#
# ex:ts=4:sw=4:sts=4:et
# -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*-
#
# BitBake Toaster 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.
# pylint: disable=method-hidden
# Gives E:848, 4: An attribute defined in json.encoder line 162 hides this method (method-hidden)
# which is an invalid warning
import operator,re
from django.db.models import F, Q, Sum, Count, Max
from django.db import IntegrityError, Error
from django.shortcuts import render, redirect, get_object_or_404
from orm.models import Build, Target, Task, Layer, Layer_Version, Recipe, LogMessage, Variable
from orm.models import Task_Dependency, Recipe_Dependency, Package, Package_File, Package_Dependency
from orm.models import Target_Installed_Package, Target_File, Target_Image_File, BuildArtifact, CustomImagePackage
from orm.models import BitbakeVersion, CustomImageRecipe
from bldcontrol import bbcontroller
from django.views.decorators.cache import cache_control
from django.core.urlresolvers import reverse, resolve
from django.core.exceptions import MultipleObjectsReturned, ObjectDoesNotExist
from django.core.paginator import Paginator, EmptyPage, PageNotAnInteger
from django.http import HttpResponseBadRequest, HttpResponseNotFound
from django.utils import timezone
from django.utils.html import escape
from datetime import timedelta, datetime
from django.utils import formats
from toastergui.templatetags.projecttags import json as jsonfilter
from decimal import Decimal
import json
import os
from os.path import dirname
from functools import wraps
import itertools
import mimetypes
import logging
logger = logging.getLogger("toaster")
class MimeTypeFinder(object):
# setting this to False enables additional non-standard mimetypes
# to be included in the guess
_strict = False
# returns the mimetype for a file path as a string,
# or 'application/octet-stream' if the type couldn't be guessed
@classmethod
def get_mimetype(self, path):
guess = mimetypes.guess_type(path, self._strict)
guessed_type = guess[0]
if guessed_type == None:
guessed_type = 'application/octet-stream'
return guessed_type
# all new sessions should come through the landing page;
# determine in which mode we are running in, and redirect appropriately
def landing(request):
# in build mode, we redirect to the command-line builds page
# if there are any builds for the default (cli builds) project
default_project = Project.objects.get_or_create_default_project()
default_project_builds = Build.objects.filter(project = default_project)
# we only redirect to projects page if there is a user-generated project
num_builds = Build.objects.all().count()
user_projects = Project.objects.filter(is_default = False)
has_user_project = user_projects.count() > 0
if num_builds == 0 and has_user_project:
return redirect(reverse('all-projects'), permanent = False)
if num_builds > 0:
return redirect(reverse('all-builds'), permanent = False)
context = {'lvs_nos' : Layer_Version.objects.all().count()}
return render(request, 'landing.html', context)
def objtojson(obj):
from django.db.models.query import QuerySet
from django.db.models import Model
if isinstance(obj, datetime):
return obj.isoformat()
elif isinstance(obj, timedelta):
return obj.total_seconds()
elif isinstance(obj, QuerySet) or isinstance(obj, set):
return list(obj)
elif isinstance(obj, Decimal):
return str(obj)
elif type(obj).__name__ == "RelatedManager":
return [x.pk for x in obj.all()]
elif hasattr( obj, '__dict__') and isinstance(obj, Model):
d = obj.__dict__
nd = dict(d)
for di in d.keys():
if di.startswith("_"):
del nd[di]
elif isinstance(d[di], Model):
nd[di] = d[di].pk
elif isinstance(d[di], int) and hasattr(obj, "get_%s_display" % di):
nd[di] = getattr(obj, "get_%s_display" % di)()
return nd
elif isinstance( obj, type(lambda x:x)):
import inspect
return inspect.getsourcelines(obj)[0]
else:
raise TypeError("Unserializable object %s (%s) of type %s" % ( obj, dir(obj), type(obj)))
def _template_renderer(template):
def func_wrapper(view):
def returned_wrapper(request, *args, **kwargs):
try:
context = view(request, *args, **kwargs)
except RedirectException as e:
return e.get_redirect_response()
if request.GET.get('format', None) == 'json':
# objects is a special keyword - it's a Page, but we need the actual objects here
# in XHR, the objects come in the "rows" property
if "objects" in context:
context["rows"] = context["objects"].object_list
del context["objects"]
# we're about to return; to keep up with the XHR API, we set the error to OK
context["error"] = "ok"
return HttpResponse(jsonfilter(context, default=objtojson ),
content_type = "application/json; charset=utf-8")
else:
return render(request, template, context)
return returned_wrapper
return func_wrapper
def _lv_to_dict(prj, x = None):
if x is None:
def wrapper(x):
return _lv_to_dict(prj, x)
return wrapper
return {"id": x.pk,
"name": x.layer.name,
"tooltip": "%s | %s" % (x.layer.vcs_url,x.get_vcs_reference()),
"detail": "(%s" % x.layer.vcs_url + (")" if x.up_branch == None else " | "+x.get_vcs_reference()+")"),
"giturl": x.layer.vcs_url,
"layerdetailurl" : reverse('layerdetails', args=(prj.id,x.pk)),
"revision" : x.get_vcs_reference(),
}
def _build_page_range(paginator, index = 1):
try:
page = paginator.page(index)
except PageNotAnInteger:
page = paginator.page(1)
except EmptyPage:
page = paginator.page(paginator.num_pages)
page.page_range = [page.number]
crt_range = 0
for i in range(1,5):
if (page.number + i) <= paginator.num_pages:
page.page_range = page.page_range + [ page.number + i]
crt_range +=1
if (page.number - i) > 0:
page.page_range = [page.number -i] + page.page_range
crt_range +=1
if crt_range == 4:
break
return page
def _verify_parameters(g, mandatory_parameters):
miss = []
for mp in mandatory_parameters:
if not mp in g:
miss.append(mp)
if len(miss):
return miss
return None
def _redirect_parameters(view, g, mandatory_parameters, *args, **kwargs):
import urllib
url = reverse(view, kwargs=kwargs)
params = {}
for i in g:
params[i] = g[i]
for i in mandatory_parameters:
if not i in params:
params[i] = urllib.unquote(str(mandatory_parameters[i]))
return redirect(url + "?%s" % urllib.urlencode(params), permanent = False, **kwargs)
class RedirectException(Exception):
def __init__(self, view, g, mandatory_parameters, *args, **kwargs):
super(RedirectException, self).__init__()
self.view = view
self.g = g
self.mandatory_parameters = mandatory_parameters
self.oargs = args
self.okwargs = kwargs
def get_redirect_response(self):
return _redirect_parameters(self.view, self.g, self.mandatory_parameters, self.oargs, **self.okwargs)
FIELD_SEPARATOR = ":"
AND_VALUE_SEPARATOR = "!"
OR_VALUE_SEPARATOR = "|"
DESCENDING = "-"
def __get_q_for_val(name, value):
if "OR" in value:
return reduce(operator.or_, map(lambda x: __get_q_for_val(name, x), [ x for x in value.split("OR") ]))
if "AND" in value:
return reduce(operator.and_, map(lambda x: __get_q_for_val(name, x), [ x for x in value.split("AND") ]))
if value.startswith("NOT"):
value = value[3:]
if value == 'None':
value = None
kwargs = { name : value }
return ~Q(**kwargs)
else:
if value == 'None':
value = None
kwargs = { name : value }
return Q(**kwargs)
def _get_filtering_query(filter_string):
search_terms = filter_string.split(FIELD_SEPARATOR)
and_keys = search_terms[0].split(AND_VALUE_SEPARATOR)
and_values = search_terms[1].split(AND_VALUE_SEPARATOR)
and_query = []
for kv in zip(and_keys, and_values):
or_keys = kv[0].split(OR_VALUE_SEPARATOR)
or_values = kv[1].split(OR_VALUE_SEPARATOR)
querydict = dict(zip(or_keys, or_values))
and_query.append(reduce(operator.or_, map(lambda x: __get_q_for_val(x, querydict[x]), [k for k in querydict])))
return reduce(operator.and_, [k for k in and_query])
def _get_toggle_order(request, orderkey, toggle_reverse = False):
if toggle_reverse:
return "%s:+" % orderkey if request.GET.get('orderby', "") == "%s:-" % orderkey else "%s:-" % orderkey
else:
return "%s:-" % orderkey if request.GET.get('orderby', "") == "%s:+" % orderkey else "%s:+" % orderkey
def _get_toggle_order_icon(request, orderkey):
if request.GET.get('orderby', "") == "%s:+"%orderkey:
return "down"
elif request.GET.get('orderby', "") == "%s:-"%orderkey:
return "up"
else:
return None
# we check that the input comes in a valid form that we can recognize
def _validate_input(field_input, model):
invalid = None
if field_input:
field_input_list = field_input.split(FIELD_SEPARATOR)
# Check we have only one colon
if len(field_input_list) != 2:
invalid = "We have an invalid number of separators: " + field_input + " -> " + str(field_input_list)
return None, invalid
# Check we have an equal number of terms both sides of the colon
if len(field_input_list[0].split(AND_VALUE_SEPARATOR)) != len(field_input_list[1].split(AND_VALUE_SEPARATOR)):
invalid = "Not all arg names got values"
return None, invalid + str(field_input_list)
# Check we are looking for a valid field
valid_fields = model._meta.get_all_field_names()
for field in field_input_list[0].split(AND_VALUE_SEPARATOR):
if not reduce(lambda x, y: x or y, [ field.startswith(x) for x in valid_fields ]):
return None, (field, [ x for x in valid_fields ])
return field_input, invalid
# uses search_allowed_fields in orm/models.py to create a search query
# for these fields with the supplied input text
def _get_search_results(search_term, queryset, model):
search_objects = []
for st in search_term.split(" "):
q_map = map(lambda x: Q(**{x+'__icontains': st}),
model.search_allowed_fields)
search_objects.append(reduce(operator.or_, q_map))
search_object = reduce(operator.and_, search_objects)
queryset = queryset.filter(search_object)
return queryset
# function to extract the search/filter/ordering parameters from the request
# it uses the request and the model to validate input for the filter and orderby values
def _search_tuple(request, model):
ordering_string, invalid = _validate_input(request.GET.get('orderby', ''), model)
if invalid:
raise BaseException("Invalid ordering model:" + str(model) + str(invalid))
filter_string, invalid = _validate_input(request.GET.get('filter', ''), model)
if invalid:
raise BaseException("Invalid filter " + str(invalid))
search_term = request.GET.get('search', '')
return (filter_string, search_term, ordering_string)
# returns a lazy-evaluated queryset for a filter/search/order combination
def _get_queryset(model, queryset, filter_string, search_term, ordering_string, ordering_secondary=''):
if filter_string:
filter_query = _get_filtering_query(filter_string)
queryset = queryset.filter(filter_query)
else:
queryset = queryset.all()
if search_term:
queryset = _get_search_results(search_term, queryset, model)
if ordering_string:
column, order = ordering_string.split(':')
if column == re.sub('-','',ordering_secondary):
ordering_secondary=''
if order.lower() == DESCENDING:
column = '-' + column
if ordering_secondary:
queryset = queryset.order_by(column, ordering_secondary)
else:
queryset = queryset.order_by(column)
# insure only distinct records (e.g. from multiple search hits) are returned
return queryset.distinct()
# returns the value of entries per page and the name of the applied sorting field.
# if the value is given explicitly as a GET parameter it will be the first selected,
# otherwise the cookie value will be used.
def _get_parameters_values(request, default_count, default_order):
current_url = resolve(request.path_info).url_name
pagesize = request.GET.get('count', request.session.get('%s_count' % current_url, default_count))
orderby = request.GET.get('orderby', request.session.get('%s_orderby' % current_url, default_order))
return (pagesize, orderby)
# set cookies for parameters. this is usefull in case parameters are set
# manually from the GET values of the link
def _set_parameters_values(pagesize, orderby, request):
from django.core.urlresolvers import resolve
current_url = resolve(request.path_info).url_name
request.session['%s_count' % current_url] = pagesize
request.session['%s_orderby' % current_url] =orderby
# date range: normalize GUI's dd/mm/yyyy to date object
def _normalize_input_date(date_str,default):
date_str=re.sub('/', '-', date_str)
# accept dd/mm/yyyy to d/m/yy
try:
date_in = datetime.strptime(date_str, "%d-%m-%Y")
except ValueError:
# courtesy try with two digit year
try:
date_in = datetime.strptime(date_str, "%d-%m-%y")
except ValueError:
return default
date_in = date_in.replace(tzinfo=default.tzinfo)
return date_in
# convert and normalize any received date range filter, for example:
# "completed_on__gte!completed_on__lt:01/03/2015!02/03/2015_daterange" to
# "completed_on__gte!completed_on__lt:2015-03-01!2015-03-02"
def _modify_date_range_filter(filter_string):
# was the date range radio button selected?
if 0 > filter_string.find('_daterange'):
return filter_string,''
# normalize GUI dates to database format
filter_string = filter_string.replace('_daterange','').replace(':','!');
filter_list = filter_string.split('!');
if 4 != len(filter_list):
return filter_string
today = timezone.localtime(timezone.now())
date_id = filter_list[1]
date_from = _normalize_input_date(filter_list[2],today)
date_to = _normalize_input_date(filter_list[3],today)
# swap dates if manually set dates are out of order
if date_to < date_from:
date_to,date_from = date_from,date_to
# convert to strings, make 'date_to' inclusive by moving to begining of next day
date_from_str = date_from.strftime("%Y-%m-%d")
date_to_str = (date_to+timedelta(days=1)).strftime("%Y-%m-%d")
filter_string=filter_list[0]+'!'+filter_list[1]+':'+date_from_str+'!'+date_to_str
daterange_selected = re.sub('__.*','', date_id)
return filter_string,daterange_selected
def _add_daterange_context(queryset_all, request, daterange_list):
# calculate the exact begining of local today and yesterday
today_begin = timezone.localtime(timezone.now())
yesterday_begin = today_begin - timedelta(days=1)
# add daterange persistent
context_date = {}
context_date['last_date_from'] = request.GET.get('last_date_from',timezone.localtime(timezone.now()).strftime("%d/%m/%Y"))
context_date['last_date_to' ] = request.GET.get('last_date_to' ,context_date['last_date_from'])
# calculate the date ranges, avoid second sort for 'created'
# fetch the respective max range from the database
context_date['daterange_filter']=''
for key in daterange_list:
queryset_key = queryset_all.order_by(key)
try:
context_date['dateMin_'+key]=timezone.localtime(getattr(queryset_key.first(),key)).strftime("%d/%m/%Y")
except AttributeError:
context_date['dateMin_'+key]=timezone.localtime(timezone.now())
try:
context_date['dateMax_'+key]=timezone.localtime(getattr(queryset_key.last(),key)).strftime("%d/%m/%Y")
except AttributeError:
context_date['dateMax_'+key]=timezone.localtime(timezone.now())
