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|
#
# BitBake ToasterUI Implementation
#
# Copyright (C) 2013 Intel Corporation
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
import datetime
import sys
import bb
import re
import ast
os.environ.setdefault("DJANGO_SETTINGS_MODULE", "toaster.toastermain.settings")
import toaster.toastermain.settings as toaster_django_settings
from toaster.orm.models import Build, Task, Recipe, Layer_Version, Layer, Target, LogMessage, HelpText
from toaster.orm.models import Target_Image_File
from toaster.orm.models import Variable, VariableHistory
from toaster.orm.models import Package, Package_File, Target_Installed_Package, Target_File
from toaster.orm.models import Task_Dependency, Package_Dependency
from toaster.orm.models import Recipe_Dependency
from bb.msg import BBLogFormatter as format
class NotExisting(Exception):
pass
class ORMWrapper(object):
""" This class creates the dictionaries needed to store information in the database
following the format defined by the Django models. It is also used to save this
information in the database.
"""
def __init__(self):
pass
def create_build_object(self, build_info):
assert 'machine' in build_info
assert 'distro' in build_info
assert 'distro_version' in build_info
assert 'started_on' in build_info
assert 'cooker_log_path' in build_info
assert 'build_name' in build_info
assert 'bitbake_version' in build_info
build = Build.objects.create(
machine=build_info['machine'],
distro=build_info['distro'],
distro_version=build_info['distro_version'],
started_on=build_info['started_on'],
completed_on=build_info['started_on'],
cooker_log_path=build_info['cooker_log_path'],
build_name=build_info['build_name'],
bitbake_version=build_info['bitbake_version'])
return build
def create_target_objects(self, target_info):
assert 'build' in target_info
assert 'targets' in target_info
targets = []
for tgt_name in target_info['targets']:
tgt_object = Target.objects.create( build = target_info['build'],
target = tgt_name,
is_image = False,
);
targets.append(tgt_object)
return targets
def update_build_object(self, build, errors, warnings, taskfailures):
assert isinstance(build,Build)
assert isinstance(errors, int)
assert isinstance(warnings, int)
outcome = Build.SUCCEEDED
if errors or taskfailures:
outcome = Build.FAILED
build.completed_on = datetime.datetime.now()
build.timespent = int((build.completed_on - build.started_on).total_seconds())
build.errors_no = errors
build.warnings_no = warnings
build.outcome = outcome
build.save()
def update_target_object(self, target, license_manifest_path):
target.license_manifest_path = license_manifest_path
target.save()
def get_update_task_object(self, task_information, must_exist = False):
assert 'build' in task_information
assert 'recipe' in task_information
assert 'task_name' in task_information
task_object, created = Task.objects.get_or_create(
build=task_information['build'],
recipe=task_information['recipe'],
task_name=task_information['task_name'],
)
if must_exist and created:
task_information['debug'] = "build id %d, recipe id %d" % (task_information['build'].pk, task_information['recipe'].pk)
task_object.delete()
raise NotExisting("Task object created when expected to exist", task_information)
for v in vars(task_object):
if v in task_information.keys():
vars(task_object)[v] = task_information[v]
# update setscene-related information
if 1 == Task.objects.related_setscene(task_object).count():
if task_object.outcome == Task.OUTCOME_COVERED:
task_object.outcome = Task.OUTCOME_CACHED
outcome_task_setscene = Task.objects.get(task_executed=True, build = task_object.build,
recipe = task_object.recipe, task_name=task_object.task_name+"_setscene").outcome
if outcome_task_setscene == Task.OUTCOME_SUCCESS:
task_object.sstate_result = Task.SSTATE_RESTORED
elif outcome_task_setscene == Task.OUTCOME_FAILED:
task_object.sstate_result = Task.SSTATE_FAILED
# mark down duration if we have a start time and a current time
if 'start_time' in task_information.keys() and 'end_time' in task_information.keys():
duration = task_information['end_time'] - task_information['start_time']
task_object.elapsed_time = duration
task_object.save()
return task_object
def get_update_recipe_object(self, recipe_information, must_exist = False):
assert 'layer_version' in recipe_information
assert 'file_path' in recipe_information
recipe_object, created = Recipe.objects.get_or_create(
layer_version=recipe_information['layer_version'],
file_path=recipe_information['file_path'])
if must_exist and created:
recipe_object.delete()
raise NotExisting("Recipe object created when expected to exist", recipe_information)
for v in vars(recipe_object):
if v in recipe_information.keys():
vars(recipe_object)[v] = recipe_information[v]
recipe_object.save()
return recipe_object
def get_update_layer_version_object(self, build_obj, layer_obj, layer_version_information):
assert isinstance(build_obj, Build)
assert isinstance(layer_obj, Layer)
assert 'branch' in layer_version_information
assert 'commit' in layer_version_information
assert 'priority' in layer_version_information
layer_version_object, created = Layer_Version.objects.get_or_create(
build = build_obj,
layer = layer_obj,
branch = layer_version_information['branch'],
commit = layer_version_information['commit'],
priority = layer_version_information['priority']
)
return layer_version_object
def get_update_layer_object(self, layer_information):
assert 'name' in layer_information
assert 'local_path' in layer_information
assert 'layer_index_url' in layer_information
layer_object, created = Layer.objects.get_or_create(
name=layer_information['name'],
local_path=layer_information['local_path'],
layer_index_url=layer_information['layer_index_url'])
return layer_object
def save_target_file_information(self, build_obj, target_obj, filedata):
assert isinstance(build_obj, Build)
assert isinstance(target_obj, Target)
dirs = filedata['dirs']
files = filedata['files']
syms = filedata['syms']
# we insert directories, ordered by name depth
for d in sorted(dirs, key=lambda x:len(x[-1].split("/"))):
(user, group, size) = d[1:4]
permission = d[0][1:]
path = d[4].lstrip(".")
if len(path) == 0:
# we create the root directory as a special case
path = "/"
tf_obj = Target_File.objects.create(
target = target_obj,
path = path,
size = size,
inodetype = Target_File.ITYPE_DIRECTORY,
permission = permission,
owner = user,
group = group,
)
tf_obj.directory = tf_obj
tf_obj.save()
continue
parent_path = "/".join(path.split("/")[:len(path.split("/")) - 1])
if len(parent_path) == 0:
parent_path = "/"
parent_obj = Target_File.objects.get(target = target_obj, path = parent_path, inodetype = Target_File.ITYPE_DIRECTORY)
tf_obj = Target_File.objects.create(
target = target_obj,
path = path,
size = size,
inodetype = Target_File.ITYPE_DIRECTORY,
permission = permission,
owner = user,
group = group,
directory = parent_obj)
# we insert files
for d in files:
(user, group, size) = d[1:4]
permission = d[0][1:]
path = d[4].lstrip(".")
parent_path = "/".join(path.split("/")[:len(path.split("/")) - 1])
inodetype = Target_File.ITYPE_REGULAR
if d[0].startswith('b'):
inodetype = Target_File.ITYPE_BLOCK
if d[0].startswith('c'):
inodetype = Target_File.ITYPE_CHARACTER
if d[0].startswith('p'):
inodetype = Target_File.ITYPE_FIFO
tf_obj = Target_File.objects.create(
target = target_obj,
path = path,
size = size,
inodetype = inodetype,
permission = permission,
owner = user,
group = group)
parent_obj = Target_File.objects.get(target = target_obj, path = parent_path, inodetype = Target_File.ITYPE_DIRECTORY)
tf_obj.directory = parent_obj
tf_obj.save()
# we insert symlinks
for d in syms:
(user, group, size) = d[1:4]
permission = d[0][1:]
path = d[4].lstrip(".")
