#!/usr/bin/python # fedpkg - a script to interact with the Fedora Packaging system # # Copyright (C) 2009 Red Hat Inc. # Author(s): Jesse Keating # # This program is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by the # Free Software Foundation; either version 2 of the License, or (at your # option) any later version. See http://www.gnu.org/copyleft/gpl.html for # the full text of the license. import argparse import pyfedpkg import fedora_cert import os import sys import getpass import logging import koji import xmlrpclib import time import random import string import re import hashlib import textwrap # Define packages which belong to specific secondary arches # This is ugly and should go away. A better way to do this is to have a list # of secondary arches, and then check the spec file for ExclusiveArch that # is one of the secondary arches, and handle it accordingly. SECONDARY_ARCH_PKGS = {'sparc': ['silo', 'prtconf', 'lssbus', 'afbinit', 'piggyback', 'xorg-x11-drv-sunbw2', 'xorg-x11-drv-suncg14', 'xorg-x11-drv-suncg3', 'xorg-x11-drv-suncg6', 'xorg-x11-drv-sunffb', 'xorg-x11-drv-sunleo', 'xorg-x11-drv-suntcx'], 'ppc': ['ppc64-utils', 'yaboot'], 'arm': []} # Add a log filter class class StdoutFilter(logging.Filter): def filter(self, record): # If the record level is 20 (INFO) or lower, let it through return record.levelno <= logging.INFO # Add a class stolen from /usr/bin/koji to watch tasks # this was cut/pasted from koji, and then modified for local use. # The formatting is koji style, not the stile of this file. Do not use these # functions as a style guide. # This is fragile and hopefully will be replaced by a real kojiclient lib. 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 (xmlrpclib.Fault,koji.GenericError),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: log.error("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: log.info("%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 log.info("%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() # Add a simple function to print usage, for the 'help' command def usage(args): parser.print_help() # Define our stub functions def _is_secondary(module): """Check a list to see if the package is a secondary arch package""" for arch in SECONDARY_ARCH_PKGS.keys(): if module in SECONDARY_ARCH_PKGS[arch]: return arch return None def _get_secondary_config(mymodule): """Return the right config for a given secondary arch""" arch = _is_secondary(mymodule.module) if arch: if arch == 'ppc' and mymodule.distvar == 'fedora' and \ mymodule.distval < '13': return None return os.path.expanduser('~/.koji/%s-config' % arch) else: return None 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 log.info(" %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']: log.info('%s completed successfully' % task_label) elif state == koji.TASK_STATES['FAILED']: log.info('%s failed' % task_label) elif state == koji.TASK_STATES['CANCELED']: log.info('%s was canceled' % task_label) else: # shouldn't happen log.info('%s has not completed' % task_label) def _watch_koji_tasks(session, tasklist, quiet=False): if not tasklist: return log.info('Watching tasks (this may be safely interrupted)...') # Place holder for return value 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 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 time.sleep(1) except (KeyboardInterrupt): if tasks: log.info( """\nTasks still running. You can continue to watch with the 'koji watch-task' command. Running Tasks: %s""" % '\n'.join(['%s: %s' % (t.str(), t.display_state(t.info)) for t in tasks.values() if not t.is_done()])) # /us/rbin/koji considers a ^c while tasks are running to be a # non-zero exit. I don't quite agree, so I comment it out here. #rv = 1 return rv # Stole these three functions from /usr/bin/koji 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 = t % 3600 m = t / 60 s = t % 60 return "%02d:%02d:%02d" % (h, m, s) def _progress_callback(uploaded, total, piece, time, total_time): 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 build(args): # We may not actually nave an srpm arg if we come directly from the build task if hasattr(args, 'srpm') and args.srpm and not args.scratch: log.error('Non-scratch builds cannot be from