return context_date,today_begin,yesterday_begin
##
# build dashboard for a single build, coming in as argument
# Each build may contain multiple targets and each target
# may generate multiple image files. display them all.
#
def builddashboard( request, build_id ):
template = "builddashboard.html"
if Build.objects.filter( pk=build_id ).count( ) == 0 :
return redirect( builds )
build = Build.objects.get( pk = build_id );
layerVersionId = Layer_Version.objects.filter( build = build_id );
recipeCount = Recipe.objects.filter( layer_version__id__in = layerVersionId ).count( );
tgts = Target.objects.filter( build_id = build_id ).order_by( 'target' );
##
# set up custom target list with computed package and image data
#
targets = [ ]
ntargets = 0
hasImages = False
targetHasNoImages = False
for t in tgts:
elem = { }
elem[ 'target' ] = t
if t.is_image:
hasImages = True
npkg = 0
pkgsz = 0
package = None
for package in Package.objects.filter(id__in = [x.package_id for x in t.target_installed_package_set.all()]):
pkgsz = pkgsz + package.size
if ( package.installed_name ):
npkg = npkg + 1
elem[ 'npkg' ] = npkg
elem[ 'pkgsz' ] = pkgsz
ti = Target_Image_File.objects.filter( target_id = t.id )
imageFiles = [ ]
for i in ti:
ndx = i.file_name.rfind( '/' )
if ( ndx < 0 ):
ndx = 0;
f = i.file_name[ ndx + 1: ]
imageFiles.append({
'id': i.id,
'path': f,
'size': i.file_size,
'suffix': i.suffix
})
if t.is_image and (len(imageFiles) <= 0 or len(t.license_manifest_path) <= 0):
targetHasNoImages = True
elem[ 'imageFiles' ] = imageFiles
elem[ 'targetHasNoImages' ] = targetHasNoImages
targets.append( elem )
##
# how many packages in this build - ignore anonymous ones
#
packageCount = 0
packages = Package.objects.filter( build_id = build_id )
for p in packages:
if ( p.installed_name ):
packageCount = packageCount + 1
logmessages = list(LogMessage.objects.filter( build = build_id ))
context = {
'build' : build,
'hasImages' : hasImages,
'ntargets' : ntargets,
'targets' : targets,
'recipecount' : recipeCount,
'packagecount' : packageCount,
'logmessages' : logmessages,
}
return render( request, template, context )
def generateCoveredList2( revlist = None ):
if not revlist:
revlist = []
covered_list = [ x for x in revlist if x.outcome == Task.OUTCOME_COVERED ]
while len(covered_list):
revlist = [ x for x in revlist if x.outcome != Task.OUTCOME_COVERED ]
if len(revlist) > 0:
return revlist
newlist = _find_task_revdep_list(covered_list)
revlist = list(set(revlist + newlist))
covered_list = [ x for x in revlist if x.outcome == Task.OUTCOME_COVERED ]
return revlist
def task( request, build_id, task_id ):
template = "task.html"
tasks_list = Task.objects.filter( pk=task_id )
if tasks_list.count( ) == 0:
return redirect( builds )
task_object = tasks_list[ 0 ];
dependencies = sorted(
_find_task_dep( task_object ),
key=lambda t:'%s_%s %s'%(t.recipe.name, t.recipe.version, t.task_name))
reverse_dependencies = sorted(
_find_task_revdep( task_object ),
key=lambda t:'%s_%s %s'%( t.recipe.name, t.recipe.version, t.task_name ))
coveredBy = '';
if ( task_object.outcome == Task.OUTCOME_COVERED ):
# _list = generateCoveredList( task )
coveredBy = sorted(generateCoveredList2( _find_task_revdep( task_object ) ), key = lambda x: x.recipe.name)
log_head = ''
log_body = ''
if task_object.outcome == task_object.OUTCOME_FAILED:
pass
uri_list= [ ]
variables = Variable.objects.filter(build=build_id)
v=variables.filter(variable_name='SSTATE_DIR')
if v.count() > 0:
uri_list.append(v[0].variable_value)
v=variables.filter(variable_name='SSTATE_MIRRORS')
if (v.count() > 0):
for mirror in v[0].variable_value.split('\\n'):
s=re.sub('.* ','',mirror.strip(' \t\n\r'))
if len(s):
uri_list.append(s)
context = {
'build' : Build.objects.filter( pk = build_id )[ 0 ],
'object' : task_object,
'task' : task_object,
'covered_by' : coveredBy,
'deps' : dependencies,
'rdeps' : reverse_dependencies,
'log_head' : log_head,
'log_body' : log_body,
'showing_matches' : False,
'uri_list' : uri_list,
}
if request.GET.get( 'show_matches', "" ):
context[ 'showing_matches' ] = True
context[ 'matching_tasks' ] = Task.objects.filter(
sstate_checksum=task_object.sstate_checksum ).filter(
build__completed_on__lt=task_object.build.completed_on).exclude(
order__isnull=True).exclude(outcome=Task.OUTCOME_NA).order_by('-build__completed_on')
return render( request, template, context )
def recipe(request, build_id, recipe_id, active_tab="1"):
template = "recipe.html"
if Recipe.objects.filter(pk=recipe_id).count() == 0 :
return redirect(builds)
recipe_object = Recipe.objects.get(pk=recipe_id)
layer_version = Layer_Version.objects.get(pk=recipe_object.layer_version_id)
layer = Layer.objects.get(pk=layer_version.layer_id)
tasks_list = Task.objects.filter(recipe_id = recipe_id, build_id = build_id).exclude(order__isnull=True).exclude(task_name__endswith='_setscene').exclude(outcome=Task.OUTCOME_NA)
package_count = Package.objects.filter(recipe_id = recipe_id).filter(build_id = build_id).filter(size__gte=0).count()
if active_tab != '1' and active_tab != '3' and active_tab != '4' :
active_tab = '1'
tab_states = {'1': '', '3': '', '4': ''}
tab_states[active_tab] = 'active'
context = {
'build' : Build.objects.get(pk=build_id),
'object' : recipe_object,
'layer_version' : layer_version,
'layer' : layer,
'tasks' : tasks_list,
'package_count' : package_count,
'tab_states' : tab_states,
}
return render(request, template, context)
def recipe_packages(request, build_id, recipe_id):
template = "recipe_packages.html"
if Recipe.objects.filter(pk=recipe_id).count() == 0 :
return redirect(builds)
(pagesize, orderby) = _get_parameters_values(request, 10, 'name:+')
mandatory_parameters = { 'count': pagesize, 'page' : 1, 'orderby': orderby }
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
return _redirect_parameters( 'recipe_packages', request.GET, mandatory_parameters, build_id = build_id, recipe_id = recipe_id)
(filter_string, search_term, ordering_string) = _search_tuple(request, Package)
recipe_object = Recipe.objects.get(pk=recipe_id)
queryset = Package.objects.filter(recipe_id = recipe_id).filter(build_id = build_id).filter(size__gte=0)
package_count = queryset.count()
queryset = _get_queryset(Package, queryset, filter_string, search_term, ordering_string, 'name')
packages = _build_page_range(Paginator(queryset, pagesize),request.GET.get('page', 1))
context = {
'build' : Build.objects.get(pk=build_id),
'recipe' : recipe_object,
'objects' : packages,
'object_count' : package_count,
'tablecols':[
{
'name':'Package',
'orderfield': _get_toggle_order(request,"name"),
'ordericon': _get_toggle_order_icon(request,"name"),
'orderkey': "name",
},
{
'name':'Version',
},
{
'name':'Size',
'orderfield': _get_toggle_order(request,"size", True),
'ordericon': _get_toggle_order_icon(request,"size"),
'orderkey': 'size',
'dclass': 'sizecol span2',
},
]
}
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def target_common( request, build_id, target_id, variant ):
template = "target.html"
default_orderby = 'name:+'
(pagesize, orderby) = _get_parameters_values(request, 25, default_orderby)
mandatory_parameters = { 'count': pagesize, 'page' : 1, 'orderby': orderby }
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
return _redirect_parameters(
variant, request.GET, mandatory_parameters,
build_id = build_id, target_id = target_id )
( filter_string, search_term, ordering_string ) = _search_tuple( request, Package )
# FUTURE: get rid of nested sub-queries replacing with ManyToMany field
queryset = Package.objects.filter(
size__gte = 0,
id__in = Target_Installed_Package.objects.filter(
target_id=target_id ).values( 'package_id' ))
packages_sum = queryset.aggregate( Sum( 'installed_size' ))
queryset = _get_queryset(
Package, queryset, filter_string, search_term, ordering_string, 'name' )
queryset = queryset.select_related("recipe", "recipe__layer_version", "recipe__layer_version__layer")
packages = _build_page_range( Paginator(queryset, pagesize), request.GET.get( 'page', 1 ))
build = Build.objects.get( pk = build_id )
# bring in package dependencies
for p in packages.object_list:
p.runtime_dependencies = p.package_dependencies_source.filter(
target_id = target_id, dep_type=Package_Dependency.TYPE_TRDEPENDS ).select_related("depends_on")
p.reverse_runtime_dependencies = p.package_dependencies_target.filter(
target_id = target_id, dep_type=Package_Dependency.TYPE_TRDEPENDS ).select_related("package")
tc_package = {
'name' : 'Package',
'qhelp' : 'Packaged output resulting from building a recipe included in this image',
'orderfield' : _get_toggle_order( request, "name" ),
'ordericon' : _get_toggle_order_icon( request, "name" ),
}
tc_packageVersion = {
'name' : 'Package version',
'qhelp' : 'The package version and revision',
}
tc_size = {
'name' : 'Size',
'qhelp' : 'The size of the package',
'orderfield' : _get_toggle_order( request, "size", True ),
'ordericon' : _get_toggle_order_icon( request, "size" ),
'orderkey' : 'size',
'clclass' : 'size',
'dclass' : 'span2',
}
if ( variant == 'target' ):
tc_size[ "hidden" ] = 0
else:
tc_size[ "hidden" ] = 1
tc_sizePercentage = {
'name' : 'Size over total (%)',
'qhelp' : 'Proportion of the overall size represented by this package',
'clclass' : 'size_over_total',
'hidden' : 1,
}
tc_license = {
'name' : 'License',
'qhelp' : 'The license under which the package is distributed. Separate license names u\
sing | (pipe) means there is a choice between licenses. Separate license names using & (ampersand) m\
eans multiple licenses exist that cover different parts of the source',
'orderfield' : _get_toggle_order( request, "license" ),
'ordericon' : _get_toggle_order_icon( request, "license" ),
'orderkey' : 'license',
'clclass' : 'license',
}
if ( variant == 'target' ):
tc_license[ "hidden" ] = 1
else:
tc_license[ "hidden" ] = 0
tc_dependencies = {
'name' : 'Dependencies',
'qhelp' : "Package runtime dependencies (other packages)",
'clclass' : 'depends',
}
if ( variant == 'target' ):
tc_dependencies[ "hidden" ] = 0
else:
tc_dependencies[ "hidden" ] = 1
tc_rdependencies = {
'name' : 'Reverse dependencies',
'qhelp' : 'Package run-time reverse dependencies (i.e. which other packages depend on this package',
'clclass' : 'brought_in_by',
}
if ( variant == 'target' ):
tc_rdependencies[ "hidden" ] = 0
else:
tc_rdependencies[ "hidden" ] = 1
tc_recipe = {
'name' : 'Recipe',
'qhelp' : 'The name of the recipe building the package',
'orderfield' : _get_toggle_order( request, "recipe__name" ),
'ordericon' : _get_toggle_order_icon( request, "recipe__name" ),
'orderkey' : "recipe__name",
'clclass' : 'recipe_name',
'hidden' : 0,
}
tc_recipeVersion = {
'name' : 'Recipe version',
'qhelp' : 'Version and revision of the recipe building the package',
'clclass' : 'recipe_version',
'hidden' : 1,
}
tc_layer = {
'name' : 'Layer',
'qhelp' : 'The name of the layer providing the recipe that builds the package',
'orderfield' : _get_toggle_order( request, "recipe__layer_version__layer__name" ),
'ordericon' : _get_toggle_order_icon( request, "recipe__layer_version__layer__name" ),
'orderkey' : "recipe__layer_version__layer__name",
'clclass' : 'layer_name',
'hidden' : 1,
}
tc_layerBranch = {
'name' : 'Layer branch',
'qhelp' : 'The Git branch of the layer providing the recipe that builds the package',
'orderfield' : _get_toggle_order( request, "recipe__layer_version__branch" ),
'ordericon' : _get_toggle_order_icon( request, "recipe__layer_version__branch" ),
'orderkey' : "recipe__layer_version__branch",
'clclass' : 'layer_branch',
'hidden' : 1,
}
tc_layerCommit = {
'name' : 'Layer commit',
'qhelp' : 'The Git commit of the layer providing the recipe that builds the package',
'clclass' : 'layer_commit',
'hidden' : 1,
}
context = {
'objectname': variant,
'build' : build,
'target' : Target.objects.filter( pk = target_id )[ 0 ],
'objects' : packages,
'packages_sum' : packages_sum[ 'installed_size__sum' ],
'object_search_display': "packages included",
'default_orderby' : default_orderby,
'tablecols' : [
tc_package,
