release note: DPDEF143101 - GCC-E isn't tested as part of the tool checking mechanism
#
# 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_make module
# This module contains the classes that write and call Makefile wrappers.
#
import hashlib
import os
import random
import raptor
import raptor_timing
import raptor_utilities
import raptor_version
import raptor_data
import re
import subprocess
import time
from raptor_makefile import *
import traceback
import sys
from xml.sax.saxutils import escape
from xml.sax.saxutils import unescape
class BadMakeEngineException(Exception):
pass
def XMLEscapeLog(stream):
inRecipe = False
for line in stream:
if line.startswith("<recipe"):
inRecipe = True
elif line.startswith("</recipe"):
inRecipe = False
# unless we are inside a "recipe", any line not starting
# with "<" is free text that must be escaped.
if inRecipe or line.startswith("<"):
yield line
else:
yield escape(line)
def AnnoFileParseOutput(annofile):
af = open(annofile, "r")
inOutput = False
inParseJob = False
for line in af:
line = line.rstrip("\n\r")
if not inOutput:
if line.startswith("<output>"):
inOutput = True
yield unescape(line[8:])+'\n'
# This is make output so don't unescape it.
elif line.startswith('<output src="prog">'):
line = line[19:]
inOutput = True
yield unescape(line)+'\n'
else:
end_output = line.find("</output>")
if end_output != -1:
line = line[:end_output]
inOutput = False
yield unescape(line)+'\n'
af.close()
# raptor_make module classes
class MakeEngine(object):
def __init__(self, Raptor, engine="make_engine"):
self.raptor = Raptor
self.valid = True
self.descrambler = None
self.descrambler_started = False
# look for an alias first as this gives end-users a chance to modify
# the shipped variant rather than completely replacing it.
if engine in Raptor.cache.aliases:
avar = Raptor.cache.FindNamedAlias(engine)
elif engine in Raptor.cache.variants:
avar = Raptor.cache.FindNamedVariant(engine)
else:
raise BadMakeEngineException("'%s' does not appear to be a make engine - no settings found for it" % engine)
if not avar.isDerivedFrom("make_engine", Raptor.cache):
raise BadMakeEngineException("'%s' is not a build engine (it's a variant but it does not extend 'make_engine')" % engine)
# find the variant and extract the values
try:
units = avar.GenerateBuildUnits(Raptor.cache)
evaluator = Raptor.GetEvaluator( None, units[0] , gathertools=True)
# shell
self.shellpath = evaluator.Get("DEFAULT_SHELL")
usetalon_s = evaluator.Get("USE_TALON")
self.usetalon = usetalon_s is not None and usetalon_s != ""
self.talonshell = str(evaluator.Get("TALON_SHELL"))
self.talontimeout = str(evaluator.Get("TALON_TIMEOUT"))
self.talonretries = str(evaluator.Get("TALON_RETRIES"))
# commands
self.initCommand = evaluator.Get("initialise")
self.buildCommand = evaluator.Get("build")
self.shutdownCommand = evaluator.Get("shutdown")
# options
self.makefileOption = evaluator.Get("makefile")
self.keepGoingOption = evaluator.Get("keep_going")
self.jobsOption = evaluator.Get("jobs")
self.defaultMakeOptions = evaluator.Get("defaultoptions")
