# # Copyright (C) 2016 Codethink Limited # # 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 . # # Authors: # Tristan Van Berkom """ Source - Base source class ========================== .. _core_source_builtins: Built-in functionality ---------------------- The Source base class provides built in functionality that may be overridden by individual plugins. * Directory The ``directory`` variable can be set for all sources of a type in project.conf or per source within a element. This sets the location within the build root that the content of the source will be loaded in to. If the location does not exist, it will be created. .. _core_source_abstract_methods: Abstract Methods ---------------- For loading and configuration purposes, Sources must implement the :ref:`Plugin base class abstract methods `. .. attention:: In order to ensure that all configuration data is processed at load time, it is important that all URLs have been processed during :func:`Plugin.configure() `. Source implementations *must* either call :func:`Source.translate_url() ` or :func:`Source.mark_download_url() ` for every URL that has been specified in the configuration during :func:`Plugin.configure() ` Sources expose the following abstract methods. Unless explicitly mentioned, these methods are mandatory to implement. * :func:`Source.get_consistency() ` Report the sources consistency state. * :func:`Source.load_ref() ` Load the ref from a specific YAML node * :func:`Source.get_ref() ` Fetch the source ref * :func:`Source.set_ref() ` Set a new ref explicitly * :func:`Source.track() ` Automatically derive a new ref from a symbolic tracking branch * :func:`Source.fetch() ` Fetch the actual payload for the currently set ref * :func:`Source.stage() ` Stage the sources for a given ref at a specified location * :func:`Source.init_workspace() ` Stage sources in a local directory for use as a workspace. **Optional**: If left unimplemented, this will default to calling :func:`Source.stage() ` * :func:`Source.get_source_fetchers() ` Get the objects that are used for fetching. **Optional**: This only needs to be implemented for sources that need to download from multiple URLs while fetching (e.g. a git repo and its submodules). For details on how to define a SourceFetcher, see :ref:`SourceFetcher `. * :func:`Source.validate_cache() ` Perform any validations which require the sources to be cached. **Optional**: This is completely optional and will do nothing if left unimplemented. Accessing previous sources -------------------------- *Since: 1.4* In the general case, all sources are fetched and tracked independently of one another. In situations where a source needs to access previous source(s) in order to perform its own track and/or fetch, following attributes can be set to request access to previous sources: * :attr:`~buildstream.source.Source.BST_REQUIRES_PREVIOUS_SOURCES_TRACK` Indicate that access to previous sources is required during track * :attr:`~buildstream.source.Source.BST_REQUIRES_PREVIOUS_SOURCES_FETCH` Indicate that access to previous sources is required during fetch The intended use of such plugins is to fetch external dependencies of other sources, typically using some kind of package manager, such that all the dependencies of the original source(s) are available at build time. When implementing such a plugin, implementors should adhere to the following guidelines: * Implementations must be able to store the obtained artifacts in a subdirectory. * Implementations must be able to deterministically generate a unique ref, such that two refs are different if and only if they produce different outputs. * Implementations must not introduce host contamination. .. _core_source_fetcher: SourceFetcher - Object for fetching individual URLs =================================================== Abstract Methods ---------------- SourceFetchers expose the following abstract methods. Unless explicitly mentioned, these methods are mandatory to implement. * :func:`SourceFetcher.fetch() ` Fetches the URL associated with this SourceFetcher, optionally taking an alias override. Class Reference --------------- """ import os from contextlib import contextmanager from . import _yaml, utils from .plugin import Plugin from .types import Consistency from ._exceptions import BstError, ImplError, ErrorDomain from ._loader.metasource import MetaSource from ._projectrefs import ProjectRefStorage from ._cachekey import generate_key from .storage import FileBasedDirectory from .storage.directory import Directory, VirtualDirectoryError class SourceError(BstError): """This exception should be raised by :class:`.Source` implementations to report errors to the user. Args: message (str): The breif error description to report to the user detail (str): A possibly multiline, more detailed error message reason (str): An optional machine readable reason string, used for test cases temporary (bool): An indicator to whether the error may occur if the operation was run again. (*Since: 1.2*) """ def __init__(self, message, *, detail=None, reason=None, temporary=False): super().