mirror of https://github.com/ARMmbed/mbed-os.git
824 lines
35 KiB
Python
824 lines
35 KiB
Python
"""
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mbed SDK
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Copyright (c) 2016 ARM Limited
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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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http://www.apache.org/licenses/LICENSE-2.0
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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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from copy import deepcopy
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import os
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# Implementation of mbed configuration mechanism
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from tools.utils import json_file_to_dict
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from tools.targets import CUMULATIVE_ATTRIBUTES, TARGET_MAP, \
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generate_py_target, get_resolution_order
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# Base class for all configuration exceptions
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class ConfigException(Exception):
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"""Config system only exception. Makes it easier to distinguish config
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errors"""
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pass
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class ConfigParameter(object):
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"""This class keeps information about a single configuration parameter"""
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def __init__(self, name, data, unit_name, unit_kind):
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"""Construct a ConfigParameter
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Positional arguments:
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name - the name of the configuration parameter
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data - the data associated with the configuration parameter
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unit_name - the unit (target/library/application) that defines this
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parameter
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unit_ kind - the kind of the unit ("target", "library" or "application")
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"""
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self.name = self.get_full_name(name, unit_name, unit_kind,
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allow_prefix=False)
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self.defined_by = self.get_display_name(unit_name, unit_kind)
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self.set_value(data.get("value", None), unit_name, unit_kind)
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self.help_text = data.get("help", None)
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self.required = data.get("required", False)
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self.macro_name = data.get("macro_name", "MBED_CONF_%s" %
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self.sanitize(self.name.upper()))
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self.config_errors = []
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@staticmethod
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def get_full_name(name, unit_name, unit_kind, label=None,
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allow_prefix=True):
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"""Return the full (prefixed) name of a parameter. If the parameter
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already has a prefix, check if it is valid
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Positional arguments:
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name - the simple (unqualified) name of the parameter
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unit_name - the unit (target/library/application) that defines this
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parameter
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unit_kind - the kind of the unit ("target", "library" or "application")
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Keyword arguments:
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label - the name of the label in the 'target_config_overrides' section
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allow_prefix - True to allow the original name to have a prefix, False
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otherwise
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"""
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if name.find('.') == -1: # the name is not prefixed
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if unit_kind == "target":
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prefix = "target."
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elif unit_kind == "application":
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prefix = "app."
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else:
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prefix = unit_name + '.'
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return prefix + name
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# The name has a prefix, so check if it is valid
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if not allow_prefix:
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raise ConfigException("Invalid parameter name '%s' in '%s'" %
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(name, ConfigParameter.get_display_name(
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unit_name, unit_kind, label)))
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temp = name.split(".")
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# Check if the parameter syntax is correct (must be
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# unit_name.parameter_name)
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if len(temp) != 2:
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raise ConfigException("Invalid parameter name '%s' in '%s'" %
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(name, ConfigParameter.get_display_name(
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unit_name, unit_kind, label)))
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prefix = temp[0]
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# Check if the given parameter prefix matches the expected prefix
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if (unit_kind == "library" and prefix != unit_name) or \
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(unit_kind == "target" and prefix != "target"):
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raise ConfigException(
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"Invalid prefix '%s' for parameter name '%s' in '%s'" %
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(prefix, name, ConfigParameter.get_display_name(
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unit_name, unit_kind, label)))
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return name
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@staticmethod
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def get_display_name(unit_name, unit_kind, label=None):
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"""Return the name displayed for a unit when interrogating the origin
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and the last set place of a parameter
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Positional arguments:
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unit_name - the unit (target/library/application) that defines this
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parameter
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unit_kind - the kind of the unit ("target", "library" or "application")
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Keyword arguments:
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label - the name of the label in the 'target_config_overrides' section
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"""
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if unit_kind == "target":
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return "target:" + unit_name
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elif unit_kind == "application":
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return "application%s" % ("[%s]" % label if label else "")
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else: # library
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return "library:%s%s" % (unit_name, "[%s]" % label if label else "")
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@staticmethod
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def sanitize(name):
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""" "Sanitize" a name so that it is a valid C macro name. Currently it
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simply replaces '.' and '-' with '_'.
