esp-idf/tools/ldgen/generation.py

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#
# Copyright 2018-2019 Espressif Systems (Shanghai) PTE LTD
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
import collections
import itertools
import os
import fnmatch
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from fragments import Sections, Scheme, Mapping, Fragment
from pyparsing import Suppress, White, ParseException, Literal, Group, ZeroOrMore
from pyparsing import Word, OneOrMore, nums, alphas, restOfLine, SkipTo
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from ldgen_common import LdGenFailure
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class PlacementRule():
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"""
Encapsulates a generated placement rule placed under a target
"""
DEFAULT_SPECIFICITY = 0
ARCHIVE_SPECIFICITY = 1
OBJECT_SPECIFICITY = 2
SYMBOL_SPECIFICITY = 3
class __container():
def __init__(self, content):
self.content = content
__metadata = collections.namedtuple("__metadata", "excludes expansions expanded")
def __init__(self, archive, obj, symbol, sections, target):
if archive == "*":
archive = None
if obj == "*":
obj = None
self.archive = archive
self.obj = obj
self.symbol = symbol
self.target = target
self.sections = dict()
self.specificity = 0
self.specificity += 1 if self.archive else 0
self.specificity += 1 if (self.obj and not self.obj == '*') else 0
self.specificity += 1 if self.symbol else 0
for section in sections:
section_data = Sections.get_section_data_from_entry(section, self.symbol)
if not self.symbol:
for s in section_data:
metadata = self.__metadata(self.__container([]), self.__container([]), self.__container(False))
self.sections[s] = metadata
else:
(section, expansion) = section_data
if expansion:
metadata = self.__metadata(self.__container([]), self.__container([expansion]), self.__container(True))
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self.sections[section] = metadata
def get_section_names(self):
return self.sections.keys()
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def add_exclusion(self, other, sections_infos=None):
# Utility functions for this method
def do_section_expansion(rule, section):
if section in rule.get_section_names():
sections_in_obj = sections_infos.get_obj_sections(rule.archive, rule.obj)
expansions = fnmatch.filter(sections_in_obj, section)
return expansions
def remove_section_expansions(rule, section, expansions):
existing_expansions = self.sections[section].expansions.content
self.sections[section].expansions.content = [e for e in existing_expansions if e not in expansions]
# Exit immediately if the exclusion to be added is more general than this rule.
if not other.is_more_specific_rule_of(self):
return
for section in self.get_sections_intersection(other):
if(other.specificity == PlacementRule.SYMBOL_SPECIFICITY):
# If this sections has not been expanded previously, expand now and keep track.
previously_expanded = self.sections[section].expanded.content
if not previously_expanded:
expansions = do_section_expansion(self, section)
if expansions:
self.sections[section].expansions.content = expansions
self.sections[section].expanded.content = True
previously_expanded = True
# Remove the sections corresponding to the symbol name
remove_section_expansions(self, section, other.sections[section].expansions.content)
# If it has been expanded previously but now the expansions list is empty,
# it means adding exclusions has exhausted the list. Remove the section entirely.
if previously_expanded and not self.sections[section].expanded.content:
del self.sections[section]
else:
# A rule section can have multiple rule sections excluded from it. Get the
# most specific rule from the list, and if an even more specific rule is found,
# replace it entirely. Otherwise, keep appending.
exclusions = self.sections[section].excludes
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exclusions_list = exclusions.content if exclusions.content is not None else []
exclusions_to_remove = filter(lambda r: r.is_more_specific_rule_of(other), exclusions_list)
remaining_exclusions = [e for e in exclusions_list if e not in exclusions_to_remove]
remaining_exclusions.append(other)
self.sections[section].excludes.content = remaining_exclusions
def get_sections_intersection(self, other):
return set(self.sections.keys()).intersection(set(other.sections.keys()))
def is_more_specific_rule_of(self, other):
if (self.specificity <= other.specificity):
return False
# Compare archive, obj and target
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for entity_index in range(1, other.specificity + 1):
if self[entity_index] != other[entity_index] and other[entity_index] is not None:
return False
return True
def maps_same_entities_as(self, other):
if self.specificity != other.specificity:
return False
# Compare archive, obj and target
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for entity_index in range(1, other.specificity + 1):
if self[entity_index] != other[entity_index] and other[entity_index] is not None:
return False
return True
def __getitem__(self, key):
if key == PlacementRule.ARCHIVE_SPECIFICITY:
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return self.archive
elif key == PlacementRule.OBJECT_SPECIFICITY:
return self.obj
elif key == PlacementRule.SYMBOL_SPECIFICITY:
return self.symbol
else:
return None
def __str__(self):
sorted_sections = sorted(self.get_section_names())
sections_string = list()
for section in sorted_sections:
exclusions = self.sections[section].excludes.content
exclusion_string = None
if exclusions:
exclusion_string = " ".join(map(lambda e: "*" + e.archive + (":" + e.obj + ".*" if e.obj else ""), exclusions))
exclusion_string = "EXCLUDE_FILE(" + exclusion_string + ")"
else:
exclusion_string = ""
section_string = None
exclusion_section_string = None
section_expansions = self.sections[section].expansions.content
section_expanded = self.sections[section].expanded.content
if section_expansions and section_expanded:
section_string = " ".join(section_expansions)
exclusion_section_string = section_string
else:
section_string = section
exclusion_section_string = exclusion_string + " " + section_string
sections_string.append(exclusion_section_string)
sections_string = " ".join(sections_string)
archive = str(self.archive) if self.archive else ""
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obj = (str(self.obj) + (".*" if self.obj else "")) if self.obj else ""
# Handle output string generation based on information available
if self.specificity == PlacementRule.DEFAULT_SPECIFICITY:
rule_string = "*(%s)" % (sections_string)
elif self.specificity == PlacementRule.ARCHIVE_SPECIFICITY:
rule_string = "*%s:(%s)" % (archive, sections_string)
else:
rule_string = "*%s:%s(%s)" % (archive, obj, sections_string)
return rule_string
def __eq__(self, other):
if id(self) == id(other):
return True
def exclusions_set(exclusions):
exclusions_set = {(e.archive, e.obj, e.symbol, e.target) for e in exclusions}
return exclusions_set
if self.archive != other.archive:
return False
if self.obj != other.obj:
return False
if self.symbol != other.symbol:
return False
if set(self.sections.keys()) != set(other.sections.keys()):
return False
for (section, metadata) in self.sections.items():
self_meta = metadata
other_meta = other.sections[section]
if exclusions_set(self_meta.excludes.content) != exclusions_set(other_meta.excludes.content):
return False
if set(self_meta.expansions.content) != set(other_meta.expansions.content):
return False
return True
def __ne__(self, other):
return not self.__eq__(other)
def __iter__(self):
yield self.archive
yield self.obj
yield self.symbol
raise StopIteration
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class GenerationModel:
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"""
Implements generation of placement rules based on collected sections, scheme and mapping fragment.
"""
DEFAULT_SCHEME = "default"
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def __init__(self, check_mappings=False, check_mapping_exceptions=None):
self.schemes = {}
self.sections = {}
self.mappings = {}
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self.check_mappings = check_mappings
if check_mapping_exceptions:
self.check_mapping_exceptions = check_mapping_exceptions
else:
self.check_mapping_exceptions = []
def _add_mapping_rules(self, archive, obj, symbol, scheme_name, scheme_dict, rules):
# Use an ordinary dictionary to raise exception on non-existing keys
temp_dict = dict(scheme_dict)
sections_bucket = temp_dict[scheme_name]
for (target, sections) in sections_bucket.items():
section_entries = []
for section in sections:
section_entries.extend(section.entries)
rule = PlacementRule(archive, obj, symbol, section_entries, target)
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if rule not in rules:
rules.append(rule)
def _build_scheme_dictionary(self):
scheme_dictionary = collections.defaultdict(dict)
# Collect sections into buckets based on target name
for scheme in self.schemes.values():
sections_bucket = collections.defaultdict(list)
for (sections_name, target_name) in scheme.entries:
# Get the sections under the bucket 'target_name'. If this bucket does not exist
# is is created automatically
sections_in_bucket = sections_bucket[target_name]
try:
sections = self.sections[sections_name]
except KeyError:
message = GenerationException.UNDEFINED_REFERENCE + " to sections '" + sections + "'."
