mirror of
https://github.com/espressif/esp-idf.git
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432 lines
16 KiB
Python
432 lines
16 KiB
Python
#
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# Copyright 2021 Espressif Systems (Shanghai) CO LTD
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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#
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import collections
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import fnmatch
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import itertools
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from collections import namedtuple
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from entity import Entity
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from fragments import Mapping, Scheme, Sections
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from ldgen_common import LdGenFailure
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from output_commands import InputSectionDesc
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class RuleNode():
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class Section():
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def __init__(self, target, exclusions, explicit=False):
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self.target = target
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self.exclusions = set(exclusions)
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# Indicate whether this node has been created explicitly from a mapping,
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# or simply just to create a path to the explicitly created node.
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#
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# For example,
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#
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# lib.a
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# obj:sym (scheme)
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#
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# Nodes for lib.a and obj will be created, but only the node for
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# sym will have been created explicitly.
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#
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# This is used in deciding whether or not an output command should
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# be emitted for this node, or for exclusion rule generation.
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self.explicit = explicit
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def __init__(self, parent, name, sections):
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self.children = []
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self.parent = parent
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self.name = name
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self.child_node = None
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self.entity = None
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self.sections = dict()
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# A node inherits the section -> target entries from
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# its parent. This is to simplify logic, avoiding
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# going up the parental chain to try a 'basis' rule
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# in creating exclusions. This relies on the fact that
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# the mappings must be inserted from least to most specific.
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# This sort is done in generate_rules().
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if sections:
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for (s, v) in sections.items():
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self.sections[s] = RuleNode.Section(v.target, [], [])
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def add_exclusion(self, sections, exclusion):
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self.sections[sections].exclusions.add(exclusion)
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# Recursively create exclusions in parents
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if self.parent:
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self.exclude_from_parent(sections)
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def add_sections(self, sections, target):
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try:
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_sections = self.sections[sections]
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if not _sections.explicit:
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_sections.target = target
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_sections.explicit = True
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else:
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if target != _sections.target:
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raise GenerationException('Sections mapped to multiple targets')
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except KeyError:
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self.sections[sections] = RuleNode.Section(target, [], True)
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def exclude_from_parent(self, sections):
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self.parent.add_exclusion(sections, self.entity)
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def add_child(self, entity):
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child_specificity = self.entity.specificity.value + 1
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assert(child_specificity <= Entity.Specificity.SYMBOL.value)
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name = entity[Entity.Specificity(child_specificity)]
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assert(name and name != Entity.ALL)
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child = [c for c in self.children if c.name == name]
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assert(len(child) <= 1)
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if not child:
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child = self.child_node(self, name, self.sections)
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self.children.append(child)
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else:
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child = child[0]
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return child
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def get_output_commands(self):
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commands = collections.defaultdict(list)
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def process_commands(cmds):
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for (target, commands_list) in cmds.items():
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commands[target].extend(commands_list)
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# Process the commands generated from this node
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node_commands = self.get_node_output_commands()
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process_commands(node_commands)
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# Process the commands generated from this node's children
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# recursively
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for child in sorted(self.children, key=lambda c: c.name):
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children_commands = child.get_output_commands()
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process_commands(children_commands)
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return commands
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def add_node_child(self, entity, sections, target, sections_db):
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child = self.add_child(entity)
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child.insert(entity, sections, target, sections_db)
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def get_node_output_commands(self):
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commands = collections.defaultdict(list)
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for sections in self.get_section_keys():
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info = self.sections[sections]
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if info.exclusions or info.explicit:
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command = InputSectionDesc(self.entity, sections, info.exclusions)
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commands[info.target].append(command)
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return commands
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def insert(self, entity, sections, target, sections_db):
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if self.entity.specificity == entity.specificity:
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if self.parent.sections[sections].target != target:
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self.add_sections(sections, target)
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self.exclude_from_parent(sections)
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else:
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self.add_node_child(entity, sections, target, sections_db)
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def get_section_keys(self):
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return sorted(self.sections.keys(), key=' '.join)