srpms.') sys.exit(1) # Place holder for if we build with an uploaded srpm or not url = None # See if this is a chain or not chain = None if hasattr(args, 'chain'): chain = args.chain user = getuser(args.user) # Need to do something with BUILD_FLAGS or KOJI_FLAGS here for compat try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) except pyfedpkg.FedpkgError, e: # This error needs a better print out log.error('Could not use module: %s' % e) sys.exit(1) kojiconfig = _get_secondary_config(mymodule) if args.target: mymodule.target = args.target try: mymodule.init_koji(user, kojiconfig) except pyfedpkg.FedpkgError, e: log.error('Could not log into koji: %s' % e) sys.exit(1) # handle uploading the srpm if we got one if hasattr(args, 'srpm') and args.srpm: # Figure out if we want a verbose output or not callback = None if not args.q: callback = _progress_callback # define a unique path for this upload. Stolen from /usr/bin/koji uniquepath = 'cli-build/%r.%s' % (time.time(), ''.join([random.choice(string.ascii_letters) for i in range(8)])) # Should have a try here, not sure what errors we'll get yet though mymodule.koji_upload(args.srpm, uniquepath, callback=callback) if not args.q: # print an extra blank line due to callback oddity print('') url = '%s/%s' % (uniquepath, os.path.basename(args.srpm)) # Should also try this, again not sure what errors to catch try: task_id = mymodule.build(args.skip_tag, args.scratch, args.background, url, chain) except pyfedpkg.FedpkgError, e: log.error('Could not initiate build: %s' % e) sys.exit(1) # Now that we have the task ID we need to deal with it. if args.nowait: # Log out of the koji session mymodule.kojisession.logout() return # pass info off to our koji task watcher try: mymodule.kojisession.logout() return _watch_koji_tasks(mymodule.kojisession, [task_id], quiet=args.q) except: # We could get an auth error if credentials have expired log.error('Could not watch build: %s' % sys.exec_info()[0]) sys.exit(1) def chainbuild(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) except pyfedpkg.FedpkgError, e: log.error('Could not use module %s' % e) sys.exit(1) # make sure we don't try to chain ourself if mymodule.module in args.package: log.error('%s must not be in the chain' % mymodule.module) sys.exit(1) # make sure we didn't get an empty chain if args.package == [':']: log.error('Must provide at least one dependency build') sys.exit(1) # Break the chain up into sections urls = [] build_set = [] log.debug('Processing chain %s' % ' '.join(args.package)) for component in args.package: if component == ':': # We've hit the end of a set, add the set as a unit to the # url list and reset the build_set. urls.append(build_set) log.debug('Created a build set: %s' % ' '.join(build_set)) build_set = [] else: # Figure out the scm url to build from package name try: hash = pyfedpkg.get_latest_commit(component) url = pyfedpkg.ANONGITURL % {'module': component} + '#%s' % hash except pyfedpkg.FedpkgError, e: log.error('Could not get a build url for %s: %s' % (component, e)) sys.exit(1) # If there are no ':' in the chain list, treat each object as an # individual chain if ':' in args.package: build_set.append(url) else: urls.append([url]) log.debug('Created a build set: %s' % url) # Take care of the last build set if we have one if build_set: log.debug('Created a build set: %s' % ' '.join(build_set)) urls.append(build_set) # pass it off to build args.chain = urls args.skip_tag = False args.scratch = False build(args) def getuser(user=None): if user: return user else: # Doing a try doesn't really work since the fedora_cert library just # exits on error, but if that gets fixed this will work better. try: return fedora_cert.read_user_cert() except: log.debug('Could not read Fedora cert, using login name') return os.getlogin() def check(args): # not implimented; Not planned log.warning('Not implimented yet, got %s' % args) def clean(args): dry = False useignore = True if args.dry_run: dry = True if args.x: useignore = False try: return pyfedpkg.clean(dry, useignore) except pyfedpkg.FedpkgError, e: log.error('Could not clean: %s' % e) sys.exit(1) def clog(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) return mymodule.clog() except pyfedpkg.FedpkgError, e: log.error('Could not generate clog: %s' % e) sys.exit(1) def clone(args): user = None if not args.anonymous: # Doing a try doesn't really work since the fedora_cert library just # exits on error, but if that gets fixed this will work better. user = getuser(args.user) try: if args.branches: pyfedpkg.clone_with_dirs(args.module[0], user) else: pyfedpkg.clone(args.module[0], user, args.path, args.branch) except pyfedpkg.FedpkgError, e: log.error('Could not clone: %s' % e) sys.exit(1) def commit(args): mymodule = None if args.clog: try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) mymodule.clog() except pyfedpkg.FedpkgError, e: log.error('coult not create clog: %s' % e) sys.exit(1) args.file = os.path.abspath(os.path.join(args.path, 'clog')) try: pyfedpkg.commit(args.path, args.message, args.file, args.files) except pyfedpkg.FedpkgError, e: log.error('Could not commit: %s' % e) sys.exit(1) if args.tag: try: if not mymodule: mymodule = pyfedpkg.PackageModule(args.path, args.dist) tagname = mymodule.nvr pyfedpkg.add_tag(tagname, True, args.message, args.file) except pyfedpkg.FedpkgError, e: log.error('Coult not create a tag: %s' % e) sys.exit(1) if args.push: push(args) def compile(args): arch = None short = False if args.arch: arch = args.arch if args.short_circuit: short = True try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) return mymodule.compile(arch=arch, short=short) except pyfedpkg.FedpkgError, e: log.error('Could not compile: %s' % e) sys.exit(1) def diff(args): try: return pyfedpkg.diff(args.path, args.cached, args.files) except pyfedpkg.FedpkgError, e: log.error('Could not diff: %s' % e) sys.exit(1) def export(args): # not implimented; not planned log.warning('Not implimented yet, got %s' % args) def gimmespec(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) print(mymodule.spec) except pyfedpkg.FedpkgError, e: log.error('Could not get spec file: %s' % e) sys.exit(1) def giturl(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) print(mymodule.giturl()) except pyfedpkg.FedpkgError, e: log.error('Could not get the giturl: %s' % e) sys.exit(1) def import_srpm(args): # See if we need to create a module from scratch, and do so if args.create: log.warning('Not implimented yet.') sys.exit(0) if not args.create: try: uploadfiles = pyfedpkg.import_srpm(args.srpm, path=args.path) mymodule = pyfedpkg.PackageModule(args.path, args.dist) mymodule.upload(uploadfiles, replace=True) except pyfedpkg.FedpkgError, e: log.error('Could not import srpm: %s' % e) sys.exit(1) # replace this system call with a proper diff target when it is # readys pyfedpkg.diff(args.path, cached=True) print('--------------------------------------------') print("New content staged and new sources uploaded.") print("Commit if happy or revert with: git reset --hard HEAD") return def install(args): arch = None short = False if args.arch: arch = args.arch if args.short_circuit: short = True try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) return mymodule.install(arch=arch, short=short) except pyfedpkg.FedpkgError, e: log.error('Could not install: %s' % e) sys.exit(1) def lint(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) return mymodule.lint(args.info) except pyfedpkg.FedpkgError, e: log.error('Could not run rpmlint: %s' % e) sys.exit(1) def local(args): arch = None if args.arch: arch = args.arch try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) if args.md5: return mymodule.local(arch=arch, hashtype='md5') else: return mymodule.local(arch=arch) except pyfedpkg.FedpkgError, e: log.error('Could not build locally: %s' % e) sys.exit(1) def mockbuild(args): try: pyfedpkg.sources(args.path) except pyfedpkg.FedpkgError, e: log.error('Could not download sources: %s' % e) sys.exit(1) # Pick up any mockargs from the env mockargs = [] try: mockargs = os.environ['MOCKARGS'].split() except KeyError: # there were no args pass try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) return mymodule.mockbuild(mockargs) except pyfedpkg.FedpkgError, e: log.error('Could not run mockbuild: %s' % e) sys.exit(1) def new(args): try: print(pyfedpkg.new(args.path)) except pyfedpkg.FedpkgError, e: log.error('Could not get new changes: %s' % e) sys.exit(1) def new_sources(args): # Check to see if