Beispiel #1
0
    except Exception as e:
        log.error("Recovering failed: %s, traceback: %s", repr(e),
                  traceback.format_exc())
        ctx.pool.terminate()
        ctx.pool.join()
        result = False

    rc = int(not result)
    log.info("Finished with rc: {0}".format(rc))
    ctx.stats.counter('result', rc)

    if options.no_exit:
        raw_input("Press Enter to exit!")

    monitor.shutdown()
    monitor.update()
    monitor.print_stat()
    os.chdir(init_dir)
    return rc


def run(args=None):
    from optparse import OptionParser

    parser = OptionParser()
    parser.usage = "%prog [options] TYPE"
    parser.description = __doc__
    parser.add_option(
        "-b",
        "--batch-size",
        action="store",
Beispiel #2
0
def main(options, args):
    if len(args) > 1:
        raise ValueError("Too many arguments passed: {0}, expected: 1".format(len(args)))
    elif len(args) == 0:
        raise ValueError("Please specify one of following types: {0}".format(ALLOWED_TYPES))

    if args[0].lower() not in ALLOWED_TYPES:
        raise ValueError("Unknown type: '{0}', allowed: {1}".format(args[0], ALLOWED_TYPES))
    recovery_type = args[0].lower()

    log.info("Initializing context")
    ctx = Ctx()
    ctx.dry_run = options.dry_run
    ctx.safe = options.safe
    ctx.one_node = bool(options.one_node)
    ctx.custom_recover = options.custom_recover
    ctx.no_meta = options.no_meta and (options.timestamp is None)
    ctx.no_server_send = options.no_server_send
    ctx.user_flags_set = frozenset(int(user_flags) for user_flags in options.user_flags_set)

    try:
        ctx.trace_id = int(options.trace_id, 16)
    except Exception as e:
        raise ValueError("Can't parse -T/--trace-id: '{0}': {1}, traceback: {2}"
                         .format(options.trace_id, repr(e), traceback.format_exc()))

    if ctx.custom_recover:
        ctx.custom_recover = os.path.abspath(ctx.custom_recover)

    if options.dump_file:
        ctx.dump_file = os.path.abspath(options.dump_file)
        if not os.path.exists(ctx.dump_file):
            raise ValueError('Dump file:`{}` does not exists'.format(options.dump_file))
    else:
        ctx.dump_file = None

    try:
        ctx.data_flow_rate = int(options.data_flow_rate) * 1024 * 1024
    except Exception as e:
        raise ValueError("Can't parse data_flow_rate: '{0}': {1}"
                         .format(options.data_flow_rate), repr(e))

    try:
        ctx.chunk_size = int(options.chunk_size)
    except Exception as e:
        raise ValueError("Can't parse chunk_size: '{0}': {1}, traceback: {2}"
                         .format(options.chunk_size, repr(e), traceback.format_exc()))

    ctx.tmp_dir = options.tmp_dir.replace('%TYPE%', recovery_type)
    if not os.path.exists(ctx.tmp_dir):
        try:
            os.makedirs(ctx.tmp_dir, 0755)
            log.warning("Created tmp directory: {0}".format(ctx.tmp_dir))
        except Exception as e:
            raise ValueError("Directory: {0} does not exist and could not be created: {1}, traceback: {2}"
                             .format(ctx.tmp_dir, repr(e), traceback.format_exc()))
    init_dir = os.getcwd()
    os.chdir(ctx.tmp_dir)
    log.info("Using tmp directory: {0}".format(ctx.tmp_dir))

    try:
        ctx.log_file = os.path.join(ctx.tmp_dir, options.elliptics_log)
        try:
            ctx.log_level = int(options.elliptics_log_level)
        except:
            ctx.log_level = options.elliptics_log_level

        if isinstance(ctx.log_level, int):
            ctx.log_level = elliptics.log_level.values[ctx.log_level]
        else:
            ctx.log_level = elliptics.log_level.names[ctx.log_level]

        ctx.dump_keys = options.dump_keys

        # FIXME: It may be inappropriate to use one log for both
        # elliptics library and python app, esp. in presence of auto-rotation
        fh = logging.handlers.WatchedFileHandler(ctx.log_file)
        fh.setFormatter(formatter)
        fh.setLevel(convert_elliptics_log_level(ctx.log_level))
        log.addHandler(fh)
        log.setLevel(convert_elliptics_log_level(ctx.log_level))