tc_packageVersion,
tc_license,
tc_size,
tc_sizePercentage,
tc_dependencies,
tc_rdependencies,
tc_recipe,
tc_recipeVersion,
tc_layer,
tc_layerBranch,
tc_layerCommit,
]
}
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def target( request, build_id, target_id ):
return( target_common( request, build_id, target_id, "target" ))
def targetpkg( request, build_id, target_id ):
return( target_common( request, build_id, target_id, "targetpkg" ))
from django.core.serializers.json import DjangoJSONEncoder
from django.http import HttpResponse
def xhr_dirinfo(request, build_id, target_id):
top = request.GET.get('start', '/')
return HttpResponse(_get_dir_entries(build_id, target_id, top), content_type = "application/json")
from django.utils.functional import Promise
from django.utils.encoding import force_text
class LazyEncoder(json.JSONEncoder):
def default(self, obj):
if isinstance(obj, Promise):
return force_text(obj)
return super(LazyEncoder, self).default(obj)
from toastergui.templatetags.projecttags import filtered_filesizeformat
import os
def _get_dir_entries(build_id, target_id, start):
node_str = {
Target_File.ITYPE_REGULAR : '-',
Target_File.ITYPE_DIRECTORY : 'd',
Target_File.ITYPE_SYMLINK : 'l',
Target_File.ITYPE_SOCKET : 's',
Target_File.ITYPE_FIFO : 'p',
Target_File.ITYPE_CHARACTER : 'c',
Target_File.ITYPE_BLOCK : 'b',
}
response = []
objects = Target_File.objects.filter(target__exact=target_id, directory__path=start)
target_packages = Target_Installed_Package.objects.filter(target__exact=target_id).values_list('package_id', flat=True)
for o in objects:
# exclude root inode '/'
if o.path == '/':
continue
try:
entry = {}
entry['parent'] = start
entry['name'] = os.path.basename(o.path)
entry['fullpath'] = o.path
# set defaults, not all dentries have packages
entry['installed_package'] = None
entry['package_id'] = None
entry['package'] = None
entry['link_to'] = None
if o.inodetype == Target_File.ITYPE_DIRECTORY:
entry['isdir'] = 1
# is there content in directory
entry['childcount'] = Target_File.objects.filter(target__exact=target_id, directory__path=o.path).all().count()
else:
entry['isdir'] = 0
# resolve the file to get the package from the resolved file
resolved_id = o.sym_target_id
resolved_path = o.path
if target_packages.count():
while resolved_id != "" and resolved_id != None:
tf = Target_File.objects.get(pk=resolved_id)
resolved_path = tf.path
resolved_id = tf.sym_target_id
thisfile=Package_File.objects.all().filter(path__exact=resolved_path, package_id__in=target_packages)
if thisfile.count():
p = Package.objects.get(pk=thisfile[0].package_id)
entry['installed_package'] = p.installed_name
entry['package_id'] = str(p.id)
entry['package'] = p.name
# don't use resolved path from above, show immediate link-to
if o.sym_target_id != "" and o.sym_target_id != None:
entry['link_to'] = Target_File.objects.get(pk=o.sym_target_id).path
entry['size'] = filtered_filesizeformat(o.size)
if entry['link_to'] != None:
entry['permission'] = node_str[o.inodetype] + o.permission
else:
entry['permission'] = node_str[o.inodetype] + o.permission
entry['owner'] = o.owner
entry['group'] = o.group
response.append(entry)
except Exception as e:
print "Exception ", e
traceback.print_exc(e)
# sort by directories first, then by name
rsorted = sorted(response, key=lambda entry : entry['name'])
rsorted = sorted(rsorted, key=lambda entry : entry['isdir'], reverse=True)
return json.dumps(rsorted, cls=LazyEncoder).replace('', '<\\/')
def dirinfo(request, build_id, target_id, file_path=None):
template = "dirinfo.html"
objects = _get_dir_entries(build_id, target_id, '/')
packages_sum = Package.objects.filter(id__in=Target_Installed_Package.objects.filter(target_id=target_id).values('package_id')).aggregate(Sum('installed_size'))
dir_list = None
if file_path != None:
"""
Link from the included package detail file list page and is
requesting opening the dir info to a specific file path.
Provide the list of directories to expand and the full path to
highlight in the page.
"""
# Aassume target's path separator matches host's, that is, os.sep
sep = os.sep
dir_list = []
head = file_path
while head != sep:
(head, tail) = os.path.split(head)
if head != sep:
dir_list.insert(0, head)
context = { 'build': Build.objects.get(pk=build_id),
'target': Target.objects.get(pk=target_id),
'packages_sum': packages_sum['installed_size__sum'],
'objects': objects,
'dir_list': dir_list,
'file_path': file_path,
}
return render(request, template, context)
def _find_task_dep(task_object):
return map(lambda x: x.depends_on, Task_Dependency.objects.filter(task=task_object).filter(depends_on__order__gt = 0).exclude(depends_on__outcome = Task.OUTCOME_NA).select_related("depends_on"))
def _find_task_revdep(task_object):
tp = []
tp = map(lambda t: t.task, Task_Dependency.objects.filter(depends_on=task_object).filter(task__order__gt=0).exclude(task__outcome = Task.OUTCOME_NA).select_related("task", "task__recipe", "task__build"))
return tp
def _find_task_revdep_list(tasklist):
tp = []
tp = map(lambda t: t.task, Task_Dependency.objects.filter(depends_on__in=tasklist).filter(task__order__gt=0).exclude(task__outcome = Task.OUTCOME_NA).select_related("task", "task__recipe", "task__build"))
return tp
def _find_task_provider(task_object):
task_revdeps = _find_task_revdep(task_object)
for tr in task_revdeps:
if tr.outcome != Task.OUTCOME_COVERED:
return tr
for tr in task_revdeps:
trc = _find_task_provider(tr)
if trc is not None:
return trc
return None
def tasks_common(request, build_id, variant, task_anchor):
# This class is shared between these pages
#
# Column tasks buildtime diskio cpuusage
# --------- ------ ---------- ------- ---------
# Cache def
# CPU min -
# Disk min -
# Executed def def def def
# Log
# Order def +
# Outcome def def def def
# Recipe min min min min
# Version
# Task min min min min
# Time min -
#
# 'min':on always, 'def':on by default, else hidden
# '+' default column sort up, '-' default column sort down
anchor = request.GET.get('anchor', '')
if not anchor:
anchor=task_anchor
# default ordering depends on variant
default_orderby = None
filter_search_display = 'tasks'
if 'buildtime' == variant:
default_orderby = 'elapsed_time:-'
title_variant = 'Time'
object_search_display = 'time data'
elif 'diskio' == variant:
default_orderby = 'disk_io:-'
title_variant = 'Disk I/O'
object_search_display = 'disk I/O data'
elif 'cputime' == variant:
default_orderby = 'cpu_time_system:-'
title_variant='CPU time'
object_search_display = 'CPU time data'
else:
default_orderby = 'order:+'
title_variant = 'Tasks'
object_search_display = 'tasks'
(pagesize, orderby) = _get_parameters_values(request, 25, default_orderby)
mandatory_parameters = {'count': pagesize, 'page' : 1, 'orderby': orderby}
template = 'tasks.html'
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
if task_anchor:
mandatory_parameters['anchor']=task_anchor
return _redirect_parameters( variant, request.GET, mandatory_parameters, build_id = build_id)
(filter_string, search_term, ordering_string) = _search_tuple(request, Task)
queryset_all = Task.objects.filter(build=build_id).exclude(order__isnull=True).exclude(outcome=Task.OUTCOME_NA)
queryset_all = queryset_all.select_related("recipe", "build")
queryset_with_search = _get_queryset(Task, queryset_all, None , search_term, ordering_string, 'order')
if ordering_string.startswith('outcome'):
queryset = _get_queryset(Task, queryset_all, filter_string, search_term, 'order:+', 'order')
queryset = sorted(queryset, key=lambda ur: (ur.outcome_text), reverse=ordering_string.endswith('-'))
elif ordering_string.startswith('sstate_result'):
queryset = _get_queryset(Task, queryset_all, filter_string, search_term, 'order:+', 'order')
queryset = sorted(queryset, key=lambda ur: (ur.sstate_text), reverse=ordering_string.endswith('-'))
else:
queryset = _get_queryset(Task, queryset_all, filter_string, search_term, ordering_string, 'order')
# compute the anchor's page
if anchor:
request.GET = request.GET.copy()
del request.GET['anchor']
i=0
a=int(anchor)
count_per_page=int(pagesize)
for task_object in queryset.iterator():
if a == task_object.order:
new_page= (i / count_per_page ) + 1
request.GET.__setitem__('page', new_page)
mandatory_parameters['page']=new_page
return _redirect_parameters( variant, request.GET, mandatory_parameters, build_id = build_id)
i += 1
task_objects = _build_page_range(Paginator(queryset, pagesize),request.GET.get('page', 1))
# define (and modify by variants) the 'tablecols' members
tc_order={
'name':'Order',
'qhelp':'The running sequence of each task in the build',
'clclass': 'order', 'hidden' : 1,
'orderkey' : 'order',
'orderfield':_get_toggle_order(request, "order"),
'ordericon':_get_toggle_order_icon(request, "order")}
if 'tasks' == variant:
tc_order['hidden']='0'
del tc_order['clclass']
tc_recipe={
'name':'Recipe',
'qhelp':'The name of the recipe to which each task applies',
'orderkey' : 'recipe__name',
'orderfield': _get_toggle_order(request, "recipe__name"),
'ordericon':_get_toggle_order_icon(request, "recipe__name"),
}
tc_recipe_version={
'name':'Recipe version',
'qhelp':'The version of the recipe to which each task applies',
'clclass': 'recipe_version', 'hidden' : 1,
}
tc_task={
'name':'Task',
'qhelp':'The name of the task',
'orderfield': _get_toggle_order(request, "task_name"),
'ordericon':_get_toggle_order_icon(request, "task_name"),
'orderkey' : 'task_name',
}
tc_executed={
'name':'Executed',
'qhelp':"This value tells you if a task had to run (executed) in order to generate the task output, or if the output was provided by another task and therefore the task didn't need to run (not executed)",
'clclass': 'executed', 'hidden' : 0,
'orderfield': _get_toggle_order(request, "task_executed"),
'ordericon':_get_toggle_order_icon(request, "task_executed"),
'orderkey' : 'task_executed',
'filter' : {
'class' : 'executed',
'label': 'Show:',
'options' : [
('Executed Tasks', 'task_executed:1', queryset_with_search.filter(task_executed=1).count()),
('Not Executed Tasks', 'task_executed:0', queryset_with_search.filter(task_executed=0).count()),
]
}
}
tc_outcome={
'name':'Outcome',
'qhelp':"This column tells you if 'executed' tasks succeeded or failed. The column also tells you why 'not executed' tasks did not need to run",
'clclass': 'outcome', 'hidden' : 0,
'orderfield': _get_toggle_order(request, "outcome"),
'ordericon':_get_toggle_order_icon(request, "outcome"),
'orderkey' : 'outcome',
'filter' : {
'class' : 'outcome',
'label': 'Show:',
'options' : [
('Succeeded Tasks', 'outcome:%d'%Task.OUTCOME_SUCCESS, queryset_with_search.filter(outcome=Task.OUTCOME_SUCCESS).count(), "'Succeeded' tasks are those that ran and completed during the build" ),
('Failed Tasks', 'outcome:%d'%Task.OUTCOME_FAILED, queryset_with_search.filter(outcome=Task.OUTCOME_FAILED).count(), "'Failed' tasks are those that ran but did not complete during the build"),
('Cached Tasks', 'outcome:%d'%Task.OUTCOME_CACHED, queryset_with_search.filter(outcome=Task.OUTCOME_CACHED).count(), 'Cached tasks restore output from the sstate-cache
directory or mirrors'),
('Prebuilt Tasks', 'outcome:%d'%Task.OUTCOME_PREBUILT, queryset_with_search.filter(outcome=Task.OUTCOME_PREBUILT).count(),'Prebuilt tasks didn\'t need to run because their output was reused from a previous build'),
('Covered Tasks', 'outcome:%d'%Task.OUTCOME_COVERED, queryset_with_search.filter(outcome=Task.OUTCOME_COVERED).count(), 'Covered tasks didn\'t need to run because their output is provided by another task in this build'),
('Empty Tasks', 'outcome:%d'%Task.OUTCOME_EMPTY, queryset_with_search.filter(outcome=Task.OUTCOME_EMPTY).count(), 'Empty tasks have no executable content'),
]
}
}
tc_cache={
'name':'Cache attempt',
'qhelp':'This column tells you if a task tried to restore output from the sstate-cache
directory or mirrors, and reports the result: Succeeded, Failed or File not in cache',
'clclass': 'cache_attempt', 'hidden' : 0,
'orderfield': _get_toggle_order(request, "sstate_result"),