the files passed exist for file in args.files: if not os.path.exists(file): log.error('File does not exist: %s' % file) sys.exit(1) try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) mymodule.upload(args.files, replace=args.replace) except pyfedpkg.FedpkgError, e: log.error('Could not upload new sources: %s' % e) sys.exit(1) print("Source upload succeeded. Don't forget to commit the sources file") def patch(args): # not implimented log.warning('Not implimented yet, got %s' % args) def prep(args): arch = None if args.arch: arch = args.arch try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) return mymodule.prep(arch=arch) except pyfedpkg.FedpkgError, e: log.error('Could not prep: %s' % e) sys.exit(1) def pull(args): try: pyfedpkg.pull(path=args.path) except pyfedpkg.FedpkgError, e: log.error('Could not push: %s' % e) sys.exit(1) def push(args): try: pyfedpkg.push(path=args.path) except pyfedpkg.FedpkgError, e: log.error('Could not push: %s' % e) sys.exit(1) def retire(args): try: pyfedpkg.retire(args.path, args.msg) except pyfedpkg.FedpkgError, e: log.error('Could not retire package: %s' % e) sys.exit(1) if args.push: push() def scratchbuild(args): # A scratch build is just a build with --scratch args.scratch = True args.skip_tag = False build(args) def sources(args): try: pyfedpkg.sources(args.path, args.outdir) except pyfedpkg.FedpkgError, e: log.error('Could not download sources: %s' % e) sys.exit(1) def srpm(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) pyfedpkg.sources(args.path) if args.md5: mymodule.srpm('md5') else: mymodule.srpm() except pyfedpkg.FedpkgError, e: log.error('Could not make an srpm: %s' % e) sys.exit(1) def switch_branch(args): if args.branch: try: pyfedpkg.switch_branch(args.branch, args.path) except pyfedpkg.FedpkgError, e: log.error('Unable to switch to another branch: %s' % e) sys.exit(1) else: try: (locals, remotes) = pyfedpkg._list_branches(path=args.path) except pyfedpkg.FedpkgError, e: log.error('Unable to list branches: %s' % e) sys.exit(1) # This is some ugly stuff here, but trying to emulate # the way git branch looks locals = [' %s ' % branch for branch in locals] local_branch = pyfedpkg._find_branch(args.path) locals[locals.index(' %s ' % local_branch)] = '* %s' % local_branch print('Locals:\n%s\nRemotes:\n %s' % ('\n'.join(locals), '\n '.join(remotes))) def tag(args): if args.list: try: pyfedpkg.list_tag(args.tag) except pyfedpkg.FedpkgError, e: log.error('Could not create a list of the tag: %s' % e) sys.exit(1) elif args.delete: try: pyfedpkg.delete_tag(args.tag, args.path) except pyfedpkg.FedpkgError, e: log.error('Coult not delete tag: %s' % e) sys.exit(1) else: filename = args.file tagname = args.tag try: if not tagname or args.clog: mymodule = pyfedpkg.PackageModule(args.path, args.dist) if not tagname: tagname = mymodule.nvr if clog: mymodule.clog() filename = 'clog' pyfedpkg.add_tag(tagname, args.force, args.message, filename) except pyfedpkg.FedpkgError, e: log.error('Coult not create a tag: %s' % e) sys.exit(1) def tagrequest(args): user = getuser(args.user) passwd = getpass.getpass('Password for %s: ' % user) if not args.desc: args.desc = raw_input('\nAdd a description to your request: ') try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) mymodule.new_ticket(user, passwd, args.desc, args.build) except pyfedpkg.FedpkgError, e: print('Could not request a tag release: %s' % e) sys.exit(1) def unusedfedpatches(args): # not implimented; not planned log.warning('Not implimented yet, got %s' % args) def unusedpatches(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) unused = mymodule.unused_patches() except pyfedpkg.FedpkgError, e: log.error('Could not get unused patches: %s' % e) sys.exit(1) print('\n'.join(unused)) def update(args): """Submit a new update to bodhi""" user = getuser(args.user) try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) except pyfedpkg.FedpkgError, e: log.error('Could not use module: %s' % e) sys.exit(1) nvr = '%s-%s-%s' % (mymodule.module, mymodule.ver, mymodule.rel) template = """\ [ %(nvr)s ] # bugfix, security, enhancement, newpackage (required) type= # testing, stable request=testing # Bug numbers: 1234,9876 bugs=%(bugs)s # Description of your update notes=Here is where