        if options.debug:
            ch.setLevel(logging.DEBUG)
            log.setLevel(logging.DEBUG)
    except Exception as e:
        raise ValueError("Can't parse log_level: '{0}': {1}, traceback: {2}"
                         .format(options.elliptics_log_level, repr(e), traceback.format_exc()))
    log.info("Using elliptics client log level: {0}".format(ctx.log_level))

    try:
        if options.lock:
            import fcntl
            ctx.lockfd = os.open(os.path.join(ctx.tmp_dir, options.lock), os.O_TRUNC | os.O_CREAT | os.O_RDWR)
            fcntl.flock(ctx.lockfd, fcntl.LOCK_EX | fcntl.LOCK_NB)
            log.info("Using lock file: {0}".format(options.lock))
        else:
            log.info("Not using lock file")
    except Exception as e:
        raise RuntimeError("Can't grab lock on: '{0}': {1}, traceback: {2}"
                           .format(options.lock, repr(e), traceback.format_exc()))

    if not options.remotes and not ctx.one_node:
        raise ValueError("At least one Elliptics node address should be given (-r option or -o).")

    ctx.remotes = []
    for remote in options.remotes:
        try:
            ctx.remotes.append(elliptics.Address.from_host_port_family(remote))
        except Exception as e:
            raise ValueError("Can't parse host:port:family: '{0}': {1}, traceback: {2}"
                             .format(remote, repr(e), traceback.format_exc()))

    ctx.backend_id = None
    # if one_node mode is on then use his address as a main otherwise use first from remotes
    if ctx.one_node:
        try:
            ctx.address = elliptics.Address.from_host_port_family(options.one_node)
        except Exception as e:
            raise ValueError("Can't parse host:port:family: '{0}': {1}, traceback: {2}"
                             .format(remote, repr(e), traceback.format_exc()))
        try:
            if options.backend_id is not None:
                ctx.backend_id = int(options.backend_id)
        except Exception as e:
            raise ValueError("Can't parse backend_id: '{0}': {1}, traceback: {2}"
                             .format(options.backend_id, repr(e), traceback.format_exc()))
    elif ctx.remotes:
        ctx.address = ctx.remotes[0]
    log.info("Using host:port:family: {0}".format(ctx.address))

    try:
        if options.elliptics_groups:
            ctx.groups = map(int, options.elliptics_groups.split(','))
        else:
            ctx.groups = None
    except Exception as e:
        raise ValueError("Can't parse grouplist: '{0}': {1}, traceback: {2}"
                         .format(options.elliptics_groups, repr(e), traceback.format_exc()))
    if not ctx.groups:
        raise ValueError("No group was specified")
    log.info("Using group list: {0}".format(ctx.groups))

    try:
        if options.timestamp is None:
            options.timestamp = 0
        ctx.timestamp = Time.from_epoch(options.timestamp)
    except Exception:
        try:
            ctx.timestamp = Time.from_string(options.timestamp)
        except Exception as e:
            raise ValueError("Can't parse timestamp: '{0}': {1}, traceback: {2}"
                             .format(options.timestamp, repr(e), traceback.format_exc()))
    log.info("Using timestamp: {0}".format(ctx.timestamp))

    try:
        ctx.batch_size = int(options.batch_size)
        if ctx.batch_size <= 0:
            raise ValueError("Batch size should be positive: {0}".format(ctx.batch_size))
    except Exception as e:
        raise ValueError("Can't parse batchsize: '{0}': {1}, traceback: {2}"
                         .format(options.batch_size, repr(e), traceback.format_exc()))
    log.info("Using batch_size: {0}".format(ctx.batch_size))

    try:
        ctx.nprocess = int(options.nprocess)
        if ctx.nprocess <= 0:
            raise ValueError("Number of processes should be positive: {0}".format(ctx.nprocess))
    except Exception as e:
        raise ValueError("Can't parse nprocess: '{0}': {1}, traceback: {2}"
                         .format(options.nprocess, repr(e), traceback.format_exc()))