raise GenerationException(message, scheme)
sections_in_bucket.append(sections)
scheme_dictionary[scheme.name] = sections_bucket
# Search for and raise exception on first instance of sections mapped to multiple targets
for (scheme_name, sections_bucket) in scheme_dictionary.items():
for sections_a, sections_b in itertools.combinations(sections_bucket.values(), 2):
set_a = set()
set_b = set()
for sections in sections_a:
set_a.update(sections.entries)
for sections in sections_b:
set_b.update(sections.entries)
intersection = set_a.intersection(set_b)
# If the intersection is a non-empty set, it means sections are mapped to multiple
# targets. Raise exception.
if intersection:
scheme = self.schemes[scheme_name]
message = "Sections " + str(intersection) + " mapped to multiple targets."
raise GenerationException(message, scheme)
return scheme_dictionary
def generate_rules(self, sections_infos):
scheme_dictionary = self._build_scheme_dictionary()
# Generate default rules
default_rules = list()
self._add_mapping_rules(None, None, None, GenerationModel.DEFAULT_SCHEME, scheme_dictionary, default_rules)
all_mapping_rules = collections.defaultdict(list)
# Generate rules based on mapping fragments
for mapping in self.mappings.values():
archive = mapping.archive
mapping_rules = all_mapping_rules[archive]
for (obj, symbol, scheme_name) in mapping.entries:
try:
if not (obj == Mapping.MAPPING_ALL_OBJECTS and symbol is None and
scheme_name == GenerationModel.DEFAULT_SCHEME):
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if self.check_mappings and mapping.name not in self.check_mapping_exceptions:
if not obj == Mapping.MAPPING_ALL_OBJECTS:
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obj_sections = sections_infos.get_obj_sections(archive, obj)
if not obj_sections:
message = "'%s:%s' not found" % (archive, obj)
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raise GenerationException(message, mapping)
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if symbol:
obj_sym = fnmatch.filter(obj_sections, "*%s" % symbol)
if not obj_sym:
message = "'%s:%s %s' not found" % (archive, obj, symbol)
raise GenerationException(message, mapping)
self._add_mapping_rules(archive, obj, symbol, scheme_name, scheme_dictionary, mapping_rules)
except KeyError:
message = GenerationException.UNDEFINED_REFERENCE + " to scheme '" + scheme_name + "'."
raise GenerationException(message, mapping)
# Detect rule conflicts
for mapping_rules in all_mapping_rules.items():
self._detect_conflicts(mapping_rules)
# Add exclusions
for mapping_rules in all_mapping_rules.values():
self._create_exclusions(mapping_rules, default_rules, sections_infos)
placement_rules = collections.defaultdict(list)
# Add the default rules grouped by target
for default_rule in default_rules:
existing_rules = placement_rules[default_rule.target]
if default_rule.get_section_names():
existing_rules.append(default_rule)
archives = sorted(all_mapping_rules.keys())
for archive in archives:
# Add the mapping rules grouped by target
mapping_rules = sorted(all_mapping_rules[archive], key=lambda m: (m.specificity, str(m)))
for mapping_rule in mapping_rules:
existing_rules = placement_rules[mapping_rule.target]
if mapping_rule.get_section_names():
existing_rules.append(mapping_rule)
return placement_rules
def _detect_conflicts(self, rules):
(archive, rules_list) = rules
for specificity in range(0, PlacementRule.OBJECT_SPECIFICITY + 1):
rules_with_specificity = filter(lambda r: r.specificity == specificity, rules_list)
for rule_a, rule_b in itertools.combinations(rules_with_specificity, 2):
intersections = rule_a.get_sections_intersection(rule_b)
if intersections and rule_a.maps_same_entities_as(rule_b):
rules_string = str([str(rule_a), str(rule_b)])
message = "Rules " + rules_string + " map sections " + str(list(intersections)) + " into multiple targets."
raise GenerationException(message)
def _create_extra_rules(self, rules):
# This function generates extra rules for symbol specific rules. The reason for generating extra rules is to isolate,
# as much as possible, rules that require expansion. Particularly, object specific extra rules are generated.
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rules_to_process = sorted(rules, key=lambda r: r.specificity)
symbol_specific_rules = list(filter(lambda r: r.specificity == PlacementRule.SYMBOL_SPECIFICITY, rules_to_process))
extra_rules = dict()
for symbol_specific_rule in symbol_specific_rules:
extra_rule_candidate = {s: None for s in symbol_specific_rule.get_section_names()}
super_rules = filter(lambda r: symbol_specific_rule.is_more_specific_rule_of(r), rules_to_process)
# Take a look at the existing rules that are more general than the current symbol-specific rule.
# Only generate an extra rule if there is no existing object specific rule for that section
for super_rule in super_rules:
intersections = symbol_specific_rule.get_sections_intersection(super_rule)
for intersection in intersections:
if super_rule.specificity != PlacementRule.OBJECT_SPECIFICITY:
extra_rule_candidate[intersection] = super_rule
else:
extra_rule_candidate[intersection] = None
# Generate the extra rules for the symbol specific rule section, keeping track of the generated extra rules
for (section, section_rule) in extra_rule_candidate.items():
if section_rule:
extra_rule = None
extra_rules_key = (symbol_specific_rule.archive, symbol_specific_rule.obj, section_rule.target)
try:
extra_rule = extra_rules[extra_rules_key]
if section not in extra_rule.get_section_names():
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new_rule = PlacementRule(extra_rule.archive, extra_rule.obj, extra_rule.symbol,
list(extra_rule.get_section_names()) + [section], extra_rule.target)
extra_rules[extra_rules_key] = new_rule
except KeyError:
extra_rule = PlacementRule(symbol_specific_rule.archive, symbol_specific_rule.obj, None, [section], section_rule.target)
extra_rules[extra_rules_key] = extra_rule
return extra_rules.values()
def _create_exclusions(self, mapping_rules, default_rules, sections_info):
rules = list(default_rules)
rules.extend(mapping_rules)
extra_rules = self._create_extra_rules(rules)
mapping_rules.extend(extra_rules)
rules.extend(extra_rules)
# Sort the rules by means of how specific they are. Sort by specificity from lowest to highest
# * -> lib:* -> lib:obj -> lib:obj:symbol
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sorted_rules = sorted(rules, key=lambda r: r.specificity)
# Now that the rules have been sorted, loop through each rule, and then loop
# through rules below it (higher indeces), adding exclusions whenever appropriate.
for general_rule in sorted_rules:
for specific_rule in reversed(sorted_rules):
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if (specific_rule.specificity > general_rule.specificity and
specific_rule.specificity != PlacementRule.SYMBOL_SPECIFICITY) or \
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(specific_rule.specificity == PlacementRule.SYMBOL_SPECIFICITY and
general_rule.specificity == PlacementRule.OBJECT_SPECIFICITY):
general_rule.add_exclusion(specific_rule, sections_info)
def add_fragments_from_file(self, fragment_file):
for fragment in fragment_file.fragments:
dict_to_append_to = None
if isinstance(fragment, Mapping) and fragment.deprecated and fragment.name in self.mappings.keys():
self.mappings[fragment.name].entries |= fragment.entries
else:
if isinstance(fragment, Scheme):
dict_to_append_to = self.schemes
elif isinstance(fragment, Sections):
dict_to_append_to = self.sections
else:
dict_to_append_to = self.mappings
# Raise exception when the fragment of the same type is already in the stored fragments
if fragment.name in dict_to_append_to.keys():
stored = dict_to_append_to[fragment.name].path
new = fragment.path
message = "Duplicate definition of fragment '%s' found in %s and %s." % (fragment.name, stored, new)
raise GenerationException(message)
dict_to_append_to[fragment.name] = fragment
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class TemplateModel:
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"""
Encapsulates a linker script template file. Finds marker syntax and handles replacement to generate the
final output.
