#!/usr/bin/python # coding=utf-8 # command line interface for the Koji build system # Copyright (c) 2005-2014 Red Hat, Inc. # # Koji is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; # version 2.1 of the License. # # This software 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 # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this software; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA # # Authors: # Dennis Gregorovic # Mike McLean # Mike Bonnet # Cristian Balint from __future__ import absolute_import from __future__ import division import sys from six.moves import range from six.moves import zip import six from six.moves import filter from six.moves import map try: import krbV except ImportError: # pragma: no cover krbV = None try: import ast except ImportError: # pragma: no cover ast = None try: import json except ImportError: # pragma: no cover try: import simplejson as json except ImportError: json = None import six.moves.configparser import base64 import dateutil.parser import errno import koji import koji.util import fnmatch from koji.util import md5_constructor import logging import os import re import pprint import pycurl import random import socket import stat import string import time import traceback import six.moves.xmlrpc_client try: import libcomps except ImportError: # pragma: no cover libcomps = None try: import yum.comps as yumcomps except ImportError: yumcomps = None import optparse # fix OptionParser for python 2.3 (optparse verion 1.4.1+) # code taken from optparse version 1.5a2 OptionParser = optparse.OptionParser if optparse.__version__ == "1.4.1+": # pragma: no cover def _op_error(self, msg): self.print_usage(sys.stderr) msg = "%s: error: %s\n" % (self._get_prog_name(), msg) if msg: sys.stderr.write(msg) sys.exit(2) OptionParser.error = _op_error greetings = ('hello', 'hi', 'yo', "what's up", "g'day", 'back to work', 'bonjour', 'hallo', 'ciao', 'hola', u'olá', u'dobrý den', u'zdravstvuite', u'góðan daginn', 'hej', 'tervehdys', u'grüezi', u'céad míle fáilte', u'hylô', u'bună ziua', u'jó napot', 'dobre dan', u'你好', u'こんにちは', u'नमस्कार', u'안녕하세요') def _(args): """Stub function for translation""" return args ARGMAP = {'None': None, 'True': True, 'False': False} def arg_filter(arg): try: return int(arg) except ValueError: pass try: return float(arg) except ValueError: pass if arg in ARGMAP: return ARGMAP[arg] #handle lists/dicts? return arg categories = { 'admin' : 'admin commands', 'build' : 'build commands', 'search' : 'search commands', 'download' : 'download commands', 'monitor' : 'monitor commands', 'info' : 'info commands', 'bind' : 'bind commands', 'misc' : 'miscellaneous commands', } def get_epilog_str(progname=None): if progname is None: progname = os.path.basename(sys.argv[0]) or 'koji' categories_ordered=', '.join(sorted(['all'] + list(categories.keys()))) epilog_str = ''' Try "%(progname)s --help" for help about global options Try "%(progname)s help" to get all available commands Try "%(progname)s --help" for help about the options of a particular command Try "%(progname)s help " to get commands under a particular category Available categories are: %(categories)s ''' % ({'progname': progname, 'categories': categories_ordered}) return _(epilog_str) def get_options(): """process options from command line and config file""" common_commands = ['build', 'help', 'download-build', 'latest-pkg', 'search', 'list-targets'] usage = _("%%prog [global-options] command [command-options-and-arguments]" "\n\nCommon commands: %s" % ', '.join(sorted(common_commands))) parser = OptionParser(usage=usage) parser.disable_interspersed_args() progname = os.path.basename(sys.argv[0]) or 'koji' parser.__dict__['origin_format_help'] = parser.format_help parser.__dict__['format_help'] = lambda formatter=None: ( "%(origin_format_help)s%(epilog)s" % ({ 'origin_format_help': parser.origin_format_help(formatter), 'epilog': get_epilog_str()})) parser.add_option("-c", "--config", dest="configFile", help=_("use alternate configuration file"), metavar="FILE") parser.add_option("-p", "--profile", default=progname, help=_("specify a configuration profile")) parser.add_option("--keytab", help=_("specify a Kerberos keytab to use"), metavar="FILE") parser.add_option("--principal", help=_("specify a Kerberos principal to use")) parser.add_option("--krbservice", help=_("specify the Kerberos service name for the hub")) parser.add_option("--runas", help=_("run as the specified user (requires special privileges)")) parser.add_option("--user", help=_("specify user")) parser.add_option("--password", help=_("specify password")) parser.add_option("--noauth", action="store_true", default=False, help=_("do not authenticate")) parser.add_option("--force-auth", action="store_true", default=False, help=_("authenticate even for read-only operations")) parser.add_option("--authtype", help=_("force use of a type of authentication, options: noauth, ssl, password, or kerberos")) parser.add_option("-d", "--debug", action="store_true", help=_("show debug output")) parser.add_option("--debug-xmlrpc", action="store_true", help=_("show xmlrpc debug output")) parser.add_option("-q", "--quiet", action="store_true", default=False, help=_("run quietly")) parser.add_option("--skip-main", action="store_true", default=False, help=_("don't actually run main")) parser.add_option("-s", "--server", help=_("url of XMLRPC server")) parser.add_option("--topdir", help=_("specify topdir")) parser.add_option("--weburl", help=_("url of the Koji web interface")) parser.add_option("--topurl", help=_("url for Koji file access")) parser.add_option("--pkgurl", help=optparse.SUPPRESS_HELP) parser.add_option("--help-commands", action="store_true", default=False, help=_("list commands")) (options, args) = parser.parse_args() if options.help_commands: list_commands() sys.exit(0) if not args: list_commands() sys.exit(0) aliases = { 'cancel-task' : 'cancel', 'cxl' : 'cancel', 'list-commands' : 'help', 'move-pkg': 'move-build', 'move': 'move-build', 'latest-pkg': 'latest-build', 'tag-pkg': 'tag-build', 'tag': 'tag-build', 'untag-pkg': 'untag-build', 'untag': 'untag-build', 'watch-tasks': 'watch-task', } cmd = args[0] cmd = aliases.get(cmd, cmd) if cmd.lower() in greetings: cmd = "moshimoshi" cmd = cmd.replace('-', '_') if ('anon_handle_' + cmd) in globals(): if not options.force_auth and '--mine' not in args: options.noauth = True cmd = 'anon_handle_' + cmd elif ('handle_' + cmd) in globals(): cmd = 'handle_' + cmd else: list_commands() parser.error('Unknown command: %s' % args[0]) assert False # pragma: no cover # load local config try: result = koji.read_config(options.profile, user_config=options.configFile) except koji.ConfigurationError as e: parser.error(e.args[0]) assert False # pragma: no cover # update options according to local config for name, value in six.iteritems(result): if getattr(options, name, None) is None: setattr(options, name, value) dir_opts = ('topdir', 'cert', 'serverca') for name in dir_opts: # expand paths here, so we don't have to worry about it later value = os.path.expanduser(getattr(options, name)) setattr(options, name, value) #honor topdir if options.topdir: koji.BASEDIR = options.topdir koji.pathinfo.topdir = options.topdir #pkgurl is obsolete if options.pkgurl: if options.topurl: warn("Warning: the pkgurl option is obsolete") else: suggest = re.sub(r'/packages/?$', '', options.pkgurl) if suggest != options.pkgurl: warn("Warning: the pkgurl option is obsolete, using topurl=%r" % suggest) options.topurl = suggest else: warn("Warning: The pkgurl option is obsolete, please use topurl instead") return options, cmd, args[1:] def ensure_connection(session): try: ret = session.getAPIVersion() except six.moves.xmlrpc_client.ProtocolError: error(_("Error: Unable to connect to server")) if ret != koji.API_VERSION: warn(_("WARNING: The server is at API version %d and the client is at %d" % (ret, koji.API_VERSION))) def print_task_headers(): """Print the column headers""" print("ID Pri Owner State Arch Name") def print_task(task,depth=0): """Print a task""" task = task.copy() task['state'] = koji.TASK_STATES.get(task['state'],'BADSTATE') fmt = "%(id)-8s %(priority)-4s %(owner_name)-20s %(state)-8s %(arch)-10s " if depth: indent = " "*(depth-1) + " +" else: indent = '' label = koji.taskLabel(task) print(''.join([fmt % task, indent, label])) def print_task_recurse(task,depth=0): """Print a task and its children""" print_task(task,depth) for child in task.get('children',()): print_task_recurse(child,depth+1) def parse_arches(arches, to_list=False): """Parse comma or space-separated list of arches and return only space-separated one.""" arches = arches.replace(',', ' ').split() if to_list: return arches else: return ' '.join(arches) class TaskWatcher(object): def __init__(self,task_id,session,level=0,quiet=False): self.id = task_id self.session = session self.info = None self.level = level self.quiet = quiet #XXX - a bunch of this stuff needs to adapt to different tasks def str(self): if self.info: label = koji.taskLabel(self.info) return "%s%d %s" % (' ' * self.level, self.id, label) else: return "%s%d" % (' ' * self.level, self.id) def __str__(self): return self.str() def get_failure(self): """Print infomation about task completion""" if self.info['state'] != koji.TASK_STATES['FAILED']: return '' error = None try: result = self.session.getTaskResult(self.id) except (six.moves.xmlrpc_client.Fault,koji.GenericError) as e: error = e if error is None: # print("%s: complete" % self.str()) # We already reported this task as complete in update() return '' else: return '%s: %s' % (error.__class__.__name__, str(error).strip()) def update(self): """Update info and log if needed. Returns True on state change.""" if self.is_done(): # Already done, nothing else to report return False last = self.info self.info = self.session.getTaskInfo(self.id, request=True) if self.info is None: if not self.quiet: print("No such task id: %i" % self.id) sys.exit(1) state = self.info['state'] if last: #compare and note status changes laststate = last['state'] if laststate != state: if not self.quiet: print("%s: %s -> %s" % (self.str(), self.display_state(last), self.display_state(self.info))) return True return False else: # First time we're seeing this task, so just show the current state if not self.quiet: print("%s: %s" % (self.str(), self.display_state(self.info))) return False def is_done(self): if self.info is None: return False state = koji.TASK_STATES[self.info['state']] return (state in ['CLOSED','CANCELED','FAILED']) def is_success(self): if self.info is None: return False state = koji.TASK_STATES[self.info['state']] return (state == 'CLOSED') def display_state(self, info): # We can sometimes be passed a task that is not yet open, but # not finished either. info would be none. if not info: return 'unknown' if info['state'] == koji.TASK_STATES['OPEN']: if info['host_id']: host = self.session.getHost(info['host_id']) return 'open (%s)' % host['name'] else: return 'open' elif info['state'] == koji.TASK_STATES['FAILED']: return 'FAILED: %s' % self.get_failure() else: return koji.TASK_STATES[info['state']].lower() def display_tasklist_status(tasks): free = 0 open = 0 failed = 0 done = 0 for task_id in tasks.keys(): status = tasks[task_id].info['state'] if status == koji.TASK_STATES['FAILED']: failed += 1 elif status == koji.TASK_STATES['CLOSED'] or status == koji.TASK_STATES['CANCELED']: done += 1 elif status == koji.TASK_STATES['OPEN'] or status == koji.TASK_STATES['ASSIGNED']: open += 1 elif status == koji.TASK_STATES['FREE']: free += 1 print(" %d free %d open %d done %d failed" % (free, open, done, failed)) def display_task_results(tasks): for task in [task for task in tasks.values() if task.level == 0]: state = task.info['state'] task_label = task.str() if state == koji.TASK_STATES['CLOSED']: print('%s completed successfully' % task_label) elif state == koji.TASK_STATES['FAILED']: print('%s failed' % task_label) elif state == koji.TASK_STATES['CANCELED']: print('%s was canceled' % task_label) else: # shouldn't happen print('%s has not completed' % task_label) def watch_tasks(session,tasklist,quiet=False): global options if not tasklist: return if not quiet: print("Watching tasks (this may be safely interrupted)...") sys.stdout.flush() rv = 0 try: tasks = {} for task_id in tasklist: tasks[task_id] = TaskWatcher(task_id,session,quiet=quiet) while True: all_done = True for task_id,task in tasks.items(): changed = task.update() if not task.is_done(): all_done = False else: if changed: # task is done and state just changed if not quiet: display_tasklist_status(tasks) if not task.is_success(): rv = 1 for child in session.getTaskChildren(task_id): child_id = child['id'] if not child_id in list(tasks.keys()): tasks[child_id] = TaskWatcher(child_id, session, task.level + 1, quiet=quiet) tasks[child_id].update() # If we found new children, go through the list again, # in case they have children also all_done = False if all_done: if not quiet: print('') display_task_results(tasks) break sys.stdout.flush() time.sleep(options.poll_interval) except KeyboardInterrupt: if tasks and not quiet: progname = os.path.basename(sys.argv[0]) or 'koji' tlist = ['%s: %s' % (t.str(), t.display_state(t.info)) for t in tasks.values() if not t.is_done()] print( \ """Tasks still running. You can continue to watch with the '%s watch-task' command. Running Tasks: %s""" % (progname, '\n'.join(tlist))) raise return rv def watch_logs(session, tasklist, opts): global options print("Watching logs (this may be safely interrupted)...") def _isDone(session, taskId): info = session.getTaskInfo(taskId) if info is None: print("No such task id: %i" % taskId) sys.exit(1) state = koji.TASK_STATES[info['state']] return (state in ['CLOSED','CANCELED','FAILED']) offsets = {} for task_id in tasklist: offsets[task_id] = {} lastlog = None while True: for task_id in tasklist[:]: if _isDone(session, task_id): tasklist.remove(task_id) output = list_task_output_all_volumes(session, task_id) # convert to list of (file, volume) files = [] for filename, volumes in six.iteritems(output): files += [(filename, volume) for volume in volumes] if opts.log: logs = [file_volume for file_volume in files if file_volume[0] == opts.log] else: logs = [file_volume for file_volume in files if file_volume[0].endswith('log')] taskoffsets = offsets[task_id] for log, volume in logs: contents = 'placeholder' while contents: if (log, volume) not in taskoffsets: taskoffsets[(log, volume)] = 0 contents = session.downloadTaskOutput(task_id, log, taskoffsets[(log, volume)], 16384, volume=volume) taskoffsets[(log, volume)] += len(contents) if contents: currlog = "%d:%s:%s:" % (task_id, volume, log) if currlog != lastlog: if lastlog: sys.stdout.write("\n") sys.stdout.write("==> %s <==\n" % currlog) lastlog = currlog sys.stdout.write(contents) if not tasklist: break time.sleep(options.poll_interval) def list_task_output_all_volumes(session, task_id): """List task output with all volumes, or fake it""" try: return session.listTaskOutput(task_id, all_volumes=True) except koji.GenericError as e: if 'got an unexpected keyword argument' not in str(e): raise # otherwise leave off the option and fake it output = session.listTaskOutput(task_id) return dict([fn, ['DEFAULT']] for fn in output) def handle_add_group(options, session, args): "[admin] Add a group to a tag" usage = _("usage: %prog add-group ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("Please specify a tag name and a group name")) assert False # pragma: no cover tag = args[0] group = args[1] activate_session(session) if not session.hasPerm('admin'): print("This action requires admin privileges") return 1 dsttag = session.getTag(tag) if not dsttag: print("Unknown tag: %s" % tag) return 1 groups = dict([(p['name'], p['group_id']) for p in session.getTagGroups(tag, inherit=False)]) group_id = groups.get(group, None) if group_id is not None: print("Group %s already exists for tag %s" % (group, tag)) return 1 session.groupListAdd(tag, group) def handle_assign_task(options, session, args): "[admin] Assign a task to a host" usage = _('usage: %prog assign-task task_id hostname') usage += _('\n(Specify the --help global option for a list of other help options)') parser = OptionParser(usage=usage) parser.add_option('-f', '--force', action='store_true', default=False, help=_('force to assign a non-free task')) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_('please specify a task id and a hostname')) else: task_id = int(args[0]) hostname = args[1] taskinfo = session.getTaskInfo(task_id, request=False) if taskinfo is None: raise koji.GenericError("No such task: %s" % task_id) hostinfo = session.getHost(hostname) if hostinfo is None: raise koji.GenericError("No such host: %s" % hostname) force = False if options.force: force = True activate_session(session) if not session.hasPerm('admin'): print("This action requires admin privileges") return 1 ret = session.assignTask(task_id, hostname, force) if ret: print('assigned task %d to host %s' % (task_id, hostname)) else: print('failed to assign task %d to host %s' % (task_id, hostname)) def handle_add_host(options, session, args): "[admin] Add a host" usage = _("usage: %prog add-host [options] hostname arch [arch2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--krb-principal", help=_("set a non-default kerberos principal for the host")) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a hostname and at least one arch")) assert False # pragma: no cover host = args[0] activate_session(session) id = session.getHost(host) if id: print("%s is already in the database" % host) return 1 else: kwargs = {} if options.krb_principal is not None: kwargs['krb_principal'] = options.krb_principal id = session.addHost(host, args[1:], **kwargs) if id: print("%s added: id %d" % (host, id)) def handle_edit_host(options, session, args): "[admin] Edit a host" usage = _("usage: %prog edit-host hostname ... [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--arches", help=_("Space or comma-separated list of supported architectures")) parser.add_option("--capacity", type="float", help=_("Capacity of this host")) parser.add_option("--description", metavar="DESC", help=_("Description of this host")) parser.add_option("--comment", help=_("A brief comment about this host")) (subopts, args) = parser.parse_args(args) if not args: parser.error(_("Please specify a hostname")) activate_session(session) vals = {} for key, val in subopts.__dict__.items(): if val is not None: vals[key] = val if 'arches' in vals: vals['arches'] = parse_arches(vals['arches']) session.multicall = True for host in args: session.getHost(host) error = False for host, [info] in zip(args, session.multiCall(strict=True)): if not info: print(_("Host %s does not exist") % host) error = True if error: print(_("No changes made, please correct the command line")) return 1 session.multicall = True for host in args: session.editHost(host, **vals) for host, [result] in zip(args, session.multiCall(strict=True)): if result: print(_("Edited %s") % host) else: print(_("No changes made to %s") % host) def handle_add_host_to_channel(options, session, args): "[admin] Add a host to a channel" usage = _("usage: %prog add-host-to-channel [options] hostname channel") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--list", action="store_true", help=_("List possible channels")) parser.add_option("--new", action="store_true", help=_("Create channel if needed")) (options, args) = parser.parse_args(args) if not options.list and len(args) != 2: parser.error(_("Please specify a hostname and a channel")) assert False # pragma: no cover activate_session(session) if options.list: for channel in session.listChannels(): print(channel['name']) return channel = args[1] if not options.new: channelinfo = session.getChannel(channel) if not channelinfo: print("No such channel: %s" % channel) return 1 host = args[0] hostinfo = session.getHost(host) if not hostinfo: print("No such host: %s" % host) return 1 kwargs = {} if options.new: kwargs['create'] = True session.addHostToChannel(host, channel, **kwargs) def handle_remove_host_from_channel(options, session, args): "[admin] Remove a host from a channel" usage = _("usage: %prog remove-host-from-channel [options] hostname channel") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("Please specify a hostname and a channel")) assert False # pragma: no cover host = args[0] activate_session(session) hostinfo = session.getHost(host) if not hostinfo: print("No such host: %s" % host) return 1 hostchannels = [c['name'] for c in session.listChannels(hostinfo['id'])] channel = args[1] if channel not in hostchannels: print("Host %s is not a member of channel %s" % (host, channel)) return 1 session.removeHostFromChannel(host, channel) def handle_remove_channel(options, session, args): "[admin] Remove a channel entirely" usage = _("usage: %prog remove-channel [options] channel") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action="store_true", help=_("force removal, if possible")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover activate_session(session) cinfo = session.getChannel(args[0]) if not cinfo: print("No such channel: %s" % args[0]) return 1 session.removeChannel(args[0], force=options.force) def handle_rename_channel(options, session, args): "[admin] Rename a channel" usage = _("usage: %prog rename-channel [options] old-name new-name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover activate_session(session) cinfo = session.getChannel(args[0]) if not cinfo: print("No such channel: %s" % args[0]) return 1 session.renameChannel(args[0], args[1]) def handle_add_pkg(options, session, args): "[admin] Add a package to the listing for tag" usage = _("usage: %prog add-pkg [options] tag package [package2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action='store_true', help=_("Override blocks if necessary")) parser.add_option("--owner", help=_("Specify owner")) parser.add_option("--extra-arches", help=_("Specify extra arches")) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a tag and at least one package")) assert False # pragma: no cover if not options.owner: parser.error(_("Please specify an owner for the package(s)")) assert False # pragma: no cover if not session.getUser(options.owner): print("User %s does not exist" % options.owner) return 1 activate_session(session) tag = args[0] opts = {} opts['force'] = options.force opts['block'] = False # check if list of packages exists for that tag already dsttag=session.getTag(tag) if dsttag is None: print("No such tag: %s" % tag) sys.exit(1) pkglist = dict([(p['package_name'], p['package_id']) for p in session.listPackages(tagID=dsttag['id'])]) to_add = [] for package in args[1:]: package_id = pkglist.get(package, None) if not package_id is None: print("Package %s already exists in tag %s" % (package, tag)) continue to_add.append(package) if options.extra_arches: opts['extra_arches'] = parse_arches(options.extra_arches) # add the packages print("Adding %i packages to tag %s" % (len(to_add), dsttag['name'])) session.multicall = True for package in to_add: session.packageListAdd(tag, package, options.owner, **opts) session.multiCall(strict=True) def handle_block_pkg(options, session, args): "[admin] Block a package in the listing for tag" usage = _("usage: %prog block-pkg [options] tag package [package2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a tag and at least one package")) assert False # pragma: no cover activate_session(session) tag = args[0] # check if list of packages exists for that tag already dsttag=session.getTag(tag) if dsttag is None: print("No such tag: %s" % tag) return 1 pkglist = dict([(p['package_name'], p['package_id']) for p in session.listPackages(tagID=dsttag['id'], inherited=True)]) ret = 0 for package in args[1:]: package_id = pkglist.get(package, None) if package_id is None: print("Package %s doesn't exist in tag %s" % (package, tag)) ret = 1 if ret: return ret session.multicall = True for package in args[1:]: session.packageListBlock(tag, package) session.multiCall(strict=True) def handle_remove_pkg(options, session, args): "[admin] Remove a package from the listing for tag" usage = _("usage: %prog remove-pkg [options] tag package [package2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action='store_true', help=_("Override blocks if necessary")) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a tag and at least one package")) assert False # pragma: no cover activate_session(session) tag = args[0] opts = {} opts['force'] = options.force # check if list of packages exists for that tag already dsttag=session.getTag(tag) if dsttag is None: print("No such tag: %s" % tag) return 1 pkglist = dict([(p['package_name'], p['package_id']) for p in session.listPackages(tagID=dsttag['id'])]) ret = 0 for package in args[1:]: package_id = pkglist.get(package, None) if package_id is None: print("Package %s is not in tag %s" % (package, tag)) ret = 1 if ret: return ret session.multicall = True for package in args[1:]: session.packageListRemove(tag, package, **opts) session.multiCall(strict=True) def _unique_path(prefix): """Create a unique path fragment by appending a path component to prefix. The path component will consist of a string of letter and numbers that is unlikely to be a duplicate, but is not guaranteed to be unique.""" # Use time() in the dirname to provide a little more information when # browsing the filesystem. # For some reason repr(time.time()) includes 4 or 5 # more digits of precision than str(time.time()) return '%s/%r.%s' % (prefix, time.time(), ''.join([random.choice(string.ascii_letters) for i in range(8)])) def _format_size(size): if (size / 1073741824 >= 1): return "%0.2f GiB" % (size / 1073741824.0) if (size / 1048576 >= 1): return "%0.2f MiB" % (size / 1048576.0) if (size / 1024 >=1): return "%0.2f KiB" % (size / 1024.0) return "%0.2f B" % (size) def _format_secs(t): h = t / 3600 t %= 3600 m = t / 60 s = t % 60 return "%02d:%02d:%02d" % (h, m, s) def _progress_callback(uploaded, total, piece, time, total_time): if total == 0: percent_done = 0.0 else: percent_done = float(uploaded)/float(total) percent_done_str = "%02d%%" % (percent_done * 100) data_done = _format_size(uploaded) elapsed = _format_secs(total_time) speed = "- B/sec" if (time): if (uploaded != total): speed = _format_size(float(piece)/float(time)) + "/sec" else: speed = _format_size(float(total)/float(total_time)) + "/sec" # write formated string and flush sys.stdout.write("[% -36s] % 4s % 8s % 10s % 14s\r" % ('='*(int(percent_done*36)), percent_done_str, elapsed, data_done, speed)) sys.stdout.flush() def _running_in_bg(): try: return (not os.isatty(0)) or (os.getpgrp() != os.tcgetpgrp(0)) except OSError as e: return True def handle_build(options, session, args): "[build] Build a package from source" usage = _("usage: %prog build [options] target ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag package")) parser.add_option("--scratch", action="store_true", help=_("Perform a scratch build")) parser.add_option("--wait", action="store_true", help=_("Wait on the build, even if running in the background")) parser.add_option("--nowait", action="store_false", dest="wait", help=_("Don't wait on build")) parser.add_option("--quiet", action="store_true", help=_("Do not print the task information"), default=options.quiet) parser.add_option("--arch-override", help=_("Override build arches")) parser.add_option("--repo-id", type="int", help=_("Use a specific repo")) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) parser.add_option("--background", action="store_true", help=_("Run the build at a lower priority")) (build_opts, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("Exactly two arguments (a build target and a SCM URL or srpm file) are required")) assert False # pragma: no cover if build_opts.arch_override and not build_opts.scratch: parser.error(_("--arch_override is only allowed for --scratch builds")) activate_session(session) target = args[0] if target.lower() == "none" and build_opts.repo_id: target = None build_opts.skip_tag = True else: build_target = session.getBuildTarget(target) if not build_target: parser.error(_("Unknown build target: %s" % target)) dest_tag = session.getTag(build_target['dest_tag']) if not dest_tag: parser.error(_("Unknown destination tag: %s" % build_target['dest_tag_name'])) if dest_tag['locked'] and not build_opts.scratch: parser.error(_("Destination tag %s is locked" % dest_tag['name'])) source = args[1] opts = {} if build_opts.arch_override: opts['arch_override'] = parse_arches(build_opts.arch_override) for key in ('skip_tag', 'scratch', 'repo_id'): val = getattr(build_opts, key) if val is not None: opts[key] = val priority = None if build_opts.background: #relative to koji.PRIO_DEFAULT priority = 5 # try to check that source is an SRPM if '://' not in source: #treat source as an srpm and upload it if not build_opts.quiet: print("Uploading srpm: %s" % source) serverdir = _unique_path('cli-build') if _running_in_bg() or build_opts.noprogress or build_opts.quiet: callback = None else: callback = _progress_callback session.uploadWrapper(source, serverdir, callback=callback) print('') source = "%s/%s" % (serverdir, os.path.basename(source)) task_id = session.build(source, target, opts, priority=priority) if not build_opts.quiet: print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if build_opts.wait or (build_opts.wait is None and not _running_in_bg()): session.logout() return watch_tasks(session, [task_id], quiet=build_opts.quiet) else: return def handle_chain_build(options, session, args): # XXX - replace handle_build with this, once chain-building has gotten testing "[build] Build one or more packages from source" usage = _("usage: %prog chain-build [options] target URL [URL2 [:] URL3 [:] URL4 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--nowait", action="store_true", help=_("Don't wait on build")) parser.add_option("--quiet", action="store_true", help=_("Do not print the task information"), default=options.quiet) parser.add_option("--background", action="store_true", help=_("Run the build at a lower priority")) (build_opts, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("At least two arguments (a build target and a SCM URL) are required")) assert False # pragma: no cover activate_session(session) target = args[0] build_target = session.getBuildTarget(target) if not build_target: parser.error(_("Unknown build target: %s" % target)) dest_tag = session.getTag(build_target['dest_tag'], strict=True) if dest_tag['locked']: parser.error(_("Destination tag %s is locked" % dest_tag['name'])) # check that the destination tag is in the inheritance tree of the build tag # otherwise there is no way that a chain-build can work ancestors = session.getFullInheritance(build_target['build_tag']) if dest_tag['id'] not in [build_target['build_tag']] + [ancestor['parent_id'] for ancestor in ancestors]: print(_("Packages in destination tag %(dest_tag_name)s are not inherited by build tag %(build_tag_name)s" % build_target)) print(_("Target %s is not usable for a chain-build" % build_target['name'])) return 1 sources = args[1:] src_list = [] build_level = [] #src_lists is a list of lists of sources to build. # each list is block of builds ("build level") which must all be completed # before the next block begins. Blocks are separated on the command line with ':' for src in sources: if src == ':': if build_level: src_list.append(build_level) build_level = [] elif '://' in src: # quick check that src might be a url build_level.append(src) elif '/' not in src and not src.endswith('.rpm') and len(src.split('-')) >= 3: # quick check that it looks like a N-V-R build_level.append(src) else: print(_('"%s" is not a SCM URL or package N-V-R' % src)) return 1 if build_level: src_list.append(build_level) if len(src_list) < 2: parser.error(_('You must specify at least one dependency between builds with : (colon)\nIf there are no dependencies, use the build command instead')) priority = None if build_opts.background: #relative to koji.PRIO_DEFAULT priority = 5 task_id = session.chainBuild(src_list, target, priority=priority) if not build_opts.quiet: print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if _running_in_bg() or build_opts.nowait: return else: session.logout() return watch_tasks(session, [task_id], quiet=build_opts.quiet) def handle_maven_build(options, session, args): "[build] Build a Maven package from source" usage = _("usage: %prog maven-build [options] target URL") usage += _("\n %prog maven-build --ini=CONFIG... [options] target") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--patches", action="store", metavar="URL", help=_("SCM URL of a directory containing patches to apply to the sources before building")) parser.add_option("-G", "--goal", action="append", dest="goals", metavar="GOAL", default=[], help=_("Additional goal to run before \"deploy\"")) parser.add_option("-P", "--profile", action="append", dest="profiles", metavar="PROFILE", default=[], help=_("Enable a profile for the Maven build")) parser.add_option("-D", "--property", action="append", dest="properties", metavar="NAME=VALUE", default=[], help=_("Pass a system property to the Maven build")) parser.add_option("-E", "--env", action="append", dest="envs", metavar="NAME=VALUE", default=[], help=_("Set an environment variable")) parser.add_option("-p", "--package", action="append", dest="packages", metavar="PACKAGE", default=[], help=_("Install an additional package into the buildroot")) parser.add_option("-J", "--jvm-option", action="append", dest="jvm_options", metavar="OPTION", default=[], help=_("Pass a command-line option to the JVM")) parser.add_option("-M", "--maven-option", action="append", dest="maven_options", metavar="OPTION", default=[], help=_("Pass a command-line option to Maven")) parser.add_option("--ini", action="append", dest="inis", metavar="CONFIG", default=[], help=_("Pass build parameters via a .ini file")) parser.add_option("-s", "--section", help=_("Get build parameters from this section of the .ini")) parser.add_option("--debug", action="store_true", help=_("Run Maven build in debug mode")) parser.add_option("--specfile", action="store", metavar="URL", help=_("SCM URL of a spec file fragment to use to generate wrapper RPMs")) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag package")) parser.add_option("--scratch", action="store_true", help=_("Perform a scratch build")) parser.add_option("--nowait", action="store_true", help=_("Don't wait on build")) parser.add_option("--quiet", action="store_true", help=_("Do not print the task information"), default=options.quiet) parser.add_option("--background", action="store_true", help=_("Run the build at a lower priority")) (build_opts, args) = parser.parse_args(args) if build_opts.inis: if len(args) != 1: parser.error(_("Exactly one argument (a build target) is required")) else: if len(args) != 2: parser.error(_("Exactly two arguments (a build target and a SCM URL) are required")) activate_session(session) target = args[0] build_target = session.getBuildTarget(target) if not build_target: parser.error(_("Unknown build target: %s" % target)) dest_tag = session.getTag(build_target['dest_tag']) if not dest_tag: parser.error(_("Unknown destination tag: %s" % build_target['dest_tag_name'])) if dest_tag['locked'] and not build_opts.scratch: parser.error(_("Destination tag %s is locked" % dest_tag['name'])) if build_opts.inis: try: params = koji.util.parse_maven_param(build_opts.inis, scratch=build_opts.scratch, section=build_opts.section) except ValueError as e: parser.error(e.args[0]) opts = list(params.values())[0] if opts.pop('type', 'maven') != 'maven': parser.error(_("Section %s does not contain a maven-build config") % list(params.keys())[0]) source = opts.pop('scmurl') else: source = args[1] opts = koji.util.maven_opts(build_opts, scratch=build_opts.scratch) if '://' not in source: parser.error(_("Invalid SCM URL: %s" % source)) if build_opts.debug: opts.setdefault('maven_options', []).append('--debug') if build_opts.skip_tag: opts['skip_tag'] = True priority = None if build_opts.background: #relative to koji.PRIO_DEFAULT priority = 5 task_id = session.mavenBuild(source, target, opts, priority=priority) if not build_opts.quiet: print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if _running_in_bg() or build_opts.nowait: return else: session.logout() return watch_tasks(session, [task_id], quiet=build_opts.quiet) def handle_wrapper_rpm(options, session, args): """[build] Build wrapper rpms for any archives associated with a build.""" usage = _("usage: %prog wrapper-rpm [options] target build-id|n-v-r URL") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--create-build", action="store_true", help=_("Create a new build to contain wrapper rpms")) parser.add_option("--ini", action="append", dest="inis", metavar="CONFIG", default=[], help=_("Pass build parameters via a .ini file")) parser.add_option("-s", "--section", help=_("Get build parameters from this section of the .ini")) parser.add_option("--skip-tag", action="store_true", help=_("If creating a new build, don't tag it")) parser.add_option("--scratch", action="store_true", help=_("Perform a scratch build")) parser.add_option("--nowait", action="store_true", help=_("Don't wait on build")) parser.add_option("--background", action="store_true", help=_("Run the build at a lower priority")) (build_opts, args) = parser.parse_args(args) if build_opts.inis: if len(args)!= 1: parser.error(_("Exactly one argument (a build target) is required")) else: if len(args) < 3: parser.error(_("You must provide a build target, a build ID or NVR, and a SCM URL to a specfile fragment")) activate_session(session) target = args[0] if build_opts.inis: try: params = koji.util.parse_maven_param(build_opts.inis, scratch=build_opts.scratch, section=build_opts.section) except ValueError as e: parser.error(e.args[0]) opts = list(params.values())[0] if opts.get('type') != 'wrapper': parser.error(_("Section %s does not contain a wrapper-rpm config") % list(params.keys())[0]) url = opts['scmurl'] package = opts['buildrequires'][0] target_info = session.getBuildTarget(target, strict=True) latest_builds = session.getLatestBuilds(target_info['dest_tag'], package=package) if not latest_builds: parser.error(_("No build of %s in %s") % (package, target_info['dest_tag_name'])) build_id = latest_builds[0]['nvr'] else: build_id = args[1] if build_id.isdigit(): build_id = int(build_id) url = args[2] priority = None if build_opts.background: priority = 5 opts = {} if build_opts.create_build: opts['create_build'] = True if build_opts.skip_tag: opts['skip_tag'] = True if build_opts.scratch: opts['scratch'] = True task_id = session.wrapperRPM(build_id, url, target, priority, opts=opts) print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if _running_in_bg() or build_opts.nowait: return else: session.logout() return watch_tasks(session,[task_id],quiet=options.quiet) def handle_maven_chain(options, session, args): "[build] Run a set of Maven builds in dependency order" usage = _("usage: %prog maven-chain [options] target config...") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag builds")) parser.add_option("--scratch", action="store_true", help=_("Perform scratch builds")) parser.add_option("--debug", action="store_true", help=_("Run Maven build in debug mode")) parser.add_option("--force", action="store_true", help=_("Force rebuilds of all packages")) parser.add_option("--nowait", action="store_true", help=_("Don't wait on build")) parser.add_option("--background", action="store_true", help=_("Run the build at a lower priority")) (build_opts, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Two arguments (a build target and a config file) are required")) assert False # pragma: no cover activate_session(session) target = args[0] build_target = session.getBuildTarget(target) if not build_target: parser.error(_("Unknown build target: %s") % target) dest_tag = session.getTag(build_target['dest_tag']) if not dest_tag: parser.error(_("Unknown destination tag: %s") % build_target['dest_tag_name']) if dest_tag['locked'] and not build_opts.scratch: parser.error(_("Destination tag %s is locked") % dest_tag['name']) opts = {} for key in ('skip_tag', 'scratch', 'debug', 'force'): val = getattr(build_opts, key) if val: opts[key] = val try: builds = koji.util.parse_maven_chain(args[1:], scratch=opts.get('scratch')) except ValueError as e: parser.error(e.args[0]) priority = None if build_opts.background: priority = 5 task_id = session.chainMaven(builds, target, opts, priority=priority) print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if _running_in_bg() or build_opts.nowait: return else: session.logout() return watch_tasks(session, [task_id], quiet=options.quiet) def handle_resubmit(options, session, args): """[build] Retry a canceled or failed task, using the same parameter as the original task.""" usage = _("usage: %prog resubmit [options] taskID") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--nowait", action="store_true", help=_("Don't wait on task")) parser.add_option("--nowatch", action="store_true", dest="nowait", help=_("An alias for --nowait")) parser.add_option("--quiet", action="store_true", help=_("Do not print the task information"), default=options.quiet) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Please specify a single task ID")) assert False # pragma: no cover activate_session(session) taskID = int(args[0]) if not options.quiet: print("Resubmitting the following task:") _printTaskInfo(session, taskID, 0, False, True) newID = session.resubmitTask(taskID) if not options.quiet: print("Resubmitted task %s as new task %s" % (taskID, newID)) if _running_in_bg() or options.nowait: return else: session.logout() return watch_tasks(session, [newID], quiet=options.quiet) def handle_call(options, session, args): "Execute an arbitrary XML-RPC call" usage = _("usage: %prog call [options] name [arg...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--python", action="store_true", help=_("Use python syntax for values")) parser.add_option("--kwargs", help=_("Specify keyword arguments as a dictionary (implies --python)")) parser.add_option("--json-output", action="store_true", help=_("Use JSON syntax for output")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify the name of the XML-RPC method")) assert False # pragma: no cover if options.kwargs: options.python = True if options.python and ast is None: parser.error(_("The ast module is required to read python syntax")) if options.json_output and json is None: parser.error(_("The json module is required to output JSON syntax")) activate_session(session) name = args[0] non_kw = [] kw = {} if options.python: non_kw = [ast.literal_eval(a) for a in args[1:]] if options.kwargs: kw = ast.literal_eval(options.kwargs) else: for arg in args[1:]: if arg.find('=') != -1: key, value = arg.split('=', 1) kw[key] = arg_filter(value) else: non_kw.append(arg_filter(arg)) response = getattr(session, name).__call__(*non_kw, **kw) if options.json_output: print(json.dumps(response, indent=2, separators=(',', ': '))) else: pprint.pprint(response) def anon_handle_mock_config(options, session, args): "[info] Create a mock config" usage = _("usage: %prog mock-config [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("-a", "--arch", help=_("Specify the arch")) parser.add_option("-n", "--name", help=_("Specify the name for the buildroot")) parser.add_option("--tag", help=_("Create a mock config for a tag")) parser.add_option("--target", help=_("Create a mock config for a build target")) parser.add_option("--task", help=_("Duplicate the mock config of a previous task")) parser.add_option("--latest", action="store_true", help=_("use the latest redirect url")) parser.add_option("--buildroot", help=_("Duplicate the mock config for the specified buildroot id")) parser.add_option("--mockdir", default="/var/lib/mock", metavar="DIR", help=_("Specify mockdir")) parser.add_option("--topdir", metavar="DIR", help=_("Specify topdir")) parser.add_option("--topurl", metavar="URL", default=options.topurl, help=_("URL under which Koji files are accessible")) parser.add_option("--distribution", default="Koji Testing", help=_("Change the distribution macro")) parser.add_option("--yum-proxy", help=_("Specify a yum proxy")) parser.add_option("-o", metavar="FILE", dest="ofile", help=_("Output to a file")) (options, args) = parser.parse_args(args) activate_session(session) if args: #for historical reasons, we also accept buildroot name as first arg if not options.name: options.name = args[0] else: parser.error(_("Name already specified via option")) arch = None opts = {} for k in ('topdir', 'topurl', 'distribution', 'mockdir', 'yum_proxy'): if hasattr(options, k): opts[k] = getattr(options, k) if options.buildroot: try: br_id = int(options.buildroot) except ValueError: parser.error(_("Buildroot id must be an integer")) brootinfo = session.getBuildroot(br_id) if options.latest: opts['repoid'] = 'latest' else: opts['repoid'] = brootinfo['repo_id'] opts['tag_name'] = brootinfo['tag_name'] arch = brootinfo['arch'] elif options.task: try: task_id = int(options.task) except ValueError: parser.error(_("Task id must be an integer")) broots = session.listBuildroots(taskID=task_id) if not broots: print(_("No buildroots for task %s (or no such task)") % options.task) return 1 if len(broots) > 1: print(_("Multiple buildroots found: %s" % [br['id'] for br in broots])) brootinfo = broots[-1] if options.latest: opts['repoid'] = 'latest' else: opts['repoid'] = brootinfo['repo_id'] opts['tag_name'] = brootinfo['tag_name'] arch = brootinfo['arch'] def_name = "%s-task_%i" % (opts['tag_name'], task_id) elif options.tag: if not options.arch: print(_("Please specify an arch")) return 1 tag = session.getTag(options.tag) if not tag: parser.error(_("Invalid tag: %s" % options.tag)) arch = options.arch config = session.getBuildConfig(tag['id']) if not config: print(_("Could not get config info for tag: %(name)s") % tag) return 1 opts['tag_name'] = tag['name'] if options.latest: opts['repoid'] = 'latest' else: repo = session.getRepo(config['id']) if not repo: print(_("Could not get a repo for tag: %(name)s") % tag) return 1 opts['repoid'] = repo['id'] def_name = "%(tag_name)s-repo_%(repoid)s" % opts elif options.target: if not options.arch: print(_("Please specify an arch")) return 1 arch = options.arch target = session.getBuildTarget(options.target) if not target: parser.error(_("Invalid target: %s" % options.target)) opts['tag_name'] = target['build_tag_name'] if options.latest: opts['repoid'] = 'latest' else: repo = session.getRepo(target['build_tag']) if not repo: print(_("Could not get a repo for tag: %(name)s") % opts['tag_name']) return 1 opts['repoid'] = repo['id'] else: parser.error(_("Please specify one of: --tag, --target, --task, --buildroot")) assert False # pragma: no cover if options.name: name = options.name else: name = "%(tag_name)s-repo_%(repoid)s" % opts output = koji.genMockConfig(name, arch, **opts) if options.ofile: fo = open(options.ofile, 'w') fo.write(output) fo.close() else: print(output) def handle_disable_host(options, session, args): "[admin] Mark one or more hosts as disabled" usage = _("usage: %prog disable-host [options] hostname ...") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--comment", help=_("Comment indicating why the host(s) are being disabled")) (options, args) = parser.parse_args(args) activate_session(session) session.multicall = True for host in args: session.getHost(host) error = False for host, [id] in zip(args, session.multiCall(strict=True)): if not id: print("Host %s does not exist" % host) error = True if error: print("No changes made. Please correct the command line.") return 1 session.multicall = True for host in args: session.disableHost(host) if options.comment is not None: session.editHost(host, comment=options.comment) session.multiCall(strict=True) def handle_enable_host(options, session, args): "[admin] Mark one or more hosts as enabled" usage = _("usage: %prog enable-host [options] hostname ...") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--comment", help=_("Comment indicating why the host(s) are being enabled")) (options, args) = parser.parse_args(args) activate_session(session) session.multicall = True for host in args: session.getHost(host) error = False for host, [id] in zip(args, session.multiCall(strict=True)): if not id: print("Host %s does not exist" % host) error = True if error: print("No changes made. Please correct the command line.") return 1 session.multicall = True for host in args: session.enableHost(host) if options.comment is not None: session.editHost(host, comment=options.comment) session.multiCall(strict=True) def handle_restart_hosts(options, session, args): "[admin] Restart enabled hosts" usage = _("usage: %prog restart-hosts [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--wait", action="store_true", help=_("Wait on the task, even if running in the background")) parser.add_option("--nowait", action="store_false", dest="wait", help=_("Don't wait on task")) parser.add_option("--quiet", action="store_true", help=_("Do not print the task information"), default=options.quiet) (my_opts, args) = parser.parse_args(args) activate_session(session) task_id = session.restartHosts() if my_opts.wait or (my_opts.wait is None and not _running_in_bg()): session.logout() return watch_tasks(session, [task_id], quiet=my_opts.quiet) else: return def linked_upload(localfile, path, name=None): """Link a file into the (locally writable) workdir, bypassing upload""" old_umask = os.umask(0o02) try: if name is None: name = os.path.basename(localfile) dest_dir = os.path.join(koji.pathinfo.work(), path) dst = os.path.join(dest_dir, name) koji.ensuredir(dest_dir) # fix uid/gid to keep httpd happy st = os.stat(koji.pathinfo.work()) os.chown(dest_dir, st.st_uid, st.st_gid) print("Linking rpm to: %s" % dst) os.link(localfile, dst) finally: os.umask(old_umask) def handle_import(options, session, args): "[admin] Import externally built RPMs into the database" usage = _("usage: %prog import [options] package [package...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--link", action="store_true", help=_("Attempt to hardlink instead of uploading")) parser.add_option("--test", action="store_true", help=_("Don't actually import")) parser.add_option("--create-build", action="store_true", help=_("Auto-create builds as needed")) parser.add_option("--src-epoch", help=_("When auto-creating builds, use this epoch")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("At least one package must be specified")) assert False # pragma: no cover if options.src_epoch in ('None', 'none', '(none)'): options.src_epoch = None elif options.src_epoch: try: options.src_epoch = int(options.src_epoch) except (ValueError, TypeError): parser.error(_("Invalid value for epoch: %s") % options.src_epoch) assert False # pragma: no cover activate_session(session) to_import = {} for path in args: data = koji.get_header_fields(path, ('name','version','release','epoch', 'arch','sigmd5','sourcepackage','sourcerpm')) if data['sourcepackage']: data['arch'] = 'src' nvr = "%(name)s-%(version)s-%(release)s" % data else: nvr = "%(name)s-%(version)s-%(release)s" % koji.parse_NVRA(data['sourcerpm']) to_import.setdefault(nvr,[]).append((path,data)) builds_missing = False nvrs = list(to_import.keys()) nvrs.sort() for nvr in nvrs: to_import[nvr].sort() for path, data in to_import[nvr]: if data['sourcepackage']: break else: #no srpm included, check for build binfo = session.getBuild(nvr) if not binfo: print(_("Missing build or srpm: %s") % nvr) builds_missing = True if builds_missing and not options.create_build: print(_("Aborting import")) return #local function to help us out below def do_import(path, data): rinfo = dict([(k,data[k]) for k in ('name','version','release','arch')]) prev = session.getRPM(rinfo) if prev and not prev.get('external_repo_id', 0): if prev['payloadhash'] == koji.hex_string(data['sigmd5']): print(_("RPM already imported: %s") % path) else: print(_("WARNING: md5sum mismatch for %s") % path) print(_(" A different rpm with the same name has already been imported")) print(_(" Existing sigmd5 is %r, your import has %r") % ( prev['payloadhash'], koji.hex_string(data['sigmd5']))) print(_("Skipping import")) return if options.test: print(_("Test mode -- skipping import for %s") % path) return serverdir = _unique_path('cli-import') if options.link: linked_upload(path, serverdir) else: sys.stdout.write(_("uploading %s... ") % path) sys.stdout.flush() session.uploadWrapper(path, serverdir) print(_("done")) sys.stdout.flush() sys.stdout.write(_("importing %s... ") % path) sys.stdout.flush() try: session.importRPM(serverdir, os.path.basename(path)) except koji.GenericError as e: print(_("\nError importing: %s" % str(e).splitlines()[-1])) sys.stdout.flush() else: print(_("done")) sys.stdout.flush() for nvr in nvrs: # check for existing build need_build = True binfo = session.getBuild(nvr) if binfo: b_state = koji.BUILD_STATES[binfo['state']] if b_state == 'COMPLETE': need_build = False elif b_state in ['FAILED', 'CANCELED']: if not options.create_build: print(_("Build %s state is %s. Skipping import") % (nvr, b_state)) continue else: print(_("Build %s exists with state=%s. Skipping import") % (nvr, b_state)) continue # import srpms first, if any for path, data in to_import[nvr]: if data['sourcepackage']: if binfo and b_state != 'COMPLETE': # need to fix the state print(_("Creating empty build: %s") % nvr) b_data = koji.util.dslice(binfo, ['name', 'version', 'release']) b_data['epoch'] = data['epoch'] session.createEmptyBuild(**b_data) binfo = session.getBuild(nvr) do_import(path, data) need_build = False if need_build: # if we're doing this here, we weren't given the matching srpm if not options.create_build: if binfo: # should have caught this earlier, but just in case... b_state = koji.BUILD_STATES[binfo['state']] print(_("Build %s state is %s. Skipping import") % (nvr, b_state)) continue else: print(_("No such build: %s (include matching srpm or use " "--create-build option to add it)") % nvr) continue else: # let's make a new build b_data = koji.parse_NVR(nvr) if options.src_epoch: b_data['epoch'] = options.src_epoch else: # pull epoch from first rpm data = to_import[nvr][0][1] b_data['epoch'] = data['epoch'] if options.test: print(_("Test mode -- would have created empty build: %s") % nvr) else: print(_("Creating empty build: %s") % nvr) session.createEmptyBuild(**b_data) binfo = session.getBuild(nvr) for path, data in to_import[nvr]: if data['sourcepackage']: continue do_import(path, data) def handle_import_cg(options, session, args): "[admin] Import external builds with rich metadata" usage = _("usage: %prog import-cg [options] metadata_file files_dir") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) parser.add_option("--link", action="store_true", help=_("Attempt to hardlink instead of uploading")) parser.add_option("--test", action="store_true", help=_("Don't actually import")) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify metadata files directory")) assert False # pragma: no cover if json is None: parser.error(_("Unable to find json module")) assert False # pragma: no cover activate_session(session) metadata = json.load(open(args[0], 'r')) if 'output' not in metadata: print(_("Metadata contains no output")) sys.exit(1) localdir = args[1] to_upload = [] for info in metadata['output']: if info.get('metadata_only', False): continue localpath = os.path.join(localdir, info.get('relpath', ''), info['filename']) if not os.path.exists(localpath): parser.error(_("No such file: %s") % localpath) to_upload.append([localpath, info]) if options.test: return # get upload path # XXX - need a better way serverdir = _unique_path('cli-import') for localpath, info in to_upload: relpath = os.path.join(serverdir, info.get('relpath', '')) if _running_in_bg() or options.noprogress: callback = None else: callback = _progress_callback if options.link: linked_upload(localpath, relpath) else: print("Uploading %s" % localpath) session.uploadWrapper(localpath, relpath, callback=callback) if callback: print('') session.CGImport(metadata, serverdir) def handle_import_comps(options, session, args): "Import group/package information from a comps file" usage = _("usage: %prog import-comps [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action="store_true", help=_("force import")) (local_options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover activate_session(session) # check if the tag exists dsttag = session.getTag(args[1]) if dsttag is None: print("No such tag: %s" % args[1]) return 1 if libcomps is not None: _import_comps(session, args[0], args[1], local_options) elif yumcomps is not None: _import_comps_alt(session, args[0], args[1], local_options) else: print("comps module not available") return 1 def _import_comps(session, filename, tag, options): """Import comps data using libcomps module""" comps = libcomps.Comps() comps.fromxml_f(filename) force = options.force ptypes = { libcomps.PACKAGE_TYPE_DEFAULT : 'default', libcomps.PACKAGE_TYPE_OPTIONAL : 'optional', libcomps.PACKAGE_TYPE_CONDITIONAL : 'conditional', libcomps.PACKAGE_TYPE_MANDATORY : 'mandatory', libcomps.PACKAGE_TYPE_UNKNOWN : 'unknown', } for group in comps.groups: print("Group: %s (%s)" % (group.id, group.name)) session.groupListAdd( tag, group.id, force=force, display_name=group.name, is_default=bool(group.default), uservisible=bool(group.uservisible), description=group.desc, langonly=group.lang_only, biarchonly=bool(group.biarchonly)) for pkg in group.packages: pkgopts = {'type' : ptypes[pkg.type], 'basearchonly' : bool(pkg.basearchonly), } if pkg.type == libcomps.PACKAGE_TYPE_CONDITIONAL: pkgopts['requires'] = pkg.requires print(" Package: %s: %r" % (pkg.name, pkgopts)) session.groupPackageListAdd(tag, group.id, pkg.name, force=force, **pkgopts) # libcomps does not support group dependencies # libcomps does not support metapkgs def _import_comps_alt(session, filename, tag, options): """Import comps data using yum.comps module""" print('WARN: yum.comps does not support the biarchonly of group and basearchonly of package') comps = yumcomps.Comps() comps.add(filename) force = options.force for group in comps.groups: print("Group: %(groupid)s (%(name)s)" % vars(group)) session.groupListAdd(tag, group.groupid, force=force, display_name=group.name, is_default=bool(group.default), uservisible=bool(group.user_visible), description=group.description, langonly=group.langonly) #yum.comps does not support the biarchonly field for ptype, pdata in [('mandatory', group.mandatory_packages), ('default', group.default_packages), ('optional', group.optional_packages), ('conditional', group.conditional_packages)]: for pkg in pdata: pkgopts = {'type' : ptype} if ptype == 'conditional': pkgopts['requires'] = pdata[pkg] #yum.comps does not support basearchonly print(" Package: %s: %r" % (pkg, pkgopts)) session.groupPackageListAdd(tag, group.groupid, pkg, force=force, **pkgopts) #yum.comps does not support group dependencies #yum.comps does not support metapkgs def handle_import_sig(options, session, args): "[admin] Import signatures into the database" usage = _("usage: %prog import-sig [options] package [package...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--with-unsigned", action="store_true", help=_("Also import unsigned sig headers")) parser.add_option("--write", action="store_true", help=_("Also write the signed copies")) parser.add_option("--test", action="store_true", help=_("Test mode -- don't actually import")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("At least one package must be specified")) assert False # pragma: no cover for path in args: if not os.path.exists(path): parser.error(_("No such file: %s") % path) activate_session(session) for path in args: data = koji.get_header_fields(path, ('name','version','release','arch','siggpg','sigpgp','sourcepackage')) if data['sourcepackage']: data['arch'] = 'src' sigkey = data['siggpg'] if not sigkey: sigkey = data['sigpgp'] if not sigkey: sigkey = "" if not options.with_unsigned: print(_("Skipping unsigned package: %s" % path)) continue else: sigkey = koji.get_sigpacket_key_id(sigkey) del data['siggpg'] del data['sigpgp'] rinfo = session.getRPM(data) if not rinfo: print("No such rpm in system: %(name)s-%(version)s-%(release)s.%(arch)s" % data) continue if rinfo.get('external_repo_id'): print("Skipping external rpm: %(name)s-%(version)s-%(release)s.%(arch)s@%(external_repo_name)s" % rinfo) continue sighdr = koji.rip_rpm_sighdr(path) previous = session.queryRPMSigs(rpm_id=rinfo['id'], sigkey=sigkey) assert len(previous) <= 1 if previous: sighash = md5_constructor(sighdr).hexdigest() if previous[0]['sighash'] == sighash: print(_("Signature already imported: %s") % path) continue else: print(_("Warning: signature mismatch: %s") % path) print(_(" The system already has a signature for this rpm with key %s") % sigkey) print(_(" The two signature headers are not the same")) continue print(_("Importing signature [key %s] from %s...") % (sigkey, path)) if not options.test: session.addRPMSig(rinfo['id'], base64.encodestring(sighdr)) print(_("Writing signed copy")) if not options.test: session.writeSignedRPM(rinfo['id'], sigkey) def handle_write_signed_rpm(options, session, args): "[admin] Write signed RPMs to disk" usage = _("usage: %prog write-signed-rpm [options] n-v-r [n-v-r...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--all", action="store_true", help=_("Write out all RPMs signed with this key")) parser.add_option("--buildid", help=_("Specify a build id rather than an n-v-r")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("A signature key must be specified")) assert False # pragma: no cover if len(args) < 2 and not (options.all or options.buildid): parser.error(_("At least one RPM must be specified")) assert False # pragma: no cover key = args.pop(0) activate_session(session) if options.all: rpms = session.queryRPMSigs(sigkey=key) rpms = [session.getRPM(r['rpm_id']) for r in rpms] elif options.buildid: rpms = session.listRPMs(int(options.buildid)) else: rpms = [] bad = [] for nvra in args: try: koji.parse_NVRA(nvra) rinfo = session.getRPM(nvra, strict=True) if rinfo: rpms.append(rinfo) except koji.GenericError: bad.append(nvra) # for historical reasons, we also accept nvrs for nvr in bad: build = session.getBuild(nvr) if not build: raise koji.GenericError("No such rpm or build: %s" % nvr) rpms.extend(session.listRPMs(buildID=build['id'])) for i, rpminfo in enumerate(rpms): nvra = "%(name)s-%(version)s-%(release)s.