sdk/platform-tools/systrace/catapult/devil/devil/android/apk_helper.py - android_tools - Git at Google

 # Copyright (c) 2013 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Module containing utilities for apk packages."""

 import re

 from devil import base_error
 from devil.android.sdk import aapt


 _MANIFEST_ATTRIBUTE_RE = re.compile(
     r'\s*A: ([^\(\)= ]*)(?:\([^\(\)= ]*\))?='
     r'(?:"(.*)" \(Raw: .*\)|\(type.*?\)(.*))$')
 _MANIFEST_ELEMENT_RE = re.compile(r'\s*(?:E|N): (\S*) .*$')


 def GetPackageName(apk_path):
   """Returns the package name of the apk."""
   return ApkHelper(apk_path).GetPackageName()


 # TODO(jbudorick): Deprecate and remove this function once callers have been
 # converted to ApkHelper.GetInstrumentationName
 def GetInstrumentationName(apk_path):
   """Returns the name of the Instrumentation in the apk."""
   return ApkHelper(apk_path).GetInstrumentationName()


 def ToHelper(path_or_helper):
   """Creates an ApkHelper unless one is already given."""
   if isinstance(path_or_helper, basestring):
     return ApkHelper(path_or_helper)
   return path_or_helper


 # To parse the manifest, the function uses a node stack where at each level of
 # the stack it keeps the currently in focus node at that level (of indentation
 # in the xmltree output, ie. depth in the tree). The height of the stack is
 # determinded by line indentation. When indentation is increased so is the stack
 # (by pushing a new empty node on to the stack). When indentation is decreased
 # the top of the stack is popped (sometimes multiple times, until indentation
 # matches the height of the stack). Each line parsed (either an attribute or an
 # element) is added to the node at the top of the stack (after the stack has
 # been popped/pushed due to indentation).
 def _ParseManifestFromApk(apk_path):
   aapt_output = aapt.Dump('xmltree', apk_path, 'AndroidManifest.xml')

   parsed_manifest = {}
   node_stack = [parsed_manifest]
   indent = '  '

   if aapt_output[0].startswith('N'):
     # if the first line is a namespace then the root manifest is indented, and
     # we need to add a dummy namespace node, then skip the first line (we dont
     # care about namespaces).
     node_stack.insert(0, {})
     output_to_parse = aapt_output[1:]
   else:
     output_to_parse = aapt_output

   for line in output_to_parse:
     if len(line) == 0:
       continue

     # If namespaces are stripped, aapt still outputs the full url to the
     # namespace and appends it to the attribute names.
     line = line.replace('http://schemas.android.com/apk/res/android:', 'android:')

     indent_depth = 0
     while line[(len(indent) * indent_depth):].startswith(indent):
       indent_depth += 1

     # Pop the stack until the height of the stack is the same is the depth of
     # the current line within the tree.
     node_stack = node_stack[:indent_depth + 1]
     node = node_stack[-1]

     # Element nodes are a list of python dicts while attributes are just a dict.
     # This is because multiple elements, at the same depth of tree and the same
     # name, are all added to the same list keyed under the element name.
     m = _MANIFEST_ELEMENT_RE.match(line[len(indent) * indent_depth:])
     if m:
       manifest_key = m.group(1)
       if manifest_key in node:
         node[manifest_key] += [{}]
       else:
         node[manifest_key] = [{}]
       node_stack += [node[manifest_key][-1]]
       continue

     m = _MANIFEST_ATTRIBUTE_RE.match(line[len(indent) * indent_depth:])
     if m:
       manifest_key = m.group(1)
       if manifest_key in node:
         raise base_error.BaseError(
             "A single attribute should have one key and one value")
       else:
         node[manifest_key] = m.group(2) or m.group(3)
       continue

   return parsed_manifest


 def _ParseNumericKey(obj, key, default=0):
   val = obj.get(key)
   if val is None:
     return default
   return int(val, 0)


 class _ExportedActivity(object):
   def __init__(self, name):
     self.name = name
     self.actions = set()
     self.categories = set()
     self.schemes = set()


