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//proc/self/root/lib/python2.7/site-packages/sos/plugins/__init__.py
# Copyright (C) 2006 Steve Conklin <sconklin@redhat.com> # This file is part of the sos project: https://github.com/sosreport/sos # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions of # version 2 of the GNU General Public License. # # See the LICENSE file in the source distribution for further information. """ This exports methods available for use by plugins for sos """ from __future__ import with_statement from sos.utilities import (sos_get_command_output, import_module, grep, fileobj, tail, is_executable) import os import glob import re import stat from time import time import logging import fnmatch import errno # PYCOMPAT import six from six.moves import zip, filter from datetime import datetime # FileNotFoundError does not exist in 2.7, so map it to IOError try: FileNotFoundError except NameError: FileNotFoundError = IOError def _to_u(s): if not isinstance(s, six.text_type): # Workaround python.six mishandling of strings ending in '\' by # adding a single space following any '\' at end-of-line. # See Six issue #60. if s.endswith('\\'): s += " " s = six.u(s) return s def regex_findall(regex, fname): """Return a list of all non overlapping matches in the string(s)""" try: with fileobj(fname) as f: return re.findall(regex, f.read(), re.MULTILINE) except AttributeError: return [] def _mangle_command(command, name_max): mangledname = re.sub(r"^/(usr/|)(bin|sbin)/", "", command) mangledname = re.sub(r"[^\w\-\.\/]+", "_", mangledname) mangledname = re.sub(r"/", ".", mangledname).strip(" ._-") mangledname = mangledname[0:name_max] return mangledname def _path_in_path_list(path, path_list): return any(p == path for p in path_list) def _node_type(st): """ return a string indicating the type of special node represented by the stat buffer st (block, character, fifo, socket). """ _types = [ (stat.S_ISBLK, "block device"), (stat.S_ISCHR, "character device"), (stat.S_ISFIFO, "named pipe"), (stat.S_ISSOCK, "socket") ] for t in _types: if t[0](st.st_mode): return t[1] def _file_is_compressed(path): """Check if a file appears to be compressed Return True if the file specified by path appears to be compressed, or False otherwise by testing the file name extension against a list of known file compression extentions. """ return path.endswith(('.gz', '.xz', '.bz', '.bz2')) _certmatch = re.compile("-*BEGIN.*?-*END", re.DOTALL) _cert_replace = "-----SCRUBBED" class SoSPredicate(object): """A class to implement collection predicates. A predicate gates the collection of data by an sos plugin. For any `add_cmd_output()`, `add_copy_spec()` or `add_journal()` call, the passed predicate will be evaulated and collection will proceed if the result is `True`, and not otherwise. Predicates may be used to control conditional data collection without the need for explicit conditional blocks in plugins. """ #: The plugin that owns this predicate _owner = None #: Skip all collection? dry_run = False #: Kernel module enablement list kmods = [] #: Services enablement list services = [] #: Package presence list packages = [] # Command output inclusion pairs {'cmd': 'foo --help', 'output': 'bar'} cmd_outputs = [] #: Allowed architecture(s) of the system arch = [] def __str(self, quote=False, prefix="", suffix=""): """Return a string representation of this SoSPredicate with optional prefix, suffix and value quoting. """ quotes = '"%s"' pstr = "dry_run=%s, " % self.dry_run kmods = self.kmods kmods = [quotes % k for k in kmods] if quote else kmods pstr += "kmods=[%s], " % (",".join(kmods)) services = self.services services = [quotes % s for s in services] if quote else services pstr += "services=[%s], " % (",".join(services)) pkgs = self.packages pkgs = [quotes % p for p in pkgs] if quote else pkgs pstr += "packages=[%s], " % (",".join(pkgs)) cmdoutputs = [ "{ %s: %s, %s: %s }" % (quotes % "cmd", quotes % cmdoutput['cmd'], quotes % "output", quotes % cmdoutput['output']) for cmdoutput in self.cmd_outputs ] pstr += "cmdoutputs=[%s], " % (",".join(cmdoutputs)) arches = self.arch arches = [quotes % a for a in arches] if quote else arches pstr += "arches=[%s]" % (",".join(arches)) return prefix + pstr + suffix def __str__(self): """Return a string representation of this SoSPredicate. "dry_run=False, kmods=[], services=[], cmdoutputs=[]" """ return self.__str() def __repr__(self): """Return a machine readable string representation of this SoSPredicate. "SoSPredicate(dry_run=False, kmods=[], services=[], cmdoutputs=[])" """ return self.