#
# Copyright (c) 2006-2010 Nokia Corporation and/or its subsidiary(-ies).
# All rights reserved.
# This component and the accompanying materials are made available
# under the terms of the License "Eclipse Public License v1.0"
# which accompanies this distribution, and is available
# at the URL "http://www.eclipse.org/legal/epl-v10.html".
#
# Initial Contributors:
# Nokia Corporation - initial contribution.
#
# Contributors:
#
# Description:
# raptor_data module
# This module contains the classes that make up the Raptor Data Model.
#
import copy
import generic_path
import os
import hashlib
import raptor_utilities
import re
import types
import sys
import subprocess
from tempfile import gettempdir
from time import time, clock
import traceback
import raptor_cache
class MissingInterfaceError(Exception):
def __init__(self, s):
Exception.__init__(self,s)
# What host platforms we recognise
# This allows us to tie some variants to one host platform and some to another
class HostPlatform(object):
""" List the host platforms on which we can build. Allow configuration
files to specify different information based on that.
"""
hostplatforms = ["win32", "win64", "linux2"]
hostplatform = sys.platform
@classmethod
def IsKnown(cls, platformpattern):
"Does the parameter match the name of a known platform "
hpnre = re.compile(platformpattern, re.I)
for hp in cls.hostplatforms:
if hpnre.match(hp):
return True
return False
@classmethod
def IsHost(cls, platformpattern):
""" Does the parameter match the name of the
platform that we're executing on? """
ppre = re.compile(platformpattern, re.I)
if ppre.match(cls.hostplatform):
return True
return False
# Make sure not to start up on an unsupported platform
if not HostPlatform.IsKnown(HostPlatform.hostplatform):
raise Exception("raptor_data module loaded on an unrecognised platform '%s'. Expected one of %s" % (HostPlatform.hostplatform, str(HostPlatform.hostplatforms)))
# raptor_data module classes
class Model(object):
"Base class for data-model objects"
__slots__ = ('host', 'source', 'cacheID')
def __init__(self):
self.source = None # XML file
self.host = None
self.cacheID = "" # default set of cached objects
# not using the cache parameter - there to make the
# init for all Model objects "standard"
def SetSourceFile(self, filename):
self.source = filename
def SetProperty(self, name, value):
raise InvalidPropertyError()
def AddChild(self, child):
raise InvalidChildError()
def Valid(self):
return False
def IsApplicable(self):
"This variant may be caused to only apply when used on a particular host build platform"
if self.host is None:
return True
if HostPlatform.IsHost(self.host):
return True
return False
class InvalidPropertyError(Exception):
pass
class InvalidChildError(Exception):
pass
class BadReferenceError(Exception):
pass
class Reference(Model):
"Base class for data-model reference objects"
def __init__(self, ref = None):
Model.__init__(self)
self.ref = ref
self.modifiers = []
def SetProperty(self, name, value):
if name == "ref":
self.ref = value
elif name == "mod":
self.modifiers = value.split(".")
else:
raise InvalidPropertyError()
def Resolve(self):
raise BadReferenceError()
def GetModifiers(self, cache):
mods = []
for m in self.modifiers:
try:
mods.append(cache.FindNamedVariant(m))
except KeyError:
raise BadReferenceError(m)
return mods
def Valid(self):
return self.ref
class VariantContainer(Model):
def __init__(self):
Model.__init__(self) # base class constructor
self.variants = []
def __str__(self):
return "\n".join([str(v) for v in self.variants])
def AddVariant(self, variant):
if type(variant) is types.StringTypes:
variant = VariantRef(ref = variant)
# Only add the variant if it's not in the list
# already
if not variant in self.variants:
self.variants.append(variant)
def GetVariants(self, cache):
# resolve any VariantRef objects into Variant objects
missing_variants = []
for i,var in enumerate(self.variants):
if isinstance(var, Reference):
try:
self.variants[i] = var.Resolve(cache=cache)
except BadReferenceError:
missing_variants.append(var.ref)
if len(missing_variants) > 0:
raise MissingVariantException("Missing variants '%s'", " ".join(missing_variants))
return self.variants
class Interface(Model):
def __init__(self, name = None):
Model.__init__(self) # base class constructor
self.name = name
self.flm = None
self.abstract = False
self.extends = None
self.params = []
self.paramgroups = []
def __str__(self):
return "<interface name='%s'>" % self.name + "</interface>"
def FindParent(self, cache):
try:
return cache.FindNamedInterface(self.extends, self.cacheID)
except KeyError:
raise BadReferenceError("Cannot extend interface because it cannot be found: "+str(self.extends))
def GetParams(self, cache):
if self.extends != None:
parent = self.FindParent(cache)
# what parameter names do we have already?
names = set([x.name for x in self.params])
# pick up ones we don't have that are in our parent
pp = []
for p in parent.GetParams(cache):
if not p.name in names:
pp.append(p)
# list parent parameters first then ours
pp.extend(self.params)
return pp
return self.params
def GetParamGroups(self, cache):
if self.extends != None:
parent = self.FindParent(cache)