'ordericon':_get_toggle_order_icon(request, "sstate_result"),
'orderkey' : 'sstate_result',
'filter' : {
'class' : 'cache_attempt',
'label': 'Show:',
'options' : [
('Tasks with cache attempts', 'sstate_result__gt:%d'%Task.SSTATE_NA, queryset_with_search.filter(sstate_result__gt=Task.SSTATE_NA).count(), 'Show all tasks that tried to restore ouput from the sstate-cache
directory or mirrors'),
("Tasks with 'File not in cache' attempts", 'sstate_result:%d'%Task.SSTATE_MISS, queryset_with_search.filter(sstate_result=Task.SSTATE_MISS).count(), 'Show tasks that tried to restore output, but did not find it in the sstate-cache
directory or mirrors'),
("Tasks with 'Failed' cache attempts", 'sstate_result:%d'%Task.SSTATE_FAILED, queryset_with_search.filter(sstate_result=Task.SSTATE_FAILED).count(), 'Show tasks that found the required output in the sstate-cache
directory or mirrors, but could not restore it'),
("Tasks with 'Succeeded' cache attempts", 'sstate_result:%d'%Task.SSTATE_RESTORED, queryset_with_search.filter(sstate_result=Task.SSTATE_RESTORED).count(), 'Show tasks that successfully restored the required output from the sstate-cache
directory or mirrors'),
]
}
}
#if 'tasks' == variant: tc_cache['hidden']='0';
tc_time={
'name':'Time (secs)',
'qhelp':'How long it took the task to finish in seconds',
'orderfield': _get_toggle_order(request, "elapsed_time", True),
'ordericon':_get_toggle_order_icon(request, "elapsed_time"),
'orderkey' : 'elapsed_time',
'clclass': 'time_taken', 'hidden' : 1,
}
if 'buildtime' == variant:
tc_time['hidden']='0'
del tc_time['clclass']
tc_cache['hidden']='1'
tc_cpu_time_system={
'name':'System CPU time (secs)',
'qhelp':'Total amount of time spent executing in kernel mode, in ' +
'seconds. Note that this time can be greater than the task ' +
'time due to parallel execution.',
'orderfield': _get_toggle_order(request, "cpu_time_system", True),
'ordericon':_get_toggle_order_icon(request, "cpu_time_system"),
'orderkey' : 'cpu_time_system',
'clclass': 'cpu_time_system', 'hidden' : 1,
}
tc_cpu_time_user={
'name':'User CPU time (secs)',
'qhelp':'Total amount of time spent executing in user mode, in seconds. ' +
'Note that this time can be greater than the task time due to ' +
'parallel execution.',
'orderfield': _get_toggle_order(request, "cpu_time_user", True),
'ordericon':_get_toggle_order_icon(request, "cpu_time_user"),
'orderkey' : 'cpu_time_user',
'clclass': 'cpu_time_user', 'hidden' : 1,
}
if 'cputime' == variant:
tc_cpu_time_system['hidden']='0'
tc_cpu_time_user['hidden']='0'
del tc_cpu_time_system['clclass']
del tc_cpu_time_user['clclass']
tc_cache['hidden']='1'
tc_diskio={
'name':'Disk I/O (bytes)',
'qhelp':'Number of bytes written to and read from the disk during the task',
'orderfield': _get_toggle_order(request, "disk_io", True),
'ordericon':_get_toggle_order_icon(request, "disk_io"),
'orderkey' : 'disk_io',
'clclass': 'disk_io', 'hidden' : 1,
}
if 'diskio' == variant:
tc_diskio['hidden']='0'
del tc_diskio['clclass']
tc_cache['hidden']='1'
build = Build.objects.get(pk=build_id)
context = { 'objectname': variant,
'object_search_display': object_search_display,
'filter_search_display': filter_search_display,
'mainheading': title_variant,
'build': build,
'objects': task_objects,
'default_orderby' : default_orderby,
'search_term': search_term,
'total_count': queryset_with_search.count(),
'tablecols':[
tc_order,
tc_recipe,
tc_recipe_version,
tc_task,
tc_executed,
tc_outcome,
tc_cache,
tc_time,
tc_cpu_time_system,
tc_cpu_time_user,
tc_diskio,
]}
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def tasks(request, build_id):
return tasks_common(request, build_id, 'tasks', '')
def tasks_task(request, build_id, task_id):
return tasks_common(request, build_id, 'tasks', task_id)
def buildtime(request, build_id):
return tasks_common(request, build_id, 'buildtime', '')
def diskio(request, build_id):
return tasks_common(request, build_id, 'diskio', '')
def cputime(request, build_id):
return tasks_common(request, build_id, 'cputime', '')
def recipes(request, build_id):
template = 'recipes.html'
(pagesize, orderby) = _get_parameters_values(request, 100, 'name:+')
mandatory_parameters = { 'count': pagesize, 'page' : 1, 'orderby' : orderby }
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
return _redirect_parameters( 'recipes', request.GET, mandatory_parameters, build_id = build_id)
(filter_string, search_term, ordering_string) = _search_tuple(request, Recipe)
queryset = Recipe.objects.filter(layer_version__id__in=Layer_Version.objects.filter(build=build_id)).select_related("layer_version", "layer_version__layer")
queryset = _get_queryset(Recipe, queryset, filter_string, search_term, ordering_string, 'name')
recipes = _build_page_range(Paginator(queryset, pagesize),request.GET.get('page', 1))
# prefetch the forward and reverse recipe dependencies
deps = { }
revs = { }
queryset_dependency=Recipe_Dependency.objects.filter(recipe__layer_version__build_id = build_id).select_related("depends_on", "recipe")
for recipe in recipes:
deplist = [ ]
for recipe_dep in [x for x in queryset_dependency if x.recipe_id == recipe.id]:
deplist.append(recipe_dep)
deps[recipe.id] = deplist
revlist = [ ]
for recipe_dep in [x for x in queryset_dependency if x.depends_on_id == recipe.id]:
revlist.append(recipe_dep)
revs[recipe.id] = revlist
build = Build.objects.get(pk=build_id)
context = {
'objectname': 'recipes',
'build': build,
'objects': recipes,
'default_orderby' : 'name:+',
'recipe_deps' : deps,
'recipe_revs' : revs,
'tablecols':[
{
'name':'Recipe',
'qhelp':'Information about a single piece of software, including where to download the source, configuration options, how to compile the source files and how to package the compiled output',
'orderfield': _get_toggle_order(request, "name"),
'ordericon':_get_toggle_order_icon(request, "name"),
},
{
'name':'Recipe version',
'qhelp':'The recipe version and revision',
},
{
'name':'Dependencies',
'qhelp':'Recipe build-time dependencies (i.e. other recipes)',
'clclass': 'depends_on', 'hidden': 1,
},
{
'name':'Reverse dependencies',
'qhelp':'Recipe build-time reverse dependencies (i.e. the recipes that depend on this recipe)',
'clclass': 'depends_by', 'hidden': 1,
},
{
'name':'Recipe file',
'qhelp':'Path to the recipe .bb file',
'orderfield': _get_toggle_order(request, "file_path"),
'ordericon':_get_toggle_order_icon(request, "file_path"),
'orderkey' : 'file_path',
'clclass': 'recipe_file', 'hidden': 0,
},
{
'name':'Section',
'qhelp':'The section in which recipes should be categorized',
'orderfield': _get_toggle_order(request, "section"),
'ordericon':_get_toggle_order_icon(request, "section"),
'orderkey' : 'section',
'clclass': 'recipe_section', 'hidden': 0,
},
{
'name':'License',
'qhelp':'The list of source licenses for the recipe. Multiple license names separated by the pipe character indicates a choice between licenses. Multiple license names separated by the ampersand character indicates multiple licenses exist that cover different parts of the source',
'orderfield': _get_toggle_order(request, "license"),
'ordericon':_get_toggle_order_icon(request, "license"),
'orderkey' : 'license',
'clclass': 'recipe_license', 'hidden': 0,
},
{
'name':'Layer',
'qhelp':'The name of the layer providing the recipe',
'orderfield': _get_toggle_order(request, "layer_version__layer__name"),
'ordericon':_get_toggle_order_icon(request, "layer_version__layer__name"),
'orderkey' : 'layer_version__layer__name',
'clclass': 'layer_version__layer__name', 'hidden': 0,
},
{
'name':'Layer branch',
'qhelp':'The Git branch of the layer providing the recipe',
'orderfield': _get_toggle_order(request, "layer_version__branch"),
'ordericon':_get_toggle_order_icon(request, "layer_version__branch"),
'orderkey' : 'layer_version__branch',
'clclass': 'layer_version__branch', 'hidden': 1,
},
{
'name':'Layer commit',
'qhelp':'The Git commit of the layer providing the recipe',
'clclass': 'layer_version__layer__commit', 'hidden': 1,
},
]
}
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def configuration(request, build_id):
template = 'configuration.html'
var_names = ('BB_VERSION', 'BUILD_SYS', 'NATIVELSBSTRING', 'TARGET_SYS',
'MACHINE', 'DISTRO', 'DISTRO_VERSION', 'TUNE_FEATURES', 'TARGET_FPU')
context = dict(Variable.objects.filter(build=build_id, variable_name__in=var_names)\
.values_list('variable_name', 'variable_value'))
context.update({'objectname': 'configuration',
'object_search_display':'variables',
'filter_search_display':'variables',
'build': Build.objects.get(pk=build_id),
'targets': Target.objects.filter(build=build_id)})
return render(request, template, context)
def configvars(request, build_id):
template = 'configvars.html'
(pagesize, orderby) = _get_parameters_values(request, 100, 'variable_name:+')
mandatory_parameters = { 'count': pagesize, 'page' : 1, 'orderby' : orderby, 'filter' : 'description__regex:.+' }
retval = _verify_parameters( request.GET, mandatory_parameters )
(filter_string, search_term, ordering_string) = _search_tuple(request, Variable)
if retval:
# if new search, clear the default filter
if search_term and len(search_term):
mandatory_parameters['filter']=''
return _redirect_parameters( 'configvars', request.GET, mandatory_parameters, build_id = build_id)
queryset = Variable.objects.filter(build=build_id).exclude(variable_name__istartswith='B_').exclude(variable_name__istartswith='do_')
queryset_with_search = _get_queryset(Variable, queryset, None, search_term, ordering_string, 'variable_name').exclude(variable_value='',vhistory__file_name__isnull=True)
queryset = _get_queryset(Variable, queryset, filter_string, search_term, ordering_string, 'variable_name')
# remove records where the value is empty AND there are no history files
queryset = queryset.exclude(variable_value='',vhistory__file_name__isnull=True)
variables = _build_page_range(Paginator(queryset, pagesize), request.GET.get('page', 1))
# show all matching files (not just the last one)
file_filter= search_term + ":"
if filter_string.find('/conf/') > 0:
file_filter += 'conf/(local|bblayers).conf'
if filter_string.find('conf/machine/') > 0:
file_filter += 'conf/machine/'
if filter_string.find('conf/distro/') > 0:
file_filter += 'conf/distro/'
if filter_string.find('/bitbake.conf') > 0:
file_filter += '/bitbake.conf'
build_dir=re.sub("/tmp/log/.*","",Build.objects.get(pk=build_id).cooker_log_path)
context = {
'objectname': 'configvars',
'object_search_display':'BitBake variables',
'filter_search_display':'variables',
'file_filter': file_filter,
'build': Build.objects.get(pk=build_id),
'objects' : variables,
'total_count':queryset_with_search.count(),
'default_orderby' : 'variable_name:+',
'search_term':search_term,
# Specifies the display of columns for the table, appearance in "Edit columns" box, toggling default show/hide, and specifying filters for columns
'tablecols' : [
{'name': 'Variable',
'qhelp': "BitBake is a generic task executor that considers a list of tasks with dependencies and handles metadata that consists of variables in a certain format that get passed to the tasks",
'orderfield': _get_toggle_order(request, "variable_name"),
'ordericon':_get_toggle_order_icon(request, "variable_name"),
},
{'name': 'Value',
'qhelp': "The value assigned to the variable",
'dclass': "span4",
},
{'name': 'Set in file',
'qhelp': "The last configuration file that touched the variable value",
'clclass': 'file', 'hidden' : 0,
'orderkey' : 'vhistory__file_name',
'filter' : {
'class' : 'vhistory__file_name',
'label': 'Show:',
'options' : [
('Local configuration variables', 'vhistory__file_name__contains:'+build_dir+'/conf/',queryset_with_search.filter(vhistory__file_name__contains=build_dir+'/conf/').count(), 'Select this filter to see variables set by the local.conf
and bblayers.conf
configuration files inside the /build/conf/
directory'),
('Machine configuration variables', 'vhistory__file_name__contains:conf/machine/',queryset_with_search.filter(vhistory__file_name__contains='conf/machine').count(), 'Select this filter to see variables set by the configuration file(s) inside your layers /conf/machine/