    try:
        ctx.attempts = int(options.attempts)
        if ctx.attempts <= 0:
            raise ValueError("Number of attempts should be positive: {0}".format(ctx.attempts))
    except Exception as e:
        raise ValueError("Can't parse attempts: '{0}': {1}, traceback: {2}"
                         .format(options.attempts, repr(e), traceback.format_exc()))

    ctx.stat_format = options.stat
    if ctx.stat_format not in ALLOWED_STAT_FORMATS:
        raise ValueError("Unknown statistics output format: '{0}'. Available formats are: {1}"
                         .format(ctx.stat_format, ALLOWED_STAT_FORMATS))

    try:
        ctx.monitor_port = int(options.monitor_port)
        if ctx.monitor_port:
            try:
                from socket import getfqdn

                base_url = 'http://{0}:{1}'.format(getfqdn(), ctx.monitor_port)
                log.warning("Stats can be monitored via: {0}/{1}".format(base_url, "stats.txt"))
                log.warning("Log can be viewed via: {0}/{1}".format(base_url, options.elliptics_log))
            except Exception:
                pass
    except Exception as e:
        raise ValueError("Can't parse monitor_port: '{0}': {1}, traceback: {2}"
                         .format(options.monitor_port, repr(e), traceback.format_exc()))

    try:
        ctx.wait_timeout = int(options.wait_timeout)
    except Exception as e:
        raise ValueError("Can't parse wait_timeout: '{0}': {1}, traceback: {2}"
                         .format(options.wait_timeout, repr(e), traceback.format_exc()))

    try:
        ctx.prepare_timeout = Time.from_epoch(options.prepare_timeout)
    except Exception as e:
        try:
            ctx.prepare_timeout = Time.from_string(options.prepare_timeout).time
        except Exception as e:
            raise ValueError("Can't parse prepare_timeout: '{0}': {1}, traceback: {2}"
                             .format(options.wait_timeout, repr(e), traceback.format_exc()))
    log.info("Using timeout: {0} for uncommitted records".format(ctx.prepare_timeout))

    try:
        log.info("Starting cleanup...")
        cleanup(ctx.tmp_dir)
    except Exception as e:
        log.error("Cleanup failed: {0}, traceback: {1}"
                  .format(repr(e), traceback.format_exc()))

    ctx.corrupted_keys = open(os.path.join(ctx.tmp_dir, 'corrupted_keys'), 'w')

    log.info("Initializing monitor")
    monitor = Monitor(ctx, ctx.monitor_port)
    ctx.stats = monitor.stats

    log.debug("Using following context:\n{0}".format(ctx))

    ctx.routes = get_routes(ctx)
    log.debug("Parsed routing table:\n{0}".format(ctx.routes))
    if not ctx.routes:
        raise RuntimeError("No routes was parsed from session")
    log.debug("Total routes: {0}".format(len(ctx.routes)))

    if set(ctx.groups) != set(ctx.routes.groups()):
        raise RuntimeError("Not all specified groups({}) are presented in route-list({})"
                           .format(ctx.groups, ctx.routes.groups()))

    try:
        log.info("Creating pool of processes: %d", ctx.nprocess)
        ctx.pool = Pool(processes=ctx.nprocess, initializer=worker_init)
        if recovery_type == TYPE_MERGE:
            if ctx.dump_file:
                from elliptics_recovery.types.merge import dump_main
                result = dump_main(ctx)
            else:
                from elliptics_recovery.types.merge import main
                result = main(ctx)
        elif recovery_type == TYPE_DC:
            if ctx.dump_file:
                from elliptics_recovery.types.dc import dump_main
                result = dump_main(ctx)
            else:
                from elliptics_recovery.types.dc import main
                result = main(ctx)
        ctx.pool.close()
        ctx.pool.terminate()
        ctx.pool.join()
    except Exception as e:
        log.error("Recovering failed: %s, traceback: %s", repr(e), traceback.format_exc())
        ctx.pool.terminate()
        ctx.pool.join()
        result = False

    rc = int(not result)
    log.info("Finished with rc: {0}".format(rc))
    ctx.stats.counter('result', rc)

    if options.no_exit:
        raw_input("Press Enter to exit!")