filetarget_path = d[6]
parent_path = "/".join(path.split("/")[:len(path.split("/")) - 1])
if not filetarget_path.startswith("/"):
# we have a relative path, get a normalized absolute one
filetarget_path = parent_path + "/" + filetarget_path
fcp = filetarget_path.split("/")
fcpl = []
for i in fcp:
if i == "..":
fcpl.pop()
else:
fcpl.append(i)
filetarget_path = "/".join(fcpl)
try:
filetarget_obj = Target_File.objects.get(target = target_obj, path = filetarget_path)
except Exception as e:
# we might have an invalid link; no way to detect this. just set it to None
filetarget_obj = None
parent_obj = Target_File.objects.get(target = target_obj, path = parent_path, inodetype = Target_File.ITYPE_DIRECTORY)
tf_obj = Target_File.objects.create(
target = target_obj,
path = path,
size = size,
inodetype = Target_File.ITYPE_SYMLINK,
permission = permission,
owner = user,
group = group,
directory = parent_obj,
sym_target = filetarget_obj)
def save_target_package_information(self, build_obj, target_obj, packagedict, pkgpnmap, recipes):
assert isinstance(build_obj, Build)
assert isinstance(target_obj, Target)
errormsg = ""
for p in packagedict:
searchname = p
if 'OPKGN' in pkgpnmap[p].keys():
searchname = pkgpnmap[p]['OPKGN']
packagedict[p]['object'], created = Package.objects.get_or_create( build = build_obj, name = searchname )
if created:
# package was not build in the current build, but
# fill in everything we can from the runtime-reverse package data
try:
packagedict[p]['object'].recipe = recipes[pkgpnmap[p]['PN']]
packagedict[p]['object'].version = pkgpnmap[p]['PV']
packagedict[p]['object'].installed_name = p
packagedict[p]['object'].revision = pkgpnmap[p]['PR']
packagedict[p]['object'].license = pkgpnmap[p]['LICENSE']
packagedict[p]['object'].section = pkgpnmap[p]['SECTION']
packagedict[p]['object'].summary = pkgpnmap[p]['SUMMARY']
packagedict[p]['object'].description = pkgpnmap[p]['DESCRIPTION']
packagedict[p]['object'].size = int(pkgpnmap[p]['PKGSIZE'])
# no files recorded for this package, so save files info
for targetpath in pkgpnmap[p]['FILES_INFO']:
targetfilesize = pkgpnmap[p]['FILES_INFO'][targetpath]
Package_File.objects.create( package = packagedict[p]['object'],
path = targetpath,
size = targetfilesize)
except KeyError as e:
errormsg += " stpi: Key error, package %s key %s \n" % ( p, e )
# save disk installed size
packagedict[p]['object'].installed_size = packagedict[p]['size']
packagedict[p]['object'].save()
Target_Installed_Package.objects.create(target = target_obj, package = packagedict[p]['object'])
for p in packagedict:
for (px,deptype) in packagedict[p]['depends']:
if deptype == 'depends':
tdeptype = Package_Dependency.TYPE_TRDEPENDS
elif deptype == 'recommends':
tdeptype = Package_Dependency.TYPE_TRECOMMENDS
Package_Dependency.objects.create( package = packagedict[p]['object'],
depends_on = packagedict[px]['object'],
dep_type = tdeptype,
target = target_obj);
if (len(errormsg) > 0):
raise Exception(errormsg)
def save_target_image_file_information(self, target_obj, file_name, file_size):
target_image_file = Target_Image_File.objects.create( target = target_obj,
file_name = file_name,
file_size = file_size)
target_image_file.save()
def create_logmessage(self, log_information):
assert 'build' in log_information
assert 'level' in log_information
assert 'message' in log_information
log_object = LogMessage.objects.create(
build = log_information['build'],
level = log_information['level'],
message = log_information['message'])
for v in vars(log_object):
if v in log_information.keys():
vars(log_object)[v] = log_information[v]
return log_object.save()
def save_build_package_information(self, build_obj, package_info, recipes):
assert isinstance(build_obj, Build)
# create and save the object
pname = package_info['PKG']
if 'OPKGN' in package_info.keys():
pname = package_info['OPKGN']
bp_object, created = Package.objects.get_or_create( build = build_obj,
name = pname )
bp_object.installed_name = package_info['PKG']
bp_object.recipe = recipes[package_info['PN']]
bp_object.version = package_info['PKGV']
