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# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
import codecs
import json
import os
import re
from collections import deque
import six
import mozpack.path as mozpath
from mozbuild.preprocessor import Preprocessor
from mozpack.chrome.manifest import (
Manifest,
ManifestBinaryComponent,
ManifestChrome,
ManifestInterfaces,
is_manifest,
parse_manifest,
)
from mozpack.errors import errors
class Component(object):
"""
Class that represents a component in a package manifest.
"""
def __init__(self, name, destdir=""):
if name.find(" ") > 0:
errors.fatal('Malformed manifest: space in component name "%s"' % name)
self._name = name
self._destdir = destdir
def __repr__(self):
s = self.name
if self.destdir:
s += ' destdir="%s"' % self.destdir
return s
@property
def name(self):
return self._name
@property
def destdir(self):
return self._destdir
@staticmethod
def _triples(lst):
"""
Split [1, 2, 3, 4, 5, 6, 7] into [(1, 2, 3), (4, 5, 6)].
"""
return zip(*[iter(lst)] * 3)
KEY_VALUE_RE = re.compile(
r"""
\s* # optional whitespace.
([a-zA-Z0-9_]+) # key.
\s*=\s* # optional space around =.
"([^"]*)" # value without surrounding quotes.
(?:\s+|$)
""",
re.VERBOSE,
)
@staticmethod
def _split_options(string):
"""
Split 'key1="value1" key2="value2"' into
{'key1':'value1', 'key2':'value2'}.
Returned keys and values are all strings.
Throws ValueError if the input is malformed.
"""
options = {}
splits = Component.KEY_VALUE_RE.split(string)
if len(splits) % 3 != 1:
# This should never happen -- we expect to always split
# into ['', ('key', 'val', '')*].
raise ValueError("Bad input")
if splits[0]:
raise ValueError("Unrecognized input " + splits[0])
for key, val, no_match in Component._triples(splits[1:]):
if no_match:
raise ValueError("Unrecognized input " + no_match)
options[key] = val
return options
@staticmethod
def _split_component_and_options(string):
"""
Split 'name key1="value1" key2="value2"' into
('name', {'key1':'value1', 'key2':'value2'}).
Returned name, keys and values are all strings.
Raises ValueError if the input is malformed.
"""
splits = string.strip().split(None, 1)
if not splits:
raise ValueError("No component found")
component = splits[0].strip()
if not component:
raise ValueError("No component found")
if not re.match("[a-zA-Z0-9_-]+$", component):
raise ValueError("Bad component name " + component)
options = Component._split_options(splits[1]) if len(splits) > 1 else {}
return component, options
@staticmethod
def from_string(string):
"""
Create a component from a string.
"""
try:
name, options = Component._split_component_and_options(string)
except ValueError as e:
errors.fatal("Malformed manifest: %s" % e)
return
destdir = options.pop("destdir", "")
if options:
errors.fatal(
"Malformed manifest: options %s not recognized" % options.keys()
)
return Component(name, destdir=destdir)
class PackageManifestParser(object):
"""
Class for parsing of a package manifest, after preprocessing.
A package manifest is a list of file paths, with some syntaxic sugar:
[] designates a toplevel component. Example: [xpcom]
- in front of a file specifies it to be removed
* wildcard support
** expands to all files and zero or more directories
; file comment
The parser takes input from the preprocessor line by line, and pushes
parsed information to a sink object.
The add and remove methods of the sink object are called with the
current Component instance and a path.
"""
def __init__(self, sink):
"""
Initialize the package manifest parser with the given sink.
"""
self._component = Component("")
self._sink = sink
def handle_line(self, str):
"""
Handle a line of input and push the parsed information to the sink
object.
"""
# Remove comments.
str = str.strip()
if not str or str.startswith(";"):
return
if str.startswith("[") and str.endswith("]"):
self._component = Component.from_string(str[1:-1])
elif str.startswith("-"):
str = str[1:]
self._sink.remove(self._component, str)
elif "," in str:
errors.fatal("Incompatible syntax")
else:
self._sink.add(self._component, str)
class PreprocessorOutputWrapper(object):
"""
File-like helper to handle the preprocessor output and send it to a parser.
