buildstream/_basecache.py - buildstream - Git at Google

 #  Copyright (C) 2019 Bloomberg Finance LP
 #
 #  This program is free software; you can redistribute it and/or
 #  modify it under the terms of the GNU Lesser General Public
 #  License as published by the Free Software Foundation; either
 #  version 2 of the License, or (at your option) any later version.
 #
 #  This library 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
 #  Lesser General Public License for more details.
 #
 #  You should have received a copy of the GNU Lesser General Public
 #  License along with this library. If not, see <http://www.gnu.org/licenses/>.
 #
 #  Authors:
 #        Raoul Hidalgo Charman <raoul.hidalgocharman@codethink.co.uk>
 #
 import multiprocessing
 import os
 from fnmatch import fnmatch

 from . import utils
 from . import _yaml
 from ._cas import CASRemote
 from ._message import Message, MessageType
 from ._exceptions import LoadError


 # Base Cache for Caches to derive from
 #
 class BaseCache():

     # None of these should ever be called in the base class, but this appeases
     # pylint to some degree
     spec_class = None
     spec_name = None
     spec_error = None
     config_node_name = None

     def __init__(self, context):
         self.context = context
         self.cas = context.get_cascache()
         self.casquota = context.get_casquota()
         self.casquota._calculate_cache_quota()

         self._remotes_setup = False           # Check to prevent double-setup of remotes
         # Per-project list of _CASRemote instances.
         self._remotes = {}

         self.global_remote_specs = []
         self.project_remote_specs = {}

         self._has_fetch_remotes = False
         self._has_push_remotes = False

     # specs_from_config_node()
     #
     # Parses the configuration of remote artifact caches from a config block.
     #
     # Args:
     #   config_node (dict): The config block, which may contain the 'artifacts' key
     #   basedir (str): The base directory for relative paths
     #
     # Returns:
     #   A list of ArtifactCacheSpec instances.
     #
     # Raises:
     #   LoadError, if the config block contains invalid keys.
     #
     @classmethod
     def specs_from_config_node(cls, config_node, basedir=None):
         cache_specs = []

         try:
             artifacts = [_yaml.node_get(config_node, dict, cls.config_node_name)]
         except LoadError:
             try:
                 artifacts = _yaml.node_get(config_node, list, cls.config_node_name, default_value=[])
             except LoadError:
                 provenance = _yaml.node_get_provenance(config_node, key=cls.config_node_name)
                 raise _yaml.LoadError(_yaml.LoadErrorReason.INVALID_DATA,
                                       "%s: 'artifacts' must be a single 'url:' mapping, or a list of mappings" %
                                       (str(provenance)))

         for spec_node in artifacts:
             cache_specs.append(cls.spec_class._new_from_config_node(spec_node, basedir))

         return cache_specs

     # _configured_remote_cache_specs():
     #
     # Return the list of configured remotes for a given project, in priority
     # order. This takes into account the user and project configuration.
     #
     # Args:
     #     context (Context): The BuildStream context
     #     project (Project): The BuildStream project
     #
     # Returns:
     #   A list of ArtifactCacheSpec instances describing the remote artifact caches.
     #
     @classmethod
     def _configured_remote_cache_specs(cls, context, project):
         project_overrides = context.get_overrides(project.name)
         project_extra_specs = cls.specs_from_config_node(project_overrides)

         project_specs = getattr(project, cls.spec_name)
         context_specs = getattr(context, cls.spec_name)

         return list(utils._deduplicate(
             project_extra_specs + project_specs + context_specs))

     # setup_remotes():
     #
     # Sets up which remotes to use
     #
     # Args:
     #    use_config (bool): Whether to use project configuration
     #    remote_url (str): Remote cache URL
     #
     # This requires that all of the projects which are to be processed in the session
     # have already been loaded and are observable in the Context.
     #
     def setup_remotes(self, *, use_config=False, remote_url=None):

         # Ensure we do not double-initialise since this can be expensive
         assert not self._remotes_setup
         self._remotes_setup = True

         # Initialize remote caches. We allow the commandline to override
         # the user config in some cases (for example `bst artifact push --remote=...`).
         has_remote_caches = False
         if remote_url:
             # pylint: disable=not-callable
             self._set_remotes([self.spec_class(remote_url, push=True)])
             has_remote_caches = True
         if use_config:
             for project in self.context.get_projects():
                 caches = self._configured_remote_cache_specs(self.context, project)
                 if caches:  # caches is a list of spec_class instances
                     self._set_remotes(caches, project=project)
                     has_remote_caches = True
         if has_remote_caches:
             self._initialize_remotes()

