pym/_emerge/FakeVartree.py - mirrors/cros/chromiumos/third_party/portage_tool - Git at Google

 # Copyright 1999-2011 Gentoo Foundation
 # Distributed under the terms of the GNU General Public License v2

 import sys

 import portage
 from portage import os
 from _emerge.Package import Package
 from _emerge.PackageVirtualDbapi import PackageVirtualDbapi
 from portage.const import VDB_PATH
 from portage.dbapi.vartree import vartree
 from portage.repository.config import _gen_valid_repo
 from portage.update import grab_updates, parse_updates, update_dbentries

 if sys.hexversion >= 0x3000000:
 	long = int

 class FakeVardbapi(PackageVirtualDbapi):
 	"""
 	Implements the vardbapi.getpath() method which is used in error handling
 	code for the Package class and vartree.get_provide().
 	"""
 	def getpath(self, cpv, filename=None):
 		path = os.path.join(self.settings['EROOT'], VDB_PATH, cpv)
 		if filename is not None:
 			path =os.path.join(path, filename)
 		return path

 class FakeVartree(vartree):
 	"""This is implements an in-memory copy of a vartree instance that provides
 	all the interfaces required for use by the depgraph.  The vardb is locked
 	during the constructor call just long enough to read a copy of the
 	installed package information.  This allows the depgraph to do it's
 	dependency calculations without holding a lock on the vardb.  It also
 	allows things like vardb global updates to be done in memory so that the
 	user doesn't necessarily need write access to the vardb in cases where
 	global updates are necessary (updates are performed when necessary if there
 	is not a matching ebuild in the tree). Instances of this class are not
 	populated until the sync() method is called."""
 	def __init__(self, root_config, pkg_cache=None, pkg_root_config=None):
 		self._root_config = root_config
 		if pkg_root_config is None:
 			pkg_root_config = self._root_config
 		self._pkg_root_config = pkg_root_config
 		if pkg_cache is None:
 			pkg_cache = {}
 		real_vartree = root_config.trees["vartree"]
 		self._real_vardb = real_vartree.dbapi
 		portdb = root_config.trees["porttree"].dbapi
 		self.root = real_vartree.root
 		self.settings = real_vartree.settings
 		mykeys = list(real_vartree.dbapi._aux_cache_keys)
 		if "_mtime_" not in mykeys:
 			mykeys.append("_mtime_")
 		self._db_keys = mykeys
 		self._pkg_cache = pkg_cache
 		self.dbapi = FakeVardbapi(real_vartree.settings)

 		# Initialize variables needed for lazy cache pulls of the live ebuild
 		# metadata.  This ensures that the vardb lock is released ASAP, without
 		# being delayed in case cache generation is triggered.
 		self._aux_get = self.dbapi.aux_get
 		self.dbapi.aux_get = self._aux_get_wrapper
 		self._match = self.dbapi.match
 		self.dbapi.match = self._match_wrapper
 		self._aux_get_history = set()
 		self._portdb_keys = ["EAPI", "DEPEND", "RDEPEND", "PDEPEND"]
 		self._portdb = portdb
 		self._global_updates = None

 	def _match_wrapper(self, cpv, use_cache=1):
 		"""
 		Make sure the metadata in Package instances gets updated for any
 		cpv that is returned from a match() call, since the metadata can
 		be accessed directly from the Package instance instead of via
 		aux_get().
 		"""
 		matches = self._match(cpv, use_cache=use_cache)
 		for cpv in matches:
 			if cpv in self._aux_get_history:
 				continue
 			self._aux_get_wrapper(cpv, [])
 		return matches

 	def _aux_get_wrapper(self, pkg, wants, myrepo=None):
 		if pkg in self._aux_get_history:
 			return self._aux_get(pkg, wants)
 		self._aux_get_history.add(pkg)
 		# We need to check the EAPI, and this also raises
 		# a KeyError to the caller if appropriate.
 		installed_eapi, repo = self._aux_get(pkg, ["EAPI", "repository"])
 		try:
 			# Use the live ebuild metadata if possible.
 			repo = _gen_valid_repo(repo)
 			live_metadata = dict(zip(self._portdb_keys,
 				self._portdb.aux_get(pkg, self._portdb_keys, myrepo=repo)))
 			if not portage.eapi_is_supported(live_metadata["EAPI"]) or \
 				installed_eapi != live_metadata["EAPI"]:
 				raise KeyError(pkg)
 			self.dbapi.aux_update(pkg, live_metadata)
 		except (KeyError, portage.exception.PortageException):
 			if self._global_updates is None:
 				self._global_updates = \
 					grab_global_updates(self._portdb)
 			perform_global_updates(
 				pkg, self.dbapi, self._global_updates)
 		return self._aux_get(pkg, wants)