__str(quote=True, prefix="SoSPredicate(", suffix=")") def _check_required_state(self, items, required): """Helper to simplify checking the state of the predicate's evaluations against the setting of the required state of that evaluation """ if required == 'any': return any(items) elif required == 'all': return all(items) elif required == 'none': return not any(items) def _failed_or_forbidden(self, test, item): """Helper to direct failed predicates to provide the proper messaging based on the required check type :param test: The type of check we're doing, e.g. kmods, arch :param item: The string of what failed """ _req = self.required[test] if _req != 'none': self._failed[test].append(item) else: self._forbidden[test].append(item) def _eval_kmods(self): if not self.kmods or self._owner.get_option('allow_system_changes'): return True _kmods = [] # Are kernel modules loaded? for kmod in self.kmods: res = self._owner.is_module_loaded(kmod) _kmods.append(res) if not res: self._failed_or_forbidden('kmods', kmod) return self._check_required_state(_kmods, self.required['kmods']) def _eval_services(self): if not self.services: return True _svcs = [] for svc in self.services: res = self._owner.is_service_running(svc) _svcs.append(res) if not res: self._failed_or_forbidden('services', svc) return self._check_required_state(_svcs, self.required['services']) def _eval_packages(self): if not self.packages: return True _pkgs = [] for pkg in self.packages: res = self._owner.is_installed(pkg) _pkgs.append(res) if not res: self._failed_or_forbidden('packages', pkg) return self._check_required_state(_pkgs, self.required['packages']) def _eval_cmd_output(self, cmd_output): """Does 'cmd' output contain string 'output'?""" if 'cmd' not in cmd_output or 'output' not in cmd_output: return False result = sos_get_command_output(cmd_output['cmd']) if result['status'] != 0: return False for line in result['output'].splitlines(): if cmd_output['output'] in line: return True return False def _eval_cmd_outputs(self): if not self.cmd_outputs: return True _cmds = [] for cmd in self.cmd_outputs: res = self._eval_cmd_output(cmd) _cmds.append(res) if not res: self._failed_or_forbidden( 'cmd_outputs', "%s: %s" % (cmd['cmd'], cmd['output']) ) return self._check_required_state(_cmds, self.required['cmd_outputs']) def _eval_arch(self): if not self.arch: return True # a test for 'all' against arch does not make sense, so only test to # see if the system's reported architecture is in the last of 'allowed' # arches requested by the predicate _arch = self._owner.policy.get_arch() regex = '(?:%s)' % '|'.join(self.arch) if self.required['arch'] == 'none': if re.match(regex, _arch): self._forbidden['architecture'].append(_arch) return False return True if re.match(regex, _arch): return True self._failed['architecture'].append(_arch) return False def _report_failed(self): """Return a string informing user what caused the predicate to fail evaluation """ msg = '' _substr = "required %s missing: %s." for key, val in self._failed.items(): if not val: continue val = set(val) msg += _substr % (key, ', '.join(v for v in val)) return msg def _report_forbidden(self): """Return a string informing the user that a forbidden condition exists which caused the predicate to fail """ msg = '' _substr = "forbidden %s '%s' found." for key, val in self._forbidden.items(): if not val: continue val = set(val) msg += _substr % (key, ', '.join(v for v in val)) return msg def report_failure(self): """Used by `Plugin()` to obtain the error string based on if the reason was a failed check or a forbidden check """ msg = [self._report_failed(), self._report_forbidden()] return " ".join(msg).lstrip() def __nonzero__(self): """Predicate evaluation hook. """ # Null predicate? if not any([self.kmods, self.services, self.packages, self.cmd_outputs, self.arch, self.dry_run]): return True return ((self._eval_kmods() and self._eval_services() and self._eval_packages() and self._eval_cmd_outputs() and self._eval_arch()) and not self.dry_run) def __bool__(self): # Py3 evaluation ends in a __bool__() call where py2 ends in a call # to __nonzero__(). Wrap the latter here, to support both versions return self.__nonzero__() def __init__(self, owner, dry_run=False, kmods=[], services=[], packages=[], cmd_outputs=[], arch=[], required={}): """Initialise a new SoSPredicate object. """ self._owner = owner self.kmods = list(kmods) self.services = list(services) self.packages = list(packages) self.arch = list(arch) if not isinstance(cmd_outputs, list): cmd_outputs = [cmd_outputs] self.cmd_outputs = cmd_outputs self.dry_run = dry_run | self._owner.commons['cmdlineopts'].dry_run self.required = {'kmods': 'any', 'services': 'any', 'packages': 'any', 'cmd_outputs': 'any', 'arch': 'any'} self.required.update({ k: v for k, v in required.items() if required[k] != self.required[k] }) #: Dict holding failed evaluations self._failed = { 'kmods': [], 'services': [], 'packages': [], 'cmd_outputs': [], 'architecture': [] } self._forbidden = { 'kmods': [], 'services': [], 'packages': [], 'cmd_outputs': [], 'architecture': [] } class SoSCommand(object): """A class to represent a command to be collected. A SoSCommand() object is instantiated for each command handed to an _add_cmd_output() call, so that we no longer need to pass around a very long tuple to handle the parameters. Any option supported by _add_cmd_output() is passed to the SoSCommand object and converted to an attribute. SoSCommand.