#!/usr/bin/python import sys import cgi import os import string import subprocess import re import time import cPickle import base64 import sha import hmac import datetime print 'Content-Type: text/html\n' sys.stderr = sys.stdout sys.path.append('/home/ecprice/.local/lib/python2.5/site-packages') from Cheetah.Template import Template from sipb_xen_database import * import random class MyException(Exception): pass # ... and stolen from xend/uuid.py def randomUUID(): """Generate a random UUID.""" return [ random.randint(0, 255) for _ in range(0, 16) ] def uuidToString(u): return "-".join(["%02x" * 4, "%02x" * 2, "%02x" * 2, "%02x" * 2, "%02x" * 6]) % tuple(u) def maxMemory(user, machine=None): return 256 def maxDisk(user, machine=None): return 10.0 def haveAccess(user, machine): if user.username == 'quentin': return True return machine.owner == user.username def error(op, user, fields, err): d = dict(op=op, user=user, errorMessage=str(err)) print Template(file='error.tmpl', searchList=d); def validMachineName(name): """Check that name is valid for a machine name""" if not name: return False charset = string.ascii_letters + string.digits + '-_' if name[0] in '-_' or len(name) > 22: return False return all(x in charset for x in name) def kinit(username = 'tabbott/extra', keytab = '/etc/tabbott.keytab'): """Kinit with a given username and keytab""" p = subprocess.Popen(['kinit', "-k", "-t", keytab, username], stderr=subprocess.PIPE) e = p.wait() if e: raise MyException("Error %s in kinit: %s" % (e, p.stderr.read())) def checkKinit(): """If we lack tickets, kinit.""" p = subprocess.Popen(['klist', '-s']) if p.wait(): kinit() def remctl(*args, **kws): """Perform a remctl and return the output. kinits if necessary, and outputs errors to stderr. """ checkKinit() p = subprocess.Popen(['remctl', 'black-mesa.mit.edu'] + list(args), stdout=subprocess.PIPE, stderr=subprocess.PIPE) if kws.get('err'): return p.stdout.read(), p.stderr.read() if p.wait(): print >> sys.stderr, 'ERROR on remctl ', args print >> sys.stderr, p.stderr.read() return p.stdout.read() def makeDisks(): """Update the lvm partitions to include all disks in the database.""" remctl('web', 'lvcreate') def bootMachine(machine, cdtype): """Boot a machine with a given boot CD. If cdtype is None, give no boot cd. Otherwise, it is the string id of the CD (e.g. 'gutsy_i386') """ if cdtype is not None: remctl('web', 'vmboot', machine.name, cdtype) else: remctl('web', 'vmboot', machine.name) def registerMachine(machine): """Register a machine to be controlled by the web interface""" remctl('web', 'register', machine.name) def unregisterMachine(machine): """Unregister a machine to not be controlled by the web interface""" remctl('web', 'unregister', machine.name) def parseStatus(s): """Parse a status string into nested tuples of strings. s = output of xm list --long """ values = re.split('([()])', s) stack = [[]] for v in values[2:-2]: #remove initial and final '()' if not v: continue v = v.strip() if v == '(': stack.append([]) elif v == ')': if len(stack[-1]) == 1: stack[-1].append('') stack[-2].append(stack[-1]) stack.pop() else: if not v: continue stack[-1].extend(v.split()) return stack[-1] def getUptimes(machines): """Return a dictionary mapping machine names to uptime strings""" value_string = remctl('web', 'listvms') lines = value_string.splitlines() d = {} for line in lines[1:]: lst = line.split() name, id = lst[:2] uptime = ' '.join(lst[2:]) d[name] = uptime return d def statusInfo(machine): """Return the status list for a given machine. Gets and parses xm list --long """ value_string, err_string = remctl('list-long', machine.name, err=True) if 'Unknown command' in err_string: raise MyException("ERROR in remctl list-long %s is not registered" % (machine.name,)) elif 'does not exist' in err_string: return None elif err_string: raise MyException("ERROR in remctl list-long %s: %s" % (machine.name, err_string)) status = parseStatus(value_string) return status def hasVnc(status): """Does the machine with a given status list support VNC?""" if status is None: return False for l in status: if l[0] == 'device' and l[1][0] == 'vfb': d = dict(l[1][1:]) return 'location' in d return False def createVm(user, name, memory, disk, is_hvm, cdrom): """Create a VM and put it in the database""" # put stuff in the table transaction = ctx.current.create_transaction() try: res = meta.engine.execute('select nextval(\'"machines_machine_id_seq"\')') id = res.fetchone()[0] machine = Machine() machine.machine_id = id machine.name = name machine.memory = memory machine.owner = user.username machine.contact = user.email machine.uuid = uuidToString(randomUUID()) machine.boot_off_cd = True machine_type = Type.get_by(hvm=is_hvm) machine.type_id = machine_type.type_id