%(arch)s" % rpminfo print("[%d/%d] %s" % (i+1, len(rpms), nvra)) session.writeSignedRPM(rpminfo['id'], key) def handle_prune_signed_copies(options, session, args): "[admin] Prune signed copies" usage = _("usage: %prog prune-sigs [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("-n", "--test", action="store_true", help=_("Test mode")) parser.add_option("-v", "--verbose", action="store_true", help=_("Be more verbose")) parser.add_option("--days", type="int", default=5, help=_("Timeout before clearing")) parser.add_option("-p", "--package", "--pkg", help=_("Limit to a single package")) parser.add_option("-b", "--build", help=_("Limit to a single build")) parser.add_option("-i", "--ignore-tag", action="append", default=[], help=_("Ignore these tags when considering whether a build is/was latest")) parser.add_option("--ignore-tag-file", help=_("File to read tag ignore patterns from")) parser.add_option("-r", "--protect-tag", action="append", default=[], help=_("Do not prune signed copies from matching tags")) parser.add_option("--protect-tag-file", help=_("File to read tag protect patterns from")) parser.add_option("--trashcan-tag", default="trashcan", help=_("Specify trashcan tag")) parser.add_option("--debug", action="store_true", help=_("Show debugging output")) (options, args) = parser.parse_args(args) # different ideas/modes # 1) remove all signed copies of builds that are not latest for some tag # 2) remove signed copies when a 'better' signature is available # 3) for a specified tag, remove all signed copies that are not latest (w/ inheritance) # 4) for a specified tag, remove all signed copies (no inheritance) # (but skip builds that are multiply tagged) #for now, we're just implementing mode #1 #(with the modification that we check to see if the build was latest within #the last N days) if options.ignore_tag_file: fo = open(options.ignore_tag_file) options.ignore_tag.extend([line.strip() for line in fo.readlines()]) fo.close() if options.protect_tag_file: fo = open(options.protect_tag_file) options.protect_tag.extend([line.strip() for line in fo.readlines()]) fo.close() if options.debug: options.verbose = True cutoff_ts = time.time() - options.days * 24 * 3600 if options.debug: print("Cutoff date: %s" % time.asctime(time.localtime(cutoff_ts))) if not options.build: if options.verbose: print("Getting builds...") qopts = {'state' : koji.BUILD_STATES['COMPLETE']} if options.package: pkginfo = session.getPackage(options.package) qopts['packageID'] = pkginfo['id'] builds = [(b['nvr'], b) for b in session.listBuilds(**qopts)] if options.verbose: print("...got %i builds" % len(builds)) builds.sort() else: #single build binfo = session.getBuild(options.build) if not binfo: parser.error('No such build: %s' % options.build) assert False # pragma: no cover builds = [("%(name)s-%(version)s-%(release)s" % binfo, binfo)] total_files = 0 total_space = 0 def _histline(event_id, x): if event_id == x['revoke_event']: ts = x['revoke_ts'] fmt = "Untagged %(name)s-%(version)s-%(release)s from %(tag_name)s" elif event_id == x['create_event']: ts = x['create_ts'] fmt = "Tagged %(name)s-%(version)s-%(release)s with %(tag_name)s" if x['active']: fmt += " [still active]" else: raise koji.GenericError("unknown event: (%r, %r)" % (event_id, x)) time_str = time.asctime(time.localtime(ts)) return "%s: %s" % (time_str, fmt % x) for nvr, binfo in builds: #listBuilds returns slightly different data than normal if 'id' not in binfo: binfo['id'] = binfo['build_id'] if 'name' not in binfo: binfo['name'] = binfo['package_name'] if options.debug: print("DEBUG: %s" % nvr) #see how recently this build was latest for a tag is_latest = False is_protected = False last_latest = None tags = {} for entry in session.tagHistory(build=binfo['id']): #we used tagHistory rather than listTags so we can consider tags #that the build was recently untagged from tags.setdefault(entry['tag_name'], 1) if options.debug: print("Tags: %s" % list(tags.keys())) for tag_name in tags: if tag_name == options.trashcan_tag: if options.debug: print("Ignoring trashcan tag for build %s" % nvr) continue ignore_tag = False for pattern in options.ignore_tag: if fnmatch.fnmatch(tag_name, pattern): if options.debug: print("Ignoring tag %s for build %s" % (tag_name, nvr)) ignore_tag = True break if ignore_tag: continue #in order to determine how recently this build was latest, we have #to look at the tagging history. hist = session.tagHistory(tag=tag_name, package=binfo['name']) if not hist: #really shouldn't happen raise koji.GenericError("No history found for %s in %s" % (nvr, tag_name)) timeline = [] for x in hist: #note that for revoked entries, we're effectively splitting them into #two parts: creation and revocation. timeline.append((x['create_event'], 1, x)) #at the same event, revokes happen first if x['revoke_event'] is not None: timeline.append((x['revoke_event'], 0, x)) timeline.sort() #find most recent creation entry for our build and crop there latest_ts = None for i in range(len(timeline)-1, -1, -1): #searching in reverse cronological order event_id, is_create, entry = timeline[i] if entry['build_id'] == binfo['id'] and is_create: latest_ts = event_id break if not latest_ts: #really shouldn't happen raise koji.GenericError("No creation event found for %s in %s" % (nvr, tag_name)) our_entry = entry if options.debug: print(_histline(event_id, our_entry)) #now go through the events since most recent creation entry timeline = timeline[i+1:] if not timeline: is_latest = True if options.debug: print("%s is latest in tag %s" % (nvr, tag_name)) break #before we go any further, is this a protected tag? protect_tag = False for pattern in options.protect_tag: if fnmatch.fnmatch(tag_name, pattern): protect_tag = True break if protect_tag: # we use the same time limit as for the latest calculation # if this build was in this tag within that limit, then we will # not prune its signed copies if our_entry['revoke_event'] is None: #we're still tagged with a protected tag if options.debug: print("Build %s has protected tag %s" % (nvr, tag_name)) is_protected = True break elif our_entry['revoke_ts'] > cutoff_ts: #we were still tagged here sometime before the cutoff if options.debug: print("Build %s had protected tag %s until %s" \ % (nvr, tag_name, time.asctime(time.localtime(our_entry['revoke_ts'])))) is_protected = True break replaced_ts = None revoke_ts = None others = {} for event_id, is_create, entry in timeline: #So two things can knock this build from the title of latest: # - it could be untagged (entry revoked) # - another build could become latest (replaced) #Note however that if the superceding entry is itself revoked, then #our build could become latest again if options.debug: print(_histline(event_id, entry)) if entry['build_id'] == binfo['id']: if is_create: #shouldn't happen raise koji.GenericError("Duplicate creation event found for %s in %s" \ % (nvr, tag_name)) else: #we've been revoked revoke_ts = entry['revoke_ts'] break else: if is_create: #this build has become latest replaced_ts = entry['create_ts'] if entry['active']: #this entry not revoked yet, so we're done for this tag break #since this entry is revoked later, our build might eventually be #uncovered, so we have to keep looking others[entry['build_id']] = 1 else: #other build revoked #see if our build has resurfaced if entry['build_id'] in others: del others[entry['build_id']] if replaced_ts is not None and not others: #we've become latest again #(note: we're not revoked yet because that triggers a break above) replaced_ts = None latest_ts = entry['revoke_ts'] if last_latest is None: timestamps = [] else: timestamps = [last_latest] if revoke_ts is None: if replaced_ts is None: #turns out we are still latest is_latest = True if options.debug: print("%s is latest (again) in tag %s" % (nvr, tag_name)) break else: #replaced (but not revoked) timestamps.append(replaced_ts) if options.debug: print("tag %s: %s not latest (replaced %s)" \ % (tag_name, nvr, time.asctime(time.localtime(replaced_ts)))) elif replaced_ts is None: #revoked but not replaced timestamps.append(revoke_ts) if options.debug: print("tag %s: %s not latest (revoked %s)" \ % (tag_name, nvr, time.asctime(time.localtime(revoke_ts)))) else: #revoked AND replaced timestamps.append(min(revoke_ts, replaced_ts)) if options.debug: print("tag %s: %s not latest (revoked %s, replaced %s)" \ % (tag_name, nvr, time.asctime(time.localtime(revoke_ts)), time.asctime(time.localtime(replaced_ts)))) last_latest = max(timestamps) if last_latest > cutoff_ts: if options.debug: print("%s was latest past the cutoff" % nvr) is_latest = True break if is_latest: continue if is_protected: continue #not latest anywhere since cutoff, so we can remove all signed copies rpms = session.listRPMs(buildID=binfo['id']) session.multicall = True for rpminfo in rpms: session.queryRPMSigs(rpm_id=rpminfo['id']) by_sig = {} #index by sig for rpminfo, [sigs] in zip(rpms, session.multiCall()): for sig in sigs: sigkey = sig['sigkey'] by_sig.setdefault(sigkey, []).append(rpminfo) builddir = koji.pathinfo.build(binfo) build_files = 0 build_space = 0 if not by_sig and options.debug: print("(build has no signatures)") for sigkey, rpms in six.iteritems(by_sig): mycount = 0 archdirs = {} sigdirs = {} for rpminfo in rpms: signedpath = "%s/%s" % (builddir, koji.pathinfo.signed(rpminfo, sigkey)) try: st = os.lstat(signedpath) except OSError: continue if not stat.S_ISREG(st.st_mode): #warn about this print("Skipping %s. Not a regular file" % signedpath) continue if st.st_mtime > cutoff_ts: print("Skipping %s. File newer than cutoff" % signedpath) continue if options.test: print("Would have unlinked: %s" % signedpath) else: if options.verbose: print("Unlinking: %s" % signedpath) try: os.unlink(signedpath) except OSError as e: print("Error removing %s: %s" % (signedpath, e)) print("This script needs write access to %s" % koji.BASEDIR) continue mycount +=1 build_files += 1 build_space += st.st_size #XXX - this makes some layout assumptions, but # pathinfo doesn't report what we need mydir = os.path.dirname(signedpath) archdirs[mydir] = 1 sigdirs[os.path.dirname(mydir)] = 1 for dir in archdirs: if options.test: print("Would have removed dir: %s" % dir) else: if options.verbose: print("Removing dir: %s" % dir) try: os.rmdir(dir) except OSError as e: print("Error removing %s: %s" % (signedpath, e)) if len(sigdirs) == 1: dir = list(sigdirs.keys())[0] if options.test: print("Would have removed dir: %s" % dir) else: if options.verbose: print("Removing dir: %s" % dir) try: os.rmdir(dir) except OSError as e: print("Error removing %s: %s" % (signedpath, e)) elif len(sigdirs) > 1: print("Warning: more than one signature dir for %s: %r" % (sigkey, sigdirs)) if build_files: total_files += build_files total_space += build_space if options.verbose: print("Build: %s, Removed %i signed copies (%i bytes). Total: %i/%i" \ % (nvr, build_files, build_space, total_files, total_space)) elif options.debug and by_sig: print("(build has no signed copies)") print("--- Grand Totals ---") print("Files: %i" % total_files) print("Bytes: %i" % total_space) def handle_set_build_volume(options, session, args): "[admin] Move a build to a different volume" usage = _("usage: %prog set-build-volume volume n-v-r [n-v-r ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("-v", "--verbose", action="store_true", help=_("Be verbose")) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error("You must provide a volume and at least one build") volinfo = session.getVolume(args[0]) if not volinfo: print("No such volume: %s" % args[0]) return 1 activate_session(session) builds = [] for nvr in args[1:]: binfo = session.getBuild(nvr) if not binfo: print("No such build: %s" % nvr) elif binfo['volume_id'] == volinfo['id']: print("Build %s already on volume %s" %(nvr, volinfo['name'])) else: builds.append(binfo) if not builds: print("No builds to move") return 1 for binfo in builds: session.changeBuildVolume(binfo['id'], volinfo['id']) if options.verbose: print("%s: %s -> %s" % (binfo['nvr'], binfo['volume_name'], volinfo['name'])) def handle_add_volume(options, session, args): "[admin] Add a new storage volume" usage = _("usage: %prog add-volume volume-name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error("Command requires exactly one volume-name.") name = args[0] volinfo = session.getVolume(name) if volinfo: print("Volume %s already exists" % name) return 1 activate_session(session) volinfo = session.addVolume(name) print("Added volume %(name)s with id %(id)i" % volinfo) def handle_list_volumes(options, session, args): "[info] List storage volumes" usage = _("usage: %prog list-volumes") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) for volinfo in session.listVolumes(): print(volinfo['name']) def handle_list_permissions(options, session, args): "[info] List user permissions" usage = _("usage: %prog list-permissions [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--user", help=_("List permissions for the given user")) parser.add_option("--mine", action="store_true", help=_("List your permissions")) (options, args) = parser.parse_args(args) if len(args) > 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover activate_session(session) if options.user: user = session.getUser(options.user) if not user: print("User %s does not exist" % options.user) return 1 perms = session.getUserPerms(user['id']) elif options.mine: perms = session.getPerms() else: perms = [p['name'] for p in session.getAllPerms()] for perm in perms: print(perm) def handle_add_user(options, session, args): "[admin] Add a user" usage = _("usage: %prog add-user username [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--principal", help=_("The Kerberos principal for this user")) parser.add_option("--disable", help=_("Prohibit logins by this user"), action="store_true") (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("You must specify the username of the user to add")) elif len(args) > 1: parser.error(_("This command only accepts one argument (username)")) username = args[0] if options.disable: status = koji.USER_STATUS['BLOCKED'] else: status = koji.USER_STATUS['NORMAL'] activate_session(session) user_id = session.createUser(username, status=status, krb_principal=options.principal) print("Added user %s (%i)" % (username, user_id)) def handle_enable_user(options, session, args): "[admin] Enable logins by a user" usage = _("usage: %prog enable-user username") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("You must specify the username of the user to enable")) elif len(args) > 1: parser.error(_("This command only accepts one argument (username)")) username = args[0] activate_session(session) session.enableUser(username) def handle_disable_user(options, session, args): "[admin] Disable logins by a user" usage = _("usage: %prog disable-user username") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("You must specify the username of the user to disable")) elif len(args) > 1: parser.error(_("This command only accepts one argument (username)")) username = args[0] activate_session(session) session.disableUser(username) def handle_list_signed(options, session, args): "[admin] List signed copies of rpms" usage = _("usage: %prog list-signed [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--debug", action="store_true") parser.add_option("--key", help=_("Only list RPMs signed with this key")) parser.add_option("--build", help=_("Only list RPMs from this build")) parser.add_option("--rpm", help=_("Only list signed copies for this RPM")) parser.add_option("--tag", help=_("Only list RPMs within this tag")) (options, args) = parser.parse_args(args) activate_session(session) qopts = {} build_idx = {} rpm_idx = {} if options.key: qopts['sigkey'] = options.key if options.rpm: rinfo = session.getRPM(options.rpm) rpm_idx[rinfo['id']] = rinfo if rinfo is None: parser.error(_("No such RPM: %s") % options.rpm) if rinfo.get('external_repo_id'): print("External rpm: %(name)s-%(version)s-%(release)s.%(arch)s@%(external_repo_name)s" % rinfo) return 1 qopts['rpm_id'] = rinfo['id'] if options.build: binfo = session.getBuild(options.build) build_idx[binfo['id']] = binfo if binfo is None: parser.error(_("No such build: %s") % options.rpm) sigs = [] rpms = session.listRPMs(buildID=binfo['id']) for rinfo in rpms: rpm_idx[rinfo['id']] = rinfo sigs += session.queryRPMSigs(rpm_id=rinfo['id'], **qopts) else: sigs = session.queryRPMSigs(**qopts) if options.tag: print("getting tag listing") rpms, builds = session.listTaggedRPMS(options.tag, inherit=False, latest=False) print("got tag listing") tagged = {} for binfo in builds: build_idx.setdefault(binfo['id'], binfo) for rinfo in rpms: rpm_idx.setdefault(rinfo['id'], rinfo) tagged[rinfo['id']] = 1 #Now figure out which sig entries actually have live copies for sig in sigs: rpm_id = sig['rpm_id'] sigkey = sig['sigkey'] if options.tag: if tagged.get(rpm_id) is None: continue rinfo = rpm_idx.get(rpm_id) if not rinfo: rinfo = session.getRPM(rpm_id) rpm_idx[rinfo['id']] = rinfo binfo = build_idx.get(rinfo['build_id']) if not binfo: binfo = session.getBuild(rinfo['build_id']) build_idx[binfo['id']] = binfo binfo['name'] = binfo['package_name'] builddir = koji.pathinfo.build(binfo) signedpath = "%s/%s" % (builddir, koji.pathinfo.signed(rinfo, sigkey)) if not os.path.exists(signedpath): if options.debug: print("No copy: %s" % signedpath) continue print(signedpath) def handle_import_in_place(options, session, args): "[admin] Import RPMs that are already in place" usage = _("usage: %prog import-in-place [options] package [package...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("At least one package must be specified")) assert False # pragma: no cover activate_session(session) for nvr in args: data = koji.parse_NVR(nvr) sys.stdout.write(_("importing %s... ") % nvr) try: session.importBuildInPlace(data) except koji.GenericError as e: print(_("\nError importing: %s" % str(e).splitlines()[-1])) sys.stdout.flush() else: print(_("done")) sys.stdout.flush() def handle_import_archive(options, session, args): "[admin] Import an archive file and associate it with a build" usage = _("usage: %prog import-archive build-id|n-v-r /path/to/archive...") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) parser.add_option("--create-build", action="store_true", help=_("Auto-create builds as needed")) parser.add_option("--link", action="store_true", help=_("Attempt to hardlink instead of uploading")) parser.add_option("--type", help=_("The type of archive being imported. Currently supported types: maven, win, image")) parser.add_option("--type-info", help=_("Type-specific information to associate with the archives. " "For Maven archives this should be a local path to a .pom file. " "For Windows archives this should be relpath:platforms[:flags])) " "Images need an arch")) (suboptions, args) = parser.parse_args(args) if not len(args) > 1: parser.error(_("You must specify a build ID or N-V-R and an archive to import")) assert False # pragma: no cover activate_session(session) if not suboptions.type: parser.error(_("You must specify an archive type")) assert False # pragma: no cover if suboptions.type == 'maven': if not (session.hasPerm('maven-import') or session.hasPerm('admin')): parser.error(_("This action requires the maven-import privilege")) assert False # pragma: no cover if not suboptions.type_info: parser.error(_("--type-info must point to a .pom file when importing Maven archives")) assert False # pragma: no cover pom_info = koji.parse_pom(suboptions.type_info) maven_info = koji.pom_to_maven_info(pom_info) suboptions.type_info = maven_info elif suboptions.type == 'win': if not (session.hasPerm('win-import') or session.hasPerm('admin')): parser.error(_("This action requires the win-import privilege")) assert False # pragma: no cover if not suboptions.type_info: parser.error(_("--type-info must be specified")) assert False # pragma: no cover type_info = suboptions.type_info.split(':', 2) if len(type_info) < 2: parser.error(_("--type-info must be in relpath:platforms[:flags] format")) win_info = {'relpath': type_info[0], 'platforms': type_info[1].split()} if len(type_info) > 2: win_info['flags'] = type_info[2].split() else: win_info['flags'] = [] suboptions.type_info = win_info elif suboptions.type == 'image': if not (session.hasPerm('image-import') or session.hasPerm('admin')): parser.error(_("This action requires the image-import privilege")) assert False # pragma: no cover if not suboptions.type_info: parser.error(_("--type-info must be specified")) assert False # pragma: no cover image_info = {'arch': suboptions.type_info} suboptions.type_info = image_info else: parser.error(_("Unsupported archive type: %s" % suboptions.type)) assert False # pragma: no cover buildinfo = session.getBuild(arg_filter(args[0])) if not buildinfo: if not suboptions.create_build: parser.error(_("No such build: %s") % args[0]) buildinfo = koji.parse_NVR(args[0]) if buildinfo['epoch'] == '': buildinfo['epoch'] = None else: buildinfo['epoch'] = int(buildinfo['epoch']) if suboptions.type == 'maven': # --type-info should point to a local .pom file session.createMavenBuild(buildinfo, suboptions.type_info) elif suboptions.type == 'win': # We're importing, so we don't know what platform the build # was run on. Use "import" as a placeholder. session.createWinBuild(buildinfo, {'platform': 'import'}) elif suboptions.type == 'image': # --type-info should have an arch of the image session.createImageBuild(buildinfo) else: # should get caught above assert False # pragma: no cover for filepath in args[1:]: filename = os.path.basename(filepath) print("Uploading archive: %s" % filename) serverdir = _unique_path('cli-import') if _running_in_bg() or suboptions.noprogress: callback = None else: callback = _progress_callback if suboptions.link: linked_upload(filepath, serverdir) else: session.uploadWrapper(filepath, serverdir, callback=callback) print('') serverpath = "%s/%s" % (serverdir, filename) session.importArchive(serverpath, buildinfo, suboptions.type, suboptions.type_info) print("Imported: %s" % filename) def handle_grant_permission(options, session, args): "[admin] Grant a permission to a user" usage = _("usage: %prog grant-permission [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--new", action="store_true", help=_("Create a new permission")) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a permission and at least one user")) assert False # pragma: no cover activate_session(session) perm = args[0] names = args[1:] users = [] for n in names: user = session.getUser(n) if user is None: parser.error(_("No such user: %s" % n)) assert False # pragma: no cover users.append(user) kwargs = {} if options.new: kwargs['create'] = True for user in users: session.grantPermission(user['name'], perm, **kwargs) def handle_revoke_permission(options, session, args): "[admin] Revoke a permission from a user" usage = _("usage: %prog revoke-permission [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a permission and at least one user")) assert False # pragma: no cover activate_session(session) perm = args[0] names = args[1:] users = [] for n in names: user = session.getUser(n) if user is None: parser.error(_("No such user: %s" % n)) assert False # pragma: no cover users.append(user) for user in users: session.revokePermission(user['name'], perm) def handle_grant_cg_access(options, session, args): "[admin] Add a user to a content generator" usage = _("usage: %prog grant-cg-access ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--new", action="store_true", help=_("Create a new content generator")) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("Please specify a user and content generator")) assert False # pragma: no cover activate_session(session) user = args[0] cg = args[1] uinfo = session.getUser(user) if uinfo is None: parser.error(_("No such user: %s" % user)) assert False # pragma: no cover kwargs = {} if options.new: kwargs['create'] = True session.grantCGAccess(uinfo['name'], cg, **kwargs) def handle_revoke_cg_access(options, session, args): "[admin] Remove a user from a content generator" usage = _("usage: %prog revoke-cg-access ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("Please specify a user and content generator")) assert False # pragma: no cover activate_session(session) user = args[0] cg = args[1] uinfo = session.getUser(user) if uinfo is None: parser.error(_("No such user: %s" % user)) assert False # pragma: no cover session.revokeCGAccess(uinfo['name'], cg) def anon_handle_latest_build(options, session, args): "[info] Print the latest builds for a tag" usage = _("usage: %prog latest-build [options] tag package [package...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--arch", help=_("List all of the latest packages for this arch")) parser.add_option("--all", action="store_true", help=_("List all of the latest packages for this tag")) parser.add_option("--quiet", action="store_true", help=_("Do not print the header information"), default=options.quiet) parser.add_option("--paths", action="store_true", help=_("Show the file paths")) parser.add_option("--type", help=_("Show builds of the given type only. Currently supported types: maven")) (options, args) = parser.parse_args(args) if len(args) == 0: parser.error(_("A tag name must be specified")) assert False # pragma: no cover activate_session(session) if options.all: if len(args) > 1: parser.error(_("A package name may not be combined with --all")) assert False # pragma: no cover # Set None as the package argument args.append(None) else: if len(args) < 2: parser.error(_("A tag name and package name must be specified")) assert False # pragma: no cover pathinfo = koji.PathInfo() for pkg in args[1:]: if options.arch: rpms, builds = session.getLatestRPMS(args[0], package=pkg, arch=options.arch) builds_hash = dict([(x['build_id'], x) for x in builds]) data = rpms if options.paths: for x in data: z = x.copy() x['name'] = builds_hash[x['build_id']]['package_name'] x['path'] = os.path.join(pathinfo.build(x), pathinfo.rpm(z)) fmt = "%(path)s" else: fmt = "%(name)s-%(version)s-%(release)s.%(arch)s" else: kwargs = {'package': pkg} if options.type: kwargs['type'] = options.type data = session.getLatestBuilds(args[0], **kwargs) if options.paths: if options.type == 'maven': for x in data: x['path'] = pathinfo.mavenbuild(x) fmt = "%(path)-40s %(tag_name)-20s %(maven_group_id)-20s %(maven_artifact_id)-20s %(owner_name)s" else: for x in data: x['path'] = pathinfo.build(x) fmt = "%(path)-40s %(tag_name)-20s %(owner_name)s" else: if options.type == 'maven': fmt = "%(nvr)-40s %(tag_name)-20s %(maven_group_id)-20s %(maven_artifact_id)-20s %(owner_name)s" else: fmt = "%(nvr)-40s %(tag_name)-20s %(owner_name)s" if not options.quiet: if options.type == 'maven': print("%-40s %-20s %-20s %-20s %s" % ("Build", "Tag", "Group Id", "Artifact Id", "Built by")) print("%s %s %s %s %s" % ("-"*40, "-"*20, "-"*20, "-"*20, "-"*16)) else: print("%-40s %-20s %s" % ("Build","Tag","Built by")) print("%s %s %s" % ("-"*40, "-"*20, "-"*16)) options.quiet = True output = [ fmt % x for x in data] output.sort() for line in output: print(line) def anon_handle_list_api(options, session, args): "[info] Print the list of XML-RPC APIs" usage = _("usage: %prog list-api [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover activate_session(session) tmplist = [(x['name'], x) for x in session._listapi()] tmplist.sort() funcs = [x[1] for x in tmplist] for x in funcs: if 'argdesc' in x: args = x['argdesc'] elif x['args']: # older servers may not provide argdesc expanded = [] for arg in x['args']: if type(arg) is str: expanded.append(arg) else: expanded.append('%s=%s' % (arg[0], arg[1])) args = "(%s)" % ", ".join(expanded) else: args = "()" print('%s%s' % (x['name'], args)) if x['doc']: print(" description: %s" % x['doc']) def anon_handle_list_tagged(options, session, args): "[info] List the builds or rpms in a tag" usage = _("usage: %prog list-tagged [options] tag [package]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--arch", help=_("List rpms for this arch")) parser.add_option("--rpms", action="store_true", help=_("Show rpms instead of builds")) parser.add_option("--inherit", action="store_true", help=_("Follow inheritance")) parser.add_option("--latest", action="store_true", help=_("Only show the latest builds/rpms")) parser.add_option("--latest-n", type='int', metavar="N", help=_("Only show the latest N builds/rpms")) parser.add_option("--quiet", action="store_true", help=_("Do not print the header information"), default=options.quiet) parser.add_option("--paths", action="store_true", help=_("Show the file paths")) parser.add_option("--sigs", action="store_true", help=_("Show signatures")) parser.add_option("--type", help=_("Show builds of the given type only. Currently supported types: maven, win, image")) parser.add_option("--event", type='int', metavar="EVENT#", help=_("query at event")) parser.add_option("--ts", type='int', metavar="TIMESTAMP", help=_("query at timestamp")) parser.add_option("--repo", type='int', metavar="REPO#", help=_("query at event for a repo")) (options, args) = parser.parse_args(args) if len(args) == 0: parser.error(_("A tag name must be specified")) assert False # pragma: no cover elif len(args) > 2: parser.error(_("Only one package name may be specified")) assert False # pragma: no cover activate_session(session) pathinfo = koji.PathInfo() package = None if len(args) > 1: package = args[1] tag = args[0] opts = {} for key in ('latest','inherit'): opts[key] = getattr(options, key) if options.latest_n is not None: opts['latest'] = options.latest_n if package: opts['package'] = package if options.arch: options.rpms = True opts['arch'] = options.arch if options.sigs: opts['rpmsigs'] = True options.rpms = True if options.type: opts['type'] = options.type event = koji.util.eventFromOpts(session, options) if event: opts['event'] = event['id'] event['timestr'] = time.asctime(time.localtime(event['ts'])) print("Querying at event %(id)i (%(timestr)s)" % event) if options.rpms: rpms, builds = session.listTaggedRPMS(tag, **opts) data = rpms if options.paths: build_idx = dict([(b['id'],b) for b in builds]) for rinfo in data: build = build_idx[rinfo['build_id']] builddir = pathinfo.build(build) if options.sigs: sigkey = rinfo['sigkey'] signedpath = os.path.join(builddir, pathinfo.signed(rinfo, sigkey)) if os.path.exists(signedpath): rinfo['path'] = signedpath else: rinfo['path'] = os.path.join(builddir, pathinfo.rpm(rinfo)) fmt = "%(path)s" data = [x for x in data if 'path' in x] else: fmt = "%(name)s-%(version)s-%(release)s.%(arch)s" if options.sigs: fmt = "%(sigkey)s " + fmt else: data = session.listTagged(tag, **opts) if options.paths: if options.type == 'maven': for x in data: x['path'] = pathinfo.mavenbuild(x) fmt = "%(path)-40s %(tag_name)-20s %(maven_group_id)-20s %(maven_artifact_id)-20s %(owner_name)s" else: for x in data: x['path'] = pathinfo.build(x) fmt = "%(path)-40s %(tag_name)-20s %(owner_name)s" else: if options.type == 'maven': fmt = "%(nvr)-40s %(tag_name)-20s %(maven_group_id)-20s %(maven_artifact_id)-20s %(owner_name)s" else: fmt = "%(nvr)-40s %(tag_name)-20s %(owner_name)s" if not options.quiet: if options.type == 'maven': print("%-40s %-20s %-20s %-20s %s" % ("Build", "Tag", "Group Id", "Artifact Id", "Built by")) print("%s %s %s %s %s" % ("-"*40, "-"*20, "-"*20, "-"*20, "-"*16)) else: print("%-40s %-20s %s" % ("Build","Tag","Built by")) print("%s %s %s" % ("-"*40, "-"*20, "-"*16)) output = [ fmt % x for x in data] output.sort() for line in output: print(line) def anon_handle_list_buildroot(options, session, args): "[info] List the rpms used in or built in a buildroot" usage = _("usage: %prog list-buildroot [options] buildroot-id") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--paths", action="store_true", help=_("Show the file paths")) parser.add_option("--built", action="store_true", help=_("Show the built rpms")) parser.add_option("--verbose", "-v", action="store_true", help=_("Show more information")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover activate_session(session) buildrootID = int(args[0]) opts = {} if options.built: opts['buildrootID'] = buildrootID else: opts['componentBuildrootID'] = buildrootID data = session.listRPMs(**opts) fmt = "%(nvr)s.