# what parameter names do we have already?
patterns = set([x.pattern for x in self.paramgroups])
# pick up ones we don't have that are in our parent
for g in parent.GetParamGroups(cache):
if not g.pattern in patterns:
self.paramgroups.append(g)
return self.paramgroups
def GetFLMIncludePath(self, cache):
"absolute path to the FLM"
if self.flm == None:
if self.extends != None:
parent = self.FindParent(cache)
return parent.GetFLMIncludePath(cache)
else:
raise InvalidPropertyError()
if not os.path.isabs(self.flm):
self.flm = os.path.join(os.path.dirname(self.source), self.flm)
return generic_path.Path(self.flm)
def SetProperty(self, name, value):
if name == "name":
self.name = value
elif name == "flm":
self.flm = value
elif name == "abstract":
self.abstract = (value == "true")
elif name == "extends":
self.extends = value
else:
raise InvalidPropertyError()
def AddChild(self, child):
if isinstance(child, Parameter):
self.AddParameter(child)
elif isinstance(child, ParameterGroup):
self.AddParameterGroup(child)
else:
raise InvalidChildError()
def AddParameter(self, parameter):
self.params.append(parameter)
def AddParameterGroup(self, parametergroup):
self.paramgroups.append(parametergroup)
def Valid(self):
return (self.name != None)
class InterfaceRef(Reference):
def __str__(self):
return "<interfaceRef ref='%s'/>" % self.ref
def Resolve(self, cache):
try:
return cache.FindNamedInterface(self.ref, self.cacheID)
except KeyError:
raise BadReferenceError()
class Specification(VariantContainer):
def __init__(self, name = "", type = ""):
VariantContainer.__init__(self) # base class constructor
self.name = name
self.type = type
self.interface = None
self.childSpecs = []
self.parentSpec = None
def __str__(self):
s = "<spec name='%s'>" % str(self.name)
s += VariantContainer.__str__(self)
for c in self.childSpecs:
s += str(c) + '\n'
s += "</spec>"
return s
def SetProperty(self, name, value):
if name == "name":
self.name = value
else:
raise InvalidPropertyError()
def Configure(self, config, cache):
# configure all the children (some may be Filters or parents of)
for spec in self.GetChildSpecs():
spec.Configure(config, cache = cache)
def HasInterface(self):
return self.interface != None
def SetInterface(self, interface):
if isinstance(interface, Interface) \
or isinstance(interface, InterfaceRef):
self.interface = interface
else:
self.interface = InterfaceRef(ref = interface)
def GetInterface(self, cache):
"""return the Interface (fetching from the cache if it was a ref)
may return None"""
if self.interface == None \
or isinstance(self.interface, Interface):
return self.interface
if isinstance(self.interface, InterfaceRef):
try:
self.interface = self.interface.Resolve(cache=cache)
return self.interface
except BadReferenceError:
raise MissingInterfaceError("Missing interface %s" % self.interface.ref)
def AddChild(self, child):
if isinstance(child, Specification):
self.AddChildSpecification(child)
elif isinstance(child, Interface) \
or isinstance(child, InterfaceRef):
self.SetInterface(child)
elif isinstance(child, Variant) \
or isinstance(child, VariantRef):
self.AddVariant(child)
else:
raise InvalidChildError()
def AddChildSpecification(self, child):
child.SetParentSpec(self)
self.childSpecs.append(child)
def SetParentSpec(self, parent):
self.parentSpec = parent
def GetChildSpecs(self):
return self.childSpecs
def Valid(self):
return True
def GetAllVariantsRecursively(self, cache):
"""Returns all variants contained in this node and in its ancestors.
The returned value is a list, the structure of which is [variants-in-parent,
variants-in-self].
Note that the function recurses through parent *Specifications*, not through
the variants themselves.
"""
if self.parentSpec:
variants = self.parentSpec.GetAllVariantsRecursively(cache = cache)
else:
variants = []
variants.extend( self.GetVariants(cache = cache) )
return variants
class Filter(Specification):
"""A Filter is two Specification nodes and a True/False switch.
Filter extends Specification to have two nodes, only one of
which can be active at any time. Which node is active is determined
when the Configure method is called after setting up a Condition.
If several Conditions are set, the test is an OR of all of them."""