     # initialize_remotes():
     #
     # This will contact each remote cache.
     #
     # Args:
     #     on_failure (callable): Called if we fail to contact one of the caches.
     #
     def initialize_remotes(self, *, on_failure=None):
         remote_specs = self.global_remote_specs

         for project in self.project_remote_specs:
             remote_specs += self.project_remote_specs[project]

         remote_specs = list(utils._deduplicate(remote_specs))

         remotes = {}
         q = multiprocessing.Queue()
         for remote_spec in remote_specs:

             error = CASRemote.check_remote(remote_spec, q)

             if error and on_failure:
                 on_failure(remote_spec.url, error)
             elif error:
                 raise self.spec_error(error)  # pylint: disable=not-callable
             else:
                 self._has_fetch_remotes = True
                 if remote_spec.push:
                     self._has_push_remotes = True

                 remotes[remote_spec.url] = CASRemote(remote_spec)

         for project in self.context.get_projects():
             remote_specs = self.global_remote_specs
             if project in self.project_remote_specs:
                 remote_specs = list(utils._deduplicate(remote_specs + self.project_remote_specs[project]))

             project_remotes = []

             for remote_spec in remote_specs:
                 # Errors are already handled in the loop above,
                 # skip unreachable remotes here.
                 if remote_spec.url not in remotes:
                     continue

                 remote = remotes[remote_spec.url]
                 project_remotes.append(remote)

             self._remotes[project] = project_remotes

     # has_fetch_remotes():
     #
     # Check whether any remote repositories are available for fetching.
     #
     # Args:
     #     plugin (Plugin): The Plugin to check
     #
     # Returns: True if any remote repositories are configured, False otherwise
     #
     def has_fetch_remotes(self, *, plugin=None):
         if not self._has_fetch_remotes:
             # No project has fetch remotes
             return False
         elif plugin is None:
             # At least one (sub)project has fetch remotes
             return True
         else:
             # Check whether the specified element's project has fetch remotes
             remotes_for_project = self._remotes[plugin._get_project()]
             return bool(remotes_for_project)

     # has_push_remotes():
     #
     # Check whether any remote repositories are available for pushing.
     #
     # Args:
     #     element (Element): The Element to check
     #
     # Returns: True if any remote repository is configured, False otherwise
     #
     def has_push_remotes(self, *, plugin=None):
         if not self._has_push_remotes:
             # No project has push remotes
             return False
         elif plugin is None:
             # At least one (sub)project has push remotes
             return True
         else:
             # Check whether the specified element's project has push remotes
             remotes_for_project = self._remotes[plugin._get_project()]
             return any(remote.spec.push for remote in remotes_for_project)

     ################################################
     #               Local Private Methods          #
     ################################################

     # _message()
     #
     # Local message propagator
     #
     def _message(self, message_type, message, **kwargs):
         args = dict(kwargs)
         self.context.message(
             Message(None, message_type, message, **args))

     # _set_remotes():
     #
     # Set the list of remote caches. If project is None, the global list of
     # remote caches will be set, which is used by all projects. If a project is
     # specified, the per-project list of remote caches will be set.
     #
     # Args:
     #     remote_specs (list): List of ArtifactCacheSpec instances, in priority order.
     #     project (Project): The Project instance for project-specific remotes
     def _set_remotes(self, remote_specs, *, project=None):
         if project is None:
             # global remotes
             self.global_remote_specs = remote_specs
         else:
             self.project_remote_specs[project] = remote_specs

     # _initialize_remotes()
     #
     # An internal wrapper which calls the abstract method and
     # reports takes care of messaging
     #
     def _initialize_remotes(self):
         def remote_failed(url, error):
             self._message(MessageType.WARN, "Failed to initialize remote {}: {}".format(url, error))

         with self.context.timed_activity("Initializing remote caches", silent_nested=True):
             self.initialize_remotes(on_failure=remote_failed)

     # _list_refs_mtimes()
     #
     # List refs in a directory, given a base path. Also returns the
     # associated mtimes
     #
     # Args:
     #    base_path (str): Base path to traverse over
     #    glob_expr (str|None): Optional glob expression to match against files
     #
     # Returns:
     #     (iter (mtime, filename)]): iterator of tuples of mtime and refs
     #
     def _list_refs_mtimes(self, base_path, *, glob_expr=None):
         path = base_path
         if glob_expr is not None:
             globdir = os.path.dirname(glob_expr)
             if not any(c in "*?[" for c in globdir):
                 # path prefix contains no globbing characters so
                 # append the glob to optimise the os.walk()
                 path = os.path.join(base_path, globdir)

