#!@PYTHON_EXECUTABLE@ # -*- mode:python -*- # vim: ts=4 sw=4 smarttab expandtab # # Processed in Makefile to add python #! line and version variable # # """ ceph.in becomes ceph, the command-line management tool for Ceph clusters. This is a replacement for tools/ceph.cc and tools/common.cc. Copyright (C) 2013 Inktank Storage, Inc. This is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2, as published by the Free Software Foundation. See file COPYING. """ import codecs import os import sys import platform CEPH_GIT_VER="@CEPH_GIT_VER@" CEPH_GIT_NICE_VER="@CEPH_GIT_NICE_VER@" # Make life easier on developers: # If in src/, and .libs and pybind exist here, assume we're running # from a Ceph source dir and tweak PYTHONPATH and LD_LIBRARY_PATH # to use local files MYPATH = os.path.abspath(__file__) MYDIR = os.path.dirname(MYPATH) DEVMODEMSG = '*** DEVELOPER MODE: setting PATH, PYTHONPATH and LD_LIBRARY_PATH ***' def respawn_in_path(lib_path, pybind_path): execv_cmd = ['python'] if 'CEPH_DBG' in os.environ: execv_cmd += ['-mpdb'] if platform.system() == "Darwin": lib_path_var = "DYLD_LIBRARY_PATH" else: lib_path_var = "LD_LIBRARY_PATH" py_binary = os.environ.get("PYTHON", "python") if lib_path_var in os.environ: if lib_path not in os.environ[lib_path_var]: os.environ[lib_path_var] += ':' + lib_path print >> sys.stderr, DEVMODEMSG os.execvp(py_binary, execv_cmd + sys.argv) else: os.environ[lib_path_var] = lib_path print >> sys.stderr, DEVMODEMSG os.execvp(py_binary, execv_cmd + sys.argv) sys.path.insert(0, os.path.join(MYDIR, pybind_path)) if MYDIR.endswith('src') and \ os.path.exists(os.path.join(MYDIR, '.libs')) and \ os.path.exists(os.path.join(MYDIR, 'pybind')): respawn_in_path(os.path.join(MYDIR, '.libs'), "pybind") if os.environ.has_key('PATH') and MYDIR not in os.environ['PATH']: os.environ['PATH'] += ':' + MYDIR elif os.path.exists(os.path.join(os.getcwd(), "CMakeCache.txt")) \ and os.path.exists(os.path.join(os.getcwd(), "init-ceph")): src_path = None for l in open("./CMakeCache.txt").readlines(): if l.startswith("Ceph_SOURCE_DIR:STATIC="): src_path = l.split("=")[1].strip() if src_path is None: # Huh, maybe we're not really in a cmake environment? pass else: # Developer mode, but in a cmake build dir instead of the src dir lib_path = os.path.join(os.getcwd(), "src") pybind_path = os.path.join(src_path, "src", "pybind") respawn_in_path(lib_path, pybind_path) sys.path.insert(0, os.path.join(MYDIR, pybind_path)) # Add src/ to path for e.g. ceph-conf if os.environ.has_key('PATH') and lib_path not in os.environ['PATH']: os.environ['PATH'] += ':' + lib_path import argparse import errno import json import rados import shlex import signal import string import subprocess from ceph_argparse import \ concise_sig, descsort, parse_json_funcsigs, \ matchnum, validate_command, find_cmd_target, \ send_command, json_command from ceph_daemon import DaemonWatcher, admin_socket # just a couple of globals verbose = False cluster_handle = None # Always use Unicode (UTF-8) for stdout raw_stdout = sys.__stdout__ raw_stderr = sys.__stderr__ sys.stdout = codecs.getwriter('utf-8')(raw_stdout) sys.stderr = codecs.getwriter('utf-8')(raw_stderr) ############################################################################ def osdids(): ret, outbuf, outs = json_command(cluster_handle, prefix='osd ls') if ret == -errno.EINVAL: # try old mon ret, outbuf, outs = send_command(cluster_handle, cmd=['osd', 'ls']) if ret: raise RuntimeError('Can\'t contact mon for osd list') return [i for i in outbuf.split('\n') if i != ''] def monids(): ret, outbuf, outs = json_command(cluster_handle, prefix='mon dump', argdict={'format':'json'}) if ret == -errno.EINVAL: # try old mon ret, outbuf, outs = send_command(cluster_handle, cmd=['mon', 'dump', '--format=json']) if ret: raise RuntimeError('Can\'t contact mon for mon list') d = json.loads(outbuf) return [m['name'] for m in d['mons']] def mdsids(): ret, outbuf, outs = json_command(cluster_handle, prefix='mds dump', argdict={'format':'json'}) if ret == -errno.EINVAL: # try old mon ret, outbuf, outs = send_command(cluster_handle, cmd=['mds', 'dump', '--format=json']) if ret: raise RuntimeError('Can\'t contact mon for mds list') d = json.loads(outbuf) l = [] infodict = d['info'] for mdsdict in infodict.values(): l.append(mdsdict['name']) return l # these args must be passed to all child programs GLOBAL_ARGS = { 'client_id': '--id', 'client_name': '--name', 'cluster': '--cluster', 'cephconf': '--conf', } def parse_cmdargs(args=None, target=''): # alias: let the line-wrapping be sane AP = argparse.ArgumentParser # format our own help parser = AP(description='Ceph administration tool', add_help=False) parser.add_argument('--completion', action='store_true', help=argparse.SUPPRESS) parser.add_argument('-h', '--help', help='request mon help', action='store_true') parser.add_argument('-c', '--conf', dest='cephconf', help='ceph configuration file') parser.add_argument('-i', '--in-file', dest='input_file', help='input file') parser.add_argument('-o', '--out-file', dest='output_file', help='output file') parser.add_argument('--id', '--user', dest='client_id', help='client id for authentication') parser.add_argument('--name', '-n', dest='client_name', help='client name for authentication') parser.add_argument('--cluster', help='cluster name') parser.add_argument('--admin-daemon', dest='admin_socket', help='submit admin-socket commands (\"help\" for help') parser.add_argument('--admin-socket', dest='admin_socket_nope', help='you probably mean --admin-daemon') parser.add_argument('-s', '--status', action='store_true', help='show cluster status') parser.add_argument('-w', '--watch', action='store_true', help='watch live cluster changes') parser.add_argument('--watch-debug', action='store_true', help='watch debug events') parser.add_argument('--watch-info', action='store_true', help='watch info events') parser.add_argument('--watch-sec', action='store_true', help='watch security events') parser.add_argument('--watch-warn', action='store_true', help='watch warn events') parser.add_argument('--watch-error', action='store_true', help='watch error events') parser.add_argument('--version', '-v', action="store_true", help="display version") parser.add_argument('--verbose', action="store_true", help="make verbose") parser.add_argument('--concise', dest='verbose', action="store_false", help="make less verbose") parser.add_argument('-f', '--format', choices=['json', 'json-pretty', 'xml', 'xml-pretty', 'plain'], dest='output_format') parser.add_argument('--connect-timeout', dest='cluster_timeout', type=int, help='set a timeout for connecting to the cluster') # returns a Namespace with the parsed args, and a list of all extras parsed_args, extras = parser.parse_known_args(args) return parser, parsed_args, extras def hdr(s): print '\n', s, '\n', '=' * len(s) def do_basic_help(parser, args): """ Print basic parser help If the cluster is available, get and print monitor help """ hdr('General usage:') parser.print_help() def do_extended_help(parser, args): def help_for_sigs(sigs, partial=None): sys.stdout.write(format_help(parse_json_funcsigs(sigs, 'cli'), partial=partial)) def help_for_target(target, partial=None): ret, outbuf, outs = json_command(cluster_handle, target=target, prefix='get_command_descriptions', timeout=10) if ret: print >> sys.stderr, \ "couldn't get command descriptions for {0}: {1}".\ format(target, outs) else: help_for_sigs(outbuf, partial) partial = ' '.join(args) if (cluster_handle.state == "connected"): help_for_target(target=('mon', ''), partial=partial) return 0 DONTSPLIT = string.letters + '{[<>]}' def wrap(s, width, indent): """ generator to transform s into a sequence of strings width or shorter, for wrapping text to a specific column width. Attempt to break on anything but DONTSPLIT characters. indent is amount to indent 2nd-through-nth lines. so "long string long string long string" width=11 indent=1 becomes 'long string', ' long string', ' long string' so that it can be printed as long string long string long string Consumes s. """ result = '' leader = '' while len(s): if (len(s) <= width): # no splitting; just possibly indent result = leader + s s = '' yield result else: splitpos = width while (splitpos > 0) and (s[splitpos-1] in DONTSPLIT): splitpos -= 1 if splitpos == 0: splitpos = width if result: # prior result means we're mid-iteration, indent result = leader else: # first