def __init__(self, name = ""):
Specification.__init__(self, name = name) # base class constructor
self.Else = Specification(name = name) # same for Else part
self.isTrue = True
self.configNames = set() #
self.variableNames = set() # TO DO: Condition class
self.variableValues = {} #
def __str__(self, prefix = ""):
s = "<filter name='%s'>\n"% self.name
s += "<if config='%s'>\n" % " | ".join(self.configNames)
s += Specification.__str__(self)
s += "</if>\n <else>\n"
s += str(self.Else)
s += " </else>\n</filter>\n"
return s
def SetConfigCondition(self, configName):
self.configNames = set([configName])
def AddConfigCondition(self, configName):
self.configNames.add(configName)
def SetVariableCondition(self, variableName, variableValues):
self.variableNames = set([variableName])
if type(variableValues) == types.ListType:
self.variableValues[variableName] = set(variableValues)
else:
self.variableValues[variableName] = set([variableValues])
def AddVariableCondition(self, variableName, variableValues):
self.variableNames.add(variableName)
if type(variableValues) == types.ListType:
self.variableValues[variableName] = set(variableValues)
else:
self.variableValues[variableName] = set([variableValues])
def Configure(self, buildUnit, cache):
self.isTrue = False
if buildUnit.name in self.configNames:
self.isTrue = True
elif self.variableNames:
evaluator = Evaluator(self.parentSpec, buildUnit, cache=cache)
for variableName in self.variableNames:
variableValue = evaluator.Get(variableName)
if variableValue in self.variableValues[variableName]:
self.isTrue = True
break
# configure all the children too
for spec in self.GetChildSpecs():
spec.Configure(buildUnit, cache=cache)
def HasInterface(self):
if self.isTrue:
return Specification.HasInterface(self)
else:
return self.Else.HasInterface()
def GetInterface(self, cache):
if self.isTrue:
return Specification.GetInterface(self, cache = cache)
else:
return self.Else.GetInterface(cache = cache)
def GetVariants(self, cache):
if self.isTrue:
return Specification.GetVariants(self, cache = cache)
else:
return self.Else.GetVariants(cache = cache)
def SetParentSpec(self, parent):
# base class method
Specification.SetParentSpec(self, parent)
# same for Else part
self.Else.SetParentSpec(parent)
def GetChildSpecs(self):
if self.isTrue:
return Specification.GetChildSpecs(self)
else:
return self.Else.GetChildSpecs()
class Parameter(Model):
def __init__(self, name = None, default = None):
Model.__init__(self) # base class constructor
self.name = name
self.default = default
def SetProperty(self, name, value):
if name == "name":
self.name = value
elif name == "default":
self.default = value
else:
raise InvalidPropertyError()
def Valid(self):
return (self.name != None)
class ParameterGroup(Model):
"""A group of Parameters specified in an interface by a regexp"""
def __init__(self, pattern = None, default = None):
Model.__init__(self) # base class constructor
self.pattern = pattern
self.patternre = None
if pattern:
try:
self.patternre = re.compile(pattern)
except TypeError:
pass
self.default = default
def SetProperty(self, pattern, value):
if pattern == "pattern":
self.pattern = value
self.patternre = re.compile(value)
elif pattern == "default":
self.default = value
else:
raise InvalidPropertyError()
def Valid(self):
return (self.pattern != None and self.patternre != None)
class Operation(Model):
"Base class for variant operations"
__slots__ = 'type'
def __init__(self):
Model.__init__(self) # base class constructor
self.type = None
def Apply(self, oldValue):
pass
class Append(Operation):
__slots__ = ('name', 'value', 'separator')
def __init__(self, name = None, value = None, separator = " "):
Operation.__init__(self) # base class constructor
self.name = name
self.value = value
self.separator = separator
def __str__(self):
attributes = "name='" + self.name + "' value='" + self.value + "' separator='" + self.separator + "'"
return "<append %s/>" % attributes
def Apply(self, oldValue):
if len(oldValue) > 0:
if len(self.value) > 0:
return oldValue + self.separator + self.value
else:
return oldValue
else:
return self.value
def SetProperty(self, name, value):
if name == "name":
self.name = value
elif name == "value":
self.value = value
elif name == "separator":
self.separator = value
else:
raise InvalidPropertyError()
def Valid(self):
return (self.name != None and self.value != None)
class Prepend(Operation):
__slots__ = ('name', 'value', 'separator')
def __init__(self, name = None, value = None, separator = " "):
Operation.__init__(self) # base class constructor
self.name = name
self.value = value
self.separator = separator
def __str__(self, prefix = ""):
attributes = "name='" + self.name + "' value='" + self.value + "' separator='" + self.separator + "'"
return "<prepend %s/>" % prefix
def Apply(self, oldValue):
if len(oldValue) > 0:
if len(self.value) > 0:
return self.value + self.separator + oldValue
else:
return oldValue
else:
return self.value
def SetProperty(self, name, value):
if name == "name":
self.name = value
elif name == "value":
self.value = value
elif name == "separator":
self.separator = value
else:
raise InvalidPropertyError()
def Valid(self):
return (self.name != None and self.value != None)
class Set(Operation):
__slots__ = ('name', 'value', 'type', 'versionCommand', 'versionResult')
"""implementation of <set> operation"""
def __init__(self, name = None, value = "", type = ""):
Operation.__init__(self) # base class constructor
self.name = name
self.value = value
self.type = type
self.versionCommand = ""
self.versionResult = ""
def __str__(self):
attributes = "name='" + self.name + "' value='" + self.value + "' type='" + self.type + "'"
if type == "tool":
attributes += " versionCommand='" + self.versionCommand + "' versionResult='" + self.versionResult
return "<set %s/>" % attributes
def Apply(self, oldValue):
return self.value
def SetProperty(self, name, value):
if name == "name":
self.name = value
elif name == "value":
self.value = value
elif name == "type":
self.type = value
elif name == "versionCommand":
self.versionCommand = value
elif name == "versionResult":
self.versionResult = value
elif name == "host":
if HostPlatform.IsKnown(value):
self.host = value
else:
raise InvalidPropertyError()
def Valid(self):
return (self.name != None and self.value != None)
class BadToolValue(Exception):
pass
class Env(Set):
"""implementation of <env> operator"""
def __init__(self, name = None, default = None, type = ""):
Set.__init__(self, name, "", type) # base class constructor
self.default = default
def __str__(self):
attributes = "name='" + self.name + "' type='" + self.type + "'"
if self.default != None:
attributes += " default='" + self.default + "'"
if type == "tool":
attributes += " versionCommand='" + self.versionCommand + "' versionResult='" + self.versionResult + "'"
return "<env %s/>" % attributes
def Apply(self, oldValue):
try:
value = os.environ[self.name]
if value:
if self.type in ["path", "tool", "toolchainpath"]:
# if this value is some sort of path or tool then we need to make sure
# it is a proper absolute path in our preferred format.
try:
path = generic_path.Path(value)
value = str(path.Absolute())
except ValueError,e:
raise BadToolValue("the environment variable %s is incorrect: %s" % (self.name, str(e)))
if self.type in ["tool", "toolchainpath"]:
# if we're dealing with tool-related values, then make sure that we can get "safe"
# versions if they contain spaces - if we can't, that's an error, as they won't
# survive full usage in the toolcheck or when used and/or referenced in FLMs
if ' ' in value:
path = generic_path.Path(value)
spaceSafeValue = path.GetSpaceSafePath()
if not spaceSafeValue:
raise BadToolValue("the environment variable %s is incorrect - it is a '%s' type but contains spaces that cannot be neutralised: %s" % (self.name, self.type, value))
value = spaceSafeValue
elif value.endswith('\\'):
# if this value ends in an un-escaped backslash, then it will be treated as a line continuation character
# in makefile parsing - un-escaped backslashes at the end of values are therefore escaped
count = len(value) - len(value.rstrip('\\')) # an odd number of backslashes means there's one to escape
if count % 2:
value += '\\'
except KeyError:
if self.default != None:
value = self.default
else:
raise BadToolValue("%s is not set in the environment and has no default" % self.name)
return value
def SetProperty(self, name, value):
if name == "default":
self.default = value
else:
Set.SetProperty(self, name, value)
def Valid(self):
return (self.name != None)
class BuildUnit(object):
"Represents an individual buildable unit."
def __init__(self, name, variants):
self.name = name
# A list of Variant objects.
self.variants = variants
# Cache for the variant operations implied by this BuildUnit.
self.operations = []
self.variantKey = ""
def GetOperations(self, cache):
"""Return all operations related to this BuildUnit.
The result is cached, and so will only be computed once per BuildUnit.
"""
key = '.'.join([x.name for x in self.variants])
if self.variantKey != key:
self.variantKey = key
for v in self.variants:
self.operations.extend( v.GetAllOperationsRecursively(cache=cache) )
return self.operations
class Config(object):
"""Abstract type representing an argument to the '-c' option.
The fundamental property of a Config is that it can generate one or more
BuildUnits.
"""
def __init__(self):
self.modifiers = []
def AddModifier(self, variant):
self.modifiers.append(variant)
def ClearModifiers(self):
self.modifiers = []
def GenerateBuildUnits(self,cache):
"""Returns a list of BuildUnits.
This function must be overridden by derived classes.
"""
raise NotImplementedError()
class Variant(Model, Config):
__slots__ = ('cache','name','type','host','extends','ops','variantRefs','allOperations')
def __init__(self, name = ""):
Model.__init__(self)
Config.__init__(self)
self.name = name
self.type = ""
# Operations defined inside this variant.
self.ops = []
# The name of our parent variant, if any.
self.extends = ""
# Any variant references used inside this variant.
self.variantRefs = []
self.allOperations = []
def SetProperty(self, name, value):
if name == "name":
self.name = value
elif name == "host":
if HostPlatform.IsKnown(value):
self.host = value
elif name == "extends":
self.extends = value
elif name == "type":
self.type = value
else:
raise InvalidPropertyError()
def AddChild(self, child):
if isinstance(child, Operation):
self.ops.append(child)
elif isinstance(child, VariantRef):
self.variantRefs.append(child)
else:
raise InvalidChildError()
def Valid(self):
return self.name
def AddOperation(self, op):
self.ops.append(op)
def GetAllOperationsRecursively(self, cache):
"""Returns a list of all operations in this variant.
