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#!/usr/bin/env python3 # Copyright (C) 2012 Canonical Ltd. # Copyright (C) 2012 Hewlett-Packard Development Company, L.P. # Copyright (C) 2012 Yahoo! Inc. # Copyright (C) 2017 Amazon.com, Inc. or its affiliates # # Author: Scott Moser <scott.moser@canonical.com> # Author: Juerg Haefliger <juerg.haefliger@hp.com> # Author: Joshua Harlow <harlowja@yahoo-inc.com> # Author: Andrew Jorgensen <ajorgens@amazon.com> # # This file is part of cloud-init. See LICENSE file for license information. # Skip isort on this file because of the patch that comes between imports # isort: skip_file import argparse import json import os import sys import time import traceback from typing import Tuple from cloudinit import patcher from cloudinit.config.modules import Modules patcher.patch_logging() from cloudinit.config.schema import validate_cloudconfig_schema from cloudinit import log as logging from cloudinit import netinfo from cloudinit import signal_handler from cloudinit import sources from cloudinit import stages from cloudinit import url_helper from cloudinit import util from cloudinit import version from cloudinit import warnings from cloudinit import reporting from cloudinit.reporting import events from cloudinit.settings import PER_INSTANCE, PER_ALWAYS, PER_ONCE, CLOUD_CONFIG from cloudinit import atomic_helper from cloudinit.config import cc_set_hostname from cloudinit import dhclient_hook from cloudinit.cmd.devel import read_cfg_paths # Welcome message template WELCOME_MSG_TPL = ( "Cloud-init v. {version} running '{action}' at " "{timestamp}. Up {uptime} seconds." ) # Module section template MOD_SECTION_TPL = "cloud_%s_modules" # Frequency shortname to full name # (so users don't have to remember the full name...) FREQ_SHORT_NAMES = { "instance": PER_INSTANCE, "always": PER_ALWAYS, "once": PER_ONCE, } LOG = logging.getLogger() # Used for when a logger may not be active # and we still want to print exceptions... def print_exc(msg=""): if msg: sys.stderr.write("%s\n" % (msg)) sys.stderr.write("-" * 60) sys.stderr.write("\n") traceback.print_exc(file=sys.stderr) sys.stderr.write("-" * 60) sys.stderr.write("\n") def welcome(action, msg=None): if not msg: msg = welcome_format(action) util.multi_log("%s\n" % (msg), console=False, stderr=True, log=LOG) return msg def welcome_format(action): return WELCOME_MSG_TPL.format( version=version.version_string(), uptime=util.uptime(), timestamp=util.time_rfc2822(), action=action, ) def extract_fns(args): # Files are already opened so lets just pass that along # since it would of broke if it couldn't have # read that file already... fn_cfgs = [] if args.files: for fh in args.files: # The realpath is more useful in logging # so lets resolve to that... fn_cfgs.append(os.path.realpath(fh.name)) return fn_cfgs def run_module_section(mods: Modules, action_name, section): full_section_name = MOD_SECTION_TPL % (section) (which_ran, failures) = mods.run_section(full_section_name) total_attempted = len(which_ran) + len(failures) if total_attempted == 0: msg = "No '%s' modules to run under section '%s'" % ( action_name, full_section_name, ) sys.stderr.write("%s\n" % (msg)) LOG.debug(msg) return [] else: LOG.debug( "Ran %s modules with %s failures", len(which_ran), len(failures) ) return failures def apply_reporting_cfg(cfg): if cfg.get("reporting"): reporting.update_configuration(cfg.get("reporting")) def parse_cmdline_url(cmdline, names=("cloud-config-url", "url")): data = util.keyval_str_to_dict(cmdline) for key in names: if key in data: return key, data[key] raise KeyError("No keys (%s) found in string '%s'" % (cmdline, names)) def attempt_cmdline_url(path, network=True, cmdline=None) -> Tuple[int, str]: """Write data from url referenced in command line to path. path: a file to write content to if downloaded. network: should network access be assumed. cmdline: the cmdline to parse for cloud-config-url. This is used in MAAS datasource, in "ephemeral" (read-only root) environment where the instance netboots to iscsi ro root. and the entity that