for disk in machine.disks:
lvcreate(machine, disk)
+def getswap(disksize, memsize):
+ """Returns the recommended swap partition size."""
+ return int(min(disksize / 4, memsize * 1.5))
+
+def lvinstall(machine, autoinstall):
+ disksize = machine.disks[0].size
+ memsize = machine.memory
+ imagesize = disksize - getswap(disksize, memsize)
+ ip = machine.nics[0].ip
+ remctl('web', 'install', machine.name, autoinstall.distribution,
+ autoinstall.mirror, str(imagesize), ip)
+
def lvcopy(machine_orig_name, machine, rootpw):
"""Copy a golden image onto a machine's disk"""
remctl('web', 'lvcopy', machine_orig_name, machine.name, rootpw)
raise CodeError('"%s" on "control %s create %s'
% (err, machine.name, cdtype))
-def createVm(owner, contact, name, memory, disk_size, machine_type, cdrom, clone_from):
+def createVm(username, state, owner, contact, name, description, memory, disksize, machine_type, cdrom, autoinstall):
"""Create a VM and put it in the database"""
# put stuff in the table
transaction = ctx.current.create_transaction()
try:
- validation.validMemory(owner, memory)
- validation.validDisk(owner, disk_size * 1. / 1024)
- validation.validAddVm(owner)
+ validation.Validate(username, state, name=name, description=description, owner=owner, memory=memory, disksize=disksize/1024.)
res = meta.engine.execute('select nextval('
'\'"machines_machine_id_seq"\')')
id = res.fetchone()[0]
machine = Machine()
machine.machine_id = id
machine.name = name
+ machine.description = description
machine.memory = memory
machine.owner = owner
machine.administrator = owner
machine.type_id = machine_type.type_id
ctx.current.save(machine)
disk = Disk(machine_id=machine.machine_id,
- guest_device_name='hda', size=disk_size)
+ guest_device_name='hda', size=disksize)
open_nics = NIC.select_by(machine_id=None)
if not open_nics: #No IPs left!
raise CodeError("No IP addresses left! "
transaction.rollback()
raise
makeDisks(machine)
- if clone_from:
- lvcopy(clone_from, machine, 'password')
+ if autoinstall:
+ lvinstall(machine, autoinstall)
# tell it to boot with cdrom
bootMachine(machine, cdrom)
return machine
-def getList(machines):
- """Return a dictionary mapping machine to dicts."""
+def getList():
+ """Return a dictionary mapping machine names to dicts."""
value_string = remctl('web', 'listvms')
- value_dict = yaml.safe_load(value_string)
-
- d = dict((m, value_dict[m.name]) for m in machines if m.name in value_dict)
- return d
+ value_dict = yaml.load(value_string, yaml.CSafeLoader)
+ return value_dict
def parseStatus(s):
"""Parse a status string into nested tuples of strings.
if 'Unknown command' in err_string:
raise CodeError("ERROR in remctl list-long %s is not registered" %
(machine.name,))
- elif 'does not exist' in err_string:
+ elif 'is not on' in err_string:
return None
elif err_string:
raise CodeError("ERROR in remctl list-long %s: %s" %
ctx.current.save(nic)
for disk in machine.disks:
ctx.current.delete(disk)
- for access in machine.acl:
- ctx.current.delete(access)
ctx.current.delete(machine)
transaction.commit()
except:
for mname, dname in delete_disk_pairs:
remctl('web', 'lvremove', mname, dname)
-def commandResult(user, fields):
+def commandResult(username, state, fields):
start_time = 0
- machine = validation.testMachineId(user, fields.getfirst('machine_id'))
+ machine = validation.Validate(username, state, machine_id=fields.getfirst('machine_id')).machine
action = fields.getfirst('action')
cdrom = fields.getfirst('cdrom')
if cdrom is not None and not CDROM.get(cdrom):
raise CodeError('ERROR on remctl')
elif action == 'Power on':
- if validation.maxMemory(user, machine) < machine.memory:
+ if validation.maxMemory(username, state, machine) < machine.memory:
raise InvalidInput('action', 'Power on',
"You don't have enough free RAM quota "
"to turn on this machine.")
elif action == 'Delete VM':
deleteVM(machine)
- d = dict(user=user,
+ d = dict(user=username,
command=action,
machine=machine)
return d