 def _IterateExportedActivities(manifest_info):
   app_node = manifest_info['manifest'][0]['application'][0]
   activities = app_node.get('activity', []) + app_node.get('activity-alias', [])
   for activity_node in activities:
     # Presence of intent filters make an activity exported by default.
     has_intent_filter = 'intent-filter' in activity_node
     if not _ParseNumericKey(
         activity_node, 'android:exported', default=has_intent_filter):
       continue

     activity = _ExportedActivity(activity_node.get('android:name'))
     # Merge all intent-filters into a single set because there is not
     # currently a need to keep them separate.
     for intent_filter in activity_node.get('intent-filter', []):
       for action in intent_filter.get('action', []):
         activity.actions.add(action.get('android:name'))
       for category in intent_filter.get('category', []):
         activity.categories.add(category.get('android:name'))
       for data in intent_filter.get('data', []):
         activity.schemes.add(data.get('android:scheme'))
     yield activity


 class ApkHelper(object):

   def __init__(self, path):
     self._apk_path = path
     self._manifest = None

   @property
   def path(self):
     return self._apk_path

   def GetActivityName(self):
     """Returns the name of the first launcher Activity in the apk."""
     manifest_info = self._GetManifest()
     for activity in _IterateExportedActivities(manifest_info):
       if ('android.intent.action.MAIN' in activity.actions and
           'android.intent.category.LAUNCHER' in activity.categories):
         return self._ResolveName(activity.name)
     return None

   def GetViewActivityName(self):
     """Returns name of the first action=View Activity that can handle http."""
     manifest_info = self._GetManifest()
     for activity in _IterateExportedActivities(manifest_info):
       if ('android.intent.action.VIEW' in activity.actions and
           'http' in activity.schemes):
         return self._ResolveName(activity.name)
     return None

   def GetInstrumentationName(
       self, default='android.test.InstrumentationTestRunner'):
     """Returns the name of the Instrumentation in the apk."""
     all_instrumentations = self.GetAllInstrumentations(default=default)
     if len(all_instrumentations) != 1:
       raise base_error.BaseError(
           'There is more than one instrumentation. Expected one.')
     else:
       return self._ResolveName(all_instrumentations[0]['android:name'])

   def GetAllInstrumentations(
       self, default='android.test.InstrumentationTestRunner'):
     """Returns a list of all Instrumentations in the apk."""
     try:
       return self._GetManifest()['manifest'][0]['instrumentation']
     except KeyError:
       return [{'android:name': default}]

   def GetPackageName(self):
     """Returns the package name of the apk."""
     manifest_info = self._GetManifest()
     try:
       return manifest_info['manifest'][0]['package']
     except KeyError:
       raise Exception('Failed to determine package name of %s' % self._apk_path)

   def GetPermissions(self):
     manifest_info = self._GetManifest()
     try:
       return [p['android:name'] for
               p in manifest_info['manifest'][0]['uses-permission']]
     except KeyError:
       return []

   def GetSplitName(self):
     """Returns the name of the split of the apk."""
     manifest_info = self._GetManifest()
     try:
       return manifest_info['manifest'][0]['split']
     except KeyError:
       return None

   def HasIsolatedProcesses(self):
     """Returns whether any services exist that use isolatedProcess=true."""
     manifest_info = self._GetManifest()
     try:
       application = manifest_info['manifest'][0]['application'][0]
       services = application['service']
       return any(
           _ParseNumericKey(s, 'android:isolatedProcess') for s in services)
     except KeyError:
       return False

   def GetAllMetadata(self):
     """Returns a list meta-data tags as (name, value) tuples."""
     manifest_info = self._GetManifest()
     try:
       application = manifest_info['manifest'][0]['application'][0]
       metadata = application['meta-data']
       return [(x.get('android:name'), x.get('android:value')) for x in metadata]
     except KeyError:
       return []

   def _GetManifest(self):
     if not self._manifest:
       self._manifest = _ParseManifestFromApk(self._apk_path)
     return self._manifest

   def _ResolveName(self, name):
     name = name.lstrip('.')
     if '.' not in name:
       return '%s.%s' % (self.GetPackageName(), name)
     return name
	# Copyright (c) 2013 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Module containing utilities for apk packages."""