__dict__ is then passed to _get_command_output_now() for each command to be collected. """ def __init__(self, **kwargs): self.__dict__.update(kwargs) def __str__(self): """Return a human readable string representation of this SoSCommand """ return ', '.join("%s=%r" % (param, val) for (param, val) in sorted(self.__dict__.items())) class Plugin(object): """ This is the base class for sosreport plugins. Plugins should subclass this and set the class variables where applicable. plugin_name is a string returned by plugin.name(). If this is set to None (the default) class\\_.__name__.tolower() will be returned. Be sure to set this if you are defining multiple plugins that do the same thing on different platforms. requires_root is a boolean that specifies whether or not sosreport should execute this plugin as a super user. version is a string representing the version of the plugin. This can be useful for post-collection tooling. packages (files) is an iterable of the names of packages (the paths of files) to check for before running this plugin. If any of these packages or files is found on the system, the default implementation of check_enabled will return True. profiles is an iterable of profile names that this plugin belongs to. Whenever any of the profiles is selected on the command line the plugin will be enabled (subject to normal check_enabled tests). """ plugin_name = None requires_root = True version = 'unversioned' packages = () files = () commands = () kernel_mods = () services = () architectures = None archive = None profiles = () sysroot = '/' plugin_timeout = 300 cmd_timeout = 300 _timeout_hit = False # Default predicates predicate = None cmd_predicate = None _default_plug_opts = [ ('timeout', 'Timeout in seconds for plugin', 'fast', -1), ('postproc', 'Enable post-processing collected plugin data', 'fast', True) ] def __init__(self, commons): if not getattr(self, "option_list", False): self.option_list = [] self.copied_files = [] self.executed_commands = [] self._env_vars = set() self.alerts = [] self.custom_text = "" self.opt_names = [] self.opt_parms = [] self.commons = commons self.forbidden_paths = [] self.copy_paths = set() self.copy_strings = [] self.collect_cmds = [] self.sysroot = commons['sysroot'] self.policy = commons['policy'] self.soslog = self.commons['soslog'] if 'soslog' in self.commons \ else logging.getLogger('sos') # add the default plugin opts self.option_list.extend(self._default_plug_opts) # get the option list into a dictionary for opt in self.option_list: self.opt_names.append(opt[0]) self.opt_parms.append({'desc': opt[1], 'speed': opt[2], 'enabled': opt[3]}) # Initialise the default --dry-run predicate self.set_predicate(SoSPredicate(self)) @property def timeout(self): """Returns either the default plugin timeout value, the value as provided on the commandline via -k plugin.timeout=value, or the value of the global --plugin-timeout option. """ _timeout = None try: opt_timeout = self.get_option('plugin_timeout') own_timeout = int(self.get_option('timeout')) if opt_timeout is None: _timeout = own_timeout elif opt_timeout is not None and own_timeout == -1: _timeout = int(opt_timeout) elif opt_timeout is not None and own_timeout > -1: _timeout = own_timeout else: return None except ValueError: return self.plugin_timeout # Default to known safe value if _timeout is not None and _timeout > -1: return _timeout return self.plugin_timeout def check_timeout(self): """ Checks to see if the plugin has hit its timeout. This is set when the sos.collect_plugin() method hits a timeout and terminates the thread. From there, a Popen() call can still continue to run, and we need to manually terminate it. Thus, check_timeout() should only be called in sos_get_command_output(). Since sos_get_command_output() is not plugin aware, this method is handed to that call to use as a polling method, to avoid passing the entire plugin object. Returns True if timeout has been hit, else False. """ return self._timeout_hit @classmethod def name(cls): """Returns the plugin's name as a string. This should return a lowercase string. """ if cls.plugin_name: return cls.plugin_name return cls.