bp_object.revision = package_info['PKGR']
bp_object.summary = package_info['SUMMARY']
bp_object.description = package_info['DESCRIPTION']
bp_object.size = int(package_info['PKGSIZE'])
bp_object.section = package_info['SECTION']
bp_object.license = package_info['LICENSE']
bp_object.save()
# save any attached file information
for path in package_info['FILES_INFO']:
fo = Package_File.objects.create( package = bp_object,
path = path,
size = package_info['FILES_INFO'][path] )
def _po_byname(p):
pkg, created = Package.objects.get_or_create(build = build_obj, name = p)
if created:
pkg.size = -1
pkg.save()
return pkg
# save soft dependency information
if 'RDEPENDS' in package_info and package_info['RDEPENDS']:
for p in bb.utils.explode_deps(package_info['RDEPENDS']):
Package_Dependency.objects.get_or_create( package = bp_object,
depends_on = _po_byname(p), dep_type = Package_Dependency.TYPE_RDEPENDS)
if 'RPROVIDES' in package_info and package_info['RPROVIDES']:
for p in bb.utils.explode_deps(package_info['RPROVIDES']):
Package_Dependency.objects.get_or_create( package = bp_object,
depends_on = _po_byname(p), dep_type = Package_Dependency.TYPE_RPROVIDES)
if 'RRECOMMENDS' in package_info and package_info['RRECOMMENDS']:
for p in bb.utils.explode_deps(package_info['RRECOMMENDS']):
Package_Dependency.objects.get_or_create( package = bp_object,
depends_on = _po_byname(p), dep_type = Package_Dependency.TYPE_RRECOMMENDS)
if 'RSUGGESTS' in package_info and package_info['RSUGGESTS']:
for p in bb.utils.explode_deps(package_info['RSUGGESTS']):
Package_Dependency.objects.get_or_create( package = bp_object,
depends_on = _po_byname(p), dep_type = Package_Dependency.TYPE_RSUGGESTS)
if 'RREPLACES' in package_info and package_info['RREPLACES']:
for p in bb.utils.explode_deps(package_info['RREPLACES']):
Package_Dependency.objects.get_or_create( package = bp_object,
depends_on = _po_byname(p), dep_type = Package_Dependency.TYPE_RREPLACES)
if 'RCONFLICTS' in package_info and package_info['RCONFLICTS']:
for p in bb.utils.explode_deps(package_info['RCONFLICTS']):
Package_Dependency.objects.get_or_create( package = bp_object,
depends_on = _po_byname(p), dep_type = Package_Dependency.TYPE_RCONFLICTS)
return bp_object
def save_build_variables(self, build_obj, vardump):
assert isinstance(build_obj, Build)
for k in vardump:
desc = vardump[k]['doc'];
if desc is None:
var_words = [word for word in k.split('_')]
root_var = "_".join([word for word in var_words if word.isupper()])
if root_var and root_var != k and root_var in vardump:
desc = vardump[root_var]['doc']
if desc is None:
desc = ''
if desc:
helptext_obj = HelpText.objects.create(build=build_obj,
area=HelpText.VARIABLE,
key=k,
text=desc)
if not bool(vardump[k]['func']):
value = vardump[k]['v'];
if value is None:
value = ''
variable_obj = Variable.objects.create( build = build_obj,
variable_name = k,
variable_value = value,
description = desc)
for vh in vardump[k]['history']:
if not 'documentation.conf' in vh['file']:
VariableHistory.objects.create( variable = variable_obj,
file_name = vh['file'],
line_number = vh['line'],
operation = vh['op'])
class BuildInfoHelper(object):
""" This class gathers the build information from the server and sends it
towards the ORM wrapper for storing in the database
It is instantiated once per build
Keeps in memory all data that needs matching before writing it to the database
"""
def __init__(self, server, has_build_history = False):
self._configure_django()
self.internal_state = {}
self.internal_state['taskdata'] = {}
self.task_order = 0
self.server = server
self.orm_wrapper = ORMWrapper()
self.has_build_history = has_build_history
self.tmp_dir = self.server.runCommand(["getVariable", "TMPDIR"])[0]
def _configure_django(self):
# Add toaster to sys path for importing modules
sys.path.append(os.path.join(os.path.dirname(os.path.dirname(os.path.dirname(__file__))), 'toaster'))
###################
## methods to convert event/external info into objects that the ORM layer uses
def _get_build_information(self):
build_info = {}