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class SymbolNode(RuleNode):
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def __init__(self, parent, name, sections):
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RuleNode.__init__(self, parent, name, sections)
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self.entity = Entity(self.parent.parent.name, self.parent.name, self.name)
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def insert(self, entity, sections, target, sections_db):
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self.add_sections(sections, target)
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def get_node_output_commands(self):
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commands = collections.defaultdict(list)
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for sections in self.get_section_keys():
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info = self.sections[sections]
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if info.explicit:
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command = InputSectionDesc(Entity(self.parent.parent.name, self.parent.name), sections, [])
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commands[info.target].append(command)
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return commands
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class ObjectNode(RuleNode):
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def __init__(self, parent, name, sections):
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RuleNode.__init__(self, parent, name, sections)
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self.child_node = SymbolNode
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self.expanded_sections = dict()
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self.entity = Entity(self.parent.name, self.name)
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def add_node_child(self, entity, sections, target, sections_db):
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if self.sections[sections].target != target:
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symbol = entity.symbol
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match_sections = None
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obj_sections = sections_db.get_sections(self.parent.name, self.name)
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try:
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match_sections = self.expanded_sections[sections]
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except KeyError:
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match_sections = []
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for s in sections:
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match_sections.extend(fnmatch.filter(obj_sections, s))
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if match_sections:
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remove_sections = [s.replace('.*', '.%s' % symbol) for s in sections if '.*' in s]
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filtered_sections = [s for s in match_sections if s not in remove_sections]
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if set(filtered_sections) != set(match_sections): # some sections removed
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child = self.add_child(entity)
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child.insert(entity, frozenset(remove_sections), target, obj_sections)
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# Remember the result for node command generation
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self.expanded_sections[sections] = filtered_sections
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self.exclude_from_parent(sections)
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def get_node_output_commands(self):
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commands = collections.defaultdict(list)
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for sections in self.get_section_keys():
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info = self.sections[sections]
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try:
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match_sections = self.expanded_sections[sections]
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except KeyError:
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match_sections = []
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if match_sections or info.explicit:
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command_sections = match_sections if match_sections else sections
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command = InputSectionDesc(self.entity, command_sections, [])
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commands[info.target].append(command)
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return commands
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def exclude_from_parent(self, sections):
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# Check if there is an explicit emmission for the parent node, which is an archive node.
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# If there is, make the exclusion there. If not, make the exclusion on the root node.
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# This is to avoid emitting unecessary command and exclusions for the archive node and
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# from the root node, respectively.
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if self.parent.sections[sections].explicit:
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self.parent.add_exclusion(sections, self.entity)
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else:
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self.parent.parent.add_exclusion(sections, self.entity)
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class ArchiveNode(RuleNode):
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def __init__(self, parent, name, sections):
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RuleNode.__init__(self, parent, name, sections)
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self.child_node = ObjectNode
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self.entity = Entity(self.name)
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class RootNode(RuleNode):
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def __init__(self):
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RuleNode.__init__(self, None, Entity.ALL, None)
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self.child_node = ArchiveNode
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self.entity = Entity('*')
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def insert(self, entity, sections, target, sections_db):
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if self.entity.specificity == entity.specificity:
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self.add_sections(sections, target)
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else:
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self.add_node_child(entity, sections, target, sections_db)
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class Generation:
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"""
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Implements generation of placement rules based on collected sections, scheme and mapping fragment.
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"""
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DEFAULT_SCHEME = 'default'
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# Processed mapping, scheme and section entries
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EntityMapping = namedtuple('EntityMapping', 'entity sections_group target')
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def __init__(self, check_mappings=False, check_mapping_exceptions=None):
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self.schemes = {}
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self.sections = {}
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self.mappings = {}
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self.check_mappings = check_mappings
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if check_mapping_exceptions:
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self.check_mapping_exceptions = check_mapping_exceptions
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else:
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self.check_mapping_exceptions = []
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def _build_scheme_dictionary(self):
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scheme_dictionary = collections.defaultdict(dict)
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# Collect sections into buckets based on target name
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for scheme in self.schemes.values():
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sections_bucket = collections.defaultdict(list)
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for (sections_name, target_name) in scheme.entries:
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# Get the sections under the bucket 'target_name'. If this bucket does not exist
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# is is created automatically
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sections_in_bucket = sections_bucket[target_name]
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try:
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sections = self.sections[sections_name]
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except KeyError:
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message = GenerationException.UNDEFINED_REFERENCE + " to sections '" + sections_name + "'."