# Logging
# copylogfromannofile means, for emake, that we should ignore
# emake's console output and instead extract output from its annotation
# file. This is a workaround for a problem where some emake
# console output is lost. The annotation file has a copy of this
# output in the "parse" job and it turns out to be uncorrupted.
self.copyLogFromAnnoFile = (evaluator.Get("copylogfromannofile") == "true")
self.annoFileName = None
if self.copyLogFromAnnoFile:
for o in self.raptor.makeOptions:
if o.startswith("--emake-annofile="):
self.annoFileName = o[17:]
self.raptor.Info("annofile: " + o)
if not self.annoFileName:
self.raptor.Info("Cannot copy log from annotation file as no annotation filename was specified via the option --mo=--emake-annofile=<filename>")
self.copyLogFromAnnoFile = False
# buffering
self.scrambled = (evaluator.Get("scrambled") == "true")
# check tool versions
Raptor.CheckToolset(evaluator, avar.name)
# default targets (can vary per-invocation)
self.defaultTargets = Raptor.defaultTargets
# work out how to split up makefiles
try:
selectorNames = [ x.strip() for x in evaluator.Get("selectors").split(',') if x.strip() != "" ]
self.selectors = []
if len(selectorNames) > 0:
for name in selectorNames:
pattern = evaluator.Get(name.strip() + ".selector.iface")
target = evaluator.Get(name.strip() + ".selector.target")
ignoretargets = evaluator.Get(name.strip() + ".selector.ignoretargets")
self.selectors.append(MakefileSelector(name,pattern,target,ignoretargets))
except KeyError:
Raptor.Error("%s.selector.iface, %s.selector.target not found in make engine configuration", name, name)
self.selectors = []
except KeyError:
self.valid = False
raise BadMakeEngineException("Bad '%s' configuration found." % engine)
# there must at least be a build command...
if not self.buildCommand:
self.valid = False
raise BadMakeEngineException("No build command for '%s'"% engine)
if self.usetalon:
talon_settings="""
TALON_SHELL:=%s
TALON_TIMEOUT:=%s
TALON_RECIPEATTRIBUTES:=\
name='$$RECIPE'\
target='$$TARGET'\
host='$$HOSTNAME'\
layer='$$COMPONENT_LAYER'\
component='$$COMPONENT_NAME'\
bldinf='$$COMPONENT_META' mmp='$$PROJECT_META'\
config='$$SBS_CONFIGURATION' platform='$$PLATFORM'\
phase='$$MAKEFILE_GROUP' source='$$SOURCE'
export TALON_RECIPEATTRIBUTES TALON_SHELL TALON_TIMEOUT
USE_TALON:=%s
""" % (self.talonshell, self.talontimeout, "1")
else:
talon_settings="""
USE_TALON:=
"""
timing_start = "$(info " + \
raptor_timing.Timing.custom_string(tag = "start",
object_type = "makefile", task = "parse",
key = "$(THIS_FILENAME)",
time="$(shell date +%s.%N)").rstrip("\n") + ")"
timing_end = "$(info " + \
raptor_timing.Timing.custom_string(tag = "end",
object_type = "makefile", task = "parse",
key = "$(THIS_FILENAME)",
time="$(shell date +%s.%N)").rstrip("\n") + ")"
self.makefile_prologue = """
# generated by %s %s
HOSTPLATFORM:=%s
HOSTPLATFORM_DIR:=%s
OSTYPE:=%s
FLMHOME:=%s
SHELL:=%s
THIS_FILENAME:=$(firstword $(MAKEFILE_LIST))
%s
include %s
""" % ( raptor.name, raptor_version.fullversion(),
" ".join(raptor.hostplatform),
raptor.hostplatform_dir,
self.raptor.filesystem,
str(self.raptor.systemFLM),
self.shellpath,
talon_settings,
self.raptor.systemFLM.Append('globals.mk') )
# Unless dependency processing has been eschewed via the CLI, use a .DEFAULT target to
# trap missing dependencies (ignoring user config files that we know are usually absent)
if not (self.raptor.noDependGenerate or self.raptor.noDependInclude):
self.makefile_prologue += """
$(FLMHOME)/user/final.mk:
$(FLMHOME)/user/default.flm:
$(FLMHOME)/user/globals.mk:
.DEFAULT::
@echo "<warning>Missing dependency detected: $@</warning>"
"""
# Only output timings if requested on CLI
if self.raptor.timing:
self.makefile_prologue += "\n# Print Start-time of Makefile parsing\n" \
+ timing_start + "\n\n"
self.makefile_epilogue = "\n\n# Print End-time of Makefile parsing\n" \
+ timing_end + "\n"
else:
self.makefile_epilogue = ""
self.makefile_epilogue += """
include %s
""" % (self.raptor.systemFLM.Append('final.mk') )
def Write(self, toplevel, specs, configs):
"""Generate a set of makefiles, or one big Makefile."""