	import re

	from devil import base_error
	from devil.android.sdk import aapt


	_MANIFEST_ATTRIBUTE_RE = re.compile(
	r'\sA: ([^\(\)= ])(?:\([^\(\)= ]*\))?='
	r'(?:"(.)" \(Raw: .\)\|\(type.?\)(.))$')
	_MANIFEST_ELEMENT_RE = re.compile(r'\s(?:E\|N): (\S) .*$')


	def GetPackageName(apk_path):
	"""Returns the package name of the apk."""
	return ApkHelper(apk_path).GetPackageName()


	# TODO(jbudorick): Deprecate and remove this function once callers have been
	# converted to ApkHelper.GetInstrumentationName
	def GetInstrumentationName(apk_path):
	"""Returns the name of the Instrumentation in the apk."""
	return ApkHelper(apk_path).GetInstrumentationName()


	def ToHelper(path_or_helper):
	"""Creates an ApkHelper unless one is already given."""
	if isinstance(path_or_helper, basestring):
	return ApkHelper(path_or_helper)
	return path_or_helper


	# To parse the manifest, the function uses a node stack where at each level of
	# the stack it keeps the currently in focus node at that level (of indentation
	# in the xmltree output, ie. depth in the tree). The height of the stack is
	# determinded by line indentation. When indentation is increased so is the stack
	# (by pushing a new empty node on to the stack). When indentation is decreased
	# the top of the stack is popped (sometimes multiple times, until indentation
	# matches the height of the stack). Each line parsed (either an attribute or an
	# element) is added to the node at the top of the stack (after the stack has
	# been popped/pushed due to indentation).
	def _ParseManifestFromApk(apk_path):
	aapt_output = aapt.Dump('xmltree', apk_path, 'AndroidManifest.xml')

	parsed_manifest = {}
	node_stack = [parsed_manifest]
	indent = ' '

	if aapt_output[0].startswith('N'):
	# if the first line is a namespace then the root manifest is indented, and
	# we need to add a dummy namespace node, then skip the first line (we dont
	# care about namespaces).
	node_stack.insert(0, {})
	output_to_parse = aapt_output[1:]
	else:
	output_to_parse = aapt_output

	for line in output_to_parse:
	if len(line) == 0:
	continue

	# If namespaces are stripped, aapt still outputs the full url to the
	# namespace and appends it to the attribute names.
	line = line.replace('http://schemas.android.com/apk/res/android:', 'android:')

	indent_depth = 0
	while line[(len(indent) * indent_depth):].startswith(indent):
	indent_depth += 1

	# Pop the stack until the height of the stack is the same is the depth of
	# the current line within the tree.
	node_stack = node_stack[:indent_depth + 1]
	node = node_stack[-1]

	# Element nodes are a list of python dicts while attributes are just a dict.
	# This is because multiple elements, at the same depth of tree and the same
	# name, are all added to the same list keyed under the element name.
	m = _MANIFEST_ELEMENT_RE.match(line[len(indent) * indent_depth:])
	if m:
	manifest_key = m.group(1)
	if manifest_key in node:
	node[manifest_key] += [{}]
	else:
	node[manifest_key] = [{}]
	node_stack += [node[manifest_key][-1]]
	continue

	m = _MANIFEST_ATTRIBUTE_RE.match(line[len(indent) * indent_depth:])
	if m:
	manifest_key = m.group(1)
	if manifest_key in node:
	raise base_error.BaseError(
	"A single attribute should have one key and one value")
	else:
	node[manifest_key] = m.group(2) or m.group(3)
	continue

	return parsed_manifest


	def _ParseNumericKey(obj, key, default=0):
	val = obj.get(key)
	if val is None:
	return default
	return int(val, 0)


	class _ExportedActivity(object):
	def __init__(self, name):
	self.name = name
	self.actions = set()
	self.categories = set()
	self.schemes = set()


