was the last token in the list, and we have more than # one item (meaning we split on newlines), add a newline back here # to preserve the original structure if len(items) > 1 and itemidx != len(items) - 1 and not line_continuation: params[-1] += '\n' # always clear the line continuation flag line_continuation = False # If we're done and things are not at zero depth or we're still inside quotes, # raise an error to indicate that the args were unbalanced if print_depth or block_depth or comment_depth or inside_quotes: raise AnsibleParserError(u"failed at splitting arguments, either an unbalanced jinja2 block or quotes: {0}".format(args)) return params