controls the pxe config has to configure the maas datasource. An attempt is made on network urls even in local datasource for case of network set up in initramfs. Return value is a tuple of a logger function (logging.DEBUG) and a message indicating what happened. """ if cmdline is None: cmdline = util.get_cmdline() try: cmdline_name, url = parse_cmdline_url(cmdline) except KeyError: return (logging.DEBUG, "No kernel command line url found.") path_is_local = url.startswith("file://") or url.startswith("/") if path_is_local and os.path.exists(path): if network: m = ( "file '%s' existed, possibly from local stage download" " of command line url '%s'. Not re-writing." % (path, url) ) level = logging.INFO if path_is_local: level = logging.DEBUG else: m = ( "file '%s' existed, possibly from previous boot download" " of command line url '%s'. Not re-writing." % (path, url) ) level = logging.WARN return (level, m) kwargs = {"url": url, "timeout": 10, "retries": 2, "stream": True} if network or path_is_local: level = logging.WARN kwargs["sec_between"] = 1 else: level = logging.DEBUG kwargs["sec_between"] = 0.1 data = None header = b"#cloud-config" try: resp = url_helper.read_file_or_url(**kwargs) sniffed_content = b"" if resp.ok(): is_cloud_cfg = True if isinstance(resp, url_helper.UrlResponse): try: sniffed_content += next( resp.iter_content(chunk_size=len(header)) ) except StopIteration: pass if not sniffed_content.startswith(header): is_cloud_cfg = False elif not resp.contents.startswith(header): is_cloud_cfg = False if is_cloud_cfg: if cmdline_name == "url": LOG.warning( "DEPRECATED: `url` kernel command line key is" " deprecated for providing cloud-config via URL." " Please use `cloud-config-url` kernel command line" " parameter instead" ) else: if cmdline_name == "cloud-config-url": level = logging.WARN else: level = logging.INFO return ( level, f"contents of '{url}' did not start with {str(header)}", ) else: return ( level, "url '%s' returned code %s. Ignoring." % (url, resp.code), ) data = sniffed_content + resp.contents except url_helper.UrlError as e: return (level, "retrieving url '%s' failed: %s" % (url, e)) util.write_file(path, data, mode=0o600) return ( logging.INFO, "wrote cloud-config data from %s='%s' to %s" % (cmdline_name, url, path), ) def purge_cache_on_python_version_change(init): """Purge the cache if python version changed on us. There could be changes not represented in our cache (obj.pkl) after we upgrade to a new version of python, so at that point clear the cache """ current_python_version = "%d.%d" % ( sys.version_info.major, sys.version_info.minor, ) python_version_path = os.path.join( init.paths.get_cpath("data"), "python-version" ) if os.path.exists(python_version_path): cached_python_version = open(python_version_path).read() # The Python version has changed out from under us, anything that was # pickled previously is likely useless due to API changes. if cached_python_version != current_python_version: LOG.debug("Python version change detected. Purging cache") init.purge_cache(True) util.write_file(python_version_path, current_python_version) else: if os.path.exists(init.paths.get_ipath_cur("obj_pkl")): LOG.info( "Writing python-version file. " "Cache compatibility status is currently unknown." ) util.write_file(python_version_path, current_python_version) def _should_bring_up_interfaces(init, args): if util.get_cfg_option_bool(init.cfg, "disable_network_activation"): return False return not args.local def main_init(name, args): deps = [sources.DEP_FILESYSTEM, sources.DEP_NETWORK] if args.local: deps = [sources.DEP_FILESYSTEM] early_logs = [ attempt_cmdline_url( path=os.path.join( "%s.d" % CLOUD_CONFIG, "91_kernel_cmdline_url.cfg" ), network=not args.local, ) ] # Cloud-init 'init' stage is broken up into the following sub-stages # 1. Ensure that the init object fetches its config without errors # 2. Setup logging/output redirections with resultant config (if any) # 3. Initialize the cloud-init filesystem # 4. Check if we can stop early by looking for various files # 5. Fetch the datasource # 6. Connect to the current instance location + update the cache # 7. Consume the userdata (handlers get activated here) # 8. Construct the modules object # 9. Adjust any subsequent logging/output redirections using the modules # objects config as it may be different from init object # 10. Run the modules for the 'init' stage # 11. Done! if not args.local: w_msg = welcome_format(name) else: w_msg = welcome_format("%s-local" % (name)) init = stages.Init(ds_deps=deps, reporter=args.reporter) # Stage 1 init.read_cfg(extract_fns(args)) # Stage 2 outfmt = None errfmt = None try: early_logs.append((logging.DEBUG, "Closing stdin.")) util.close_stdin() (outfmt, errfmt) = util.fixup_output(init.cfg, name) except Exception: msg = "Failed to setup output redirection!" util.logexc(LOG, msg) print_exc(msg) early_logs.append((logging.WARN, msg)) if args.debug: # Reset so that all the debug handlers are closed out LOG.debug( "Logging being reset, this logger may no longer be active shortly" ) logging.resetLogging() logging.setupLogging(init.cfg) apply_reporting_cfg(init.cfg) # Any log usage prior to setupLogging above did not have local user log # config applied. We send the welcome message now, as stderr/out have # been redirected and log now configured. welcome(name, msg=w_msg) # re-play early log messages before logging was setup for lvl, msg in early_logs: LOG.log(lvl, msg) # Stage 3 try: init.initialize() except Exception: util.logexc(LOG, "Failed to initialize, likely bad things to come!") # Stage 4 path_helper = init.paths purge_cache_on_python_version_change(init) mode = sources.DSMODE_LOCAL if args.local else sources.DSMODE_NETWORK if mode == sources.DSMODE_NETWORK: existing = "trust" sys.stderr.write("%s\n" % (netinfo.debug_info())) else: existing = "check" mcfg = util.get_cfg_option_bool(init.cfg, "manual_cache_clean", False) if mcfg: LOG.debug("manual cache clean set from config") existing = "trust" else: mfile = path_helper.get_ipath_cur("manual_clean_marker") if os.path.exists(mfile): LOG.debug("manual cache clean found from marker: %s", mfile) existing = "trust" init.purge_cache() # Stage 5 bring_up_interfaces = _should_bring_up_interfaces(init, args) try: init.fetch(existing=existing) # if in network mode, and the datasource is local # then work was done at that stage. if mode == sources.DSMODE_NETWORK and init.datasource.dsmode != mode: LOG.debug( "[%s] Exiting. datasource %s in local mode", mode, init.datasource, ) return (None, []) except sources.DataSourceNotFoundException: # In the case of 'cloud-init init' without '--local' it is a bit # more likely that the user would consider it failure if nothing was # found. if mode == sources.DSMODE_LOCAL: LOG.debug("No local datasource found") else: util.logexc( LOG, "No instance datasource found! Likely bad things to come!" ) if not args.force: init.apply_network_config(bring_up=bring_up_interfaces) LOG.debug("[%s] Exiting without datasource", mode) if mode == sources.DSMODE_LOCAL: return (None, []) else: return (None, ["No instance datasource found."]) else: LOG.debug( "[%s] barreling on in force mode without datasource", mode ) _maybe_persist_instance_data(init) # Stage 6 iid = init.instancify() LOG.debug( "[%s] %s will now be targeting instance id: %s. new=%s", mode, name, iid, init.is_new_instance(), ) if mode == sources.DSMODE_LOCAL: # Before network comes up, set any configured hostname to allow # dhcp clients to advertize this hostname to any DDNS services # LP: #1746455. _maybe_set_hostname(init, stage="local", retry_stage="network") init.apply_network_config(bring_up=bring_up_interfaces) if mode == sources.DSMODE_LOCAL: if init.datasource.dsmode != mode: LOG.debug( "[%s] Exiting. datasource %s not in local mode.", mode, init.datasource, ) return (init.datasource, []) else: LOG.debug( "[%s] %s is in local mode, will apply init modules now.", mode, init.datasource, ) # Give the datasource a chance to use network resources. # This is used on Azure to communicate with the fabric over network. init.setup_datasource() # update fully realizes user-data (pulling in #include if necessary) init.update() _maybe_set_hostname(init, stage="init-net", retry_stage="modules:config") # Stage 7 try: # Attempt to consume the data per instance. # This may run user-data handlers and/or perform # url downloads and such as needed. (ran, _results) = init.cloudify().run( "consume_data", init.consume_data, args=[PER_INSTANCE], freq=PER_INSTANCE, ) if not ran: # Just consume anything that is set to run per-always # if nothing ran in the per-instance code # # See: https://bugs.launchpad.net/bugs/819507 for a little # reason behind this... init.consume_data(PER_ALWAYS) except Exception: util.logexc(LOG, "Consuming user data failed!") return (init.datasource, ["Consuming user data failed!"]) # Validate user-data adheres to schema definition if os.path.exists(init.paths.get_ipath_cur("userdata_raw")): validate_cloudconfig_schema( config=init.cfg, strict=False, log_details=False, log_deprecations=True, ) else: LOG.debug("Skipping user-data validation. No user-data found.") apply_reporting_cfg(init.cfg) # Stage 8 - re-read and apply relevant cloud-config to include user-data mods = Modules(init, extract_fns(args), reporter=args.reporter) # Stage 9 try: outfmt_orig = outfmt errfmt_orig = errfmt (outfmt, errfmt) = util.get_output_cfg(mods.cfg, name) if outfmt_orig != outfmt or errfmt_orig != errfmt: LOG.warning("Stdout, stderr changing to (%s, %s)", outfmt, errfmt) (outfmt, errfmt) = util.fixup_output(mods.cfg, name) except Exception: util.logexc(LOG, "Failed to re-adjust output redirection!") logging.setupLogging(mods.cfg) # give the activated datasource a chance to adjust init.activate_datasource() di_report_warn(datasource=init.datasource, cfg=init.cfg) # Stage 10 return (init.datasource, run_module_section(mods, name, name)) def di_report_warn(datasource, cfg): if "di_report" not in cfg: LOG.debug("no di_report found in config.") return dicfg = cfg["di_report"] if dicfg is None: # ds-identify may write 'di_report:\n #comment\n' # which reads as {'di_report': None} LOG.debug("di_report was None.") return if not isinstance(dicfg, dict): LOG.warning("di_report config not a dictionary: %s", dicfg) return dslist = dicfg.get("datasource_list") if dslist is None: LOG.warning("no 'datasource_list' found in di_report.") return elif not isinstance(dslist, list): LOG.warning("di_report/datasource_list not a list: %s", dslist) return # ds.__module__ is like cloudinit.sources.DataSourceName # where Name is the thing that shows up in datasource_list. modname = datasource.__module__.rpartition(".")[2] if modname.startswith(sources.DS_PREFIX): modname = modname[len(sources.DS_PREFIX) :] else: LOG.warning( "Datasource '%s' came from unexpected module '%s'.", datasource, modname, ) if modname in dslist: LOG.debug( "used datasource '%s' from '%s' was in di_report's list: %s", datasource, modname, dslist, ) return warnings.show_warning( "dsid_missing_source", cfg, source=modname, dslist=str(dslist) ) def main_modules(action_name, args): name = args.mode # Cloud-init 'modules' stages are broken up into the following sub-stages # 1. Ensure that the init object fetches its config without errors # 2. Get the datasource from the init object, if it does # not exist then that means the main_init stage never # worked, and thus this stage can not run. # 3. Construct the modules object # 4. Adjust any subsequent logging/output redirections using # the modules objects configuration # 5. Run the modules for the given stage name # 6. Done! w_msg = welcome_format("%s:%s" % (action_name, name)) init = stages.Init(ds_deps=[], reporter=args.reporter) # Stage 1 init.read_cfg(extract_fns(args)) # Stage 2 try: init.fetch(existing="trust") except sources.DataSourceNotFoundException: # There was no datasource found, theres nothing to do msg = ( "Can not apply stage %s, no datasource found! Likely bad " "things to come!" % name ) util.logexc(LOG, msg) print_exc(msg) if not args.force: return [(msg)] _maybe_persist_instance_data(init) # Stage 3 mods = Modules(init, extract_fns(args), reporter=args.reporter) # Stage 4 try: LOG.debug("Closing stdin") util.close_stdin() util.fixup_output(mods.cfg, name) except Exception: util.logexc(LOG, "Failed to setup output redirection!") if args.debug: # Reset so that all the debug handlers are closed out LOG.debug( "Logging being reset, this logger may no longer be active shortly" ) logging.resetLogging() logging.setupLogging(mods.cfg) apply_reporting_cfg(init.cfg) # now that logging is setup and stdout redirected, send welcome welcome(name, msg=w_msg) # Stage 5 return run_module_section(mods, name, name) def main_single(name, args): # Cloud-init single stage is broken up into the following sub-stages # 1. Ensure that the init object fetches its config without errors # 2. Attempt to fetch the datasource (warn if it doesn't work) # 3. Construct the modules object # 4. Adjust any subsequent logging/output redirections using # the modules objects configuration # 5. Run the single module # 6. Done! mod_name = args.name w_msg = welcome_format(name) init = stages.Init(ds_deps=[], reporter=args.reporter) # Stage 1 init.read_cfg(extract_fns(args)) # Stage 2 try: init.fetch(existing="trust") except sources.DataSourceNotFoundException: # There was no datasource found, # that might be bad (or ok) depending on # the module being ran (so continue on) util.logexc( LOG, "Failed to fetch your datasource, likely bad things to come!" ) print_exc( "Failed to fetch your datasource, likely bad things to come!" ) if not args.force: return 1 _maybe_persist_instance_data(init) # Stage 3 mods = Modules(init, extract_fns(args), reporter=args.reporter) mod_args = args.module_args if mod_args: LOG.debug("Using passed in arguments %s", mod_args) mod_freq = args.frequency if mod_freq: LOG.debug("Using passed in frequency %s", mod_freq) mod_freq = FREQ_SHORT_NAMES.get(mod_freq) # Stage 4 try: LOG.debug("Closing stdin") util.close_stdin() util.fixup_output(mods.cfg, None) except Exception: util.logexc(LOG, "Failed to setup output redirection!") if args.debug: # Reset so that all the debug handlers are closed out LOG.debug( "Logging being reset, this logger may no longer be active shortly" ) logging.resetLogging() logging.setupLogging(mods.cfg) apply_reporting_cfg(init.cfg) # now that logging is setup and stdout redirected, send welcome welcome(name, msg=w_msg) # Stage 5 (which_ran, failures) = mods.run_single(mod_name, mod_args, mod_freq) if failures: LOG.warning("Ran %s but it failed!", mod_name) return 1 elif not which_ran: LOG.warning("Did not run %s, does it exist?", mod_name) return 1 else: # Guess it worked return 0 def status_wrapper(name, args, data_d=None, link_d=None): if data_d is None: paths = read_cfg_paths() data_d = paths.get_cpath("data") if link_d is None: link_d = os.path.normpath("/run/cloud-init") status_path = os.path.join(data_d, "status.json") status_link = os.path.join(link_d, "status.json") result_path = os.path.join(data_d, "result.json") result_link = os.path.join(link_d, "result.json") util.ensure_dirs( ( data_d, link_d, ) ) (_name, functor) = args.action if name == "init": if args.local: mode = "init-local" else: mode = "init" elif name == "modules": mode = "modules-%s" % args.mode else: raise ValueError("unknown name: %s" % name) modes = ( "init", "init-local", "modules-init", "modules-config", "modules-final", ) if mode not in modes: raise ValueError( "Invalid cloud init mode specified '{0}'".format(mode) ) status = None if mode == "init-local": for f in (status_link, result_link, status_path, result_path): util.del_file(f) else: try: status = json.loads(util.load_file(status_path)) except Exception: pass nullstatus = { "errors": [], "start": None, "finished": None, } if status is None: status = {"v1": {}} status["v1"]["datasource"] = None for m in modes: if m not in status["v1"]: status["v1"][m] = nullstatus.copy() v1 = status["v1"] v1["stage"] = mode v1[mode]["start"] = time.time() atomic_helper.write_json(status_path, status) util.sym_link( os.path.relpath(status_path, link_d), status_link, force=True ) try: ret = functor(name, args) if mode in ("init", "init-local"): (datasource, errors) = ret if