	def _IterateExportedActivities(manifest_info):
	app_node = manifest_info['manifest'][0]['application'][0]
	activities = app_node.get('activity', []) + app_node.get('activity-alias', [])
	for activity_node in activities:
	# Presence of intent filters make an activity exported by default.
	has_intent_filter = 'intent-filter' in activity_node
	if not _ParseNumericKey(
	activity_node, 'android:exported', default=has_intent_filter):
	continue

	activity = _ExportedActivity(activity_node.get('android:name'))
	# Merge all intent-filters into a single set because there is not
	# currently a need to keep them separate.
	for intent_filter in activity_node.get('intent-filter', []):
	for action in intent_filter.get('action', []):
	activity.actions.add(action.get('android:name'))
	for category in intent_filter.get('category', []):
	activity.categories.add(category.get('android:name'))
	for data in intent_filter.get('data', []):
	activity.schemes.add(data.get('android:scheme'))
	yield activity


	class ApkHelper(object):

	def __init__(self, path):
	self._apk_path = path
	self._manifest = None

	@property
	def path(self):
	return self._apk_path

	def GetActivityName(self):
	"""Returns the name of the first launcher Activity in the apk."""
	manifest_info = self._GetManifest()
	for activity in _IterateExportedActivities(manifest_info):
	if ('android.intent.action.MAIN' in activity.actions and
	'android.intent.category.LAUNCHER' in activity.categories):
	return self._ResolveName(activity.name)
	return None

	def GetViewActivityName(self):
	"""Returns name of the first action=View Activity that can handle http."""
	manifest_info = self._GetManifest()
	for activity in _IterateExportedActivities(manifest_info):
	if ('android.intent.action.VIEW' in activity.actions and
	'http' in activity.schemes):
	return self._ResolveName(activity.name)
	return None

	def GetInstrumentationName(
	self, default='android.test.InstrumentationTestRunner'):
	"""Returns the name of the Instrumentation in the apk."""
	all_instrumentations = self.GetAllInstrumentations(default=default)
	if len(all_instrumentations) != 1:
	raise base_error.BaseError(
	'There is more than one instrumentation. Expected one.')
	else:
	return self._ResolveName(all_instrumentations[0]['android:name'])

	def GetAllInstrumentations(
	self, default='android.test.InstrumentationTestRunner'):
	"""Returns a list of all Instrumentations in the apk."""
	try:
	return self._GetManifest()['manifest'][0]['instrumentation']
	except KeyError:
	return [{'android:name': default}]

	def GetPackageName(self):
	"""Returns the package name of the apk."""
	manifest_info = self._GetManifest()
	try:
	return manifest_info['manifest'][0]['package']
	except KeyError:
	raise Exception('Failed to determine package name of %s' % self._apk_path)

	def GetPermissions(self):
	manifest_info = self._GetManifest()
	try:
	return [p['android:name'] for
	p in manifest_info['manifest'][0]['uses-permission']]
	except KeyError:
	return []

	def GetSplitName(self):
	"""Returns the name of the split of the apk."""
	manifest_info = self._GetManifest()
	try:
	return manifest_info['manifest'][0]['split']
	except KeyError:
	return None

	def HasIsolatedProcesses(self):
	"""Returns whether any services exist that use isolatedProcess=true."""
	manifest_info = self._GetManifest()
	try:
	application = manifest_info['manifest'][0]['application'][0]
	services = application['service']
	return any(
	_ParseNumericKey(s, 'android:isolatedProcess') for s in services)
	except KeyError:
	return False

	def GetAllMetadata(self):
	"""Returns a list meta-data tags as (name, value) tuples."""
	manifest_info = self._GetManifest()
	try:
	application = manifest_info['manifest'][0]['application'][0]
	metadata = application['meta-data']
	return [(x.get('android:name'), x.get('android:value')) for x in metadata]
	except KeyError:
	return []

	def _GetManifest(self):
	if not self._manifest:
	self._manifest = _ParseManifestFromApk(self._apk_path)
	return self._manifest

	def _ResolveName(self, name):
	name = name.lstrip('.')
	if '.' not in name:
	return '%s.%s' % (self.GetPackageName(), name)
	return name