ctx.current.save(machine) disk = Disk(machine.machine_id, 'hda', disk) open = NIC.select_by(machine_id=None) if not open: #No IPs left! return "No IP addresses left! Contact sipb-xen-dev@mit.edu" nic = open[0] nic.machine_id = machine.machine_id nic.hostname = name ctx.current.save(nic) ctx.current.save(disk) transaction.commit() except: transaction.rollback() raise makeDisks() registerMachine(machine) # tell it to boot with cdrom bootMachine(machine, cdrom) return machine def validMemory(user, memory, machine=None): try: memory = int(memory) if memory <= 0: raise ValueError except ValueError: raise MyException("Invalid memory amount") if memory > maxMemory(user, machine): raise MyException("Too much memory requested") return memory def validDisk(user, disk, machine=None): try: disk = float(disk) if disk > maxDisk(user, machine): raise MyException("Too much disk requested") disk = int(disk * 1024) if disk <= 0: raise ValueError except ValueError: raise MyException("Invalid disk amount") return disk def create(user, fields): name = fields.getfirst('name') if not validMachineName(name): raise MyException("Invalid name '%s'" % name) name = user.username + '_' + name.lower() if Machine.get_by(name=name): raise MyException("A machine named '%s' already exists" % name) memory = fields.getfirst('memory') memory = validMemory(user, memory) disk = fields.getfirst('disk') disk = validDisk(user, disk) vm_type = fields.getfirst('vmtype') if vm_type not in ('hvm', 'paravm'): raise MyException("Invalid vm type '%s'" % vm_type) is_hvm = (vm_type == 'hvm') cdrom = fields.getfirst('cdrom') if cdrom is not None and not CDROM.get(cdrom): raise MyException("Invalid cdrom type '%s'" % cdrom) machine = createVm(user, name, memory, disk, is_hvm, cdrom) if isinstance(machine, basestring): raise MyException(machine) d = dict(user=user, machine=machine) print Template(file='create.tmpl', searchList=d); def listVms(user, fields): machines = [m for m in Machine.select() if haveAccess(user, m)] on = {} has_vnc = {} uptimes = getUptimes(machines) on = uptimes for m in machines: if on.get(m.name) and m.type.hvm: has_vnc[m.name] = True else: has_vnc[m.name] = False # for m in machines: # status = statusInfo(m) # on[m.name] = status is not None # has_vnc[m.name] = hasVnc(status) d = dict(user=user, maxmem=maxMemory(user), maxdisk=maxDisk(user), machines=machines, has_vnc=has_vnc, uptimes=uptimes, cdroms=CDROM.select()) print Template(file='list.tmpl', searchList=d) def testMachineId(user, machineId, exists=True): if machineId is None: raise MyException("No machine ID specified") try: machineId = int(machineId) except ValueError: raise MyException("Invalid machine ID '%s'" % machineId) machine = Machine.get(machineId) if exists and machine is None: raise MyException("No such machine ID '%s'" % machineId) if not haveAccess(user, machine): raise MyException("No access to machine ID '%s'" % machineId) return machine def vnc(user, fields): """VNC applet page. Note that due to same-domain restrictions, the applet connects to the webserver, which needs to forward those requests to the xen server. The Xen server runs another proxy that (1) authenticates and (2) finds the correct port for the VM. You might want iptables like: -t nat -A PREROUTING -s ! 18.181.0.60 -i eth1 -p tcp -m tcp --dport 10003 -j DNAT --to-destination 18.181.0.60:10003 -t nat -A POSTROUTING -d 18.181.0.60 -o eth1 -p tcp -m tcp --dport 10003 -j SNAT --to-source 18.187.7.142 -A FORWARD -d 18.181.0.60 -i eth1 -o eth1 -p tcp -m tcp --dport 10003 -j ACCEPT """ machine = testMachineId(user, fields.getfirst('machine_id')) #XXX fix TOKEN_KEY = "0M6W0U1IXexThi5idy8mnkqPKEq1LtEnlK/pZSn0cDrN" data = {} data["user"] = user.username data["machine"]=machine.name data["expires"]=time.time()+(5*60) pickledData = cPickle.dumps(data) m = hmac.new(TOKEN_KEY, digestmod=sha) m.update(pickledData) token = {'data': pickledData, 'digest': m.digest()} token = cPickle.dumps(token) token = base64.urlsafe_b64encode(token) d = dict(user=user, machine=machine, hostname=os.environ.get('SERVER_NAME', 'localhost'), authtoken=token) print Template(file='vnc.tmpl', searchList=d) def getNicInfo(data_dict, machine): data_dict['num_nics'] = len(machine.nics) nic_fields_template = [('nic%s_hostname', 'NIC %s hostname'), ('nic%s_mac', 'NIC %s MAC Addr'), ('nic%s_ip', 'NIC %s IP'), ] nic_fields = [] for i in range(len(machine.nics)): nic_fields.extend([(x % i, y % i) for x, y in nic_fields_template]) data_dict['nic%s_hostname' % i] = machine.nics[i].hostname + '.servers.csail.mit.edu' data_dict['nic%s_mac' % i] = machine.nics[i].mac_addr data_dict['nic%s_ip' % i] = machine.nics[i].ip if len(machine.nics) == 1: nic_fields = [(x, y.replace('NIC 0 ', '')) for x, y in nic_fields] return nic_fields def getDiskInfo(data_dict, machine): data_dict['num_disks'] = len(machine.disks) disk_fields_template = [('%s_size', '%s size')] disk_fields = [] for disk in machine.disks: name = disk.guest_device_name disk_fields.extend([(x % name, y % name) for x, y in disk_fields_template]) data_dict['%s_size' % name] = "%0.1f GB" % (disk.size / 1024.) return disk_fields def deleteVM(machine): transaction = ctx.current.create_transaction() delete_disk_pairs = [(machine.name, d.guest_device_name) for d in machine.disks] try: for nic in machine.nics: nic.machine_id = None nic.hostname = None ctx.current.save(nic) for disk in machine.disks: ctx.current.delete(disk) ctx.current.delete(machine) transaction.commit() except: transaction.rollback() raise for mname, dname in delete_disk_pairs: remctl('web', 'lvremove', mname, dname) unregisterMachine(machine) def command(user, fields): print time.time()-start_time machine = testMachineId(user, fields.getfirst('machine_id')) action = fields.getfirst('action') cdrom = fields.getfirst('cdrom') print time.time()-start_time if cdrom is not None and not CDROM.get(cdrom): raise MyException("Invalid cdrom type '%s'" % cdrom) if action not in ('Reboot', 'Power on', 'Power off', 'Shutdown', 'Delete VM'): raise MyException("Invalid action '%s'" % action) if action == 'Reboot': if cdrom is not None: remctl('reboot', machine.name, cdrom) else: remctl('reboot', machine.name) elif action == 'Power on': bootMachine(machine, cdrom) elif action == 'Power off': remctl('destroy', machine.name) elif action == 'Shutdown': remctl('shutdown', machine.name) elif action == 'Delete VM': deleteVM(machine) print time.time()-start_time d = dict(user=user, command=action, machine=machine) print Template(file="command.tmpl", searchList=d) def modify(user, fields): machine = testMachineId(user, fields.getfirst('machine_id')) def info(user, fields): machine = testMachineId(user, fields.getfirst('machine_id')) status = statusInfo(machine) has_vnc = hasVnc(status) if status is None: main_status = dict(name=machine.name, memory=str(machine.memory)) else: main_status = dict(status[1:]) start_time = float(main_status.get('start_time', 0)) uptime = datetime.timedelta(seconds=int(time.time()-start_time)) cpu_time_float = float(main_status.get('cpu_time', 0)) cputime = datetime.timedelta(seconds=int(cpu_time_float)) display_fields = """name uptime memory state cpu_weight on_reboot on_poweroff on_crash on_xend_start on_xend_stop bootloader""".split() display_fields = [('name', 'Name'), ('owner', 'Owner'), ('contact', 'Contact'), ('type', 'Type'), 'NIC_INFO', ('uptime', 'uptime'), ('cputime', 'CPU usage'), ('memory', 'RAM'), 'DISK_INFO', ('state', 'state (xen format)'), ('cpu_weight', 'CPU weight'), ('on_reboot', 'Action on VM reboot'), ('on_poweroff', 'Action on VM poweroff'), ('on_crash', 'Action on VM crash'), ('on_xend_start', 'Action on Xen start'), ('on_xend_stop', 'Action on Xen stop'), ('bootloader', 'Bootloader options'), ] fields = [] machine_info = {} machine_info['type'] = machine.type.hvm and 'HVM' or 'ParaVM' machine_info['owner'] = machine.owner machine_info['contact'] = machine.contact nic_fields = getNicInfo(machine_info, machine) nic_point = display_fields.index('NIC_INFO') display_fields = display_fields[:nic_point] + nic_fields + display_fields[nic_point+1:] disk_fields = getDiskInfo(machine_info, machine) disk_point = display_fields.index('DISK_INFO') display_fields = display_fields[:disk_point] + disk_fields + display_fields[disk_point+1:] main_status['memory'] += ' MB' for field, disp in display_fields: if field in ('uptime', 'cputime'): fields.append((disp, locals()[field])) elif field in main_status: fields.append((disp, main_status[field])) elif field in machine_info: fields.append((disp, machine_info[field])) else: pass #fields.append((disp, None)) d = dict(user=user, cdroms=CDROM.select(), on=status is not None, machine=machine, has_vnc=has_vnc, uptime=str(uptime), ram=machine.memory, maxmem=maxMemory(user, machine), maxdisk=maxDisk(user, machine), fields = fields) print Template(file='info.tmpl', searchList=d) mapping = dict(list=listVms, vnc=vnc, command=command, modify=modify, info=info, create=create) if __name__ == '__main__': start_time = time.time() fields = cgi.FieldStorage() class User: username = "moo" email = 'moo@cow.com' u = User() connect('postgres://sipb-xen@sipb-xen-dev/sipb_xen') operation = os.environ.get('PATH_INFO', '') if not operation: pass #XXX do redirect if operation.startswith('/'): operation = operation[1:] if not operation: operation = 'list' fun = mapping.get(operation, lambda u, e: error(operation, u, e, "Invalid operation '%s'" % operation)) try: fun(u, fields) except MyException, err: error(operation, u, fields, err)