%(arch)s" order = [(fmt % x, x) for x in data] order.sort() for nvra, rinfo in order: if options.verbose and rinfo.get('is_update'): print(nvra, "[update]") else: print(nvra) def anon_handle_list_untagged(options, session, args): "[info] List untagged builds" usage = _("usage: %prog list-untagged [options] [package]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--paths", action="store_true", help=_("Show the file paths")) parser.add_option("--show-references", action="store_true", help=_("Show build references")) (options, args) = parser.parse_args(args) if len(args) > 1: parser.error(_("Only one package name may be specified")) assert False # pragma: no cover activate_session(session) package = None if len(args) > 0: package = args[0] opts = {} if package: opts['name'] = package pathinfo = koji.PathInfo() data = session.untaggedBuilds(**opts) if options.show_references: print("(Showing build references)") refs = {} refs2 = {} #reverse map for x in session.buildMap(): refs.setdefault(x['used'], {}).setdefault(x['built'], 1) refs2.setdefault(x['built'], {}).setdefault(x['used'], 1) #XXX - need to ignore refs to unreferenced builds for x in data: builds = refs.get(x['id']) if builds: x['refs'] = "%s" % builds else: x['refs'] = '' #data = [x for x in data if x['id'] not in refs)] if options.paths: for x in data: x['path'] = pathinfo.build(x) fmt = "%(path)s" else: fmt = "%(name)s-%(version)s-%(release)s" if options.show_references: fmt = fmt + " %(refs)s" output = [ fmt % x for x in data] output.sort() for line in output: print(line) def print_group_list_req_group(group): print(" @%(name)s [%(tag_name)s]" % group) def print_group_list_req_package(pkg): print(" %(package)s: %(basearchonly)s, %(type)s [%(tag_name)s]" % pkg) def anon_handle_list_groups(options, session, args): "[info] Print the group listings" usage = _("usage: %prog list-groups [options] [group]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--event", type='int', metavar="EVENT#", help=_("query at event")) parser.add_option("--ts", type='int', metavar="TIMESTAMP", help=_("query at timestamp")) parser.add_option("--repo", type='int', metavar="REPO#", help=_("query at event for a repo")) (options, args) = parser.parse_args(args) if len(args) < 1 or len(args) > 2: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover opts = {} activate_session(session) event = koji.util.eventFromOpts(session, options) if event: opts['event'] = event['id'] event['timestr'] = time.asctime(time.localtime(event['ts'])) print("Querying at event %(id)i (%(timestr)s)" % event) tags = dict([(x['id'], x['name']) for x in session.listTags()]) tmp_list = [(x['name'], x) for x in session.getTagGroups(args[0], **opts)] tmp_list.sort() groups = [x[1] for x in tmp_list] for group in groups: if len(args) > 1 and group['name'] != args[1]: continue print("%s [%s]" % (group['name'], tags.get(group['tag_id'], group['tag_id']))) groups = [(x['name'], x) for x in group['grouplist']] groups.sort() for x in [x[1] for x in groups]: x['tag_name'] = tags.get(x['tag_id'], x['tag_id']) print_group_list_req_group(x) pkgs = [(x['package'], x) for x in group['packagelist']] pkgs.sort() for x in [x[1] for x in pkgs]: x['tag_name'] = tags.get(x['tag_id'], x['tag_id']) print_group_list_req_package(x) def handle_add_group_pkg(options, session, args): "[admin] Add a package to a group's package listing" usage = _("usage: %prog add-group-pkg [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 3: parser.error(_("You must specify a tag name, group name, and one or more package names")) assert False # pragma: no cover tag = args[0] group = args[1] activate_session(session) for pkg in args[2:]: session.groupPackageListAdd(tag, group, pkg) def handle_block_group_pkg(options, session, args): "[admin] Block a package from a group's package listing" usage = _("usage: %prog block-group-pkg [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 3: parser.error(_("You must specify a tag name, group name, and one or more package names")) assert False # pragma: no cover tag = args[0] group = args[1] activate_session(session) for pkg in args[2:]: session.groupPackageListBlock(tag, group, pkg) def handle_unblock_group_pkg(options, session, args): "[admin] Unblock a package from a group's package listing" usage = _("usage: %prog unblock-group-pkg [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 3: parser.error(_("You must specify a tag name, group name, and one or more package names")) assert False # pragma: no cover tag = args[0] group = args[1] activate_session(session) for pkg in args[2:]: session.groupPackageListUnblock(tag, group, pkg) def handle_add_group_req(options, session, args): "[admin] Add a group to a group's required list" usage = _("usage: %prog add-group-req [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 3: parser.error(_("You must specify a tag name and two group names")) assert False # pragma: no cover tag = args[0] group = args[1] req = args[2] activate_session(session) session.groupReqListAdd(tag, group, req) def handle_block_group_req(options, session, args): "[admin] Block a group's requirement listing" usage = _("usage: %prog block-group-req [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 3: parser.error(_("You must specify a tag name and two group names")) assert False # pragma: no cover tag = args[0] group = args[1] req = args[2] activate_session(session) session.groupReqListBlock(tag, group, req) def handle_unblock_group_req(options, session, args): "[admin] Unblock a group's requirement listing" usage = _("usage: %prog unblock-group-req [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 3: parser.error(_("You must specify a tag name and two group names")) assert False # pragma: no cover tag = args[0] group = args[1] req = args[2] activate_session(session) session.groupReqListUnblock(tag, group, req) def anon_handle_list_hosts(options, session, args): "[info] Print the host listing" usage = _("usage: %prog list-hosts [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--arch", action="append", default=[], help=_("Specify an architecture")) parser.add_option("--channel", help=_("Specify a channel")) parser.add_option("--ready", action="store_true", help=_("Limit to ready hosts")) parser.add_option("--not-ready", action="store_false", dest="ready", help=_("Limit to not ready hosts")) parser.add_option("--enabled", action="store_true", help=_("Limit to enabled hosts")) parser.add_option("--not-enabled", action="store_false", dest="enabled", help=_("Limit to not enabled hosts")) parser.add_option("--quiet", action="store_true", help=_("Do not print header information"), default=options.quiet) (options, args) = parser.parse_args(args) opts = {} activate_session(session) if options.arch: opts['arches'] = options.arch if options.channel: channel = session.getChannel(options.channel) if not channel: parser.error(_('Unknown channel: %s' % options.channel)) assert False # pragma: no cover opts['channelID'] = channel['id'] if options.ready is not None: opts['ready'] = options.ready if options.enabled is not None: opts['enabled'] = options.enabled tmp_list = [(x['name'], x) for x in session.listHosts(**opts)] tmp_list.sort() hosts = [x[1] for x in tmp_list] def yesno(x): if x: return 'Y' else: return 'N' # pull in the last update using multicall to speed it up a bit session.multicall = True for host in hosts: session.getLastHostUpdate(host['id']) updateList = session.multiCall() for host, [update] in zip(hosts, updateList): if update is None: host['update'] = '-' else: host['update'] = update.split('.')[0] host['enabled'] = yesno(host['enabled']) host['ready'] = yesno(host['ready']) host['arches'] = ','.join(host['arches'].split()) if not options.quiet: print("Hostname Enb Rdy Load/Cap Arches Last Update") for host in hosts: print("%(name)-28s %(enabled)-3s %(ready)-3s %(task_load)4.1f/%(capacity)-3.1f %(arches)-16s %(update)s" % host) def anon_handle_list_pkgs(options, session, args): "[info] Print the package listing for tag or for owner" usage = _("usage: %prog list-pkgs [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--owner", help=_("Specify owner")) parser.add_option("--tag", help=_("Specify tag")) parser.add_option("--package", help=_("Specify package")) parser.add_option("--quiet", action="store_true", help=_("Do not print header information"), default=options.quiet) parser.add_option("--noinherit", action="store_true", help=_("Don't follow inheritance")) parser.add_option("--show-blocked", action="store_true", help=_("Show blocked packages")) parser.add_option("--show-dups", action="store_true", help=_("Show superseded owners")) parser.add_option("--event", type='int', metavar="EVENT#", help=_("query at event")) parser.add_option("--ts", type='int', metavar="TIMESTAMP", help=_("query at timestamp")) parser.add_option("--repo", type='int', metavar="REPO#", help=_("query at event for a repo")) (options, args) = parser.parse_args(args) if len(args) != 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover activate_session(session) opts = {} if options.owner: user = session.getUser(options.owner) if user is None: parser.error(_("Invalid user")) assert False # pragma: no cover opts['userID'] = user['id'] if options.tag: tag = session.getTag(options.tag) if tag is None: parser.error(_("Invalid tag")) assert False # pragma: no cover opts['tagID'] = tag['id'] if options.package: opts['pkgID'] = options.package allpkgs = False if not opts: # no limiting clauses were specified allpkgs = True opts['inherited'] = not options.noinherit #hiding dups only makes sense if we're querying a tag if options.tag: opts['with_dups'] = options.show_dups else: opts['with_dups'] = True event = koji.util.eventFromOpts(session, options) if event: opts['event'] = event['id'] event['timestr'] = time.asctime(time.localtime(event['ts'])) print("Querying at event %(id)i (%(timestr)s)" % event) data = session.listPackages(**opts) if not data: print("(no matching packages)") return 1 if not options.quiet: if allpkgs: print("Package") print('-'*23) else: print("%-23s %-23s %-16s %-15s" % ('Package','Tag','Extra Arches','Owner')) print("%s %s %s %s" % ('-'*23,'-'*23,'-'*16,'-'*15)) for pkg in data: if allpkgs: print(pkg['package_name']) else: if not options.show_blocked and pkg.get('blocked',False): continue if 'tag_id' in pkg: if pkg['extra_arches'] is None: pkg['extra_arches'] = "" fmt = "%(package_name)-23s %(tag_name)-23s %(extra_arches)-16s %(owner_name)-15s" if pkg.get('blocked',False): fmt += " [BLOCKED]" else: fmt = "%(package_name)s" print(fmt % pkg) def anon_handle_rpminfo(options, session, args): "[info] Print basic information about an RPM" usage = _("usage: %prog rpminfo [options] [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--buildroots", action="store_true", help=_("show buildroots the rpm was used in")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify an RPM")) assert False # pragma: no cover activate_session(session) for rpm in args: info = session.getRPM(rpm) if info is None: print("No such rpm: %s\n" % rpm) continue if info['epoch'] is None: info['epoch'] = "" else: info['epoch'] = str(info['epoch']) + ":" if not info.get('external_repo_id', 0): buildinfo = session.getBuild(info['build_id']) buildinfo['name'] = buildinfo['package_name'] buildinfo['arch'] = 'src' if buildinfo['epoch'] is None: buildinfo['epoch'] = "" else: buildinfo['epoch'] = str(buildinfo['epoch']) + ":" print("RPM: %(epoch)s%(name)s-%(version)s-%(release)s.%(arch)s [%(id)d]" % info) if info.get('external_repo_id'): repo = session.getExternalRepo(info['external_repo_id']) print("External Repository: %(name)s [%(id)i]" % repo) print("External Repository url: %(url)s" % repo) else: print("RPM Path: %s" % os.path.join(koji.pathinfo.build(buildinfo), koji.pathinfo.rpm(info))) print("SRPM: %(epoch)s%(name)s-%(version)s-%(release)s [%(id)d]" % buildinfo) print("SRPM Path: %s" % os.path.join(koji.pathinfo.build(buildinfo), koji.pathinfo.rpm(buildinfo))) print("Built: %s" % time.strftime('%a, %d %b %Y %H:%M:%S %Z', time.localtime(info['buildtime']))) print("SIGMD5: %(payloadhash)s" % info) print("Size: %(size)s" % info) if not info.get('external_repo_id', 0): print("Build ID: %(build_id)s" % info) if info['buildroot_id'] is None: print("No buildroot data available") else: br_info = session.getBuildroot(info['buildroot_id']) if br_info['br_type'] == koji.BR_TYPES['STANDARD']: print("Buildroot: %(id)i (tag %(tag_name)s, arch %(arch)s, repo %(repo_id)i)" % br_info) print("Build Host: %(host_name)s" % br_info) print("Build Task: %(task_id)i" % br_info) else: print("Content generator: %(cg_name)s" % br_info) print("Buildroot: %(id)i" % br_info) print("Build Host OS: %(host_os)s (%(host_arch)s)" % br_info) if info.get('extra'): print("Extra: %(extra)r" % info) if options.buildroots: br_list = session.listBuildroots(rpmID=info['id'], queryOpts={'order':'buildroot.id'}) print("Used in %i buildroots:" % len(br_list)) if len(br_list): print(" %8s %-28s %-8s %-29s" % ('id','build tag','arch','build host')) print(" %s %s %s %s" % ('-'*8, '-'*28, '-'*8, '-'*29)) for br_info in br_list: print(" %(id)8i %(tag_name)-28s %(arch)-8s %(host_name)-29s" % br_info) def anon_handle_buildinfo(options, session, args): "[info] Print basic information about a build" usage = _("usage: %prog buildinfo [options] [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--changelog", action="store_true", help=_("Show the changelog for the build")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify a build")) assert False # pragma: no cover activate_session(session) for build in args: if build.isdigit(): build = int(build) info = session.getBuild(build) if info is None: print("No such build: %s\n" % build) continue task = None if info['task_id']: task = session.getTaskInfo(info['task_id'], request=True) taglist = [] for tag in session.listTags(build): taglist.append(tag['name']) info['arch'] = 'src' info['state'] = koji.BUILD_STATES[info['state']] print("BUILD: %(name)s-%(version)s-%(release)s [%(id)d]" % info) print("State: %(state)s" % info) print("Built by: %(owner_name)s" % info) source = info.get('source') if source is not None: print("Source: %s" % source) if 'volume_name' in info: print("Volume: %(volume_name)s" % info) if task: print("Task: %s %s" % (task['id'], koji.taskLabel(task))) else: print("Task: none") print("Finished: %s" % koji.formatTimeLong(info['completion_time'])) maven_info = session.getMavenBuild(info['id']) if maven_info: print("Maven groupId: %s" % maven_info['group_id']) print("Maven artifactId: %s" % maven_info['artifact_id']) print("Maven version: %s" % maven_info['version']) win_info = session.getWinBuild(info['id']) if win_info: print("Windows build platform: %s" % win_info['platform']) print("Tags: %s" % ' '.join(taglist)) if info.get('extra'): print("Extra: %(extra)r" % info) archives_seen = {} maven_archives = session.listArchives(buildID=info['id'], type='maven') if maven_archives: print("Maven archives:") for archive in maven_archives: archives_seen.setdefault(archive['id'], 1) print(os.path.join(koji.pathinfo.mavenbuild(info), koji.pathinfo.mavenfile(archive))) win_archives = session.listArchives(buildID=info['id'], type='win') if win_archives: print("Windows archives:") for archive in win_archives: archives_seen.setdefault(archive['id'], 1) print(os.path.join(koji.pathinfo.winbuild(info), koji.pathinfo.winfile(archive))) rpms = session.listRPMs(buildID=info['id']) image_info = session.getImageBuild(info['id']) img_archives = session.listArchives(buildID=info['id'], type='image') if img_archives: print('Image archives:') for archive in img_archives: archives_seen.setdefault(archive['id'], 1) print(os.path.join(koji.pathinfo.imagebuild(info), archive['filename'])) archive_idx = {} for archive in session.listArchives(buildID=info['id']): if archive['id'] in archives_seen: continue archive_idx.setdefault(archive['btype'], []).append(archive) for btype in archive_idx: archives = archive_idx[btype] print('%s Archives:' % btype.capitalize()) for archive in archives: print(os.path.join(koji.pathinfo.typedir(info, btype), archive['filename'])) if rpms: print("RPMs:") for rpm in rpms: print(os.path.join(koji.pathinfo.build(info), koji.pathinfo.rpm(rpm))) if options.changelog: changelog = session.getChangelogEntries(info['id']) if changelog: print("Changelog:") print(koji.util.formatChangelog(changelog)) def anon_handle_hostinfo(options, session, args): "[info] Print basic information about a host" usage = _("usage: %prog hostinfo [options] [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify a host")) assert False # pragma: no cover activate_session(session) for host in args: if host.isdigit(): host = int(host) info = session.getHost(host) if info is None: print("No such host: %s\n" % host) continue print("Name: %(name)s" % info) print("ID: %(id)d" % info) print("Arches: %(arches)s" % info) print("Capacity: %(capacity)s" % info) print("Task Load: %(task_load).2f" % info) if info['description']: description = info['description'].splitlines() print("Description: %s" % description[0]) for line in description[1:]: print("%s%s" % (" "*13, line)) else: print("Description:") if info['comment']: comment = info['comment'].splitlines() print("Comment: %s" % comment[0]) for line in comment[1:]: print("%s%s" % (" "*9, line)) else: print("Comment:") print("Enabled: %s" % (info['enabled'] and 'yes' or 'no')) print("Ready: %s" % (info['ready'] and 'yes' or 'no')) update = session.getLastHostUpdate(info['id']) print("Last Update: %s" % update[:update.find('.')]) print("Channels: %s" % ' '.join([c['name'] for c in session.listChannels(hostID=info['id'])])) print("Active Buildroots:") states = {0:"INIT", 1:"WAITING", 2:"BUILDING"} rows = [('NAME', 'STATE', 'CREATION TIME')] for s in range(0,3): for b in session.listBuildroots(hostID=info['id'], state=s): rows.append((("%s-%s-%s" % (b['tag_name'], b['id'], b['repo_id'])), states[s], b['create_event_time'][:b['create_event_time'].find('.')])) if len(rows) > 1: for row in rows: print("%-50s %-10s %-20s" % row) else: print("None") def handle_clone_tag(options, session, args): "[admin] Duplicate the contents of one tag onto another tag" usage = _("usage: %prog clone-tag [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option('--config', action='store_true', help=_("Copy config from the source to the dest tag")) parser.add_option('--groups', action='store_true', help=_("Copy group information")) parser.add_option('--pkgs', action='store_true', help=_("Copy package list from the source to the dest tag")) parser.add_option('--builds', action='store_true', help=_("Tag builds into the dest tag")) parser.add_option('--all', action='store_true', help=_("The same as --config --groups --pkgs --builds")) parser.add_option('--latest-only', action='store_true', help=_("Tag only the latest build of each package")) parser.add_option('--inherit-builds', action='store_true', help=_("Include all builds inherited into the source tag into " "the dest tag")) parser.add_option('--ts', type='int', help=_('Clone tag at a specific timestamp')) parser.add_option('--event', type='int', help=_('Clone tag at a specific event')) parser.add_option('--repo', type='int', help=_('Clone tag at a specific repo event')) parser.add_option("-v","--verbose", action="store_true", help=_("show changes")) parser.add_option("-f","--force", action="store_true", help=_("override tag locks if necessary")) parser.add_option("-n","--test", action="store_true", help=_("test mode")) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("This command takes two arguments: ")) assert False # pragma: no cover activate_session(session) if not session.hasPerm('admin') and not options.test: print(_("This action requires admin privileges")) return if args[0] == args[1]: sys.stdout.write('Source and destination tags must be different.\n') return if options.all: options.config = options.groups = options.pkgs = options.builds = True event = koji.util.eventFromOpts(session, options) or {} if event: event['timestr'] = time.asctime(time.localtime(event['ts'])) print(_("Cloning at event %(id)i (%(timestr)s)") % event) # store tags. srctag = session.getTag(args[0]) dsttag = session.getTag(args[1]) if not srctag: sys.stdout.write("Unknown src-tag: %s\n" % args[0]) return if (srctag['locked'] and not options.force) or (dsttag and dsttag['locked'] and not options.force): print(_("Error: You are attempting to clone from or to a tag which is locked.")) print(_("Please use --force if this is what you really want to do.")) return # init debug lists. chgpkglist=[] chgbldlist=[] chggrplist=[] # case of brand new dst-tag. if not dsttag: if not options.config: print(_('Cannot create tag without specifying --config')) return # create a new tag, copy srctag header. if not options.test: session.createTag(args[1], parent=None, arches=srctag['arches'], perm=srctag['perm_id'], locked=srctag['locked'], maven_support=srctag['maven_support'], maven_include_all=srctag['maven_include_all']) newtag = session.getTag(args[1]) # store the new tag, need its asigned id. # get pkglist of src-tag, including inherited packages. if options.pkgs: srcpkgs = session.listPackages(tagID=srctag['id'], inherited=True, event=event.get('id')) srcpkgs.sort(key = lambda x: x['package_name']) if not options.test: session.multicall = True for pkgs in srcpkgs: # for each package add one entry in the new tag. chgpkglist.append(('[new]',pkgs['package_name'],pkgs['blocked'],pkgs['owner_name'],pkgs['tag_name'])) if not options.test: # add packages. session.packageListAdd(newtag['name'],pkgs['package_name'], owner=pkgs['owner_name'],block=pkgs['blocked'], extra_arches=pkgs['extra_arches']) if not options.test: session.multiCall() if options.builds: # get --all latest builds from src tag builds = session.listTagged(srctag['id'], event=event.get('id'), inherit=options.inherit_builds, latest=options.latest_only) if not options.test: session.multicall = True for build in builds: build['name'] = build['package_name'] # add missing 'name' field. chgbldlist.append(('[new]', build['package_name'], build['nvr'], koji.BUILD_STATES[build['state']], build['owner_name'], build['tag_name'])) # copy latest builds into new tag if not options.test: session.tagBuildBypass(newtag['name'], build, force=options.force) if not options.test: session.multiCall() if options.groups: # Copy the group data srcgroups = session.getTagGroups(srctag['name'], event=event.get('id')) if not options.test: session.multicall = True for group in srcgroups: if not options.test: session.groupListAdd(newtag['name'], group['name']) for pkg in group['packagelist']: if not options.test: session.groupPackageListAdd(newtag['name'], group['name'], pkg['package'], block=pkg['blocked']) chggrplist.append(('[new]', pkg['package'], group['name'])) if not options.test: session.multiCall() # case of existing dst-tag. if dsttag: # get fresh list of packages & builds into maps. srcpkgs = {} dstpkgs = {} srclblds = {} dstlblds = {} srcgroups = {} dstgroups = {} if options.pkgs: for pkg in session.listPackages(tagID=srctag['id'], inherited=True, event=event.get('id')): srcpkgs[pkg['package_name']] = pkg for pkg in session.listPackages(tagID=dsttag['id'], inherited=True): dstpkgs[pkg['package_name']] = pkg if options.builds: src_builds = session.listTagged(srctag['id'], event=event.get('id'), inherit=options.inherit_builds, latest=options.latest_only) for build in src_builds: srclblds[build['nvr']] = build for build in session.getLatestBuilds(dsttag['name']): dstlblds[build['nvr']] = build if options.groups: for group in session.getTagGroups(srctag['name'], event=event.get('id')): srcgroups[group['name']] = group for group in session.getTagGroups(dsttag['name']): dstgroups[group['name']] = group #construct to-do lists. paddlist = [] # list containing new packages to be added from src tag for (package_name, pkg) in six.iteritems(srcpkgs): if package_name not in dstpkgs: paddlist.append(pkg) paddlist.sort(key = lambda x: x['package_name']) pdellist = [] # list containing packages no more present in dst tag for (package_name, pkg) in six.iteritems(dstpkgs): if package_name not in srcpkgs: pdellist.append(pkg) pdellist.sort(key = lambda x: x['package_name']) baddlist = [] # list containing new builds to be added from src tag for (nvr, lbld) in six.iteritems(srclblds): if nvr not in dstlblds: baddlist.append(lbld) baddlist.sort(key = lambda x: x['package_name']) bdellist = [] # list containing new builds to be removed from src tag for (nvr, lbld) in six.iteritems(dstlblds): if nvr not in srclblds: bdellist.append(lbld) bdellist.sort(key = lambda x: x['package_name']) gaddlist = [] # list containing new groups to be added from src tag for (grpname, group) in six.iteritems(srcgroups): if grpname not in dstgroups: gaddlist.append(group) gdellist = [] # list containing groups to be removed from src tag for (grpname, group) in six.iteritems(dstgroups): if grpname not in srcgroups: gdellist.append(group) grpchanges = {} # dict of changes to make in shared groups for (grpname, group) in six.iteritems(srcgroups): if grpname in dstgroups: grpchanges[grpname] = {'adds':[], 'dels':[]} # Store whether group is inherited or not grpchanges[grpname]['inherited'] = False if group['tag_id'] != dsttag['id']: grpchanges[grpname]['inherited'] = True srcgrppkglist=[] dstgrppkglist=[] for pkg in group['packagelist']: srcgrppkglist.append(pkg['package']) for pkg in dstgroups[grpname]['packagelist']: dstgrppkglist.append(pkg['package']) for pkg in srcgrppkglist: if not pkg in dstgrppkglist: grpchanges[grpname]['adds'].append(pkg) for pkg in dstgrppkglist: if not pkg in srcgrppkglist: grpchanges[grpname]['dels'].append(pkg) # ADD new packages. if not options.test: session.multicall = True for pkg in paddlist: chgpkglist.append(('[add]', pkg['package_name'], pkg['blocked'], pkg['owner_name'], pkg['tag_name'])) if not options.test: session.packageListAdd(dsttag['name'], pkg['package_name'], owner=pkg['owner_name'], block=pkg['blocked'], extra_arches=pkg['extra_arches']) if not options.test: session.multiCall() # ADD builds. if not options.test: session.multicall = True for build in baddlist: build['name'] = build['package_name'] # add missing 'name' field. chgbldlist.append(('[add]', build['package_name'], build['nvr'], koji.BUILD_STATES[build['state']], build['owner_name'], build['tag_name'])) # copy latest builds into new tag. if not options.test: session.tagBuildBypass(dsttag['name'], build, force=options.force) if not options.test: session.multiCall() # ADD groups. if not options.test: session.multicall = True for group in gaddlist: if not options.test: session.groupListAdd(dsttag['name'], group['name'], force=options.force) for pkg in group['packagelist']: if not options.test: session.groupPackageListAdd(dsttag['name'], group['name'], pkg['package'], force=options.force) chggrplist.append(('[new]', pkg['package'], group['name'])) if not options.test: session.multiCall() # ADD group pkgs. if not options.test: session.multicall = True for group in grpchanges: for pkg in grpchanges[group]['adds']: chggrplist.append(('[new]', pkg, group)) if not options.test: session.groupPackageListAdd(dsttag['name'], group, pkg, force=options.force) if not options.test: session.multiCall() # DEL builds. if not options.test: session.multicall = True for build in bdellist: # dont delete an inherited build. if build['tag_name'] == dsttag['name']: build['name'] = build['package_name'] # add missing 'name' field. chgbldlist.append(('[del]', build['package_name'], build['nvr'], koji.BUILD_STATES[build['state']], build['owner_name'], build['tag_name'])) # go on del builds from new tag. if not options.test: session.untagBuildBypass(dsttag['name'], build, force=options.force) if not options.test: session.multiCall() # DEL packages. if not options.test: session.multicall = True for pkg in pdellist: # delete only non-inherited packages. if build['tag_name'] == dsttag['name']: # check if package have owned builds inside. builds = session.listTagged(dsttag['name'], package=pkg['package_name'], inherit=False) #remove all its builds first if there are any. for build in builds: build['name'] = build['package_name'] #add missing 'name' field. chgbldlist.append(('[del]', build['package_name'], build['nvr'], koji.BUILD_STATES[build['state']], build['owner_name'], build['tag_name'])) # so delete latest build(s) from new tag. if not options.test: session.untagBuildBypass(dsttag['name'], build, force=options.force) # now safe to remove package itselfm since we resolved its builds. chgpkglist.append(('[del]', pkg['package_name'], pkg['blocked'], pkg['owner_name'], pkg['tag_name'])) if not options.test: session.packageListRemove(dsttag['name'], pkg['package_name'], force=False) # mark as blocked inherited packages. if build['tag_name'] != dsttag['name']: chgpkglist.append(('[blk]', pkg['package_name'], pkg['blocked'], pkg['owner_name'], pkg['tag_name'])) if not options.test: session.packageListBlock(dsttag['name'], pkg['package_name']) if not options.test: session.multiCall() # DEL groups. if not options.test: session.multicall = True for group in gdellist: # Only delete a group that isn't inherited if group['tag_id'] == dsttag['id']: if not options.test: session.groupListRemove(dsttag['name'], group['name'], force=options.force) for pkg in group['packagelist']: chggrplist.append(('[del]', pkg['package'], group['name'])) # mark as blocked inherited groups. else: if not options.test: session.groupListBlock(dsttag['name'], group['name']) for pkg in group['packagelist']: chggrplist.append(('[blk]', pkg['package'], group['name'])) if not options.test: session.multiCall() # DEL group pkgs. if not options.test: session.multicall = True for group in grpchanges: for pkg in grpchanges[group]['dels']: # Only delete a group that isn't inherited if not grpchanges[group]['inherited']: chggrplist.append(('[del]', pkg, group)) if not options.test: session.groupPackageListRemove(dsttag['name'], group, pkg, force=options.force) else: chggrplist.append(('[blk]', pkg, group)) if not options.test: session.groupPackageListBlock(dsttag['name'], group, pkg) if not options.test: session.multiCall() # print final list of actions. if options.verbose: pfmt=' %-7s %-28s %-10s %-10s %-10s\n' bfmt=' %-7s %-28s %-40s %-10s %-10s %-10s\n' gfmt=' %-7s %-28s %-28s\n' sys.stdout.write('\nList of changes:\n\n') sys.stdout.write(pfmt % ('Action', 'Package', 'Blocked', 'Owner', 'From Tag')) sys.stdout.write(pfmt % ('-'*7, '-'*28, '-'*10, '-'*10, '-'*10)) for changes in chgpkglist: sys.stdout.write(pfmt % changes) sys.stdout.write('\n') sys.stdout.write(bfmt % ('Action', 'From/To Package', 'Latest Build(s)', 'State', 'Owner', 'From Tag')) sys.stdout.write(bfmt % ('-'*7, '-'*28, '-'*40, '-'*10, '-'*10, '-'*10)) for changes in chgbldlist: sys.stdout.write(bfmt % changes) sys.stdout.write('\n') sys.stdout.write(gfmt % ('Action', 'Package', 'Group')) sys.stdout.write(gfmt % ('-'*7, '-'*28, '-'*28)) for changes in chggrplist: sys.stdout.write(gfmt % changes) def handle_add_target(options, session, args): "[admin] Create a new build target" usage = _("usage: %prog add-target name build-tag ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a target name, a build tag, and destination tag")) assert False # pragma: no cover elif len(args) > 3: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover name = args[0] build_tag = args[1] if len(args) > 2: dest_tag = args[2] else: #most targets have the same name as their destination dest_tag = name activate_session(session) if not session.hasPerm('admin'): print("This action requires admin privileges") return 1 chkbuildtag = session.getTag(build_tag) chkdesttag = session.getTag(dest_tag) if not chkbuildtag: print("Build tag does not exist: %s" % build_tag) return 1 if not chkbuildtag.get("arches", None): print("Build tag has no arches: %s" % build_tag) return 1 if not chkdesttag: print("Destination tag does not exist: %s" % dest_tag) return 1 session.createBuildTarget(name, build_tag, dest_tag) def handle_edit_target(options, session, args): "[admin] Set the name, build_tag, and/or dest_tag of an existing build target to new values" usage = _("usage: %prog edit-target [options] name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--rename", help=_("Specify new name for target")) parser.add_option("--build-tag", help=_("Specify a different build tag")) parser.add_option("--dest-tag", help=_("Specify a different destination tag")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Please specify a build