if not self.valid:
return None
self.raptor.Debug("Writing Makefile '%s'" % (str(toplevel)))
self.toplevel = toplevel
# create the top-level makefiles
makefileset = None
try:
makefileset = MakefileSet(directory = str(toplevel.Dir()),
selectors = self.selectors,
filenamebase = str(toplevel.File()),
prologue = self.makefile_prologue,
epilogue = self.makefile_epilogue,
defaulttargets = self.defaultTargets)
# are we pruning duplicates?
self.prune = self.raptor.pruneDuplicateMakefiles
self.hashes = set()
# are we writing one Makefile or lots?
self.many = not self.raptor.writeSingleMakefile
# add a makefile for each spec under each config
config_makefileset = makefileset
for c in configs:
if self.many:
config_makefileset = makefileset.createChild(c.name)
# make sure the config_wide spec item is put out first so that it
# can affect everything.
ordered_specs=[]
config_wide_spec = None
for s in specs:
if s.name == "config_wide":
config_wide_spec = s
else:
ordered_specs.append(s)
if config_wide_spec is not None:
config_wide_spec.Configure(c, cache = self.raptor.cache)
self.WriteConfiguredSpec(config_makefileset, config_wide_spec, c, True)
for s in ordered_specs:
s.Configure(c, cache = self.raptor.cache)
self.WriteConfiguredSpec(config_makefileset, s, c, False)
makefileset.close()
except Exception,e:
tb = traceback.format_exc()
if not self.raptor.debugOutput:
tb=""
self.raptor.Error("Failed to write makefile '%s': %s : %s" % (str(toplevel),str(e),tb))
makefileset = None
return makefileset
def WriteConfiguredSpec(self, parentMakefileSet, spec, config, useAllInterfaces):
# ignore this spec if it is empty
hasInterface = spec.HasInterface()
childSpecs = spec.GetChildSpecs()
if not hasInterface and not childSpecs:
return
parameters = []
dupe = True
iface = None
guard = None
if hasInterface:
# find the Interface (it may be a ref)
try:
iface = spec.GetInterface(self.raptor.cache)
except raptor_data.MissingInterfaceError, e:
self.raptor.Error("No interface for '%s'", spec.name)
return
if iface.abstract:
self.raptor.Error("Abstract interface '%s' for '%s'",
iface.name, spec.name)
return
# we need to guard the FLM call with a hash based on all the
# parameter values so that duplicate calls cannot be made.
# So we need to find all the values before we can write
# anything out.
md5hash = hashlib.md5()
md5hash.update(iface.name)
# we need an Evaluator to get parameter values for this
# Specification in the context of this Configuration
evaluator = self.raptor.GetEvaluator(spec, config)
def addparam(k, value, default):
if value == None:
if p.default != None:
value = p.default
else:
self.raptor.Error("%s undefined for '%s'",
k, spec.name)
value = ""
parameters.append((k, value))
md5hash.update(value)
# parameters required by the interface
for p in iface.GetParams(self.raptor.cache):
val = evaluator.Resolve(p.name)
addparam(p.name,val,p.default)
# Use Patterns to fetch a group of parameters
for g in iface.GetParamGroups(self.raptor.cache):
for k,v in evaluator.ResolveMatching(g.patternre):
addparam(k,v,g.default)
hash = md5hash.hexdigest()
dupe = hash in self.hashes
self.hashes.add(hash)
# we only create a Makefile if we have a new FLM call to contribute,
# OR we are not pruning duplicates (guarding instead)
# OR we have some child specs that need something to include them.
if dupe and self.prune and not childSpecs:
return
makefileset = parentMakefileSet
# Create a new layer of makefiles?
if self.many:
makefileset = makefileset.createChild(spec.name)
if not (self.prune and dupe):
if self.prune:
guard = ""
else:
guard = "guard_" + hash
# generate the call to the FLM
if iface is not None:
makefileset.addCall(spec.name, config.name, iface.name, useAllInterfaces, iface.GetFLMIncludePath(self.raptor.cache), parameters, guard)
# recursive includes
for child in childSpecs:
self.WriteConfiguredSpec(makefileset, child, config, useAllInterfaces)
if self.many:
makefileset.close() # close child set of makefiles as we'll never see them again.