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raise GenerationException(message, scheme)
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sections_in_bucket.append(sections)
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scheme_dictionary[scheme.name] = sections_bucket
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# Search for and raise exception on first instance of sections mapped to multiple targets
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for (scheme_name, sections_bucket) in scheme_dictionary.items():
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for sections_a, sections_b in itertools.combinations(sections_bucket.values(), 2):
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set_a = set()
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set_b = set()
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for sections in sections_a:
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set_a.update(sections.entries)
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for sections in sections_b:
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set_b.update(sections.entries)
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intersection = set_a.intersection(set_b)
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# If the intersection is a non-empty set, it means sections are mapped to multiple
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# targets. Raise exception.
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if intersection:
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scheme = self.schemes[scheme_name]
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message = 'Sections ' + str(intersection) + ' mapped to multiple targets.'
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raise GenerationException(message, scheme)
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return scheme_dictionary
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def get_section_strs(self, section):
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s_list = [Sections.get_section_data_from_entry(s) for s in section.entries]
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return frozenset([item for sublist in s_list for item in sublist])
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def _generate_entity_mappings(self, scheme_dictionary, entities):
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entity_mappings = []
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for mapping in self.mappings.values():
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archive = mapping.archive
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for (obj, symbol, scheme_name) in mapping.entries:
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entity = Entity(archive, obj, symbol)
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# Check the entity exists
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if (self.check_mappings and
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entity.specificity.value > Entity.Specificity.ARCHIVE.value and
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mapping.name not in self.check_mapping_exceptions):
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if not entities.check_exists(entity):
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message = "'%s' not found" % str(entity)
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raise GenerationException(message, mapping)
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# Create placement rule for each 'section -> target' in the scheme.
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#
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# For example. for the mapping entry:
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#
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# obj (scheme)
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#
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# The enumrated to:
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#
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# obj (section1 -> target1)
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# obj (section2 -> target2)
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# ...
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for (target, sections) in scheme_dictionary[scheme_name].items():
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for section in sections:
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entity_mappings.append(Generation.EntityMapping(entity, self.get_section_strs(section), target))
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return entity_mappings
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def generate_rules(self, entities):
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scheme_dictionary = self._build_scheme_dictionary()
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entity_mappings = self._generate_entity_mappings(scheme_dictionary, entities)
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entity_mappings.sort(key=lambda m: m.entity)
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# Create root nodes dictionary for the default scheme, whose
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# key is the target name and value is a list of the root nodes for that target.
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root_node = RootNode()
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for (target, sections) in scheme_dictionary['default'].items():
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for section in sections:
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root_node.insert(Entity(), self.get_section_strs(section), target, entities)
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for mapping in entity_mappings:
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(entity, sections, target) = mapping
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try:
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root_node.insert(entity, sections, target, entities)
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except ValueError as e:
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raise GenerationException(str(e))
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# Traverse the tree, creating the rules
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commands = root_node.get_output_commands()
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return commands
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def add_fragments_from_file(self, fragment_file):
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for fragment in fragment_file.fragments:
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dict_to_append_to = None
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if isinstance(fragment, Mapping) and fragment.deprecated and fragment.name in self.mappings.keys():
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self.mappings[fragment.name].entries |= fragment.entries
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else:
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if isinstance(fragment, Scheme):
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dict_to_append_to = self.schemes
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elif isinstance(fragment, Sections):
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dict_to_append_to = self.sections
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else:
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dict_to_append_to = self.mappings
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# Raise exception when the fragment of the same type is already in the stored fragments
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if fragment.name in dict_to_append_to.keys():
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stored = dict_to_append_to[fragment.name].path
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new = fragment.path
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message = "Duplicate definition of fragment '%s' found in %s and %s." % (fragment.name, stored, new)
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raise GenerationException(message)
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dict_to_append_to[fragment.name] = fragment
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class GenerationException(LdGenFailure):
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"""
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Exception for linker script generation failures such as undefined references/ failure to
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evaluate conditions, duplicate mappings, etc.
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"""
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UNDEFINED_REFERENCE = 'Undefined reference'
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def __init__(self, message, fragment=None):
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self.fragment = fragment
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self.message = message
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def __str__(self):
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if self.fragment:
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return "%s\nIn fragment '%s' defined in '%s'." % (self.message, self.fragment.name, self.fragment.path)
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else:
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return self.message
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