"""
Marker = collections.namedtuple("Marker", "target indent rules")
def __init__(self, template_file):
self.members = []
self.file = os.path.realpath(template_file.name)
self._generate_members(template_file)
def _generate_members(self, template_file):
lines = template_file.readlines()
target = Fragment.IDENTIFIER
reference = Suppress("mapping") + Suppress("[") + target.setResultsName("target") + Suppress("]")
pattern = White(" \t").setResultsName("indent") + reference
# Find the markers in the template file line by line. If line does not match marker grammar,
# set it as a literal to be copied as is to the output file.
for line in lines:
try:
parsed = pattern.parseString(line)
indent = parsed.indent
target = parsed.target
marker = TemplateModel.Marker(target, indent, [])
self.members.append(marker)
except ParseException:
# Does not match marker syntax
self.members.append(line)
def fill(self, mapping_rules):
for member in self.members:
target = None
try:
target = member.target
rules = member.rules
del rules[:]
rules.extend(mapping_rules[target])
except KeyError:
message = GenerationException.UNDEFINED_REFERENCE + " to target '" + target + "'."
raise GenerationException(message)
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except AttributeError:
pass
def write(self, output_file):
# Add information that this is a generated file.
output_file.write("/* Automatically generated file; DO NOT EDIT */\n")
output_file.write("/* Espressif IoT Development Framework Linker Script */\n")
output_file.write("/* Generated from: %s */\n" % self.file)
output_file.write("\n")
# Do the text replacement
for member in self.members:
try:
indent = member.indent
rules = member.rules
for rule in rules:
generated_line = "".join([indent, str(rule), '\n'])
output_file.write(generated_line)
except AttributeError:
output_file.write(member)
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class GenerationException(LdGenFailure):
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"""
Exception for linker script generation failures such as undefined references/ failure to
evaluate conditions, duplicate mappings, etc.
"""
UNDEFINED_REFERENCE = "Undefined reference"
def __init__(self, message, fragment=None):
self.fragment = fragment
self.message = message
def __str__(self):
if self.fragment:
return "%s\nIn fragment '%s' defined in '%s'." % (self.message, self.fragment.name, self.fragment.path)
else:
return self.message
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class SectionsInfo(dict):
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"""
Encapsulates an output of objdump. Contains information about the static library sections
and names
"""
__info = collections.namedtuple("__info", "filename content")
def __init__(self):
self.sections = dict()
def add_sections_info(self, sections_info_dump):
first_line = sections_info_dump.readline()
archive_path = (Literal("In archive").suppress() +
White().suppress() +
# trim the colon and line ending characters from archive_path
restOfLine.setResultsName("archive_path").setParseAction(lambda s, loc, toks: s.rstrip(":\n\r ")))
parser = archive_path
results = None
try:
results = parser.parseString(first_line, parseAll=True)
except ParseException as p:
raise ParseException("Parsing sections info for library " + sections_info_dump.name + " failed. " + p.message)
archive = os.path.basename(results.archive_path)
self.sections[archive] = SectionsInfo.__info(sections_info_dump.name, sections_info_dump.read())
def _get_infos_from_file(self, info):
# {object}: file format elf32-xtensa-le
object_line = SkipTo(":").setResultsName("object") + Suppress(restOfLine)
# Sections:
# Idx Name ...
section_start = Suppress(Literal("Sections:"))
section_header = Suppress(OneOrMore(Word(alphas)))
# 00 {section} 0000000 ...
# CONTENTS, ALLOC, ....
section_entry = Suppress(Word(nums)) + SkipTo(' ') + Suppress(restOfLine) + \
Suppress(ZeroOrMore(Word(alphas) + Literal(",")) + Word(alphas))
content = Group(object_line + section_start + section_header + Group(OneOrMore(section_entry)).setResultsName("sections"))
parser = Group(ZeroOrMore(content)).setResultsName("contents")
results = None
try:
results = parser.parseString(info.content, parseAll=True)
except ParseException as p:
raise ParseException("Unable to parse section info file " + info.filename + ". " + p.message)
return results
def get_obj_sections(self, archive, obj):
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res = []
try:
stored = self.sections[archive]
# Parse the contents of the sections file on-demand,
# save the result for later
if not isinstance(stored, dict):
parsed = self._get_infos_from_file(stored)
stored = dict()
for content in parsed.contents:
sections = list(map(lambda s: s, content.sections))
stored[content.object] = sections
self.sections[archive] = stored
try:
res = stored[obj + ".o"]
except KeyError:
try:
res = stored[obj + ".c.obj"]
except KeyError:
try:
res = stored[obj + ".cpp.obj"]
except KeyError:
res = stored[obj + ".S.obj"]
except KeyError:
pass
return res