__init__(message, detail=detail, domain=ErrorDomain.SOURCE, reason=reason, temporary=temporary) class SourceFetcher(): """SourceFetcher() This interface exists so that a source that downloads from multiple places (e.g. a git source with submodules) has a consistent interface for fetching and substituting aliases. *Since: 1.2* .. attention:: When implementing a SourceFetcher, remember to call :func:`Source.mark_download_url() ` for every URL found in the configuration data at :func:`Plugin.configure() ` time. """ def __init__(self): self.__alias = None ############################################################# # Abstract Methods # ############################################################# def fetch(self, alias_override=None, **kwargs): """Fetch remote sources and mirror them locally, ensuring at least that the specific reference is cached locally. Args: alias_override (str): The alias to use instead of the default one defined by the :ref:`aliases ` field in the project's config. Raises: :class:`.SourceError` Implementors should raise :class:`.SourceError` if the there is some network error or if the source reference could not be matched. """ raise ImplError("SourceFetcher '{}' does not implement fetch()".format(type(self))) ############################################################# # Public Methods # ############################################################# def mark_download_url(self, url): """Identifies the URL that this SourceFetcher uses to download This must be called during the fetcher's initialization Args: url (str): The url used to download. """ self.__alias = _extract_alias(url) ############################################################# # Private Methods used in BuildStream # ############################################################# # Returns the alias used by this fetcher def _get_alias(self): return self.__alias class Source(Plugin): """Source() Base Source class. All Sources derive from this class, this interface defines how the core will be interacting with Sources. """ __defaults = None # The defaults from the project BST_REQUIRES_PREVIOUS_SOURCES_TRACK = False """Whether access to previous sources is required during track When set to True: * all sources listed before this source in the given element will be fetched before this source is tracked * Source.track() will be called with an additional keyword argument `previous_sources_dir` where previous sources will be staged * this source can not be the first source for an element *Since: 1.4* """ BST_REQUIRES_PREVIOUS_SOURCES_FETCH = False """Whether access to previous sources is required during fetch When set to True: * all sources listed before this source in the given element will be fetched before this source is fetched * Source.fetch() will be called with an additional keyword argument `previous_sources_dir` where previous sources will be staged * this source can not be the first source for an element *Since: 1.4* """ BST_REQUIRES_PREVIOUS_SOURCES_STAGE = False """Whether access to previous sources is required during cache When set to True: * All sources listed before current source in the given element will be staged with the source when it's cached. * This source can not be the first source for an element. *Since: 1.4* """ BST_STAGE_VIRTUAL_DIRECTORY = False """Whether we can stage this source directly to a virtual directory When set to true, virtual directories can be passed to the source to stage to. *Since: 1.4* """ def __init__(self, context, project, meta, *, alias_override=None, unique_id=None): provenance = meta.config.get_provenance() super().__init__("{}-{}".format(meta.element_name, meta.element_index), context, project, provenance, "source", unique_id=unique_id) self.__element_name = meta.element_name # The name of the element owning this source self.__element_index = meta.element_index # The index of the source in the owning element's source list self.__element_kind = meta.element_kind # The kind of the element owning this source self.__directory = meta.directory # Staging relative directory self.__consistency = Consistency.INCONSISTENT # Cached consistency state self.__meta_kind = meta.kind # The kind of this source, required for unpickling self.__key = None # Cache key for source # The alias_override is only set on a re-instantiated Source self.__alias_override = alias_override # Tuple of alias and its override to use instead self.__expected_alias = None # The primary alias self.__marked_urls = set() # Set of marked download URLs # Collect the composited element configuration and # ask the element to configure itself. self.