core-admin/qvm-tools/qvm-ls

#!/usr/bin/python2
# -*- encoding: utf8 -*-
#
# The Qubes OS Project, http://www.qubes-os.org
#
# Copyright (C) 2010  Joanna Rutkowska <joanna@invisiblethingslab.com>
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# 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.
#
#

from qubes.qubes import QubesVmCollection
from qubes.qubes import QubesHost
from qubes.qubes import QubesException
from argparse import ArgumentParser
import sys


fields = {
    "qid": {"func": "vm.qid"},

    "name": {"func": "('=>' if qvm_collection.get_default_template() is not None\
             and vm.qid == qvm_collection.get_default_template().qid else '')\
             + ('[' if vm.is_template() else '')\
             + ('<' if vm.is_disposablevm() else '')\
             + ('{' if vm.is_netvm() else '')\
             + vm.name \
             + (']' if vm.is_template() else '')\
             + ('>' if vm.is_disposablevm() else '')\
             + ('}' if vm.is_netvm() else '')"},

    "type": {"func": "'HVM' if vm.type == 'HVM' else \
             ('Tpl' if vm.is_template() else \
             ('' if vm.type in ['AppVM', 'DisposableVM'] else \
             vm.type.replace('VM','')))"},

    "updbl" : {"func": "'Yes' if vm.updateable else ''"},

    "template": {"func": "'n/a' if vm.is_template() else\
                 ('None' if vm.template is None else\
                 vm.template.name)"},

    "netvm": {"func": "'n/a' if vm.is_netvm() and not vm.is_proxyvm() else\
              ('*' if vm.uses_default_netvm else '') +\
              qvm_collection[vm.netvm.qid].name\
                     if vm.netvm is not None else '-'"},

    "ip" : {"func": "vm.ip"},
    "ip back" : {"func": "vm.gateway if vm.is_netvm() else 'n/a'"},
    "gateway/DNS" : {"func": "vm.netvm.gateway if vm.netvm else 'n/a'"},

    "xid" : {"func" : "vm.get_xid() if vm.is_running() else '-'"},

    "mem" : {"func" : "(str(vm.get_mem()/1024) + ' MB') if vm.is_running() else '-'"},
    "cpu" : {"func" : "round (cpu_usages[vm.get_xid()]['cpu_usage'], 1) if vm.is_running() else '-'"},
    "disk": {"func" : "str(vm.get_disk_utilization()/(1024*1024)) + ' MB'"}, 
    "state": {"func" : "vm.get_power_state()"},

    "priv-curr": {"func" : "str(vm.get_disk_utilization_private_img()/(1024*1024)) + ' MB'"},
    "priv-max": {"func" : "str(vm.get_private_img_sz()/(1024*1024)) + ' MB'"},
    "priv-util": {"func" : "str(vm.get_disk_utilization_private_img()*100/vm.get_private_img_sz()) + '%' if vm.get_private_img_sz() != 0 else '-'"},

    "root-curr": {"func" : "str(vm.get_disk_utilization_root_img()/(1024*1024)) + ' MB'"},
    "root-max": {"func" : "str(vm.get_root_img_sz()/(1024*1024)) + ' MB'"},
    "root-util": {"func" : "str(vm.get_disk_utilization_root_img()*100/vm.get_root_img_sz()) + '%' if vm.get_root_img_sz() != 0 else '-'"},

    "label" : {"func" : "vm.label.name"},

    "kernel" : {"func" : "('*' if vm.uses_default_kernel else '') + str(vm.kernel) if hasattr(vm, 'kernel') else 'n/a'"},
    "kernelopts" : {"func" : "('*' if vm.uses_default_kernelopts else '') + str(vm.kernelopts) if hasattr(vm, 'kernelopts') else 'n/a'"},

    "on" : {"func" : "'*' if vm.is_running() else ''"},

    "last backup" : {"func": "str(vm.backup_timestamp.date()) if "
                             "vm.backup_timestamp else '-'"},

}



def main():
    usage = "%(prog)s [options]"
    parser = ArgumentParser ()

    parser.add_argument ("VMs", action="store", nargs="*",
                        help="Specify VMs to be queried")

    parser.add_argument ("-n", "--network", dest="network",
                       action="store_true", default=False,
                       help="Show network addresses assigned to VMs")

    parser.add_argument ("-c", "--cpu", dest="cpu",
                       action="store_true", default=False,
                       help="Show CPU load")

    parser.add_argument ("-m", "--mem", dest="mem",
                       action="store_true", default=False,
                       help="Show memory usage")

    parser.add_argument ("-d", "--disk", dest="disk",
                       action="store_true", default=False,
                       help="Show VM disk utilization statistics")

    parser.add_argument ("-k", "--kernel", dest="kernel",
                       action="store_true", default=False,
                       help="Show VM kernel arguments")

    parser.add_argument ("-i", "--ids", dest="ids",
                       action="store_true", default=False,
                       help="Show Qubes and Xen id#s")

    parser.add_argument("-b", "--last-backup", dest="backup",
                      action="store_true", default=False,
                      help="Show date of last VM backup")

    parser.add_argument("--raw-list", dest="raw_list",
                      action="store_true", default=False,
                      help="List only VM names one per line")

    parser.add_argument("--raw-data", dest="raw_data",
                        action="store", nargs="+",
                        help="Display specify data of specified VMs.\
                              Intended for bash-parsing.")


    arguments = parser.parse_args ()

    qvm_collection = QubesVmCollection()
    qvm_collection.lock_db_for_reading()
    qvm_collection.load()
    qvm_collection.unlock_db()

    if arguments.raw_list:
        for vm in qvm_collection.values():
            print vm.name
        return

    cpu_usages = None

    if arguments.raw_data:
        fields_to_display = arguments.raw_data
        if 'cpu' in arguments.raw_data:
            qhost = QubesHost()
            (measure_time, cpu_usages) = qhost.measure_cpu_usage(qvm_collection)
    else:
        fields_to_display = ["name", "on", "state", "updbl", "type", "template", "netvm", "label" ]

        if (arguments.ids):
            fields_to_display += ["qid", "xid"]

        if (arguments.cpu):
            qhost = QubesHost()
            (measure_time, cpu_usages) = qhost.measure_cpu_usage(qvm_collection)
            fields_to_display += ["cpu"]

        if (arguments.mem):
            fields_to_display += ["mem"]

        if arguments.backup:
            fields_to_display += ["last backup"]

        if (arguments.network):
            if 'template' in fields_to_display:
                fields_to_display.remove ("template")
            fields_to_display += ["ip", "ip back", "gateway/DNS"]

        if (arguments.disk):
            if 'template' in fields_to_display:
                fields_to_display.remove ("template")
            if 'netvm' in fields_to_display:
                fields_to_display.remove ("netvm")
            fields_to_display += ["priv-curr", "priv-max", "root-curr", "root-max", "disk" ]

        if (arguments.kernel):
            fields_to_display += ["kernel", "kernelopts" ]

    
    vms_list = [vm for vm in qvm_collection.values()]
    #assume VMs are presented in desired order:
    if len(arguments.VMs) > 0:
        vms_to_display = [vm for vm in vms_list if vm.name in arguments.VMs]
    #otherwise, format them accordingly:
    else:
        no_vms = len (vms_list)
        vms_to_display = []
        # Frist, the NetVMs...
        for netvm in vms_list:
            if netvm.is_netvm():
                vms_to_display.append (netvm)

        # Now, the AppVMs without template (or with template not included in the list)...
        for appvm in vms_list:
            if appvm.is_appvm() and not appvm.is_template() and \
                (appvm.template is None or appvm.template not in vms_list):
                vms_to_display.append (appvm)

        # Now, the template, and all its AppVMs...
        for tvm in vms_list:
            if tvm.is_template():
                vms_to_display.append (tvm)
                for vm in vms_list:
                    if (vm.is_appvm() or vm.is_disposablevm()) and \
                vm.template and vm.template.qid == tvm.qid:
                        vms_to_display.append(vm)

        assert len(vms_to_display) == no_vms

    #We DON'T NEED a max_width if we devide output by pipes!

    # First calculate the maximum width of each field we want to display
    #  also collect data to display
    for f in fields_to_display:
        fields[f]["max_width"] = len(f)


    data_to_display = []
    for vm in vms_to_display:
        data_row = {}
        for f in fields_to_display:
            if vm.qid == 0 and (f.startswith('priv-') or f.startswith('root-') or f == 'disk'):
                data_row[f] = 'n/a'
            else:
                data_row[f] = str(eval(fields[f]["func"]))
            l = len(data_row[f])
            if 'max_width' in fields[f] and l > fields[f]["max_width"]:
                fields[f]["max_width"] = l
        data_to_display.append(data_row)
        try:
            vm.verify_files()
        except QubesException as err:
            print >> sys.stderr, "WARNING: VM '{0}' has corrupted files!".format(vm.name)

    #Nicely formatted header only needed for humans
    if not arguments.raw_data:
        # Display the header
        s = ""
        for f in fields_to_display:
            fmt="{{0:-^{0}}}-+".format(fields[f]["max_width"] + 1)
            s += fmt.format('-')
        print s
        s = ""
        for f in fields_to_display:
            fmt="{{0:>{0}}} |".format(fields[f]["max_width"] + 1)
            s += fmt.format(f) 
        print s
        s = ""
        for f in fields_to_display:
            fmt="{{0:-^{0}}}-+".format(fields[f]["max_width"] + 1)
            s += fmt.format('-')
        print s

        # ... and the actual data
        for row in data_to_display:
            s = ""
            for f in fields_to_display:
                fmt="{{0:>{0}}} |".format(fields[f]["max_width"] + 1)
                s += fmt.format(row[f]) 
            print s

    #won't look pretty, but is easy to parse!
    else:
        for row in data_to_display:
            print '|'.join([row[f] for f in fields_to_display])

main()