import crypt import json import os import re import socket import subprocess import time from bisect import insort from accounts.models import UserInstance, UserSSHKey from admin.decorators import superuser_only from appsettings.models import AppSettings from appsettings.settings import app_settings from computes.models import Compute from django.conf import settings from django.contrib import messages from django.contrib.auth.decorators import permission_required from django.contrib.auth.models import User from django.http import Http404, HttpResponse, JsonResponse from django.shortcuts import get_object_or_404, redirect, render from django.urls import reverse from django.utils.translation import gettext_noop as _ from libvirt import (VIR_DOMAIN_UNDEFINE_KEEP_NVRAM, VIR_DOMAIN_UNDEFINE_NVRAM, VIR_DOMAIN_START_PAUSED, libvirtError) from logs.views import addlogmsg from vrtManager import util from vrtManager.create import wvmCreate from vrtManager.instance import wvmInstances from vrtManager.interface import wvmInterface from vrtManager.storage import wvmStorage from vrtManager.util import randomPasswd from instances.models import Instance from . import utils from .forms import ConsoleForm, FlavorForm, NewVMForm from .models import Flavor def index(request): instances = None computes = ( Compute.objects.all() .order_by("name") .prefetch_related("instance_set") .prefetch_related("instance_set__userinstance_set") ) for compute in computes: utils.refr(compute) if request.user.is_superuser or request.user.has_perm("instances.view_instances"): instances = Instance.objects.all().prefetch_related("userinstance_set") else: instances = Instance.objects.filter( userinstance__user=request.user ).prefetch_related("userinstance_set") return render( request, "allinstances.html", {"computes": computes, "instances": instances} ) def instance(request, pk): instance: Instance = get_instance(request.user, pk) compute: Compute = instance.compute computes = Compute.objects.all().order_by("name") computes_count = computes.count() users = User.objects.all().order_by("username") publickeys = UserSSHKey.objects.filter(user_id=request.user.id) keymaps = settings.QEMU_KEYMAPS console_types = AppSettings.objects.get( key="QEMU_CONSOLE_DEFAULT_TYPE" ).choices_as_list() console_form = ConsoleForm( initial={ "type": instance.console_type, "listen_on": instance.console_listener_address, "password": instance.console_passwd, "keymap": instance.console_keymap, } ) console_listener_addresses = settings.QEMU_CONSOLE_LISTENER_ADDRESSES bottom_bar = app_settings.VIEW_INSTANCE_DETAIL_BOTTOM_BAR allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) try: userinstance = UserInstance.objects.get( instance__compute_id=compute.id, instance__name=instance.name, user__id=request.user.id, ) except UserInstance.DoesNotExist: userinstance = None memory_range = [256, 512, 768, 1024, 2048, 3072, 4096, 6144, 8192, 16384] if instance.memory not in memory_range: insort(memory_range, instance.memory) if instance.cur_memory not in memory_range: insort(memory_range, instance.cur_memory) clone_free_names = utils.get_clone_free_names() user_quota_msg = utils.check_user_quota(request.user, 0, 0, 0, 0) default_bus = app_settings.INSTANCE_VOLUME_DEFAULT_BUS default_io = app_settings.INSTANCE_VOLUME_DEFAULT_IO default_discard = app_settings.INSTANCE_VOLUME_DEFAULT_DISCARD default_zeroes = app_settings.INSTANCE_VOLUME_DEFAULT_DETECT_ZEROES default_cache = app_settings.INSTANCE_VOLUME_DEFAULT_CACHE default_format = app_settings.INSTANCE_VOLUME_DEFAULT_FORMAT # default_disk_owner_uid = int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_UID) # default_disk_owner_gid = int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_GID) # clone_instance_auto_name = app_settings.CLONE_INSTANCE_AUTO_NAME # try: # instance = Instance.objects.get(compute=compute, name=vname) # if instance.uuid != uuid: # instance.uuid = uuid # instance.save() # msg = _(f"Fixing UUID {uuid}") # addlogmsg(request.user.username, instance.compute.name, instance.name, msg) # except Instance.DoesNotExist: # instance = Instance(compute=compute, name=vname, uuid=uuid) # instance.save() # msg = _("Instance does not exist: Creating new instance") # addlogmsg(request.user.username, instance.compute.name, instance.name, msg) # userinstances = UserInstance.objects.filter(instance=instance).order_by('user__username') userinstances = instance.userinstance_set.order_by("user__username") allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) # Host resources vcpu_host = len(instance.vcpu_range) memory_host = instance.proxy.get_max_memory() bus_host = instance.proxy.get_disk_bus_types(instance.arch, instance.machine) networks_host = sorted(instance.proxy.get_networks()) interfaces_host = sorted(instance.proxy.get_ifaces()) nwfilters_host = instance.proxy.get_nwfilters() storages_host = sorted(instance.proxy.get_storages(True)) net_models_host = instance.proxy.get_network_models() if app_settings.VM_DRBD_STATUS == "True": instance.drbd = drbd_status(request, pk) instance.save() return render(request, "instance.html", locals(),) def status(request, pk): instance = get_instance(request.user, pk) return JsonResponse({"status": instance.proxy.get_status()}) def drbd_status(request, pk): instance = get_instance(request.user, pk) result = "None DRBD" if instance.compute.type == 2: conn = instance.compute.login + "@" + instance.compute.hostname remoteDrbdStatus = subprocess.run( ["ssh", conn, "sudo", "/usr/sbin/drbdadm", "status", "&&", "exit"], stdout=subprocess.PIPE, text=True, ) if remoteDrbdStatus.stdout: try: instanceFindDrbd = re.compile( instance.name + "[_]*[A-Z]* role:(.+?)\n disk:(.+?)