__init_defaults(project, meta) self.__config = self.__extract_config(meta) self.__first_pass = meta.first_pass # cached values for commonly access values on the source self.__mirror_directory = None self._configure(self.__config) COMMON_CONFIG_KEYS = ['kind', 'directory'] """Common source config keys Source config keys that must not be accessed in configure(), and should be checked for using node.validate_keys(). """ ############################################################# # Abstract Methods # ############################################################# def get_consistency(self): """Report whether the source has a resolved reference Returns: (:class:`.Consistency`): The source consistency """ raise ImplError("Source plugin '{}' does not implement get_consistency()".format(self.get_kind())) def load_ref(self, node): """Loads the *ref* for this Source from the specified *node*. Args: node (:class:`MappingNode `): The YAML node to load the ref from .. note:: The *ref* for the Source is expected to be read at :func:`Plugin.configure() ` time, this will only be used for loading refs from alternative locations than in the `element.bst` file where the given Source object has been declared. *Since: 1.2* """ raise ImplError("Source plugin '{}' does not implement load_ref()".format(self.get_kind())) def get_ref(self): """Fetch the internal ref, however it is represented Returns: (simple object): The internal source reference, or ``None`` .. note:: The reference is the user provided (or track resolved) value the plugin uses to represent a specific input, like a commit in a VCS or a tarball's checksum. Usually the reference is a string, but the plugin may choose to represent it with a tuple or such. Implementations *must* return a ``None`` value in the case that the ref was not loaded. E.g. a ``(None, None)`` tuple is not acceptable. """ raise ImplError("Source plugin '{}' does not implement get_ref()".format(self.get_kind())) def set_ref(self, ref, node): """Applies the internal ref, however it is represented Args: ref (simple object): The internal source reference to set, or ``None`` node (:class:`MappingNode `): The same dictionary which was previously passed to :func:`Plugin.configure() ` See :func:`Source.get_ref() ` for a discussion on the *ref* parameter. .. note:: Implementors must support the special ``None`` value here to allow clearing any existing ref. """ raise ImplError("Source plugin '{}' does not implement set_ref()".format(self.get_kind())) def track(self, **kwargs): """Resolve a new ref from the plugin's track option Args: previous_sources_dir (str): directory where previous sources are staged. Note that this keyword argument is available only when :attr:`~buildstream.source.Source.BST_REQUIRES_PREVIOUS_SOURCES_TRACK` is set to True. Returns: (simple object): A new internal source reference, or None If the backend in question supports resolving references from a symbolic tracking branch or tag, then this should be implemented to perform this task on behalf of :ref:`bst source track ` commands. This usually requires fetching new content from a remote origin to see if a new ref has appeared for your branch or tag. If the backend store allows one to query for a new ref from a symbolic tracking data without downloading then that is desirable. See :func:`Source.get_ref() ` for a discussion on the *ref* parameter. """ # Allow a non implementation return None def fetch(self, **kwargs): """Fetch remote sources and mirror them locally, ensuring at least that the specific reference is cached locally. Args: previous_sources_dir (str): directory where previous sources are staged. Note that this keyword argument is available only when :attr:`~buildstream.source.Source.BST_REQUIRES_PREVIOUS_SOURCES_FETCH` is set to True. Raises: :class:`.SourceError` Implementors should raise :class:`.SourceError` if the there is some network error or if the source reference could not be matched. """ raise ImplError("Source plugin '{}' does not implement fetch()".format(self.get_kind())) def stage(self, directory): """Stage the sources to a directory Args: directory (str): Path to stage the source Raises: :class:`.SourceError` Implementors should assume that *directory* already exists and stage already cached sources to the passed directory. Implementors should raise :class:`.SourceError` when encountering some system error. """ raise ImplError("Source plugin '{}' does not implement stage()".format(self.get_kind())) def init_workspace(self, directory): """Initialises a new workspace Args: directory (str): Path of the workspace to init Raises: :class:`.SourceError` Default implementation is to call :func:`Source.stage() `. Implementors overriding this method should assume that *directory* already exists. Implementors should raise :class:`.SourceError` when