The parser's handle_line method is called in the relevant errors.context.
"""
def __init__(self, preprocessor, parser):
self._parser = parser
self._pp = preprocessor
def write(self, str):
with errors.context(self._pp.context["FILE"], self._pp.context["LINE"]):
self._parser.handle_line(str)
def preprocess(input, parser, defines={}):
"""
Preprocess the file-like input with the given defines, and send the
preprocessed output line by line to the given parser.
"""
pp = Preprocessor()
pp.context.update(defines)
pp.do_filter("substitution")
pp.out = PreprocessorOutputWrapper(pp, parser)
pp.do_include(input)
def preprocess_manifest(sink, manifest, defines={}):
"""
Preprocess the given file-like manifest with the given defines, and push
the parsed information to a sink. See PackageManifestParser documentation
for more details on the sink.
"""
preprocess(manifest, PackageManifestParser(sink), defines)
class CallDeque(deque):
"""
Queue of function calls to make.
"""
def append(self, function, *args):
deque.append(self, (errors.get_context(), function, args))
def execute(self):
while True:
try:
context, function, args = self.popleft()
except IndexError:
return
if context:
with errors.context(context[0], context[1]):
function(*args)
else:
function(*args)
class SimplePackager(object):
"""
Helper used to translate and buffer instructions from the
SimpleManifestSink to a formatter. Formatters expect some information to be
given first that the simple manifest contents can't guarantee before the
end of the input.
"""
def __init__(self, formatter):
self.formatter = formatter
# Queue for formatter.add_interfaces()/add_manifest() calls.
self._queue = CallDeque()
# Queue for formatter.add_manifest() calls for ManifestChrome.
self._chrome_queue = CallDeque()
# Queue for formatter.add() calls.
self._file_queue = CallDeque()
# All paths containing addons. (key is path, value is whether it
# should be packed or unpacked)
self._addons = {}
# All manifest paths imported.
self._manifests = set()
# All manifest paths included from some other manifest.
self._included_manifests = {}
self._closed = False
# Parsing RDF is complex, and would require an external library to do
# properly. Just go with some hackish but probably sufficient regexp
UNPACK_ADDON_RE = re.compile(
r"""(?:
<em:unpack>true</em:unpack>
|em:unpack=(?P<quote>["']?)true(?P=quote)
)""",
re.VERBOSE,
)
def add(self, path, file):
"""
Add the given BaseFile instance with the given path.
"""
assert not self._closed
if is_manifest(path):
self._add_manifest_file(path, file)
elif path.endswith(".xpt"):
self._queue.append(self.formatter.add_interfaces, path, file)
else:
self._file_queue.append(self.formatter.add, path, file)
if mozpath.basename(path) == "install.rdf":
addon = True
install_rdf = six.ensure_text(file.open().read())
if self.UNPACK_ADDON_RE.search(install_rdf):
addon = "unpacked"
self._add_addon(mozpath.dirname(path), addon)
elif mozpath.basename(path) == "manifest.json":
manifest = six.ensure_text(file.open().read())
try:
parsed = json.loads(manifest)
except ValueError:
pass
if isinstance(parsed, dict) and "manifest_version" in parsed:
self._add_addon(mozpath.dirname(path), True)
def _add_addon(self, path, addon_type):
"""
Add the given BaseFile to the collection of addons if a parent
directory is not already in the collection.
"""
if mozpath.basedir(path, self._addons) is not None:
return
for dir in self._addons:
if mozpath.basedir(dir, [path]) is not None:
del self._addons[dir]
break
self._addons[path] = addon_type
def _add_manifest_file(self, path, file):
"""
Add the given BaseFile with manifest file contents with the given path.