target")) assert False # pragma: no cover activate_session(session) if not session.hasPerm('admin'): print("This action requires admin privileges") return targetInfo = session.getBuildTarget(args[0]) if targetInfo == None: raise koji.GenericError("No build target with the name or id '%s'" % args[0]) targetInfo['orig_name'] = targetInfo['name'] if options.rename: targetInfo['name'] = options.rename if options.build_tag: targetInfo['build_tag_name'] = options.build_tag chkbuildtag = session.getTag(options.build_tag) if not chkbuildtag: print("Build tag does not exist: %s" % options.build_tag) return 1 if not chkbuildtag.get("arches", None): print("Build tag has no arches: %s" % options.build_tag) return 1 if options.dest_tag: chkdesttag = session.getTag(options.dest_tag) if not chkdesttag: print("Destination tag does not exist: %s" % options.dest_tag) return 1 targetInfo['dest_tag_name'] = options.dest_tag session.editBuildTarget(targetInfo['orig_name'], targetInfo['name'], targetInfo['build_tag_name'], targetInfo['dest_tag_name']) def handle_remove_target(options, session, args): "[admin] Remove a build target" usage = _("usage: %prog remove-target [options] name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Please specify a build target to remove")) assert False # pragma: no cover activate_session(session) if not session.hasPerm('admin'): print("This action requires admin privileges") return target = args[0] target_info = session.getBuildTarget(target) if not target_info: print("Build target %s does not exist" % target) return 1 session.deleteBuildTarget(target_info['id']) def handle_remove_tag(options, session, args): "[admin] Remove a tag" usage = _("usage: %prog remove-tag [options] name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Please specify a tag to remove")) assert False # pragma: no cover activate_session(session) if not session.hasPerm('admin'): print("This action requires admin privileges") return tag = args[0] tag_info = session.getTag(tag) if not tag_info: print("Tag %s does not exist" % tag) return 1 session.deleteTag(tag_info['id']) def anon_handle_list_targets(options, session, args): "[info] List the build targets" usage = _("usage: %prog list-targets [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--name", help=_("Specify the build target name")) parser.add_option("--quiet", action="store_true", help=_("Do not print the header information"), default=options.quiet) (options, args) = parser.parse_args(args) if len(args) != 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover activate_session(session) fmt = "%(name)-30s %(build_tag_name)-30s %(dest_tag_name)-30s" if not options.quiet: print("%-30s %-30s %-30s" % ('Name','Buildroot','Destination')) print("-" * 93) tmp_list = [(x['name'], x) for x in session.getBuildTargets(options.name)] tmp_list.sort() targets = [x[1] for x in tmp_list] for target in targets: print(fmt % target) #pprint.pprint(session.getBuildTargets()) def _printInheritance(tags, sibdepths=None, reverse=False): if len(tags) == 0: return if sibdepths == None: sibdepths = [] currtag = tags[0] tags = tags[1:] if reverse: siblings = len([tag for tag in tags if tag['parent_id'] == currtag['parent_id']]) else: siblings = len([tag for tag in tags if tag['child_id'] == currtag['child_id']]) outdepth = 0 for depth in sibdepths: if depth < currtag['currdepth']: outspacing = depth - outdepth sys.stdout.write(' ' * (outspacing * 3 - 1)) sys.stdout.write(u'\u2502'.encode('UTF-8')) outdepth = depth sys.stdout.write(' ' * ((currtag['currdepth'] - outdepth) * 3 - 1)) if siblings: sys.stdout.write(u'\u251c'.encode('UTF-8')) else: sys.stdout.write(u'\u2514'.encode('UTF-8')) sys.stdout.write(u'\u2500'.encode('UTF-8')) if reverse: sys.stdout.write('%(name)s (%(tag_id)i)\n' % currtag) else: sys.stdout.write('%(name)s (%(parent_id)i)\n' % currtag) if siblings: if len(sibdepths) == 0 or sibdepths[-1] != currtag['currdepth']: sibdepths.append(currtag['currdepth']) else: if len(sibdepths) > 0 and sibdepths[-1] == currtag['currdepth']: sibdepths.pop() _printInheritance(tags, sibdepths, reverse) def anon_handle_list_tag_inheritance(options, session, args): "[info] Print the inheritance information for a tag" usage = _("usage: %prog list-tag-inheritance [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--reverse", action="store_true", help=_("Process tag's children instead of its parents")) parser.add_option("--stop", help=_("Stop processing inheritance at this tag")) parser.add_option("--jump", help=_("Jump from one tag to another when processing inheritance")) parser.add_option("--event", type='int', metavar="EVENT#", help=_("query at event")) parser.add_option("--ts", type='int', metavar="TIMESTAMP", help=_("query at timestamp")) parser.add_option("--repo", type='int', metavar="REPO#", help=_("query at event for a repo")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("This command takes exctly one argument: a tag name or ID")) assert False # pragma: no cover activate_session(session) event = koji.util.eventFromOpts(session, options) if event: event['timestr'] = time.asctime(time.localtime(event['ts'])) print("Querying at event %(id)i (%(timestr)s)" % event) if event: tag = session.getTag(args[0], event=event['id']) else: tag = session.getTag(args[0]) if not tag: parser.error(_("Unknown tag: %s" % args[0])) opts = {} opts['reverse'] = options.reverse or False opts['stops'] = {} opts['jumps'] = {} if event: opts['event'] = event['id'] if options.jump: match = re.match(r'^(.*)/(.*)$', options.jump) if match: tag1 = session.getTagID(match.group(1)) if not tag1: parser.error(_("Unknown tag: %s" % match.group(1))) tag2 = session.getTagID(match.group(2)) if not tag2: parser.error(_("Unknown tag: %s" % match.group(2))) opts['jumps'][str(tag1)] = tag2 if options.stop: tag1 = session.getTagID(options.stop) if not tag1: parser.error(_("Unknown tag: %s" % options.stop)) opts['stops'] = {str(tag1): 1} sys.stdout.write('%s (%i)\n' % (tag['name'], tag['id'])) data = session.getFullInheritance(tag['id'], **opts) _printInheritance(data, None, opts['reverse']) def anon_handle_list_tags(options, session, args): "[info] Print the list of tags" usage = _("usage: %prog list-tags [options] [pattern]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--show-id", action="store_true", help=_("Show tag ids")) parser.add_option("--verbose", action="store_true", help=_("Show more information")) parser.add_option("--unlocked", action="store_true", help=_("Only show unlocked tags")) parser.add_option("--build", help=_("Show tags associated with a build")) parser.add_option("--package", help=_("Show tags associated with a package")) (options, args) = parser.parse_args(args) activate_session(session) pkginfo = {} buildinfo = {} if options.package: pkginfo = session.getPackage(options.package) if not pkginfo: parser.error(_("Invalid package %s" % options.package)) assert False # pragma: no cover if options.build: buildinfo = session.getBuild(options.build) if not buildinfo: parser.error(_("Invalid build %s" % options.build)) assert False # pragma: no cover tags = session.listTags(buildinfo.get('id',None), pkginfo.get('id',None)) tags.sort(lambda a,b: cmp(a['name'],b['name'])) #if options.verbose: # fmt = "%(name)s [%(id)i] %(perm)s %(locked)s %(arches)s" if options.show_id: fmt = "%(name)s [%(id)i]" else: fmt = "%(name)s" for tag in tags: if args: for pattern in args: if fnmatch.fnmatch(tag['name'], pattern): break else: continue if options.unlocked: if tag['locked'] or tag['perm']: continue if not options.verbose: print(fmt % tag) else: sys.stdout.write(fmt % tag) if tag['locked']: sys.stdout.write(' [LOCKED]') if tag['perm']: sys.stdout.write(' [%(perm)s perm required]' % tag) print('') def anon_handle_list_tag_history(options, session, args): "[info] Print a history of tag operations" usage = _("usage: %prog list-tag-history [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--debug", action="store_true") parser.add_option("--build", help=_("Only show data for a specific build")) parser.add_option("--package", help=_("Only show data for a specific package")) parser.add_option("--tag", help=_("Only show data for a specific tag")) parser.add_option("--all", action="store_true", help=_("Allows listing the entire global history")) (options, args) = parser.parse_args(args) if len(args) != 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover kwargs = {} limited = False if options.package: kwargs['package'] = options.package limited = True if options.tag: kwargs['tag'] = options.tag limited = True if options.build: kwargs['build'] = options.build limited = True if not limited and not options.all: parser.error(_("Please specify an option to limit the query")) activate_session(session) hist = session.tagHistory(**kwargs) timeline = [] for x in hist: event_id = x['revoke_event'] if event_id is not None: timeline.append((event_id, x)) event_id = x['create_event'] timeline.append((event_id, x)) timeline.sort() def _histline(event_id, x): if event_id == x['revoke_event']: ts = x['revoke_ts'] fmt = "%(name)s-%(version)s-%(release)s untagged from %(tag_name)s" if 'revoker_name' in x: fmt += " by %(revoker_name)s" elif event_id == x['create_event']: ts = x['create_ts'] fmt = "%(name)s-%(version)s-%(release)s tagged into %(tag_name)s" if 'creator_name' in x: fmt += " by %(creator_name)s" if x['active']: fmt += " [still active]" else: raise koji.GenericError("unknown event: (%r, %r)" % (event_id, x)) time_str = time.asctime(time.localtime(ts)) return "%s: %s" % (time_str, fmt % x) for event_id, x in timeline: if options.debug: print("%r" % x) print(_histline(event_id, x)) def _print_histline(entry, **kwargs): options = kwargs['options'] event_id, table, create, x = entry who = None edit = x.get('.related') if edit: del x['.related'] bad_edit = None if len(edit) != 1: bad_edit = "%i elements" % len(edit)+1 other = edit[0] #check edit for sanity if create or not other[2]: bad_edit = "out of order" if event_id != other[0]: bad_edit = "non-matching" if bad_edit: print("Warning: unusual edit at event %i in table %s (%s)" % (event_id, table, bad_edit)) #we'll simply treat them as separate events pprint.pprint(entry) pprint.pprint(edit) _print_histline(entry, **kwargs) for data in edit: _print_histline(entry, **kwargs) return if create: ts = x['create_ts'] if 'creator_name' in x: who = "by %(creator_name)s" else: ts = x['revoke_ts'] if 'revoker_name' in x: who = "by %(revoker_name)s" if table == 'tag_listing': if edit: fmt = "%(name)s-%(version)s-%(release)s re-tagged into %(tag.name)s" elif create: fmt = "%(name)s-%(version)s-%(release)s tagged into %(tag.name)s" else: fmt = "%(name)s-%(version)s-%(release)s untagged from %(tag.name)s" elif table == 'user_perms': if edit: fmt = "permission %(permission.name)s re-granted to %(user.name)s" elif create: fmt = "permission %(permission.name)s granted to %(user.name)s" else: fmt = "permission %(permission.name)s revoked for %(user.name)s" elif table == 'user_groups': if edit: fmt = "user %(user.name)s re-added to group %(group.name)s" elif create: fmt = "user %(user.name)s added to group %(group.name)s" else: fmt = "user %(user.name)s removed from group %(group.name)s" elif table == 'cg_users': if edit: fmt = "user %(user.name)s re-added to content generator %(content_generator.name)s" elif create: fmt = "user %(user.name)s added to content generator %(content_generator.name)s" else: fmt = "user %(user.name)s removed from content generator %(content_generator.name)s" elif table == 'tag_packages': if edit: fmt = "package list entry for %(package.name)s in %(tag.name)s updated" elif create: fmt = "package list entry created: %(package.name)s in %(tag.name)s" else: fmt = "package list entry revoked: %(package.name)s in %(tag.name)s" elif table == 'tag_inheritance': if edit: fmt = "inheritance line %(tag.name)s->%(parent.name)s updated" elif create: fmt = "inheritance line %(tag.name)s->%(parent.name)s added" else: fmt = "inheritance line %(tag.name)s->%(parent.name)s removed" elif table == 'tag_config': if edit: fmt = "tag configuration for %(tag.name)s altered" elif create: fmt = "new tag: %(tag.name)s" else: fmt = "tag deleted: %(tag.name)s" elif table == 'tag_extra': if edit: fmt = "tag option %(key)s for tag %(tag.name)s altered" elif create: fmt = "added tag option %(key)s for tag %(tag.name)s" else: fmt = "tag option %(key)s removed for %(tag.name)s" elif table == 'build_target_config': if edit: fmt = "build target configuration for %(build_target.name)s updated" elif create: fmt = "new build target: %(build_target.name)s" else: fmt = "build target deleted: %(build_target.name)s" elif table == 'external_repo_config': if edit: fmt = "external repo configuration for %(external_repo.name)s altered" elif create: fmt = "new external repo: %(external_repo.name)s" else: fmt = "external repo deleted: %(external_repo.name)s" elif table == 'tag_external_repos': if edit: fmt = "external repo entry for %(external_repo.name)s in tag %(tag.name)s updated" elif create: fmt = "external repo entry for %(external_repo.name)s added to tag %(tag.name)s" else: fmt = "external repo entry for %(external_repo.name)s removed from tag %(tag.name)s" elif table == 'group_config': if edit: fmt = "group %(group.name)s configuration for tag %(tag.name)s updated" elif create: fmt = "group %(group.name)s added to tag %(tag.name)s" else: fmt = "group %(group.name)s removed from tag %(tag.name)s" elif table == 'group_req_listing': if edit: fmt = "group dependency %(group.name)s->%(req.name)s updated in tag %(tag.name)s" elif create: fmt = "group dependency %(group.name)s->%(req.name)s added in tag %(tag.name)s" else: fmt = "group dependency %(group.name)s->%(req.name)s dropped from tag %(tag.name)s" elif table == 'group_package_listing': if edit: fmt = "package entry %(package)s in group %(group.name)s, tag %(tag.name)s updated" elif create: fmt = "package %(package)s added to group %(group.name)s in tag %(tag.name)s" else: fmt = "package %(package)s removed from group %(group.name)s in tag %(tag.name)s" else: if edit: fmt = "%s entry updated" % table elif create: fmt = "%s entry created" % table else: fmt = "%s entry revoked" % table time_str = time.asctime(time.localtime(ts)) parts = [time_str, fmt % x] if options.events or options.verbose: parts.insert(1, "(eid %i)" % event_id) if who: parts.append(who % x) if create and x['active']: parts.append("[still active]") print(' '.join(parts)) hidden_fields = ['active', 'create_event', 'revoke_event', 'creator_id', 'revoker_id', 'creator_name', 'revoker_name', 'create_ts', 'revoke_ts'] def get_nkey(key): if key == 'perm_id': return 'permission.name' elif key.endswith('_id'): return '%s.name' % key[:-3] else: return '%s.name' % key if edit: keys = list(x.keys()) keys.sort() y = other[-1] for key in keys: if key in hidden_fields: continue if x[key] == y[key]: continue if key[0] == '_': continue nkey = get_nkey(key) if nkey in x and nkey in y: continue print(" %s: %s -> %s" % (key, x[key], y[key])) elif create and options.verbose and table != 'tag_listing': keys = list(x.keys()) keys.sort() # the table keys have already been represented in the base format string also_hidden = list(_table_keys[table]) also_hidden.extend([get_nkey(k) for k in also_hidden]) for key in keys: if key in hidden_fields or key in also_hidden: continue nkey = get_nkey(key) if nkey in x: continue if key[0] == '_': continue if x.get('blocked') and key != 'blocked': continue if key.endswith('.name'): dkey = key[:-5] else: dkey = key print(" %s: %s" % (dkey, x[key])) _table_keys = { 'user_perms' : ['user_id', 'perm_id'], 'user_groups' : ['user_id', 'group_id'], 'cg_users' : ['user_id', 'cg_id'], 'tag_inheritance' : ['tag_id', 'parent_id'], 'tag_config' : ['tag_id'], 'tag_extra' : ['tag_id', 'key'], 'build_target_config' : ['build_target_id'], 'external_repo_config' : ['external_repo_id'], 'tag_external_repos' : ['tag_id', 'external_repo_id'], 'tag_listing' : ['build_id', 'tag_id'], 'tag_packages' : ['package_id', 'tag_id'], 'group_config' : ['group_id', 'tag_id'], 'group_req_listing' : ['group_id', 'tag_id', 'req_id'], 'group_package_listing' : ['group_id', 'tag_id', 'package'], } def anon_handle_list_history(options, session, args): "[info] Display historical data" usage = _("usage: %prog list-history [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--debug", action="store_true") parser.add_option("--build", help=_("Only show data for a specific build")) parser.add_option("--package", help=_("Only show data for a specific package")) parser.add_option("--tag", help=_("Only show data for a specific tag")) parser.add_option("--editor", "--by", metavar="USER", help=_("Only show entries modified by user")) parser.add_option("--user", help=_("Only show entries affecting a user")) parser.add_option("--permission", help=_("Only show entries relating to a given permission")) parser.add_option("--cg", help=_("Only show entries relating to a given permission")) parser.add_option("--external-repo", "--erepo", help=_("Only show entries relating to a given external repo")) parser.add_option("--build-target", "--target", help=_("Only show entries relating to a given build target")) parser.add_option("--group", help=_("Only show entries relating to a given group")) parser.add_option("--before", metavar="TIMESTAMP", help=_("Only show entries before timestamp")) parser.add_option("--after", metavar="TIMESTAMP", help=_("Only show entries after timestamp")) parser.add_option("--before-event", metavar="EVENT_ID", type='int', help=_("Only show entries before event")) parser.add_option("--after-event", metavar="EVENT_ID", type='int', help=_("Only show entries after event")) parser.add_option("--watch", action="store_true", help=_("Monitor history data")) parser.add_option("--active", action='store_true', help=_("Only show entries that are currently active")) parser.add_option("--revoked", action='store_false', dest='active', help=_("Only show entries that are currently revoked")) parser.add_option("--context", action="store_true", help=_("Show related entries")) parser.add_option("-s", "--show", action="append", help=_("Show data from selected tables")) parser.add_option("-v", "--verbose", action="store_true", help=_("Show more detail")) parser.add_option("-e", "--events", action="store_true", help=_("Show event ids")) parser.add_option("--all", action="store_true", help=_("Allows listing the entire global history")) global_options = options (options, args) = parser.parse_args(args) if len(args) != 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover kwargs = {} limited = False for opt in ('before', 'after'): val = getattr(options, opt) if not val: continue try: ts = float(val) setattr(options, opt, ts) continue except ValueError: pass try: dt = dateutil.parser.parse(val) ts = time.mktime(dt.timetuple()) setattr(options, opt, ts) except: parser.error(_("Invalid time specification: %s") % val) for opt in ('package', 'tag', 'build', 'editor', 'user', 'permission', 'cg', 'external_repo', 'build_target', 'group', 'before', 'after'): val = getattr(options, opt) if val: kwargs[opt] = val limited = True if options.before_event: kwargs['beforeEvent'] = options.before_event if options.after_event: kwargs['afterEvent'] = options.after_event if options.active is not None: kwargs['active'] = options.active tables = None if options.show: tables = [] for arg in options.show: tables.extend(arg.split(',')) if not limited and not options.all: parser.error(_("Please specify an option to limit the query")) activate_session(session) if options.watch: if not kwargs.get('afterEvent') and not kwargs.get('after'): kwargs['afterEvent'] = session.getLastEvent()['id'] while True: histdata = session.queryHistory(tables=tables, **kwargs) timeline = [] def distinguish_match(x, name): """determine if create or revoke event matched""" if options.context: return True name = "_" + name ret = True for key in x: if key.startswith(name): ret = ret and x[key] return ret for table in histdata: hist = histdata[table] for x in hist: if x['revoke_event'] is not None: if distinguish_match(x, 'revoked'): timeline.append((x['revoke_event'], table, 0, x.copy())) #pprint.pprint(timeline[-1]) if distinguish_match(x, 'created'): timeline.append((x['create_event'], table, 1, x)) timeline.sort() #group edits together new_timeline = [] last_event = None edit_index = {} for entry in timeline: event_id, table, create, x = entry if event_id != last_event: edit_index = {} last_event = event_id key = tuple([x[k] for k in _table_keys[table]]) prev = edit_index.get((table, event_id), {}).get(key) if prev: prev[-1].setdefault('.related', []).append(entry) else: edit_index.setdefault((table, event_id), {})[key] = entry new_timeline.append(entry) for entry in new_timeline: if options.debug: print("%r" % list(entry)) _print_histline(entry, options=options) if not options.watch: break else: time.sleep(global_options.poll_interval) # repeat query for later events if last_event: kwargs['afterEvent'] = last_event def _handleMap(lines, data, prefix=''): for key, val in data.items(): if key != '__starstar': lines.append(' %s%s: %s' % (prefix, key, val)) def _handleOpts(lines, opts, prefix=''): if opts: lines.append("%sOptions:" % prefix) _handleMap(lines, opts, prefix) def _parseTaskParams(session, method, task_id): try: return _do_parseTaskParams(session, method, task_id) except Exception: if logger.isEnabledFor(logging.DEBUG): tb_str = ''.join(traceback.format_exception(*sys.exc_info())) logger.debug(tb_str) return ['Unable to parse task parameters'] def _do_parseTaskParams(session, method, task_id): """Parse the return of getTaskRequest()""" params = session.getTaskRequest(task_id) lines = [] if method == 'buildSRPMFromCVS': lines.append("CVS URL: %s" % params[0]) elif method == 'buildSRPMFromSCM': lines.append("SCM URL: %s" % params[0]) elif method == 'buildArch': lines.append("SRPM: %s/work/%s" % (options.topdir, params[0])) lines.append("Build Tag: %s" % session.getTag(params[1])['name']) lines.append("Build Arch: %s" % params[2]) lines.append("SRPM Kept: %r" % params[3]) if len(params) > 4: _handleOpts(lines, params[4]) elif method == 'tagBuild': build = session.getBuild(params[1]) lines.append("Destination Tag: %s" % session.getTag(params[0])['name']) lines.append("Build: %s" % koji.buildLabel(build)) elif method == 'buildNotification': build = params[1] buildTarget = params[2] lines.append("Recipients: %s" % (", ".join(params[0]))) lines.append("Build: %s" % koji.buildLabel(build)) lines.append("Build Target: %s" % buildTarget['name']) lines.append("Web URL: %s" % params[3]) elif method == 'build': lines.append("Source: %s" % params[0]) lines.append("Build Target: %s" % params[1]) if len(params) > 2: _handleOpts(lines, params[2]) elif method == 'maven': lines.append("SCM URL: %s" % params[0]) lines.append("Build Target: %s" % params[1]) if len(params) > 2: _handleOpts(lines, params[2]) elif method == 'buildMaven': lines.append("SCM URL: %s" % params[0]) lines.append("Build Tag: %s" % params[1]['name']) if len(params) > 2: _handleOpts(lines, params[2]) elif method == 'wrapperRPM': lines.append("Spec File URL: %s" % params[0]) lines.append("Build Tag: %s" % params[1]['name']) if params[2]: lines.append("Build: %s" % koji.buildLabel(params[2])) if params[3]: lines.append("Task: %s %s" % (params[3]['id'], koji.taskLabel(params[3]))) if len(params) > 4: _handleOpts(lines, params[4]) elif method == 'chainmaven': lines.append("Builds:") for package, opts in params[0].items(): lines.append(" " + package) _handleMap(lines, opts, prefix=" ") lines.append("Build Target: %s" % params[1]) if len(params) > 2: _handleOpts(lines, params[2]) elif method == 'winbuild': lines.append("VM: %s" % params[0]) lines.append("SCM URL: %s" % params[1]) lines.append("Build Target: %s" % params[2]) if len(params) > 3: _handleOpts(lines, params[3]) elif method == 'vmExec': lines.append("VM: %s" % params[0]) lines.append("Exec Params:") for info in params[1]: if isinstance(info, dict): _handleMap(lines, info, prefix=' ') else: lines.append(" %s" % info) if len(params) > 2: _handleOpts(lines, params[2]) elif method in ('createLiveCD', 'createAppliance', 'createLiveMedia'): argnames = ['Name', 'Version', 'Release', 'Arch', 'Target Info', 'Build Tag', 'Repo', 'Kickstart File'] for n, v in zip(argnames, params): lines.append("%s: %s" % (n, v)) if len(params) > 8: _handleOpts(lines, params[8]) elif method in ('appliance', 'livecd', 'livemedia'): argnames = ['Name', 'Version', 'Arches', 'Target', 'Kickstart'] for n, v in zip(argnames, params): lines.append("%s: %s" % (n, v)) if len(params) > 5: _handleOpts(lines, params[5]) elif method == 'newRepo': tag = session.getTag(params[0]) lines.append("Tag: %s" % tag['name']) elif method == 'prepRepo': lines.append("Tag: %s" % params[0]['name']) elif method == 'createrepo': lines.append("Repo ID: %i" % params[0]) lines.append("Arch: %s" % params[1]) oldrepo = params[2] if oldrepo: lines.append("Old Repo ID: %i" % oldrepo['id']) lines.append("Old Repo Creation: %s" % koji.formatTimeLong(oldrepo['creation_time'])) if len(params) > 3: lines.append("External Repos: %s" % ', '.join([ext['external_repo_name'] for ext in params[3]])) elif method == 'tagNotification': destTag = session.getTag(params[2]) srcTag = None if params[3]: srcTag = session.getTag(params[3]) build = session.getBuild(params[4]) user = session.getUser(params[5]) lines.append("Recipients: %s" % ", ".join(params[0])) lines.append("Successful?: %s" % (params[1] and 'yes' or 'no')) lines.append("Tagged Into: %s" % destTag['name']) if srcTag: lines.append("Moved From: %s" % srcTag['name']) lines.append("Build: %s" % koji.buildLabel(build)) lines.append("Tagged By: %s" % user['name']) lines.append("Ignore Success?: %s" % (params[6] and 'yes' or 'no')) if params[7]: lines.append("Failure Message: %s" % params[7]) elif method == 'dependantTask': lines.append("Dependant Tasks: %s" % ", ".join([str(depID) for depID in params[0]])) lines.append("Subtasks:") for subtask in params[1]: lines.append(" Method: %s" % subtask[0]) lines.append(" Parameters: %s" % ", ".join([str(subparam) for subparam in subtask[1]])) if len(subtask) > 2 and subtask[2]: subopts = subtask[2] _handleOpts(lines, subopts, prefix=' ') lines.append("") elif method == 'chainbuild': lines.append("Build Groups:") group_num = 0 for group_list in params[0]: group_num += 1 lines.append(" %i: %s" % (group_num, ', '.join(group_list))) lines.append("Build Target: %s" % params[1]) if len(params) > 2: _handleOpts(lines, params[2]) elif method == 'waitrepo': lines.append("Build Target: %s" % params[0]) if params[1]: lines.append("Newer Than: %s" % params[1]) if params[2]: lines.append("NVRs: %s" % ', '.join(params[2])) return lines def _printTaskInfo(session, task_id, level=0, recurse=True, verbose=True): """Recursive function to print information about a task and its children.""" BUILDDIR = '/var/lib/mock' indent = " "*2*level info = session.getTaskInfo(task_id) if info is None: raise koji.GenericError("No such task: %d" % task_id) if info['host_id']: host_info = session.getHost(info['host_id']) else: host_info = None buildroot_infos = session.listBuildroots(taskID=task_id) build_info = session.listBuilds(taskID=task_id) files = list_task_output_all_volumes(session, task_id) logs = [] output = [] for filename in files: if filename.endswith('.log'): logs += [os.path.join(koji.pathinfo.work(volume=volume), koji.pathinfo.taskrelpath(task_id), filename) for volume in files[filename]] else: output += [os.path.join(koji.pathinfo.work(volume=volume), koji.pathinfo.taskrelpath(task_id), filename) for volume in files[filename]] owner = session.getUser(info['owner'])['name'] print("%sTask: %d" % (indent, task_id)) print("%sType: %s" % (indent, info['method'])) if verbose: print("%sRequest Parameters:" % indent) for line in _parseTaskParams(session, info['method'], task_id): print("%s %s" % (indent, line)) print("%sOwner: %s" % (indent, owner)) print("%sState: %s" % (indent, koji.TASK_STATES[info['state']].lower())) print("%sCreated: %s" % (indent, time.asctime(time.localtime(info['create_ts'])))) if info.get('start_ts'): print("%sStarted: %s" % (indent, time.asctime(time.localtime(info['start_ts'])))) if info.get('completion_ts'): print("%sFinished: %s" % (indent, time.asctime(time.localtime(info['completion_ts'])))) if host_info: print("%sHost: %s" % (indent, host_info['name'])) if build_info: print("%sBuild: %s (%d)" % (indent, build_info[0]['nvr'], build_info[0]['build_id'])) if buildroot_infos: print("%sBuildroots:" % indent) for root in buildroot_infos: print("%s %s/%s-%d-%d/" % (indent, BUILDDIR, root['tag_name'], root['id'], root['repo_id'])) if logs: print("%sLog Files:" % indent) for log_path in logs: print("%s %s" % (indent, log_path)) if output: print("%sOutput:" % indent) for file_path in output: print("%s %s" % (indent, file_path)) # white space print('') if recurse: level += 1 children = session.getTaskChildren(task_id, request=True) children.sort(cmp=lambda a, b: cmp(a['id'], b['id'])) for child in children: _printTaskInfo(session, child['id'], level, verbose=verbose) def anon_handle_taskinfo(options, session, args): """[info] Show information about a task""" usage = _("usage: %prog taskinfo [options] taskID [taskID...