encountering some system error. """ self.stage(directory) def get_source_fetchers(self): """Get the objects that are used for fetching If this source doesn't download from multiple URLs, returning None and falling back on the default behaviour is recommended. Returns: iterable: The Source's SourceFetchers, if any. .. note:: Implementors can implement this as a generator. The :func:`SourceFetcher.fetch() ` method will be called on the returned fetchers one by one, before consuming the next fetcher in the list. *Since: 1.2* """ return [] def validate_cache(self): """Implement any validations once we know the sources are cached This is guaranteed to be called only once for a given session once the sources are known to be :attr:`Consistency.CACHED `, if source tracking is enabled in the session for this source, then this will only be called if the sources become cached after tracking completes. *Since: 1.4* """ ############################################################# # Public Methods # ############################################################# def get_mirror_directory(self): """Fetches the directory where this source should store things Returns: (str): The directory belonging to this source """ if self.__mirror_directory is None: # Create the directory if it doesnt exist context = self._get_context() directory = os.path.join(context.sourcedir, self.get_kind()) os.makedirs(directory, exist_ok=True) self.__mirror_directory = directory return self.__mirror_directory def translate_url(self, url, *, alias_override=None, primary=True): """Translates the given url which may be specified with an alias into a fully qualified url. Args: url (str): A URL, which may be using an alias alias_override (str): Optionally, an URI to override the alias with. (*Since: 1.2*) primary (bool): Whether this is the primary URL for the source. (*Since: 1.2*) Returns: str: The fully qualified URL, with aliases resolved .. note:: This must be called for every URL in the configuration during :func:`Plugin.configure() ` if :func:`Source.mark_download_url() ` is not called. """ # Ensure that the download URL is also marked self.mark_download_url(url, primary=primary) # Alias overriding can happen explicitly (by command-line) or # implicitly (the Source being constructed with an __alias_override). if alias_override or self.__alias_override: url_alias, url_body = url.split(utils._ALIAS_SEPARATOR, 1) if url_alias: if alias_override: url = alias_override + url_body else: # Implicit alias overrides may only be done for one # specific alias, so that sources that fetch from multiple # URLs and use different aliases default to only overriding # one alias, rather than getting confused. override_alias = self.__alias_override[0] override_url = self.__alias_override[1] if url_alias == override_alias: url = override_url + url_body return url else: project = self._get_project() return project.translate_url(url, first_pass=self.__first_pass) def mark_download_url(self, url, *, primary=True): """Identifies the URL that this Source uses to download Args: url (str): The URL used to download primary (bool): Whether this is the primary URL for the source .. note:: This must be called for every URL in the configuration during :func:`Plugin.configure() ` if :func:`Source.translate_url() ` is not called. *Since: 1.2* """ # Only mark the Source level aliases on the main instance, not in # a reinstantiated instance in mirroring. if not self.__alias_override: if primary: expected_alias = _extract_alias(url) assert (self.__expected_alias is None or self.__expected_alias == expected_alias), \ "Primary URL marked twice with different URLs" self.__expected_alias = expected_alias # Enforce proper behaviour of plugins by ensuring that all # aliased URLs have been marked at Plugin.configure() time. # if self._get_configuring(): # Record marked urls while configuring # self.__marked_urls.add(url) else: # If an unknown aliased URL is seen after configuring, # this is an error. # # It is still possible that a URL that was not mentioned # in the element configuration can be marked, this is # the case for git submodules which might be automatically # discovered. # assert (url in self.