"""
self._manifests.add(path)
base = ""
if hasattr(file, "path"):
# Find the directory the given path is relative to.
b = mozpath.normsep(file.path)
if b.endswith("/" + path) or b == path:
base = os.path.normpath(b[: -len(path)])
for e in parse_manifest(base, path, codecs.getreader("utf-8")(file.open())):
# ManifestResources need to be given after ManifestChrome, so just
# put all ManifestChrome in a separate queue to make them first.
if isinstance(e, ManifestChrome):
# e.move(e.base) just returns a clone of the entry.
self._chrome_queue.append(self.formatter.add_manifest, e.move(e.base))
elif not isinstance(e, (Manifest, ManifestInterfaces)):
self._queue.append(self.formatter.add_manifest, e.move(e.base))
# If a binary component is added to an addon, prevent the addon
# from being packed.
if isinstance(e, ManifestBinaryComponent):
addon = mozpath.basedir(e.base, self._addons)
if addon:
self._addons[addon] = "unpacked"
if isinstance(e, Manifest):
if e.flags:
errors.fatal("Flags are not supported on " + '"manifest" entries')
self._included_manifests[e.path] = path
def get_bases(self, addons=True):
"""
Return all paths under which root manifests have been found. Root
manifests are manifests that are included in no other manifest.
`addons` indicates whether to include addon bases as well.
"""
all_bases = set(
mozpath.dirname(m) for m in self._manifests - set(self._included_manifests)
)
if not addons:
all_bases -= set(self._addons)
else:
# If for some reason some detected addon doesn't have a
# non-included manifest.
all_bases |= set(self._addons)
return all_bases
def close(self):
"""
Push all instructions to the formatter.
"""
self._closed = True
bases = self.get_bases()
broken_bases = sorted(
m
for m, includer in six.iteritems(self._included_manifests)
if mozpath.basedir(m, bases) != mozpath.basedir(includer, bases)
)
for m in broken_bases:
errors.fatal(
'"%s" is included from "%s", which is outside "%s"'
% (m, self._included_manifests[m], mozpath.basedir(m, bases))
)
for base in sorted(bases):
self.formatter.add_base(base, self._addons.get(base, False))
self._chrome_queue.execute()
self._queue.execute()
self._file_queue.execute()
class SimpleManifestSink(object):
"""
Parser sink for "simple" package manifests. Simple package manifests use
the format described in the PackageManifestParser documentation, but don't
support file removals, and require manifests, interfaces and chrome data to
be explicitely listed.
Entries starting with bin/ are searched under bin/ in the FileFinder, but
are packaged without the bin/ prefix.
"""
def __init__(self, finder, formatter):
"""
Initialize the SimpleManifestSink. The given FileFinder is used to
get files matching the patterns given in the manifest. The given
formatter does the packaging job.
"""
self._finder = finder
self.packager = SimplePackager(formatter)
self._closed = False
self._manifests = set()
@staticmethod
def normalize_path(path):
"""
Remove any bin/ prefix.
"""
if mozpath.basedir(path, ["bin"]) == "bin":
return mozpath.relpath(path, "bin")
return path
def add(self, component, pattern):
"""
Add files with the given pattern in the given component.
"""
assert not self._closed
added = False
for p, f in self._finder.find(pattern):
added = True
if is_manifest(p):
self._manifests.add(p)
dest = mozpath.join(component.destdir, SimpleManifestSink.normalize_path(p))
self.packager.add(dest, f)
if not added:
errors.error("Missing file(s): %s" % pattern)
def remove(self, component, pattern):
"""
Remove files with the given pattern in the given component.
"""
assert not self._closed
errors.fatal("Removal is unsupported")
def close(self, auto_root_manifest=True):
"""
Add possibly missing bits and push all instructions to the formatter.
"""
if auto_root_manifest:
# Simple package manifests don't contain the root manifests, so
# find and add them.
paths = [mozpath.dirname(m) for m in self._manifests]
path = mozpath.dirname(mozpath.commonprefix(paths))
for p, f in self._finder.find(mozpath.join(path, "chrome.manifest")):
if p not in self._manifests:
self.packager.add(SimpleManifestSink.normalize_path(p), f)
self.packager.close()