directory'),
('Distro configuration variables', 'vhistory__file_name__contains:conf/distro/',queryset_with_search.filter(vhistory__file_name__contains='conf/distro').count(), 'Select this filter to see variables set by the configuration file(s) inside your layers /conf/distro/
directory'),
('Layer configuration variables', 'vhistory__file_name__contains:conf/layer.conf',queryset_with_search.filter(vhistory__file_name__contains='conf/layer.conf').count(), 'Select this filter to see variables set by the layer.conf
configuration file inside your layers'),
('bitbake.conf variables', 'vhistory__file_name__contains:/bitbake.conf',queryset_with_search.filter(vhistory__file_name__contains='/bitbake.conf').count(), 'Select this filter to see variables set by the bitbake.conf
configuration file'),
]
},
},
{'name': 'Description',
'qhelp': "A brief explanation of the variable",
'clclass': 'description', 'hidden' : 0,
'dclass': "span4",
'filter' : {
'class' : 'description',
'label': 'Show:',
'options' : [
('Variables with description', 'description__regex:.+', queryset_with_search.filter(description__regex='.+').count(), 'We provide descriptions for the most common BitBake variables. The list of descriptions lives in meta/conf/documentation.conf
'),
]
},
},
],
}
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def bpackage(request, build_id):
template = 'bpackage.html'
(pagesize, orderby) = _get_parameters_values(request, 100, 'name:+')
mandatory_parameters = { 'count' : pagesize, 'page' : 1, 'orderby' : orderby }
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
return _redirect_parameters( 'packages', request.GET, mandatory_parameters, build_id = build_id)
(filter_string, search_term, ordering_string) = _search_tuple(request, Package)
queryset = Package.objects.filter(build = build_id).filter(size__gte=0)
queryset = _get_queryset(Package, queryset, filter_string, search_term, ordering_string, 'name')
packages = _build_page_range(Paginator(queryset, pagesize),request.GET.get('page', 1))
build = Build.objects.get( pk = build_id )
context = {
'objectname': 'packages built',
'build': build,
'objects' : packages,
'default_orderby' : 'name:+',
'tablecols':[
{
'name':'Package',
'qhelp':'Packaged output resulting from building a recipe',
'orderfield': _get_toggle_order(request, "name"),
'ordericon':_get_toggle_order_icon(request, "name"),
},
{
'name':'Package version',
'qhelp':'The package version and revision',
},
{
'name':'Size',
'qhelp':'The size of the package',
'orderfield': _get_toggle_order(request, "size", True),
'ordericon':_get_toggle_order_icon(request, "size"),
'orderkey' : 'size',
'clclass': 'size', 'hidden': 0,
'dclass' : 'span2',
},
{
'name':'License',
'qhelp':'The license under which the package is distributed. Multiple license names separated by the pipe character indicates a choice between licenses. Multiple license names separated by the ampersand character indicates multiple licenses exist that cover different parts of the source',
'orderfield': _get_toggle_order(request, "license"),
'ordericon':_get_toggle_order_icon(request, "license"),
'orderkey' : 'license',
'clclass': 'license', 'hidden': 1,
},
{
'name':'Recipe',
'qhelp':'The name of the recipe building the package',
'orderfield': _get_toggle_order(request, "recipe__name"),
'ordericon':_get_toggle_order_icon(request, "recipe__name"),
'orderkey' : 'recipe__name',
'clclass': 'recipe__name', 'hidden': 0,
},
{
'name':'Recipe version',
'qhelp':'Version and revision of the recipe building the package',
'clclass': 'recipe__version', 'hidden': 1,
},
{
'name':'Layer',
'qhelp':'The name of the layer providing the recipe that builds the package',
'orderfield': _get_toggle_order(request, "recipe__layer_version__layer__name"),
'ordericon':_get_toggle_order_icon(request, "recipe__layer_version__layer__name"),
'orderkey' : 'recipe__layer_version__layer__name',
'clclass': 'recipe__layer_version__layer__name', 'hidden': 1,
},
{
'name':'Layer branch',
'qhelp':'The Git branch of the layer providing the recipe that builds the package',
'orderfield': _get_toggle_order(request, "recipe__layer_version__branch"),
'ordericon':_get_toggle_order_icon(request, "recipe__layer_version__branch"),
'orderkey' : 'recipe__layer_version__branch',
'clclass': 'recipe__layer_version__branch', 'hidden': 1,
},
{
'name':'Layer commit',
'qhelp':'The Git commit of the layer providing the recipe that builds the package',
'clclass': 'recipe__layer_version__layer__commit', 'hidden': 1,
},
]
}
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def bfile(request, build_id, package_id):
template = 'bfile.html'
files = Package_File.objects.filter(package = package_id)
context = {'build': Build.objects.get(pk=build_id), 'objects' : files}
return render(request, template, context)
# A set of dependency types valid for both included and built package views
OTHER_DEPENDS_BASE = [
Package_Dependency.TYPE_RSUGGESTS,
Package_Dependency.TYPE_RPROVIDES,
Package_Dependency.TYPE_RREPLACES,
Package_Dependency.TYPE_RCONFLICTS,
]
# value for invalid row id
INVALID_KEY = -1
"""
Given a package id, target_id retrieves two sets of this image and package's
dependencies. The return value is a dictionary consisting of two other
lists: a list of 'runtime' dependencies, that is, having RDEPENDS
values in source package's recipe, and a list of other dependencies, that is
the list of possible recipe variables as found in OTHER_DEPENDS_BASE plus
the RRECOMMENDS or TRECOMMENDS value.
The lists are built in the sort order specified for the package runtime
dependency views.
"""
def _get_package_dependencies(package_id, target_id = INVALID_KEY):
runtime_deps = []
other_deps = []
other_depends_types = OTHER_DEPENDS_BASE
if target_id != INVALID_KEY :
rdepends_type = Package_Dependency.TYPE_TRDEPENDS
other_depends_types += [Package_Dependency.TYPE_TRECOMMENDS]
else :
rdepends_type = Package_Dependency.TYPE_RDEPENDS
other_depends_types += [Package_Dependency.TYPE_RRECOMMENDS]
package = Package.objects.get(pk=package_id)
if target_id != INVALID_KEY :
alldeps = package.package_dependencies_source.filter(target_id__exact = target_id)
else :
alldeps = package.package_dependencies_source.all()
for idep in alldeps:
dep_package = Package.objects.get(pk=idep.depends_on_id)
dep_entry = Package_Dependency.DEPENDS_DICT[idep.dep_type]
if dep_package.version == '' :
version = ''
else :
version = dep_package.version + "-" + dep_package.revision
installed = False
if target_id != INVALID_KEY :
if Target_Installed_Package.objects.filter(target_id__exact = target_id, package_id__exact = dep_package.id).count() > 0:
installed = True
dep = {
'name' : dep_package.name,
'version' : version,
'size' : dep_package.size,
'dep_type' : idep.dep_type,
'dep_type_display' : dep_entry[0].capitalize(),
'dep_type_help' : dep_entry[1] % (dep_package.name, package.name),
'depends_on_id' : dep_package.id,
'installed' : installed,
}
if target_id != INVALID_KEY:
dep['alias'] = _get_package_alias(dep_package)
if idep.dep_type == rdepends_type :
runtime_deps.append(dep)
elif idep.dep_type in other_depends_types :
other_deps.append(dep)
rdep_sorted = sorted(runtime_deps, key=lambda k: k['name'])
odep_sorted = sorted(
sorted(other_deps, key=lambda k: k['name']),
key=lambda k: k['dep_type'])
retvalues = {'runtime_deps' : rdep_sorted, 'other_deps' : odep_sorted}
return retvalues
# Return the count of packages dependent on package for this target_id image
def _get_package_reverse_dep_count(package, target_id):
return package.package_dependencies_target.filter(target_id__exact=target_id, dep_type__exact = Package_Dependency.TYPE_TRDEPENDS).count()
# Return the count of the packages that this package_id is dependent on.
# Use one of the two RDEPENDS types, either TRDEPENDS if the package was
# installed, or else RDEPENDS if only built.
def _get_package_dependency_count(package, target_id, is_installed):
if is_installed :
return package.package_dependencies_source.filter(target_id__exact = target_id,
dep_type__exact = Package_Dependency.TYPE_TRDEPENDS).count()
else :
return package.package_dependencies_source.filter(dep_type__exact = Package_Dependency.TYPE_RDEPENDS).count()
def _get_package_alias(package):
alias = package.installed_name
if alias != None and alias != '' and alias != package.name:
return alias
else:
return ''
def _get_fullpackagespec(package):
r = package.name
version_good = package.version != None and package.version != ''
revision_good = package.revision != None and package.revision != ''
if version_good or revision_good:
r += '_'
if version_good:
r += package.version
if revision_good:
r += '-'
if revision_good:
r += package.revision
return r
def package_built_detail(request, build_id, package_id):
template = "package_built_detail.html"
if Build.objects.filter(pk=build_id).count() == 0 :
return redirect(builds)
# follow convention for pagination w/ search although not used for this view
queryset = Package_File.objects.filter(package_id__exact=package_id)
(pagesize, orderby) = _get_parameters_values(request, 25, 'path:+')
mandatory_parameters = { 'count': pagesize, 'page' : 1, 'orderby' : orderby }
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
return _redirect_parameters( 'package_built_detail', request.GET, mandatory_parameters, build_id = build_id, package_id = package_id)
(filter_string, search_term, ordering_string) = _search_tuple(request, Package_File)
paths = _get_queryset(Package_File, queryset, filter_string, search_term, ordering_string, 'path')
package = Package.objects.get(pk=package_id)
package.fullpackagespec = _get_fullpackagespec(package)
context = {
'build' : Build.objects.get(pk=build_id),
'package' : package,
'dependency_count' : _get_package_dependency_count(package, -1, False),
'objects' : paths,
'tablecols':[
{
'name':'File',
'orderfield': _get_toggle_order(request, "path"),
'ordericon':_get_toggle_order_icon(request, "path"),
},
{
'name':'Size',
'orderfield': _get_toggle_order(request, "size", True),
'ordericon':_get_toggle_order_icon(request, "size"),
'dclass': 'sizecol span2',
},
]
}
if paths.all().count() < 2:
context['disable_sort'] = True;
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def package_built_dependencies(request, build_id, package_id):
template = "package_built_dependencies.html"
if Build.objects.filter(pk=build_id).count() == 0 :
return redirect(builds)
package = Package.objects.get(pk=package_id)
package.fullpackagespec = _get_fullpackagespec(package)
dependencies = _get_package_dependencies(package_id)
context = {
'build' : Build.objects.get(pk=build_id),
'package' : package,
'runtime_deps' : dependencies['runtime_deps'],
'other_deps' : dependencies['other_deps'],
'dependency_count' : _get_package_dependency_count(package, -1, False)
}
return render(request, template, context)
def package_included_detail(request, build_id, target_id, package_id):
template = "package_included_detail.html"
if Build.objects.filter(pk=build_id).count() == 0 :
return redirect(builds)
# follow convention for pagination w/ search although not used for this view
(pagesize, orderby) = _get_parameters_values(request, 25, 'path:+')
mandatory_parameters = { 'count': pagesize, 'page' : 1, 'orderby' : orderby }
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
return _redirect_parameters( 'package_included_detail', request.GET, mandatory_parameters, build_id = build_id, target_id = target_id, package_id = package_id)
(filter_string, search_term, ordering_string) = _search_tuple(request, Package_File)
queryset = Package_File.objects.filter(package_id__exact=package_id)
paths = _get_queryset(Package_File, queryset, filter_string, search_term, ordering_string, 'path')
package = Package.objects.get(pk=package_id)
package.fullpackagespec = _get_fullpackagespec(package)
package.alias = _get_package_alias(package)
target = Target.objects.get(pk=target_id)
context = {