__marked_urls or not _extract_alias(url)), \ "URL was not seen at configure time: {}".format(url) def get_project_directory(self): """Fetch the project base directory This is useful for sources which need to load resources stored somewhere inside the project. Returns: str: The project base directory """ project = self._get_project() return project.directory @contextmanager def tempdir(self): """Context manager for working in a temporary directory Yields: (str): A path to a temporary directory This should be used by source plugins directly instead of the tempfile module. This one will automatically cleanup in case of termination by catching the signal before os._exit(). It will also use the 'mirror directory' as expected for a source. """ mirrordir = self.get_mirror_directory() with utils._tempdir(dir=mirrordir) as tempdir: yield tempdir ############################################################# # Private Abstract Methods used in BuildStream # ############################################################# # Returns the local path to the source # # If the source is locally available, this method returns the absolute # path. Otherwise, the return value is None. # # This is an optimization for local sources and optional to implement. # # Returns: # (str): The local absolute path, or None # def _get_local_path(self): return None ############################################################# # Private Methods used in BuildStream # ############################################################# # Wrapper around preflight() method # def _preflight(self): try: self.preflight() except BstError as e: # Prepend provenance to the error raise SourceError("{}: {}".format(self, e), reason=e.reason) from e # Update cached consistency for a source # # This must be called whenever the state of a source may have changed. # def _update_state(self): if self.__consistency < Consistency.CACHED: # Source consistency interrogations are silent. context = self._get_context() with context.messenger.silence(): self.__consistency = self.get_consistency() # pylint: disable=assignment-from-no-return # Give the Source an opportunity to validate the cached # sources as soon as the Source becomes Consistency.CACHED. if self.__consistency == Consistency.CACHED: self.validate_cache() # Return cached consistency # def _get_consistency(self): return self.__consistency # Wrapper function around plugin provided fetch method # # Args: # previous_sources (list): List of Sources listed prior to this source # fetch_original (bool): whether to fetch full source, or use local CAS # def _fetch(self, previous_sources): if self.BST_REQUIRES_PREVIOUS_SOURCES_FETCH: self.__ensure_previous_sources(previous_sources) with self.__stage_previous_sources(previous_sources) as staging_directory: self.__do_fetch(previous_sources_dir=self.__ensure_directory(staging_directory)) else: self.__do_fetch() # Wrapper for stage() api which gives the source # plugin a fully constructed path considering the # 'directory' option # def _stage(self, directory): directory = self.__ensure_directory(directory) self.stage(directory) # Wrapper for init_workspace() def _init_workspace(self, directory): if self.BST_STAGE_VIRTUAL_DIRECTORY: directory = FileBasedDirectory(external_directory=directory) directory = self.__ensure_directory(directory) self.init_workspace(directory) # _get_unique_key(): # # Wrapper for get_unique_key() api # # Args: # include_source (bool): Whether to include the delegated source key # def _get_unique_key(self, include_source): key = {} key['directory'] = self.__directory if include_source: key['unique'] = self.get_unique_key() # pylint: disable=assignment-from-no-return return key # _project_refs(): # # Gets the appropriate ProjectRefs object for this source, # which depends on whether the owning element is a junction # # Args: # project (Project): The project to check # def _project_refs(self, project): element_kind = self.__element_kind if element_kind == 'junction': return project.junction_refs return project.refs # _load_ref(): # # Loads the ref for the said source. # # Raises: # (SourceError): If the source does not implement load_ref() # # Returns: # (ref): A redundant ref specified inline for a project.refs using project # # This is partly a wrapper around `Source.load_ref()`, it will decide # where to load the ref from depending on which project the source belongs # to and whether that project uses a project.refs file. # # Note the return value is used to construct a summarized warning in the # case that the toplevel project uses project.refs and also lists refs # which will be ignored. # def _load_ref(self): context = self._get_context() project = self._get_project() toplevel = context.get_toplevel_project() redundant_ref = None element_name = self.__element_name element_idx = self.