you give an explanation of your update. # Enable request automation based on the stable/unstable karma thresholds autokarma=True stable_karma=3 unstable_karma=-3 # Automatically close bugs when this marked as stable close_bugs=True # Suggest that users restart after update suggest_reboot=False\ """ bodhi_args = {'nvr': nvr, 'bugs': ''} # Extract bug numbers from the latest changelog entry mymodule.clog() clog = file('clog').read() bugs = re.findall(r'#([0-9]*)', clog) if bugs: bodhi_args['bugs'] = ','.join(bugs) template = textwrap.dedent(template) % bodhi_args # Calculate the hash of the unaltered template orig_hash = hashlib.new('sha1') orig_hash.update(template) orig_hash = orig_hash.hexdigest() # Write out the template out = file('bodhi.template', 'w') out.write(template) out.close() # Open the template in a text editor editor = os.getenv('EDITOR', 'vi') pyfedpkg._run_command([editor, 'bodhi.template'], shell=True) # If the template was changed, submit it to bodhi hash = pyfedpkg._hash_file('bodhi.template', 'sha1') if hash != orig_hash: cmd = ['bodhi', '--new', '--release', mymodule.branch, '--file', 'bodhi.template', nvr, '--username', user] try: pyfedpkg._run_command(cmd, shell=True) except pyfedpkg.FedpkgError, e: log.error('Could not generate update request: %s' % e) sys.exit(1) else: log.info('Bodhi update aborted!') # Clean up os.unlink('bodhi.template') os.unlink('clog') def verrel(args): try: mymodule = pyfedpkg.PackageModule(args.path, args.dist) except pyfedpkg.FedpkgError, e: log.error('Could not get ver-rel: %s' % e) sys.exit(1) print('%s-%s-%s' % (mymodule.module, mymodule.ver, mymodule.rel)) def parse_cmdline(generate_manpage = False): """Parse the command line""" # Create the parser object parser = argparse.ArgumentParser(description = 'Fedora Packaging utility', prog = 'fedpkg', epilog = "For detailed help pass " \ "--help to a target") # Add top level arguments # Let people override the "distribution" parser.add_argument('--dist', default=None, help='Override the distribution, eg f15 or el6') # Let somebody override the username found in fedora cert parser.add_argument('-u', '--user', help = "Override the username found in the fedora cert") # Let the user define which path to look at instead of pwd parser.add_argument('--path', default = os.getcwd(), help='Directory to interact with instead of current dir') # Verbosity parser.add_argument('-v', action = 'store_true', help = 'Run with verbose debug output') parser.add_argument('-q', action = 'store_true', help = 'Run quietly only displaying errors') # Add a subparsers object to use for the actions subparsers = parser.add_subparsers(title = 'Targets') # Set up the various actions # Add help to -h and --help parser_help = subparsers.add_parser('help', help = 'Show usage') parser_help.set_defaults(command = usage) # Add a common build parser to be used as a parent parser_build_common = subparsers.add_parser('build_common', add_help = False) parser_build_common.add_argument('--nowait', action = 'store_true', default = False, help = "Don't wait on build") parser_build_common.add_argument('--target', default = None, help = 'Define koji target to build into') parser_build_common.add_argument('--background', action = 'store_true', default = False, help = 'Run the build at a lower priority') # build target parser_build = subparsers.add_parser('build', help = 'Request build', parents = [parser_build_common]) parser_build.add_argument('--skip-tag', action = 'store_true', default = False, help = 'Do not attempt to tag package') parser_build.add_argument('--scratch', action = 'store_true', default = False, help = 'Perform a scratch build') parser_build.add_argument('--srpm', help = 'Build from an srpm. Requires --scratch') parser_build.set_defaults(command = build) # chain build parser_chainbuild = subparsers.add_parser('chain-build', help = 'Build current package in order with other packages', parents = [parser_build_common]) parser_chainbuild.add_argument('package', nargs = '+', help = """ Build current package in order with other packages example: fedpkg chain-build libwidget libgizmo The current package is added to the end of the CHAIN list. Colons (:) can be used in the CHAIN parameter to define groups of