 	def cpv_discard(self, pkg):
 		"""
 		Discard a package from the fake vardb if it exists.
 		"""
 		old_pkg = self.dbapi.get(pkg)
 		if old_pkg is not None:
 			self.dbapi.cpv_remove(old_pkg)
 			self._pkg_cache.pop(old_pkg, None)
 			self._aux_get_history.discard(old_pkg.cpv)

 	def sync(self, acquire_lock=1):
 		"""
 		Call this method to synchronize state with the real vardb
 		after one or more packages may have been installed or
 		uninstalled.
 		"""
 		locked = False
 		try:
 			if acquire_lock and os.access(self._real_vardb._dbroot, os.W_OK):
 				self._real_vardb.lock()
 				locked = True
 			self._sync()
 		finally:
 			if locked:
 				self._real_vardb.unlock()

 		# Populate the old-style virtuals using the cached values.
 		# Skip the aux_get wrapper here, to avoid unwanted
 		# cache generation.
 		try:
 			self.dbapi.aux_get = self._aux_get
 			self.settings._populate_treeVirtuals_if_needed(self)
 		finally:
 			self.dbapi.aux_get = self._aux_get_wrapper

 	def _sync(self):

 		real_vardb = self._root_config.trees["vartree"].dbapi
 		current_cpv_set = frozenset(real_vardb.cpv_all())
 		pkg_vardb = self.dbapi
 		pkg_cache = self._pkg_cache
 		aux_get_history = self._aux_get_history

 		# Remove any packages that have been uninstalled.
 		for pkg in list(pkg_vardb):
 			if pkg.cpv not in current_cpv_set:
 				self.cpv_discard(pkg)

 		# Validate counters and timestamps.
 		slot_counters = {}
 		root_config = self._pkg_root_config
 		validation_keys = ["COUNTER", "_mtime_"]
 		for cpv in current_cpv_set:

 			pkg_hash_key = Package._gen_hash_key(cpv=cpv,
 				installed=True, root_config=root_config,
 				type_name="installed")
 			pkg = pkg_vardb.get(pkg_hash_key)
 			if pkg is not None:
 				counter, mtime = real_vardb.aux_get(cpv, validation_keys)
 				try:
 					counter = long(counter)
 				except ValueError:
 					counter = 0

 				if counter != pkg.counter or \
 					mtime != pkg.mtime:
 					self.cpv_discard(pkg)
 					pkg = None

 			if pkg is None:
 				pkg = self._pkg(cpv)

 			other_counter = slot_counters.get(pkg.slot_atom)
 			if other_counter is not None:
 				if other_counter > pkg.counter:
 					continue

 			slot_counters[pkg.slot_atom] = pkg.counter
 			pkg_vardb.cpv_inject(pkg)

 		real_vardb.flush_cache()

 	def _pkg(self, cpv):
 		"""
 		The RootConfig instance that will become the Package.root_config
 		attribute can be overridden by the FakeVartree pkg_root_config
 		constructory argument, since we want to be consistent with the
 		depgraph._pkg() method which uses a specially optimized
 		RootConfig that has a FakeVartree instead of a real vartree.
 		"""
 		pkg = Package(cpv=cpv, built=True, installed=True,
 			metadata=zip(self._db_keys,
 			self._real_vardb.aux_get(cpv, self._db_keys)),
 			root_config=self._pkg_root_config,
 			type_name="installed")

 		try:
 			mycounter = long(pkg.metadata["COUNTER"])
 		except ValueError:
 			mycounter = 0
 			pkg.metadata["COUNTER"] = str(mycounter)

 		self._pkg_cache[pkg] = pkg
 		return pkg

 def grab_global_updates(portdb):
 	retupdates = {}

 	for repo_name in portdb.getRepositories():
 		repo = portdb.getRepositoryPath(repo_name)
 		updpath = os.path.join(repo, "profiles", "updates")
 		if not os.path.isdir(updpath):
 			continue

 		try:
 			rawupdates = grab_updates(updpath)
 		except portage.exception.DirectoryNotFound:
 			rawupdates = []
 		upd_commands = []
 		for mykey, mystat, mycontent in rawupdates:
 			commands, errors = parse_updates(mycontent)
 			upd_commands.extend(commands)
 		retupdates[repo_name] = upd_commands

 	master_repo = portdb.getRepositoryName(portdb.porttree_root)
 	if master_repo in retupdates:
 		retupdates['DEFAULT'] = retupdates[master_repo]

 	return retupdates

 def perform_global_updates(mycpv, mydb, myupdates):
 	aux_keys = ["DEPEND", "RDEPEND", "PDEPEND", 'repository']
 	aux_dict = dict(zip(aux_keys, mydb.aux_get(mycpv, aux_keys)))
 	repository = aux_dict.pop('repository')
 	try:
 		mycommands = myupdates[repository]
 	except KeyError:
 		try:
 			mycommands = myupdates['DEFAULT']
 		except KeyError:
 			return