\n", re.IGNORECASE, ) instanceDrbd = instanceFindDrbd.findall(remoteDrbdStatus.stdout) primaryCount = 0 secondaryCount = 0 statusDisk = "OK" for disk in instanceDrbd: if disk[0] == "Primary": primaryCount = primaryCount + 1 elif disk[0] == "Secondary": secondaryCount = secondaryCount + 1 if disk[1] != "UpToDate": statusDisk = "NOK" if primaryCount > 0 and secondaryCount > 0: statusRole = "NOK" else: if primaryCount > secondaryCount: statusRole = "Primary" else: statusRole = "Secondary" result = statusRole + "/" + statusDisk except: print("Error to get drbd role and status") return result def stats(request, pk): instance = get_instance(request.user, pk) json_blk = [] json_net = [] # TODO: stats are inaccurate cpu_usage = instance.proxy.cpu_usage() mem_usage = instance.proxy.mem_usage() blk_usage = instance.proxy.disk_usage() net_usage = instance.proxy.net_usage() current_time = time.strftime("%H:%M:%S") for blk in blk_usage: json_blk.append( { "dev": blk["dev"], "data": [int(blk["rd"]) / 1048576, int(blk["wr"]) / 1048576], } ) for net in net_usage: json_net.append( { "dev": net["dev"], "data": [int(net["rx"]) / 1048576, int(net["tx"]) / 1048576], } ) return JsonResponse( { "cpudata": int(cpu_usage["cpu"]), "memdata": mem_usage, "blkdata": json_blk, "netdata": json_net, "timeline": current_time, } ) def osinfo(request, pk): instance = get_instance(request.user, pk) results = instance.proxy.osinfo() return JsonResponse(results) def guess_mac_address(request, vname): data = {"vname": vname} mac = utils.get_dhcp_mac_address(vname) if not mac: mac = utils.get_random_mac_address() data["mac"] = mac return HttpResponse(json.dumps(data)) def random_mac_address(request): data = dict() data["mac"] = utils.get_random_mac_address() return HttpResponse(json.dumps(data)) def guess_clone_name(request): dhcp_file = "/srv/webvirtcloud/dhcpd.conf" prefix = app_settings.CLONE_INSTANCE_DEFAULT_PREFIX if os.path.isfile(dhcp_file): instance_names = [ i.name for i in Instance.objects.filter(name__startswith=prefix) ] with open(dhcp_file, "r") as f: for line in f: line = line.strip() if f"host {prefix}" in line: fqdn = line.split(" ")[1] hostname = fqdn.split(".")[0] if hostname.startswith(prefix) and hostname not in instance_names: return HttpResponse(json.dumps({"name": hostname})) return HttpResponse(json.dumps({})) def check_instance(request, vname): instance = Instance.objects.filter(name=vname) data = {"vname": vname, "exists": False} if instance: data["exists"] = True return JsonResponse(data) def sshkeys(request, pk): """ :param request: :param vname: :return: """ instance = get_instance(request.user, pk) instance_keys = [] userinstances = UserInstance.objects.filter(instance=instance) for ui in userinstances: keys = UserSSHKey.objects.filter(user=ui.user) for k in keys: instance_keys.append(k.keypublic) if request.GET.get("plain", ""): response = "\n".join(instance_keys) response += "\n" else: response = json.dumps(instance_keys) return HttpResponse(response) def get_instance(user, pk): """ Check that instance is available for user, if not raise 404 """ instance = get_object_or_404(Instance, pk=pk) user_instances = user.userinstance_set.all().values_list("instance", flat=True) if ( user.is_superuser or user.has_perm("instances.view_instances") or instance.id in user_instances ): return instance else: raise Http404() def poweron(request, pk): instance = get_instance(request.user, pk) if instance.is_template: messages.warning(request, _("Templates cannot be started.")) else: instance.proxy.start() addlogmsg( request.user.username, instance.compute.name, instance.name, _("Power On") ) return redirect(request.META.get("HTTP_REFERER")) def powercycle(request, pk): instance = get_instance(request.user, pk) instance.proxy.force_shutdown() instance.proxy.start() addlogmsg( request.user.username, instance.compute.name, instance.name, _("Power Cycle") ) return redirect(request.META.get("HTTP_REFERER")) def poweroff(request, pk): instance = get_instance(request.user, pk) instance.proxy.shutdown() addlogmsg( request.user.username, instance.compute.name, instance.name, _("Power Off") ) return redirect(request.META.get("HTTP_REFERER")) @superuser_only def suspend(request, pk): instance = get_instance(request.user, pk) instance.proxy.suspend() addlogmsg(request.user.username, instance.compute.name, instance.name, _("Suspend")) return redirect(request.META.get("HTTP_REFERER")) @superuser_only def resume(request, pk): instance = get_instance(request.user, pk) instance.proxy.resume() addlogmsg(request.user.username, instance.compute.name, instance.name, _("Resume")) return redirect(request.META.get("HTTP_REFERER")) def force_off(request, pk): instance = get_instance(request.user, pk) instance.proxy.force_shutdown() addlogmsg( request.user.username, instance.compute.name, instance.name, _("Force Off") ) return redirect(request.META.get("HTTP_REFERER")) def destroy(request, pk): instance = get_instance(request.user, pk) try: userinstance = instance.userinstance_set.get(user=request.user) except Exception: userinstance = UserInstance(is_delete=request.user.is_superuser) if request.method in ["POST", "DELETE"] and userinstance.is_delete: if instance.proxy.get_status() == 1: instance.proxy.force_shutdown() if request.POST.get("delete_disk", ""): snapshots = sorted( instance.proxy.get_snapshot(), reverse=True, key=lambda k: k["date"] ) for snapshot in snapshots: instance.proxy.snapshot_delete(snapshot["name"]) instance.proxy.delete_all_disks() if request.POST.get("delete_nvram", ""): instance.proxy.delete(VIR_DOMAIN_UNDEFINE_NVRAM) else: instance.proxy.delete(VIR_DOMAIN_UNDEFINE_KEEP_NVRAM) instance.delete() addlogmsg( request.user.username, instance.compute.name, instance.name, _("Destroy") ) return redirect(reverse("instances:index")) return render( request, "instances/destroy_instance_form.html", { "instance": instance, "userinstance": userinstance, }, ) @superuser_only def migrate(request, pk): instance = get_instance(request.user, pk) compute_id = request.POST.get("compute_id", "") live = request.POST.get("live_migrate", False) unsafe = request.POST.get("unsafe_migrate", False) xml_del = request.POST.get("xml_delete", False) offline = request.POST.get("offline_migrate", False) autoconverge = request.POST.get("autoconverge", False) compress = request.POST.get("compress", False) postcopy = request.POST.get("postcopy", False) current_host = instance.compute.hostname target_host = Compute.objects.get(id=compute_id) try: utils.migrate_instance( target_host, instance, request.user, live, unsafe, xml_del, offline, autoconverge, compress, postcopy, ) except libvirtError as err: messages.error(request, err) migration_method = "live" if live is True else "offline" msg = _("Instance is migrated(%(method)s) to %(hostname)s") % { "hostname": target_host.hostname, "method": migration_method, } addlogmsg(request.user.username, current_host, instance.name, msg) return redirect(request.META.get("HTTP_REFERER")) def set_root_pass(request, pk): instance = get_instance(request.user, pk) if request.method == "POST": passwd = request.POST.get("passwd", None) if passwd: passwd_hash = crypt.crypt(passwd, "$6$kgPoiREy") data = {"action": "password", "passwd": passwd_hash, "vname": instance.name} if instance.proxy.get_status() == 5: s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect((instance.compute.hostname, 