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("-r", "--recurse", action="store_true", help=_("Show children of this task as well")) parser.add_option("-v", "--verbose", action="store_true", help=_("Be verbose")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("You must specify at least one task ID")) assert False # pragma: no cover activate_session(session) for arg in args: task_id = int(arg) _printTaskInfo(session, task_id, 0, options.recurse, options.verbose) def anon_handle_taginfo(options, session, args): "[info] Print basic information about a tag" usage = _("usage: %prog taginfo [options] [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--event", type='int', metavar="EVENT#", help=_("query at event")) parser.add_option("--ts", type='int', metavar="TIMESTAMP", help=_("query at timestamp")) parser.add_option("--repo", type='int', metavar="REPO#", help=_("query at event for a repo")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify a tag")) assert False # pragma: no cover activate_session(session) event = koji.util.eventFromOpts(session, options) event_opts = {} if event: event['timestr'] = time.asctime(time.localtime(event['ts'])) print("Querying at event %(id)i (%(timestr)s)" % event) event_opts['event'] = event['id'] perms = dict([(p['id'], p['name']) for p in session.getAllPerms()]) tags = [] for tag in args: info = session.getTag(tag, **event_opts) if info is None: print("No such tag: %s" % tag) sys.exit(1) tags.append(info) for n, info in enumerate(tags): if n > 0: print('') print("Tag: %(name)s [%(id)d]" %info) print("Arches: %(arches)s" %info) group_list = [x['name'] for x in session.getTagGroups(info['id'], **event_opts)] group_list.sort() print("Groups: " + ', '.join(group_list)) if info.get('locked'): print('LOCKED') if info.get('perm_id') is not None: perm_id = info['perm_id'] print("Required permission: %r" % perms.get(perm_id, perm_id)) if session.mavenEnabled(): print("Maven support?: %s" % (info['maven_support'] and 'yes' or 'no')) print("Include all Maven archives?: %s" % (info['maven_include_all'] and 'yes' or 'no')) if 'extra' in info: print("Tag options:") keys = list(info['extra'].keys()) keys.sort() for key in keys: print(" %s : %s" % (key, pprint.pformat(info['extra'][key]))) dest_targets = session.getBuildTargets(destTagID=info['id'], **event_opts) build_targets = session.getBuildTargets(buildTagID=info['id'], **event_opts) repos = {} if not event: for target in dest_targets + build_targets: if target['build_tag'] not in repos: repo = session.getRepo(target['build_tag']) if repo is None: repos[target['build_tag']] = "no active repo" else: repos[target['build_tag']] = "repo#%(id)i: %(creation_time)s" % repo if dest_targets: print("Targets that build into this tag:") for target in dest_targets: if event: print(" %s (%s)" % (target['name'], target['build_tag_name'])) else: print(" %s (%s, %s)" % (target['name'], target['build_tag_name'], repos[target['build_tag']])) if build_targets: print("This tag is a buildroot for one or more targets") if not event: print("Current repo: %s" % repos[info['id']]) print("Targets that build from this tag:") for target in build_targets: print(" %s" % target['name']) external_repos = session.getTagExternalRepos(tag_info=info['id'], **event_opts) if external_repos: print("External repos:") for rinfo in external_repos: print(" %(priority)3i %(external_repo_name)s (%(url)s)" % rinfo) print("Inheritance:") for parent in session.getInheritanceData(tag, **event_opts): flags = '' for code,expr in ( ('M',parent['maxdepth'] is not None), ('F',parent['pkg_filter']), ('I',parent['intransitive']), ('N',parent['noconfig']),): if expr: flags += code else: flags += '.' parent['flags'] = flags print(" %(priority)-4d %(flags)s %(name)s [%(parent_id)s]" % parent) if parent['maxdepth'] is not None: print(" maxdepth: %(maxdepth)s" % parent) if parent['pkg_filter']: print(" package filter: %(pkg_filter)s" % parent) def handle_add_tag(options, session, args): "[admin] Add a new tag to the database" usage = _("usage: %prog add-tag [options] name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--parent", help=_("Specify parent")) parser.add_option("--arches", help=_("Specify arches")) parser.add_option("--maven-support", action="store_true", help=_("Enable creation of Maven repos for this tag")) parser.add_option("--include-all", action="store_true", help=_("Include all packages in this tag when generating Maven repos")) parser.add_option("-x", "--extra", action="append", default=[], metavar="key=value", help=_("Set tag extra option")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Please specify a name for the tag")) assert False # pragma: no cover activate_session(session) if not session.hasPerm('admin'): print("This action requires admin privileges") return opts = {} if options.parent: opts['parent'] = options.parent if options.arches: opts['arches'] = parse_arches(options.arches) if options.maven_support: opts['maven_support'] = True if options.include_all: opts['maven_include_all'] = True if options.extra: extra = {} for xopt in options.extra: key, value = xopt.split('=', 1) value = arg_filter(value) extra[key] = value opts['extra'] = extra session.createTag(args[0],**opts) def handle_edit_tag(options, session, args): "[admin] Alter tag information" usage = _("usage: %prog edit-tag [options] name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--arches", help=_("Specify arches")) parser.add_option("--perm", help=_("Specify permission requirement")) parser.add_option("--no-perm", action="store_true", help=_("Remove permission requirement")) parser.add_option("--lock", action="store_true", help=_("Lock the tag")) parser.add_option("--unlock", action="store_true", help=_("Unlock the tag")) parser.add_option("--rename", help=_("Rename the tag")) parser.add_option("--maven-support", action="store_true", help=_("Enable creation of Maven repos for this tag")) parser.add_option("--no-maven-support", action="store_true", help=_("Disable creation of Maven repos for this tag")) parser.add_option("--include-all", action="store_true", help=_("Include all packages in this tag when generating Maven repos")) parser.add_option("--no-include-all", action="store_true", help=_("Do not include all packages in this tag when generating Maven repos")) parser.add_option("-x", "--extra", action="append", default=[], metavar="key=value", help=_("Set tag extra option")) parser.add_option("-r", "--remove-extra", action="append", default=[], metavar="key", help=_("Remove tag extra option")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Please specify a name for the tag")) assert False # pragma: no cover activate_session(session) tag = args[0] opts = {} if options.arches: opts['arches'] = parse_arches(options.arches) if options.no_perm: opts['perm_id'] = None elif options.perm: opts['perm'] = options.perm if options.unlock: opts['locked'] = False if options.lock: opts['locked'] = True if options.rename: opts['name'] = options.rename if options.maven_support: opts['maven_support'] = True if options.no_maven_support: opts['maven_support'] = False if options.include_all: opts['maven_include_all'] = True if options.no_include_all: opts['maven_include_all'] = False if options.extra: extra = {} for xopt in options.extra: key, value = xopt.split('=', 1) value = arg_filter(value) extra[key] = value opts['extra'] = extra if options.remove_extra: opts['remove_extra'] = options.remove_extra #XXX change callname session.editTag2(tag, **opts) def handle_lock_tag(options, session, args): "[admin] Lock a tag" usage = _("usage: %prog lock-tag [options] [ ...] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--perm", help=_("Specify permission requirement")) parser.add_option("--glob", action="store_true", help=_("Treat args as glob patterns")) parser.add_option("--master", action="store_true", help=_("Lock the master lock")) parser.add_option("-n", "--test", action="store_true", help=_("Test mode")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify a tag")) assert False # pragma: no cover activate_session(session) pdata = session.getAllPerms() perm_ids = dict([(p['name'], p['id']) for p in pdata]) perm = options.perm if perm is None: perm = 'admin' perm_id = perm_ids[perm] if options.glob: selected = [] for tag in session.listTags(): for pattern in args: if fnmatch.fnmatch(tag['name'], pattern): selected.append(tag) break if not selected: print(_("No tags matched")) else: selected = [session.getTag(name) for name in args] for tag in selected: if options.master: #set the master lock if tag['locked']: print(_("Tag %s: master lock already set") % tag['name']) continue elif options.test: print(_("Would have set master lock for: %s") % tag['name']) continue session.editTag2(tag['id'], locked=True) else: if tag['perm_id'] == perm_id: print(_("Tag %s: %s permission already required") % (tag['name'], perm)) continue elif options.test: print(_("Would have set permission requirement %s for tag %s") % (perm, tag['name'])) continue session.editTag2(tag['id'], perm=perm_id) def handle_unlock_tag(options, session, args): "[admin] Unlock a tag" usage = _("usage: %prog unlock-tag [options] [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--glob", action="store_true", help=_("Treat args as glob patterns")) parser.add_option("-n", "--test", action="store_true", help=_("Test mode")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify a tag")) assert False # pragma: no cover activate_session(session) if options.glob: selected = [] for tag in session.listTags(): for pattern in args: if fnmatch.fnmatch(tag['name'], pattern): selected.append(tag) break if not selected: print(_("No tags matched")) else: selected = [] for name in args: tag = session.getTag(name) if tag is None: parser.error(_("No such tag: %s") % name) assert False # pragma: no cover selected.append(tag) selected = [session.getTag(name) for name in args] for tag in selected: opts = {} if tag['locked']: opts['locked'] = False if tag['perm_id']: opts['perm'] = None if not opts: print("Tag %(name)s: not locked" % tag) continue if options.test: print("Tag %s: skipping changes: %r" % (tag['name'], opts)) else: session.editTag2(tag['id'], locked=False, perm_id=None) def handle_add_tag_inheritance(options, session, args): """[admin] Add to a tag's inheritance""" usage = _("usage: %prog add-tag-inheritance [options] tag parent-tag") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--priority", help=_("Specify priority")) parser.add_option("--maxdepth", help=_("Specify max depth")) parser.add_option("--intransitive", action="store_true", help=_("Set intransitive")) parser.add_option("--noconfig", action="store_true", help=_("Set to packages only")) parser.add_option("--pkg-filter", help=_("Specify the package filter")) parser.add_option("--force", help=_("Force adding a parent to a tag that already has that parent tag")) (options, args) = parser.parse_args(args) if len(args) != 2: parser.error(_("This command takes exctly two argument: a tag name or ID and that tag's new parent name or ID")) assert False # pragma: no cover activate_session(session) tag = session.getTag(args[0]) if not tag: parser.error(_("Invalid tag: %s" % args[0])) parent = session.getTag(args[1]) if not parent: parser.error(_("Invalid tag: %s" % args[1])) inheritanceData = session.getInheritanceData(tag['id']) priority = options.priority and int(options.priority) or 0 sameParents = [datum for datum in inheritanceData if datum['parent_id'] == parent['id']] samePriority = [datum for datum in inheritanceData if datum['priority'] == priority] if sameParents and not options.force: print(_("Error: You are attempting to add %s as %s's parent even though it already is %s's parent.") % (parent['name'], tag['name'], tag['name'])) print(_("Please use --force if this is what you really want to do.")) return if samePriority: print(_("Error: There is already an active inheritance with that priority on %s, please specify a different priority with --priority." % tag['name'])) return new_data = {} new_data['parent_id'] = parent['id'] new_data['priority'] = options.priority or 0 if options.maxdepth and options.maxdepth.isdigit(): new_data['maxdepth'] = int(options.maxdepth) else: new_data['maxdepth'] = None new_data['intransitive'] = options.intransitive or False new_data['noconfig'] = options.noconfig or False new_data['pkg_filter'] = options.pkg_filter or '' inheritanceData.append(new_data) session.setInheritanceData(tag['id'], inheritanceData) def handle_edit_tag_inheritance(options, session, args): """[admin] Edit tag inheritance""" usage = _("usage: %prog edit-tag-inheritance [options] tag ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--priority", help=_("Specify a new priority")) parser.add_option("--maxdepth", help=_("Specify max depth")) parser.add_option("--intransitive", action="store_true", help=_("Set intransitive")) parser.add_option("--noconfig", action="store_true", help=_("Set to packages only")) parser.add_option("--pkg-filter", help=_("Specify the package filter")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("This command takes at lease one argument: a tag name or ID")) assert False # pragma: no cover if len(args) > 3: parser.error(_("This command takes at most three argument: a tag name or ID, a parent tag name or ID, and a priority")) assert False # pragma: no cover activate_session(session) tag = session.getTag(args[0]) if not tag: parser.error(_("Invalid tag: %s" % args[0])) parent = None priority = None if len(args) > 1: parent = session.getTag(args[1]) if not parent: parser.error(_("Invalid tag: %s" % args[1])) if len(args) > 2: priority = args[2] data = session.getInheritanceData(tag['id']) if parent and data: data = [datum for datum in data if datum['parent_id'] == parent['id']] if priority and data: data = [datum for datum in data if datum['priority'] == priority] if len(data) == 0: print(_("No inheritance link found to remove. Please check your arguments")) return 1 elif len(data) > 1: print(_("Multiple matches for tag.")) if not parent: print(_("Please specify a parent on the command line.")) return 1 if not priority: print(_("Please specify a priority on the command line.")) return 1 print(_("Error: Key constraints may be broken. Exiting.")) return 1 # len(data) == 1 data = data[0] inheritanceData = session.getInheritanceData(tag['id']) samePriority = [datum for datum in inheritanceData if datum['priority'] == options.priority] if samePriority: print(_("Error: There is already an active inheritance with that priority on %s, please specify a different priority with --priority.") % tag['name']) return 1 new_data = data.copy() if options.priority is not None and options.priority.isdigit(): new_data['priority'] = int(options.priority) if options.maxdepth is not None: if options.maxdepth.isdigit(): new_data['maxdepth'] = int(options.maxdepth) elif options.maxdepth.lower() == "none": new_data['maxdepth'] = None else: print(_("Invalid maxdepth: %s") % options.maxdepth) return 1 if options.intransitive: new_data['intransitive'] = options.intransitive if options.noconfig: new_data['noconfig'] = options.noconfig if options.pkg_filter: new_data['pkg_filter'] = options.pkg_filter # find the data we want to edit and replace it index = inheritanceData.index(data) inheritanceData[index] = new_data session.setInheritanceData(tag['id'], inheritanceData) def handle_remove_tag_inheritance(options, session, args): """[admin] Remove a tag inheritance link""" usage = _("usage: %prog remove-tag-inheritance tag ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("This command takes at lease one argument: a tag name or ID")) assert False # pragma: no cover if len(args) > 3: parser.error(_("This command takes at most three argument: a tag name or ID, a parent tag name or ID, and a priority")) assert False # pragma: no cover activate_session(session) tag = session.getTag(args[0]) if not tag: parser.error(_("Invalid tag: %s" % args[0])) parent = None priority = None if len(args) > 1: parent = session.getTag(args[1]) if not parent: parser.error(_("Invalid tag: %s" % args[1])) if len(args) > 2: priority = args[2] data = session.getInheritanceData(tag['id']) if parent and data: data = [datum for datum in data if datum['parent_id'] == parent['id']] if priority and data: data = [datum for datum in data if datum['priority'] == priority] if len(data) == 0: print(_("No inheritance link found to remove. Please check your arguments")) return elif len(data) > 1: print(_("Multiple matches for tag.")) if not parent: print(_("Please specify a parent on the command line.")) return if not priority: print(_("Please specify a priority on the command line.")) return print(_("Error: Key constrainsts may be broken. Exiting.")) return # len(data) == 1 data = data[0] inheritanceData = session.getInheritanceData(tag['id']) new_data = data.copy() new_data['delete link'] = True # find the data we want to edit and replace it index = inheritanceData.index(data) inheritanceData[index] = new_data session.setInheritanceData(tag['id'], inheritanceData) def anon_handle_show_groups(options, session, args): "[info] Show groups data for a tag" usage = _("usage: %prog show-groups [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--comps", action="store_true", help=_("Print in comps format")) parser.add_option("-x", "--expand", action="store_true", default=False, help=_("Expand groups in comps format")) parser.add_option("--spec", action="store_true", help=_("Print build spec")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover activate_session(session) tag = args[0] groups = session.getTagGroups(tag) if options.comps: print(koji.generate_comps(groups, expand_groups=options.expand)) elif options.spec: print(koji.make_groups_spec(groups,name='buildgroups',buildgroup='build')) else: pprint.pprint(groups) def anon_handle_list_external_repos(options, session, args): "[info] List external repos" usage = _("usage: %prog list-external-repos [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--url", help=_("Select by url")) parser.add_option("--name", help=_("Select by name")) parser.add_option("--id", type="int", help=_("Select by id")) parser.add_option("--tag", help=_("Select by tag")) parser.add_option("--used", action='store_true', help=_("List which tags use the repo(s)")) parser.add_option("--inherit", action='store_true', help=_("Follow tag inheritance when selecting by tag")) parser.add_option("--event", type='int', metavar="EVENT#", help=_("Query at event")) parser.add_option("--ts", type='int', metavar="TIMESTAMP", help=_("Query at timestamp")) parser.add_option("--repo", type='int', metavar="REPO#", help=_("Query at event corresponding to (nonexternal) repo")) parser.add_option("--quiet", action="store_true", default=options.quiet, help=_("Do not display the column headers")) (options, args) = parser.parse_args(args) if len(args) > 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover activate_session(session) opts = {} event = koji.util.eventFromOpts(session, options) if event: opts['event'] = event['id'] event['timestr'] = time.asctime(time.localtime(event['ts'])) print("Querying at event %(id)i (%(timestr)s)" % event) if options.tag: format = "tag" opts['tag_info'] = options.tag opts['repo_info'] = options.id or options.name or None if opts['repo_info']: if options.inherit: parser.error(_("Can't select by repo when using --inherit")) assert False # pragma: no cover if options.inherit: del opts['repo_info'] data = session.getExternalRepoList(**opts) format = "multitag" else: data = session.getTagExternalRepos(**opts) elif options.used: format = "multitag" opts['repo_info'] = options.id or options.name or None data = session.getTagExternalRepos(**opts) else: format = "basic" opts['info'] = options.id or options.name or None opts['url'] = options.url or None data = session.listExternalRepos (**opts) # There are three different output formats # 1) Listing just repo data (name, url) # 2) Listing repo data for a tag (priority, name, url) # 3) Listing repo data for multiple tags (tag, priority, name, url) if format == "basic": format = "%(name)-25s %(url)s" header1 = "%-25s %s" % ("External repo name", "URL") header2 = "%s %s" % ("-"*25, "-"*40) elif format == "tag": format = "%(priority)-3i %(external_repo_name)-25s %(url)s" header1 = "%-3s %-25s %s" % ("Pri", "External repo name", "URL") header2 = "%s %s %s" % ("-"*3, "-"*25, "-"*40) elif format == "multitag": format = "%(tag_name)-20s %(priority)-3i %(external_repo_name)s" header1 = "%-20s %-3s %s" % ("Tag", "Pri", "External repo name") header2 = "%s %s %s" % ("-"*20, "-"*3, "-"*25) if not options.quiet: print(header1) print(header2) for rinfo in data: print(format % rinfo) def _pick_external_repo_priority(session, tag): """pick priority after current ones, leaving space for later insertions""" repolist = session.getTagExternalRepos(tag_info=tag) #ordered by priority if not repolist: priority = 5 else: priority = (repolist[-1]['priority'] + 7) // 5 * 5 #at least 3 higher than current max and a multiple of 5 return priority def _parse_tagpri(tagpri): parts = tagpri.rsplit('::', 1) tag = parts[0] if len(parts) == 1: return tag, None elif parts[1] in ('auto', '-1'): return tag, None else: try: pri = int(parts[1]) except ValueError: raise koji.GenericError("Invalid priority: %s" % parts[1]) return tag, pri def handle_add_external_repo(options, session, args): "[admin] Create an external repo and/or add one to a tag" usage = _("usage: %prog add-external-repo [options] name [url]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("-t", "--tag", action="append", metavar="TAG", help=_("Also add repo to tag. Use tag::N to set priority")) parser.add_option("-p", "--priority", type='int', help=_("Set priority (when adding to tag)")) (options, args) = parser.parse_args(args) activate_session(session) if len(args) == 1: name = args[0] rinfo = session.getExternalRepo(name, strict=True) if not options.tag: parser.error(_("A url is required to create an external repo entry")) elif len(args) == 2: name, url = args rinfo = session.createExternalRepo(name, url) print("Created external repo %(id)i" % rinfo) else: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover if options.tag: for tagpri in options.tag: tag, priority = _parse_tagpri(tagpri) if priority is None: if options.priority is not None: priority = options.priority else: priority = _pick_external_repo_priority(session, tag) session.addExternalRepoToTag(tag, rinfo['name'], priority) print("Added external repo %s to tag %s (priority %i)" \ % (rinfo['name'], tag, priority)) def handle_edit_external_repo(options, session, args): "[admin] Edit data for an external repo" usage = _("usage: %prog edit-external-repo name") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--url", help=_("Change the url")) parser.add_option("--name", help=_("Change the name")) (options, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("Incorrect number of arguments")) parser.error(_("This command takes no arguments")) assert False # pragma: no cover opts = {} if options.url: opts['url'] = options.url if options.name: opts['name'] = options.name if not opts: parser.error(_("No changes specified")) activate_session(session) session.editExternalRepo(args[0], **opts) def handle_remove_external_repo(options, session, args): "[admin] Remove an external repo from a tag or tags, or remove entirely" usage = _("usage: %prog remove-external-repo repo [tag ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--alltags", action="store_true", help=_("Remove from all tags")) parser.add_option("--force", action='store_true', help=_("Force action")) (options, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Incorrect number of arguments")) assert False # pragma: no cover activate_session(session) repo = args[0] tags = args[1:] delete = not bool(tags) data = session.getTagExternalRepos(repo_info=repo) current_tags = [d['tag_name'] for d in data] if options.alltags: delete = False if tags: parser.error(_("Do not specify tags when using --alltags")) assert False # pragma: no cover if not current_tags: print(_("External repo %s not associated with any tags") % repo) return 0 tags = current_tags if delete: #removing entirely if current_tags and not options.force: print(_("Error: external repo %s used by tag(s): %s") % (repo, ', '.join(current_tags))) print(_("Use --force to remove anyway")) return 1 session.deleteExternalRepo(args[0]) else: for tag in tags: if not tag in current_tags: print(_("External repo %s not associated with tag %s") % (repo, tag)) continue session.removeExternalRepoFromTag(tag, repo) # This handler is for spinning livecd images # def handle_spin_livecd(options, session, args): """[build] Create a live CD image given a kickstart file""" # Usage & option parsing. usage = _("usage: %prog spin-livecd [options] " + " ") usage += _("\n(Specify the --help global option for a list of other " + "help options)") parser = OptionParser(usage=usage) parser.add_option("--wait", action="store_true", help=_("Wait on the livecd creation, even if running in the background")) parser.add_option("--nowait", action="store_false", dest="wait", help=_("Don't wait on livecd creation")) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) parser.add_option("--background", action="store_true", help=_("Run the livecd creation task at a lower priority")) parser.add_option("--ksurl", metavar="SCMURL", help=_("The URL to the SCM containing the kickstart file")) parser.add_option("--ksversion", metavar="VERSION", help=_("The syntax version used in the kickstart file")) parser.add_option("--scratch", action="store_true", help=_("Create a scratch LiveCD image")) parser.add_option("--repo", action="append", help=_("Specify a repo that will override the repo used to install " + "RPMs in the LiveCD. May be used multiple times. The " + "build tag repo associated with the target is the default.")) parser.add_option("--release", help=_("Forcibly set the release field")) parser.add_option("--specfile", metavar="URL", help=_("SCM URL to spec file fragment to use to generate wrapper RPMs")) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag package")) (task_options, args) = parser.parse_args(args) # Make sure the target and kickstart is specified. print('spin-livecd is deprecated and will be replaced with spin-livemedia') if len(args) != 5: parser.error(_("Five arguments are required: a name, a version, an" + " architecture, a build target, and a relative path to" + " a kickstart file.")) assert False # pragma: no cover _build_image(options, task_options, session, args, 'livecd') # This handler is for spinning livemedia images def handle_spin_livemedia(options, session, args): """[admin] Create a livemedia image given a kickstart file""" # Usage & option parsing. usage = _("usage: %prog spin-livemedia [options] " + " ") usage += _("\n(Specify the --help global option for a list of other " + "help options)") parser = OptionParser(usage=usage) parser.add_option("--wait", action="store_true", help=_("Wait on the livemedia creation, even if running in the background")) parser.add_option("--nowait", action="store_false", dest="wait", help=_("Don't wait on livemedia creation")) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) parser.add_option("--background", action="store_true", help=_("Run the livemedia creation task at a lower priority")) parser.add_option("--ksurl", metavar="SCMURL", help=_("The URL to the SCM containing the kickstart file")) parser.add_option("--install-tree-url", metavar="URL", help=_("Provide the URL for the install tree")) parser.add_option("--ksversion", metavar="VERSION", help=_("The syntax version used in the kickstart file")) parser.add_option("--scratch", action="store_true", help=_("Create a scratch LiveMedia image")) parser.add_option("--repo", action="append", help=_("Specify a repo that will override the repo used to install " + "RPMs in the LiveMedia. May be used multiple times. The " + "build tag repo associated with the target is the default.")) parser.add_option("--release", help=_("Forcibly set the release field")) parser.add_option("--title", help=_("Set the image title (defaults to )")) parser.add_option("--specfile", metavar="URL", help=_("SCM URL to spec file fragment to use to generate wrapper RPMs")) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag package")) parser.add_option("--can-fail", action="store", dest="optional_arches", metavar="ARCH1,ARCH2,...", default="", help=_("List of archs which are not blocking for build (separated by commas.")) (task_options, args) = parser.parse_args(args) # Make sure the target and kickstart is specified. if len(args) != 5: parser.error(_("Five arguments are required: a name, a version, a" + " build target, an architecture, and a relative path to" + " a kickstart file.")) assert False # pragma: no cover _build_image(options, task_options, session, args, 'livemedia') # This handler is for spinning appliance images # def handle_spin_appliance(options, session, args): """[build] Create an appliance given a kickstart file""" # Usage & option parsing usage = _("usage: %prog spin-appliance [options] " + " ") usage += _("\n(Specify the --help global option for a list of other " + "help options)") parser = OptionParser(usage=usage) parser.add_option("--wait", action="store_true", help=_("Wait on the appliance creation, even if running in the background")) parser.add_option("--nowait", action="store_false", dest="wait", help=_("Don't wait on appliance creation")) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) parser.add_option("--background", action="store_true", help=_("Run the appliance creation task at a lower priority")) parser.add_option("--ksurl", metavar="SCMURL", help=_("The URL to the SCM containing the kickstart file")) parser.add_option("--ksversion", metavar="VERSION", help=_("The syntax version used in the kickstart file")) parser.add_option("--scratch", action="store_true", help=_("Create a scratch appliance")) parser.add_option("--repo", action="append", help=_("Specify a repo that will override the repo used to install " + "RPMs in the appliance. May be used multiple times. The " + "build tag repo associated with the target is the default.")) parser.add_option("--release", help=_("Forcibly set the release field")) parser.add_option("--specfile", metavar="URL", help=_("SCM URL to spec file fragment to use to generate wrapper RPMs")) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag package")) parser.add_option("--vmem", metavar="VMEM", default=None, help=_("Set the amount of virtual memory in the appliance in MB, " + "default is 512")) parser.add_option("--vcpu", metavar="VCPU", default=None, help=_("Set the number of virtual cpus in the appliance, " + "default is 1")) parser.add_option("--format", metavar="DISK_FORMAT", default='raw', help=_("Disk format, default is raw. Other options are qcow, " + "qcow2, and vmx.")) (task_options, args) = parser.parse_args(args) # Make sure the target and kickstart is specified. print('spin-appliance is deprecated and will be replaced with image-build') if len(args) != 5: parser.error(_("Five arguments are required: a name, a version, " + "an architecture, a build target, and a relative path" + " to a kickstart file.")) assert False # pragma: no cover _build_image(options, task_options, session, args, 'appliance') def handle_image_build_indirection(options, session, args): """[build] Create a disk image using other disk images via the Indirection plugin""" usage = _("usage: %prog image-build-indirection [base_image] " + "[utility_image] [indirection_build_template]") usage += _("\n %prog image-build --config FILE") usage += _("\n\n(Specify the --help global option for a list of other " + "help options)") parser = OptionParser(usage=usage) parser.add_option("--config", help=_("Use a configuration file to define image-build options " + "instead of command line options (they will be ignored).")) parser.add_option("--background", action="store_true", help=_("Run the image creation task at a lower priority")) parser.add_option("--name", help=_("Name of the output image")) parser.add_option("--version", help=_("Version of the output image")) parser.add_option("--release", help=_("Release of the output image")) parser.add_option("--arch", help=_("Architecture of the output image and input images")) parser.add_option("--target", help=_("Build target to use for the indirection build")) parser.add_option("--skip-tag", action="store_true", help=_("Do not tag the resulting build")) parser.add_option("--base-image-task", help=_("ID of the createImage task of the base image to be used")) parser.add_option("--base-image-build", help=_("NVR or build ID of the base image to be used")) parser.add_option("--utility-image-task", help=_("ID of the createImage task of the utility image to be used")) parser.add_option("--utility-image-build", help=_("NVR or build ID of the utility image to be used")) parser.add_option("--indirection-template", help=_("Name of the local file, or SCM file containing the template used to drive the indirection plugin")) parser.add_option("--indirection-template-url", help=_("SCM URL containing the template used to drive the indirection plugin")) parser.add_option("--results-loc", help=_("Relative path inside the working space image where the results should be extracted from")) parser.add_option("--scratch", action="store_true", help=_("Create a scratch image")) parser.add_option("--wait", action="store_true", help=_("Wait on the image creation, even if running in the background")) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) (task_options, args) = parser.parse_args(args) _build_image_indirection(options, task_options, session, args) def _build_image_indirection(options, task_opts, session, args): """ A private helper function for builds using the indirection plugin of ImageFactory """ # Do some sanity checks before even attempting to create the session if not (bool(task_opts.utility_image_task) != bool(task_opts.utility_image_build)): raise koji.GenericError(_("You must specify either a utility-image task or build ID/NVR")) if not (bool(task_opts.base_image_task) != bool(task_opts.base_image_build)): raise koji.GenericError(_("You must specify either a base-image task or build ID/NVR")) required_opts = [ 'name', 'version', 'arch', 'target', 'indirection_template', 'results_loc' ] optional_opts = [ 'indirection_template_url', 'scratch', 'utility_image_task', 'utility_image_build', 'base_image_task', 'base_image_build', 'release', 'skip_tag' ] missing = [ ] for