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Positional arguments:
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name - the name to make into a valid C macro
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"""
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return name.replace('.', '_').replace('-', '_')
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def set_value(self, value, unit_name, unit_kind, label=None):
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""" Sets a value for this parameter, remember the place where it was
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set. If the value is a Boolean, it is converted to 1 (for True) or
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to 0 (for False).
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Positional arguments:
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value - the value of the parameter
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unit_name - the unit (target/library/application) that defines this
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parameter
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unit_kind - the kind of the unit ("target", "library" or "application")
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Keyword arguments:
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label - the name of the label in the 'target_config_overrides' section
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(optional)
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"""
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self.value = int(value) if isinstance(value, bool) else value
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self.set_by = self.get_display_name(unit_name, unit_kind, label)
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def __str__(self):
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"""Return the string representation of this configuration parameter
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Arguments: None
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"""
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if self.value is not None:
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return '%s = %s (macro name: "%s")' % \
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(self.name, self.value, self.macro_name)
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else:
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return '%s has no value' % self.name
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def get_verbose_description(self):
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"""Return a verbose description of this configuration parameter as a
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string
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Arguments: None
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"""
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desc = "Name: %s%s\n" % \
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(self.name, " (required parameter)" if self.required else "")
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if self.help_text:
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desc += " Description: %s\n" % self.help_text
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desc += " Defined by: %s\n" % self.defined_by
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if not self.value:
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return desc + " No value set"
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desc += " Macro name: %s\n" % self.macro_name
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desc += " Value: %s (set by %s)" % (self.value, self.set_by)
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return desc
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class ConfigMacro(object):
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""" A representation of a configuration macro. It handles both macros
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without a value (MACRO) and with a value (MACRO=VALUE)
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"""
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def __init__(self, name, unit_name, unit_kind):
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"""Construct a ConfigMacro object
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Positional arguments:
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name - the macro's name
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unit_name - the location where the macro was defined
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unit_kind - the type of macro this is
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"""
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self.name = name
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self.defined_by = ConfigParameter.get_display_name(unit_name, unit_kind)
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if name.find("=") != -1:
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tmp = name.split("=")
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if len(tmp) != 2:
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raise ValueError("Invalid macro definition '%s' in '%s'" %
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(name, self.defined_by))
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self.macro_name = tmp[0]
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self.macro_value = tmp[1]
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else:
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self.macro_name = name
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self.macro_value = None
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class ConfigCumulativeOverride(object):
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"""Representation of overrides for cumulative attributes"""
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def __init__(self, name, additions=None, removals=None, strict=False):
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"""Construct a ConfigCumulativeOverride object
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Positional arguments:
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name - the name of the config file this came from ?
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Keyword arguments:
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additions - macros to add to the overrides
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removals - macros to remove from the overrides
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strict - Boolean indicating that attempting to remove from an override
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that does not exist should error
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"""
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self.name = name
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if additions:
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self.additions = set(additions)
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else:
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self.additions = set()
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if removals:
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self.removals = set(removals)
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else:
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self.removals = set()
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self.strict = strict
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def remove_cumulative_overrides(self, overrides):
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"""Extend the list of override removals.
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Positional arguments:
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overrides - a list of names that, when the override is evaluated, will
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be removed
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"""
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for override in overrides:
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if override in self.additions:
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raise ConfigException(
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"Configuration conflict. The %s %s both added and removed."
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% (self.name[:-1], override))
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self.removals |= set(overrides)
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def add_cumulative_overrides(self, overrides):
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"""Extend the list of override additions.
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Positional arguments:
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overrides - a list of a names that, when the override is evaluated, will
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be added to the list
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"""
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for override in overrides:
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if override in self.removals or \
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(self.strict and override not in self.additions):
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raise ConfigException(
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"Configuration conflict. The %s %s both added and removed."
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% (self.name[:-1], override))
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self.additions |= set(overrides)
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def strict_cumulative_overrides(self, overrides):
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"""Remove all overrides that are not the specified ones
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Positional arguments:
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overrides - a list of names that will replace the entire attribute when
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this override is evaluated.
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"""
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self.remove_cumulative_overrides(self.additions - set(overrides))
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self.add_cumulative_overrides(overrides)
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self.strict = True
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def update_target(self, target):
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"""Update the attributes of a target based on this override"""
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setattr(target, self.name,
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list((set(getattr(target, self.name, []))
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| self.additions) - self.removals))
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def _process_config_parameters(data, params, unit_name, unit_kind):
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"""Process a "config_parameters" section in either a target, a library,
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or the application.