 	if not mycommands:
 		return

 	updates = update_dbentries(mycommands, aux_dict)
 	if updates:
 		mydb.aux_update(mycpv, updates)
	# Copyright 1999-2011 Gentoo Foundation
	# Distributed under the terms of the GNU General Public License v2

	import sys

	import portage
	from portage import os
	from _emerge.Package import Package
	from _emerge.PackageVirtualDbapi import PackageVirtualDbapi
	from portage.const import VDB_PATH
	from portage.dbapi.vartree import vartree
	from portage.repository.config import _gen_valid_repo
	from portage.update import grab_updates, parse_updates, update_dbentries

	if sys.hexversion >= 0x3000000:
	long = int

	class FakeVardbapi(PackageVirtualDbapi):
	"""
	Implements the vardbapi.getpath() method which is used in error handling
	code for the Package class and vartree.get_provide().
	"""
	def getpath(self, cpv, filename=None):
	path = os.path.join(self.settings['EROOT'], VDB_PATH, cpv)
	if filename is not None:
	path =os.path.join(path, filename)
	return path

	class FakeVartree(vartree):
	"""This is implements an in-memory copy of a vartree instance that provides
	all the interfaces required for use by the depgraph. The vardb is locked
	during the constructor call just long enough to read a copy of the
	installed package information. This allows the depgraph to do it's
	dependency calculations without holding a lock on the vardb. It also
	allows things like vardb global updates to be done in memory so that the
	user doesn't necessarily need write access to the vardb in cases where
	global updates are necessary (updates are performed when necessary if there
	is not a matching ebuild in the tree). Instances of this class are not
	populated until the sync() method is called."""
	def __init__(self, root_config, pkg_cache=None, pkg_root_config=None):
	self._root_config = root_config
	if pkg_root_config is None:
	pkg_root_config = self._root_config
	self._pkg_root_config = pkg_root_config
	if pkg_cache is None:
	pkg_cache = {}
	real_vartree = root_config.trees["vartree"]
	self._real_vardb = real_vartree.dbapi
	portdb = root_config.trees["porttree"].dbapi
	self.root = real_vartree.root
	self.settings = real_vartree.settings
	mykeys = list(real_vartree.dbapi._aux_cache_keys)
	if "_mtime_" not in mykeys:
	mykeys.append("_mtime_")
	self._db_keys = mykeys
	self._pkg_cache = pkg_cache
	self.dbapi = FakeVardbapi(real_vartree.settings)

	# Initialize variables needed for lazy cache pulls of the live ebuild
	# metadata. This ensures that the vardb lock is released ASAP, without
	# being delayed in case cache generation is triggered.
	self._aux_get = self.dbapi.aux_get
	self.dbapi.aux_get = self._aux_get_wrapper
	self._match = self.dbapi.match
	self.dbapi.match = self._match_wrapper
	self._aux_get_history = set()
	self._portdb_keys = ["EAPI", "DEPEND", "RDEPEND", "PDEPEND"]
	self._portdb = portdb
	self._global_updates = None

	def _match_wrapper(self, cpv, use_cache=1):
	"""
	Make sure the metadata in Package instances gets updated for any
	cpv that is returned from a match() call, since the metadata can
	be accessed directly from the Package instance instead of via
	aux_get().
	"""
	matches = self._match(cpv, use_cache=use_cache)
	for cpv in matches:
	if cpv in self._aux_get_history:
	continue
	self._aux_get_wrapper(cpv, [])
	return matches

	def _aux_get_wrapper(self, pkg, wants, myrepo=None):
	if pkg in self._aux_get_history:
	return self._aux_get(pkg, wants)
	self._aux_get_history.add(pkg)
	# We need to check the EAPI, and this also raises
	# a KeyError to the caller if appropriate.
	installed_eapi, repo = self._aux_get(pkg, ["EAPI", "repository"])
	try:
	# Use the live ebuild metadata if possible.
	repo = _gen_valid_repo(repo)
	live_metadata = dict(zip(self._portdb_keys,
	self._portdb.aux_get(pkg, self._portdb_keys, myrepo=repo)))
	if not portage.eapi_is_supported(live_metadata["EAPI"]) or \
	installed_eapi != live_metadata["EAPI"]:
	raise KeyError(pkg)
	self.dbapi.aux_update(pkg, live_metadata)
	except (KeyError, portage.exception.PortageException):
	if self._global_updates is None:
	self._global_updates = \
	grab_global_updates(self._portdb)
	perform_global_updates(
	pkg, self.dbapi, self._global_updates)
	return self._aux_get(pkg, wants)