         for root, _, files in os.walk(path):
             for filename in files:
                 ref_path = os.path.join(root, filename)
                 relative_path = os.path.relpath(ref_path, base_path)  # Relative to refs head
                 if not glob_expr or fnmatch(relative_path, glob_expr):
                     # Obtain the mtime (the time a file was last modified)
                     yield (os.path.getmtime(ref_path), relative_path)
	# Copyright (C) 2019 Bloomberg Finance LP
	#
	# This program is free software; you can redistribute it and/or
	# modify it under the terms of the GNU Lesser General Public
	# License as published by the Free Software Foundation; either
	# version 2 of the License, or (at your option) any later version.
	#
	# This library 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
	# Lesser General Public License for more details.
	#
	# You should have received a copy of the GNU Lesser General Public
	# License along with this library. If not, see <http://www.gnu.org/licenses/>.
	#
	# Authors:
	# Raoul Hidalgo Charman <raoul.hidalgocharman@codethink.co.uk>
	#
	import multiprocessing
	import os
	from fnmatch import fnmatch

	from . import utils
	from . import _yaml
	from ._cas import CASRemote
	from ._message import Message, MessageType
	from ._exceptions import LoadError


	# Base Cache for Caches to derive from
	#
	class BaseCache():

	# None of these should ever be called in the base class, but this appeases
	# pylint to some degree
	spec_class = None
	spec_name = None
	spec_error = None
	config_node_name = None

	def __init__(self, context):
	self.context = context
	self.cas = context.get_cascache()
	self.casquota = context.get_casquota()
	self.casquota._calculate_cache_quota()

	self._remotes_setup = False # Check to prevent double-setup of remotes
	# Per-project list of _CASRemote instances.
	self._remotes = {}

	self.global_remote_specs = []
	self.project_remote_specs = {}

	self._has_fetch_remotes = False
	self._has_push_remotes = False

	# specs_from_config_node()
	#
	# Parses the configuration of remote artifact caches from a config block.
	#
	# Args:
	# config_node (dict): The config block, which may contain the 'artifacts' key
	# basedir (str): The base directory for relative paths
	#
	# Returns:
	# A list of ArtifactCacheSpec instances.
	#
	# Raises:
	# LoadError, if the config block contains invalid keys.
	#
	@classmethod
	def specs_from_config_node(cls, config_node, basedir=None):
	cache_specs = []

	try:
	artifacts = [_yaml.node_get(config_node, dict, cls.config_node_name)]
	except LoadError:
	try:
	artifacts = _yaml.node_get(config_node, list, cls.config_node_name, default_value=[])
	except LoadError:
	provenance = _yaml.node_get_provenance(config_node, key=cls.config_node_name)
	raise _yaml.LoadError(_yaml.LoadErrorReason.INVALID_DATA,
	"%s: 'artifacts' must be a single 'url:' mapping, or a list of mappings" %
	(str(provenance)))

	for spec_node in artifacts:
	cache_specs.append(cls.spec_class._new_from_config_node(spec_node, basedir))

	return cache_specs

	# _configured_remote_cache_specs():
	#
	# Return the list of configured remotes for a given project, in priority
	# order. This takes into account the user and project configuration.
	#
	# Args:
	# context (Context): The BuildStream context
	# project (Project): The BuildStream project
	#
	# Returns:
	# A list of ArtifactCacheSpec instances describing the remote artifact caches.
	#
	@classmethod
	def _configured_remote_cache_specs(cls, context, project):
	project_overrides = context.get_overrides(project.name)
	project_extra_specs = cls.specs_from_config_node(project_overrides)

	project_specs = getattr(project, cls.spec_name)
	context_specs = getattr(context, cls.spec_name)

	return list(utils._deduplicate(
	project_extra_specs + project_specs + context_specs))

	# setup_remotes():
	#
	# Sets up which remotes to use
	#
	# Args:
	# use_config (bool): Whether to use project configuration
	# remote_url (str): Remote cache URL
	#
	# This requires that all of the projects which are to be processed in the session
	# have already been loaded and are observable in the Context.
	#
	def setup_remotes(self, *, use_config=False, remote_url=None):

	# Ensure we do not double-initialise since this can be expensive
	assert not self._remotes_setup
	self._remotes_setup = True

	# Initialize remote caches. We allow the commandline to override
	# the user config in some cases (for example `bst artifact push --remote=...`).
	has_remote_caches = False
	if remote_url:
	# pylint: disable=not-callable
	self._set_remotes([self.spec_class(remote_url, push=True)])
	has_remote_caches = True
	if use_config:
	for project in self.context.get_projects():
	caches = self._configured_remote_cache_specs(self.context, project)
	if caches: # caches is a list of spec_class instances
	self._set_remotes(caches, project=project)
	has_remote_caches = True
	if has_remote_caches:
	self._initialize_remotes()