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Positional arguments:
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data - a dictionary with the configuration parameters
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params - storage for the discovered configuration parameters
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unit_name - the unit (target/library/application) that defines this
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parameter
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unit_kind - the kind of the unit ("target", "library" or "application")
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"""
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for name, val in data.items():
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full_name = ConfigParameter.get_full_name(name, unit_name, unit_kind)
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# If the parameter was already defined, raise an error
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if full_name in params:
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raise ConfigException(
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"Parameter name '%s' defined in both '%s' and '%s'" %
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(name, ConfigParameter.get_display_name(unit_name, unit_kind),
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params[full_name].defined_by))
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# Otherwise add it to the list of known parameters
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# If "val" is not a dictionary, this is a shortcut definition,
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# otherwise it is a full definition
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params[full_name] = ConfigParameter(name, val if isinstance(val, dict)
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else {"value": val}, unit_name,
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unit_kind)
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return params
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def _process_macros(mlist, macros, unit_name, unit_kind):
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"""Process a macro definition and check for incompatible duplicate
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definitions.
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Positional arguments:
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mlist - list of macro names to process
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macros - dictionary with currently discovered macros
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unit_name - the unit (library/application) that defines this macro
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unit_kind - the kind of the unit ("library" or "application")
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"""
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for mname in mlist:
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macro = ConfigMacro(mname, unit_name, unit_kind)
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if (macro.macro_name in macros) and \
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(macros[macro.macro_name].name != mname):
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# Found an incompatible definition of the macro in another module,
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# so raise an error
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full_unit_name = ConfigParameter.get_display_name(unit_name,
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unit_kind)
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raise ConfigException(
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("Macro '%s' defined in both '%s' and '%s'"
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% (macro.macro_name, macros[macro.macro_name].defined_by,
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full_unit_name)) +
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" with incompatible values")
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macros[macro.macro_name] = macro
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class Config(object):
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"""'Config' implements the mbed configuration mechanism"""
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# Libraries and applications have different names for their configuration
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# files
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__mbed_app_config_name = "mbed_app.json"
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__mbed_lib_config_name = "mbed_lib.json"
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# Allowed keys in configuration dictionaries
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# (targets can have any kind of keys, so this validation is not applicable
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# to them)
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__allowed_keys = {
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"library": set(["name", "config", "target_overrides", "macros",
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"__config_path"]),
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"application": set(["config", "target_overrides",
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"macros", "__config_path"])
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}
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# Allowed features in configurations
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__allowed_features = [
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"UVISOR", "BLE", "CLIENT", "IPV4", "LWIP", "COMMON_PAL", "STORAGE", "NANOSTACK",
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# Nanostack configurations
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"LOWPAN_BORDER_ROUTER", "LOWPAN_HOST", "LOWPAN_ROUTER", "NANOSTACK_FULL", "THREAD_BORDER_ROUTER", "THREAD_END_DEVICE", "THREAD_ROUTER"
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]
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def __init__(self, tgt, top_level_dirs=None, app_config=None):
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"""Construct a mbed configuration
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Positional arguments:
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target - the name of the mbed target used for this configuration
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instance
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Keyword argumets:
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top_level_dirs - a list of top level source directories (where
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mbed_app_config.json could be found)
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app_config - location of a chosen mbed_app.json file
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NOTE: Construction of a Config object will look for the application
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configuration file in top_level_dirs. If found once, it'll parse it.
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top_level_dirs may be None (in this case, the constructor will not
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search for a configuration file).