    monitor.shutdown()
    monitor.update()
    monitor.print_stat()
    ctx.corrupted_keys.close()
    os.chdir(init_dir)
    return rc
Beispiel #3
0
        ctx.pool.join()
    except Exception as e:
        log.error("Recovering failed: %s, traceback: %s", repr(e), traceback.format_exc())
        ctx.pool.terminate()
        ctx.pool.join()
        result = False

    rc = int(not result)
    log.info("Finished with rc: {0}".format(rc))
    ctx.stats.counter('result', rc)

    if options.no_exit:
        raw_input("Press Enter to exit!")

    monitor.shutdown()
    monitor.update()
    monitor.print_stat()
    os.chdir(init_dir)
    return rc


def run(args=None):
    from optparse import OptionParser

    parser = OptionParser()
    parser.usage = "%prog [options] TYPE"
    parser.description = __doc__
    parser.add_option("-b", "--batch-size", action="store", dest="batch_size", default="1024",
                      help="Number of keys in read_bulk/write_bulk batch [default: %default]")
    parser.add_option("-d", "--debug", action="store_true", dest="debug", default=False,
                      help="Enable debug output [default: %default]")
Beispiel #4
0
def main(options, args):
    if len(args) > 1:
        raise ValueError("Too many arguments passed: {0}, expected: 1".format(len(args)))
    elif len(args) == 0:
        raise ValueError("Please specify one of following types: {0}".format(ALLOWED_TYPES))

    if args[0].lower() not in ALLOWED_TYPES:
        raise ValueError("Unknown type: '{0}', allowed: {1}".format(args[0], ALLOWED_TYPES))
    recovery_type = args[0].lower()

    log.info("Initializing context")
    ctx = Ctx()
    ctx.dry_run = options.dry_run
    ctx.safe = options.safe
    ctx.one_node = bool(options.one_node)
    ctx.custom_recover = options.custom_recover
    ctx.no_meta = options.no_meta and (options.timestamp is None)
    ctx.no_server_send = options.no_server_send
    ctx.user_flags_set = frozenset(int(user_flags) for user_flags in options.user_flags_set)

    try:
        ctx.trace_id = int(options.trace_id, 16)
    except Exception as e:
        raise ValueError("Can't parse -T/--trace-id: '{0}': {1}, traceback: {2}"
                         .format(options.trace_id, repr(e), traceback.format_exc()))

    if ctx.custom_recover:
        ctx.custom_recover = os.path.abspath(ctx.custom_recover)

    if options.dump_file:
        ctx.dump_file = os.path.abspath(options.dump_file)
        if not os.path.exists(ctx.dump_file):
            raise ValueError('Dump file:`{}` does not exists'.format(options.dump_file))
    else:
        ctx.dump_file = None

    try:
        ctx.data_flow_rate = int(options.data_flow_rate) * 1024 * 1024
    except Exception as e:
        raise ValueError("Can't parse data_flow_rate: '{0}': {1}"
                         .format(options.data_flow_rate), repr(e))

    try:
        ctx.chunk_size = int(options.chunk_size)
    except Exception as e:
        raise ValueError("Can't parse chunk_size: '{0}': {1}, traceback: {2}"
                         .format(options.chunk_size, repr(e), traceback.format_exc()))

    ctx.tmp_dir = options.tmp_dir.replace('%TYPE%', recovery_type)
    if not os.path.exists(ctx.tmp_dir):
        try:
            os.makedirs(ctx.tmp_dir, 0755)
            log.warning("Created tmp directory: {0}".format(ctx.tmp_dir))
        except Exception as e:
            raise ValueError("Directory: {0} does not exist and could not be created: {1}, traceback: {2}"
                             .format(ctx.tmp_dir, repr(e), traceback.format_exc()))
    init_dir = os.getcwd()
    os.chdir(ctx.tmp_dir)
    log.info("Using tmp directory: {0}".format(ctx.tmp_dir))

    try:
        ctx.log_file = os.path.join(ctx.tmp_dir, options.elliptics_log)
        try:
            ctx.log_level = int(options.elliptics_log_level)
        except:
            ctx.log_level = options.elliptics_log_level

        if isinstance(ctx.log_level, int):
            ctx.log_level = elliptics.log_level.values[ctx.log_level]
        else:
            ctx.log_level = elliptics.log_level.names[ctx.log_level]