packages. Packages in any single group will be built in parallel and all packages in a group must build successfully and populate the repository before the next group will begin building. For example: fedpkg chain-build libwidget libaselib : libgizmo : will cause libwidget and libaselib to be built in parallel, followed by libgizmo and then the currect directory package. If no groups are defined, packages will be built sequentially. """) parser_chainbuild.set_defaults(command = chainbuild) # check preps; not planned #parser_check = subparsers.add_parser('check', # help = 'Check test srpm preps on all arches') #parser_check.set_defaults(command = check) # clean things up parser_clean = subparsers.add_parser('clean', help = 'Remove untracked files') parser_clean.add_argument('--dry-run', '-n', action = 'store_true', help = 'Perform a dry-run') parser_clean.add_argument('-x', action = 'store_true', help = 'Do not follow .gitignore rules') parser_clean.set_defaults(command = clean) # Create a changelog stub parser_clog = subparsers.add_parser('clog', help = 'Make a clog file containing top changelog entry') parser_clog.set_defaults(command = clog) # clone take some options, and then passes the rest on to git parser_clone = subparsers.add_parser('clone', help = 'Clone and checkout a module') # Allow an old style clone with subdirs for branches parser_clone.add_argument('--branches', '-B', action = 'store_true', help = 'Do an old style checkout with subdirs for branches') # provide a convenient way to get to a specific branch parser_clone.add_argument('--branch', '-b', help = 'Check out a specific branch') # allow to clone without needing a account on the fedora buildsystem parser_clone.add_argument('--anonymous', '-a', action = 'store_true', help = 'Check out a branch anonymously') # store the module to be cloned parser_clone.add_argument('module', nargs = 1, help = 'Name of the module to clone') parser_clone.set_defaults(command = clone) parser_co = subparsers.add_parser('co', parents = [parser_clone], conflict_handler = 'resolve', help = 'Alias for clone') parser_co.set_defaults(command = clone) # commit stuff parser_commit = subparsers.add_parser('commit', help = 'Commit changes') parser_commit.add_argument('-c', '--clog', default = False, action = 'store_true', help = 'Generate the commit message from the Changelog section') parser_commit.add_argument('-t', '--tag', default = False, action = 'store_true', help = 'Create a tag for this commit') parser_commit.add_argument('-m', '--message', default = None, help = 'Use the given as the commit message') parser_commit.add_argument('-F', '--file', default = None, help = 'Take the commit message from the given file') # allow one to commit /and/ push at the same time. parser_commit.add_argument('-p', '--push', default = False, action = 'store_true', help = 'Commit and push as one action') # Allow a list of files to be committed instead of everything parser_commit.add_argument('files', nargs = '*', default = [], help = 'Optional list of specific files to commit') parser_commit.set_defaults(command = commit) parser_ci = subparsers.add_parser('ci', parents = [parser_commit], conflict_handler = 'resolve', help = 'Alias for commit') parser_ci.set_defaults(command = commit) # compile locally parser_compile = subparsers.add_parser('compile', help = 'Local test rpmbuild compile') parser_compile.add_argument('--arch', help = 'Arch to compile for') parser_compile.add_argument('--short-circuit', action = 'store_true', help = 'short-circuit compile') parser_compile.set_defaults(command = compile) # export the module; not planned #parser_export = subparsers.add_parser('export', # help = 'Create a clean export') #parser_export.set_defaults(command = export) # diff, should work mostly like git diff parser_diff = subparsers.add_parser('diff', help = "Show changes between commits, commit and working tree, etc") parser_diff.add_argument('--cached', default = False, action = 'store_true', help = 'View staged changes') parser_diff.add_argument('files', nargs = '*', default = [], help = 'Optionally diff specific files') parser_diff.set_defaults(command = diff) # gimmespec takes an optional path argument, defaults to cwd parser_gimmespec = subparsers.add_parser('gimmespec', help = 'print spec file name') parser_gimmespec.set_defaults(command = gimmespec) # giturl parser_giturl = subparsers.add_parser('giturl', help = 'print the url for building') parser_giturl.set_defaults(command = giturl) # Import content into a module parser_import_srpm = subparsers.add_parser('import', help = 'Import content into a module') parser_import_srpm.add_argument('--branch', '-b', help = 'Branch to import onto', default = 'devel') parser_import_srpm.add_argument('--create', '-c', help = 'Create a new local repo', action = 'store_true') parser_import_srpm.add_argument('srpm', help = 'Source rpm to import') parser_import_srpm.set_defaults(command = import_srpm) # install locally parser_install = subparsers.add_parser('install', help = 'Local test rpmbuild install') parser_install.add_argument('--arch', help = 'Arch to install for') parser_install.add_argument('--short-circuit', action = 'store_true', help = 'short-circuit install') parser_install.set_defaults(command = install) # rpmlint target parser_lint = subparsers.add_parser('lint', help = 'Run rpmlint against local build output') parser_lint.add_argument('--info', '-i', default = False, action = 'store_true', help = 'Display explanations for reported messages') parser_lint.set_defaults(command = lint) # Build locally parser_local = subparsers.add_parser('local', help = 'Local test rpmbuild binary') parser_local.add_argument('--arch', help = 'Build for arch') # optionally define old style hashsums parser_local.add_argument('--md5', action = 'store_true', help = 'Use md5 checksums (for older rpm hosts)') parser_local.set_defaults(command = local) # Build in mock parser_mockbuild = subparsers.add_parser('mockbuild', help = 'Local test build using mock') parser_mockbuild.set_defaults(command = mockbuild) # See what's different parser_new = subparsers.add_parser('new', help = 'Diff against last tag') parser_new.set_defaults(command = new) # newsources target takes one or more files as input parser_newsources = subparsers.add_parser('new-sources', help = 'Upload new source files') parser_newsources.add_argument('files', nargs = '+') parser_newsources.set_defaults(command = new_sources, replace = True) # patch parser_patch = subparsers.add_parser('patch', help = 'Create and add a gendiff patch file') parser_patch.add_argument('--suffix') parser_patch.add_argument('--rediff', action = 'store_true', help = 'Recreate gendiff file retaining comments') parser_patch.set_defaults(command = patch) # Prep locally parser_prep = subparsers.add_parser('prep', help = 'Local test rpmbuild prep') parser_prep.add_argument('--arch', help = 'Prep for a specific arch') parser_prep.set_defaults(command = prep) # Pull stuff parser_pull = subparsers.add_parser('pull', help = 'Pull changes from remote repository and update working copy') parser_pull.set_defaults(command = pull) # Push stuff parser_push = subparsers.add_parser('push', help = 'Push changes to remote repository') parser_push.set_defaults(command = push) # retire stuff parser_retire = subparsers.add_parser('retire', help = 'Retire a package') parser_retire.add_argument('-p', '--push', default = False, action = 'store_true', help = 'Push changes to remote repository') parser_retire.add_argument('msg', nargs = '?', help = 'Message for retiring the package') parser_retire.set_defaults(command = retire) # scratch build parser_scratchbuild = subparsers.add_parser('scratch-build', help = 'Request scratch build', parents = [parser_build_common]) parser_scratchbuild.add_argument('--arches', nargs = '*', help = 'Build for specific arches') parser_scratchbuild.add_argument('--srpm', help='Build from srpm') parser_scratchbuild.set_defaults(command = scratchbuild) # sources downloads all the source files, into an optional output dir parser_sources = subparsers.add_parser('sources', help = 'Download source files') parser_sources.add_argument('--outdir', default = os.curdir, help = 'Directory to download files into (defaults to pwd)') parser_sources.set_defaults(command = sources) # srpm creates a source rpm from the module content parser_srpm = subparsers.add_parser('srpm', help = 'Create a source rpm') # optionally define old style hashsums parser_srpm.add_argument('--md5', action = 