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"""
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app_config_location = app_config
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if app_config_location is None:
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for directory in top_level_dirs or []:
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full_path = os.path.join(directory, self.__mbed_app_config_name)
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if os.path.isfile(full_path):
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if app_config_location is not None:
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raise ConfigException("Duplicate '%s' file in '%s' and '%s'"
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% (self.__mbed_app_config_name,
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app_config_location, full_path))
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else:
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app_config_location = full_path
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try:
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self.app_config_data = json_file_to_dict(app_config_location) \
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if app_config_location else {}
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except ValueError as exc:
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sys.stderr.write(str(exc) + "\n")
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self.app_config_data = {}
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# Check the keys in the application configuration data
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unknown_keys = set(self.app_config_data.keys()) - \
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self.__allowed_keys["application"]
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if unknown_keys:
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raise ConfigException("Unknown key(s) '%s' in %s" %
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(",".join(unknown_keys),
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self.__mbed_app_config_name))
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# Update the list of targets with the ones defined in the application
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# config, if applicable
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self.lib_config_data = {}
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# Make sure that each config is processed only once
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self.processed_configs = {}
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if isinstance(tgt, basestring):
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if tgt in TARGET_MAP:
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self.target = TARGET_MAP[tgt]
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else:
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self.target = generate_py_target(
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self.app_config_data.get("custom_targets", {}), tgt)
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else:
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self.target = tgt
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self.target = deepcopy(self.target)
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self.target_labels = self.target.labels
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self.cumulative_overrides = {key: ConfigCumulativeOverride(key)
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for key in CUMULATIVE_ATTRIBUTES}
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self._process_config_and_overrides(self.app_config_data, {}, "app",
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"application")
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self.config_errors = None
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def add_config_files(self, flist):
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"""Add configuration files
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Positional arguments:
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flist - a list of files to add to this configuration
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"""
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for config_file in flist:
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if not config_file.endswith(self.__mbed_lib_config_name):
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continue
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full_path = os.path.normpath(os.path.abspath(config_file))
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# Check that we didn't already process this file
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if self.processed_configs.has_key(full_path):
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continue
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self.processed_configs[full_path] = True
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# Read the library configuration and add a "__full_config_path"
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# attribute to it
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try:
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cfg = json_file_to_dict(config_file)
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except ValueError as exc:
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sys.stderr.write(str(exc) + "\n")
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continue
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cfg["__config_path"] = full_path
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|
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if "name" not in cfg:
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raise ConfigException(
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"Library configured at %s has no name field." % full_path)
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# If there's already a configuration for a module with the same
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# name, exit with error
|
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if self.lib_config_data.has_key(cfg["name"]):
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raise ConfigException(
|
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"Library name '%s' is not unique (defined in '%s' and '%s')"
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% (cfg["name"], full_path,
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self.lib_config_data[cfg["name"]]["__config_path"]))
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self.lib_config_data[cfg["name"]] = cfg
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|
|
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def _process_config_and_overrides(self, data, params, unit_name, unit_kind):
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"""Process "config_parameters" and "target_config_overrides" into a
|
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given dictionary
|
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Positional arguments:
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data - the configuration data of the library/appliation
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params - storage for the discovered configuration parameters
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unit_name - the unit (library/application) that defines this parameter
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unit_kind - the kind of the unit ("library" or "application")
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"""
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self.config_errors = []
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_process_config_parameters(data.get("config", {}), params, unit_name,
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unit_kind)
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for label, overrides in data.get("target_overrides", {}).items():
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# If the label is defined by the target or it has the special value
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# "*", process the overrides
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if (label == '*') or (label in self.target_labels):
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# Check for invalid cumulative overrides in libraries
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if (unit_kind == 'library' and
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any(attr.startswith('target.extra_labels') for attr
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in overrides.iterkeys())):
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raise ConfigException(
|
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"Target override 'target.extra_labels' in " +
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ConfigParameter.get_display_name(unit_name, unit_kind,
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label) +
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" is only allowed at the application level")
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|
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# Parse out cumulative overrides
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|
for attr, cumulatives in self.cumulative_overrides.iteritems():
|
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if 'target.'+attr in overrides:
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cumulatives.strict_cumulative_overrides(
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overrides['target.'+attr])
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del overrides['target.'+attr]
|
|
|
|
if 'target.'+attr+'_add' in overrides:
|
|
cumulatives.add_cumulative_overrides(
|
|
overrides['target.'+attr+'_add'])
|
|
del overrides['target.'+attr+'_add']
|
|
|
|
if 'target.'+attr+'_remove' in overrides:
|
|
cumulatives.remove_cumulative_overrides(
|
|
overrides['target.'+attr+'_remove'])
|
|
del overrides['target.'+attr+'_remove']
|
|
|
|
# Consider the others as overrides
|
|
for name, val in overrides.items():
|
|
# Get the full name of the parameter
|
|
full_name = ConfigParameter.get_full_name(name, unit_name,
|
|
unit_kind, label)
|
|
if full_name in params:
|
|
params[full_name].set_value(val, unit_name, unit_kind,
|
|
label)
|
|
else:
|
|
self.config_errors.append(
|
|
ConfigException(
|
|
"Attempt to override undefined parameter" +
|
|
(" '%s' in '%s'"
|
|
% (full_name,
|
|
ConfigParameter.get_display_name(unit_name,
|
|
unit_kind,
|
|
label)))))
|
|
|
|
for cumulatives in self.cumulative_overrides.itervalues():
|
|
cumulatives.update_target(self.target)
|
|
|
|
return params
|
|
|
|
def get_target_config_data(self):
|
|
"""Read and interpret configuration data defined by targets.