def Make(self, makefileset):
"run the make command"
if not self.valid:
return False
if self.usetalon:
# Always use Talon since it does the XML not
# just descrambling
if not self.StartTalon() and not self.raptor.keepGoing:
self.Tidy()
return False
else:
# use the descrambler if we are doing a parallel build on
# a make engine which does not buffer each agent's output
if self.raptor.jobs > 1 and self.scrambled:
self.StartDescrambler()
if not self.descrambler_started and not self.raptor.keepGoing:
self.Tidy()
return False
# run any initialisation script
if self.initCommand:
self.raptor.Info("Running %s", self.initCommand)
if os.system(self.initCommand) != 0:
self.raptor.Error("Failed in %s", self.initCommand)
self.Tidy()
return False
# Save file names to a list, to allow the order to be reversed
fileName_list = list(makefileset.makefileNames())
# Iterate through args passed to raptor, searching for CLEAN or REALLYCLEAN
clean_flag = False
for arg in self.raptor.args:
clean_flag = ("CLEAN" in self.raptor.args) or \
("REALLYCLEAN" in self.raptor.args)
# Files should be deleted in the opposite order to the order
# they were built. So reverse file order if cleaning
if clean_flag:
fileName_list.reverse()
# Report number of makefiles to be built
self.raptor.InfoDiscovery(object_type = "makefile", count = len(fileName_list))
# Process each file in turn
for makefile in fileName_list:
if not os.path.exists(makefile):
self.raptor.Info("Skipping makefile %s", makefile)
continue
self.raptor.Info("Making %s", makefile)
# assemble the build command line
command = self.buildCommand
if self.makefileOption:
command += " " + self.makefileOption + " " + ' "' + str(makefile) + '" '
if self.raptor.keepGoing and self.keepGoingOption:
command += " " + self.keepGoingOption
if self.raptor.jobs > 1 and self.jobsOption:
command += " " + self.jobsOption +" "+ str(self.raptor.jobs)
# Set default options first so that they can be overridden by
# ones set by the --mo option on the raptor commandline:
command += " " + self.defaultMakeOptions
# Can supply options on the commandline to override default settings.
if len(self.raptor.makeOptions) > 0:
for o in self.raptor.makeOptions:
if o.find(";") != -1 or o.find("\\") != -1:
command += " " + "'" + o + "'"
else:
command += " " + o
# Switch off dependency file including?
if self.raptor.noDependInclude or self.raptor.noDependGenerate:
command += " NO_DEPEND_INCLUDE=1"
# Switch off dependency file generation (and, implicitly, inclusion)?
if self.raptor.noDependGenerate:
command += " NO_DEPEND_GENERATE=1"
if self.usetalon:
# use the descrambler if we set it up
command += ' TALON_DESCRAMBLE='
if self.scrambled:
command += '1 '
else:
command += '0 '
else:
if self.descrambler_started:
command += ' DESCRAMBLE="' + self.descrambler + '"'
# use the retry mechanism if requested
if self.raptor.tries > 1:
command += ' RECIPETRIES=' + str(self.raptor.tries)
command += ' TALON_RETRIES=' + str(self.raptor.tries - 1)
# targets go at the end, if the makefile supports them
addTargets = self.raptor.targets[:]
ignoreTargets = makefileset.ignoreTargets(makefile)
if addTargets and ignoreTargets:
for target in self.raptor.targets:
if re.match(ignoreTargets, target):
addTargets.remove(target)
if addTargets:
command += " " + " ".join(addTargets)
# Send stderr to a file so that it can't mess up the log (e.g.
# clock skew messages from some build engines scatter their
# output across our xml.
stderrfilename = makefile+'.stderr'
stdoutfilename = makefile+'.stdout'
command += " 2>'%s' " % stderrfilename
# Keep a copy of the stdout too in the case of using the
# annofile - so that we can trap the problem that
# makes the copy-log-from-annofile workaround necessary
# and perhaps determine when we can remove it.
if self.copyLogFromAnnoFile:
command += " >'%s' " % stdoutfilename
# Substitute the makefile name for any occurrence of #MAKEFILE#
command = command.replace("#MAKEFILE#", str(makefile))
self.raptor.Info("Executing '%s'", command)