16510)) s.send(bytes(json.dumps(data).encode())) d = s.recv(1024).strip() result = json.loads(d) s.close() if result["return"] == "success": msg = _("Reset root password") addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) messages.success(request, msg) else: messages.error(request, result["message"]) else: msg = _("Please shutdown down your instance and then try again") messages.error(request, msg) return redirect(reverse("instances:instance", args=[instance.id]) + "#access") def add_public_key(request, pk): instance = get_instance(request.user, pk) if request.method == "POST": sshkeyid = request.POST.get("sshkeyid", "") publickey = UserSSHKey.objects.get(id=sshkeyid) data = { "action": "publickey", "key": publickey.keypublic, "vname": instance.name, } if instance.proxy.get_status() == 5: s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect((instance.compute.hostname, 16510)) s.send(json.dumps(data).encode()) result = json.loads(s.recv(1024)) s.close() if result["return"] == "error": msg = result["message"] else: msg = _("Installed new SSH public key %(keyname)s") % { "keyname": publickey.keyname } addlogmsg(request.user.username, instance.compute.name, instance.name, msg) if result["return"] == "success": messages.success(request, msg) else: messages.error(request, msg) else: msg = _("Please shutdown down your instance and then try again") messages.error(request, msg) return redirect(reverse("instances:instance", args=[instance.id]) + "#access") def resizevm_cpu(request, pk): instance = get_instance(request.user, pk) try: userinstance = instance.userinstance_set.get(user=request.user) except Exception: userinstance = UserInstance(is_change=False) vcpu = instance.proxy.get_vcpu() if request.method == "POST": if request.user.is_superuser or request.user.is_staff or userinstance.is_change: new_vcpu = request.POST.get("vcpu", "") new_cur_vcpu = request.POST.get("cur_vcpu", "") quota_msg = utils.check_user_quota( request.user, 0, int(new_vcpu) - vcpu, 0, 0 ) if not request.user.is_superuser and quota_msg: msg = _( "User %(quota_msg)s quota reached, cannot resize CPU of '%(instance_name)s'!" ) % { "quota_msg": quota_msg, "instance_name": instance.name, } messages.error(request, msg) else: cur_vcpu = new_cur_vcpu vcpu = new_vcpu instance.proxy.resize_cpu(cur_vcpu, vcpu) msg = _("CPU is resized: %(old)s to %(new)s") % { "old": cur_vcpu, "new": vcpu, } addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) messages.success(request, msg) return redirect(reverse("instances:instance", args=[instance.id]) + "#resize") def resize_memory(request, pk): instance = get_instance(request.user, pk) try: userinstance = instance.userinstance_set.get(user=request.user) except Exception: userinstance = UserInstance(is_change=False) memory = instance.proxy.get_memory() cur_memory = instance.proxy.get_cur_memory() if request.method == "POST": if request.user.is_superuser or request.user.is_staff or userinstance.is_change: new_memory = request.POST.get("memory", "") new_memory_custom = request.POST.get("memory_custom", "") if new_memory_custom: new_memory = new_memory_custom new_cur_memory = request.POST.get("cur_memory", "") new_cur_memory_custom = request.POST.get("cur_memory_custom", "") if new_cur_memory_custom: new_cur_memory = new_cur_memory_custom quota_msg = utils.check_user_quota( request.user, 0, 0, int(new_memory) - memory, 0 ) if not request.user.is_superuser and quota_msg: msg = _( "User %(quota_msg)s quota reached, cannot resize memory of '%(instance_name)s'!" ) % { "quota_msg": quota_msg, "instance_name": instance.name, } messages.error(request, msg) else: instance.proxy.resize_mem(new_cur_memory, new_memory) msg = _( "Memory is resized: current/max: %(old_cur)s/%(old_max)s to %(new_cur)s/%(new_max)s" ) % { "old_cur": cur_memory, "old_max": memory, "new_cur": new_cur_memory, "new_max": new_memory, } addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) messages.success(request, msg) return redirect(reverse("instances:instance", args=[instance.id]) + "#resize") def resize_disk(request, pk): instance = get_instance(request.user, pk) try: userinstance = instance.userinstance_set.get(user=request.user) except Exception: userinstance = UserInstance(is_change=False) disks = instance.proxy.get_disk_devices() if request.method == "POST": if request.user.is_superuser or request.user.is_staff or userinstance.is_change: disks_new = list() for disk in disks: input_disk_size = ( int(request.POST.get("disk_size_" + disk["dev"], "0")) * 1073741824 ) if input_disk_size > disk["size"] + (64 << 20): disk["size_new"] = input_disk_size disks_new.append(disk) disk_sum = sum([disk["size"] >> 30 for disk in disks_new]) disk_new_sum = sum([disk["size_new"] >> 30 for disk in disks_new]) quota_msg = utils.check_user_quota( request.user, 0, 0, 0, disk_new_sum - disk_sum ) if not request.user.is_superuser and quota_msg: msg = _( "User %(quota_msg)s quota reached, cannot resize disks of '%(instance_name)s'!" ) % { "quota_msg": quota_msg, "instance_name": instance.name, } messages.error(request, msg) else: instance.proxy.resize_disk(disks_new) msg = _("Disk is resized: %(dev)s") % {"dev": disk["dev"]} addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) messages.success(request, msg) return redirect(reverse("instances:instance", args=[instance.id]) + "#resize") def add_new_vol(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: media = instance.proxy.get_media_devices() disks = instance.proxy.get_disk_devices() conn_create = wvmCreate( instance.compute.hostname, instance.compute.login, instance.compute.password, instance.compute.type, ) storage = request.POST.get("storage", "") name = request.POST.get("name", "") format = request.POST.get("format", app_settings.INSTANCE_VOLUME_DEFAULT_FORMAT) size = request.POST.get("size", 0) meta_prealloc = True if request.POST.get("meta_prealloc", False) else False bus = request.POST.get("bus", app_settings.INSTANCE_VOLUME_DEFAULT_BUS) cache = request.POST.get("cache", app_settings.INSTANCE_VOLUME_DEFAULT_CACHE) target_dev = utils.get_new_disk_dev(media, disks, bus) source = conn_create.create_volume( storage, name, size, format, meta_prealloc, int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_UID), int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_GID), ) conn_pool = wvmStorage( instance.compute.hostname, instance.compute.login, instance.compute.password, instance.compute.type, storage, ) pool_type = conn_pool.get_type() disk_type = conn_pool.get_volume_type(os.path.basename(source)) if pool_type == "rbd": source_info = conn_pool.get_rbd_source() else: # add more disk types to handle different pool and disk types source_info = None instance.proxy.attach_disk( target_dev, source, source_info=source_info, pool_type=pool_type, disk_type=disk_type, target_bus=bus, format_type=format, cache_mode=cache, ) msg = _("Attach new disk: %(name)s (%(format)s)") % { "name": name, "format": format, } addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def add_existing_vol(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: storage = request.POST.get("selected_storage", "") name = request.POST.get("vols", "") bus = request.POST.get("bus", app_settings.INSTANCE_VOLUME_DEFAULT_BUS) cache = request.POST.get("cache", app_settings.INSTANCE_VOLUME_DEFAULT_CACHE) media = instance.proxy.get_media_devices() disks = instance.proxy.get_disk_devices() conn_create = wvmStorage( instance.compute.hostname, instance.compute.login, instance.compute.password, instance.compute.type, storage, ) format_type = conn_create.get_volume_format_type(name) disk_type = conn_create.get_volume_type(name) pool_type = conn_create.get_type() if pool_type == "rbd": source_info = conn_create.get_rbd_source() path = conn_create.get_source_name() else: source_info = None path = conn_create.get_target_path() target_dev = utils.get_new_disk_dev(media, disks, bus) source = f"{path}/{name}" instance.proxy.attach_disk( target_dev, source, source_info=source_info, pool_type=pool_type, disk_type=disk_type, target_bus=bus, format_type=format_type, cache_mode=cache, ) msg = _("Attach Existing disk: %(target_dev)s") % {"target_dev": target_dev} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def edit_volume(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if "edit_volume" in request.POST and allow_admin_or_not_template: target_dev = request.POST.get("dev", "") new_path = request.POST.get("vol_path", "") shareable = bool(request.POST.get("vol_shareable", False)) readonly = bool(request.POST.get("vol_readonly", False)) disk_type = request.POST.get("vol_type", "") bus = request.POST.get("vol_bus_old", "") new_bus = request.POST.get("vol_bus", bus) serial = request.POST.get("vol_serial", "") format = request.POST.get("vol_format", "") cache = request.POST.get( "vol_cache", app_settings.INSTANCE_VOLUME_DEFAULT_CACHE ) io = request.POST.get("vol_io_mode", app_settings.INSTANCE_VOLUME_DEFAULT_IO) discard = request.POST.get( "vol_discard_mode", app_settings.INSTANCE_VOLUME_DEFAULT_DISCARD ) zeroes = request.POST.get( "vol_detect_zeroes", app_settings.INSTANCE_VOLUME_DEFAULT_DETECT_ZEROES ) new_target_dev = utils.get_new_disk_dev(instance.media, instance.disks, new_bus) if new_bus != bus: instance.proxy.detach_disk(target_dev) instance.proxy.attach_disk( new_target_dev, new_path, target_bus=new_bus, driver_type=format, cache_mode=cache, readonly=readonly, shareable=shareable, serial=serial, io_mode=io, discard_mode=discard, detect_zeroes_mode=zeroes, ) else: instance.proxy.edit_disk( target_dev, new_path, readonly, shareable, new_bus, serial, format, cache, io, discard, zeroes, ) if not instance.proxy.get_status() == 5: messages.success( request, _( "Volume changes are applied. " + "But it will be activated after shutdown" ), ) else: messages.success(request, _("Volume is changed successfully.")) msg = _("Edit disk: %(target_dev)s") % {"target_dev": target_dev} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def delete_vol(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: storage = request.POST.get("storage", "") conn_delete = wvmStorage( instance.compute.hostname, instance.compute.login, instance.compute.password, instance.compute.type, storage, ) dev = request.POST.get("dev", "") path = request.POST.get("path", "") name = request.POST.get("name", "") msg = _("Delete disk: %(dev)s") % {"dev": dev} instance.proxy.detach_disk(dev) conn_delete.del_volume(name) addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def detach_vol(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: dev = request.POST.get("dev", "") path = request.POST.get("path", "") instance.proxy.detach_disk(dev) msg = _("Detach disk: %(dev)s") % {"dev": dev} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def add_cdrom(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: bus = request.POST.get("bus", "ide" if instance.machine == "pc" else "sata") target = utils.get_new_disk_dev(instance.media, instance.disks, bus) instance.proxy.attach_disk( target, "", disk_device="cdrom", cache_mode="none", target_bus=bus, readonly=True, ) msg = _("Add CD-ROM: %(target)s") % {"target": target} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def detach_cdrom(request, pk, dev): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: # dev = request.POST.get('detach_cdrom', '') instance.proxy.detach_disk(dev) msg = _("Detach CD-ROM: %(dev)s") % {"dev": dev} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def unmount_iso(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: image = request.POST.get("path", "") dev = request.POST.get("umount_iso", "") instance.proxy.umount_iso(dev, image) msg = _("Mount media: %(dev)s") % {"dev": dev} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def mount_iso(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template: image = request.POST.get("media", "") dev = request.POST.get("mount_iso", "") instance.proxy.mount_iso(dev, image) msg = _("Unmount media: %(dev)s") % {"dev": dev} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#disks") def snapshot(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template and request.user.has_perm( "instances.snapshot_instances" ): name = request.POST.get("name", "") desc = request.POST.get("description", "") instance.proxy.create_snapshot(name, desc) msg = _("Create snapshot: %(snap)s") % {"snap": name} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#managesnapshot") def delete_snapshot(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template and request.user.has_perm( "instances.snapshot_instances" ): snap_name = request.POST.get("name", "") instance.proxy.snapshot_delete(snap_name) msg = _("Delete snapshot: %(snap)s") % {"snap": snap_name} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#managesnapshot") def revert_snapshot(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template and request.user.has_perm( "instances.snapshot_instances" ): snap_name = request.POST.get("name", "") instance.proxy.snapshot_revert(snap_name) msg = _("Successful revert snapshot: ") msg += snap_name messages.success(request, msg) msg = _("Revert snapshot: %(snap)s") % {"snap": snap_name} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#managesnapshot") def create_external_snapshot(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template and request.user.has_perm( "instances.snapshot_instances" ): name = request.POST.get("name", "") desc = request.POST.get("description", "") instance.proxy.create_external_snapshot("s1." + name, instance, desc=desc) msg = _("Create external snapshot: %(snap)s") % {"snap": name} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#managesnapshot") def get_external_snapshots(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template and request.user.has_perm( "instances.snapshot_instances" ): external_snapshots = instance.proxy.get_external_snapshots() return external_snapshots def revert_external_snapshot(request, pk): instance = get_instance(request.user, pk) allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template and request.user.has_perm( "instances.snapshot_instances" ): instance_state = True if instance.proxy.get_status() != 5 else False name = request.POST.get("name", "") date = request.POST.get("date", "") desc = request.POST.get("desc", "") instance.proxy.force_shutdown() if instance_state else None instance.proxy.revert_external_snapshot(name, date, desc) instance.proxy.start() if instance_state else None msg = _("Revert external snapshot: %(snap)s") % {"snap": name} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#managesnapshot") def delete_external_snapshot(request, pk): instance = get_instance(request.user, pk) instance_state = True if instance.proxy.get_status() == 5 else False allow_admin_or_not_template = ( request.user.is_superuser or request.user.is_staff or not instance.is_template ) if allow_admin_or_not_template and request.user.has_perm( "instances.snapshot_instances" ): name = request.POST.get("name", "") instance.proxy.start(VIR_DOMAIN_START_PAUSED) if instance_state else None try: instance.proxy.delete_external_snapshot(name) msg = _("Delete external snapshot: %(snap)s") % {"snap": name} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) finally: instance.proxy.force_shutdown() if instance_state else None return redirect(request.META.get("HTTP_REFERER") + "#managesnapshot") @superuser_only def set_vcpu(request, pk): instance = get_instance(request.user, pk) id = request.POST.get("id", "") enabled = request.POST.get("set_vcpu", "") if enabled == "True": instance.proxy.set_vcpu(id, 1) else: instance.proxy.set_vcpu(id, 0) msg = _("VCPU %(id)s is enabled=%(enabled)s") % {"id": id, "enabled": enabled} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#resize") @superuser_only def set_vcpu_hotplug(request, pk): instance = get_instance(request.user, pk) status = True if request.POST.get("vcpu_hotplug", "False") == "True" else False msg = _("VCPU Hot-plug is enabled=%(status)s") % {"status": status} instance.proxy.set_vcpu_hotplug(status) addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#resize") @superuser_only def set_autostart(request, pk): instance = get_instance(request.user, pk) instance.proxy.set_autostart(1) msg = _("Set autostart") addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#boot_opt") @superuser_only def unset_autostart(request, pk): instance = get_instance(request.user, pk) instance.proxy.set_autostart(0) msg = _("Unset autostart") addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#boot_opt") @superuser_only def set_bootmenu(request, pk): instance = get_instance(request.user, pk) instance.proxy.set_bootmenu(1) msg = _("Enable boot menu") addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#boot_opt") @superuser_only def unset_bootmenu(request, pk): instance = get_instance(request.user, pk) instance.proxy.set_bootmenu(0) msg = _("Disable boot menu") addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#boot_opt") @superuser_only def set_bootorder(request, pk): instance = get_instance(request.user, pk) bootorder = request.POST.get("bootorder", "") if bootorder: order_list = {} for idx, val in enumerate(bootorder.split(",")): dev_type, dev = val.split(":", 1) order_list[idx] = {"type": dev_type, "dev": dev} instance.proxy.set_bootorder(order_list) msg = _("Set boot order") if not instance.proxy.get_status() == 5: messages.success( request, _( "Boot menu changes applied. " + "But it will be activated after shutdown" ), ) else: messages.success(request, _("Boot order changed successfully.")) addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#boot_opt") @superuser_only def change_xml(request, pk): instance = get_instance(request.user, pk) new_xml = request.POST.get("inst_xml", "") if new_xml: instance.proxy._defineXML(new_xml) msg = _("Change instance XML") addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#xmledit") @superuser_only def set_guest_agent(request, pk): instance = get_instance(request.user, pk) status = request.POST.get("guest_agent") if status == "True": instance.proxy.add_guest_agent() if status == "False": instance.proxy.remove_guest_agent() msg = _("Set Guest Agent: %(status)s") % {"status": status} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#options") @superuser_only def set_video_model(request, pk): instance = get_instance(request.user, pk) video_model = request.POST.get("video_model", "vga") instance.proxy.set_video_model(video_model) msg = _("Set Video Model: %(model)s") % {"model": video_model} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#options") @superuser_only def change_network(request, pk): instance = get_instance(request.user, pk) msg = _("Change network") network_data = {} for post in request.POST: if post.startswith("net-source-"): (source, source_type) = utils.get_network_tuple(request.POST.get(post)) network_data[post] = source network_data[post + "-type"] = source_type if source_type == "iface": iface = wvmInterface( instance.compute.hostname, instance.compute.login, instance.compute.password, instance.compute.type, source, ) network_data[post + "-type"] = iface.get_type() elif post.startswith("net-"): network_data[post] = request.POST.get(post, "") instance.proxy.change_network(network_data) addlogmsg(request.user.username, instance.compute.name, instance.name, msg) msg = _("Network Device Config is changed. Please shutdown instance to activate.") if instance.proxy.get_status() != 5: messages.success(request, msg) return redirect(request.META.get("HTTP_REFERER") + "#network") @superuser_only def add_network(request, pk): instance = get_instance(request.user, pk) mac = request.POST.get("add-net-mac") nwfilter = request.POST.get("add-net-nwfilter") (source, source_type) = utils.get_network_tuple(request.POST.get("add-net-network")) model = request.POST.get("add-net-model") if source_type == "iface": iface = wvmInterface( instance.compute.hostname, instance.compute.login, instance.compute.password, instance.compute.type, source, ) source_type = iface.get_type() instance.proxy.add_network(mac, source, source_type, model=model, nwfilter=nwfilter) msg = _("Add network: %(mac)s") % {"mac": mac} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#network") @superuser_only def delete_network(request, pk): instance = get_instance(request.user, pk) mac_address = request.POST.get("delete_network", "") instance.proxy.delete_network(mac_address) msg = _("Delete Network: %(mac)s") % {"mac": mac_address} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#network") @superuser_only def set_link_state(request, pk): instance = get_instance(request.user, pk) mac_address = request.POST.get("mac", "") state = request.POST.get("set_link_state") state = "down" if state == "up" else "up" instance.proxy.set_link_state(mac_address, state) msg = _("Set Link State: %(state)s") % {"state": state} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#network") @superuser_only def set_qos(request, pk): instance = get_instance(request.user, pk) qos_dir = request.POST.get("qos_direction", "") average = request.POST.get("qos_average") or 0 peak = request.POST.get("qos_peak") or 0 burst = request.POST.get("qos_burst") or 0 keys = request.POST.keys() mac_key = [key for key in keys if "mac" in key] if mac_key: mac = request.POST.get(mac_key[0]) instance.proxy.set_qos(mac, qos_dir, average, peak, burst) if instance.proxy.get_status() == 5: messages.success( request, _("%(qos_dir)s QoS is set") % {"qos_dir": qos_dir.capitalize()} ) else: messages.success( request, _( "%(qos_dir)s QoS is set. Network XML is changed. \ Stop and start network to activate new config." ) % {"qos_dir": qos_dir.capitalize()}, ) return redirect(request.META.get("HTTP_REFERER") + "#network") @superuser_only def unset_qos(request, pk): instance = get_instance(request.user, pk) qos_dir = request.POST.get("qos_direction", "") mac = request.POST.get("net-mac") instance.proxy.unset_qos(mac, qos_dir) if instance.proxy.get_status() == 5: messages.success( request, _("%(qos_dir)s QoS is deleted") % {"qos_dir": qos_dir.capitalize()} ) else: messages.success( request, _( "%(qos_dir)s QoS is deleted. Network XML is changed. \ Stop and start network to activate new config." ) % {"qos_dir": qos_dir.capitalize()}, ) return redirect(request.META.get("HTTP_REFERER") + "#network") @superuser_only def add_owner(request, pk): instance = get_instance(request.user, pk) user_id = request.POST.get("user_id") check_inst = 0 if app_settings.ALLOW_INSTANCE_MULTIPLE_OWNER == "False": check_inst = UserInstance.objects.filter(instance=instance).count() if check_inst > 0: messages.error( request, _("Only one owner is allowed and the one already added") ) else: add_user_inst = UserInstance(instance=instance, user_id=user_id) add_user_inst.save() user = User.objects.get(id=user_id) msg = _("Add owner: %(user)s") % {"user": user} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#users") @superuser_only def del_owner(request, pk): instance = get_instance(request.user, pk) userinstance_id = int(request.POST.get("userinstance", "")) userinstance = UserInstance.objects.get(pk=userinstance_id) userinstance.delete() msg = _("Delete owner: %(userinstance_id)s ") % {"userinstance_id": userinstance_id} addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#users") @permission_required("instances.clone_instances", raise_exception=True) def clone(request, pk): instance = get_instance(request.user, pk) clone_data = dict() clone_data["name"] = request.POST.get("name", "") disk_sum = sum([disk["size"] >> 30 for disk in instance.disks]) quota_msg = utils.check_user_quota( request.user, 1, instance.vcpu, instance.memory, disk_sum ) check_instance = Instance.objects.filter(name=clone_data["name"]) clone_data["disk_owner_uid"] = int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_UID) clone_data["disk_owner_gid"] = int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_GID) for post in request.POST: clone_data[post] = request.POST.get(post, "").strip() if app_settings.CLONE_INSTANCE_AUTO_NAME == "True" and not clone_data["name"]: auto_vname = utils.get_clone_free_names()[0] clone_data["name"] = auto_vname clone_data["clone-net-mac-0"] = utils.get_dhcp_mac_address(auto_vname) for disk in instance.disks: disk_dev = f"disk-{disk['dev']}" disk_name = utils.get_clone_disk_name(disk, instance.name, auto_vname) clone_data[disk_dev] = disk_name if not request.user.is_superuser and quota_msg: msg = _( "User '%(quota_msg)s' quota reached, cannot create '%(clone_name)s'!" ) % { "quota_msg": quota_msg, "clone_name": clone_data["name"], } messages.error(request, msg) elif check_instance: msg = _("Instance '%(clone_name)s' already exists!") % { "clone_name": clone_data["name"] } messages.error(request, msg) elif not re.match(r"^[a-zA-Z0-9-]+$", clone_data["name"]): msg = _("Instance name '%(clone_name)s' contains invalid characters!") % { "clone_name": clone_data["name"] } messages.error(request, msg) elif not re.match( r"^([0-9A-F]{2})(:?[0-9A-F]{2}){5}$", clone_data["clone-net-mac-0"], re.IGNORECASE, ): msg = _("Instance MAC '%(clone_mac)s' invalid format!") % { "clone_mac": clone_data["clone-net-mac-0"] } messages.error(request, msg) else: new_instance = Instance(compute=instance.compute, name=clone_data["name"]) try: new_uuid = instance.proxy.clone_instance(clone_data) new_instance.uuid = new_uuid new_instance.save() user_instance = UserInstance( instance_id=new_instance.id, user_id=request.user.id, is_delete=True ) user_instance.save() msg = _("Create a clone of '%(instance_name)s'") % { "instance_name": instance.name } messages.success(request, msg) addlogmsg( request.user.username, instance.compute.name, new_instance.name, msg ) if app_settings.CLONE_INSTANCE_AUTO_MIGRATE == "True": new_compute = Compute.objects.order_by("?").first() utils.migrate_instance( new_compute, new_instance, request.user, xml_del=True, offline=True ) return redirect(reverse("instances:instance", args=[new_instance.id])) except Exception as e: messages.error(request, e) return redirect(request.META.get("HTTP_REFERER") + "#clone") def update_console(request, pk): instance = get_instance(request.user, pk) try: userinstance = instance.userinstance_set.get(user=request.user) except Exception: userinstance = UserInstance(is_vnc=False) if request.user.is_superuser or request.user.is_staff or userinstance.is_vnc: form = ConsoleForm(request.POST or None) if form.is_valid(): if ( "generate_password" in form.changed_data or "clear_password" in form.changed_data or "password" in form.changed_data ): if form.cleaned_data["generate_password"]: password = randomPasswd() elif form.cleaned_data["clear_password"]: password = "" else: password = form.cleaned_data["password"] if not instance.proxy.set_console_passwd(password): msg = _( "Error setting console password. " + "You should check that your instance have an graphic device." ) messages.error(request, msg) else: msg = _("Set VNC password") addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) if "keymap" in form.changed_data or "clear_keymap" in form.changed_data: if form.cleaned_data["clear_keymap"]: instance.proxy.set_console_keymap("") else: instance.proxy.set_console_keymap(form.cleaned_data["keymap"]) msg = _("Set VNC keymap") addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) if "type" in form.changed_data: instance.proxy.set_console_type(form.cleaned_data["type"]) msg = _("Set VNC type") addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) if "listen_on" in form.changed_data: instance.proxy.set_console_listener_addr(form.cleaned_data["listen_on"]) msg = _("Set VNC listen address") addlogmsg( request.user.username, instance.compute.name, instance.name, msg ) return redirect(request.META.get("HTTP_REFERER") + "#vncsettings") def change_options(request, pk): instance = get_instance(request.user, pk) try: userinstance = instance.userinstance_set.get(user=request.user) except Exception: userinstance = UserInstance(is_change=False) if request.user.is_superuser or request.user.is_staff or userinstance.is_change: instance.is_template = request.POST.get("is_template", False) instance.save() options = {} for post in request.POST: if post in ["title", "description"]: options[post] = request.POST.get(post, "") instance.proxy.set_options(options) msg = _("Edit options") addlogmsg(request.user.username, instance.compute.name, instance.name, msg) return redirect(request.META.get("HTTP_REFERER") + "#options") def getvvfile(request, pk): instance = get_instance(request.user, pk) conn = wvmInstances( instance.compute.hostname, instance.compute.login, instance.compute.password, instance.compute.type, ) msg = _("Send console.vv file") addlogmsg(request.user.username, instance.compute.name, instance.name, msg) response = HttpResponse( content="", content_type="application/x-virt-viewer", status=200, reason=None, charset="utf-8", ) response.writelines("[virt-viewer]\n") response.writelines("type=" + conn.graphics_type(instance.name) + "\n") if conn.graphics_listen(instance.name) == "0.0.0.0": response.writelines("host=" + conn.host + "\n") else: response.writelines("host=" + conn.graphics_listen(instance.name) + "\n") response.writelines("port=" + conn.graphics_port(instance.name) + "\n") response.writelines("title=" + conn.domain_name(instance.name) + "\n") response.writelines("password=" + conn.graphics_passwd(instance.name) + "\n") response.writelines("enable-usbredir=1\n") response.writelines("disable-effects=all\n") response.writelines("secure-attention=ctrl+alt+ins\n") response.writelines("release-cursor=ctrl+alt\n") response.writelines("fullscreen=1\n") response.writelines("delete-this-file=1\n") response["Content-Disposition"] = 'attachment; filename="console.vv"' return response @superuser_only def create_instance_select_type(request, compute_id): """ :param request: :param compute_id: :return: """ conn = None storages = list() networks = list() hypervisors = list() meta_prealloc = False compute = get_object_or_404(Compute, pk=compute_id) conn = wvmCreate(compute.hostname, compute.login, compute.password, compute.type) instances = conn.get_instances() all_hypervisors = conn.get_hypervisors_machines() # Supported hypervisors by webvirtcloud: i686, x86_64(for now) supported_arch = [ "x86_64", "i686", "aarch64", "armv7l", "ppc64", "ppc64le", "s390x", ] hypervisors = [hpv for hpv in all_hypervisors.keys() if hpv in supported_arch] default_machine = app_settings.INSTANCE_MACHINE_DEFAULT_TYPE default_arch = app_settings.INSTANCE_ARCH_DEFAULT_TYPE if request.method == "POST": if "create_xml" in request.POST: xml = request.POST.get("dom_xml", "") try: name = util.get_xml_path(xml, "/domain/name") except util.etree.Error: name = None if name in instances: error_msg = _("A virtual machine with this name already exists") messages.error(request, error_msg) else: conn._defineXML(xml) utils.refr(compute) instance = compute.instance_set.get(name=name) return redirect(reverse("instances:instance", args=[instance.id])) return render(request, "create_instance_w1.html", locals()) @superuser_only def create_instance(request, compute_id, arch, machine): """ :param request: :param compute_id: :param arch: :param machine: :return: """ conn = None storages = list() networks = list() hypervisors = list() firmwares = list() meta_prealloc = False compute = get_object_or_404(Compute, pk=compute_id) flavors = Flavor.objects.filter().order_by("id") appsettings = AppSettings.objects.all() try: conn = wvmCreate( compute.hostname, compute.login, compute.password, compute.type ) default_firmware = app_settings.INSTANCE_FIRMWARE_DEFAULT_TYPE default_cpu_mode = app_settings.INSTANCE_CPU_DEFAULT_MODE instances = conn.get_instances() videos = conn.get_video_models(arch, machine) default_video = app_settings.INSTANCE_VIDEO_DEFAULT_TYPE cache_modes = sorted(conn.get_cache_modes().items()) default_cache = app_settings.INSTANCE_VOLUME_DEFAULT_CACHE default_io = app_settings.INSTANCE_VOLUME_DEFAULT_IO default_zeroes = app_settings.INSTANCE_VOLUME_DEFAULT_DETECT_ZEROES default_discard = app_settings.INSTANCE_VOLUME_DEFAULT_DISCARD default_disk_format = app_settings.INSTANCE_VOLUME_DEFAULT_FORMAT default_disk_owner_uid = int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_UID) default_disk_owner_gid = int(app_settings.INSTANCE_VOLUME_DEFAULT_OWNER_GID) default_scsi_disk_model = app_settings.INSTANCE_VOLUME_DEFAULT_SCSI_CONTROLLER listener_addr = settings.QEMU_CONSOLE_LISTENER_ADDRESSES mac_auto = util.randomMAC() disk_devices = conn.get_disk_device_types(arch, machine) disk_buses = conn.get_disk_bus_types(arch, machine) default_bus = app_settings.INSTANCE_VOLUME_DEFAULT_BUS networks = sorted(conn.get_networks()) nwfilters = conn.get_nwfilters() net_models_host = conn.get_network_models() default_nic_type = app_settings.INSTANCE_NIC_DEFAULT_TYPE storages = sorted(conn.get_storages(only_actives=True)) default_graphics = app_settings.QEMU_CONSOLE_DEFAULT_TYPE default_cdrom = app_settings.INSTANCE_CDROM_ADD input_device_buses = ["default", "virtio", "usb"] default_input_device_bus = app_settings.INSTANCE_INPUT_DEFAULT_DEVICE dom_caps = conn.get_dom_capabilities(arch, machine) caps = conn.get_capabilities(arch) virtio_support = conn.is_supports_virtio(arch, machine) hv_supports_uefi = conn.supports_uefi_xml(dom_caps["loader_enums"]) # Add BIOS label = conn.label_for_firmware_path(arch, None) if label: firmwares.append(label) # Add UEFI loader_path = conn.find_uefi_path_for_arch(arch, dom_caps["loaders"]) label = conn.label_for_firmware_path(arch, loader_path) if label: firmwares.append(label) firmwares = list(set(firmwares)) flavor_form = FlavorForm() if conn: if not storages: raise libvirtError(_("You haven't defined any storage pools")) if not networks: raise libvirtError(_("You haven't defined any network pools")) if request.method == "POST": if "create" in request.POST: firmware = dict() volume_list = list() is_disk_created = False clone_path = "" form = NewVMForm(request.POST) if form.is_valid(): data = form.cleaned_data if data["meta_prealloc"]: meta_prealloc = True if instances: if data["name"] in instances: raise libvirtError( _("A virtual machine with this name already exists") ) if Instance.objects.filter(name__exact=data["name"]): raise libvirtError( _( "There is an instance with same name. Remove it and try again!" ) ) if data["hdd_size"]: if not data["mac"]: raise libvirtError( _("No Virtual Machine MAC has been entered") ) else: path = conn.create_volume( data["storage"], data["name"], data["hdd_size"], default_disk_format, meta_prealloc, default_disk_owner_uid, default_disk_owner_gid, ) volume = dict() volume["device"] = "disk" volume["path"] = path volume["type"] = conn.get_volume_format_type(path) volume["cache_mode"] = data["cache_mode"] volume["bus"] = default_bus if volume["bus"] == "scsi": volume["scsi_model"] = default_scsi_disk_model volume["discard_mode"] = default_discard volume["detect_zeroes_mode"] = default_zeroes volume["io_mode"] = default_io volume_list.append(volume) is_disk_created = True elif data["template"]: templ_path = conn.get_volume_path(data["template"]) dest_vol = conn.get_volume_path( data["name"] + ".img", data["storage"] ) if dest_vol: raise libvirtError( _( "Image has already exist. Please check volumes or change instance name" ) ) else: clone_path = conn.clone_from_template( data["name"], templ_path, data["storage"], meta_prealloc, default_disk_owner_uid, default_disk_owner_gid, ) volume = dict() volume["path"] = clone_path volume["type"] = conn.get_volume_format_type(clone_path) volume["device"] = "disk" volume["cache_mode"] = data["cache_mode"] volume["bus"] = default_bus if volume["bus"] == "scsi": volume["scsi_model"] = default_scsi_disk_model volume["discard_mode"] = default_discard volume["detect_zeroes_mode"] = default_zeroes volume["io_mode"] = default_io volume_list.append(volume) is_disk_created = True else: if not data["images"]: raise libvirtError( _("First you need to create or select an image") ) else: for idx, vol in enumerate(data["images"].split(",")): path = conn.get_volume_path(vol) volume = dict() volume["path"] = path volume["type"] = conn.get_volume_format_type(path) volume["device"] = request.POST.get( "device" + str(idx), "" ) volume["bus"] = request.POST.get( "bus" + str(idx), "" ) if volume["bus"] == "scsi": volume["scsi_model"] = default_scsi_disk_model volume["cache_mode"] = data["cache_mode"] volume["discard_mode"] = default_discard volume["detect_zeroes_mode"] = default_zeroes volume["io_mode"] = default_io volume_list.append(volume) if data["cache_mode"] not in conn.get_cache_modes(): error_msg = _("Invalid cache mode") raise libvirtError if "UEFI" in data["firmware"]: firmware["loader"] = data["firmware"].split(":")[1].strip() firmware["secure"] = "no" firmware["readonly"] = "yes" firmware["type"] = "pflash" if "secboot" in firmware["loader"] and machine != "q35": messages.warning( request, "Changing machine type from '%s' to 'q35' " "which is required for UEFI secure boot." % machine, ) machine = "q35" firmware["secure"] = "yes" if data["net_model"] == "default": data["net_model"] = "virtio" uuid = util.randomUUID() try: conn.create_instance( name=data["name"], memory=data["memory"], vcpu=data["vcpu"], vcpu_mode=data["vcpu_mode"], uuid=uuid, arch=arch, machine=machine, firmware=firmware, volumes=volume_list, networks=data["networks"], virtio=data["virtio"], listener_addr=data["listener_addr"], nwfilter=data["nwfilter"], net_model=data["net_model"], graphics=data["graphics"], video=data["video"], console_pass=data["console_pass"], mac=data["mac"], qemu_ga=data["qemu_ga"], add_cdrom=data["add_cdrom"], add_input=data["add_input"], ) create_instance = Instance( compute_id=compute_id, name=data["name"], uuid=uuid ) create_instance.save() msg = _("Instance is created") messages.success(request, msg) addlogmsg( request.user.username, create_instance.compute.name, create_instance.name, msg, ) return redirect( reverse("instances:instance", args=[create_instance.id]) ) except libvirtError as lib_err: if data["hdd_size"] or len(volume_list) > 0: if is_disk_created: for vol in volume_list: conn.delete_volume(vol["path"]) messages.error(request, lib_err) conn.close() except libvirtError as lib_err: messages.error(request, lib_err) return render(request, "create_instance_w2.html", locals()) @superuser_only def flavor_create(request): form = FlavorForm(request.POST or None) if form.is_valid(): form.save() messages.success(request, _("Flavor Created")) return redirect(request.META.get("HTTP_REFERER")) return render( request, "common/form.html", {"form": form, "title": _("Create Flavor")}, ) @superuser_only def flavor_update(request, pk): flavor = get_object_or_404(Flavor, pk=pk) form = FlavorForm(request.POST or None, instance=flavor) if form.is_valid(): form.save() messages.success(request, _("Flavor Updated")) return redirect(request.META.get("HTTP_REFERER")) return render( request, "common/form.html", {"form": form, "title": _("Update Flavor")}, ) @superuser_only def flavor_delete(request, pk): flavor = get_object_or_404(Flavor, pk=pk) if request.method == "POST": flavor.delete() messages.success(request, _("Flavor Deleted")) return redirect(request.META.get("HTTP_REFERER")) return render( request, "common/confirm_delete.html", {"object": flavor}, )