	def cpv_discard(self, pkg):
	"""
	Discard a package from the fake vardb if it exists.
	"""
	old_pkg = self.dbapi.get(pkg)
	if old_pkg is not None:
	self.dbapi.cpv_remove(old_pkg)
	self._pkg_cache.pop(old_pkg, None)
	self._aux_get_history.discard(old_pkg.cpv)

	def sync(self, acquire_lock=1):
	"""
	Call this method to synchronize state with the real vardb
	after one or more packages may have been installed or
	uninstalled.
	"""
	locked = False
	try:
	if acquire_lock and os.access(self._real_vardb._dbroot, os.W_OK):
	self._real_vardb.lock()
	locked = True
	self._sync()
	finally:
	if locked:
	self._real_vardb.unlock()

	# Populate the old-style virtuals using the cached values.
	# Skip the aux_get wrapper here, to avoid unwanted
	# cache generation.
	try:
	self.dbapi.aux_get = self._aux_get
	self.settings._populate_treeVirtuals_if_needed(self)
	finally:
	self.dbapi.aux_get = self._aux_get_wrapper

	def _sync(self):

	real_vardb = self._root_config.trees["vartree"].dbapi
	current_cpv_set = frozenset(real_vardb.cpv_all())
	pkg_vardb = self.dbapi
	pkg_cache = self._pkg_cache
	aux_get_history = self._aux_get_history

	# Remove any packages that have been uninstalled.
	for pkg in list(pkg_vardb):
	if pkg.cpv not in current_cpv_set:
	self.cpv_discard(pkg)

	# Validate counters and timestamps.
	slot_counters = {}
	root_config = self._pkg_root_config
	validation_keys = ["COUNTER", "_mtime_"]
	for cpv in current_cpv_set:

	pkg_hash_key = Package._gen_hash_key(cpv=cpv,
	installed=True, root_config=root_config,
	type_name="installed")
	pkg = pkg_vardb.get(pkg_hash_key)
	if pkg is not None:
	counter, mtime = real_vardb.aux_get(cpv, validation_keys)
	try:
	counter = long(counter)
	except ValueError:
	counter = 0

	if counter != pkg.counter or \
	mtime != pkg.mtime:
	self.cpv_discard(pkg)
	pkg = None

	if pkg is None:
	pkg = self._pkg(cpv)

	other_counter = slot_counters.get(pkg.slot_atom)
	if other_counter is not None:
	if other_counter > pkg.counter:
	continue

	slot_counters[pkg.slot_atom] = pkg.counter
	pkg_vardb.cpv_inject(pkg)

	real_vardb.flush_cache()

	def _pkg(self, cpv):
	"""
	The RootConfig instance that will become the Package.root_config
	attribute can be overridden by the FakeVartree pkg_root_config
	constructory argument, since we want to be consistent with the
	depgraph._pkg() method which uses a specially optimized
	RootConfig that has a FakeVartree instead of a real vartree.
	"""
	pkg = Package(cpv=cpv, built=True, installed=True,
	metadata=zip(self._db_keys,
	self._real_vardb.aux_get(cpv, self._db_keys)),
	root_config=self._pkg_root_config,
	type_name="installed")

	try:
	mycounter = long(pkg.metadata["COUNTER"])
	except ValueError:
	mycounter = 0
	pkg.metadata["COUNTER"] = str(mycounter)

	self._pkg_cache[pkg] = pkg
	return pkg

	def grab_global_updates(portdb):
	retupdates = {}

	for repo_name in portdb.getRepositories():
	repo = portdb.getRepositoryPath(repo_name)
	updpath = os.path.join(repo, "profiles", "updates")
	if not os.path.isdir(updpath):
	continue

	try:
	rawupdates = grab_updates(updpath)
	except portage.exception.DirectoryNotFound:
	rawupdates = []
	upd_commands = []
	for mykey, mystat, mycontent in rawupdates:
	commands, errors = parse_updates(mycontent)
	upd_commands.extend(commands)
	retupdates[repo_name] = upd_commands

	master_repo = portdb.getRepositoryName(portdb.porttree_root)
	if master_repo in retupdates:
	retupdates['DEFAULT'] = retupdates[master_repo]

	return retupdates

	def perform_global_updates(mycpv, mydb, myupdates):
	aux_keys = ["DEPEND", "RDEPEND", "PDEPEND", 'repository']
	aux_dict = dict(zip(aux_keys, mydb.aux_get(mycpv, aux_keys)))
	repository = aux_dict.pop('repository')
	try:
	mycommands = myupdates[repository]
	except KeyError:
	try:
	mycommands = myupdates['DEFAULT']
	except KeyError:
	return

	if not mycommands:
	return

	updates = update_dbentries(mycommands, aux_dict)
	if updates:
	mydb.aux_update(mycpv, updates)