time, set leader and width for next leader = ' ' * indent width -= 1 # for subsequent space additions # remove any leading spaces in this chunk of s result += s[:splitpos].lstrip() s = s[splitpos:] yield result raise StopIteration def format_help(cmddict, partial=None): """ Formats all the cmdsigs and helptexts from cmddict into a sorted-by- cmdsig 2-column display, with each column wrapped and indented to fit into 40 characters. """ fullusage = '' for cmd in sorted(cmddict.itervalues(), cmp=descsort): if not cmd['help']: continue concise = concise_sig(cmd['sig']) if partial and not concise.startswith(partial): continue siglines = [l for l in wrap(concise, 40, 1)] helplines = [l for l in wrap(cmd['help'], 39, 1)] # make lists the same length maxlen = max(len(siglines), len(helplines)) siglines.extend([''] * (maxlen - len(siglines))) helplines.extend([''] * (maxlen - len(helplines))) # so we can zip them for output for (s, h) in zip(siglines, helplines): fullusage += '{0:40s} {1}\n'.format(s, h) return fullusage def ceph_conf(parsed_args, field, name): args=['ceph-conf'] if name: args.extend(['--name', name]) # add any args in GLOBAL_ARGS for key, val in GLOBAL_ARGS.iteritems(): # ignore name in favor of argument name, if any if name and key == 'client_name': continue if getattr(parsed_args, key): args.extend([val, getattr(parsed_args, key)]) args.extend(['--show-config-value', field]) p = subprocess.Popen( args, stdout=subprocess.PIPE, stderr=subprocess.PIPE) outdata, errdata = p.communicate() if (len(errdata)): raise RuntimeError('unable to get conf option %s for %s: %s' % (field, name, errdata)) return outdata.rstrip() PROMPT = 'ceph> ' if sys.stdin.isatty(): def read_input(): while True: line = raw_input(PROMPT).rstrip() if line in ['q', 'quit', 'Q', 'exit']: return None if line: return line else: def read_input(): while True: line = sys.stdin.readline() if not line: return None line = line.rstrip() if line: return line def new_style_command(parsed_args, cmdargs, target, sigdict, inbuf, verbose): """ Do new-style command dance. target: daemon to receive command: mon (any) or osd.N sigdict - the parsed output from the new monitor describing commands inbuf - any -i input file data verbose - bool """ if verbose: for cmdtag in sorted(sigdict.keys()): cmd = sigdict[cmdtag] sig = cmd['sig'] print '{0}: {1}'.format(cmdtag, concise_sig(sig)) if True: if cmdargs: # Validate input args against list of sigs valid_dict = validate_command(sigdict, cmdargs, verbose) if valid_dict: if parsed_args.output_format: valid_dict['format'] = parsed_args.output_format else: return -errno.EINVAL, '', 'invalid command' else: if sys.stdin.isatty(): # do the command-interpreter looping # for raw_input to do readline cmd editing import readline # noqa while True: interactive_input = read_input() if interactive_input is None: return 0, '', '' cmdargs = parse_cmdargs(shlex.split(interactive_input))[2] try: target = find_cmd_target(cmdargs) except Exception as e: print >> sys.stderr, \ 'error handling command target: {0}'.format(e) continue if len(cmdargs) and cmdargs[0] == 'tell': print >> sys.stderr, \ 'Can not use \'tell\' in interactive mode.' continue valid_dict = validate_command(sigdict, cmdargs, verbose) if valid_dict: if parsed_args.output_format: valid_dict['format'] = parsed_args.output_format if verbose: print >> sys.stderr, "Submitting command ", valid_dict ret, outbuf, outs = json_command(cluster_handle, target=target, argdict=valid_dict) if ret: ret = abs(ret) print >> sys.stderr, \ 'Error: {0} {1}'.format(ret, errno.errorcode.get(ret, 'Unknown')) if outbuf: print outbuf if outs: print >> sys.stderr, 'Status:\n', outs else: print >> sys.stderr, "Invalid command" if verbose: print >> sys.stderr, "Submitting command ", valid_dict return json_command(cluster_handle, target=target, argdict=valid_dict, inbuf=inbuf) def complete(sigdict, args, target): """ Command completion. Match as much of [args] as possible, and print every possible match separated by newlines. Return exitcode. """ # XXX this looks a lot like the front of validate_command(). Refactor? complete_verbose = 'COMPVERBOSE' in os.environ # Repulsive hack to handle tell: lop off 'tell' and target # and validate the rest of the command. 