datasource is not None: v1["datasource"] = str(datasource) else: errors = ret v1[mode]["errors"] = [str(e) for e in errors] except Exception as e: util.logexc(LOG, "failed stage %s", mode) print_exc("failed run of stage %s" % mode) v1[mode]["errors"] = [str(e)] v1[mode]["finished"] = time.time() v1["stage"] = None atomic_helper.write_json(status_path, status) if mode == "modules-final": # write the 'finished' file errors = [] for m in modes: if v1[m]["errors"]: errors.extend(v1[m].get("errors", [])) atomic_helper.write_json( result_path, {"v1": {"datasource": v1["datasource"], "errors": errors}}, ) util.sym_link( os.path.relpath(result_path, link_d), result_link, force=True ) return len(v1[mode]["errors"]) def _maybe_persist_instance_data(init: stages.Init): """Write instance-data.json file if absent and datasource is restored.""" if init.datasource and init.ds_restored: instance_data_file = init.paths.get_runpath("instance_data") if not os.path.exists(instance_data_file): init.datasource.persist_instance_data(write_cache=False) def _maybe_set_hostname(init, stage, retry_stage): """Call set-hostname if metadata, vendordata or userdata provides it. @param stage: String representing current stage in which we are running. @param retry_stage: String represented logs upon error setting hostname. """ cloud = init.cloudify() (hostname, _fqdn, _) = util.get_hostname_fqdn( init.cfg, cloud, metadata_only=True ) if hostname: # meta-data or user-data hostname content try: cc_set_hostname.handle("set-hostname", init.cfg, cloud, LOG, None) except cc_set_hostname.SetHostnameError as e: LOG.debug( "Failed setting hostname in %s stage. Will" " retry in %s stage. Error: %s.", stage, retry_stage, str(e), ) def main_features(name, args): sys.stdout.write("\n".join(sorted(version.FEATURES)) + "\n") def main(sysv_args=None): if not sysv_args: sysv_args = sys.argv parser = argparse.ArgumentParser(prog=sysv_args.pop(0)) # Top level args parser.add_argument( "--version", "-v", action="version", version="%(prog)s " + (version.version_string()), help="Show program's version number and exit.", ) parser.add_argument( "--file", "-f", action="append", dest="files", help="Use additional yaml configuration files.", type=argparse.FileType("rb"), ) parser.add_argument( "--debug", "-d", action="store_true", help="Show additional pre-action logging (default: %(default)s).", default=False, ) parser.add_argument( "--force", action="store_true", help=( "Force running even if no datasource is" " found (use at your own risk)." ), dest="force", default=False, ) parser.set_defaults(reporter=None) subparsers = parser.add_subparsers(title="Subcommands", dest="subcommand") subparsers.required = True # Each action and its sub-options (if any) parser_init = subparsers.add_parser( "init", help="Initialize cloud-init and perform initial modules." ) parser_init.add_argument( "--local", "-l", action="store_true", help="Start in local mode (default: %(default)s).", default=False, ) # This is used so that we can know which action is selected + # the functor to use to run this subcommand parser_init.set_defaults(action=("init", main_init)) # These settings are used for the 'config' and 'final' stages parser_mod = subparsers.add_parser( "modules", help="Activate modules using a given configuration key." ) parser_mod.add_argument( "--mode", "-m", action="store", help="Module configuration name to use (default: %(default)s).", default="config", choices=("init", "config", "final"), ) parser_mod.set_defaults(action=("modules", main_modules)) # This subcommand allows you to run a single module parser_single = subparsers.add_parser( "single", help="Run a single module." ) parser_single.add_argument( "--name", "-n", action="store", help="Module name to run.", required=True, ) parser_single.add_argument( "--frequency", action="store", help="Module frequency for this run.", required=False, choices=list(FREQ_SHORT_NAMES.keys()), ) parser_single.add_argument( "--report", action="store_true", help="Enable reporting.", required=False, ) parser_single.add_argument( "module_args", nargs="*", metavar="argument", help="Any additional arguments to pass to this module.", ) parser_single.set_defaults(action=("single", main_single)) parser_query = subparsers.add_parser( "query", help="Query standardized instance metadata from the command line.", ) parser_dhclient = subparsers.add_parser( dhclient_hook.NAME, help=dhclient_hook.