        ctx.dump_keys = options.dump_keys

        # FIXME: It may be inappropriate to use one log for both
        # elliptics library and python app, esp. in presence of auto-rotation
        fh = logging.FileHandler(ctx.log_file)
        fh.setFormatter(formatter)
        fh.setLevel(convert_elliptics_log_level(ctx.log_level))
        log.addHandler(fh)
        log.setLevel(convert_elliptics_log_level(ctx.log_level))

        if options.debug:
            ch.setLevel(logging.DEBUG)
            log.setLevel(logging.DEBUG)
    except Exception as e:
        raise ValueError("Can't parse log_level: '{0}': {1}, traceback: {2}"
                         .format(options.elliptics_log_level, repr(e), traceback.format_exc()))
    log.info("Using elliptics client log level: {0}".format(ctx.log_level))

    try:
        if options.lock:
            import fcntl
            ctx.lockfd = os.open(os.path.join(ctx.tmp_dir, options.lock), os.O_TRUNC | os.O_CREAT | os.O_RDWR)
            fcntl.flock(ctx.lockfd, fcntl.LOCK_EX | fcntl.LOCK_NB)
            log.info("Using lock file: {0}".format(options.lock))
        else:
            log.info("Not using lock file")
    except Exception as e:
        raise RuntimeError("Can't grab lock on: '{0}': {1}, traceback: {2}"
                           .format(options.lock, repr(e), traceback.format_exc()))

    if not options.remotes and not ctx.one_node:
        raise ValueError("At least one Elliptics node address should be given (-r option or -o).")

    ctx.remotes = []
    for remote in options.remotes:
        try:
            ctx.remotes.append(elliptics.Address.from_host_port_family(remote))
        except Exception as e:
            raise ValueError("Can't parse host:port:family: '{0}': {1}, traceback: {2}"
                             .format(remote, repr(e), traceback.format_exc()))

    ctx.backend_id = None
    # if one_node mode is on then use his address as a main otherwise use first from remotes
    if ctx.one_node:
        try:
            ctx.address = elliptics.Address.from_host_port_family(options.one_node)
        except Exception as e:
            raise ValueError("Can't parse host:port:family: '{0}': {1}, traceback: {2}"
                             .format(remote, repr(e), traceback.format_exc()))
        try:
            if options.backend_id is not None:
                ctx.backend_id = int(options.backend_id)
        except Exception as e:
            raise ValueError("Can't parse backend_id: '{0}': {1}, traceback: {2}"
                             .format(options.backend_id, repr(e), traceback.format_exc()))
    elif ctx.remotes:
        ctx.address = ctx.remotes[0]
    log.info("Using host:port:family: {0}".format(ctx.address))

    try:
        if options.elliptics_groups:
            ctx.groups = map(int, options.elliptics_groups.split(','))
        else:
            ctx.groups = None
    except Exception as e:
        raise ValueError("Can't parse grouplist: '{0}': {1}, traceback: {2}"
                         .format(options.elliptics_groups, repr(e), traceback.format_exc()))
    if not ctx.groups:
        raise ValueError("No group was specified")
    log.info("Using group list: {0}".format(ctx.groups))

    try:
        if options.timestamp is None:
            options.timestamp = 0
        ctx.timestamp = Time.from_epoch(options.timestamp)
    except Exception:
        try:
            ctx.timestamp = Time.from_string(options.timestamp)
        except Exception as e:
            raise ValueError("Can't parse timestamp: '{0}': {1}, traceback: {2}"
                             .format(options.timestamp, repr(e), traceback.format_exc()))
    log.info("Using timestamp: {0}".format(ctx.timestamp))

    try:
        ctx.batch_size = int(options.batch_size)
        if ctx.batch_size <= 0:
            raise ValueError("Batch size should be positive: {0}".format(ctx.batch_size))
    except Exception as e:
        raise ValueError("Can't parse batchsize: '{0}': {1}, traceback: {2}"
                         .format(options.batch_size, repr(e), traceback.format_exc()))
    log.info("Using batch_size: {0}".format(ctx.batch_size))

    try:
        ctx.nprocess = int(options.nprocess)
        if ctx.nprocess <= 0:
            raise ValueError("Number of processes should be positive: {0}".format(ctx.nprocess))
    except Exception as e:
        raise ValueError("Can't parse nprocess: '{0}': {1}, traceback: {2}"
                         .format(options.nprocess, repr(e), traceback.format_exc()))