'target' is already # determined in our callers, so it's ok to remove it here. if len(args) and args[0] == 'tell': args = args[2:] # look for best match, accumulate possibles in bestcmds # (so we can maybe give a more-useful error message) best_match_cnt = 0 bestcmds = [] for cmdtag, cmd in sigdict.iteritems(): sig = cmd['sig'] matched = matchnum(args, sig, partial=True) if (matched > best_match_cnt): if complete_verbose: print >> sys.stderr, \ "better match: {0} > {1}: {2}:{3} ".format(matched, best_match_cnt, cmdtag, concise_sig(sig)) best_match_cnt = matched bestcmds = [{cmdtag:cmd}] elif matched == best_match_cnt: if complete_verbose: print >> sys.stderr, \ "equal match: {0} > {1}: {2}:{3} ".format(matched, best_match_cnt, cmdtag, concise_sig(sig)) bestcmds.append({cmdtag:cmd}) # look through all matching sigs comps = [] for cmddict in bestcmds: for cmd in cmddict.itervalues(): sig = cmd['sig'] # either: # we match everything fully, so we want the next desc, or # we match more partially, so we want the partial match fullindex = matchnum(args, sig, partial=False) - 1 partindex = matchnum(args, sig, partial=True) - 1 if complete_verbose: print >> sys.stderr, '{}: f {} p {} len {}'.format(sig, fullindex, partindex, len(sig)) if fullindex == partindex and fullindex + 1 < len(sig): d = sig[fullindex + 1] else: d = sig[partindex] comps.append(str(d)) if complete_verbose: print >> sys.stderr, '\n'.join(comps) print '\n'.join(comps) return 0 ### # ping a monitor ### def ping_monitor(cluster_handle, name, timeout): if 'mon.' not in name: print >> sys.stderr, '"ping" expects a monitor to ping; try "ping mon."' return 1 mon_id = name[len('mon.'):] if (mon_id == '*') : cluster_handle.connect(timeout=timeout) for m in monids() : s = cluster_handle.ping_monitor(m) print "mon.{0}".format(m) + '\n' + s else : s = cluster_handle.ping_monitor(mon_id) print s return 0 ### # main ### def main(): ceph_args = os.environ.get('CEPH_ARGS') if ceph_args: if "injectargs" in sys.argv: i = sys.argv.index("injectargs") sys.argv = sys.argv[:i] + ceph_args.split() + sys.argv[i:] else: sys.argv.extend(ceph_args.split()) parser, parsed_args, childargs = parse_cmdargs() if parsed_args.version: print 'ceph version {0} ({1})'.format(CEPH_GIT_NICE_VER, CEPH_GIT_VER) # noqa return 0 global verbose verbose = parsed_args.verbose if verbose: print >> sys.stderr, "parsed_args: {0}, childargs: {1}".format(parsed_args, childargs) if parsed_args.admin_socket_nope: print >> sys.stderr, '--admin-socket is used by daemons; '\ 'you probably mean --admin-daemon/daemon' return 1 # pass on --id, --name, --conf name = 'client.admin' if parsed_args.client_id: name = 'client.' + parsed_args.client_id if parsed_args.client_name: name = parsed_args.client_name # default '' means default conf search conffile = '' if parsed_args.cephconf: conffile = parsed_args.cephconf # For now, --admin-daemon is handled as usual. Try it # first in case we can't connect() to the cluster format = parsed_args.output_format daemon_perf = False sockpath = None if parsed_args.admin_socket: sockpath = parsed_args.admin_socket elif len(childargs) > 0 and childargs[0] in ["daemon", "daemonperf"]: daemon_perf = (childargs[0] == "daemonperf") # Treat "daemon " or "daemon " like --admin_daemon # Handle "daemonperf " the same but requires no trailing args require_args = 2 if daemon_perf else 3 if len(childargs) >= require_args: if childargs[1].find('/') >= 0: sockpath = childargs[1] else: # try resolve daemon name try: sockpath = ceph_conf(parsed_args, 'admin_socket', childargs[1]) except Exception as e: print >> sys.stderr, \ 'Can\'t get admin socket path: ' + str(e) return errno.EINVAL # for both: childargs = childargs[2:] else: print >> sys.stderr, '{0} requires at least {1} arguments'.format( childargs[0], require_args) return errno.EINVAL if sockpath and daemon_perf: interval = 1 count = None if len(childargs) > 0: try: interval = float(childargs[0]) if interval < 0: raise ValueError except ValueError: print >> sys.stderr, 'daemonperf: interval should be a positive number' return errno.EINVAL if len(childargs) > 1: if not childargs[1].isdigit(): print >> sys.stderr, 'daemonperf: count