# execute the build.
# the actual call differs between Windows and Unix.
# bufsize=1 means "line buffered"
#
try:
# Time the build
self.raptor.InfoStartTime(object_type = "makefile",
task = "build", key = str(makefile))
makeenv=os.environ.copy()
if self.usetalon:
makeenv['TALON_RECIPEATTRIBUTES']="none"
makeenv['TALON_SHELL']=self.talonshell
makeenv['TALON_BUILDID']=str(self.buildID)
makeenv['TALON_TIMEOUT']=str(self.talontimeout)
if self.raptor.filesystem == "unix":
p = subprocess.Popen([command], bufsize=65535,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
close_fds=True, env=makeenv, shell=True)
else:
p = subprocess.Popen(args =
[raptor_data.ToolSet.shell, '-c', command],
bufsize=65535,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
shell = False,
universal_newlines=True, env=makeenv)
stream = p.stdout
inRecipe = False
if not self.copyLogFromAnnoFile:
for l in XMLEscapeLog(stream):
self.raptor.out.write(l)
returncode = p.wait()
else:
returncode = p.wait()
annofilename = self.annoFileName.replace("#MAKEFILE#", makefile)
self.raptor.Info("copylogfromannofile: Copying log from annotation file %s to work around a potential problem with the console output", annofilename)
try:
for l in XMLEscapeLog(AnnoFileParseOutput(annofilename)):
self.raptor.out.write(l)
except Exception,e:
self.raptor.Error("Couldn't complete stdout output from annofile %s for %s - '%s'", annofilename, command, str(e))
# Take all the stderr output that went into the .stderr file
# and put it back into the log, but safely so it can't mess up
# xml parsers.
try:
e = open(stderrfilename,"r")
for line in e:
self.raptor.out.write(escape(line))
e.close()
except Exception,e:
self.raptor.Error("Couldn't complete stderr output for %s - '%s'", command, str(e))
# Report end-time of the build
self.raptor.InfoEndTime(object_type = "makefile",
task = "build", key = str(makefile))
if returncode != 0 and not self.raptor.keepGoing:
self.Tidy()
return False
except Exception,e:
self.raptor.Error("Exception '%s' during '%s'", str(e), command)
self.Tidy()
# Still report end-time of the build
self.raptor.InfoEndTime(object_type = "Building", task = "Makefile",
key = str(makefile))
return False
# run any shutdown script
if self.shutdownCommand != None and self.shutdownCommand != "":
self.raptor.Info("Running %s", self.shutdownCommand)
if os.system(self.shutdownCommand) != 0:
self.raptor.Error("Failed in %s", self.shutdownCommand)
self.Tidy()
return False
self.Tidy()
return True
def Tidy(self):
if self.usetalon:
self.StopTalon()
else:
"clean up after the make command"
self.StopDescrambler()
def StartTalon(self):
# the talon command
beginning = raptor.hostplatform_dir + "/bin"
if "win" in raptor.hostplatform:
end = ".exe"
else:
end = ""
self.talonctl = str(self.raptor.home.Append(beginning, "talonctl"+end))
# generate a unique build number
random.seed()
looking = True
tries = 0
while looking and tries < 100:
self.buildID = raptor.name + str(random.getrandbits(32))
command = self.talonctl + " start"
os.environ["TALON_BUILDID"] = self.buildID
self.raptor.Info("Running %s", command)
looking = (os.system(command) != 0)
tries += 1
if looking:
self.raptor.Error("Failed to initialise the talon shell for this build")
self.talonctl = ""
return False
return True
def StopTalon(self):
if self.talonctl:
command = self.talonctl + " stop"
self.talonctl = ""
self.raptor.Info("Running %s", command)
if os.system(command) != 0:
self.raptor.Error("Failed in %s", command)
return False
return True
def StartDescrambler(self):
# the descrambler command
beginning = raptor.hostplatform_dir + "/bin"
if "win" in raptor.hostplatform:
end = ".exe"
else:
end = ""
self.descrambler = str(self.raptor.home.Append(beginning, "sbs_descramble"+end))
# generate a unique build number
random.seed()
looking = True
tries = 0
while looking and tries < 100:
buildID = raptor.name + str(random.getrandbits(32))
command = self.descrambler + " " + buildID + " start"
self.raptor.Info("Running %s", command)
looking = (os.system(command) != 0)
tries += 1
if looking:
self.raptor.Error("Failed to start the log descrambler")
self.descrambler_started = True
return False
self.descrambler_started = True
self.descrambler += " " + buildID
return True
def StopDescrambler(self):
if self.descrambler_started:
command = self.descrambler + " stop"
self.descrambler = ""
self.raptor.Info("Running %s", command)
if os.system(command) != 0:
self.raptor.Error("Failed in %s", command)
return False
return True
# raptor_make module functions
# end of the raptor_make module