# Generate an identifier for each new build
build_info['machine'] = self.server.runCommand(["getVariable", "MACHINE"])[0]
build_info['distro'] = self.server.runCommand(["getVariable", "DISTRO"])[0]
build_info['distro_version'] = self.server.runCommand(["getVariable", "DISTRO_VERSION"])[0]
build_info['started_on'] = datetime.datetime.now()
build_info['completed_on'] = datetime.datetime.now()
build_info['cooker_log_path'] = self.server.runCommand(["getVariable", "BB_CONSOLELOG"])[0]
build_info['build_name'] = self.server.runCommand(["getVariable", "BUILDNAME"])[0]
build_info['bitbake_version'] = self.server.runCommand(["getVariable", "BB_VERSION"])[0]
return build_info
def _get_task_information(self, event, recipe):
assert 'taskname' in vars(event)
task_information = {}
task_information['build'] = self.internal_state['build']
task_information['outcome'] = Task.OUTCOME_NA
task_information['recipe'] = recipe
task_information['task_name'] = event.taskname
try:
# some tasks don't come with a hash. and that's ok
task_information['sstate_checksum'] = event.taskhash
except AttributeError:
pass
return task_information
def _get_layer_version_for_path(self, path):
assert path.startswith("/")
assert 'build' in self.internal_state
def _slkey(layer_version):
assert isinstance(layer_version, Layer_Version)
return len(layer_version.layer.local_path)
# Heuristics: we always match recipe to the deepest layer path that
# we can match to the recipe file path
for bl in sorted(Layer_Version.objects.filter(build = self.internal_state['build']), reverse=True, key=_slkey):
if (path.startswith(bl.layer.local_path)):
return bl
#TODO: if we get here, we didn't read layers correctly
assert False
return None
def _get_recipe_information_from_taskfile(self, taskfile):
localfilepath = taskfile.split(":")[-1]
layer_version_obj = self._get_layer_version_for_path(localfilepath)
recipe_info = {}
recipe_info['layer_version'] = layer_version_obj
recipe_info['file_path'] = taskfile
return recipe_info
def _get_path_information(self, task_object):
assert isinstance(task_object, Task)
build_stats_format = "{tmpdir}/buildstats/{target}-{machine}/{buildname}/{package}/"
build_stats_path = []
for t in self.internal_state['targets']:
target = t.target
machine = self.internal_state['build'].machine
buildname = self.internal_state['build'].build_name
pe, pv = task_object.recipe.version.split(":",1)
if len(pe) > 0:
package = task_object.recipe.name + "-" + pe + "_" + pv
else:
package = task_object.recipe.name + "-" + pv
build_stats_path.append(build_stats_format.format(tmpdir=self.tmp_dir, target=target,
machine=machine, buildname=buildname,
package=package))
return build_stats_path
def _remove_redundant(self, string):
ret = []
for i in string.split():
if i not in ret:
ret.append(i)
return " ".join(sorted(ret))
################################
## external available methods to store information
def store_layer_info(self, event):
assert 'data' in vars(event)
layerinfos = event.data
self.internal_state['lvs'] = {}
for layer in layerinfos:
self.internal_state['lvs'][self.orm_wrapper.get_update_layer_object(layerinfos[layer])] = layerinfos[layer]['version']
def store_started_build(self, event):
assert '_pkgs' in vars(event)
build_information = self._get_build_information()
build_obj = self.orm_wrapper.create_build_object(build_information)
self.internal_state['build'] = build_obj
# save layer version information for this build
for layer_obj in self.internal_state['lvs']:
self.orm_wrapper.get_update_layer_version_object(build_obj, layer_obj, self.internal_state['lvs'][layer_obj])
del self.internal_state['lvs']
# create target information
target_information = {}
target_information['targets'] = event._pkgs
target_information['build'] = build_obj
self.internal_state['targets'] = self.orm_wrapper.create_target_objects(target_information)
# Save build configuration
self.orm_wrapper.save_build_variables(build_obj, self.server.runCommand(["getAllKeysWithFlags", ["doc", "func"]])[0])
def update_target_image_file(self, event):
image_fstypes = self.server.runCommand(["getVariable", "IMAGE_FSTYPES"])[0]