__name__.lower() def _format_msg(self, msg): return "[plugin:%s] %s" % (self.name(), msg) def _log_error(self, msg): self.soslog.error(self._format_msg(msg)) def _log_warn(self, msg): self.soslog.warning(self._format_msg(msg)) def _log_info(self, msg): self.soslog.info(self._format_msg(msg)) def _log_debug(self, msg): self.soslog.debug(self._format_msg(msg)) def join_sysroot(self, path): if path[0] == os.sep: path = path[1:] return os.path.join(self.sysroot, path) def strip_sysroot(self, path): if not self.use_sysroot(): return path if path.startswith(self.sysroot): return path[len(self.sysroot):] return path def use_sysroot(self): return self.sysroot != os.path.abspath(os.sep) def tmp_in_sysroot(self): paths = [self.sysroot, self.archive.get_tmp_dir()] return os.path.commonprefix(paths) == self.sysroot def is_installed(self, package_name): """Is the package $package_name installed?""" return self.policy.pkg_by_name(package_name) is not None def is_service(self, name): """Does the service $name exist on the system?""" return self.policy.init_system.is_service(name) def is_service_enabled(self, name): """Is the service $name enabled?""" return self.policy.init_system.is_enabled(name) def is_service_disabled(self, name): """Is the service $name disabled?""" return self.policy.init_system.is_disabled(name) def is_service_running(self, name): """Is the service $name currently running?""" return self.policy.init_system.is_running(name) def get_service_status(self, name): """Return the reported status for service $name""" return self.policy.init_system.get_service_status(name)['status'] def get_service_names(self, regex): """Get all service names matching regex""" return self.policy.init_system.get_service_names(regex) def set_predicate(self, pred): """Set or clear the default predicate for this plugin. """ self.predicate = pred def set_cmd_predicate(self, pred): """Set or clear the default predicate for command collection for this plugin. If set, this predecate takes precedence over the `Plugin` default predicate for command and journal data collection. """ self.cmd_predicate = pred def get_predicate(self, cmd=False, pred=None): """Get the current default `Plugin` or command predicate. If the `cmd` argument is `True`, the current command predicate is returned if set, otherwise the default `Plugin` predicate will be returned (which may be `None`). If no default predicate is set and a `pred` value is passed it will be returned. """ if pred is not None: return pred if cmd and self.cmd_predicate is not None: return self.cmd_predicate return self.predicate def test_predicate(self, cmd=False, pred=None): """Test the current predicate and return its value. :param cmd: ``True`` if the predicate is gating a command or ``False`` otherwise. :param pred: An optional predicate to override the current ``Plugin`` or command predicate. """ pred = self.get_predicate(cmd=cmd, pred=pred) if pred is not None: return bool(pred) return False def log_skipped_cmd(self, pred, cmd, kmods=False, services=False, changes=False): """Log that a command was skipped due to predicate evaluation. Emit a warning message indicating that a command was skipped due to predicate evaluation. If ``kmods`` or ``services`` are ``True`` then the list of expected kernel modules or services will be included in the log message. If ``allow_changes`` is ``True`` a message indicating that the missing data can be collected by using the "--allow-system-changes" command line option will be included. """ msg = "skipped command '%s': %s" % (cmd, pred.report_failure()) if changes: msg += " Use '--allow-system-changes' to enable collection." self._log_warn(msg) def do_cmd_private_sub(self, cmd, desc=""): """Remove certificate and key output archived by sosreport. cmd is the command name from which output is collected (i.e. exlcuding parameters). Any matching instances are replaced with: '-----SCRUBBED' and this function does not take a regexp or substituting string. This function returns the number of replacements made. """ if not self.executed_commands: return 0 self._log_debug("Scrubbing certs and keys for commands matching %s" % (cmd)) replace = "%s %s" % (_cert_replace, desc) if desc else _cert_replace return self.do_cmd_output_sub(cmd, _certmatch, replace) def do_cmd_output_sub(self, cmd, regexp, subst): """Apply a regexp substitution to command output archived by sosreport. cmd is the command name from which output is collected (i.e. excluding parameters). The regexp can be a string or a compiled re object. The substitution string, subst, is a string that replaces each occurrence of regexp in each file collected from cmd. Internally 'cmd' is treated as a glob with a leading and trailing '*' and each matching file from