	# initialize_remotes():
	#
	# This will contact each remote cache.
	#
	# Args:
	# on_failure (callable): Called if we fail to contact one of the caches.
	#
	def initialize_remotes(self, *, on_failure=None):
	remote_specs = self.global_remote_specs

	for project in self.project_remote_specs:
	remote_specs += self.project_remote_specs[project]

	remote_specs = list(utils._deduplicate(remote_specs))

	remotes = {}
	q = multiprocessing.Queue()
	for remote_spec in remote_specs:

	error = CASRemote.check_remote(remote_spec, q)

	if error and on_failure:
	on_failure(remote_spec.url, error)
	elif error:
	raise self.spec_error(error) # pylint: disable=not-callable
	else:
	self._has_fetch_remotes = True
	if remote_spec.push:
	self._has_push_remotes = True

	remotes[remote_spec.url] = CASRemote(remote_spec)

	for project in self.context.get_projects():
	remote_specs = self.global_remote_specs
	if project in self.project_remote_specs:
	remote_specs = list(utils._deduplicate(remote_specs + self.project_remote_specs[project]))

	project_remotes = []

	for remote_spec in remote_specs:
	# Errors are already handled in the loop above,
	# skip unreachable remotes here.
	if remote_spec.url not in remotes:
	continue

	remote = remotes[remote_spec.url]
	project_remotes.append(remote)

	self._remotes[project] = project_remotes

	# has_fetch_remotes():
	#
	# Check whether any remote repositories are available for fetching.
	#
	# Args:
	# plugin (Plugin): The Plugin to check
	#
	# Returns: True if any remote repositories are configured, False otherwise
	#
	def has_fetch_remotes(self, *, plugin=None):
	if not self._has_fetch_remotes:
	# No project has fetch remotes
	return False
	elif plugin is None:
	# At least one (sub)project has fetch remotes
	return True
	else:
	# Check whether the specified element's project has fetch remotes
	remotes_for_project = self._remotes[plugin._get_project()]
	return bool(remotes_for_project)

	# has_push_remotes():
	#
	# Check whether any remote repositories are available for pushing.
	#
	# Args:
	# element (Element): The Element to check
	#
	# Returns: True if any remote repository is configured, False otherwise
	#
	def has_push_remotes(self, *, plugin=None):
	if not self._has_push_remotes:
	# No project has push remotes
	return False
	elif plugin is None:
	# At least one (sub)project has push remotes
	return True
	else:
	# Check whether the specified element's project has push remotes
	remotes_for_project = self._remotes[plugin._get_project()]
	return any(remote.spec.push for remote in remotes_for_project)

	################################################
	# Local Private Methods #
	################################################

	# _message()
	#
	# Local message propagator
	#
	def _message(self, message_type, message, **kwargs):
	args = dict(kwargs)
	self.context.message(
	Message(None, message_type, message, **args))

	# _set_remotes():
	#
	# Set the list of remote caches. If project is None, the global list of
	# remote caches will be set, which is used by all projects. If a project is
	# specified, the per-project list of remote caches will be set.
	#
	# Args:
	# remote_specs (list): List of ArtifactCacheSpec instances, in priority order.
	# project (Project): The Project instance for project-specific remotes
	def _set_remotes(self, remote_specs, *, project=None):
	if project is None:
	# global remotes
	self.global_remote_specs = remote_specs
	else:
	self.project_remote_specs[project] = remote_specs

	# _initialize_remotes()
	#
	# An internal wrapper which calls the abstract method and
	# reports takes care of messaging
	#
	def _initialize_remotes(self):
	def remote_failed(url, error):
	self._message(MessageType.WARN, "Failed to initialize remote {}: {}".format(url, error))

	with self.context.timed_activity("Initializing remote caches", silent_nested=True):
	self.initialize_remotes(on_failure=remote_failed)

	# _list_refs_mtimes()
	#
	# List refs in a directory, given a base path. Also returns the
	# associated mtimes
	#
	# Args:
	# base_path (str): Base path to traverse over
	# glob_expr (str\|None): Optional glob expression to match against files
	#
	# Returns:
	# (iter (mtime, filename)]): iterator of tuples of mtime and refs
	#
	def _list_refs_mtimes(self, base_path, *, glob_expr=None):
	path = base_path
	if glob_expr is not None:
	globdir = os.path.dirname(glob_expr)
	if not any(c in "*?[" for c in globdir):
	# path prefix contains no globbing characters so
	# append the glob to optimise the os.walk()
	path = os.path.join(base_path, globdir)

	for root, _, files in os.walk(path):
	for filename in files:
	ref_path = os.path.join(root, filename)
	relative_path = os.path.relpath(ref_path, base_path) # Relative to refs head
	if not glob_expr or fnmatch(relative_path, glob_expr):
	# Obtain the mtime (the time a file was last modified)
	yield (os.path.getmtime(ref_path), relative_path)