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#!/usr/bin/env python3
#
# Copyright (C) 2018 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 <http://www.gnu.org/licenses/>.
#
# Authors:
# Tristan Van Berkom <tristan.vanberkom@codethink.co.uk>
import os
from functools import cmp_to_key
from collections import Mapping, namedtuple
import tempfile
import shutil
from .._exceptions import LoadError, LoadErrorReason
from .. import Consistency
from .._project import Project
from .. import _yaml
from ..element import Element
from .._profile import Topics, profile_start, profile_end
from .._platform import Platform
from .types import Symbol, Dependency
from .loadelement import LoadElement
from . import MetaElement
from . import MetaSource
# Loader():
#
# The Loader class does the heavy lifting of parsing target
# bst files and ultimately transforming them into a list of MetaElements
# with their own MetaSources, ready for instantiation by the core.
#
# Args:
# context (Context): The Context object
# project (Project): The toplevel Project object
# filenames (list of str): Target, element-path relative bst filenames in the project
# parent (Loader): A parent Loader object, in the case this is a junctioned Loader
# tempdir (str): A directory to cleanup with the Loader, given to the loader by a parent
# loader in the case that this loader is a subproject loader.
#
class Loader():
def __init__(self, context, project, filenames, *, parent=None, tempdir=None):
# Ensure we have an absolute path for the base directory
basedir = project.element_path
if not os.path.isabs(basedir):
basedir = os.path.abspath(basedir)
for filename in filenames:
if os.path.isabs(filename):
# XXX Should this just be an assertion ?
# Expect that the caller gives us the right thing at least ?
raise LoadError(LoadErrorReason.INVALID_DATA,
"Target '{}' was not specified as a relative "
"path to the base project directory: {}"
.format(filename, basedir))
#
# Public members
#
self.project = project # The associated Project
#
# Private members
#
self._context = context
self._options = project.options # Project options (OptionPool)
self._basedir = basedir # Base project directory
self._targets = filenames # Target bst elements
self._tempdir = tempdir # A directory to cleanup
self._parent = parent # The parent loader
self._meta_elements = {} # Dict of resolved meta elements by name
self._elements = {} # Dict of elements
self._loaders = {} # Dict of junction loaders
# load():
#
# Loads the project based on the parameters given to the constructor
#
# Args:
# rewritable (bool): Whether the loaded files should be rewritable
# this is a bit more expensive due to deep copies
# ticker (callable): An optional function for tracking load progress
#
# Raises: LoadError
#
# Returns: The toplevel LoadElement
def load(self, rewritable=False, ticker=None):
# First pass, recursively load files and populate our table of LoadElements
#
for target in self._targets:
profile_start(Topics.LOAD_PROJECT, target)
self._load_file(target, rewritable, ticker)
profile_end(Topics.LOAD_PROJECT, target)
#
# Now that we've resolve the dependencies, scan them for circular dependencies
#
# Set up a dummy element that depends on all top-level targets
# to resolve potential circular dependencies between them
DummyTarget = namedtuple('DummyTarget', ['name', 'full_name', 'deps'])
dummy = DummyTarget(name='', full_name='', deps=[Dependency(e) for e in self._targets])
self._elements[''] = dummy
profile_key = "_".join(t for t in self._targets)
profile_start(Topics.CIRCULAR_CHECK, profile_key)
self._check_circular_deps('')
profile_end(Topics.CIRCULAR_CHECK, profile_key)
#
# Sort direct dependencies of elements by their dependency ordering
#
for target in self._targets:
profile_start(Topics.SORT_DEPENDENCIES, target)
self._sort_dependencies(target)
profile_end(Topics.SORT_DEPENDENCIES, target)
# Finally, wrap what we have into LoadElements and return the target
#
return [self._collect_element(target) for target in self._targets]
# cleanup():
#
# Remove temporary checkout directories of subprojects
#
def cleanup(self):
if self._parent and not self._tempdir:
# already done
return
# recurse
for loader in self._loaders.values():
# value may be None with nested junctions without overrides
if loader is not None:
loader.cleanup()
if not self._parent:
# basedir of top-level loader is never a temporary directory
return
# safe guard to not accidentally delete directories outside builddir
if self._tempdir.startswith(self._context.builddir + os.sep):
if os.path.exists(self._tempdir):
shutil.rmtree(self._tempdir)
# get_element_for_dep():
#
# Gets a cached LoadElement by Dependency object
#
# This is used by LoadElement
#
# Args:
# dep (Dependency): The dependency to search for
#
# Returns:
# (LoadElement): The cached LoadElement
#
def get_element_for_dep(self, dep):
loader = self._get_loader_for_dep(dep)
return loader._elements[dep.name]
###########################################
# Private Methods #
###########################################
# _load_file():
#
# Recursively load bst files
#
# Args:
# filename (str): The element-path relative bst file
# rewritable (bool): Whether we should load in round trippable mode
# ticker (callable): A callback to report loaded filenames to the frontend
#
# Returns:
# (LoadElement): A loaded LoadElement
#
def _load_file(self, filename, rewritable, ticker):
# Silently ignore already loaded files
if filename in self._elements:
return self._elements[filename]
# Call the ticker
if ticker:
ticker(filename)
# Load the data and process any conditional statements therein
fullpath = os.path.join(self._basedir, filename)
node = _yaml.load(fullpath, shortname=filename, copy_tree=rewritable)
self._options.process_node(node)
element = LoadElement(node, filename, self)
self._elements[filename] = element
# Load all dependency files for the new LoadElement
for dep in element.deps:
if dep.junction:
self._load_file(dep.junction, rewritable, ticker)
loader = self._get_loader(dep.junction, rewritable=rewritable, ticker=ticker)
else:
loader = self
dep_element = loader._load_file(dep.name, rewritable, ticker)
if _yaml.node_get(dep_element.node, str, Symbol.KIND) == 'junction':
raise LoadError(LoadErrorReason.INVALID_DATA,
"{}: Cannot depend on junction"
.format(dep.provenance))