__element_index def do_load_ref(node): try: self.load_ref(ref_node) except ImplError as e: raise SourceError("{}: Storing refs in project.refs is not supported by '{}' sources" .format(self, self.get_kind()), reason="unsupported-load-ref") from e # If the main project overrides the ref, use the override if project is not toplevel and toplevel.ref_storage == ProjectRefStorage.PROJECT_REFS: refs = self._project_refs(toplevel) ref_node = refs.lookup_ref(project.name, element_name, element_idx) if ref_node is not None: do_load_ref(ref_node) # If the project itself uses project.refs, clear the ref which # was already loaded via Source.configure(), as this would # violate the rule of refs being either in project.refs or in # the elements themselves. # elif project.ref_storage == ProjectRefStorage.PROJECT_REFS: # First warn if there is a ref already loaded, and reset it redundant_ref = self.get_ref() # pylint: disable=assignment-from-no-return if redundant_ref is not None: self.set_ref(None, {}) # Try to load the ref refs = self._project_refs(project) ref_node = refs.lookup_ref(project.name, element_name, element_idx) if ref_node is not None: do_load_ref(ref_node) return redundant_ref # _set_ref() # # Persists the ref for this source. This will decide where to save the # ref, or refuse to persist it, depending on active ref-storage project # settings. # # Args: # new_ref (smth): The new reference to save # save (bool): Whether to write the new reference to file or not # # Returns: # (bool): Whether the ref has changed # # Raises: # (SourceError): In the case we encounter errors saving a file to disk # def _set_ref(self, new_ref, *, save): context = self._get_context() project = self._get_project() toplevel = context.get_toplevel_project() toplevel_refs = self._project_refs(toplevel) provenance = self._get_provenance() element_name = self.__element_name element_idx = self.__element_index # # Step 1 - Obtain the node # node = {} if toplevel.ref_storage == ProjectRefStorage.PROJECT_REFS: node = toplevel_refs.lookup_ref(project.name, element_name, element_idx, write=True) if project is toplevel and not node: node = provenance._node # Ensure the node is not from a junction if not toplevel.ref_storage == ProjectRefStorage.PROJECT_REFS and provenance._project is not toplevel: if provenance._project is project: self.warn("{}: Not persisting new reference in junctioned project".format(self)) elif provenance._project is None: assert provenance._filename == "" assert provenance._shortname == "" raise SourceError("{}: Error saving source reference to synthetic node." .format(self)) else: raise SourceError("{}: Cannot track source in a fragment from a junction" .format(provenance._shortname), reason="tracking-junction-fragment") # # Step 2 - Set the ref in memory, and determine changed state # # TODO: we are working on dictionaries here, would be nicer to just work on the nodes themselves clean = node._strip_node_info() to_modify = node._strip_node_info() current_ref = self.get_ref() # pylint: disable=assignment-from-no-return # Set the ref regardless of whether it changed, the # TrackQueue() will want to update a specific node with # the ref, regardless of whether the original has changed. self.set_ref(new_ref, to_modify) if current_ref == new_ref or not save: # Note: We do not look for and propagate changes at this point # which might result in desync depending if something changes about # tracking in the future. For now, this is quite safe. return False actions = {} for k, v in clean.items(): if k not in to_modify: actions[k] = 'del' else: if v != to_modify[k]: actions[k] = 'mod' for k in to_modify.keys(): if k not in clean: actions[k] = 'add' def walk_container(container, path): # For each step along path, synthesise if we need to. # If we're synthesising missing list entries, we know we're # doing this for project.refs so synthesise empty dicts for the # intervening entries too lpath = [step for step in path] lpath.append("") # We know the last step will be a string key for step, next_step in zip(lpath, lpath[1:]): if type(step) is str: # pylint: disable=unidiomatic-typecheck # handle dict container if step not in container: if type(next_step) is str: # pylint: disable=unidiomatic-typecheck container[step] = {} else: container[step] = [] container = container[step] else: # handle list container if len(container) <= step: while len(container) <= step: container.append({}) container = container[step] return container def process_value(action, container, path, key, new_value): container = walk_container(container, path) if action == 'del': del container[key] elif action == 'mod': container[key] = new_value elif action == 'add': container[key] = new_value else: assert False, \ "BUG: Unknown action: {}".format(action) roundtrip_cache = {} for key, action in actions.items(): # Obtain the top level node and its file if action == 'add': provenance = node.get_provenance() else: provenance = node.get_node(key).get_provenance() toplevel_node = provenance._toplevel # Get the path to whatever changed if action == 'add': path = toplevel_node._find(node) else: full_path = toplevel_node._find(node.get_node(key)) # We want the path to the node containing the key, not to the key path = full_path[:-1] roundtrip_file = roundtrip_cache.get(provenance._filename) if not roundtrip_file: roundtrip_file = roundtrip_cache[provenance._filename] = _yaml.roundtrip_load( provenance._filename, allow_missing=True ) # Get the value of the round trip file that we need to change process_value(action, roundtrip_file, path, key, to_modify.get(key)) # # Step 3 - Apply the change in project data # for filename, data in roundtrip_cache.items(): # This is our roundtrip dump from the track try: _yaml.roundtrip_dump(data, filename) except OSError as e: raise SourceError("{}: Error saving source reference to '{}': {}" .format(self, filename, e), reason="save-ref-error") from e return True # Wrapper for track() # # Args: # previous_sources (list): List of Sources listed prior to this source # def _track(self, previous_sources): if self.BST_REQUIRES_PREVIOUS_SOURCES_TRACK: self.