# vi: ts=4 expandtab # # Copyright (C) 2008-2010 Canonical Ltd. # Copyright (C) 2012 Hewlett-Packard Development Company, L.P. # # Author: Chuck Short # Author: Juerg Haefliger # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License version 3, as # published by the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # import yaml import cloudinit import cloudinit.util as util import sys import traceback import os import subprocess import time per_instance = cloudinit.per_instance per_always = cloudinit.per_always per_once = cloudinit.per_once class CloudConfig(): cfgfile = None cfg = None def __init__(self, cfgfile, cloud=None, ds_deps=None): if cloud == None: self.cloud = cloudinit.CloudInit(ds_deps) self.cloud.get_data_source() else: self.cloud = cloud self.cfg = self.get_config_obj(cfgfile) def get_config_obj(self, cfgfile): try: cfg = util.read_conf(cfgfile) except: # TODO: this 'log' could/should be passed in cloudinit.log.critical("Failed loading of cloud config '%s'. " "Continuing with empty config\n" % cfgfile) cloudinit.log.debug(traceback.format_exc() + "\n") cfg = None if cfg is None: cfg = {} try: ds_cfg = self.cloud.datasource.get_config_obj() except: ds_cfg = {} cfg = util.mergedict(cfg, ds_cfg) return(util.mergedict(cfg, self.cloud.cfg)) def handle(self, name, args, freq=None): try: mod = __import__("cc_" + name.replace("-", "_"), globals()) def_freq = getattr(mod, "frequency", per_instance) handler = getattr(mod, "handle") if not freq: freq = def_freq self.cloud.sem_and_run("config-" + name, freq, handler, [name, self.cfg, self.cloud, cloudinit.log, args]) except: raise # reads a cloudconfig module list, returns # a 2 dimensional array suitable to pass to run_cc_modules def read_cc_modules(cfg, name): if name not in cfg: return([]) module_list = [] # create 'module_list', an array of arrays # where array[0] = config # array[1] = freq # array[2:] = arguemnts for item in cfg[name]: if isinstance(item, str): module_list.append((item,)) elif isinstance(item, list): module_list.append(item) else: raise TypeError("failed to read '%s' item in config") return(module_list) def run_cc_modules(cc, module_list, log): failures = [] for cfg_mod in module_list: name = cfg_mod[0] freq = None run_args = [] if len(cfg_mod) > 1: freq = cfg_mod[1] if len(cfg_mod) > 2: run_args = cfg_mod[2:] try: log.debug("handling %s with freq=%s and args=%s" % (name, freq, run_args)) cc.handle(name, run_args, freq=freq) except: log.warn(traceback.format_exc()) log.error("config handling of %s, %s, %s failed\n" % (name, freq, run_args)) failures.append(name) return(failures) # always returns well formated values # cfg is expected to have an entry 'output' in it, which is a dictionary # that includes entries for 'init', 'config', 'final' or 'all' # init: /var/log/cloud.out # config: [ ">> /var/log/cloud-config.out", /var/log/cloud-config.err ] # final: # output: "| logger -p" # error: "> /dev/null" # this returns the specific 'mode' entry, cleanly formatted, with value # None if if none is given def get_output_cfg(cfg, mode="init"): ret = [None, None] if not 'output' in cfg: return ret outcfg = cfg['output'] if mode in outcfg: modecfg = outcfg[mode] else: if 'all' not in outcfg: return ret # if there is a 'all' item in the output list # then it applies to all users of this (init, config, final) modecfg = outcfg['all'] # if value is a string, it specifies stdout and stderr if isinstance(modecfg, str): ret = [modecfg, modecfg] # if its a list, then we expect (stdout, stderr) if isinstance(modecfg, list): if len(modecfg) > 0: ret[0] = modecfg[0] if len(modecfg) > 1: ret[1] = modecfg[1] # if it is a dictionary, expect 'out' and 'error' # items, which indicate out and error if isinstance(modecfg, dict): if 'output' in modecfg: ret[0] = modecfg['output'] if 'error' in modecfg: ret[1] = modecfg['error'] # if err's entry == "&1", then make it same as stdout # as in shell syntax of "echo foo >/dev/null 2>&1" if ret[1] == "&1": ret[1] = ret[0] swlist = [">>", ">", "|"] for i in range(len(ret)): if not ret[i]: continue val = ret[i].lstrip() found = False for s in swlist: if val.startswith(s): val = "%s %s" % (s, val[len(s):].strip()) found = True break if not found: # default behavior is append val = "%s %s" % (">>", val.strip()) ret[i] = val return(ret) # redirect_output(outfmt, errfmt, orig_out, orig_err) # replace orig_out and orig_err with filehandles specified in outfmt or errfmt # fmt can be: # > FILEPATH # >> FILEPATH # | program [ arg1 [ arg2 [ ... ] ] ] # # with a '|', arguments are passed to shell, so one level of # shell escape is required. def redirect_output(outfmt, errfmt, o_out=sys.stdout, o_err=sys.stderr): if outfmt: (mode, arg) = outfmt.split(" ", 1) if mode == ">" or mode == ">>": owith = "ab" if mode == ">": owith = "wb" new_fp = open(arg, owith) elif mode == "|": proc = subprocess.Popen(arg, shell=True, stdin=subprocess.PIPE) new_fp = proc.stdin else: raise TypeError("invalid type for outfmt: %s" % outfmt) if o_out: os.dup2(new_fp.fileno(), o_out.fileno()) if errfmt == outfmt: os.dup2(new_fp.fileno(), o_err.fileno()) return if errfmt: (mode, arg) = errfmt.split(" ", 1) if mode == ">" or mode == ">>": owith = "ab" if mode == ">": owith = "wb" new_fp = open(arg, owith) elif mode == "|": proc = subprocess.Popen(arg, shell=True, stdin=subprocess.PIPE) new_fp = proc.stdin else: raise TypeError("invalid type for outfmt: %s" % outfmt) if o_err: os.dup2(new_fp.fileno(), o_err.fileno()) return def run_per_instance(name, func, args, clear_on_fail=False): semfile = "%s/%s" % (cloudinit.get_ipath_cur("data"), name) if os.path.exists(semfile): return util.write_file(semfile, str(time.time())) try: func(*args) except: if clear_on_fail: os.unlink(semfile) raise # apt_get top level command (install, update...), and args to pass it def apt_get(tlc, args=None): if args is None: args = [] e = os.environ.copy() e['DEBIAN_FRONTEND'] = 'noninteractive' cmd = ['apt-get', '--option', 'Dpkg::Options::=--force-confold', '--assume-yes', tlc] cmd.extend(args) subprocess.check_call(cmd, env=e) def update_package_sources(): run_per_instance("update-sources", apt_get, ("update",)) def install_packages(pkglist): update_package_sources() apt_get("install", pkglist)