|
|
|
|
We consider the resolution order for our target and sort it by level
|
|
reversed, so that we first look at the top level target (the parent),
|
|
then its direct children, then the children of those children and so on,
|
|
until we reach self.target
|
|
TODO: this might not work so well in some multiple inheritance scenarios
|
|
At each step, look at two keys of the target data:
|
|
- config_parameters: used to define new configuration parameters
|
|
- config_overrides: used to override already defined configuration
|
|
parameters
|
|
|
|
Arguments: None
|
|
"""
|
|
params, json_data = {}, self.target.json_data
|
|
resolution_order = [e[0] for e
|
|
in sorted(
|
|
self.target.resolution_order,
|
|
key=lambda e: e[1], reverse=True)]
|
|
for tname in resolution_order:
|
|
# Read the target data directly from its description
|
|
target_data = json_data[tname]
|
|
# Process definitions first
|
|
_process_config_parameters(target_data.get("config", {}), params,
|
|
tname, "target")
|
|
# Then process overrides
|
|
for name, val in target_data.get("overrides", {}).items():
|
|
full_name = ConfigParameter.get_full_name(name, tname, "target")
|
|
# If the parameter name is not defined or if there isn't a path
|
|
# from this target to the target where the parameter was defined
|
|
# in the target inheritance tree, raise an error We need to use
|
|
# 'defined_by[7:]' to remove the "target:" prefix from
|
|
# defined_by
|
|
rel_names = [tgt for tgt, _ in
|
|
get_resolution_order(self.target.json_data, tname,
|
|
[])]
|
|
if (full_name not in params) or \
|
|
(params[full_name].defined_by[7:] not in rel_names):
|
|
raise ConfigException(
|
|
"Attempt to override undefined parameter '%s' in '%s'"
|
|
% (name,
|
|
ConfigParameter.get_display_name(tname, "target")))
|
|
# Otherwise update the value of the parameter
|
|
params[full_name].set_value(val, tname, "target")
|
|
return params
|
|
|
|
def get_lib_config_data(self):
|
|
""" Read and interpret configuration data defined by libraries. It is
|
|
assumed that "add_config_files" above was already called and the library
|
|
configuration data exists in self.lib_config_data
|
|
|
|
Arguments: None
|
|
"""
|
|
all_params, macros = {}, {}
|
|
for lib_name, lib_data in self.lib_config_data.items():
|
|
unknown_keys = set(lib_data.keys()) - self.__allowed_keys["library"]
|
|
if unknown_keys:
|
|
raise ConfigException("Unknown key(s) '%s' in %s" %
|
|
(",".join(unknown_keys), lib_name))
|
|
all_params.update(self._process_config_and_overrides(lib_data, {},
|
|
lib_name,
|
|
"library"))
|
|
_process_macros(lib_data.get("macros", []), macros, lib_name,
|
|
"library")
|
|
return all_params, macros
|
|
|
|
def get_app_config_data(self, params, macros):
|
|
""" Read and interpret the configuration data defined by the target. The
|
|
target can override any configuration parameter, as well as define its
|
|
own configuration data.
|
|
|
|
Positional arguments.