__doc__ ) dhclient_hook.get_parser(parser_dhclient) parser_features = subparsers.add_parser( "features", help="List defined features." ) parser_features.set_defaults(action=("features", main_features)) parser_analyze = subparsers.add_parser( "analyze", help="Devel tool: Analyze cloud-init logs and data." ) parser_devel = subparsers.add_parser( "devel", help="Run development tools." ) parser_collect_logs = subparsers.add_parser( "collect-logs", help="Collect and tar all cloud-init debug info." ) parser_clean = subparsers.add_parser( "clean", help="Remove logs and artifacts so cloud-init can re-run." ) parser_status = subparsers.add_parser( "status", help="Report cloud-init status or wait on completion." ) parser_schema = subparsers.add_parser( "schema", help="Validate cloud-config files using jsonschema." ) if sysv_args: # Only load subparsers if subcommand is specified to avoid load cost subcommand = sysv_args[0] if subcommand == "analyze": from cloudinit.analyze.__main__ import get_parser as analyze_parser # Construct analyze subcommand parser analyze_parser(parser_analyze) elif subcommand == "devel": from cloudinit.cmd.devel.parser import get_parser as devel_parser # Construct devel subcommand parser devel_parser(parser_devel) elif subcommand == "collect-logs": from cloudinit.cmd.devel.logs import ( get_parser as logs_parser, handle_collect_logs_args, ) logs_parser(parser_collect_logs) parser_collect_logs.set_defaults( action=("collect-logs", handle_collect_logs_args) ) elif subcommand == "clean": from cloudinit.cmd.clean import ( get_parser as clean_parser, handle_clean_args, ) clean_parser(parser_clean) parser_clean.set_defaults(action=("clean", handle_clean_args)) elif subcommand == "query": from cloudinit.cmd.query import ( get_parser as query_parser, handle_args as handle_query_args, ) query_parser(parser_query) parser_query.set_defaults(action=("render", handle_query_args)) elif subcommand == "schema": from cloudinit.config.schema import ( get_parser as schema_parser, handle_schema_args, ) schema_parser(parser_schema) parser_schema.set_defaults(action=("schema", handle_schema_args)) elif subcommand == "status": from cloudinit.cmd.status import ( get_parser as status_parser, handle_status_args, ) status_parser(parser_status) parser_status.set_defaults(action=("status", handle_status_args)) args = parser.parse_args(args=sysv_args) # Subparsers.required = True and each subparser sets action=(name, functor) (name, functor) = args.action # Setup basic logging to start (until reinitialized) # iff in debug mode. if args.debug: logging.setupBasicLogging() # Setup signal handlers before running signal_handler.attach_handlers() if name in ("modules", "init"): functor = status_wrapper rname = None report_on = True if name == "init": if args.local: rname, rdesc = ("init-local", "searching for local datasources") else: rname, rdesc = ( "init-network", "searching for network datasources", ) elif name == "modules": rname, rdesc = ( "modules-%s" % args.mode, "running modules for %s" % args.mode, ) elif name == "single": rname, rdesc = ( "single/%s" % args.name, "running single module %s" % args.name, ) report_on = args.report else: rname = name rdesc = "running 'cloud-init %s'" % name report_on = False args.reporter = events.ReportEventStack( rname, rdesc, reporting_enabled=report_on ) with args.reporter: retval = util.log_time( logfunc=LOG.debug, msg="cloud-init mode '%s'" % name, get_uptime=True, func=functor, args=(name, args), ) reporting.flush_events() return retval if __name__ == "__main__": if "TZ" not in os.environ: os.environ["TZ"] = ":/etc/localtime" return_value = main(sys.argv) if return_value: sys.exit(return_value)
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