""" Calamari setup task """ import contextlib import logging import os import requests import shutil import webbrowser from cStringIO import StringIO from teuthology.orchestra import run from teuthology import contextutil from teuthology import misc log = logging.getLogger(__name__) DEFAULTS = { 'version': 'v0.80.9', 'test_image': None, 'start_browser': False, 'email': 'x@y.com', 'no_epel': True, 'calamari_user': 'admin', 'calamari_password': 'admin', } @contextlib.contextmanager def task(ctx, config): """ Do the setup of a calamari server. - calamari_setup: version: 'v80.1' test_image: Options are (see DEFAULTS above): version -- ceph version we are testing against test_image -- Can be an HTTP URL, in which case fetch from this http path; can also be local path start_browser -- If True, start a browser. To be used by runs that will bring up a browser quickly for human use. Set to False for overnight suites that are testing for problems in the installation itself email -- email address for the user no_epel -- indicates if we should remove epel files prior to yum installations. calamari_user -- user name to log into gui calamari_password -- calamari user password """ local_config = DEFAULTS local_config.update(config) config = local_config cal_svr = None for remote_, roles in ctx.cluster.remotes.items(): if 'client.0' in roles: cal_svr = remote_ break if not cal_svr: raise RuntimeError('client.0 not found in roles') with contextutil.nested( lambda: adjust_yum_repos(ctx, cal_svr, config['no_epel']), lambda: calamari_install(config, cal_svr), lambda: ceph_install(ctx, cal_svr), # do it again because ceph-deploy installed epel for centos lambda: remove_epel(ctx, config['no_epel']), lambda: calamari_connect(ctx, cal_svr), lambda: browser(config['start_browser'], cal_svr.hostname), ): yield @contextlib.contextmanager def adjust_yum_repos(ctx, cal_svr, no_epel): """ For each remote machine, fix the repos if yum is used. """ ice_distro = str(cal_svr.os) if ice_distro.startswith('rhel') or ice_distro.startswith('centos'): if no_epel: for remote in ctx.cluster.remotes: fix_yum_repos(remote, ice_distro) try: yield finally: if ice_distro.startswith('rhel') or ice_distro.startswith('centos'): if no_epel: for remote in ctx.cluster.remotes: restore_yum_repos(remote) def restore_yum_repos(remote): """ Copy the old saved repo back in. """ if remote.run(args=['sudo', 'rm', '-rf', '/etc/yum.repos.d']).exitstatus: return False if remote.run(args=['sudo', 'mv', '/etc/yum.repos.d.old', '/etc/yum.repos.d']).exitstatus: return False def fix_yum_repos(remote, distro): """ For yum calamari installations, the repos.d directory should only contain a repo file named rhel.repo """ if distro.startswith('centos'): cmds = [ 'sudo mkdir /etc/yum.repos.d.old'.split(), ['sudo', 'cp', run.Raw('/etc/yum.repos.d/*'), '/etc/yum.repos.d.old'], ['sudo', 'rm', run.Raw('/etc/yum.repos.d/epel*')], ] for cmd in cmds: if remote.run(args=cmd).exitstatus: return False else: cmds = [ 'sudo mv /etc/yum.repos.d /etc/yum.repos.d.old'.split(), 'sudo mkdir /etc/yum.repos.d'.split(), ] for cmd in cmds: if remote.run(args=cmd).exitstatus: return False # map "distroversion" from Remote.os to a tuple of # (repo title, repo name descriptor, apt-mirror repo path chunk) yum_repo_params = { 'rhel 6.4': ('rhel6-server', 'RHEL', 'rhel6repo-server'), 'rhel 6.5': ('rhel6-server', 'RHEL', 'rhel6repo-server'), 'rhel 7.0': ('rhel7-server', 'RHEL', 'rhel7repo/server'), } repotitle, reponame, path = yum_repo_params[distro] repopath = '/etc/yum.repos.d/%s.repo' % repotitle # TO DO: Make this data configurable too repo_contents = '\n'.join( ('[%s]' % repotitle, 'name=%s $releasever - $basearch' % reponame, 'baseurl=http://apt-mirror.front.sepia.ceph.com/' + path, 'gpgcheck=0', 'enabled=1') ) misc.sudo_write_file(remote, repopath, repo_contents) cmds = [ 'sudo yum clean all'.split(), 'sudo yum makecache'.split(), ] for cmd in cmds: if remote.run(args=cmd).exitstatus: return False return True @contextlib.contextmanager def remove_epel(ctx, no_epel): """ just remove epel. No