The list elements are themselves lists; the overall structure of the
returned value is:
[ [ops-from-parent],[ops-from-varRefs], [ops-in-self] ]
"""
if not self.allOperations:
if self.extends:
parent = cache.FindNamedVariant(self.extends)
self.allOperations.extend( parent.GetAllOperationsRecursively(cache = cache) )
for r in self.variantRefs:
for v in [ r.Resolve(cache = cache) ] + r.GetModifiers(cache = cache):
self.allOperations.extend( v.GetAllOperationsRecursively(cache = cache) )
self.allOperations.append(self.ops)
return self.allOperations
def GenerateBuildUnits(self,cache):
name = self.name
vars = [self]
for m in self.modifiers:
name = name + "." + m.name
vars.append(m)
return [ BuildUnit(name=name, variants=vars) ]
def isDerivedFrom(self, progenitor, cache):
if self.name == progenitor:
return True
pname = self.extends
while pname is not None and pname is not '':
parent = cache.FindNamedVariant(pname)
if parent is None:
break
if parent.name == progenitor:
return True
pname = parent.extends
return False
def __str__(self):
s = "<var name='%s' extends='%s'>\n" % (self.name, self.extends)
for op in self.ops:
s += str(op) + '\n'
s += "</var>"
return s
class VariantRef(Reference):
def __init__(self, ref=None):
Reference.__init__(self, ref = ref)
def __str__(self):
return "<varRef ref='%s'/>" % self.ref
def Resolve(self, cache):
try:
return cache.FindNamedVariant(self.ref)
except KeyError:
raise BadReferenceError(self.ref)
class MissingVariantException(Exception):
pass
class Alias(Model, Config):
def __init__(self, name=""):
Model.__init__(self)
Config.__init__(self)
self.name = name
self.meaning = ""
self.type = ""
self.varRefs = []
self.variants = []
def __str__(self):
return "<alias name='%s' meaning='%s'/>" % (self.name, self.meaning)
def SetProperty(self, key, val):
if key == "name":
self.name = val
elif key == "meaning":
self.meaning = val
for u in val.split("."):
self.varRefs.append( VariantRef(ref = u) )
elif key == "type":
self.type = val
else:
raise InvalidPropertyError()
def Valid(self):
return self.name and self.meaning
def Resolve(self, cache):
if not self.variants:
missing_variants = []
for r in self.varRefs:
try:
self.variants.append( r.Resolve(cache=cache) )
except BadReferenceError:
missing_variants.append(r.ref)
if len(missing_variants) > 0:
raise MissingVariantException("Missing variants '%s'" % " ".join(missing_variants))
def GenerateBuildUnits(self, cache):
self.Resolve(cache)
name = self.name
for v in self.modifiers:
name = name + "." + v.name
return [ BuildUnit(name=name, variants=self.variants + self.modifiers) ]
def isDerivedFrom(self, progenitor, cache):
self.Resolve(cache)
for v in self.variants:
if v.isDerivedFrom(progenitor,cache):
return True
return False
class AliasRef(Reference):
def __init__(self, ref=None):
Reference.__init__(self, ref)
def __str__(self):
return "<aliasRef ref='%s'/>" % self.ref
def Resolve(self, cache):
try:
return cache.FindNamedAlias(self.ref)
except KeyError:
raise BadReferenceError(self.ref)
class Group(Model, Config):
def __init__(self, name=""):
Model.__init__(self)
Config.__init__(self)
self.name = name
self.childRefs = []
def SetProperty(self, key, val):
if key == "name":
self.name = val
else:
raise InvalidPropertyError()
def AddChild(self, child):
if isinstance( child, (VariantRef,AliasRef,GroupRef) ):
self.childRefs.append(child)
else:
raise InvalidChildError()
def Valid(self):
return self.name and self.childRefs
def __str__(self):
s = "<group name='%s'>" % self.name
for r in self.childRefs:
s += str(r)
s += "</group>"
return s
def GenerateBuildUnits(self, cache):
units = []
missing_variants = []
for r in self.childRefs:
try:
obj = r.Resolve(cache=cache)
except BadReferenceError:
missing_variants.append(r.ref)
else:
obj.ClearModifiers()
try:
refMods = r.GetModifiers(cache)
except BadReferenceError,e:
missing_variants.append(str(e))
else:
for m in refMods + self.modifiers:
obj.AddModifier(m)
units.extend( obj.GenerateBuildUnits(cache) )
if len(missing_variants) > 0:
raise MissingVariantException("Missing variants '%s'" % " ".join(missing_variants))
return units
class GroupRef(Reference):
def __init__(self, ref=None):
Reference.__init__(self, ref)
def __str__(self):
return "<groupRef ref='%s' mod='%s'/>" % (self.ref, ".".join(self.modifiers))
def Resolve(self, cache):
try:
return cache.FindNamedGroup(self.ref)
except KeyError:
raise BadReferenceError(self.ref)
def GetBuildUnits(configNames, cache, logger):
"""expand a list of config strings like "arm.v5.urel" into a list
of BuildUnit objects that can be queried for settings.
The expansion tries to be tolerant of errors in the XML so that a
typo in one part of a group does not invalidate the whole group.