for t in self.internal_state['targets']:
if t.is_image == True:
output_files = list(event.data.viewkeys())
for output in output_files:
if t.target in output and output.split('.rootfs.')[1] in image_fstypes:
self.orm_wrapper.save_target_image_file_information(t, output, event.data[output])
def update_build_information(self, event, errors, warnings, taskfailures):
if 'build' in self.internal_state:
self.orm_wrapper.update_build_object(self.internal_state['build'], errors, warnings, taskfailures)
def store_license_manifest_path(self, event):
deploy_dir = event.data['deploy_dir']
image_name = event.data['image_name']
path = deploy_dir + "/licenses/" + image_name + "/"
for target in self.internal_state['targets']:
if target.target in image_name:
self.orm_wrapper.update_target_object(target, path)
def store_started_task(self, event):
assert isinstance(event, (bb.runqueue.sceneQueueTaskStarted, bb.runqueue.runQueueTaskStarted, bb.runqueue.runQueueTaskSkipped))
assert 'taskfile' in vars(event)
localfilepath = event.taskfile.split(":")[-1]
assert localfilepath.startswith("/")
identifier = event.taskfile + ":" + event.taskname
recipe_information = self._get_recipe_information_from_taskfile(event.taskfile)
recipe = self.orm_wrapper.get_update_recipe_object(recipe_information, True)
task_information = self._get_task_information(event, recipe)
task_information['outcome'] = Task.OUTCOME_NA
if isinstance(event, bb.runqueue.runQueueTaskSkipped):
assert 'reason' in vars(event)
task_information['task_executed'] = False
if event.reason == "covered":
task_information['outcome'] = Task.OUTCOME_COVERED
if event.reason == "existing":
task_information['outcome'] = Task.OUTCOME_PREBUILT
else:
task_information['task_executed'] = True
if 'noexec' in vars(event) and event.noexec == True:
task_information['task_executed'] = False
task_information['outcome'] = Task.OUTCOME_EMPTY
task_information['script_type'] = Task.CODING_NA
# do not assign order numbers to scene tasks
if not isinstance(event, bb.runqueue.sceneQueueTaskStarted):
self.task_order += 1
task_information['order'] = self.task_order
task_obj = self.orm_wrapper.get_update_task_object(task_information)
self.internal_state['taskdata'][identifier] = {
'outcome': task_information['outcome'],
}
def store_tasks_stats(self, event):
for (taskfile, taskname, taskstats, recipename) in event.data:
localfilepath = taskfile.split(":")[-1]
assert localfilepath.startswith("/")
recipe_information = self._get_recipe_information_from_taskfile(taskfile)
recipe_object = Recipe.objects.get(layer_version = recipe_information['layer_version'],
file_path__endswith = recipe_information['file_path'],
name = recipename)
task_information = {}
task_information['build'] = self.internal_state['build']
task_information['recipe'] = recipe_object
task_information['task_name'] = taskname
task_information['cpu_usage'] = taskstats['cpu_usage']
task_information['disk_io'] = taskstats['disk_io']
task_obj = self.orm_wrapper.get_update_task_object(task_information, True) # must exist
def update_and_store_task(self, event):
assert 'taskfile' in vars(event)
localfilepath = event.taskfile.split(":")[-1]
assert localfilepath.startswith("/")
identifier = event.taskfile + ":" + event.taskname
if not identifier in self.internal_state['taskdata']:
if isinstance(event, bb.build.TaskBase):
# we do a bit of guessing
candidates = [x for x in self.internal_state['taskdata'].keys() if x.endswith(identifier)]
if len(candidates) == 1:
identifier = candidates[0]
assert identifier in self.internal_state['taskdata']
identifierlist = identifier.split(":")
realtaskfile = ":".join(identifierlist[0:len(identifierlist)-1])
recipe_information = self._get_recipe_information_from_taskfile(realtaskfile)
recipe = self.orm_wrapper.get_update_recipe_object(recipe_information, True)
task_information = self._get_task_information(event,recipe)
if 'time' in vars(event):
if not 'start_time' in self.internal_state['taskdata'][identifier]:
self.internal_state['taskdata'][identifier]['start_time'] = event.time
else:
task_information['end_time'] = event.time
task_information['start_time'] = self.internal_state['taskdata'][identifier]['start_time']
task_information['outcome'] = self.internal_state['taskdata'][identifier]['outcome']
if 'logfile' in vars(event):
task_information['logfile'] = event.logfile
if '_message' in vars(event):
task_information['message'] = event._message
if 'taskflags' in vars(event):
# with TaskStarted, we get even more information
if 'python' in event.taskflags.keys() and event.taskflags['python'] == '1':
task_information['script_type'] = Task.CODING_PYTHON
else:
task_information['script_type'] = Task.CODING_SHELL
if task_information['outcome'] == Task.OUTCOME_NA:
if isinstance(event, (bb.runqueue.runQueueTaskCompleted, bb.runqueue.sceneQueueTaskCompleted)):
task_information['outcome'] = Task.OUTCOME_SUCCESS
del self.internal_state['taskdata'][identifier]
if isinstance(event, (bb.runqueue.runQueueTaskFailed, bb.runqueue.sceneQueueTaskFailed)):
task_information['outcome'] = Task.OUTCOME_FAILED
del self.internal_state['taskdata'][identifier]
self.orm_wrapper.get_update_task_object(task_information, True) # must exist
def store_missed_state_tasks(self, event):
for (fn, taskname, taskhash, sstatefile) in event.data['missed']:
identifier = fn + taskname + "_setscene"
recipe_information = self._get_recipe_information_from_taskfile(fn)
recipe = self.orm_wrapper.get_update_recipe_object(recipe_information)
class MockEvent: pass
mevent = MockEvent()
mevent.taskname = taskname
mevent.taskhash = taskhash
task_information = self._get_task_information(mevent,recipe)
task_information['start_time'] = datetime.datetime.now()
task_information['outcome'] = Task.OUTCOME_NA
task_information['sstate_checksum'] = taskhash
task_information['sstate_result'] = Task.SSTATE_MISS
task_information['path_to_sstate_obj'] = sstatefile
self.orm_wrapper.get_update_task_object(task_information)
for (fn, taskname, taskhash, sstatefile) in event.data['found']:
identifier = fn + taskname + "_setscene"
recipe_information = self._get_recipe_information_from_taskfile(fn)
recipe = self.orm_wrapper.get_update_recipe_object(recipe_information)
class MockEvent: pass
mevent = MockEvent()
mevent.taskname = taskname
mevent.taskhash = taskhash
task_information = self._get_task_information(mevent,recipe)
task_information['path_to_sstate_obj'] = sstatefile
self.orm_wrapper.get_update_task_object(task_information)
def store_target_package_data(self, event):
assert 'data' in vars(event)
# for all image targets
for target in self.internal_state['targets']:
if target.is_image:
try:
pkgdata = event.data['pkgdata']
imgdata = event.data['imgdata'][target.target]
self.orm_wrapper.save_target_package_information(self.internal_state['build'], target, imgdata, pkgdata, self.internal_state['recipes'])
filedata = event.data['filedata'][target.target]
self.orm_wrapper.save_target_file_information(self.internal_state['build'], target, filedata)
except KeyError:
# we must have not got the data for this image, nothing to save
pass
def store_dependency_information(self, event):
assert '_depgraph' in vars(event)
assert 'layer-priorities' in event._depgraph
assert 'pn' in event._depgraph
assert 'tdepends' in event._depgraph
errormsg = ""
# save layer version priorities
if 'layer-priorities' in event._depgraph.keys():
for lv in event._depgraph['layer-priorities']:
(name, path, regexp, priority) = lv
layer_version_obj = self._get_layer_version_for_path(path[1:]) # paths start with a ^
assert layer_version_obj is not None
layer_version_obj.priority = priority
layer_version_obj.save()
# save recipe information
self.internal_state['recipes'] = {}
for pn in event._depgraph['pn']:
file_name = event._depgraph['pn'][pn]['filename']
layer_version_obj = self._get_layer_version_for_path(file_name.split(":")[-1])
assert layer_version_obj is not None
recipe_info = {}
recipe_info['name'] = pn
recipe_info['version'] = event._depgraph['pn'][pn]['version'].lstrip(":")
recipe_info['layer_version'] = layer_version_obj
recipe_info['summary'] = event._depgraph['pn'][pn]['summary']