    try:
        ctx.attempts = int(options.attempts)
        if ctx.attempts <= 0:
            raise ValueError("Number of attempts should be positive: {0}".format(ctx.attempts))
    except Exception as e:
        raise ValueError("Can't parse attempts: '{0}': {1}, traceback: {2}"
                         .format(options.attempts, repr(e), traceback.format_exc()))

    ctx.stat_format = options.stat
    if ctx.stat_format not in ALLOWED_STAT_FORMATS:
        raise ValueError("Unknown statistics output format: '{0}'. Available formats are: {1}"
                         .format(ctx.stat_format, ALLOWED_STAT_FORMATS))

    try:
        ctx.monitor_port = int(options.monitor_port)
        if ctx.monitor_port:
            try:
                from socket import getfqdn

                base_url = 'http://{0}:{1}'.format(getfqdn(), ctx.monitor_port)
                log.warning("Stats can be monitored via: {0}/{1}".format(base_url, "stats.txt"))
                log.warning("Log can be viewed via: {0}/{1}".format(base_url, options.elliptics_log))
            except Exception:
                pass
    except Exception as e:
        raise ValueError("Can't parse monitor_port: '{0}': {1}, traceback: {2}"
                         .format(options.monitor_port, repr(e), traceback.format_exc()))

    try:
        ctx.wait_timeout = int(options.wait_timeout)
    except Exception as e:
        raise ValueError("Can't parse wait_timeout: '{0}': {1}, traceback: {2}"
                         .format(options.wait_timeout, repr(e), traceback.format_exc()))

    try:
        ctx.prepare_timeout = Time.from_epoch(options.prepare_timeout)
    except Exception as e:
        try:
            ctx.prepare_timeout = Time.from_string(options.prepare_timeout).time
        except Exception as e:
            raise ValueError("Can't parse prepare_timeout: '{0}': {1}, traceback: {2}"
                             .format(options.wait_timeout, repr(e), traceback.format_exc()))
    log.info("Using timeout: {0} for uncommitted records".format(ctx.prepare_timeout))

    try:
        log.info("Starting cleanup...")
        cleanup(ctx.tmp_dir)
    except Exception as e:
        log.error("Cleanup failed: {0}, traceback: {1}"
                  .format(repr(e), traceback.format_exc()))

    ctx.corrupted_keys = open(os.path.join(ctx.tmp_dir, 'corrupted_keys'), 'w')

    log.info("Initializing monitor")
    monitor = Monitor(ctx, ctx.monitor_port)
    ctx.stats = monitor.stats

    log.debug("Using following context:\n{0}".format(ctx))

    ctx.routes = get_routes(ctx)
    log.debug("Parsed routing table:\n{0}".format(ctx.routes))
    if not ctx.routes:
        raise RuntimeError("No routes was parsed from session")
    log.debug("Total routes: {0}".format(len(ctx.routes)))

    if len(ctx.groups) == 0:
        ctx.groups = ctx.routes.groups()
        log.info("No groups specified: using all available groups: {0}".format(ctx.groups))

    try:
        log.info("Creating pool of processes: %d", ctx.nprocess)
        ctx.pool = Pool(processes=ctx.nprocess, initializer=worker_init)
        if recovery_type == TYPE_MERGE:
            if ctx.dump_file:
                from elliptics_recovery.types.merge import dump_main
                result = dump_main(ctx)
            else:
                from elliptics_recovery.types.merge import main
                result = main(ctx)
        elif recovery_type == TYPE_DC:
            if ctx.dump_file:
                from elliptics_recovery.types.dc import dump_main
                result = dump_main(ctx)
            else:
                from elliptics_recovery.types.dc import main
                result = main(ctx)
        ctx.pool.close()
        ctx.pool.terminate()
        ctx.pool.join()
    except Exception as e:
        log.error("Recovering failed: %s, traceback: %s", repr(e), traceback.format_exc())
        ctx.pool.terminate()
        ctx.pool.join()
        result = False

    rc = int(not result)
    log.info("Finished with rc: {0}".format(rc))
    ctx.stats.counter('result', rc)

    if options.no_exit:
        raw_input("Press Enter to exit!")

    monitor.shutdown()
    monitor.update()
    monitor.print_stat()
    ctx.corrupted_keys.close()
    os.chdir(init_dir)
    return rc