'build' : Build.objects.get(pk=build_id),
'target' : target,
'package' : package,
'reverse_count' : _get_package_reverse_dep_count(package, target_id),
'dependency_count' : _get_package_dependency_count(package, target_id, True),
'objects': paths,
'tablecols':[
{
'name':'File',
'orderfield': _get_toggle_order(request, "path"),
'ordericon':_get_toggle_order_icon(request, "path"),
},
{
'name':'Size',
'orderfield': _get_toggle_order(request, "size", True),
'ordericon':_get_toggle_order_icon(request, "size"),
'dclass': 'sizecol span2',
},
]
}
if paths.all().count() < 2:
context['disable_sort'] = True
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def package_included_dependencies(request, build_id, target_id, package_id):
template = "package_included_dependencies.html"
if Build.objects.filter(pk=build_id).count() == 0 :
return redirect(builds)
package = Package.objects.get(pk=package_id)
package.fullpackagespec = _get_fullpackagespec(package)
package.alias = _get_package_alias(package)
target = Target.objects.get(pk=target_id)
dependencies = _get_package_dependencies(package_id, target_id)
context = {
'build' : Build.objects.get(pk=build_id),
'package' : package,
'target' : target,
'runtime_deps' : dependencies['runtime_deps'],
'other_deps' : dependencies['other_deps'],
'reverse_count' : _get_package_reverse_dep_count(package, target_id),
'dependency_count' : _get_package_dependency_count(package, target_id, True)
}
return render(request, template, context)
def package_included_reverse_dependencies(request, build_id, target_id, package_id):
template = "package_included_reverse_dependencies.html"
if Build.objects.filter(pk=build_id).count() == 0 :
return redirect(builds)
(pagesize, orderby) = _get_parameters_values(request, 25, 'package__name:+')
mandatory_parameters = { 'count': pagesize, 'page' : 1, 'orderby': orderby }
retval = _verify_parameters( request.GET, mandatory_parameters )
if retval:
return _redirect_parameters( 'package_included_reverse_dependencies', request.GET, mandatory_parameters, build_id = build_id, target_id = target_id, package_id = package_id)
(filter_string, search_term, ordering_string) = _search_tuple(request, Package_File)
queryset = Package_Dependency.objects.select_related('depends_on__name', 'depends_on__size').filter(depends_on=package_id, target_id=target_id, dep_type=Package_Dependency.TYPE_TRDEPENDS)
objects = _get_queryset(Package_Dependency, queryset, filter_string, search_term, ordering_string, 'package__name')
package = Package.objects.get(pk=package_id)
package.fullpackagespec = _get_fullpackagespec(package)
package.alias = _get_package_alias(package)
target = Target.objects.get(pk=target_id)
for o in objects:
if o.package.version != '':
o.package.version += '-' + o.package.revision
o.alias = _get_package_alias(o.package)
context = {
'build' : Build.objects.get(pk=build_id),
'package' : package,
'target' : target,
'objects' : objects,
'reverse_count' : _get_package_reverse_dep_count(package, target_id),
'dependency_count' : _get_package_dependency_count(package, target_id, True),
'tablecols':[
{
'name':'Package',
'orderfield': _get_toggle_order(request, "package__name"),
'ordericon': _get_toggle_order_icon(request, "package__name"),
},
{
'name':'Version',
},
{
'name':'Size',
'orderfield': _get_toggle_order(request, "package__size", True),
'ordericon': _get_toggle_order_icon(request, "package__size"),
'dclass': 'sizecol span2',
},
]
}
if objects.all().count() < 2:
context['disable_sort'] = True
response = render(request, template, context)
_set_parameters_values(pagesize, orderby, request)
return response
def image_information_dir(request, build_id, target_id, packagefile_id):
# stubbed for now
return redirect(builds)
# the context processor that supplies data used across all the pages
# a context processor which runs on every request; this provides the
# projects and non_cli_projects (i.e. projects created by the user)
# variables referred to in templates, which used to determine the
# visibility of UI elements like the "New build" button
def managedcontextprocessor(request):
projects = Project.objects.all()
ret = {
"projects": projects,
"non_cli_projects": projects.exclude(is_default=True),
"DEBUG" : toastermain.settings.DEBUG,
"TOASTER_BRANCH": toastermain.settings.TOASTER_BRANCH,
"TOASTER_REVISION" : toastermain.settings.TOASTER_REVISION,
}
return ret
import toastermain.settings
from orm.models import Project, ProjectLayer, ProjectTarget, ProjectVariable
from bldcontrol.models import BuildEnvironment
# we have a set of functions if we're in managed mode, or
# a default "page not available" simple functions for interactive mode
if True:
from django.contrib.auth.models import User
from django.contrib.auth import authenticate, login
from django.contrib.auth.decorators import login_required
from orm.models import Branch, LayerSource, ToasterSetting, Release, Machine, LayerVersionDependency
from bldcontrol.models import BuildRequest
import traceback
class BadParameterException(Exception):
''' The exception raised on invalid POST requests '''
pass
# new project
def newproject(request):
template = "newproject.html"
context = {
'email': request.user.email if request.user.is_authenticated() else '',
'username': request.user.username if request.user.is_authenticated() else '',
'releases': Release.objects.order_by("description"),
}
try:
context['defaultbranch'] = ToasterSetting.objects.get(name = "DEFAULT_RELEASE").value
except ToasterSetting.DoesNotExist:
pass
if request.method == "GET":
# render new project page
return render(request, template, context)
elif request.method == "POST":
mandatory_fields = ['projectname', 'ptype']
try:
ptype = request.POST.get('ptype')
if ptype == "build":
mandatory_fields.append('projectversion')
# make sure we have values for all mandatory_fields
if reduce( lambda x, y: x or y, map(lambda x: len(request.POST.get(x, '')) == 0, mandatory_fields)):
# set alert for missing fields
raise BadParameterException("Fields missing: " +
", ".join([x for x in mandatory_fields if len(request.POST.get(x, '')) == 0 ]))
if not request.user.is_authenticated():
user = authenticate(username = request.POST.get('username', '_anonuser'), password = 'nopass')
if user is None:
user = User.objects.create_user(username = request.POST.get('username', '_anonuser'), email = request.POST.get('email', ''), password = "nopass")
user = authenticate(username = user.username, password = 'nopass')
login(request, user)
# save the project
if ptype == "analysis":
release = None
else:
release = Release.objects.get(pk = request.POST.get('projectversion', None ))
prj = Project.objects.create_project(name = request.POST['projectname'], release = release)
prj.user_id = request.user.pk
prj.save()
return redirect(reverse(project, args=(prj.pk,)) + "?notify=new-project")
except (IntegrityError, BadParameterException) as e:
# fill in page with previously submitted values
map(lambda x: context.__setitem__(x, request.POST.get(x, "-- missing")), mandatory_fields)
if isinstance(e, IntegrityError) and "username" in str(e):
context['alert'] = "Your chosen username is already used"
else:
context['alert'] = str(e)
return render(request, template, context)
raise Exception("Invalid HTTP method for this page")
# Shows the edit project page
@_template_renderer('project.html')
def project(request, pid):
prj = Project.objects.get(id = pid)
try:
puser = User.objects.get(id = prj.user_id)
except User.DoesNotExist:
puser = None
# execute POST requests
if request.method == "POST":
# add layers
if 'layerAdd' in request.POST and len(request.POST['layerAdd']) > 0:
for lc in Layer_Version.objects.filter(pk__in=[i for i in request.POST['layerAdd'].split(",") if len(i) > 0]):
ProjectLayer.objects.get_or_create(project = prj, layercommit = lc)
# remove layers
if 'layerDel' in request.POST and len(request.POST['layerDel']) > 0:
for t in request.POST['layerDel'].strip().split(" "):
pt = ProjectLayer.objects.filter(project = prj, layercommit_id = int(t)).delete()
if 'projectName' in request.POST:
prj.name = request.POST['projectName']
prj.save();
if 'projectVersion' in request.POST:
# If the release is the current project then return now
if prj.release.pk == int(request.POST.get('projectVersion',-1)):
return {}
prj.release = Release.objects.get(pk = request.POST['projectVersion'])
# we need to change the bitbake version
prj.bitbake_version = prj.release.bitbake_version
prj.save()
# we need to change the layers
for project in prj.projectlayer_set.all():
# find and add a similarly-named layer on the new branch
try:
layer_versions = prj.get_all_compatible_layer_versions()
layer_versions = layer_versions.filter(layer__name = project.layercommit.layer.name)
ProjectLayer.objects.get_or_create(project = prj, layercommit = layer_versions.first())
except IndexError:
pass
finally:
# get rid of the old entry
project.delete()
if 'machineName' in request.POST:
machinevar = prj.projectvariable_set.get(name="MACHINE")
machinevar.value=request.POST['machineName']
machinevar.save()
# we use implicit knowledge of the current user's project to filter layer information, e.g.
pid = prj.id
from collections import Counter
freqtargets = []
try:
freqtargets += map(lambda x: x.target, reduce(lambda x, y: x + y, map(lambda x: list(x.target_set.all()), Build.objects.filter(project = prj, outcome__lt = Build.IN_PROGRESS))))
freqtargets += map(lambda x: x.target, reduce(lambda x, y: x + y, map(lambda x: list(x.brtarget_set.all()), BuildRequest.objects.filter(project = prj, state = BuildRequest.REQ_FAILED))))
except TypeError:
pass
freqtargets = Counter(freqtargets)
freqtargets = sorted(freqtargets, key = lambda x: freqtargets[x], reverse=True)
context = {
"project" : prj,
"lvs_nos" : Layer_Version.objects.all().count(),
"completedbuilds": Build.objects.exclude(outcome = Build.IN_PROGRESS).filter(project_id = pid),
"prj" : {"name": prj.name, },
"buildrequests" : prj.build_set.filter(outcome=Build.IN_PROGRESS),
"builds" : Build.get_recent(prj),
"layers" : map(lambda x: {
"id": x.layercommit.pk,
"orderid": x.pk,
"name" : x.layercommit.layer.name,
"vcs_url": x.layercommit.layer.vcs_url,
"vcs_reference" : x.layercommit.get_vcs_reference(),
"url": x.layercommit.layer.layer_index_url,
"layerdetailurl": x.layercommit.get_detailspage_url(prj.pk),
# This branch name is actually the release
"branch" : { "name" : x.layercommit.get_vcs_reference(), "layersource" : x.layercommit.up_branch.layer_source.name if x.layercommit.up_branch != None else None}},
prj.projectlayer_set.all().order_by("id")),
"targets" : map(lambda x: {"target" : x.target, "task" : x.task, "pk": x.pk}, prj.projecttarget_set.all()),
"variables": map(lambda x: (x.name, x.value), prj.projectvariable_set.all()),
"freqtargets": freqtargets[:5],
"releases": map(lambda x: {"id": x.pk, "name": x.name, "description":x.description}, Release.objects.all()),
"project_html": 1,
"recipesTypeAheadUrl": reverse('xhr_recipestypeahead', args=(prj.pk,)),
"projectBuildsUrl": reverse('projectbuilds', args=(prj.pk,)),
}
if prj.release is not None:
context['release'] = { "id": prj.release.pk, "name": prj.release.name, "description": prj.release.description}
try:
context["machine"] = {"name": prj.projectvariable_set.get(name="MACHINE").value}
except ProjectVariable.DoesNotExist:
context["machine"] = None
try:
context["distro"] = prj.projectvariable_set.get(name="DISTRO").value
except ProjectVariable.DoesNotExist:
context["distro"] = "-- not set yet"
return context
def xhr_response(fun):
"""
Decorator for REST methods.
calls jsonfilter on the returned dictionary and returns result
as HttpResponse object of content_type application/json
"""
@wraps(fun)
def wrapper(*args, **kwds):
return HttpResponse(jsonfilter(fun(*args, **kwds)),
content_type="application/json")
return wrapper
def jsunittests(request):
""" Provides a page for the js unit tests """
bbv = BitbakeVersion.objects.filter(branch="master").first()
release = Release.objects.filter(bitbake_version=bbv).first()
name = "_js_unit_test_prj_"
