ansible-later/env_27/lib/python2.7/site-packages/ansible/parsing/metadata.py

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# (c) 2017, Toshio Kuratomi <tkuratomi@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 ast
import sys
import yaml
from ansible.module_utils._text import to_text
# There are currently defaults for all metadata fields so we can add it
# automatically if a file doesn't specify it
DEFAULT_METADATA = {'metadata_version': '1.1', 'status': ['preview'], 'supported_by': 'community'}
class ParseError(Exception):
"""Thrown when parsing a file fails"""
pass
def _seek_end_of_dict(module_data, start_line, start_col, next_node_line, next_node_col):
"""Look for the end of a dict in a set of lines
We know the starting position of the dict and we know the start of the
next code node but in between there may be multiple newlines and comments.
There may also be multiple python statements on the same line (separated
by semicolons)
Examples::
ANSIBLE_METADATA = {[..]}
DOCUMENTATION = [..]
ANSIBLE_METADATA = {[..]} # Optional comments with confusing junk => {}
# Optional comments {}
DOCUMENTATION = [..]
ANSIBLE_METADATA = {
[..]
}
# Optional comments {}
DOCUMENTATION = [..]
ANSIBLE_METADATA = {[..]} ; DOCUMENTATION = [..]
ANSIBLE_METADATA = {}EOF
"""
if next_node_line is None:
# The dict is the last statement in the file
snippet = module_data.splitlines()[start_line:]
next_node_col = 0
# Include the last line in the file
last_line_offset = 0
else:
# It's somewhere in the middle so we need to separate it from the rest
snippet = module_data.splitlines()[start_line:next_node_line]
# Do not include the last line because that's where the next node
# starts
last_line_offset = 1
if next_node_col == 0:
# This handles all variants where there are only comments and blank
# lines between the dict and the next code node
# Step backwards through all the lines in the snippet
for line_idx, line in tuple(reversed(tuple(enumerate(snippet))))[last_line_offset:]:
end_col = None
# Step backwards through all the characters in the line
for col_idx, char in reversed(tuple(enumerate(c for c in line))):
if not isinstance(char, bytes):
# Python3 wart. slicing a byte string yields integers
char = bytes((char,))
if char == b'}' and end_col is None:
# Potentially found the end of the dict
end_col = col_idx
elif char == b'#' and end_col is not None:
# The previous '}' was part of a comment. Keep trying
end_col = None
if end_col is not None:
# Found the end!
end_line = start_line + line_idx
break
else:
raise ParseError('Unable to find the end of dictionary')
else:
# Harder cases involving multiple statements on one line
# Good Ansible Module style doesn't do this so we're just going to
# treat this as an error for now:
raise ParseError('Multiple statements per line confuses the module metadata parser.')
return end_line, end_col
def _seek_end_of_string(module_data, start_line, start_col, next_node_line, next_node_col):
"""
This is much trickier than finding the end of a dict. A dict has only one
ending character, "}". Strings have four potential ending characters. We
have to parse the beginning of the string to determine what the ending
character will be.
Examples:
ANSIBLE_METADATA = '''[..]''' # Optional comment with confusing chars '''
# Optional comment with confusing chars '''
DOCUMENTATION = [..]
ANSIBLE_METADATA = '''
[..]
'''
DOCUMENTATIONS = [..]
ANSIBLE_METADATA = '''[..]''' ; DOCUMENTATION = [..]
SHORT_NAME = ANSIBLE_METADATA = '''[..]''' ; DOCUMENTATION = [..]
String marker variants:
* '[..]'
* "[..]"
* '''[..]'''
* \"\"\"[..]\"\"\"
Each of these come in u, r, and b variants:
* '[..]'
* u'[..]'
* b'[..]'
* r'[..]'
* ur'[..]'
* ru'[..]'
* br'[..]'
* b'[..]'
* rb'[..]'
"""
raise NotImplementedError('Finding end of string not yet implemented')
def extract_metadata(module_ast=None, module_data=None, offsets=False):
"""Extract the metadata from a module
:kwarg module_ast: ast representation of the module. At least one of this
or ``module_data`` must be given. If the code calling
:func:`extract_metadata` has already parsed the module_data into an ast,
giving the ast here will save reparsing it.
:kwarg module_data: Byte string containing a module's code. At least one
of this or ``module_ast`` must be given.
:kwarg offsets: If set to True, offests into the source code will be
returned. This requires that ``module_data`` be set.
:returns: a tuple of metadata (a dict), line the metadata starts on,
column the metadata starts on, line the metadata ends on, column the
metadata ends on, and the names the metadata is assigned to. One of
the names the metadata is assigned to will be ANSIBLE_METADATA. If no
metadata is found, the tuple will be (None, -1, -1, -1, -1, None).
If ``offsets`` is False then the tuple will consist of
(metadata, -1, -1, -1, -1, None).
:raises ansible.parsing.metadata.ParseError: if ``module_data`` does not parse
:raises SyntaxError: if ``module_data`` is needed but does not parse correctly
"""
if offsets and module_data is None:
raise TypeError('If offsets is True then module_data must also be given')
if module_ast is None and module_data is None:
raise TypeError('One of module_ast or module_data must be given')
metadata = None
start_line = -1
start_col = -1
end_line = -1
end_col = -1
targets = None
if module_ast is None:
module_ast = ast.parse(module_data)
for root_idx, child in reversed(list(enumerate(module_ast.body))):
if isinstance(child, ast.Assign):
for target in child.targets:
if isinstance(target, ast.Name) and target.id == 'ANSIBLE_METADATA':
metadata = ast.literal_eval(child.value)
if not offsets:
continue
try:
# Determine where the next node starts
next_node = module_ast.body[root_idx + 1]
next_lineno = next_node.lineno
next_col_offset = next_node.col_offset
except IndexError:
# Metadata is defined in the last node of the file
next_lineno = None
next_col_offset = None
if isinstance(child.value, ast.Dict):
# Determine where the current metadata ends
end_line, end_col = _seek_end_of_dict(module_data,
child.lineno - 1,
child.col_offset,
next_lineno,
next_col_offset)
elif isinstance(child.value, ast.Str):
metadata = yaml.safe_load(child.value.s)
end_line, end_col = _seek_end_of_string(module_data,
child.lineno - 1,
child.col_offset,
next_lineno,
next_col_offset)
elif isinstance(child.value, ast.Bytes):
metadata = yaml.safe_load(to_text(child.value.s, errors='surrogate_or_strict'))
end_line, end_col = _seek_end_of_string(module_data,
child.lineno - 1,
child.col_offset,
next_lineno,
next_col_offset)
else:
raise ParseError('Ansible plugin metadata must be a dict')
# Do these after the if-else so we don't pollute them in
# case this was a false positive
start_line = child.lineno - 1
start_col = child.col_offset
targets = [t.id for t in child.targets]
break
if metadata is not None:
# Once we've found the metadata we're done
break
return metadata, start_line, start_col, end_line, end_col, targets