undo; assumed that it's used after adjust_yum_repos, and relies on its state-save/restore. """ if no_epel: for remote in ctx.cluster.remotes: if remote.os.name.startswith('centos'): remote.run(args= [ 'sudo', 'rm', '-f', run.Raw('/etc/yum.repos.d/epel*') ]) try: yield finally: pass def get_iceball_with_http(url, destdir): ''' Copy iceball with http to destdir. Try both .tar.gz and .iso. ''' # stream=True means we don't download until copyfileobj below, # and don't need a temp file r = requests.get(url, stream=True) if not r.ok: raise RuntimeError("Failed to download %s", str(url)) filename = os.path.join(destdir, url.split('/')[-1]) with open(filename, 'w') as f: shutil.copyfileobj(r.raw, f) log.info('saved %s as %s' % (url, filename)) return filename @contextlib.contextmanager def calamari_install(config, cal_svr): """ Install calamari The steps here are: -- Get the iceball, locally or from http -- Copy the iceball to the calamari server, and untar/mount it. -- Run ice-setup on the calamari server. -- Run calamari-ctl initialize. """ client_id = str(cal_svr) at_loc = client_id.find('@') if at_loc > 0: client_id = client_id[at_loc + 1:] test_image = config['test_image'] if not test_image: raise RuntimeError('Must supply test image') log.info('calamari test image: %s' % test_image) delete_iceball = False if test_image.startswith('http'): iceball_file = get_iceball_with_http(test_image, '/tmp') delete_iceball = True else: iceball_file = test_image remote_iceball_file = os.path.join('/tmp', os.path.split(iceball_file)[1]) cal_svr.put_file(iceball_file, remote_iceball_file) if iceball_file.endswith('.tar.gz'): # XXX specify tar/iso in config? icetype = 'tarball' elif iceball_file.endswith('.iso'): icetype = 'iso' else: raise RuntimeError('Can''t handle iceball {0}'.format(iceball_file)) if icetype == 'tarball': ret = cal_svr.run(args=['gunzip', run.Raw('<'), remote_iceball_file, run.Raw('|'), 'tar', 'xvf', run.Raw('-')]) if ret.exitstatus: raise RuntimeError('remote iceball untar failed') elif icetype == 'iso': mountpoint = '/mnt/' # XXX create? ret = cal_svr.run( args=['sudo', 'mount', '-o', 'loop', '-r', remote_iceball_file, mountpoint] ) # install ice_setup package args = { 'deb': 'sudo dpkg -i /mnt/ice-setup*deb', 'rpm': 'sudo yum -y localinstall /mnt/ice_setup*rpm' }.get(cal_svr.system_type, None) if not args: raise RuntimeError('{0}: unknown system type'.format(cal_svr)) ret = cal_svr.run(args=args) if ret.exitstatus: raise RuntimeError('ice_setup package install failed') # Run ice_setup icesetdata = 'yes\n\n%s\nhttp\n' % client_id ice_in = StringIO(icesetdata) ice_out = StringIO() if icetype == 'tarball': args = 'sudo python ice_setup.py' else: args = 'sudo ice_setup -d /mnt' ret = cal_svr.run(args=args, stdin=ice_in, stdout=ice_out) log.debug(ice_out.getvalue()) if ret.exitstatus: raise RuntimeError('ice_setup failed') # Run calamari-ctl initialize. icesetdata = '%s\n%s\n%s\n%s\n' % ( config['calamari_user'], config['email'], config['calamari_password'], config['calamari_password'], ) ice_in = StringIO(icesetdata) ret = cal_svr.run(args=['sudo', 'calamari-ctl', 'initialize'], stdin=ice_in, stdout=ice_out) log.debug(ice_out.getvalue()) if ret.exitstatus: raise RuntimeError('calamari-ctl initialize failed') try: yield finally: log.info('Cleaning up after Calamari installation') if icetype == 'iso': cal_svr.run(args=['sudo', 'umount', mountpoint]) if delete_iceball: os.unlink(iceball_file) @contextlib.contextmanager def ceph_install(ctx, cal_svr): """ Install ceph if ceph was not previously installed by teuthology. This code tests the case where calamari is installed on a brand new system. """ loc_inst = False if 'install' not in [x.keys()[0] for x in ctx.config['tasks']]: loc_inst = True ret = deploy_ceph(ctx, cal_svr) if ret: raise RuntimeError('ceph installs failed') try: yield finally: if loc_inst: if not undeploy_ceph(ctx, cal_svr): log.error('Cleanup of Ceph installed by Calamari-setup failed') def deploy_ceph(ctx, cal_svr): """ Perform the ceph-deploy actions needed to bring up a Ceph