|
|
params - the dictionary with configuration parameters found so far (in
|
|
the target and in libraries)
|
|
macros - the list of macros defined in the configuration
|
|
"""
|
|
app_cfg = self.app_config_data
|
|
# The application can have a "config_parameters" and a
|
|
# "target_config_overrides" section just like a library
|
|
self._process_config_and_overrides(app_cfg, params, "app",
|
|
"application")
|
|
# The application can also defined macros
|
|
_process_macros(app_cfg.get("macros", []), macros, "app",
|
|
"application")
|
|
|
|
def get_config_data(self):
|
|
""" Return the configuration data in two parts: (params, macros)
|
|
params - a dictionary with mapping a name to a ConfigParam
|
|
macros - the list of macros defined with "macros" in libraries and in
|
|
the application (as ConfigMacro instances)
|
|
|
|
Arguments: None
|
|
"""
|
|
all_params = self.get_target_config_data()
|
|
lib_params, macros = self.get_lib_config_data()
|
|
all_params.update(lib_params)
|
|
self.get_app_config_data(all_params, macros)
|
|
return all_params, macros
|
|
|
|
@staticmethod
|
|
def _check_required_parameters(params):
|
|
"""Check that there are no required parameters without a value
|
|
|
|
Positional arguments:
|
|
params - the list of parameters to check
|
|
|
|
NOTE: This function does not return. Instead, it throws a
|
|
ConfigException when any of the required parameters are missing values
|
|
"""
|
|
for param in params.values():
|
|
if param.required and (param.value is None):
|
|
raise ConfigException("Required parameter '" + param.name +
|
|
"' defined by '" + param.defined_by +
|
|
"' doesn't have a value")
|
|
|
|
@staticmethod
|
|
def parameters_to_macros(params):
|
|
""" Encode the configuration parameters as C macro definitions.
|
|
|
|
Positional arguments:
|
|
params - a dictionary mapping a name to a ConfigParameter
|
|
|
|
Return: a list of strings that encode the configuration parameters as
|
|
C pre-processor macros
|
|
"""
|
|
return ['%s=%s' % (m.macro_name, m.value) for m in params.values()
|
|
if m.value is not None]
|
|
|
|
@staticmethod
|
|
def config_macros_to_macros(macros):
|
|
""" Return the macro definitions generated for a dictionary of
|
|
ConfigMacros (as returned by get_config_data).
|
|
|
|
Positional arguments:
|
|
params - a dictionary mapping a name to a ConfigMacro instance
|
|
|
|
Return: a list of strings that are the C pre-processor macros
|
|
"""
|
|
return [m.name for m in macros.values()]
|
|
|
|
@staticmethod
|
|
def config_to_macros(config):
|
|
"""Convert the configuration data to a list of C macros
|
|
|
|
Positional arguments:
|
|
config - configuration data as (ConfigParam instances, ConfigMacro
|
|
instances) tuple (as returned by get_config_data())
|
|
"""
|
|
params, macros = config[0], config[1]
|
|
Config._check_required_parameters(params)
|
|
return Config.config_macros_to_macros(macros) + \
|
|
Config.parameters_to_macros(params)
|
|
|
|
def get_config_data_macros(self):
|
|
""" Convert a Config object to a list of C macros
|
|
|
|
Arguments: None
|
|
"""
|
|
return self.config_to_macros(self.get_config_data())
|
|
|
|
def get_features(self):
|
|
""" Extract any features from the configuration data
|
|
|
|
Arguments: None
|
|
"""
|
|
params, _ = self.get_config_data()
|
|
self._check_required_parameters(params)
|
|
self.cumulative_overrides['features']\
|
|
.update_target(self.target)
|
|
|
|
for feature in self.target.features:
|
|
if feature not in self.__allowed_features:
|
|
raise ConfigException(
|
|
"Feature '%s' is not a supported features" % feature)
|
|
|
|
return self.target.features
|
|
|
|
def validate_config(self):
|
|
""" Validate configuration settings. This either returns True or
|
|
raises an exception
|
|
|
|
Arguments: None
|
|
"""
|
|
if self.config_errors:
|
|
raise self.config_errors[0]
|
|
return True
|
|
|
|
|
|
def load_resources(self, resources):
|
|
""" Load configuration data from a Resources instance and expand it
|
|
based on defined features.