__ensure_previous_sources(previous_sources) with self.__stage_previous_sources(previous_sources) \ as staging_directory: new_ref = self.__do_track(previous_sources_dir=self.__ensure_directory(staging_directory)) else: new_ref = self.__do_track() current_ref = self.get_ref() # pylint: disable=assignment-from-no-return if new_ref is None: # No tracking, keep current ref new_ref = current_ref if current_ref != new_ref: self.info("Found new revision: {}".format(new_ref)) # Save ref in local process for subsequent sources self._set_ref(new_ref, save=False) return new_ref # _requires_previous_sources() # # If a plugin requires access to previous sources at track or fetch time, # then it cannot be the first source of an elemenet. # # Returns: # (bool): Whether this source requires access to previous sources # def _requires_previous_sources(self): return self.BST_REQUIRES_PREVIOUS_SOURCES_TRACK or self.BST_REQUIRES_PREVIOUS_SOURCES_FETCH # Returns the alias if it's defined in the project def _get_alias(self): alias = self.__expected_alias project = self._get_project() if project.get_alias_uri(alias, first_pass=self.__first_pass): # The alias must already be defined in the project's aliases # otherwise http://foo gets treated like it contains an alias return alias else: return None def _generate_key(self, previous_sources): keys = [self._get_unique_key(True)] if self.BST_REQUIRES_PREVIOUS_SOURCES_STAGE: for previous_source in previous_sources: keys.append(previous_source._get_unique_key(True)) self.__key = generate_key(keys) @property def _key(self): return self.__key # Gives a ref path that points to where sources are kept in the CAS def _get_source_name(self): # @ is used to prevent conflicts with project names return "{}/{}".format( self.get_kind(), self._key) def _get_brief_display_key(self): context = self._get_context() key = self._key length = min(len(key), context.log_key_length) return key[:length] # _get_args_for_child_job_pickling(self) # # Return data necessary to reconstruct this object in a child job process. # # Returns: # (PluginContext, str, dict): A tuple of (factory, meta_kind, state), # where `factory` is an object that can use `meta_kind` to create an # instance of the same type as `self`. `state` is what we want # `self.__dict__` to be restored to after instantiation in the child # process. # def _get_args_for_child_job_pickling(self): factory = self._get_project().config.source_factory # In case you're wondering, note that it doesn't seem to be necessary # to make a copy of `self.__dict__` here, because: # # o It seems that the default implementation of `_PyObject_GetState` # in `typeobject.c` currently works this way, in CPython. # # o The code sketch of how pickling works also returns `self.__dict__`: # https://docs.python.org/3/library/pickle.html#pickling-class-instances # return factory, self.__meta_kind, self.__dict__ ############################################################# # Local Private Methods # ############################################################# # __clone_for_uri() # # Clone the source with an alternative URI setup for the alias # which this source uses. # # This is used for iteration over source mirrors. # # Args: # uri (str): The alternative URI for this source's alias # # Returns: # (Source): A new clone of this Source, with the specified URI # as the value of the alias this Source has marked as # primary with either mark_download_url() or # translate_url(). # def __clone_for_uri(self, uri): project = self._get_project() context = self._get_context() alias = self._get_alias() source_kind = type(self) # Rebuild a MetaSource from the current element meta = MetaSource( self.__element_name, self.__element_index, self.__element_kind, self.get_kind(), self.__config, self.__directory, ) meta.first_pass = self.