"""
# turn dot-separated name strings into Model objects (Group, Alias, Variant)
models = []
for c in set(configNames):
ok = True
names = c.split(".")
base = names[0]
mods = names[1:]
if base in cache.groups:
x = cache.FindNamedGroup(base)
elif base in cache.aliases:
x = cache.FindNamedAlias(base)
elif base in cache.variants:
x = cache.FindNamedVariant(base)
else:
logger.Error("Unknown build configuration '%s'" % base)
continue
x.ClearModifiers()
for m in mods:
if m in cache.variants:
x.AddModifier( cache.FindNamedVariant(m) )
else:
logger.Error("Unknown build variant '%s'" % m)
ok = False
if ok:
models.append(copy.copy(x))
# turn Model objects into BuildUnit objects
#
# all objects have a GenerateBuildUnits method but don't use
# that for Groups because it is not tolerant of errors (the
# first error raises an exception and the rest of the group is
# abandoned)
units = []
while len(models) > 0:
x = models.pop()
try:
if isinstance(x, (Alias, Variant)):
# these we just turn straight into BuildUnits
units.extend(x.GenerateBuildUnits(cache))
elif isinstance(x, Group):
# deal with each part of the group separately (later)
for child in x.childRefs:
modChild = copy.copy(child)
modChild.modifiers = child.modifiers + [m.name for m in x.modifiers]
models.append(modChild)
elif isinstance(x, Reference):
# resolve references and their modifiers
try:
obj = x.Resolve(cache)
modObj = copy.copy(obj)
modObj.modifiers = x.GetModifiers(cache)
except BadReferenceError,e:
logger.Error("Unknown reference '%s'" % str(e))
else:
models.append(modObj)
except Exception, e:
logger.Error(str(e))
return units
class ToolErrorException(Exception):
def __init__(self, s):
Exception.__init__(self,s)
class Tool(object):
"""Represents a tool that might be used by raptor e.g. a compiler"""
# It's difficult and expensive to give each tool a log reference but a class one
# will facilitate debugging when that is needed without being a design flaw the
# rest of the time.
log = raptor_utilities.nulllog
# For use in dealing with tools that return non-ascii version strings.
nonascii = ""
identity_chartable = chr(0)
for c in xrange(1,128):
identity_chartable += chr(c)
for c in xrange(128,256):
nonascii += chr(c)
identity_chartable += " "
def __init__(self, name, command, versioncommand, versionresult, id=""):
self.name = name
self.command = command
self.versioncommand = versioncommand
self.versionresult = versionresult
self.id = id # what config this is from - used in debug messages
self.date = None
# Assume the tool is unavailable or the wrong
# version until someone proves that it's OK
self.valid = False
def expand(self, toolset):
self.versioncommand = toolset.ExpandAll(self.versioncommand)
self.versionresult = toolset.ExpandAll(self.versionresult)
self.command = toolset.ExpandAll(self.command)
self.key = hashlib.md5(self.versioncommand + self.versionresult).hexdigest()
# We need the tool's date to find out if we should check it.
try:
if '/' in self.command:
testfile = os.path.abspath(self.command.strip("\"'"))
else:
# The tool isn't a relative or absolute path so the could be relying on the
# $PATH variable to make it available. We must find the tool if it's a simple
# executable file (e.g. "armcc" rather than "python myscript.py") then get it's date.
# We can use the date later to see if our cache is valid.
# If it really is not a simple command then we won't be able to get a date and
# we won't be able to tell if it is altered or updated - too bad!
testfile = generic_path.Where(self.command)
#self.log.Debug("toolcheck: tool '%s' was found on the path at '%s' ", self.command, testfile)
if testfile is None:
raise Exception("Can't be found in path")
if not os.path.isfile(testfile):
raise Exception("tool %s appears to not be a file %s", self.command, testfile)
testfile_stat = os.stat(testfile)
self.date = testfile_stat.st_mtime
except Exception,e:
# We really don't mind if the tool could not be dated - for any reason
Tool.log.Debug("toolcheck: '%s=%s' cannot be dated - this is ok, but the toolcheck won't be able to tell when a new version of the tool is installed. (%s)", self.name, self.command, str(e))
pass
def check(self, shell, evaluator, log = raptor_utilities.nulllog):
self.vre = re.compile(self.versionresult)
try:
self.log.Debug("Pre toolcheck: '%s' for version '%s'", self.name, self.versionresult)
p = subprocess.Popen(args=[shell, "-c", self.versioncommand], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
log.Debug("Checking tool '%s' for version '%s'", self.name, self.versionresult)
versionoutput,err = p.communicate()
except Exception,e:
versionoutput=None
# Some tools return version strings with unicode characters!
# There is no good response other than a lot of decoding and encoding.
# Simpler to ignore it:
versionoutput_a = versionoutput.translate(Tool.identity_chartable,"")
if versionoutput_a and self.vre.search(versionoutput_a) != None:
log.Debug("tool '%s' returned an acceptable version '%s'", self.name, versionoutput_a)
self.valid = True
else:
self.valid = False
raise ToolErrorException("tool '%s' from config '%s' did not return version '%s' as required.\nCommand '%s' returned:\n%s\nCheck your environment and configuration.\n" % (self.name, self.id, self.versionresult, self.versioncommand, versionoutput_a))
def envhash(irrelevant_vars):
"""Determine something unique about this environment to identify it.
must ignore variables that change without mattering to the caller
e.g. perhaps PATH matters but PWD and PPID don't"""
envid = hashlib.md5()
for k in os.environ:
if k not in irrelevant_vars:
envid.update(os.environ[k])
return envid.hexdigest()[:16]
class ToolSet(object):
"""
This class manages a bunch of tools and keeps a cache of
all tools that it ever sees (across all configurations).
toolset.check() is called for each config but the cache is kept across calls to
catch the use of one tool in many configs.
write() is used to flush the cache to disc.