recipe_info['license'] = event._depgraph['pn'][pn]['license']
recipe_info['description'] = event._depgraph['pn'][pn]['description']
recipe_info['section'] = event._depgraph['pn'][pn]['section']
recipe_info['homepage'] = event._depgraph['pn'][pn]['homepage']
recipe_info['bugtracker'] = event._depgraph['pn'][pn]['bugtracker']
recipe_info['file_path'] = file_name
recipe = self.orm_wrapper.get_update_recipe_object(recipe_info)
recipe.is_image = False
if 'inherits' in event._depgraph['pn'][pn].keys():
for cls in event._depgraph['pn'][pn]['inherits']:
if cls.endswith('/image.bbclass'):
recipe.is_image = True
break
if recipe.is_image:
for t in self.internal_state['targets']:
if pn == t.target:
t.is_image = True
t.save()
self.internal_state['recipes'][pn] = recipe
# we'll not get recipes for key w/ values listed in ASSUME_PROVIDED
assume_provided = self.server.runCommand(["getVariable", "ASSUME_PROVIDED"])[0].split()
# save recipe dependency
# buildtime
for recipe in event._depgraph['depends']:
try:
target = self.internal_state['recipes'][recipe]
for dep in event._depgraph['depends'][recipe]:
dependency = self.internal_state['recipes'][dep]
Recipe_Dependency.objects.get_or_create( recipe = target,
depends_on = dependency, dep_type = Recipe_Dependency.TYPE_DEPENDS)
except KeyError as e:
if e not in assume_provided and not str(e).startswith("virtual/"):
errormsg += " stpd: KeyError saving recipe dependency for %s, %s \n" % (recipe, e)
# save all task information
def _save_a_task(taskdesc):
spec = re.split(r'\.', taskdesc);
pn = ".".join(spec[0:-1])
taskname = spec[-1]
e = event
e.taskname = pn
recipe = self.internal_state['recipes'][pn]
task_info = self._get_task_information(e, recipe)
task_info['task_name'] = taskname
task_obj = self.orm_wrapper.get_update_task_object(task_info)
return task_obj
# create tasks
tasks = {}
for taskdesc in event._depgraph['tdepends']:
tasks[taskdesc] = _save_a_task(taskdesc)
# create dependencies between tasks
for taskdesc in event._depgraph['tdepends']:
target = tasks[taskdesc]
for taskdep in event._depgraph['tdepends'][taskdesc]:
if taskdep not in tasks:
# Fetch tasks info is not collected previously
dep = _save_a_task(taskdep)
else:
dep = tasks[taskdep]
Task_Dependency.objects.get_or_create( task = target, depends_on = dep )
if (len(errormsg) > 0):
raise Exception(errormsg)
def store_build_package_information(self, event):
assert 'data' in vars(event)
package_info = event.data
self.orm_wrapper.save_build_package_information(self.internal_state['build'],
package_info,
self.internal_state['recipes'],
)
def _store_log_information(self, level, text):
log_information = {}
log_information['build'] = self.internal_state['build']
log_information['level'] = level
log_information['message'] = text
self.orm_wrapper.create_logmessage(log_information)
def store_log_info(self, text):
self._store_log_information(LogMessage.INFO, text)
def store_log_warn(self, text):
self._store_log_information(LogMessage.WARNING, text)
def store_log_error(self, text):
self._store_log_information(LogMessage.ERROR, text)
def store_log_event(self, event):
if 'build' in self.internal_state and 'backlog' in self.internal_state:
if len(self.internal_state['backlog']):
tempevent = self.internal_state['backlog'].pop()
print "Saving stored event ", tempevent
self.store_log_event(tempevent)
else:
del self.internal_state['backlog']
if event.levelno < format.WARNING:
return
if not 'build' in self.internal_state:
print "Save event for later"
if not 'backlog' in self.internal_state:
self.internal_state['backlog'] = []
self.internal_state['backlog'].append(event)
return
log_information = {}
log_information['build'] = self.internal_state['build']
if event.levelno >= format.ERROR:
log_information['level'] = LogMessage.ERROR
elif event.levelno == format.WARNING:
log_information['level'] = LogMessage.WARNING
log_information['message'] = event.msg
log_information['pathname'] = event.pathname
log_information['lineno'] = event.lineno
self.orm_wrapper.create_logmessage(log_information)
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