'store_true', help = 'Use md5 checksums (for older rpm hosts)') parser_srpm.set_defaults(command = srpm) # switch branches parser_switchbranch = subparsers.add_parser('switch-branch', help = 'Work with branches') parser_switchbranch.add_argument('branch', nargs = '?', help = 'Switch to or create branch') parser_switchbranch.add_argument('-l', '--list', help = 'List both remote-tracking branches and local branches', action = 'store_true') parser_switchbranch.set_defaults(command = switch_branch) # tag stuff parser_tag = subparsers.add_parser('tag', help = 'Management of git tags') parser_tag.add_argument('-f', '--force', default = False, action = 'store_true', help = 'Force the creation of the tag') parser_tag.add_argument('-m', '--message', default = None, help = 'Use the given as the tag message') parser_tag.add_argument('-c', '--clog', default = False, action = 'store_true', help = 'Generate the tag message from the spec changelog section') parser_tag.add_argument('-F', '--file', default = None, help = 'Take the tag message from the given file') parser_tag.add_argument('-l', '--list', default = False, action = 'store_true', help = 'List all tags with a given pattern, or all if not pattern is given') parser_tag.add_argument('-d', '--delete', default = False, action = 'store_true', help = 'Delete a tag') parser_tag.add_argument('tag', nargs = '?', default = None, help = 'Name of the tag') parser_tag.set_defaults(command = tag) # Create a releng tag request parser_tagrequest = subparsers.add_parser('tag-request', help = 'Submit current build nvr as a releng tag request') parser_tagrequest.add_argument('--desc', help="Description of tag request") parser_tagrequest.add_argument('--build', help="Override the build n-v-r") parser_tagrequest.set_defaults(command = tagrequest) # Show unused Fedora patches; not planned #parser_unusedfedpatches = subparsers.add_parser('unused-fedora-patches', # help = 'Print Fedora patches not used by Patch and/or ApplyPatch' # ' directives') #parser_unusedfedpatches.set_defaults(command = unusedfedpatches) # Show unused patches parser_unusedpatches = subparsers.add_parser('unused-patches', help = 'Print list of patches not referenced by name in specfile') parser_unusedpatches.set_defaults(command = unusedpatches) # Submit to bodhi for update parser_update = subparsers.add_parser('update', help = 'Submit last build as an update') parser_update.set_defaults(command = update) # upload target takes one or more files as input parser_upload = subparsers.add_parser('upload', parents = [parser_newsources], conflict_handler = 'resolve', help = 'Upload source files') parser_upload.set_defaults(command = new_sources, replace = False) # Get version and release parser_verrel = subparsers.add_parser('verrel', help = 'Print the' ' name-version-release') parser_verrel.set_defaults(command = verrel) if not generate_manpage: # Parse the args return parser.parse_args() else: # Generate the man page # Use the "as man_page" part to avoid overwriting the pyfedpkg # namespace, which would break all usage of pyfedpkg.* outside # of this else branch. import pyfedpkg.man_page as man_page man_page.generate(parser, subparsers) sys.exit(0) # no return possible # The main code goes here if __name__ == '__main__': args = parse_cmdline() # setup the logger -- This logger will take things of INFO or DEBUG and # log it to stdout. Anything above that (WARN, ERROR, CRITICAL) will go # to stderr. Normal operation will show anything INFO and above. # Quiet hides INFO, while Verbose exposes DEBUG. In all cases WARN or # higher are exposed (via stderr). log = pyfedpkg.log if args.v: log.setLevel(logging.DEBUG) elif args.q: log.setLevel(logging.WARNING) else: log.setLevel(logging.INFO) formatter = logging.Formatter('%(message)s') # have to create a filter for the stdout stream to filter out WARN+ myfilt = StdoutFilter() stdouthandler = logging.StreamHandler(sys.stdout) stdouthandler.addFilter(myfilt) stdouthandler.setFormatter(formatter) stderrhandler = logging.StreamHandler() stderrhandler.setLevel(logging.WARNING) stderrhandler.setFormatter(formatter) log.addHandler(stdouthandler) log.addHandler(stderrhandler) # Run the necessary command try: args.command(args) except KeyboardInterrupt: pass