"""
# The raptor shell - this is not mutable.
if 'SBS_SHELL' in os.environ:
shell = os.environ['SBS_SHELL']
else:
hostbinaries = os.path.join(os.environ['SBS_HOME'],
os.environ['HOSTPLATFORM_DIR'])
if HostPlatform.IsHost('lin*'):
shell=os.path.join(hostbinaries, 'bin/bash')
else:
if 'SBS_CYGWIN' in os.environ:
shell=os.path.join(os.environ['SBS_CYGWIN'], 'bin\\bash.exe')
else:
shell=os.path.join(hostbinaries, 'cygwin\\bin\\bash.exe')
irrelevant_vars = ['PWD','OLDPWD','PID','PPID', 'SHLVL' ]
shell_version=".*GNU bash, version [34].*"
shell_re = re.compile(shell_version)
if 'SBS_BUILD_DIR' in os.environ:
cachefile_basename = str(generic_path.Join(os.environ['SBS_BUILD_DIR'],"toolcheck_cache_"))
elif 'EPOCROOT' in os.environ:
cachefile_basename = str(generic_path.Join(os.environ['EPOCROOT'],"epoc32/build/toolcheck_cache_"))
else:
cachefile_basename = None
tool_env_id = envhash(irrelevant_vars)
filemarker = "sbs_toolcache_2.8.2"
def __init__(self, log = raptor_utilities.nulllog, forced=False):
self.__toolcheckcache = {}
self.valid = True
self.checked = False
self.shellok = False
self.configname=""
self.cache_loaded = False
self.forced = forced
self.log=log
# Read in the tool cache
#
# The cache format is a hash key which identifies the
# command and the version that we're checking for. Then
# there are name,value pairs that record, e.g. the date
# of the command file or the name of the variable that
# the config uses for the tool (GNUCP or MWCC or whatever)
if ToolSet.cachefile_basename:
self.cachefilename = ToolSet.cachefile_basename+".tmp"
if not self.forced:
try:
f = open(self.cachefilename, "r+")
# if this tool cache was recorded in
# a different environment then ignore it.
marker = f.readline().rstrip("\r\n")
if marker == ToolSet.filemarker:
env_id_tmp = f.readline().rstrip("\r\n")
if env_id_tmp == ToolSet.tool_env_id:
try:
for l in f.readlines():
toolhistory = l.rstrip(",\n\r").split(",")
ce = {}
for i in toolhistory[1:]:
(name,val) = i.split("=")
if name == "valid":
val = bool(val)
elif name == "age":
val = int(val)
elif name == "date":
if val != "None":
val = float(val)
else:
val= None
ce[name] = val
self.__toolcheckcache[toolhistory[0]] = ce
log.Info("Loaded toolcheck cache: %s\n", self.cachefilename)
except Exception, e:
log.Info("Ignoring garbled toolcheck cache: %s (%s)\n", self.cachefilename, str(e))
self.__toolcheckcache = {}
else:
log.Info("Toolcheck cache %s ignored - environment changed\n", self.cachefilename)
else:
log.Info("Toolcheck cache not loaded = marker missing: %s %s\n", self.cachefilename, ToolSet.filemarker)
f.close()
except IOError, e:
log.Info("Failed to load toolcheck cache: %s\n", self.cachefilename)
else:
log.Debug("Toolcheck cachefile not created because EPOCROOT not set in environment.\n")
def check_shell(self):
# The command shell is a critical tool because all the other tools run
# within it so we must check for it first. It has to be in the path.
# bash 4 is preferred, 3 is accepted
try:
p = subprocess.Popen(args=[ToolSet.shell, '--version'], bufsize=1024, shell = False, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, universal_newlines=True)
shellversion_out, errtxt = p.communicate()
if ToolSet.shell_re.search(shellversion_out) == None:
self.log.Error("A critical tool, '%s', did not return the required version '%s':\n%s\nPlease check that '%s' is in the path.", ToolSet.shell, ToolSet.shell_version, shellversion_out, ToolSet.shell)
self.valid = False
except Exception,e:
self.log.Error("A critical tool could not be found.\nPlease check that '%s' is in the path. (%s)", ToolSet.shell, str(e))
self.valid = False
return self.valid
def check(self, evaluator, configname):
"""Check the toolset for a particular config"""
self.checked = True # remember that we did check something
if not self.shellok:
self.shellok = self.check_shell()
self.shellok = True
self.valid = self.valid and self.shellok
cache = self.__toolcheckcache
for tool in evaluator.tools:
if not self.forced:
try:
t = cache[tool.key]
except KeyError,e:
pass
else:
# if the cache has an entry for the tool then see if the date on
# the tool has changed (assuming the tool is a simple executable file)
if t.has_key('date') and (tool.date is None or (tool.date - t['date'] > 0.1)) :
self.log.Debug("toolcheck forced: '%s' changed since the last check: %s < %s", tool.command, str(t['date']), str(tool.date))
else:
t['age'] = 0 # we used it so it's obviously needed
self.valid = self.valid and t['valid']
self.log.Debug("toolcheck saved on: '%s'", tool.name)
continue
self.log.Debug("toolcheck done: %s -key: %s" % (tool.name, tool.key))
try:
tool.check(ToolSet.shell, evaluator, log = self.log)
except ToolErrorException, e:
self.valid = False
self.log.Error("%s\n" % str(e))
# Tool failures are cached just like successes - don't want to repeat them
cache[tool.key] = { "name" : tool.name, "valid" : tool.valid, "age" : 0 , "date" : tool.date }
def write(self):
"""Writes the tool check cache to disc.