cluster. This test is needed to check the ceph-deploy that comes with the calamari package. """ osd_to_name = {} all_machines = set() all_mons = set() all_osds = set() # collect which remotes are osds and which are mons for remote in ctx.cluster.remotes: all_machines.add(remote.shortname) roles = ctx.cluster.remotes[remote] for role in roles: daemon_type, number = role.split('.') if daemon_type == 'osd': all_osds.add(remote.shortname) osd_to_name[number] = remote.shortname if daemon_type == 'mon': all_mons.add(remote.shortname) # figure out whether we're in "1.3+" mode: prior to 1.3, there was # only one Ceph repo, and it was all installed on every Ceph host. # with 1.3, we've split that into MON and OSD repos (in order to # be able to separately track subscriptions per-node). This # requires new switches to ceph-deploy to select which locally-served # repo is connected to which cluster host. # # (TODO: A further issue is that the installation/setup may not have # created local repos at all, but that is the subject of a future # change.) r = cal_svr.run(args='/usr/bin/test -d /mnt/MON') use_install_repo = (r.returncode == 0) # pre-1.3: # ceph-deploy new # ceph-deploy install # ceph-deploy mon create-initial # # 1.3 and later: # ceph-deploy new # ceph-deploy install --repo --release=ceph-mon # ceph-deploy install # ceph-deploy install --repo --release=ceph-osd # ceph-deploy install # ceph-deploy mon create-initial # # one might think the install and install # commands would need --mon and --osd, but #12147 has not yet # made it into RHCS 1.3.0; since the package split also hasn't # landed, we can avoid using the flag and avoid the bug. cmds = ['ceph-deploy new ' + ' '.join(all_mons)] if use_install_repo: cmds.append('ceph-deploy install --repo --release=ceph-mon ' + ' '.join(all_mons)) cmds.append('ceph-deploy install --no-adjust-repos ' + ' '.join(all_mons)) cmds.append('ceph-deploy install --repo --release=ceph-osd ' + ' '.join(all_osds)) cmds.append('ceph-deploy install --no-adjust-repos ' + ' '.join(all_osds)) else: cmds.append('ceph-deploy install ' + ' '.join(all_machines)) cmds.append('ceph-deploy mon create-initial') for cmd in cmds: cal_svr.run(args=cmd).exitstatus disk_labels = '_dcba' # NEEDS WORK assumes disks start with vd (need to check this somewhere) for cmd_pts in [['disk', 'zap'], ['osd', 'prepare'], ['osd', 'activate']]: mach_osd_cnt = {} for osdn in osd_to_name: osd_mac = osd_to_name[osdn] mach_osd_cnt[osd_mac] = mach_osd_cnt.get(osd_mac, 0) + 1 arg_list = ['ceph-deploy'] arg_list.extend(cmd_pts) disk_id = '%s:vd%s' % (osd_to_name[osdn], disk_labels[mach_osd_cnt[osd_mac]]) if 'activate' in cmd_pts: disk_id += '1' arg_list.append(disk_id) cal_svr.run(args=arg_list).exitstatus def undeploy_ceph(ctx, cal_svr): """ Cleanup deployment of ceph. """ all_machines = [] ret = True for remote in ctx.cluster.remotes: ret &= remote.run(args=['sudo', 'stop', 'ceph-all', run.Raw('||'), 'sudo', 'service', 'ceph', 'stop'] ).exitstatus all_machines.append(remote.shortname) all_machines = set(all_machines) cmd1 = ['ceph-deploy', 'uninstall'] cmd1.extend(all_machines) ret &= cal_svr.run(args=cmd1).exitstatus cmd2 = ['ceph-deploy', 'purge'] cmd2.extend(all_machines) ret &= cal_svr.run(args=cmd2).exitstatus for remote in ctx.cluster.remotes: ret &= remote.run(args=['sudo', 'rm', '-rf', '.ssh/known_hosts']).exitstatus return ret @contextlib.contextmanager def calamari_connect(ctx, cal_svr): """ Connect calamari to the ceph nodes. """ connects = ['ceph-deploy', 'calamari', 'connect'] for machine_info in ctx.cluster.remotes: if 'client.0' not in ctx.cluster.remotes[machine_info]: connects.append(machine_info.shortname) ret = cal_svr.run(args=connects) if ret.exitstatus: raise RuntimeError('calamari connect failed') try: yield finally: log.info('Calamari test terminating') @contextlib.contextmanager def browser(start_browser, web_page): """ Bring up a browser, if wanted. """ if start_browser: webbrowser.open('http://%s' % web_page) try: yield finally: if start_browser: log.info('Web browser support terminating')