import cgi
import datetime
import hmac
+import random
import sha
import simplejson
import sys
import templates
from Cheetah.Template import Template
-import sipb_xen_database
-from sipb_xen_database import Machine, CDROM, ctx, connect, MachineAccess, Type, Autoinstall
import validation
import cache_acls
from webcommon import InvalidInput, CodeError, State
import controls
from getafsgroups import getAfsGroupMembers
+import sipb_xen_database
+from invirt import database
+from sipb_xen_database import Machine, CDROM, ctx, connect, MachineAccess, Type, Autoinstall
+from invirt.config import structs as config
def pathSplit(path):
if path.startswith('/'):
token = {'data': pickled_data, 'digest': m.digest()}
token = cPickle.dumps(token)
token = base64.urlsafe_b64encode(token)
+ host = controls.listHost(machine)
+ if host:
+ port = 10003 + [h.hostname for h in config.hosts].index(host)
+ else:
+ port = 5900 # dummy
status = controls.statusInfo(machine)
has_vnc = hasVnc(status)
has_vnc=has_vnc,
machine=machine,
hostname=state.environ.get('SERVER_NAME', 'localhost'),
+ port=port,
authtoken=token)
return templates.vnc(searchList=[d])
if nic.hostname and '.' in nic.hostname:
return nic.hostname
elif nic.machine:
- return nic.machine.name + '.xvm.mit.edu'
+ return nic.machine.name + '.' + config.dns.domains[0]
else:
return None
help_mapping = {'ParaVM Console': """
ParaVM machines do not support local console access over VNC. To
access the serial console of these machines, you can SSH with Kerberos
-to console.xvm.mit.edu, using the name of the machine as your
-username.""",
+to console.%s, using the name of the machine as your
+username.""" % config.dns.domains[0],
'HVM/ParaVM': """
HVM machines use the virtualization features of the processor, while
ParaVM machines use Xen's emulation of virtualization features. You
cputime = None
else:
main_status = dict(status[1:])
+ main_status['host'] = controls.listHost(machine)
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))
'NIC_INFO',
('uptime', 'uptime'),
('cputime', 'CPU usage'),
+ ('host', 'Hosted on'),
('memory', 'RAM'),
'DISK_INFO',
('state', 'state (xen format)'),
def send_error_mail(subject, body):
import subprocess
- to = 'xvm@mit.edu'
+ to = config.web.errormail
mail = """To: %s
-From: root@xvm.mit.edu
+From: root@%s
Subject: %s
%s
-""" % (to, subject, body)
+""" % (to, config.web.hostname, subject, body)
p = subprocess.Popen(['/usr/sbin/sendmail', to], stdin=subprocess.PIPE)
p.stdin.write(mail)
p.stdin.close()
self.state = State(self.username)
self.state.environ = environ
+ random.seed() #sigh
+
def __iter__(self):
start_time = time.time()
sipb_xen_database.clear_cache()
headers.update(new_headers)
e = revertStandardError()
if e:
- if isinstance(output, basestring):
- sys.stderr = StringIO()
- x = str(output)
- print >> sys.stderr, x
- print >> sys.stderr, 'XXX'
- print >> sys.stderr, e
- raise Exception()
- output.addError(e)
+ if hasattr(output, 'addError'):
+ output.addError(e)
+ else:
+ # This only happens on redirects, so it'd be a pain to get
+ # the message to the user. Maybe in the response is useful.
+ output = output + '\n\nstderr:\n' + e
output_string = str(output)
checkpoint.checkpoint('output as a string')
except Exception, err:
yield '<pre>%s</pre>' % cgi.escape(str(checkpoint))
def constructor():
- connect('postgres://sipb-xen@sipb-xen-dev.mit.edu/sipb_xen')
+ connect()
return App
def main():