# If there is an existing project by this name delete it.
# We don't want Lots of duplicates cluttering up the projects.
Project.objects.filter(name=name).delete()
new_project = Project.objects.create_project(name=name,
release=release)
# Add a layer
layer = new_project.get_all_compatible_layer_versions().first()
ProjectLayer.objects.get_or_create(layercommit=layer,
project=new_project)
# make sure we have a machine set for this project
ProjectVariable.objects.get_or_create(project=new_project,
name="MACHINE",
value="qemux86")
context = {'project': new_project}
return render(request, "js-unit-tests.html", context)
from django.views.decorators.csrf import csrf_exempt
@csrf_exempt
def xhr_testreleasechange(request, pid):
def response(data):
return HttpResponse(jsonfilter(data),
content_type="application/json")
""" returns layer versions that would be deleted on the new
release__pk """
try:
prj = Project.objects.get(pk = pid)
new_release_id = request.GET['new_release_id']
# If we're already on this project do nothing
if prj.release.pk == int(new_release_id):
return reponse({"error": "ok", "rows": []})
retval = []
for project in prj.projectlayer_set.all():
release = Release.objects.get(pk = new_release_id)
layer_versions = prj.get_all_compatible_layer_versions()
layer_versions = layer_versions.filter(release = release)
layer_versions = layer_versions.filter(layer__name = project.layercommit.layer.name)
# there is no layer_version with the new release id,
# and the same name
if layer_versions.count() < 1:
retval.append(project)
return response({"error":"ok",
"rows" : map( _lv_to_dict(prj),
map(lambda x: x.layercommit, retval ))
})
except Exception as e:
return response({"error": str(e) })
def xhr_configvaredit(request, pid):
try:
prj = Project.objects.get(id = pid)
# add conf variables
if 'configvarAdd' in request.POST:
t=request.POST['configvarAdd'].strip()
if ":" in t:
variable, value = t.split(":")
else:
variable = t
value = ""
pt, created = ProjectVariable.objects.get_or_create(project = prj, name = variable, value = value)
# change conf variables
if 'configvarChange' in request.POST:
t=request.POST['configvarChange'].strip()
if ":" in t:
variable, value = t.split(":")
else:
variable = t
value = ""
pt, created = ProjectVariable.objects.get_or_create(project = prj, name = variable)
pt.value=value
pt.save()
# remove conf variables
if 'configvarDel' in request.POST:
t=request.POST['configvarDel'].strip()
pt = ProjectVariable.objects.get(pk = int(t)).delete()
# return all project settings, filter out blacklist and elsewhere-managed variables
vars_managed,vars_fstypes,vars_blacklist = get_project_configvars_context()
configvars_query = ProjectVariable.objects.filter(project_id = pid).all()
for var in vars_managed:
configvars_query = configvars_query.exclude(name = var)
for var in vars_blacklist:
configvars_query = configvars_query.exclude(name = var)
return_data = {
"error": "ok",
'configvars' : map(lambda x: (x.name, x.value, x.pk), configvars_query),
}
try:
return_data['distro'] = ProjectVariable.objects.get(project = prj, name = "DISTRO").value,
except ProjectVariable.DoesNotExist:
pass
try:
return_data['dl_dir'] = ProjectVariable.objects.get(project = prj, name = "DL_DIR").value,
except ProjectVariable.DoesNotExist:
pass
try:
return_data['fstypes'] = ProjectVariable.objects.get(project = prj, name = "IMAGE_FSTYPES").value,
except ProjectVariable.DoesNotExist:
pass
try:
return_data['image_install_append'] = ProjectVariable.objects.get(project = prj, name = "IMAGE_INSTALL_append").value,
except ProjectVariable.DoesNotExist:
pass
try:
return_data['package_classes'] = ProjectVariable.objects.get(project = prj, name = "PACKAGE_CLASSES").value,
except ProjectVariable.DoesNotExist:
pass
try:
return_data['sstate_dir'] = ProjectVariable.objects.get(project = prj, name = "SSTATE_DIR").value,
except ProjectVariable.DoesNotExist:
pass
return HttpResponse(json.dumps( return_data ), content_type = "application/json")
except Exception as e:
return HttpResponse(json.dumps({"error":str(e) + "\n" + traceback.format_exc()}), content_type = "application/json")
def xhr_importlayer(request):
if (not request.POST.has_key('vcs_url') or
not request.POST.has_key('name') or
not request.POST.has_key('git_ref') or
not request.POST.has_key('project_id')):
return HttpResponse(jsonfilter({"error": "Missing parameters; requires vcs_url, name, git_ref and project_id"}), content_type = "application/json")
layers_added = [];
# Rudimentary check for any possible html tags
for val in request.POST.values():
if "<" in val:
return HttpResponse(jsonfilter(
{"error": "Invalid character <"}),
content_type="application/json")
prj = Project.objects.get(pk=request.POST['project_id'])
# Strip trailing/leading whitespace from all values
# put into a new dict because POST one is immutable
post_data = dict()
for key,val in request.POST.iteritems():
post_data[key] = val.strip()
# We need to know what release the current project is so that we
# can set the imported layer's up_branch_id
prj_branch_name = Release.objects.get(pk=prj.release_id).branch_name
up_branch, branch_created = Branch.objects.get_or_create(name=prj_branch_name, layer_source_id=LayerSource.TYPE_IMPORTED)
layer_source = LayerSource.objects.get(sourcetype=LayerSource.TYPE_IMPORTED)
try:
layer, layer_created = Layer.objects.get_or_create(name=post_data['name'])
except MultipleObjectsReturned:
return HttpResponse(jsonfilter({"error": "hint-layer-exists"}), content_type = "application/json")
if layer:
if layer_created:
layer.layer_source = layer_source
layer.vcs_url = post_data['vcs_url']
layer.up_date = timezone.now()
layer.save()
else:
# We have an existing layer by this name, let's see if the git
# url is the same, if it is then we can just create a new layer
# version for this layer. Otherwise we need to bail out.
if layer.vcs_url != post_data['vcs_url']:
return HttpResponse(jsonfilter({"error": "hint-layer-exists-with-different-url" , "current_url" : layer.vcs_url, "current_id": layer.id }), content_type = "application/json")
layer_version, version_created = Layer_Version.objects.get_or_create(layer_source=layer_source, layer=layer, project=prj, up_branch_id=up_branch.id,branch=post_data['git_ref'], commit=post_data['git_ref'], dirpath=post_data['dir_path'])
if layer_version:
if not version_created:
return HttpResponse(jsonfilter({"error": "hint-layer-version-exists", "existing_layer_version": layer_version.id }), content_type = "application/json")
layer_version.up_date = timezone.now()
layer_version.save()
# Add the dependencies specified for this new layer
if (post_data.has_key("layer_deps") and
version_created and
len(post_data["layer_deps"]) > 0):
for layer_dep_id in post_data["layer_deps"].split(","):
layer_dep_obj = Layer_Version.objects.get(pk=layer_dep_id)
LayerVersionDependency.objects.get_or_create(layer_version=layer_version, depends_on=layer_dep_obj)
# Now add them to the project, we could get an execption
# if the project now contains the exact
# dependency already (like modified on another page)
try:
prj_layer, prj_layer_created = ProjectLayer.objects.get_or_create(layercommit=layer_dep_obj, project=prj)
except IntegrityError as e:
logger.warning("Integrity error while saving Project Layers: %s (original %s)" % (e, e.__cause__))
continue
if prj_layer_created:
layerdepdetailurl = reverse('layerdetails', args=(prj.id, layer_dep_obj.pk))
layers_added.append({'id': layer_dep_obj.id, 'name': Layer.objects.get(id=layer_dep_obj.layer_id).name, 'layerdetailurl': layerdepdetailurl })
# If an old layer version exists in our project then remove it
for prj_layers in ProjectLayer.objects.filter(project=prj):
dup_layer_v = Layer_Version.objects.filter(id=prj_layers.layercommit_id, layer_id=layer.id)
if len(dup_layer_v) >0 :
prj_layers.delete()
# finally add the imported layer (version id) to the project
ProjectLayer.objects.create(layercommit=layer_version, project=prj,optional=1)
else:
# We didn't create a layer version so back out now and clean up.
if layer_created:
layer.delete()
return HttpResponse(jsonfilter({"error": "Uncaught error: Could not create layer version"}), content_type = "application/json")
layerdetailurl = reverse('layerdetails', args=(prj.id, layer_version.pk))
json_response = {"error": "ok",
"imported_layer" : {
"name" : layer.name,
"id": layer_version.id,
"layerdetailurl": layerdetailurl,
},
"deps_added": layers_added }
return HttpResponse(jsonfilter(json_response), content_type = "application/json")
def xhr_updatelayer(request):
def error_response(error):
return HttpResponse(jsonfilter({"error": error}), content_type = "application/json")
if not request.POST.has_key("layer_version_id"):
return error_response("Please specify a layer version id")
try:
layer_version_id = request.POST["layer_version_id"]
layer_version = Layer_Version.objects.get(id=layer_version_id)
except Layer_Version.DoesNotExist:
return error_response("Cannot find layer to update")
if request.POST.has_key("vcs_url"):
layer_version.layer.vcs_url = request.POST["vcs_url"]
if request.POST.has_key("dirpath"):
layer_version.dirpath = request.POST["dirpath"]
if request.POST.has_key("commit"):
layer_version.commit = request.POST["commit"]
if request.POST.has_key("up_branch"):
layer_version.up_branch_id = int(request.POST["up_branch"])
if request.POST.has_key("add_dep"):
lvd = LayerVersionDependency(layer_version=layer_version, depends_on_id=request.POST["add_dep"])
lvd.save()
if request.POST.has_key("rm_dep"):
rm_dep = LayerVersionDependency.objects.get(layer_version=layer_version, depends_on_id=request.POST["rm_dep"])
rm_dep.delete()
if request.POST.has_key("summary"):
layer_version.layer.summary = request.POST["summary"]
if request.POST.has_key("description"):
layer_version.layer.description = request.POST["description"]
try:
layer_version.layer.save()
layer_version.save()
except Exception as e:
return error_response("Could not update layer version entry: %s" % e)
return HttpResponse(jsonfilter({"error": "ok",}), content_type = "application/json")
@xhr_response
def xhr_customrecipe(request):
"""
Custom image recipe REST API
Entry point: /xhr_customrecipe/
Method: POST
Args:
name: name of custom recipe to create
project: target project id of orm.models.Project
base: base recipe id of orm.models.Recipe
Returns:
{"error": "ok",
"url": }
or
{"error": }
"""
# check if request has all required parameters
for param in ('name', 'project', 'base'):
if param not in request.POST:
return {"error": "Missing parameter '%s'" % param}
# get project and baserecipe objects
params = {}
for name, model in [("project", Project),
("base", Recipe)]:
value = request.POST[name]
try:
params[name] = model.objects.get(id=value)
except model.DoesNotExist:
return {"error": "Invalid %s id %s" % (name, value)}
# create custom recipe
try:
# Only allowed chars in name are a-z, 0-9 and -
if re.search(r'[^a-z|0-9|-]', request.POST["name"]):
return {"error": "invalid-name"}
# Are there any recipes with the name already?
for existing_recipe in Recipe.objects.filter(
name=request.POST["name"]):
try:
ci = CustomImageRecipe.objects.get(pk=existing_recipe.pk)
if ci.project == params["project"]:
return {"error": "already-exists" }
else:
# It is a CustomImageRecipe but not in our project
# this is fine so
continue
except:
# It isn't a CustomImageRecipe so is a recipe from
# another source.
return {"error": "already-exists" }
# create layer 'Custom layer' and verion if needed
layer = Layer.objects.get_or_create(
name=CustomImageRecipe.LAYER_NAME,
summary="Layer for custom recipes",
vcs_url="file:///toaster_created_layer")[0]
# Check if we have a layer version already
# We don't use get_or_create here because the dirpath will change
# and is a required field
lver = Layer_Version.objects.filter(Q(project=params['project']) &
Q(layer=layer) &
Q(build=None)).last()
if lver == None:
lver, created = Layer_Version.objects.get_or_create(
project=params['project'],
layer=layer,
dirpath="toaster_created_layer")
# Add a dependency on our layer to the base recipe's layer
LayerVersionDependency.objects.get_or_create(
layer_version=lver,
depends_on=params["base"].layer_version)
# Add it to our current project if needed
ProjectLayer.objects.get_or_create(project=params['project'],
layercommit=lver,
optional=False)
# Create the actual recipe
recipe, created = CustomImageRecipe.objects.get_or_create(
name=request.POST["name"],
base_recipe=params["base"],
project=params["project"],
layer_version=lver,
is_image=True)
# If we created the object then setup these fields. They may get
# overwritten later on and cause the get_or_create to create a
# duplicate if they've changed.
if created:
recipe.file_path = request.POST["name"]
recipe.license = "MIT"
recipe.version = "0.1"
recipe.save()
except Error as err:
return {"error": "Can't create custom recipe: %s" % err}
# Find the package list from the last build of this recipe/target
target = Target.objects.filter(Q(build__outcome=Build.SUCCEEDED) &
Q(build__project=params['project']) &
(Q(target=params['base'].name) |
Q(target=recipe.name))).last()
if target:
# Copy in every package
# We don't want these packages to be linked to anything because
# that underlying data may change e.g. delete a build
for tpackage in target.target_installed_package_set.all():
try:
built_package = tpackage.package
# The package had no recipe information so is a ghost
# package skip it
if built_package.recipe == None:
continue;
config_package = CustomImagePackage.objects.get(
name=built_package.name)
recipe.includes_set.add(config_package)
except Exception as e:
logger.warning("Error adding package %s %s" %
(tpackage.package.name, e))
pass
return {"error": "ok",
"packages" : recipe.get_all_packages().count(),
"url": reverse('customrecipe', args=(params['project'].pk,
recipe.id))}
@xhr_response
def xhr_customrecipe_id(request, recipe_id):
"""
Set of ReST API processors working with recipe id.
Entry point: /xhr_customrecipe/
Methods:
GET - Get details of custom image recipe
DELETE - Delete custom image recipe
Returns:
GET:
{"error": "ok",
"info": dictionary of field name -> value pairs
of the CustomImageRecipe model}
DELETE:
{"error": "ok"}
or
{"error": }
"""
try:
custom_recipe = CustomImageRecipe.objects.get(id=recipe_id)
except CustomImageRecipe.DoesNotExist:
return {"error": "Custom recipe with id=%s "
"not found" % recipe_id}
if request.method == 'GET':
info = {"id" : custom_recipe.id,
"name" : custom_recipe.name,
"base_recipe_id": custom_recipe.base_recipe.id,
"project_id": custom_recipe.project.id,
}
return {"error": "ok", "info": info}
elif request.method == 'DELETE':
custom_recipe.delete()
return {"error": "ok"}
else:
return {"error": "Method %s is not supported" % request.method}
def customrecipe_download(request, pid, recipe_id):
recipe = get_object_or_404(CustomImageRecipe, pk=recipe_id)
file_data = recipe.generate_recipe_file_contents()
response = HttpResponse(file_data, content_type='text/plain')
response['Content-Disposition'] = \
'attachment; filename="%s_%s.bb"' % (recipe.name,
recipe.version)
return response
def _traverse_dependents(next_package_id, rev_deps, all_current_packages, tree_level=0):
"""
Recurse through reverse dependency tree for next_package_id.