toolset.write()
"""
cache = self.__toolcheckcache
# Write out the cache.
if self.checked and ToolSet.cachefile_basename:
self.log.Debug("Saving toolcache: %s", self.cachefilename)
try:
f = open(self.cachefilename, "w+")
f.write(ToolSet.filemarker+"\n")
f.write(ToolSet.tool_env_id+"\n")
for k,ce in cache.iteritems():
# If a tool has not been used for an extraordinarily long time
# then forget it - to prevent the cache from clogging up with old tools.
# Only write entries for tools that were found to be ok - so that the
# next time the ones that weren't will be re-tested
if ce['valid'] and ce['age'] < 100:
ce['age'] += 1
f.write("%s," % k)
for n,v in ce.iteritems():
f.write("%s=%s," % (n,str(v)))
f.write("\n")
f.close()
self.log.Info("Created/Updated toolcheck cache: %s\n", self.cachefilename)
except Exception, e:
self.log.Info("Could not write toolcheck cache: %s", str(e))
return self.valid
class UninitialisedVariableException(Exception):
pass
class RecursionException(Exception):
pass
class Evaluator(object):
"""Determine the values of variables under different Configurations.
Either of specification and buildUnit may be None."""
refRegex = re.compile("\$\((.+?)\)")
def __init__(self, specification, buildUnit, cache, gathertools = False):
self.dict = {}
self.tools = []
self.gathertools = gathertools
self.cache = cache
specName = "none"
configName = "none"
# A list of lists of operations.
opsLists = []
if buildUnit:
ol = buildUnit.GetOperations(cache)
self.buildUnit = buildUnit
opsLists.extend( ol )
if specification:
for v in specification.GetAllVariantsRecursively(cache):
opsLists.extend( v.GetAllOperationsRecursively(cache) )
tools = {}
unfound_values = []
for opsList in opsLists:
for op in opsList:
# applying an Operation to a non-existent variable
# is OK. We assume that it is just an empty string.
try:
oldValue = self.dict[op.name]
except KeyError:
oldValue = ""
try:
newValue = op.Apply(oldValue)
except BadToolValue, e:
unfound_values.append(str(e))
newValue = "NO_VALUE_FOR_" + op.name
self.dict[op.name] = newValue
if self.gathertools:
if op.type == "tool" and op.versionCommand and op.versionResult:
tools[op.name] = Tool(op.name, newValue, op.versionCommand, op.versionResult, configName)
if len(unfound_values) > 0:
raise UninitialisedVariableException("\n".join(unfound_values))
if self.gathertools:
self.tools = tools.values()
else:
self.tools=[]
# resolve inter-variable references in the dictionary
unresolved = True
for k, v in self.dict.items():
self.dict[k] = v.replace("$$","__RAPTOR_ESCAPED_DOLLAR__")
while unresolved:
unresolved = False
for k, v in self.dict.items():
if v.find('$(' + k + ')') != -1:
raise RecursionException("Recursion Detected in variable '%s' in configuration '%s' " % (k,configName))
else:
expanded = self.ExpandAll(v, specName, configName)
if expanded != v: # something changed?
self.dict[k] = expanded
unresolved = True # maybe more to do
# unquote double-dollar references
for k, v in self.dict.items():
self.dict[k] = v.replace("__RAPTOR_ESCAPED_DOLLAR__","$")
for t in self.tools:
t.expand(self)
def Get(self, name):
"""return the value of variable 'name' or None if not found."""
if name in self.dict:
return self.dict[name]
else:
return None
def Resolve(self, name):
"""same as Get except that env variables are expanded.
raises BadReferenceError if the variable 'name' exists but a
contained environment variable does not exist."""
return self.Get(name) # all variables are now expanded anyway
def ResolveMatching(self, pattern):
""" Return a dictionary of all variables that match the pattern """
for k,v in self.dict.iteritems():
if pattern.match(k):
yield (k,v)
def ExpandAll(self, value, spec = "none", config = "none"):
"""replace all $(SOMETHING) in the string value.
returns the newly expanded string."""
refs = Evaluator.refRegex.findall(value)
# store up all the unset variables before raising an exception
# to allow us to find them all
unset_variables = []
for r in set(refs):
expansion = None
if r in self.dict:
expansion = self.dict[r]
else:
# no expansion for $(r)
unset_variables.append("Unset variable '%s' used in spec '%s' with config '%s'" % (r, spec, config))
if expansion != None:
value = value.replace("$(" + r + ")", expansion)
if len(unset_variables) > 0: # raise them all
raise UninitialisedVariableException(". ".join(unset_variables))
return value
# raptor_data module functions
# end of the raptor_data module