opt in required_opts: if not getattr(task_opts, opt, None): missing.append(opt) if len(missing) > 0: print("Missing the following required options: %s" % ' '.join(['--%s' % o.replace('_','-') for o in missing])) raise koji.GenericError(_("Missing required options specified above")) activate_session(session) # Set the task's priority. Users can only lower it with --background. priority = None if task_opts.background: # relative to koji.PRIO_DEFAULT; higher means a "lower" priority. priority = 5 if _running_in_bg() or task_opts.noprogress: callback = None else: callback = _progress_callback # We do some early sanity checking of the given target. # Kojid gets these values again later on, but we check now as a convenience # for the user. tmp_target = session.getBuildTarget(task_opts.target) if not tmp_target: raise koji.GenericError(_("Unknown build target: %s" % tmp_target)) dest_tag = session.getTag(tmp_target['dest_tag']) if not dest_tag: raise koji.GenericError(_("Unknown destination tag: %s" % tmp_target['dest_tag_name'])) # Set the architecture task_opts.arch = koji.canonArch(task_opts.arch) # Upload the indirection template file to the staging area. # If it's a URL, it's kojid's job to go get it when it does the checkout. if not task_opts.indirection_template_url: if not task_opts.scratch: # only scratch builds can omit indirection_template_url raise koji.GenericError(_("Non-scratch builds must provide a URL for the indirection template")) templatefile = task_opts.indirection_template serverdir = _unique_path('cli-image-indirection') session.uploadWrapper(templatefile, serverdir, callback=callback) task_opts.indirection_template = os.path.join('work', serverdir, os.path.basename(templatefile)) print('') hub_opts = { } # Just pass everything in as opts. No posiitonal arguments at all. Why not? for opt in required_opts + optional_opts: val = getattr(task_opts, opt, None) # We pass these through even if they are None # The builder code can then check if they are set without using getattr hub_opts[opt] = val # finally, create the task. task_id = session.buildImageIndirection(opts=hub_opts, priority=priority) if not options.quiet: print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) #if task_opts.wait or (task_opts.wait is None and not _running_in_bg()): # session.logout() # return watch_tasks(session, [task_id], quiet=options.quiet) #else: # return def handle_image_build(options, session, args): """[build] Create a disk image given an install tree""" formats = ('vmdk', 'qcow', 'qcow2', 'vdi', 'vpc', 'rhevm-ova', 'vsphere-ova', 'vagrant-virtualbox', 'vagrant-libvirt', 'vagrant-vmware-fusion', 'vagrant-hyperv', 'docker', 'raw-xz', 'liveimg-squashfs', 'tar-gz') usage = _("usage: %prog image-build [options] " + " [...]") usage += _("\n %prog image-build --config FILE") usage += _("\n\n(Specify the --help global option for a list of other " + "help options)") parser = OptionParser(usage=usage) parser.add_option("--background", action="store_true", help=_("Run the image creation task at a lower priority")) parser.add_option("--config", help=_("Use a configuration file to define image-build options " + "instead of command line options (they will be ignored).")) parser.add_option("--disk-size", default=10, help=_("Set the disk device size in gigabytes")) parser.add_option("--distro", help=_("specify the RPM based distribution the image will be based " + "on with the format RHEL-X.Y, CentOS-X.Y, SL-X.Y, or Fedora-NN. " + "The packages for the Distro you choose must have been built " + "in this system.")) parser.add_option("--format", default=[], action="append", help=_("Convert results to one or more formats " + "(%s), this option may be used " % ', '.join(formats) + "multiple times. By default, specifying this option will " + "omit the raw disk image (which is 10G in size) from the " + "build results. If you really want it included with converted " + "images, pass in 'raw' as an option.")) parser.add_option("--kickstart", help=_("Path to a local kickstart file")) parser.add_option("--ksurl", metavar="SCMURL", help=_("The URL to the SCM containing the kickstart file")) parser.add_option("--ksversion", metavar="VERSION", help=_("The syntax version used in the kickstart file")) parser.add_option("--noprogress", action="store_true", help=_("Do not display progress of the upload")) parser.add_option("--nowait", action="store_false", dest="wait", help=_("Don't wait on image creation")) parser.add_option("--ova-option", action="append", help=_("Override a value in the OVA description XML. Provide a value " + "in a name=value format, such as 'ovf_memory_mb=6144'")) parser.add_option("--factory-parameter", nargs=2, action="append", help=_("Pass a parameter to Image Factory. The results are highly specific " + "to the image format being created. This is a two argument parameter " + "that can be specified an arbitrary number of times. For example: " "--factory-parameter docker_cmd '[ \"/bin/echo Hello World\" ]'")) parser.add_option("--release", help=_("Forcibly set the release field")) parser.add_option("--repo", action="append", help=_("Specify a repo that will override the repo used to install " + "RPMs in the image. May be used multiple times. The " + "build tag repo associated with the target is the default.")) parser.add_option("--scratch", action="store_true", help=_("Create a scratch image")) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag package")) parser.add_option("--can-fail", action="store", dest="optional_arches", metavar="ARCH1,ARCH2,...", default="", help=_("List of archs which are not blocking for build (separated by commas.")) parser.add_option("--specfile", metavar="URL", help=_("SCM URL to spec file fragment to use to generate wrapper RPMs")) parser.add_option("--wait", action="store_true", help=_("Wait on the image creation, even if running in the background")) (task_options, args) = parser.parse_args(args) if task_options.config: if not os.path.exists(task_options.config): parser.error(_("%s not found!" % task_options.config)) section = 'image-build' config = six.moves.configparser.ConfigParser() conf_fd = open(task_options.config) config.readfp(conf_fd) conf_fd.close() if not config.has_section(section): parser.error(_("single section called [%s] is required" % section)) # pluck out the positional arguments first args = [] for arg in ('name', 'version', 'target', 'install_tree'): args.append(config.get(section, arg)) config.remove_option(section, arg) args.extend(config.get(section, 'arches').split(',')) config.remove_option(section, 'arches') # turn comma-separated options into lists for arg in ('repo', 'format'): if config.has_option(section, arg): setattr(task_options, arg, config.get(section, arg).split(',')) config.remove_option(section, arg) if config.has_option(section, 'can_fail'): setattr(task_options, 'optional_arches', config.get(section, 'can_fail').split(',')) config.remove_option(section, 'can_fail') # handle everything else for k, v in config.items(section): setattr(task_options, k, v) # ova-options belong in their own section section = 'ova-options' if config.has_section(section): task_options.ova_option = [] for k, v in config.items(section): task_options.ova_option.append('%s=%s' % (k, v)) # as do factory-parameters section = 'factory-parameters' if config.has_section(section): task_options.factory_parameter = [ ] for k, v in config.items(section): # We do this, rather than a dict, to match what argparse spits out task_options.factory_parameter.append( (k, v) ) else: if len(args) < 5: parser.error(_("At least five arguments are required: a name, " + "a version, a build target, a URL to an " + "install tree, and 1 or more architectures.")) if not task_options.ksurl and not task_options.kickstart: parser.error(_('You must specify --kickstart')) if not task_options.distro: parser.error( _("You must specify --distro. Examples: Fedora-16, RHEL-6.4, " + "SL-6.4 or CentOS-6.4")) _build_image_oz(options, task_options, session, args) def _build_image(options, task_opts, session, args, img_type): """ A private helper function that houses common CLI code for building images with chroot-based tools. """ if img_type not in ('livecd', 'appliance', 'livemedia'): raise koji.GenericError('Unrecognized image type: %s' % img_type) activate_session(session) # Set the task's priority. Users can only lower it with --background. priority = None if task_opts.background: # relative to koji.PRIO_DEFAULT; higher means a "lower" priority. priority = 5 if _running_in_bg() or task_opts.noprogress: callback = None else: callback = _progress_callback # We do some early sanity checking of the given target. # Kojid gets these values again later on, but we check now as a convenience # for the user. target = args[2] tmp_target = session.getBuildTarget(target) if not tmp_target: raise koji.GenericError(_("Unknown build target: %s" % target)) dest_tag = session.getTag(tmp_target['dest_tag']) if not dest_tag: raise koji.GenericError(_("Unknown destination tag: %s" % tmp_target['dest_tag_name'])) # Set the architecture if img_type == 'livemedia': # livemedia accepts multiple arches arch = [koji.canonArch(a) for a in args[3].split(",")] else: arch = koji.canonArch(args[3]) # Upload the KS file to the staging area. # If it's a URL, it's kojid's job to go get it when it does the checkout. ksfile = args[4] if not task_opts.ksurl: serverdir = _unique_path('cli-' + img_type) session.uploadWrapper(ksfile, serverdir, callback=callback) ksfile = os.path.join(serverdir, os.path.basename(ksfile)) print('') hub_opts = {} if hasattr(task_opts, 'optional_arches'): hub_opts['optional_arches'] = task_opts.optional_arches.split(',') passthru_opts = [ 'format', 'install_tree_url', 'isoname', 'ksurl', 'ksversion', 'release', 'repo', 'scratch', 'skip_tag', 'specfile', 'title', 'vcpu', 'vmem', 'optional_arches', ] for opt in passthru_opts: val = getattr(task_opts, opt, None) if val is not None: hub_opts[opt] = val # finally, create the task. task_id = session.buildImage(args[0], args[1], arch, target, ksfile, img_type, opts=hub_opts, priority=priority) if not options.quiet: print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if task_opts.wait or (task_opts.wait is None and not _running_in_bg()): session.logout() return watch_tasks(session, [task_id], quiet=options.quiet) else: return def _build_image_oz(options, task_opts, session, args): """ A private helper function that houses common CLI code for building images with Oz and ImageFactory """ activate_session(session) # Set the task's priority. Users can only lower it with --background. priority = None if task_opts.background: # relative to koji.PRIO_DEFAULT; higher means a "lower" priority. priority = 5 if _running_in_bg() or task_opts.noprogress: callback = None else: callback = _progress_callback # We do some early sanity checking of the given target. # Kojid gets these values again later on, but we check now as a convenience # for the user. target = args[2] tmp_target = session.getBuildTarget(target) if not tmp_target: raise koji.GenericError(_("Unknown build target: %s" % target)) dest_tag = session.getTag(tmp_target['dest_tag']) if not dest_tag: raise koji.GenericError(_("Unknown destination tag: %s" % tmp_target['dest_tag_name'])) # Set the architectures arches = [] for arch in args[4:]: arches.append(koji.canonArch(arch)) # Upload the KS file to the staging area. # If it's a URL, it's kojid's job to go get it when it does the checkout. if not task_opts.ksurl: if not task_opts.scratch: # only scratch builds can omit ksurl raise koji.GenericError(_("Non-scratch builds must provide ksurl")) ksfile = task_opts.kickstart serverdir = _unique_path('cli-image') session.uploadWrapper(ksfile, serverdir, callback=callback) task_opts.kickstart = os.path.join('work', serverdir, os.path.basename(ksfile)) print('') hub_opts = {} for opt in ('ksurl', 'ksversion', 'kickstart', 'scratch', 'repo', 'release', 'skip_tag', 'specfile', 'distro', 'format', 'disk_size', 'ova_option', 'factory_parameter', 'optional_arches'): val = getattr(task_opts, opt, None) if val is not None: hub_opts[opt] = val # finally, create the task. task_id = session.buildImageOz(args[0], args[1], arches, target, args[3], opts=hub_opts, priority=priority) if not options.quiet: print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if task_opts.wait or (task_opts.wait is None and not _running_in_bg()): session.logout() return watch_tasks(session, [task_id], quiet=options.quiet) else: return def handle_win_build(options, session, args): """[build] Build a Windows package from source""" # Usage & option parsing usage = _("usage: %prog win-build [options] target URL VM") usage += _("\n(Specify the --help global option for a list of other " + "help options)") parser = OptionParser(usage=usage) parser.add_option("--winspec", metavar="URL", help=_("SCM URL to retrieve the build descriptor from. " + \ "If not specified, the winspec must be in the root directory " + \ "of the source repository.")) parser.add_option("--patches", metavar="URL", help=_("SCM URL of a directory containing patches to apply " + \ "to the sources before building")) parser.add_option("--cpus", type="int", help=_("Number of cpus to allocate to the build VM " + \ "(requires admin access)")) parser.add_option("--mem", type="int", help=_("Amount of memory (in megabytes) to allocate to the build VM " + \ "(requires admin access)")) parser.add_option("--static-mac", action="store_true", help=_("Retain the original MAC address when cloning the VM")) parser.add_option("--specfile", metavar="URL", help=_("SCM URL of a spec file fragment to use to generate wrapper RPMs")) parser.add_option("--scratch", action="store_true", help=_("Perform a scratch build")) parser.add_option("--repo-id", type="int", help=_("Use a specific repo")) parser.add_option("--skip-tag", action="store_true", help=_("Do not attempt to tag package")) parser.add_option("--background", action="store_true", help=_("Run the build at a lower priority")) parser.add_option("--wait", action="store_true", help=_("Wait on the build, even if running in the background")) parser.add_option("--nowait", action="store_false", dest="wait", help=_("Don't wait on build")) parser.add_option("--quiet", action="store_true", help=_("Do not print the task information"), default=options.quiet) (build_opts, args) = parser.parse_args(args) if len(args) != 3: parser.error(_("Exactly three arguments (a build target, a SCM URL, and a VM name) are required")) assert False # pragma: no cover activate_session(session) target = args[0] if target.lower() == "none" and build_opts.repo_id: target = None build_opts.skip_tag = True else: build_target = session.getBuildTarget(target) if not build_target: parser.error(_("Unknown build target: %s" % target)) dest_tag = session.getTag(build_target['dest_tag']) if not dest_tag: parser.error(_("Unknown destination tag: %s" % build_target['dest_tag_name'])) if dest_tag['locked'] and not build_opts.scratch: parser.error(_("Destination tag %s is locked" % dest_tag['name'])) scmurl = args[1] vm_name = args[2] opts = {} for key in ('winspec', 'patches', 'cpus', 'mem', 'static_mac', 'specfile', 'scratch', 'repo_id', 'skip_tag'): val = getattr(build_opts, key) if val is not None: opts[key] = val priority = None if build_opts.background: #relative to koji.PRIO_DEFAULT priority = 5 task_id = session.winBuild(vm_name, scmurl, target, opts, priority=priority) if not build_opts.quiet: print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if build_opts.wait or (build_opts.wait is None and not _running_in_bg()): session.logout() return watch_tasks(session, [task_id], quiet=build_opts.quiet) else: return def handle_free_task(options, session, args): "[admin] Free a task" usage = _("usage: %prog free-task [options] [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) activate_session(session) tlist = [] for task_id in args: try: tlist.append(int(task_id)) except ValueError: parser.error(_("task-id must be an integer")) assert False # pragma: no cover for task_id in tlist: session.freeTask(task_id) def handle_cancel(options, session, args): "[build] Cancel tasks and/or builds" usage = _("usage: %prog cancel [options] [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--justone", action="store_true", help=_("Do not cancel subtasks")) parser.add_option("--full", action="store_true", help=_("Full cancellation (admin only)")) parser.add_option("--force", action="store_true", help=_("Allow subtasks with --full")) (options, args) = parser.parse_args(args) if len(args) == 0: parser.error(_("You must specify at least one task id or build")) assert False # pragma: no cover activate_session(session) tlist = [] blist = [] for arg in args: try: tlist.append(int(arg)) except ValueError: try: koji.parse_NVR(arg) blist.append(arg) except koji.GenericError: parser.error(_("please specify only task ids (integer) or builds (n-v-r)")) assert False # pragma: no cover if tlist: opts = {} remote_fn = session.cancelTask if options.justone: opts['recurse'] = False elif options.full: remote_fn = session.cancelTaskFull if options.force: opts['strict'] = False for task_id in tlist: remote_fn(task_id, **opts) for build in blist: session.cancelBuild(build) def handle_set_task_priority(options, session, args): "[admin] Set task priority" usage = _("usage: %prog set-task-priority [options] --priority= [task-id]...") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--priority", type="int", help=_("New priority")) parser.add_option("--recurse", action="store_true", default=False, help=_("Change priority of child tasks as well")) (options, args) = parser.parse_args(args) if len(args) == 0: parser.error(_("You must specify at least one task id")) assert False # pragma: no cover if options.priority is None: parser.error(_("You must specify --priority")) assert False # pragma: no cover try: tasks = [int(a) for a in args] except ValueError: parser.error(_("Task numbers must be integers")) activate_session(session) for task_id in tasks: session.setTaskPriority(task_id, options.priority, options.recurse) def _list_tasks(options, session): "Retrieve a list of tasks" callopts = { 'state' : [koji.TASK_STATES[s] for s in ('FREE', 'OPEN', 'ASSIGNED')], 'decode' : True, } if options.mine: user = session.getLoggedInUser() if not user: print("Unable to determine user") sys.exit(1) callopts['owner'] = user['id'] if options.user: user = session.getUser(options.user) if not user: print("No such user: %s" % options.user) sys.exit(1) callopts['owner'] = user['id'] if options.arch: callopts['arch'] = parse_arches(options.arch, to_list=True) if options.method: callopts['method'] = options.method if options.channel: chan = session.getChannel(options.channel) if not chan: print("No such channel: %s" % options.channel) sys.exit(1) callopts['channel_id'] = chan['id'] if options.host: host = session.getHost(options.host) if not host: print("No such host: %s" % options.host) sys.exit(1) callopts['host_id'] = host['id'] qopts = {'order' : 'priority,create_time'} tasklist = session.listTasks(callopts, qopts) tasks = dict([(x['id'], x) for x in tasklist]) #thread the tasks for t in tasklist: if t['parent'] is not None: parent = tasks.get(t['parent']) if parent: parent.setdefault('children',[]) parent['children'].append(t) t['sub'] = True return tasklist def handle_list_tasks(options, session, args): "[info] Print the list of tasks" usage = _("usage: %prog list-tasks [options]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--mine", action="store_true", help=_("Just print your tasks")) parser.add_option("--user", help=_("Only tasks for this user")) parser.add_option("--arch", help=_("Only tasks for this architecture")) parser.add_option("--method", help=_("Only tasks of this method")) parser.add_option("--channel", help=_("Only tasks in this channel")) parser.add_option("--host", help=_("Only tasks for this host")) parser.add_option("--quiet", action="store_true", help=_("Do not display the column headers"), default=options.quiet) (options, args) = parser.parse_args(args) if len(args) != 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover activate_session(session) tasklist = _list_tasks(options, session) if not tasklist: print("(no tasks)") return if not options.quiet: print_task_headers() for t in tasklist: if t.get('sub'): # this subtask will appear under another task continue print_task_recurse(t) def handle_set_pkg_arches(options, session, args): "[admin] Set the list of extra arches for a package" usage = _("usage: %prog set-pkg-arches [options] arches tag package [package2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action='store_true', help=_("Force operation")) (options, args) = parser.parse_args(args) if len(args) < 3: parser.error(_("Please specify an archlist, a tag, and at least one package")) assert False # pragma: no cover activate_session(session) arches = parse_arches(args[0]) tag = args[1] for package in args[2:]: #really should implement multicall... session.packageListSetArches(tag,package,arches,force=options.force) def handle_set_pkg_owner(options, session, args): "[admin] Set the owner for a package" usage = _("usage: %prog set-pkg-owner [options] owner tag package [package2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action='store_true', help=_("Force operation")) (options, args) = parser.parse_args(args) if len(args) < 3: parser.error(_("Please specify an owner, a tag, and at least one package")) assert False # pragma: no cover activate_session(session) owner = args[0] tag = args[1] for package in args[2:]: #really should implement multicall... session.packageListSetOwner(tag,package,owner,force=options.force) def handle_set_pkg_owner_global(options, session, args): "[admin] Set the owner for a package globally" usage = _("usage: %prog set-pkg-owner-global [options] owner package [package2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--verbose", action='store_true', help=_("List changes")) parser.add_option("--test", action='store_true', help=_("Test mode")) parser.add_option("--old-user", "--from", action="store", help=_("Only change ownership for packages belonging to this user")) (options, args) = parser.parse_args(args) if options.old_user: if len(args) < 1: parser.error(_("Please specify an owner")) assert False # pragma: no cover elif len(args) < 2: parser.error(_("Please specify an owner and at least one package")) assert False # pragma: no cover activate_session(session) owner = args[0] packages = args[1:] user = session.getUser(owner) if not user: print("No such user: %s" % owner) return 1 opts = {'with_dups' : True} old_user = None if options.old_user: old_user = session.getUser(options.old_user) if not old_user: print("No such user: %s" % options.old_user) return 1 opts['userID'] = old_user['id'] to_change = [] for package in packages: entries = session.listPackages(pkgID=package, **opts) if not entries: print("No data for package %s" % package) continue to_change.extend(entries) if not packages and options.old_user: entries = session.listPackages(**opts) if not entries: print("No data for user %s" % old_user['name']) return 1 to_change.extend(entries) for entry in to_change: if user['id'] == entry['owner_id']: if options.verbose: print("Preserving owner=%s for package %s in tag %s" \ % (user['name'], package, entry['tag_name'])) else: if options.test: print("Would have changed owner for %s in tag %s: %s -> %s" \ % (entry['package_name'], entry['tag_name'], entry['owner_name'], user['name'])) continue if options.verbose: print("Changing owner for %s in tag %s: %s -> %s" \ % (entry['package_name'], entry['tag_name'], entry['owner_name'], user['name'])) session.packageListSetOwner(entry['tag_id'], entry['package_name'], user['id']) def anon_handle_watch_task(options, session, args): "[monitor] Track progress of particular tasks" usage = _("usage: %prog watch-task [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--quiet", action="store_true", help=_("Do not print the task information"), default=options.quiet) parser.add_option("--mine", action="store_true", help=_("Just watch your tasks")) parser.add_option("--user", help=_("Only tasks for this user")) parser.add_option("--arch", help=_("Only tasks for this architecture")) parser.add_option("--method", help=_("Only tasks of this method")) parser.add_option("--channel", help=_("Only tasks in this channel")) parser.add_option("--host", help=_("Only tasks for this host")) (options, args) = parser.parse_args(args) selection = (options.mine or options.user or options.arch or options.method or options.channel or options.host) if args and selection: parser.error(_("Selection options cannot be combined with a task list")) activate_session(session) if selection: tasks = [task['id'] for task in _list_tasks(options, session)] if not tasks: print("(no tasks)") return else: tasks = [] for task in args: try: tasks.append(int(task)) except ValueError: parser.error(_("task id must be an integer")) if not tasks: parser.error(_("at least one task id must be specified")) return watch_tasks(session, tasks, quiet=options.quiet) def anon_handle_watch_logs(options, session, args): "[monitor] Watch logs in realtime" usage = _("usage: %prog watch-logs [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--log", help=_("Watch only a specific log")) (options, args) = parser.parse_args(args) activate_session(session) tasks = [] for task in args: try: tasks.append(int(task)) except ValueError: parser.error(_("task id must be an integer")) if not tasks: parser.error(_("at least one task id must be specified")) watch_logs(session, tasks, options) def handle_make_task(opts, session, args): "[admin] Create an arbitrary task" usage = _("usage: %prog make-task [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--channel", help=_("set channel")) parser.add_option("--priority", help=_("set priority")) parser.add_option("--watch", action="store_true", help=_("watch the task")) parser.add_option("--arch", help=_("set arch")) (options, args) = parser.parse_args(args) activate_session(session) taskopts = {} for key in ('channel','priority','arch'): value = getattr(options,key,None) if value is not None: taskopts[key] = value task_id = session.makeTask(method=args[0], arglist=list(map(arg_filter,args[1:])), **taskopts) print("Created task id %d" % task_id) if _running_in_bg() or not options.watch: return else: session.logout() return watch_tasks(session, [task_id], quiet=opts.quiet) def handle_tag_build(opts, session, args): "[bind] Apply a tag to one or more builds" usage = _("usage: %prog tag-build [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action="store_true", help=_("force operation")) parser.add_option("--nowait", action="store_true", help=_("Do not wait on task")) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("This command takes at least two arguments: a tag name/ID and one or more package n-v-r's")) assert False # pragma: no cover activate_session(session) tasks = [] for pkg in args[1:]: task_id = session.tagBuild(args[0], pkg, force=options.force) #XXX - wait on task tasks.append(task_id) print("Created task %d" % task_id) if _running_in_bg() or options.nowait: return else: session.logout() return watch_tasks(session,tasks,quiet=opts.quiet) def handle_move_build(opts, session, args): "[bind] 'Move' one or more builds between tags" usage = _("usage: %prog move-build [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--force", action="store_true", help=_("force operation")) parser.add_option("--nowait", action="store_true", help=_("do not wait on tasks")) parser.add_option("--all", action="store_true", help=_("move all instances of a package, 's are package names")) (options, args) = parser.parse_args(args) if len(args) < 3: if options.all: parser.error(_("This command, with --all, takes at least three arguments: two tags and one or more package names")) else: parser.error(_("This command takes at least three arguments: two tags and one or more package n-v-r's")) assert False # pragma: no cover activate_session(session) tasks = [] builds = [] if options.all: for arg in args[2:]: pkg = session.getPackage(arg) if not pkg: print(_("Invalid package name %s, skipping." % arg)) continue tasklist = session.moveAllBuilds(args[0], args[1], arg, options.force) tasks.extend(tasklist) else: for arg in args[2:]: build = session.getBuild(arg) if not build: print(_("Invalid build %s, skipping." % arg)) continue if not build in builds: builds.append(build) for build in builds: task_id = session.moveBuild(args[0], args[1], build['id'], options.force) tasks.append(task_id) print("Created task %d, moving %s" % (task_id, koji.buildLabel(build))) if _running_in_bg() or options.nowait: return else: session.logout() return watch_tasks(session, tasks, quiet=opts.quiet) def handle_untag_build(options, session, args): "[bind] Remove a tag from one or more builds" usage = _("usage: %prog untag-build [options] [...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--all", action="store_true", help=_("untag all versions of the package in this tag")) parser.add_option("--non-latest", action="store_true", help=_("untag all versions of the package in this tag except the latest")) parser.add_option("-n", "--test", action="store_true", help=_("test mode")) parser.add_option("-v", "--verbose", action="store_true", help=_("print details")) parser.add_option("--force", action="store_true", help=_("force operation")) (options, args) = parser.parse_args(args) if options.non_latest and options.force: if len(args) < 1: parser.error(_("Please specify a tag")) assert False # pragma: no cover elif len(args) < 2: parser.error(_("This command takes at least two arguments: a tag name/ID and one or more package n-v-r's")) assert False # pragma: no cover activate_session(session) tag = session.getTag(args[0]) if not tag: parser.error(_("Invalid tag: %s" % args[0])) if options.all: builds = [] for pkg in args[1:]: builds.extend(session.listTagged(args[0], package=pkg)) elif options.non_latest: if options.force and len(args) == 1: tagged = session.listTagged(args[0]) else: tagged = [] for pkg in args[1:]: tagged.extend(session.listTagged(args[0], package=pkg)) # listTagged orders entries latest first seen_pkg = {} builds = [] for binfo in tagged: if binfo['name'] not in seen_pkg: #latest for this package if options.verbose: print(_("Leaving latest build for package %(name)s: %(nvr)s") % binfo) else: builds.append(binfo) seen_pkg[binfo['name']] = 1 else: tagged = session.listTagged(args[0]) idx = dict([(b['nvr'], b) for b in tagged]) builds = [] for nvr in args[1:]: binfo = idx.get(nvr) if binfo: builds.append(binfo) else: # not in tag, see if it even exists binfo = session.getBuild(nvr) if not binfo: print(_("No such build: %s") % nvr) else: print(_("Build %s not in tag %s") % (nvr, tag['name'])) if not options.force: return 1 builds.reverse() for binfo in builds: if options.test: print(_("would have untagged %(nvr)s") % binfo) else: if options.verbose: print(_("untagging %(nvr)s") % binfo) session.untagBuild(tag['name'], binfo['nvr'], force=options.force) def handle_unblock_pkg(options, session, args): "[admin] Unblock a package in the listing for tag" usage = _("usage: %prog unblock-pkg [options] tag package [package2 ...]") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) (options, args) = parser.parse_args(args) if len(args) < 2: parser.error(_("Please specify a tag and at least one package")) assert False # pragma: no cover activate_session(session) tag = args[0] for package in args[1:]: #really should implement multicall... session.packageListUnblock(tag,package) def anon_handle_download_build(options, session, args): "[download] Download a built package" usage = _("usage: %prog download-build [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--arch", "-a", dest="arches", metavar="ARCH", action="append", default=[], help=_("Only download packages for this arch (may be used multiple times)")) parser.add_option("--type", help=_("Download archives of the given type, rather than rpms (maven, win, or image)")) parser.add_option("--latestfrom", dest="latestfrom", help=_("Download the latest build from this tag")) parser.add_option("--debuginfo", action="store_true", help=_("Also download -debuginfo rpms")) parser.add_option("--task-id", action="store_true", help=_("Interperet id as a task id")) parser.add_option("--rpm", action="store_true", help=_("Download the given rpm")) parser.add_option("--key", help=_("Download rpms signed with the given key")) parser.add_option("--topurl", metavar="URL", default=options.topurl, help=_("URL under which Koji files are accessible")) parser.add_option("-q", "--quiet", action="store_true", help=_("Do not display progress meter"), default=options.quiet) (suboptions, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify a package N-V-R or build ID")) assert False # pragma: no cover elif len(args) > 1: parser.error(_("Only a single package N-V-R or build ID may be specified")) assert False # pragma: no cover activate_session(session) build = args[0] if build.isdigit(): if suboptions.latestfrom: print("--latestfrom not compatible with build IDs, specify a package name.") return 1 build = int(build) if suboptions.task_id: builds = session.listBuilds(taskID=build) if not builds: print("No associated builds for task %s" % build) return 1 build = builds[0]['build_id'] if suboptions.latestfrom: # We want the latest build, not a specific build try: builds = session.listTagged(suboptions.latestfrom, latest=True, package=build, type=suboptions.type) except koji.GenericError as data: print("Error finding latest build: %s" % data) return 1 if not builds: print("%s has no builds of %s" % (suboptions.latestfrom, build)) return 1 info = builds[0] elif suboptions.rpm: rpminfo = session.getRPM(build) if rpminfo is None: print("No such rpm: %s" % build) return 1 info = session.getBuild(rpminfo['build_id']) else: # if we're given an rpm name without --rpm, download the containing build try: nvra = koji.parse_NVRA(build) rpminfo = session.getRPM(build) build = rpminfo['build_id'] except Exception: pass info = session.getBuild(build) if info is None: print("No such build: %s" % build) return 1 if not suboptions.topurl: print("You must specify --topurl to download files") return 1 pathinfo = koji.PathInfo(topdir=suboptions.topurl) urls = [] if suboptions.type: archives = session.listArchives(buildID=info['id'], type=suboptions.type) if not archives: print("No %s archives available for %s" % (suboptions.type, koji.buildLabel(info))) return 1 if suboptions.type == 'maven': for archive in archives: url = pathinfo.mavenbuild(info) + '/' + pathinfo.mavenfile(archive) urls.append((url, pathinfo.mavenfile(archive))) elif suboptions.type == 'win': for archive in archives: url = pathinfo.winbuild(info) + '/' + pathinfo.winfile(archive) urls.append((url, pathinfo.winfile(archive))) elif suboptions.type == 'image': if not suboptions.topurl: print("You must specify --topurl to download images") return 1 pi = koji.PathInfo(topdir=suboptions.topurl) for archive in archives: url = '%s/%s' % (pi.imagebuild(info), archive['filename']) urls.append((url, archive['filename'])) else: # can't happen assert False # pragma: no cover else: arches = suboptions.arches if len(arches) == 0: arches = None if suboptions.rpm: rpms = [rpminfo] else: rpms = session.listRPMs(buildID=info['id'], arches=arches) if not rpms: if arches: print("No %s packages available for %s" % (" or ".join(arches), koji.buildLabel(info))) else: print("No packages available for %s" % koji.buildLabel(info)) return 1 for rpm in rpms: if not suboptions.debuginfo and koji.is_debuginfo(rpm['name']): continue if suboptions.key: fname = pathinfo.signed(rpm, suboptions.key) else: fname = pathinfo.rpm(rpm) url = pathinfo.build(info) + '/' + fname urls.append((url, os.path.basename(fname))) def _progress(download_t, download_d, upload_t, upload_d): if download_t == 0: percent_done = 0.0 else: percent_done = float(download_d)/float(download_t) percent_done_str = "%02d%%" % (percent_done * 100) data_done = _format_size(download_d) sys.stdout.write("[% -36s] % 4s % 10s\r" % ('='*(int(percent_done * 36)), percent_done_str, data_done)) sys.stdout.flush() for url, relpath in urls: if '/' in relpath: koji.ensuredir(os.path.dirname(relpath)) print(relpath) c = pycurl.Curl() c.setopt(c.URL, url) c.setopt(c.WRITEDATA, open(relpath, 'wb')) if not suboptions.quiet: c.setopt(c.NOPROGRESS, False) c.setopt(c.XFERINFOFUNCTION, _progress) c.perform() print('') def anon_handle_download_logs(options, session, args): "[download] Download a logs for package" FAIL_LOG = "task_failed.log" usage = _("usage: %prog download-logs [options] [ ...]") usage += _("\n %prog download-logs [options] --nvr [ ...]") usage += _("\n(Specify the --help global option for a list of other help options)") usage += _("\nCreates special log with name %s if task failed." % FAIL_LOG) parser = OptionParser(usage=usage) parser.add_option("-r", "--recurse", action="store_true", help=_("Process children of this task as well")) parser.add_option("--nvr", action="store_true", help=_("Get logs from n-v-r")) parser.add_option("-m", "--match", action="append", metavar="PATTERN", help=_("Get only log matching PATTERN. May be used multiple times.")) parser.add_option("-c", "--continue", action="store_true", dest="cont", help=_("Continue previous download")) parser.add_option("-d", "--dir", metavar="DIRECTORY", default='kojilogs', help=_("Write logs to DIRECTORY")) (suboptions, args) = parser.parse_args(args) if len(args) < 1: parser.error(_("Please specify at least one task id or n-v-r")) def write_fail_log(task_log_dir, task_id): """Gets output only from failed tasks""" try: result = session.getTaskResult(task_id) # with current code, failed task results should always be faults, # but that could change in the future content = pprint.pformat(result) except (xmlrpclib.Fault, koji.GenericError): etype, e = sys.exc_info()[:2] content = ''.join(traceback.format_exception_only(etype, e)) full_filename = os.path.normpath(os.path.join(task_log_dir, FAIL_LOG)) koji.ensuredir(os.path.dirname(full_filename)) sys.stdout.write("Writing: %s\n" % full_filename) open(full_filename, 'w').write(content) def download_log(task_log_dir, task_id, filename, blocksize=102400, volume=None): # Create directories only if there is any log file to write to # For each non-default volume create special sub-directory if volume not in (None, 'DEFAULT'): full_filename = os.path.normpath(os.path.join(task_log_dir, volume, filename)) else: full_filename = os.path.normpath(os.path.join(task_log_dir, filename)) koji.ensuredir(os.path.dirname(full_filename)) contents = 'IGNORE ME!' if suboptions.cont and os.path.exists(full_filename): sys.stdout.write("Continuing: %s\n" % full_filename) fd = open(full_filename, 'ab') offset = fd.tell() else: sys.stdout.write("Downloading: %s\n" % full_filename) fd = open(full_filename, 'wb') offset = 0 try: while contents: contents = session.downloadTaskOutput(task_id, filename, offset=offset, size=blocksize, volume=volume) offset += len(contents) if contents: fd.write(contents) finally: fd.close() def save_logs(task_id, match, parent_dir='.', recurse=True): assert task_id == int(task_id), "Task id must be number: %r" % task_id task_info = session.getTaskInfo(task_id) if task_info is None: error(_("No such task id: %i" % task_id)) files = list_task_output_all_volumes(session, task_id) logs = [] # list of tuples (filename, volume) for filename in files: if not filename.endswith(".log"): continue if match and not koji.util.multi_fnmatch(filename, match): continue logs += [(filename, volume) for volume in files[filename]] task_log_dir = os.path.join(parent_dir, "%s-%s" % (task_info["arch"], task_id)) count = 0 state = koji.TASK_STATES[task_info['state']] if state == 'FAILED': if not match or koji.util.multi_fnmatch(FAIL_LOG, match): write_fail_log(task_log_dir, task_id) count += 1 elif state not in ['CLOSED', 'CANCELED']: sys.stderr.write(_("Warning: task %s is %s\n") % (task_id, state)) for log_filename, log_volume in logs: download_log(task_log_dir, task_id, log_filename, volume=log_volume) count += 1 if count == 0 and not recurse: sys.stderr.write(_("No logs found for task %i. Perhaps try --recurse?\n") % task_id) if recurse: child_tasks = session.getTaskChildren(task_id) for child_task in child_tasks: save_logs(child_task['id'], match, task_log_dir, recurse) for arg in args: if suboptions.nvr: suboptions.recurse = True binfo = session.getBuild(arg) if binfo is None: error(_("There is no build with n-v-r: %s" % arg)) assert binfo['task_id'], binfo task_id = binfo['task_id'] sys.stdout.write("Using task ID: %s\n" % task_id) else: try: task_id = int(arg) except ValueError: error(_("Task id must be number: %r") % task_id) continue save_logs(task_id, suboptions.match, suboptions.dir, suboptions.recurse) def anon_handle_download_task(options, session, args): "[download] Download the output of a build task " usage = _("usage: %prog download-task ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--arch", dest="arches", metavar="ARCH", action="append", default=[], help=_("Only download packages for this arch (may be used multiple times)")) parser.add_option("--logs", dest="logs", action="store_true", default=False, help=_("Also download build logs")) (suboptions, args) = parser.parse_args(args) if len(args) == 0: parser.error(_("Please specify a task ID")) elif len(args) > 1: parser.error(_("Only one task ID may be specified")) base_task_id = int(args.pop()) if len(suboptions.arches) > 0: suboptions.arches = ",".join(suboptions.arches).split(",") # get downloadable tasks base_task = session.getTaskInfo(base_task_id) check_downloadable = lambda task: task["method"] == "buildArch" downloadable_tasks = [] if check_downloadable(base_task): downloadable_tasks.append(base_task) else: subtasks = session.getTaskChildren(base_task_id) downloadable_tasks.extend(list(filter(check_downloadable, subtasks))) # get files for download downloads = [] for task in downloadable_tasks: files = list_task_output_all_volumes(session, task["id"]) for filename in files: if filename.endswith(".log") and suboptions.logs: for volume in files[filename]: # rename logs, they would conflict new_filename = "%s.%s.log" % (filename.rstrip(".log"), task["arch"]) downloads.append((task, filename, volume, new_filename)) continue if filename.endswith(".rpm"): for volume in files[filename]: filearch = filename.split(".")[-2] if len(suboptions.arches) == 0 or filearch in suboptions.arches: downloads.append((task, filename, volume, filename)) continue if len(downloads) == 0: error(_("No files for download found.")) required_tasks = {} for (task, nop, nop, nop) in downloads: if task["id"] not in required_tasks: required_tasks[task["id"]] = task for task_id in required_tasks: if required_tasks[task_id]["state"] != koji.TASK_STATES.get("CLOSED"): if task_id == base_task_id: error(_("Task %d has not finished yet.") % task_id) else: error(_("Child task %d has not finished yet.") % task_id) # perform the download number = 0 for (task, filename, volume, new_filename) in downloads: number += 1 if volume not in (None, 'DEFAULT'): koji.ensuredir(volume) new_filename = os.path.join(volume, new_filename) print(_("Downloading [%d/%d]: %s") % (number, len(downloads), new_filename)) output_file = open(new_filename, "wb") output_file.write(session.downloadTaskOutput(task["id"], filename, volume=volume)) output_file.close() def anon_handle_wait_repo(options, session, args): "[monitor] Wait for a repo to be regenerated" usage = _("usage: %prog wait-repo [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--build", metavar="NVR", dest="builds", action="append", default=[], help=_("Check that the given build is in the newly-generated repo (may be used multiple times)")) parser.add_option("--target", action="store_true", help=_("Interpret the argument as a build target name")) parser.add_option("--timeout", type="int", help=_("Amount of time to wait (in minutes) before giving up (default: 120)"), default=120) parser.add_option("--quiet", action="store_true", help=_("Suppress output, success or failure will be indicated by the return value only"), default=options.quiet) (suboptions, args) = parser.parse_args(args) start = time.time() builds = [koji.parse_NVR(build) for build in suboptions.builds] if len(args) < 1: parser.error(_("Please specify a tag name")) elif len(args) > 1: parser.error(_("Only one tag may be specified")) tag = args[0] if suboptions.target: target_info = session.getBuildTarget(tag) if not target_info: parser.error("Invalid build target: %s" % tag) tag = target_info['build_tag_name'] tag_id = target_info['build_tag'] else: tag_info = session.getTag(tag) if not tag_info: parser.error("Invalid tag: %s" % tag) targets = session.getBuildTargets(buildTagID=tag_info['id']) if not targets: print("%(name)s is not a build tag for any target" % tag_info) targets = session.getBuildTargets(destTagID=tag_info['id']) if targets: maybe = {}.fromkeys([t['build_tag_name'] for t in targets]) maybe = list(maybe.keys()) maybe.sort() print("Suggested tags: %s" % ', '.join(maybe)) return 1 tag_id = tag_info['id'] for nvr in builds: data = session.getLatestBuilds(tag_id, package=nvr["name"]) if len(data) == 0: print("Warning: package %s is not in tag %s" % (nvr["name"], tag)) else: present_nvr = [x["nvr"] for x in data][0] if present_nvr != "%s-%s-%s" % (nvr["name"], nvr["version"], nvr["release"]): print("Warning: nvr %s-%s-%s is not current in tag %s\n latest build in %s is %s" % (nvr["name"], nvr["version"], nvr["release"], tag, tag, present_nvr)) last_repo = None repo = session.getRepo(tag_id) while True: if builds and repo and repo != last_repo: if koji.util.checkForBuilds(session, tag_id, builds, repo['create_event'], latest=True): if not suboptions.quiet: print("Successfully waited %s for %s to appear in the %s repo" % (koji.util.duration(start), koji.util.printList(suboptions.builds), tag)) return if (time.time() - start) >= (suboptions.timeout * 60.0): if not suboptions.quiet: if builds: print("Unsuccessfully waited %s for %s to appear in the %s repo" % (koji.util.duration(start), koji.util.printList(suboptions.builds), tag)) else: print("Unsuccessfully waited %s for a new %s repo" % (koji.util.duration(start), tag)) return 1 time.sleep(options.poll_interval) last_repo = repo repo = session.getRepo(tag_id) if not builds: if repo != last_repo: if not suboptions.quiet: print("Successfully waited %s for a new %s repo" % (koji.util.duration(start), tag)) return _search_types = ('package', 'build', 'tag', 'target', 'user', 'host', 'rpm', 'maven', 'win') def handle_regen_repo(options, session, args): "[admin] Force a repo to be regenerated" usage = _("usage: %prog regen-repo [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("--target", action="store_true", help=_("Interpret the argument as a build target name")) parser.add_option("--nowait", action="store_true", help=_("Don't wait on for regen to finish")) parser.add_option("--debuginfo", action="store_true", help=_("Include debuginfo rpms in repo")) parser.add_option("--source", "--src", action="store_true", help=_("Include source rpms in the repo")) (suboptions, args) = parser.parse_args(args) if len(args) == 0: parser.error(_("A tag name must be specified")) assert False # pragma: no cover elif len(args) > 1: if suboptions.target: parser.error(_("Only a single target may be specified")) else: parser.error(_("Only a single tag name may be specified")) assert False # pragma: no cover activate_session(session) tag = args[0] repo_opts = {} if suboptions.target: info = session.getBuildTarget(tag) if not info: parser.error(_("No matching build target: " + tag)) assert False # pragma: no cover tag = info['build_tag_name'] info = session.getTag(tag) else: info = session.getTag(tag) if not info: parser.error(_("No matching tag: " + tag)) assert False # pragma: no cover tag = info['name'] targets = session.getBuildTargets(buildTagID=info['id']) if not targets: print("Warning: %s is not a build tag" % tag) if not info['arches']: print("Warning: tag %s has an empty arch list" % info['name']) if suboptions.debuginfo: repo_opts['debuginfo'] = True if suboptions.source: repo_opts['src'] = True task_id = session.newRepo(tag, **repo_opts) print("Regenerating repo for tag: %s" % tag) print("Created task: %d" % task_id) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if _running_in_bg() or suboptions.nowait: return else: session.logout() return watch_tasks(session, [task_id], quiet=options.quiet) def handle_dist_repo(options, session, args): """Create a yum repo with distribution options""" usage = _("usage: %prog dist-repo [options] tag keyID [keyID...]") usage += _("\n(Specify the --help option for a list of other options)") parser = OptionParser(usage=usage) parser.add_option('--allow-missing-signatures', action='store_true', default=False, help=_('For RPMs not signed with a desired key, fall back to the ' 'primary copy')) parser.add_option("--arch", action='append', default=[], help=_("Indicate an architecture to consider. The default is all " + "architectures associated with the given tag. This option may " + "be specified multiple times.")) parser.add_option('--comps', help='Include a comps file in the repodata') parser.add_option('--delta-rpms', metavar='REPO',default=[], action='append', help=_('Create delta rpms. REPO can be the id of another dist repo ' 'or the name of a tag that has a dist repo. May be specified ' 'multiple times.')) parser.add_option('--event', type='int', help=_('create a dist repository based on a Brew event')) parser.add_option('--non-latest', dest='latest', default=True, action='store_false', help='Include older builds, not just the latest') parser.add_option('--multilib', default=None, metavar="CONFIG", help=_('Include multilib packages in the repository using the given ' 'config file')) parser.add_option("--noinherit", action='store_true', default=False, help=_('Do not consider tag inheritance')) parser.add_option("--nowait", action='store_true', default=False, help=_('Do not wait for the task to complete')) parser.add_option('--skip-missing-signatures', action='store_true', default=False, help=_('Skip RPMs not signed with the desired key(s)')) task_opts, args = parser.parse_args(args) if len(args) < 1: parser.error(_('You must provide a tag to generate the repo from')) if len(args) < 2 and not task_opts.allow_missing_signatures: parser.error(_('Please specify one or more GPG key IDs (or ' '--allow-missing-signatures)')) if task_opts.allow_missing_signatures and task_opts.skip_missing_signatures: parser.error(_('allow_missing_signatures and skip_missing_signatures ' 'are mutually exclusive')) activate_session(session) stuffdir = _unique_path('cli-dist-repo') if task_opts.comps: if not os.path.exists(task_opts.comps): parser.error(_('could not find %s') % task_opts.comps) session.uploadWrapper(task_opts.comps, stuffdir, callback=_progress_callback) print('') task_opts.comps = os.path.join(stuffdir, os.path.basename(task_opts.comps)) old_repos = [] if len(task_opts.delta_rpms) > 0: for repo in task_opts.delta_rpms: if repo.isdigit(): rinfo = session.repoInfo(int(repo), strict=True) else: # get dist repo for tag rinfo = session.getRepo(repo, dist=True) if not rinfo: # maybe there is an expired one rinfo = session.getRepo(repo, state=koji.REPO_STATES['EXPIRED'], dist=True) if not rinfo: parser.errpr(_("Can't find repo for tag: %s") % repo) old_repos.append(rinfo['id']) tag = args[0] keys = args[1:] taginfo = session.getTag(tag) if not taginfo: parser.error(_('unknown tag %s') % tag) if len(task_opts.arch) == 0: arches = taginfo['arches'] or '' task_opts.arch = arches.split() if task_opts.arch == None: parser.error(_('No arches given and no arches associated with tag')) else: for a in task_opts.arch: if not taginfo['arches'] or a not in taginfo['arches']: print(_('Warning: %s is not in the list of tag arches') % a) if task_opts.multilib: if not os.path.exists(task_opts.multilib): parser.error(_('could not find %s') % task_opts.multilib) if 'x86_64' in task_opts.arch and not 'i686' in task_opts.arch: parser.error(_('The multilib arch (i686) must be included')) if 's390x' in task_opts.arch and not 's390' in task_opts.arch: parser.error(_('The multilib arch (s390) must be included')) if 'ppc64' in task_opts.arch and not 'ppc' in task_opts.arch: parser.error(_('The multilib arch (ppc) must be included')) session.uploadWrapper(task_opts.multilib, stuffdir, callback=_progress_callback) task_opts.multilib = os.path.join(stuffdir, os.path.basename(task_opts.multilib)) print('') try: task_opts.arch.remove('noarch') # handled specifically task_opts.arch.remove('src') # ditto except ValueError: pass opts = { 'arch': task_opts.arch, 'comps': task_opts.comps, 'delta': old_repos, 'event': task_opts.event, 'inherit': not task_opts.noinherit, 'latest': task_opts.latest, 'multilib': task_opts.multilib, 'skip_missing_signatures': task_opts.skip_missing_signatures, 'allow_missing_signatures': task_opts.allow_missing_signatures } task_id = session.distRepo(tag, keys, **opts) print("Creating dist repo for tag " + tag) if _running_in_bg() or task_opts.nowait: return else: session.logout() return watch_tasks(session, [task_id], quiet=options.quiet) def anon_handle_search(options, session, args): "[search] Search the system" usage = _("usage: %prog search [options] search_type pattern") usage += _('\nAvailable search types: %s') % ', '.join(_search_types) usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("-r", "--regex", action="store_true", help=_("treat pattern as regex")) parser.add_option("--exact", action="store_true", help=_("exact matches only")) (options, args) = parser.parse_args(args) if not args: parser.print_help() return type = args[0] if type not in _search_types: parser.error(_("Unknown search type: %s") % type) pattern = args[1] matchType = 'glob' if options.regex: matchType = 'regexp' elif options.exact: matchType = 'exact' data = session.search(pattern, type, matchType) for row in data: print(row['name']) def handle_moshimoshi(options, session, args): "[misc] Introduce yourself" usage = _("usage: %prog moshimoshi [options]") parser = OptionParser(usage=usage) (opts, args) = parser.parse_args(args) if len(args) != 0: parser.error(_("This command takes no arguments")) assert False # pragma: no cover activate_session(session) u = session.getLoggedInUser() if not u: print("Not authenticated") u = {'name' : 'anonymous user'} print("%s, %s!" % (random.choice(greetings).encode('utf-8'), u["name"])) print("") print("You are using the hub at %s" % session.baseurl) authtype = u.get('authtype', getattr(session, 'authtype', None)) if authtype == koji.AUTHTYPE_NORMAL: print("Authenticated via password") elif authtype == koji.AUTHTYPE_GSSAPI: print("Authenticated via GSSAPI") elif authtype == koji.AUTHTYPE_KERB: print("Authenticated via Kerberos principal %s" % u["krb_principal"]) elif authtype == koji.AUTHTYPE_SSL: print("Authenticated via client certificate %s" % options.cert) def handle_runroot(options, session, args): "[admin] Run a command in a buildroot" usage = _("usage: %prog runroot [options] ") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.disable_interspersed_args() parser.add_option("-p", "--package", action="append", default=[], help=_("make sure this package is in the chroot")) parser.add_option("-m", "--mount", action="append", default=[], help=_("mount this directory read-write in the chroot")) parser.add_option("--skip-setarch", action="store_true", default=False, help=_("bypass normal setarch in the chroot")) parser.add_option("-w", "--weight", type='int', help=_("set task weight")) parser.add_option("--channel-override", help=_("use a non-standard channel")) parser.add_option("--task-id", action="store_true", default=False, help=_("Print the ID of the runroot task")) parser.add_option("--use-shell", action="store_true", default=False, help=_("Run command through a shell, otherwise uses exec")) parser.add_option("--new-chroot", action="store_true", default=False, help=_("Run command with the --new-chroot (systemd-nspawn) option to mock")) parser.add_option("--repo-id", type="int", help=_("ID of the repo to use")) (opts, args) = parser.parse_args(args) if len(args) < 3: parser.error(_("Incorrect number of arguments")) activate_session(session) tag = args[0] arch = args[1] if opts.use_shell: # everything must be correctly quoted command = ' '.join(args[2:]) else: command = args[2:] try: kwargs = { 'channel': opts.channel_override, 'packages': opts.package, 'mounts': opts.mount, 'repo_id': opts.repo_id, 'skip_setarch': opts.skip_setarch, 'weight': opts.weight } # Only pass this kwarg if it is true - this prevents confusing older # builders with a different function signature if opts.new_chroot: kwargs['new_chroot'] = True task_id = session.runroot(tag, arch, command, **kwargs) except koji.GenericError as e: if 'Invalid method' in str(e): print("* The runroot plugin appears to not be installed on the" " koji hub. Please contact the administrator.") raise if opts.task_id: print(task_id) try: while True: # wait for the task to finish if session.taskFinished(task_id): break time.sleep(options.poll_interval) except KeyboardInterrupt: # this is probably the right thing to do here print("User interrupt: canceling runroot task") session.cancelTask(task_id) raise output = list_task_output_all_volumes(session, task_id) if 'runroot.log' in output: for volume in output['runroot.log']: log = session.downloadTaskOutput(task_id, 'runroot.log', volume=volume) sys.stdout.write(log) info = session.getTaskInfo(task_id) if info is None: sys.exit(1) state = koji.TASK_STATES[info['state']] if state in ('FAILED', 'CANCELED'): sys.exit(1) return def handle_save_failed_tree(options, session, args): "Create tarball with whole buildtree" usage = _("usage: %prog save-failed-tree [options] ID") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) parser.add_option("-f", "--full", action="store_true", default=False, help=_("Download whole tree, if not specified, only builddir will be downloaded")) parser.add_option("-t", "--task", action="store_const", dest="mode", const="task", default="task", help=_("Treat ID as a task ID (the default)")) parser.add_option("-r", "--buildroot", action="store_const", dest="mode", const="buildroot", help=_("Treat ID as a buildroot ID")) parser.add_option("--quiet", action="store_true", default=options.quiet, help=_("Do not print the task information")) parser.add_option("--nowait", action="store_true", help=_("Don't wait on build")) (opts, args) = parser.parse_args(args) if len(args) != 1: parser.error(_("List exactly one task or buildroot ID")) try: id_val = int(args[0]) except ValueError: parser.error(_("ID must be an integer")) activate_session(session) if opts.mode == "buildroot": br_id = id_val else: brs = [b['id'] for b in session.listBuildroots(taskID=id_val)] if not brs: print(_("No buildroots for task %s") % id_val) return 1 br_id = max(brs) if len(brs) > 1: print(_("Multiple buildroots for task. Choosing last one (%s)") % br_id) try: task_id = session.saveFailedTree(br_id, opts.full) except koji.GenericError as e: m = str(e) if 'Invalid method' in m: print(_("* The save_failed_tree plugin appears to not be " "installed on the koji hub. Please contact the " "administrator.")) return 1 raise if not opts.quiet: print(_("Created task %s for buildroot %s") % (task_id, br_id)) print("Task info: %s/taskinfo?taskID=%s" % (options.weburl, task_id)) if opts.nowait: return else: session.logout() watch_tasks(session, [task_id], quiet=opts.quiet) def handle_help(options, session, args): "[info] List available commands" usage = _("usage: %prog help ...") usage += _("\n(Specify the --help global option for a list of other help options)") parser = OptionParser(usage=usage) # the --admin opt is for backwards compatibility. It is equivalent to: koji help admin parser.add_option("--admin", action="store_true", help=optparse.SUPPRESS_HELP) (options, args) = parser.parse_args(args) chosen = set(args) if options.admin: chosen.add('admin') avail = set(list(categories.keys()) + ['all']) unavail = chosen - avail for arg in unavail: print("No such help category: %s" % arg) if not chosen: list_commands() else: list_commands(chosen) def list_commands(categories_chosen=None): if categories_chosen is None or "all" in categories_chosen: categories_chosen = list(categories.keys()) else: # copy list since we're about to modify it categories_chosen = list(categories_chosen) categories_chosen.sort() handlers = [] for name,value in globals().items(): if name.startswith('handle_'): alias = name.replace('handle_','') alias = alias.replace('_','-') handlers.append((alias,value)) elif name.startswith('anon_handle_'): alias = name.replace('anon_handle_','') alias = alias.replace('_','-') handlers.append((alias,value)) handlers.sort() print(_("Available commands:")) for category in categories_chosen: print(_("\n%s:" % categories[category])) for alias,handler in handlers: desc = handler.__doc__ if desc.startswith('[%s] ' % category): desc = desc[len('[%s] ' % category):] elif category != 'misc' or desc.startswith('['): continue print(" %-25s %s" % (alias, desc)) print("%s" % get_epilog_str().rstrip("\n")) def error(msg=None, code=1): if msg: sys.stderr.write(msg + "\n") sys.stderr.flush() sys.exit(code) def warn(msg): sys.stderr.write(msg + "\n") sys.stderr.flush() def has_krb_creds(): if krbV is None: return False try: ctx = krbV.default_context() ccache = ctx.default_ccache() princ = ccache.principal() return True except krbV.Krb5Error: return False def activate_session(session): """Test and login the session is applicable""" global options if options.authtype == "noauth" or options.noauth: #skip authentication pass elif options.authtype == "ssl" or os.path.isfile(options.cert) and options.authtype is None: # authenticate using SSL client cert session.ssl_login(options.cert, None, options.serverca, proxyuser=options.runas) elif options.authtype == "password" or options.user and options.authtype is None: # authenticate using user/password session.login() elif options.authtype == "kerberos" or has_krb_creds() and options.authtype is None: try: if options.keytab and options.principal: session.krb_login(principal=options.principal, keytab=options.keytab, proxyuser=options.runas) else: session.krb_login(proxyuser=options.runas) except socket.error as e: warn(_("Could not connect to Kerberos authentication service: %s") % e.args[1]) except Exception as e: if krbV is not None and isinstance(e, krbV.Krb5Error): error(_("Kerberos authentication failed: %s (%s)") % (e.args[1], e.args[0])) else: raise if not options.noauth and options.authtype != "noauth" and not session.logged_in: error(_("Unable to log in, no authentication methods available")) ensure_connection(session) if options.debug: print("successfully connected to hub") if __name__ == "__main__": global options options, command, args = get_options() logger = logging.getLogger("koji") handler = logging.StreamHandler(sys.stderr) handler.setFormatter(logging.Formatter('%(asctime)s [%(levelname)s] %(name)s: %(message)s')) handler.setLevel(logging.DEBUG) logger.addHandler(handler) if options.debug: logger.setLevel(logging.DEBUG) elif options.quiet: logger.setLevel(logging.ERROR) else: logger.setLevel(logging.WARN) session_opts = koji.grab_session_options(options) session = koji.ClientSession(options.server, session_opts) rv = 0 try: rv = locals()[command].__call__(options, session, args) if not rv: rv = 0 except (KeyboardInterrupt, SystemExit): rv = 1 except: if options.debug: raise else: exctype, value = sys.exc_info()[:2] rv = 1 print("%s: %s" % (exctype.__name__, value)) try: session.logout() except: pass sys.exit(rv)