return element
# _check_circular_deps():
#
# Detect circular dependencies on LoadElements with
# dependencies already resolved.
#
# Args:
# element_name (str): The element-path relative element name to check
#
# Raises:
# (LoadError): In case there was a circular dependency error
#
def _check_circular_deps(self, element_name, check_elements=None, validated=None):
if check_elements is None:
check_elements = {}
if validated is None:
validated = {}
element = self._elements[element_name]
# element name must be unique across projects
# to be usable as key for the check_elements and validated dicts
element_name = element.full_name
# Skip already validated branches
if validated.get(element_name) is not None:
return
if check_elements.get(element_name) is not None:
raise LoadError(LoadErrorReason.CIRCULAR_DEPENDENCY,
"Circular dependency detected for element: {}"
.format(element.name))
# Push / Check each dependency / Pop
check_elements[element_name] = True
for dep in element.deps:
loader = self._get_loader_for_dep(dep)
loader._check_circular_deps(dep.name, check_elements, validated)
del check_elements[element_name]
# Eliminate duplicate paths
validated[element_name] = True
# _sort_dependencies():
#
# Sort dependencies of each element by their dependencies,
# so that direct dependencies which depend on other direct
# dependencies (directly or indirectly) appear later in the
# list.
#
# This avoids the need for performing multiple topological
# sorts throughout the build process.
#
# Args:
# element_name (str): The element-path relative element name to sort
#
def _sort_dependencies(self, element_name, visited=None):
if visited is None:
visited = {}
element = self._elements[element_name]
# element name must be unique across projects
# to be usable as key for the visited dict
element_name = element.full_name
if visited.get(element_name) is not None:
return
for dep in element.deps:
loader = self._get_loader_for_dep(dep)
loader._sort_dependencies(dep.name, visited=visited)
def dependency_cmp(dep_a, dep_b):
element_a = self.get_element_for_dep(dep_a)
element_b = self.get_element_for_dep(dep_b)
# Sort on inter element dependency first
if element_a.depends(element_b):
return 1
elif element_b.depends(element_a):
return -1
# If there are no inter element dependencies, place
# runtime only dependencies last
if dep_a.dep_type != dep_b.dep_type:
if dep_a.dep_type == Symbol.RUNTIME:
return 1
elif dep_b.dep_type == Symbol.RUNTIME:
return -1
# All things being equal, string comparison.
if dep_a.name > dep_b.name:
return 1
elif dep_a.name < dep_b.name:
return -1
# Sort local elements before junction elements
# and use string comparison between junction elements
if dep_a.junction and dep_b.junction:
if dep_a.junction > dep_b.junction:
return 1
elif dep_a.junction < dep_b.junction:
return -1
elif dep_a.junction:
return -1
elif dep_b.junction:
return 1
# This wont ever happen
return 0
# Now dependency sort, we ensure that if any direct dependency
# directly or indirectly depends on another direct dependency,
# it is found later in the list.
element.deps.sort(key=cmp_to_key(dependency_cmp))
visited[element_name] = True
# _collect_element()
#
# Collect the toplevel elements we have
#
# Args:
# element_name (str): The element-path relative element name to sort
#
# Returns:
# (MetaElement): A recursively loaded MetaElement
#
def _collect_element(self, element_name):
element = self._elements[element_name]
# Return the already built one, if we already built it
meta_element = self._meta_elements.get(element_name)
if meta_element:
return meta_element
node = element.node
elt_provenance = _yaml.node_get_provenance(node)
meta_sources = []
sources = _yaml.node_get(node, list, Symbol.SOURCES, default_value=[])
element_kind = _yaml.node_get(node, str, Symbol.KIND)
# Safe loop calling into _yaml.node_get() for each element ensures
# we have good error reporting
for i in range(len(sources)):
source = _yaml.node_get(node, Mapping, Symbol.SOURCES, indices=[i])
kind = _yaml.node_get(source, str, Symbol.KIND)
del source[Symbol.KIND]
# Directory is optional
directory = _yaml.node_get(source, str, Symbol.DIRECTORY, default_value=None)
if directory:
del source[Symbol.DIRECTORY]
index = sources.index(source)
meta_source = MetaSource(element_name, index, element_kind, kind, source, directory)
meta_sources.append(meta_source)
meta_element = MetaElement(self.project, element_name, element_kind,
elt_provenance, meta_sources,
_yaml.node_get(node, Mapping, Symbol.CONFIG, default_value={}),
_yaml.node_get(node, Mapping, Symbol.VARIABLES, default_value={}),
_yaml.node_get(node, Mapping, Symbol.ENVIRONMENT, default_value={}),
_yaml.node_get(node, list, Symbol.ENV_NOCACHE, default_value=[]),
_yaml.node_get(node, Mapping, Symbol.PUBLIC, default_value={}),
_yaml.node_get(node, Mapping, Symbol.SANDBOX, default_value={}))
# Cache it now, make sure it's already there before recursing
self._meta_elements[element_name] = meta_element
# Descend
for dep in element.deps:
if element_kind == 'junction':
raise LoadError(LoadErrorReason.INVALID_DATA,
"{}: Junctions do not support dependencies".format(dep.provenance))
loader = self._get_loader_for_dep(dep)
meta_dep = loader._collect_element(dep.name)
if dep.dep_type != 'runtime':
meta_element.build_dependencies.append(meta_dep)
if dep.dep_type != 'build':
meta_element.dependencies.append(meta_dep)
return meta_element
# _get_loader():
#
# Return loader for specified junction
#
# Args:
# filename (str): Junction name
#
# Raises: LoadError
#
# Returns: A Loader or None if specified junction does not exist
def _get_loader(self, filename, *, rewritable=False, ticker=None, level=0):
# return previously determined result
if filename in self._loaders:
loader = self._loaders[filename]
if loader is None:
# do not allow junctions with the same name in different
# subprojects
raise LoadError(LoadErrorReason.CONFLICTING_JUNCTION,
"Conflicting junction {} in subprojects, define junction in {}"
.format(filename, self.project.name))
return loader
if self._parent:
# junctions in the parent take precedence over junctions defined
# in subprojects
loader = self._parent._get_loader(filename, rewritable=rewritable, ticker=ticker, level=level + 1)
if loader:
self._loaders[filename] = loader
return loader
try:
self._load_file(filename, rewritable, ticker)
except LoadError as e:
if e.reason != LoadErrorReason.MISSING_FILE:
# other load error
raise
if level == 0:
# junction element not found in this or ancestor projects
raise
else:
# mark junction as not available to allow detection of
# conflicting junctions in subprojects
self._loaders[filename] = None
return None
# meta junction element
meta_element = self._collect_element(filename)
if meta_element.kind != 'junction':
raise LoadError(LoadErrorReason.INVALID_DATA,
"{}: Expected junction but element kind is {}".format(filename, meta_element.kind))
platform = Platform.get_platform()
element = Element._new_from_meta(meta_element, platform.artifactcache)
element._preflight()
for source in element.sources():
# Handle the case where a subproject needs to be fetched
#
if source.get_consistency() == Consistency.RESOLVED:
if self._context.fetch_subprojects:
if ticker:
ticker(filename, 'Fetching subproject from {} source'.format(source.get_kind()))
source.fetch()
else:
detail = "Try fetching the project with `bst fetch {}`".format(filename)
raise LoadError(LoadErrorReason.SUBPROJECT_FETCH_NEEDED,
"Subproject fetch needed for junction: {}".format(filename),
detail=detail)
# Handle the case where a subproject has no ref
#
elif source.get_consistency() == Consistency.INCONSISTENT:
detail = "Try tracking the junction element with `bst track {}`".format(filename)
raise LoadError(LoadErrorReason.SUBPROJECT_INCONSISTENT,
"Subproject has no ref for junction: {}".format(filename),
detail=detail)
# Stage sources
os.makedirs(self._context.builddir, exist_ok=True)
basedir = tempfile.mkdtemp(prefix="{}-".format(element.normal_name), dir=self._context.builddir)
element._stage_sources_at(basedir, mount_workspaces=False)
# Load the project
project_dir = os.path.join(basedir, element.path)
try:
project = Project(project_dir, self._context, junction=element)
except LoadError as e:
if e.reason == LoadErrorReason.MISSING_PROJECT_CONF:
raise LoadError(reason=LoadErrorReason.INVALID_JUNCTION,
message="Could not find the project.conf file for {}. "
"Expecting a project at path '{}'"
.format(element, element.path or '.')) from e
else:
raise
loader = Loader(self._context, project, [], parent=self, tempdir=basedir)
self._loaders[filename] = loader
return loader
# _get_loader_for_dep():
#
# Gets the appropriate Loader for a Dependency object
#
# Args:
# dep (Dependency): A Dependency object
#
# Returns:
# (Loader): The Loader object to use for this Dependency
#
def _get_loader_for_dep(self, dep):
if dep.junction:
# junction dependency, delegate to appropriate loader
return self._loaders[dep.junction]
else:
return self
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