should be a positive integer' return errno.EINVAL count = int(childargs[1]) DaemonWatcher(sockpath).run(interval, count) return 0 elif sockpath: try: print admin_socket(sockpath, childargs, format) except Exception as e: print >> sys.stderr, 'admin_socket: {0}'.format(e) return errno.EINVAL return 0 timeout = None if parsed_args.cluster_timeout: timeout = parsed_args.cluster_timeout # basic help if parsed_args.help: do_basic_help(parser, childargs) # handle any 'generic' ceph arguments that we didn't parse here global cluster_handle # rados.Rados() will call rados_create2, and then read the conf file, # and then set the keys from the dict. So we must do these # "pre-file defaults" first (see common_preinit in librados) conf_defaults = { 'log_to_stderr':'true', 'err_to_stderr':'true', 'log_flush_on_exit':'true', } if 'injectargs' in childargs: position = childargs.index('injectargs') injectargs = childargs[position:] childargs = childargs[:position] if verbose: print >> sys.stderr, 'Separate childargs {0} from injectargs {1}'.\ format(childargs, injectargs) else: injectargs = None clustername = 'ceph' if parsed_args.cluster: clustername = parsed_args.cluster try: cluster_handle = rados.Rados(name=name, clustername=clustername, conf_defaults=conf_defaults, conffile=conffile) retargs = cluster_handle.conf_parse_argv(childargs) except rados.Error as e: print >> sys.stderr, 'Error initializing cluster client: {0}'.\ format(repr(e)) return 1 childargs = retargs if not childargs: childargs = [] # -- means "stop parsing args", but we don't want to see it either if '--' in childargs: childargs.remove('--') if injectargs and '--' in injectargs: injectargs.remove('--') # special deprecation warning for 'ceph tell' # someday 'mds' will be here too if len(childargs) >= 2 and \ childargs[0] in ['mon', 'osd'] and \ childargs[1] == 'tell': print >> sys.stderr, '"{0} tell" is deprecated; try "tell {0}. [options...]" instead (id can be "*") '.format(childargs[0]) return 1 if childargs in [['mon'], ['osd']]: parsed_args.help = True if parsed_args.help: # short default timeout for -h if not timeout: timeout = 5 hdr('Monitor commands:') print '[Contacting monitor, timeout after %d seconds]' % timeout if childargs and childargs[0] == 'ping': if len(childargs) < 2: print >> sys.stderr, '"ping" requires a monitor name as argument: "ping mon."' return 1 try: if childargs and childargs[0] == 'ping': return ping_monitor(cluster_handle, childargs[1], timeout) cluster_handle.connect(timeout=timeout) except KeyboardInterrupt: print >> sys.stderr, 'Cluster connection aborted' return 1 except rados.PermissionDeniedError as e: print >> sys.stderr, 'Error connecting to cluster: {0}'.\ format(e.__class__.__name__) return errno.EACCES except Exception as e: print >> sys.stderr, 'Error connecting to cluster: {0}'.\ format(e.__class__.__name__) return 1 if parsed_args.help: return do_extended_help(parser, childargs) # implement -w/--watch_* # This is ugly, but Namespace() isn't quite rich enough. level = '' for k, v in parsed_args._get_kwargs(): if k.startswith('watch') and v: if k == 'watch': level = 'info' else: level = k.replace('watch_', '') if level: # an awfully simple callback def watch_cb(arg, line, who, stamp_sec, stamp_nsec, seq, level, msg): print line sys.stdout.flush() # first do a ceph status ret, outbuf, outs = json_command(cluster_handle, prefix='status') if ret == -errno.EINVAL: # try old mon ret, outbuf, outs = send_command(cluster_handle, cmd=['status']) # old mon returns status to outs...ick if ret == 0: outbuf += outs if ret: print >> sys.stderr, "status query failed: ", outs return ret print outbuf # this instance keeps the watch connection alive, but is # otherwise unused rados.MonitorLog(cluster_handle, level, watch_cb, 0) # loop forever letting watch_cb print lines try: signal.pause() except KeyboardInterrupt: # or until ^C, at least return 0 # read input file, if any inbuf = '' if parsed_args.input_file: try: with open(parsed_args.input_file, 'r') as f: inbuf = f.read() except Exception as e: print >> sys.stderr, 'Can\'t open input file {0}: {1}'.format(parsed_args.input_file, e) return 1 # prepare output file, if any if parsed_args.output_file: try: outf = open(parsed_args.output_file, 'w') except Exception as e: print >> sys.stderr, \ 'Can\'t open output file {0}: {1}'.