diff --git a/lib/ansible/modules/system/authorized_key.py b/lib/ansible/modules/system/authorized_key.py index fb82579b864..084ce95f186 100644 --- a/lib/ansible/modules/system/authorized_key.py +++ b/lib/ansible/modules/system/authorized_key.py @@ -149,6 +149,7 @@ import os.path import tempfile import re import shlex +from operator import itemgetter from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.pycompat24 import get_exception @@ -303,10 +304,13 @@ def parseoptions(module, options): return options_dict -def parsekey(module, raw_key): +def parsekey(module, raw_key, rank=None): ''' parses a key, which may or may not contain a list of ssh-key options at the beginning + + rank indicates the keys original ordering, so that + it can be written out in the same order. ''' VALID_SSH2_KEY_TYPES = [ @@ -333,6 +337,10 @@ def parsekey(module, raw_key): lex.whitespace_split = True key_parts = list(lex) + if key_parts and key_parts[0] == '#': + # comment line, invalid line, etc. + return (raw_key, 'skipped', None, None, rank) + for i in range(0, len(key_parts)): if key_parts[i] in VALID_SSH2_KEY_TYPES: type_index = i @@ -355,7 +363,7 @@ def parsekey(module, raw_key): if len(key_parts) > (type_index + 1): comment = " ".join(key_parts[(type_index + 2):]) - return (key, key_type, options, comment) + return (key, key_type, options, comment, rank) def readkeys(module, filename): @@ -364,15 +372,15 @@ def readkeys(module, filename): keys = {} f = open(filename) - for line in f.readlines(): - key_data = parsekey(module, line) + for rank_index, line in enumerate(f.readlines()): + key_data = parsekey(module, line, rank=rank_index) if key_data: # use key as identifier keys[key_data[0]] = key_data else: - # for an invalid line, just append the line - # to the array so it will be re-output later - keys[line] = line + # for an invalid line, just set the line + # dict key to the line so it will be re-output later + keys[line] = (line, 'skipped', None, None, rank_index) f.close() return keys @@ -380,10 +388,17 @@ def writekeys(module, filename, keys): fd, tmp_path = tempfile.mkstemp('', 'tmp', os.path.dirname(filename)) f = open(tmp_path,"w") + + # FIXME: only the f.writelines() needs to be in try clause try: - for index, key in keys.items(): + new_keys = keys.values() + # order the new_keys by their original ordering, via the rank item in the tuple + ordered_new_keys = sorted(new_keys, key=itemgetter(4)) + + for key in ordered_new_keys: try: - (keyhash,type,options,comment) = key + (keyhash, key_type, options, comment, rank) = key + option_str = "" if options: option_strings = [] @@ -394,7 +409,15 @@ def writekeys(module, filename, keys): option_strings.append("%s=%s" % (option_key, value)) option_str = ",".join(option_strings) option_str += " " - key_line = "%s%s %s %s\n" % (option_str, type, keyhash, comment) + + # comment line or invalid line, just leave it + if not key_type: + key_line = key + + if key_type == 'skipped': + key_line = key[0] + else: + key_line = "%s%s %s %s\n" % (option_str, key_type, keyhash, comment) except: key_line = key f.writelines(key_line) @@ -430,43 +453,47 @@ def enforce_state(module, params): module.fail_json(msg=error_msg % key) # extract individual keys into an array, skipping blank lines and comments - key = [s for s in key.splitlines() if s and not s.startswith('#')] + new_keys = [s for s in key.splitlines() if s and not s.startswith('#')] # check current state -- just get the filename, don't create file do_write = False params["keyfile"] = keyfile(module, user, do_write, path, manage_dir) existing_keys = readkeys(module, params["keyfile"]) - # Add a place holder for keys that should exist in the state=present and # exclusive=true case keys_to_exist = [] + # we will order any non exclusive new keys higher than all the existing keys, + # resulting in the new keys being written to the key file after existing keys, but + # in the order of new_keys + max_rank_of_existing_keys = len(existing_keys) + # Check our new keys, if any of them exist we'll continue. - for new_key in key: - parsed_new_key = parsekey(module, new_key) + for rank_index, new_key in enumerate(new_keys): + parsed_new_key = parsekey(module, new_key, rank=rank_index) if not parsed_new_key: module.fail_json(msg="invalid key specified: %s" % new_key) if key_options is not None: parsed_options = parseoptions(module, key_options) - parsed_new_key = (parsed_new_key[0], parsed_new_key[1], parsed_options, parsed_new_key[3]) + # rank here is the rank in the provided new keys, which may be unrelated to rank in existing_keys + parsed_new_key = (parsed_new_key[0], parsed_new_key[1], parsed_options, parsed_new_key[3], parsed_new_key[4]) matched = False non_matching_keys = [] if parsed_new_key[0] in existing_keys: - # Then we check if everything matches, including + # Then we check if everything (except the rank at index 4) matches, including # the key type and options. If not, we append this # existing key to the non-matching list # We only want it to match everything when the state # is present - if parsed_new_key != existing_keys[parsed_new_key[0]] and state == "present": + if parsed_new_key[:4] != existing_keys[parsed_new_key[0]][:4] and state == "present": non_matching_keys.append(existing_keys[parsed_new_key[0]]) else: matched = True - # handle idempotent state=present if state=="present": keys_to_exist.append(parsed_new_key[0]) @@ -476,8 +503,12 @@ def enforce_state(module, params): del existing_keys[non_matching_key[0]] do_write = True + # new key that didn't exist before. Where should it go in the ordering? if not matched: - existing_keys[parsed_new_key[0]] = parsed_new_key + # We want the new key to be after existing keys if not exclusive (rank > max_rank_of_existing_keys) + total_rank = max_rank_of_existing_keys + parsed_new_key[4] + # replace existing key tuple with new parsed key with its total rank + existing_keys[parsed_new_key[0]] = (parsed_new_key[0], parsed_new_key[1], parsed_new_key[2], parsed_new_key[3], total_rank) do_write = True elif state=="absent": @@ -487,6 +518,7 @@ def enforce_state(module, params): do_write = True # remove all other keys to honor exclusive + # for 'exclusive', make sure keys are written in the order the new keys were if state == "present" and exclusive: to_remove = frozenset(existing_keys).difference(keys_to_exist) for key in to_remove: