/usr/share/pyshared/openstack/compute/shell.py is in python-openstack-compute 2.0a1-0ubuntu3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Command-line interface to the OpenStack Compute API.
"""
import argparse
import getpass
import httplib2
import os
import prettytable
import sys
from openstack import compute
# Choices for flags.
DAY_CHOICES = [getattr(compute, i).lower()
for i in dir(compute)
if i.startswith('BACKUP_WEEKLY_')]
HOUR_CHOICES = [getattr(compute, i).lower()
for i in dir(compute)
if i.startswith('BACKUP_DAILY_')]
def pretty_choice_list(l): return ', '.join("'%s'" % i for i in l)
# Sentinal for boot --key
AUTO_KEY = object()
# Decorator for args
def arg(*args, **kwargs):
def _decorator(func):
# Because of the sematics of decorator composition if we just append
# to the options list positional options will appear to be backwards.
func.__dict__.setdefault('arguments', []).insert(0, (args, kwargs))
return func
return _decorator
class CommandError(Exception):
pass
def env(e):
return os.environ.get(e, '')
class ComputeShell(object):
# Hook for the test suite to inject a fake server.
_api_class = compute.Compute
def __init__(self):
self.parser = argparse.ArgumentParser(
prog = 'openstack-compute',
description = __doc__.strip(),
epilog = 'See "openstack-compute help COMMAND" for help on a specific command.',
add_help = False,
formatter_class = ComputeHelpFormatter,
)
# Global arguments
self.parser.add_argument('-h', '--help',
action = 'help',
help = argparse.SUPPRESS,
)
self.parser.add_argument('--debug',
default = False,
action = 'store_true',
help = argparse.SUPPRESS)
self.parser.add_argument('-f', '--config-file',
metavar = 'PATH',
default = None,
help = 'Path to config file (default: ~/.openstack/compute.conf)')
self.parser.add_argument('--username',
help = 'Account username. Required if not in a config file/environ.')
self.parser.add_argument('--apikey',
help = 'Account API key. Required if not in a config file/environ.')
self.parser.add_argument('--auth-url',
help = "Service URL (default: Rackspace's US auth URL)")
self.parser.add_argument('--allow-cache',
action = 'store_true',
default = False,
help = "Allow the API to returned cached results.")
self.parser.add_argument('--cloud-api',
help = "API of the cloud service to be managed: either RACKSPACE or OPENSTACK")
# Subcommands
subparsers = self.parser.add_subparsers(metavar='<subcommand>')
self.subcommands = {}
# Everything that's do_* is a subcommand.
for attr in (a for a in dir(self) if a.startswith('do_')):
# I prefer to be hypen-separated instead of underscores.
command = attr[3:].replace('_', '-')
callback = getattr(self, attr)
desc = callback.__doc__ or ''
help = desc.strip().split('\n')[0]
arguments = getattr(callback, 'arguments', [])
subparser = subparsers.add_parser(command,
help = help,
description = desc,
add_help=False,
formatter_class = ComputeHelpFormatter
)
subparser.add_argument('-h', '--help',
action = 'help',
help = argparse.SUPPRESS,
)
self.subcommands[command] = subparser
for (args, kwargs) in arguments:
subparser.add_argument(*args, **kwargs)
subparser.set_defaults(func=callback)
def main(self, argv):
# Parse args and call whatever callback was selected
args = self.parser.parse_args(argv)
# Short-circuit and deal with help right away.
if args.func == self.do_help:
self.do_help(args)
return 0
# Deal with global arguments
if args.debug:
httplib2.debuglevel = 1
self.compute = self._api_class(
config_file = args.config_file,
username = args.username,
apikey = args.apikey,
auth_url = args.auth_url,
allow_cache = args.allow_cache,
)
if not self.compute.config.username:
raise CommandError("You must provide a username, either via "
"--username or env[OPENSTACK_COMPUTE_USERNAME], "
"or a config file.")
if not self.compute.config.apikey:
raise CommandError("You must provide an API key, either via "
"--apikey or via env[OPENSTACK_COMPUTE_APIKEY], "
"or a config file.")
try:
self.compute.authenticate()
except compute.Unauthorized:
raise CommandError("Invalid Cloud Servers credentials.")
args.func(args)
@arg('command', metavar='<subcommand>', nargs='?', help='Display help for <subcommand>')
def do_help(self, args):
"""
Display help about this program or one of its subcommands.
"""
if args.command:
if args.command in self.subcommands:
self.subcommands[args.command].print_help()
else:
raise CommandError("'%s' is not a valid subcommand." % args.command)
else:
self.parser.print_help()
@arg('server', metavar='<server>', help='Name or ID of server.')
@arg('--enable', dest='enabled', default=None, action='store_true', help='Enable backups.')
@arg('--disable', dest='enabled', action='store_false', help='Disable backups.')
@arg('--weekly', metavar='<day>', choices=DAY_CHOICES,
help='Schedule a weekly backup for <day> (one of: %s).' % pretty_choice_list(DAY_CHOICES))
@arg('--daily', metavar='<time-window>', choices=HOUR_CHOICES,
help='Schedule a daily backup during <time-window> (one of: %s).' % pretty_choice_list(HOUR_CHOICES))
def do_backup_schedule(self, args):
"""
Show or edit the backup schedule for a server.
With no flags, the backup schedule will be shown. If flags are given,
the backup schedule will be modified accordingly.
"""
server = self._find_server(args.server)
# If we have some flags, update the backup
backup = {}
if args.daily:
backup['daily'] = getattr(compute, 'BACKUP_DAILY_%s' % args.daily.upper())
if args.weekly:
backup['weekly'] = getattr(compute, 'BACKUP_WEEKLY_%s' % args.weekly.upper())
if args.enabled is not None:
backup['enabled'] = args.enabled
if backup:
server.backup_schedule.update(**backup)
else:
print_dict(server.backup_schedule._info)
@arg('server', metavar='<server>', help='Name or ID of server.')
def do_backup_schedule_delete(self, args):
"""
Delete the backup schedule for a server.
"""
server = self._find_server(args.server)
server.backup_schedule.delete()
@arg('--flavor',
default = None,
metavar = '<flavor>',
help = "Flavor ID (see 'cloudservers flavors'). Defaults to 256MB RAM instance.")
@arg('--image',
default = None,
metavar = '<image>',
help = "Image ID (see 'cloudservers images'). Defaults to Ubuntu 10.04 LTS.")
@arg('--ipgroup',
default = None,
metavar = '<group>',
help = "IP group name or ID (see 'cloudservers ipgroup-list'). DEPRICATED in OpenStack")
@arg('--meta',
metavar = "<key=value>",
action = 'append',
default = [],
help = "Record arbitrary key/value metadata. May be give multiple times.")
@arg('--file',
metavar = "<dst-path=src-path>",
action = 'append',
dest = 'files',
default = [],
help = "Store arbitrary files from <src-path> locally to <dst-path> "\
"on the new server. You may store up to 5 files.")
@arg('--key',
metavar = '<path>',
nargs = '?',
const = AUTO_KEY,
help = "Key the server with an SSH keypair. Looks in ~/.ssh for a key, "\
"or takes an explicit <path> to one.")
@arg('name', metavar='<name>', help='Name for the new server')
def do_boot(self, args):
"""Boot a new server."""
flavor = args.flavor or self.compute.flavors.find(ram=256)
image = args.image or self.compute.images.find(name="Ubuntu 10.04 LTS (lucid)")
# Map --ipgroup <name> to an ID.
# XXX do this for flavor/image?
if args.ipgroup:
ipgroup = self._find_ipgroup(args.ipgroup)
else:
ipgroup = None
metadata = dict(v.split('=') for v in args.meta)
files = {}
for f in args.files:
dst, src = f.split('=', 1)
try:
files[dst] = open(src)
except IOError, e:
raise CommandError("Can't open '%s': %s" % (src, e))
if args.key is AUTO_KEY:
possible_keys = [os.path.join(os.path.expanduser('~'), '.ssh', k)
for k in ('id_dsa.pub', 'id_rsa.pub')]
for k in possible_keys:
if os.path.exists(k):
keyfile = k
break
else:
raise CommandError("Couldn't find a key file: tried ~/.ssh/id_dsa.pub or ~/.ssh/id_rsa.pub")
elif args.key:
keyfile = args.key
else:
keyfile = None
if keyfile:
try:
files['/root/.ssh/authorized_keys2'] = open(keyfile)
except IOError, e:
raise CommandError("Can't open '%s': %s" % (keyfile, e))
server = self.compute.servers.create(args.name, image, flavor, ipgroup, metadata, files)
print_dict(server._info)
def do_flavor_list(self, args):
"""Print a list of available 'flavors' (sizes of servers)."""
print_list(self.compute.flavors.list(), ['ID', 'Name', 'RAM', 'Disk'])
def do_image_list(self, args):
"""Print a list of available images to boot from."""
print_list(self.compute.images.list(), ['ID', 'Name', 'Status'])
@arg('server', metavar='<server>', help='Name or ID of server.')
@arg('name', metavar='<name>', help='Name for the new image.')
def do_image_create(self, args):
"""Create a new image by taking a snapshot of a running server."""
server = self._find_server(args.server)
image = self.compute.images.create(args.name, server)
print_dict(image._info)
@arg('image', metavar='<image>', help='Name or ID of image.')
def do_image_delete(self, args):
"""
Delete an image.
It should go without saying, but you cn only delete images you
created.
"""
image = self._find_image(args.image)
image.delete()
@arg('server', metavar='<server>', help='Name or ID of server.')
@arg('group', metavar='<group>', help='Name or ID of group.')
@arg('address', metavar='<address>', help='IP address to share.')
def do_ip_share(self, args):
"""Share an IP address from the given IP group onto a server."""
server = self._find_server(args.server)
group = self._find_ipgroup(args.group)
server.share_ip(group, args.address)
@arg('server', metavar='<server>', help='Name or ID of server.')
@arg('address', metavar='<address>', help='Shared IP address to remove from the server.')
def do_ip_unshare(self, args):
"""Stop sharing an given address with a server."""
server = self._find_server(args.server)
server.unshare_ip(args.address)
def do_ipgroup_list(self, args):
"""Show IP groups."""
def pretty_server_list(ipgroup):
return ", ".join(self.compute.servers.get(id).name for id in ipgroup.servers)
print_list(self.compute.ipgroups.list(),
fields = ['ID', 'Name', 'Server List'],
formatters = {'Server List': pretty_server_list})
@arg('group', metavar='<group>', help='Name or ID of group.')
def do_ipgroup_show(self, args):
"""Show details about a particular IP group."""
group = self._find_ipgroup(args.group)
print_dict(group._info)
@arg('name', metavar='<name>', help='What to name this new group.')
@arg('server', metavar='<server>', nargs='?',
help='Server (name or ID) to make a member of this new group.')
def do_ipgroup_create(self, args):
"""Create a new IP group."""
if args.server:
server = self._find_server(args.server)
else:
server = None
group = self.compute.ipgroups.create(args.name, server)
print_dict(group._info)
@arg('group', metavar='<group>', help='Name or ID of group.')
def do_ipgroup_delete(self, args):
"""Delete an IP group."""
self._find_ipgroup(args.group).delete()
def do_list(self, args):
"""List active servers."""
print_list(self.compute.servers.list(), ['ID', 'Name', 'Status', 'Public IP', 'Private IP'])
@arg('--hard',
dest = 'reboot_type',
action = 'store_const',
const = compute.REBOOT_HARD,
default = compute.REBOOT_SOFT,
help = 'Perform a hard reboot (instead of a soft one).')
@arg('server', metavar='<server>', help='Name or ID of server.')
def do_reboot(self, args):
"""Reboot a server."""
self._find_server(args.server).reboot(args.reboot_type)
@arg('server', metavar='<server>', help='Name or ID of server.')
@arg('image', metavar='<image>', help="Name or ID of new image.")
def do_rebuild(self, args):
"""Shutdown, re-image, and re-boot a server."""
server = self._find_server(args.server)
image = self._find_image(args.image)
server.rebuild(image)
@arg('server', metavar='<server>', help='Name (old name) or ID of server.')
@arg('name', metavar='<name>', help='New name for the server.')
def do_rename(self, args):
"""Rename a server."""
self._find_server(args.server).update(name=args.name)
@arg('server', metavar='<server>', help='Name or ID of server.')
@arg('flavor', metavar='<flavor>', help = "Name or ID of new flavor.")
def do_resize(self, args):
"""Resize a server."""
server = self._find_server(args.server)
flavor = self._find_flavor(args.flavor)
server.resize(flavor)
@arg('server', metavar='<server>', help='Name or ID of server.')
def do_resize_confirm(self, args):
"""Confirm a previous resize."""
self._find_server(args.server).confirm_resize()
@arg('server', metavar='<server>', help='Name or ID of server.')
def do_resize_revert(self, args):
"""Revert a previous resize (and return to the previous VM)."""
self._find_server(args.server).revert_resize()
@arg('server', metavar='<server>', help='Name or ID of server.')
def do_root_password(self, args):
"""
Change the root password for a server.
"""
server = self._find_server(args.server)
p1 = getpass.getpass('New password: ')
p2 = getpass.getpass('Again: ')
if p1 != p2:
raise CommandError("Passwords do not match.")
server.update(password=p1)
@arg('server', metavar='<server>', help='Name or ID of server.')
def do_show(self, args):
"""Show details about the given server."""
s = self.compute.servers.get(self._find_server(args.server))
info = s._info.copy()
addresses = info.pop('addresses')
for addrtype in addresses:
info['%s ip' % addrtype] = ', '.join(addresses[addrtype])
info['flavor'] = self._find_flavor(info.pop('flavorId')).name
info['image'] = self._find_image(info.pop('imageId')).name
print_dict(info)
@arg('server', metavar='<server>', help='Name or ID of server.')
def do_delete(self, args):
"""Immediately shut down and delete a server."""
self._find_server(args.server).delete()
def _find_server(self, server):
"""Get a server by name or ID."""
return self._find_resource(self.compute.servers, server)
def _find_ipgroup(self, group):
"""Get an IP group by name or ID."""
return self._find_resource(self.compute.ipgroups, group)
def _find_image(self, image):
"""Get an image by name or ID."""
return self._find_resource(self.compute.images, image)
def _find_flavor(self, flavor):
"""Get a flavor by name, ID, or RAM size."""
try:
return self._find_resource(self.compute.flavors, flavor)
except compute.NotFound:
return self.compute.flavors.find(ram=flavor)
def _find_resource(self, manager, name_or_id):
"""Helper for the _find_* methods."""
try:
if isinstance(name_or_id, int) or name_or_id.isdigit():
return manager.get(int(name_or_id))
else:
return manager.find(name=name_or_id)
except compute.NotFound:
raise CommandError("No %s with a name or ID of '%s' exists."
% (manager.resource_class.__name__.lower(), name_or_id))
# I'm picky about my shell help.
class ComputeHelpFormatter(argparse.HelpFormatter):
def start_section(self, heading):
# Title-case the headings
heading = '%s%s' % (heading[0].upper(), heading[1:])
super(ComputeHelpFormatter, self).start_section(heading)
# Helpers
def print_list(objs, fields, formatters={}):
pt = prettytable.PrettyTable([f for f in fields], caching=False)
pt.aligns = ['l' for f in fields]
for o in objs:
row = []
for field in fields:
if field in formatters:
row.append(formatters[field](o))
else:
row.append(getattr(o, field.lower().replace(' ', '_'), ''))
pt.add_row(row)
pt.printt(sortby=fields[0])
def print_dict(d):
pt = prettytable.PrettyTable(['Property', 'Value'], caching=False)
pt.aligns = ['l', 'l']
[pt.add_row(list(r)) for r in d.iteritems()]
pt.printt(sortby='Property')
def main():
try:
ComputeShell().main(sys.argv[1:])
except CommandError, e:
print >> sys.stderr, e
sys.exit(1)
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