|
|
|
|
Positional arguments:
|
|
resources - the resources object to load from and expand
|
|
"""
|
|
# Update configuration files until added features creates no changes
|
|
prev_features = set()
|
|
while True:
|
|
# Add/update the configuration with any .json files found while
|
|
# scanning
|
|
self.add_config_files(resources.json_files)
|
|
|
|
# Add features while we find new ones
|
|
features = set(self.get_features())
|
|
if features == prev_features:
|
|
break
|
|
|
|
for feature in features:
|
|
if feature in resources.features:
|
|
resources.add(resources.features[feature])
|
|
|
|
prev_features = features
|
|
self.validate_config()
|
|
|
|
return resources
|
|
|
|
@staticmethod
|
|
def config_to_header(config, fname=None):
|
|
""" Convert the configuration data to the content of a C header file,
|
|
meant to be included to a C/C++ file. The content is returned as a
|
|
string.
|
|
|
|
Positional arguments:
|
|
config - configuration data as (ConfigParam instances, ConfigMacro
|
|
instances) tuple (as returned by get_config_data())
|
|
|
|
Keyword arguments:
|
|
fname - also write the content is to the file called "fname".
|
|
WARNING: if 'fname' names an existing file, it will be
|
|
overwritten!
|
|
"""
|
|
params, macros = config[0], config[1]
|
|
Config._check_required_parameters(params)
|
|
header_data = "// Automatically generated configuration file.\n"
|
|
header_data += "// DO NOT EDIT, content will be overwritten.\n\n"
|
|
header_data += "#ifndef __MBED_CONFIG_DATA__\n"
|
|
header_data += "#define __MBED_CONFIG_DATA__\n\n"
|
|
# Compute maximum length of macro names for proper alignment
|
|
max_param_macro_name_len = (max([len(m.macro_name) for m
|
|
in params.values()
|
|
if m.value is not None])
|
|
if params else 0)
|
|
max_direct_macro_name_len = (max([len(m.macro_name) for m
|
|
in macros.values()])
|
|
if macros else 0)
|
|
max_macro_name_len = max(max_param_macro_name_len,
|
|
max_direct_macro_name_len)
|
|
# Compute maximum length of macro values for proper alignment
|
|
max_param_macro_val_len = (max([len(str(m.value)) for m
|
|
in params.values()
|
|
if m.value is not None])
|
|
if params else 0)
|
|
max_direct_macro_val_len = max([len(m.macro_value or "") for m
|
|
in macros.values()]) if macros else 0
|
|
max_macro_val_len = max(max_param_macro_val_len,
|
|
max_direct_macro_val_len)
|
|
# Generate config parameters first
|
|
if params:
|
|
header_data += "// Configuration parameters\n"
|
|
for macro in params.values():
|
|
if macro.value is not None:
|
|
header_data += ("#define {0:<{1}} {2!s:<{3}} " +
|
|
"// set by {4}\n")\
|
|
.format(macro.macro_name, max_macro_name_len,
|
|
macro.value, max_macro_val_len, macro.set_by)
|
|
# Then macros
|
|
if macros:
|
|
header_data += "// Macros\n"
|
|
for macro in macros.values():
|
|
if macro.macro_value:
|
|
header_data += ("#define {0:<{1}} {2!s:<{3}}" +
|
|
" // defined by {4}\n")\
|
|
.format(macro.macro_name, max_macro_name_len,
|
|
macro.macro_value, max_macro_val_len,
|
|
macro.defined_by)
|
|
else:
|
|
header_data += ("#define {0:<{1}}" +
|
|
" // defined by {2}\n")\
|
|
.format(macro.macro_name,
|
|
max_macro_name_len + max_macro_val_len + 1,
|
|
macro.defined_by)
|
|
header_data += "\n#endif\n"
|
|
# If fname is given, write "header_data" to it
|
|
if fname:
|
|
with open(fname, "w+") as file_desc:
|
|
file_desc.write(header_data)
|
|
return header_data
|
|
|
|
def get_config_data_header(self, fname=None):
|
|
""" Convert a Config instance to the content of a C header file, meant
|
|
to be included to a C/C++ file. The content is returned as a string.
|
|
|
|
Keyword arguments:
|
|
fname - also write the content to the file called "fname".
|
|
WARNING: if 'fname' names an existing file, it will be
|
|
overwritten!
|
|
"""
|
|
return self.config_to_header(self.get_config_data(), fname)
|