__first_pass clone = source_kind(context, project, meta, alias_override=(alias, uri), unique_id=self._unique_id) # Do the necessary post instantiation routines here # clone._preflight() clone._load_ref() clone._update_state() return clone # Context manager that stages sources in a cas based or temporary file # based directory @contextmanager def __stage_previous_sources(self, sources): with self.tempdir() as tempdir: directory = FileBasedDirectory(external_directory=tempdir) for src in sources: if src.BST_STAGE_VIRTUAL_DIRECTORY: src._stage(directory) else: src._stage(tempdir) if self.BST_STAGE_VIRTUAL_DIRECTORY: yield directory else: yield tempdir # Tries to call fetch for every mirror, stopping once it succeeds def __do_fetch(self, **kwargs): project = self._get_project() context = self._get_context() # Silence the STATUS messages which might happen as a result # of checking the source fetchers. with context.messenger.silence(): source_fetchers = self.get_source_fetchers() # Use the source fetchers if they are provided # if source_fetchers: # Use a contorted loop here, this is to allow us to # silence the messages which can result from consuming # the items of source_fetchers, if it happens to be a generator. # source_fetchers = iter(source_fetchers) while True: with context.messenger.silence(): try: fetcher = next(source_fetchers) except StopIteration: # as per PEP479, we are not allowed to let StopIteration # thrown from a context manager. # Catching it here and breaking instead. break alias = fetcher._get_alias() for uri in project.get_alias_uris(alias, first_pass=self.__first_pass): try: fetcher.fetch(uri) # FIXME: Need to consider temporary vs. permanent failures, # and how this works with retries. except BstError as e: last_error = e continue # No error, we're done with this fetcher break else: # No break occurred, raise the last detected error raise last_error # Default codepath is to reinstantiate the Source # else: alias = self._get_alias() if self.__first_pass: mirrors = project.first_pass_config.mirrors else: mirrors = project.config.mirrors if not mirrors or not alias: self.fetch(**kwargs) return for uri in project.get_alias_uris(alias, first_pass=self.__first_pass): new_source = self.__clone_for_uri(uri) try: new_source.fetch(**kwargs) # FIXME: Need to consider temporary vs. permanent failures, # and how this works with retries. except BstError as e: last_error = e continue # No error, we're done here return # Re raise the last detected error raise last_error # Tries to call track for every mirror, stopping once it succeeds def __do_track(self, **kwargs): project = self._get_project() alias = self._get_alias() if self.__first_pass: mirrors = project.first_pass_config.mirrors else: mirrors = project.config.mirrors # If there are no mirrors, or no aliases to replace, there's nothing to do here. if not mirrors or not alias: return self.track(**kwargs) # NOTE: We are assuming here that tracking only requires substituting the # first alias used for uri in reversed(project.get_alias_uris(alias, first_pass=self.__first_pass)): new_source = self.__clone_for_uri(uri) try: ref = new_source.track(**kwargs) # pylint: disable=assignment-from-none # FIXME: Need to consider temporary vs. permanent failures, # and how this works with retries. except BstError as e: last_error = e continue return ref raise last_error # Ensures a fully constructed path and returns it def __ensure_directory(self, directory): if not isinstance(directory, Directory): if self.__directory is not None: directory = os.path.join(directory, self.__directory.lstrip(os.sep)) try: os.makedirs(directory, exist_ok=True) except OSError as e: raise SourceError("Failed to create staging directory: {}" .format(e), reason="ensure-stage-dir-fail") from e else: if self.__directory is not None: try: directory = directory.descend( *self.__directory.lstrip(os.sep).split(os.sep), create=True) except VirtualDirectoryError as e: raise SourceError("Failed to descend into staging directory: {}" .format(e), reason="ensure-stage-dir-fail") from e return directory @classmethod def __init_defaults(cls, project, meta): if cls.__defaults is None: if meta.first_pass: sources = project.first_pass_config.source_overrides else: sources = project.source_overrides cls.__defaults = sources.get_mapping(meta.kind, default={}) # This will resolve the final configuration to be handed # off to source.configure() # @classmethod def __extract_config(cls, meta): config = cls.__defaults.get_mapping('config', default={}) config = config.clone() meta.config._composite(config) config._assert_fully_composited() return config # Ensures that previous sources have been tracked and fetched. # def __ensure_previous_sources(self, previous_sources): for index, src in enumerate(previous_sources): # BuildStream should track sources in the order they appear so # previous sources should never be in an inconsistent state assert src.get_consistency() != Consistency.INCONSISTENT if src.get_consistency() == Consistency.RESOLVED: src._fetch(previous_sources[0:index]) def _extract_alias(url): parts = url.split(utils._ALIAS_SEPARATOR, 1) if len(parts) > 1 and not parts[0].lower() in utils._URI_SCHEMES: return parts[0] else: return ""