\ format(parsed_args.output_file, e) return 1 # -s behaves like a command (ceph status). if parsed_args.status: childargs.insert(0, 'status') try: target = find_cmd_target(childargs) except Exception as e: print >> sys.stderr, \ 'error handling command target: {0}'.format(e) return 1 # Repulsive hack to handle tell: lop off 'tell' and target # and validate the rest of the command. 'target' is already # determined in our callers, so it's ok to remove it here. is_tell = False if len(childargs) and childargs[0] == 'tell': childargs = childargs[2:] is_tell = True if is_tell: if injectargs: childargs = injectargs if not len(childargs): print >> sys.stderr, \ 'Cannot use \'tell\' with interactive mode.', \ 'For an interactive shell,', \ 'please start "{0}" without non-option arguments.'.format(sys.argv[0]) return errno.EINVAL # fetch JSON sigs from command # each line contains one command signature (a placeholder name # of the form 'cmdNNN' followed by an array of argument descriptors) # as part of the validated argument JSON object targets = [target] if target[1] == '*': if target[0] == 'osd': targets = [(target[0], o) for o in osdids()] elif target[0] == 'mon': targets = [(target[0], m) for m in monids()] final_ret = 0 for target in targets: # prettify? prefix output with target, if there was a wildcard used prefix = '' suffix = '' if not parsed_args.output_file and len(targets) > 1: prefix = '{0}.{1}: '.format(*target) suffix = '\n' ret, outbuf, outs = json_command(cluster_handle, target=target, prefix='get_command_descriptions') compat = False if ret == -errno.EINVAL: # send command to old monitor or OSD if verbose: print prefix + '{0} to old {1}'.format(' '.join(childargs), target[0]) compat = True if parsed_args.output_format: childargs.extend(['--format', parsed_args.output_format]) ret, outbuf, outs = send_command(cluster_handle, target, childargs, inbuf) if ret == -errno.EINVAL: # did we race with a mon upgrade? try again! ret, outbuf, outs = json_command(cluster_handle, target=target, prefix='get_command_descriptions') if ret == 0: compat = False # yep, carry on if not compat: if ret: if ret < 0: outs = 'problem getting command descriptions from {0}.{1}'.format(*target) else: sigdict = parse_json_funcsigs(outbuf, 'cli') if parsed_args.completion: return complete(sigdict, childargs, target) ret, outbuf, outs = new_style_command(parsed_args, childargs, target, sigdict, inbuf, verbose) # debug tool: send any successful command *again* to # verify that it is idempotent. if not ret and 'CEPH_CLI_TEST_DUP_COMMAND' in os.environ: ret, outbuf, outs = new_style_command(parsed_args, childargs, target, sigdict, inbuf, verbose) if ret < 0: ret = -ret print >> sys.stderr, prefix + 'Second attempt of previously successful command failed with {0}: {1}'.format(errno.errorcode.get(ret, 'Unknown'), outs) if ret < 0: ret = -ret print >> sys.stderr, prefix + 'Error {0}: {1}'.format(errno.errorcode.get(ret, 'Unknown'), outs) if len(targets) > 1: final_ret = ret else: return ret # this assumes outs never has useful command output, only status if compat: if ret == 0: # old cli/mon would send status string to stdout on non-error print outs else: if outs: print >> sys.stderr, prefix + outs sys.stdout.flush() if (parsed_args.output_file): outf.write(outbuf) else: # hack: old code printed status line before many json outputs # (osd dump, etc.) that consumers know to ignore. Add blank line # to satisfy consumers that skip the first line, but not annoy # consumers that don't. if parsed_args.output_format and \ parsed_args.output_format.startswith('json') and \ not compat: raw_stdout.write('\n') # if we are prettifying things, normalize newlines. sigh. if suffix != '': outbuf = outbuf.rstrip() if outbuf != '': # Write directly to binary stdout raw_stdout.write(prefix) raw_stdout.write(outbuf) raw_stdout.write(suffix) sys.stdout.flush() if (parsed_args.output_file): outf.close() if final_ret: return final_ret return 0 if __name__ == '__main__': retval = main() # shutdown explicitly; Rados() does not if cluster_handle: cluster_handle.shutdown() sys.exit(retval)