Limit the reverse dependency search to packages not already scanned,
that is, not already in rev_deps.
Limit the scan to a depth (tree_level) not exceeding the count of
all packages in the custom image, and if that depth is exceeded
return False, pop out of the recursion, and write a warning
to the log, but this is unlikely, suggesting a dependency loop
not caught by bitbake.
On return, the input/output arg rev_deps is appended with queryset
dictionary elements, annotated for use in the customimage template.
The list has unsorted, but unique elements.
"""
max_dependency_tree_depth = all_current_packages.count()
if tree_level >= max_dependency_tree_depth:
logger.warning(
"The number of reverse dependencies "
"for this package exceeds " + max_dependency_tree_depth +
" and the remaining reverse dependencies will not be removed")
return True
package = CustomImagePackage.objects.get(id=next_package_id)
dependents = \
package.package_dependencies_target.annotate(
name=F('package__name'),
pk=F('package__pk'),
size=F('package__size'),
).values("name", "pk", "size").exclude(
~Q(pk__in=all_current_packages)
)
for pkg in dependents:
if pkg in rev_deps:
# already seen, skip dependent search
continue
rev_deps.append(pkg)
if (_traverse_dependents(
pkg["pk"], rev_deps, all_current_packages, tree_level+1)):
return True
return False
def _get_all_dependents(package_id, all_current_packages):
"""
Returns sorted list of recursive reverse dependencies for package_id,
as a list of dictionary items, by recursing through dependency
relationships.
"""
rev_deps = []
_traverse_dependents(package_id, rev_deps, all_current_packages)
rev_deps = sorted(rev_deps, key=lambda x: x["name"])
return rev_deps
@xhr_response
def xhr_customrecipe_packages(request, recipe_id, package_id):
"""
ReST API to add/remove packages to/from custom recipe.
Entry point: /xhr_customrecipe//packages/
Methods:
PUT - Add package to the recipe
DELETE - Delete package from the recipe
GET - Get package information
Returns:
{"error": "ok"}
or
{"error": }
"""
try:
recipe = CustomImageRecipe.objects.get(id=recipe_id)
except CustomImageRecipe.DoesNotExist:
return {"error": "Custom recipe with id=%s "
"not found" % recipe_id}
if package_id:
try:
package = CustomImagePackage.objects.get(id=package_id)
except Package.DoesNotExist:
return {"error": "Package with id=%s "
"not found" % package_id}
if request.method == 'GET':
# If no package_id then list the current packages
if not package_id:
total_size = 0
packages = recipe.get_all_packages().values("id",
"name",
"version",
"size")
for package in packages:
package['size_formatted'] = \
filtered_filesizeformat(package['size'])
total_size += package['size']
return {"error": "ok",
"packages" : list(packages),
"total" : len(packages),
"total_size" : total_size,
"total_size_formatted" :
filtered_filesizeformat(total_size)
}
else:
all_current_packages = recipe.get_all_packages()
# Dependencies for package which aren't satisfied by the
# current packages in the custom image recipe
deps = package.package_dependencies_source.annotate(
name=F('depends_on__name'),
pk=F('depends_on__pk'),
size=F('depends_on__size'),
).values("name", "pk", "size").filter(
# There are two depends types we don't know why
(Q(dep_type=Package_Dependency.TYPE_TRDEPENDS) |
Q(dep_type=Package_Dependency.TYPE_RDEPENDS)) &
~Q(pk__in=all_current_packages)
)
# Reverse dependencies which are needed by packages that are
# in the image. Recursive search providing all dependents,
# not just immediate dependents.
reverse_deps = _get_all_dependents(package_id, all_current_packages)
total_size_deps = 0
total_size_reverse_deps = 0
for dep in deps:
dep['size_formatted'] = \
filtered_filesizeformat(dep['size'])
total_size_deps += dep['size']
for dep in reverse_deps:
dep['size_formatted'] = \
filtered_filesizeformat(dep['size'])
total_size_reverse_deps += dep['size']
return {"error": "ok",
"id": package.pk,
"name": package.name,
"version": package.version,
"unsatisfied_dependencies": list(deps),
"unsatisfied_dependencies_size": total_size_deps,
"unsatisfied_dependencies_size_formatted":
filtered_filesizeformat(total_size_deps),
"reverse_dependencies": list(reverse_deps),
"reverse_dependencies_size": total_size_reverse_deps,
"reverse_dependencies_size_formatted":
filtered_filesizeformat(total_size_reverse_deps)}
included_packages = recipe.includes_set.values_list('pk', flat=True)
if request.method == 'PUT':
# If we're adding back a package which used to be included in this
# image all we need to do is remove it from the excludes
if package.pk in included_packages:
try:
recipe.excludes_set.remove(package)
return {"error": "ok"}
except Package.DoesNotExist:
return {"error":
"Package %s not found in excludes but was in "
"included list" % package.name}
else:
recipe.appends_set.add(package)
# Make sure that package is not in the excludes set
try:
recipe.excludes_set.remove(package)
except:
pass
# Add the dependencies we think will be added to the recipe
# as a result of appending this package.
# TODO this should recurse down the entire deps tree
for dep in package.package_dependencies_source.all_depends():
try:
cust_package = CustomImagePackage.objects.get(
name=dep.depends_on.name)
recipe.includes_set.add(cust_package)
try:
# When adding the pre-requisite package, make
# sure it's not in the excluded list from a
# prior removal.
recipe.excludes_set.remove(cust_package)
except Package.DoesNotExist:
# Don't care if the package had never been excluded
pass
except:
logger.warning("Could not add package's suggested"
"dependencies to the list")
return {"error": "ok"}
elif request.method == 'DELETE':
try:
# If we're deleting a package which is included we need to
# Add it to the excludes list.
if package.pk in included_packages:
recipe.excludes_set.add(package)
else:
recipe.appends_set.remove(package)
all_current_packages = recipe.get_all_packages()
reverse_deps_dictlist = _get_all_dependents(package.pk, all_current_packages)
ids = [entry['pk'] for entry in reverse_deps_dictlist]
reverse_deps = CustomImagePackage.objects.filter(id__in=ids)
for r in reverse_deps:
try:
if r.id in included_packages:
recipe.excludes_set.add(r)
else:
recipe.appends_set.remove(r)
except:
pass
return {"error": "ok"}
except CustomImageRecipe.DoesNotExist:
return {"error": "Tried to remove package that wasn't present"}
else:
return {"error": "Method %s is not supported" % request.method}
def importlayer(request, pid):
template = "importlayer.html"
context = {
'project': Project.objects.get(id=pid),
}
return render(request, template, context)
@_template_renderer('layerdetails.html')
def layerdetails(request, pid, layerid):
project = Project.objects.get(pk=pid)
layer_version = Layer_Version.objects.get(pk=layerid)
context = {'project' : project,
'layerversion' : layer_version,
'layerdeps' : {"list": [{"id": dep.id,
"name": dep.layer.name,
"layerdetailurl": reverse('layerdetails', args=(pid, dep.pk)),
"vcs_url": dep.layer.vcs_url,
"vcs_reference": dep.get_vcs_reference()} \
for dep in layer_version.get_alldeps(project.id)]},
'projectlayers': map(lambda prjlayer: prjlayer.layercommit.id, ProjectLayer.objects.filter(project=project))
}
return context
def get_project_configvars_context():
# Vars managed outside of this view
vars_managed = {
'MACHINE', 'BBLAYERS'
}
vars_blacklist = {
'PARALLEL_MAKE','BB_NUMBER_THREADS',
'BB_DISKMON_DIRS','BB_NUMBER_THREADS','CVS_PROXY_HOST','CVS_PROXY_PORT',
'PARALLEL_MAKE','SSTATE_MIRRORS','TMPDIR',
'all_proxy','ftp_proxy','http_proxy ','https_proxy'
}
vars_fstypes = Target_Image_File.SUFFIXES
return(vars_managed,sorted(vars_fstypes),vars_blacklist)
@_template_renderer("projectconf.html")
def projectconf(request, pid):
try:
prj = Project.objects.get(id = pid)
except Project.DoesNotExist:
return HttpResponseNotFound("Project id " + pid + " is unavailable
")
# remove blacklist and externally managed varaibles from this list
vars_managed,vars_fstypes,vars_blacklist = get_project_configvars_context()
configvars = ProjectVariable.objects.filter(project_id = pid).all()
for var in vars_managed:
configvars = configvars.exclude(name = var)
for var in vars_blacklist:
configvars = configvars.exclude(name = var)
context = {
'project': prj,
'configvars': configvars,
'vars_managed': vars_managed,
'vars_fstypes': vars_fstypes,
'vars_blacklist': vars_blacklist,
}
try:
context['distro'] = ProjectVariable.objects.get(project = prj, name = "DISTRO").value
context['distro_defined'] = "1"
except ProjectVariable.DoesNotExist:
pass
try:
if ProjectVariable.objects.get(project = prj, name = "DL_DIR").value == "${TOPDIR}/../downloads":
be = BuildEnvironment.objects.get(pk = str(1))
dl_dir = os.path.join(dirname(be.builddir), "downloads")
context['dl_dir'] = dl_dir
pv, created = ProjectVariable.objects.get_or_create(project = prj, name = "DL_DIR")
pv.value = dl_dir
pv.save()
else:
context['dl_dir'] = ProjectVariable.objects.get(project = prj, name = "DL_DIR").value
context['dl_dir_defined'] = "1"
except ProjectVariable.DoesNotExist,BuildEnvironment.DoesNotExist:
pass
try:
context['fstypes'] = ProjectVariable.objects.get(project = prj, name = "IMAGE_FSTYPES").value
context['fstypes_defined'] = "1"
except ProjectVariable.DoesNotExist:
pass
try:
context['image_install_append'] = ProjectVariable.objects.get(project = prj, name = "IMAGE_INSTALL_append").value
context['image_install_append_defined'] = "1"
except ProjectVariable.DoesNotExist:
pass
try:
context['package_classes'] = ProjectVariable.objects.get(project = prj, name = "PACKAGE_CLASSES").value
context['package_classes_defined'] = "1"
except ProjectVariable.DoesNotExist:
pass
try:
if ProjectVariable.objects.get(project = prj, name = "SSTATE_DIR").value == "${TOPDIR}/../sstate-cache":
be = BuildEnvironment.objects.get(pk = str(1))
sstate_dir = os.path.join(dirname(be.builddir), "sstate-cache")
context['sstate_dir'] = sstate_dir
pv, created = ProjectVariable.objects.get_or_create(project = prj, name = "SSTATE_DIR")
pv.value = sstate_dir
pv.save()
else:
context['sstate_dir'] = ProjectVariable.objects.get(project = prj, name = "SSTATE_DIR").value
context['sstate_dir_defined'] = "1"
except ProjectVariable.DoesNotExist, BuildEnvironment.DoesNotExist:
pass
return context
def _file_names_for_artifact(build, artifact_type, artifact_id):
"""
Return a tuple (file path, file name for the download response) for an
artifact of type artifact_type with ID artifact_id for build; if
artifact type is not supported, returns (None, None)
"""
file_name = None
response_file_name = None
if artifact_type == "cookerlog":
file_name = build.cooker_log_path
response_file_name = "cooker.log"
elif artifact_type == "imagefile":
file_name = Target_Image_File.objects.get(target__build = build, pk = artifact_id).file_name
elif artifact_type == "buildartifact":
file_name = BuildArtifact.objects.get(build = build, pk = artifact_id).file_name
elif artifact_type == "licensemanifest":
file_name = Target.objects.get(build = build, pk = artifact_id).license_manifest_path
elif artifact_type == "tasklogfile":
file_name = Task.objects.get(build = build, pk = artifact_id).logfile
elif artifact_type == "logmessagefile":
file_name = LogMessage.objects.get(build = build, pk = artifact_id).pathname
if file_name and not response_file_name:
response_file_name = os.path.basename(file_name)
return (file_name, response_file_name)
def build_artifact(request, build_id, artifact_type, artifact_id):
"""
View which returns a build artifact file as a response
"""
file_name = None
response_file_name = None
try:
build = Build.objects.get(pk = build_id)
file_name, response_file_name = _file_names_for_artifact(
build, artifact_type, artifact_id
)
if file_name and response_file_name:
fsock = open(file_name, "r")
content_type = MimeTypeFinder.get_mimetype(file_name)
response = HttpResponse(fsock, content_type = content_type)
disposition = "attachment; filename=" + response_file_name
response["Content-Disposition"] = disposition
return response
else:
return render(request, "unavailable_artifact.html")
except ObjectDoesNotExist, IOError:
return render(request, "unavailable_artifact.html")