the current module's command list is subjected to the replacement. This function returns the number of replacements made. """ globstr = '*' + cmd + '*' pattern = regexp.pattern if hasattr(regexp, "pattern") else regexp self._log_debug("substituting '%s' for '%s' in commands matching '%s'" % (subst, pattern, globstr)) if not self.executed_commands: return 0 replacements = None try: for called in self.executed_commands: # was anything collected? if called['file'] is None: continue if called['binary'] == 'yes': self._log_warn("Cannot apply regex substitution to binary" " output: '%s'" % called['exe']) continue if fnmatch.fnmatch(called['cmd'], globstr): path = os.path.join(self.commons['cmddir'], called['file']) self._log_debug("applying substitution to '%s'" % path) readable = self.archive.open_file(path) result, replacements = re.subn( regexp, subst, readable.read()) if replacements: self.archive.add_string(result, path) except Exception as e: msg = "regex substitution failed for '%s' with: '%s'" self._log_error(msg % (called['exe'], e)) replacements = None return replacements def do_file_private_sub(self, pathregex, desc=""): """Scrub certificate/key/etc information from files collected by sos. Files matching the provided pathregex are searched for content that resembles certificate, ssh keys, or similar information. Any matches are replaced with "-----SCRUBBED $desc" where `desc` is a description of the specific type of content being replaced, e.g. "-----SCRUBBED RSA PRIVATE KEY" so that support representatives can at least be informed of what type of content it was originally. Positional arguments: :param pathregex: A string or regex of a filename to match against :param desc: A description of the replaced content """ self._log_debug("Scrubbing certs and keys for paths matching %s" % pathregex) match = re.compile(pathregex).match replace = "%s %s" % (_cert_replace, desc) if desc else _cert_replace file_list = [f for f in self.copied_files if match(f['srcpath'])] for i in file_list: path = i['dstpath'] if not path: continue self.do_file_sub(path, _certmatch, replace) def do_file_sub(self, srcpath, regexp, subst): """Apply a regexp substitution to a file archived by sosreport. srcpath is the path in the archive where the file can be found. regexp can be a regexp string or a compiled re object. subst is a string to replace each occurance of regexp in the content of srcpath. This function returns the number of replacements made. """ try: path = self._get_dest_for_srcpath(srcpath) pattern = regexp.pattern if hasattr(regexp, "pattern") else regexp self._log_debug("substituting scrpath '%s'" % srcpath) self._log_debug("substituting '%s' for '%s' in '%s'" % (subst, pattern, path)) if not path: return 0 readable = self.archive.open_file(path) content = readable.read() if not isinstance(content, six.string_types): content = content.decode('utf8', 'ignore') result, replacements = re.subn(regexp, subst, content) if replacements: self.archive.add_string(result, srcpath) else: replacements = 0 except (OSError, IOError) as e: # if trying to regexp a nonexisting file, dont log it as an # error to stdout if e.errno == errno.ENOENT: msg = "file '%s' not collected, substitution skipped" self._log_debug(msg % path) else: msg = "regex substitution failed for '%s' with: '%s'" self._log_error(msg % (path, e)) replacements = 0 return replacements def do_path_regex_sub(self, pathexp, regexp, subst): """Apply a regexp substituation to a set of files archived by sos. The set of files to be substituted is generated by matching collected file pathnames against pathexp which may be a regular expression string or compiled re object. The portion of the file to be replaced is specified via regexp and the replacement string is passed in subst.""" if not hasattr(pathexp, "match"): pathexp = re.compile(pathexp) match = pathexp.match file_list = [f for f in self.copied_files if match(f['srcpath'])] for file in file_list: self.do_file_sub(file['srcpath'], regexp, subst) def do_regex_find_all(self, regex, fname): return regex_findall(regex, fname) def _copy_symlink(self, srcpath): # the target stored in the original symlink linkdest = os.readlink(srcpath) dest = os.path.join(os.path.dirname(srcpath), linkdest) # Absolute path to the link target. If SYSROOT != '/' this path # is relative to the host root file system. absdest = os.path.normpath(dest) # adjust the target used inside the report to always be relative if os.path.isabs(linkdest): # Canonicalize the link target path to avoid additional levels # of symbolic links (that would affect the path nesting level). realdir = os.path.realpath(os.path.dirname(srcpath)) reldest = os.path.relpath(linkdest, start=realdir) # trim leading /sysroot if self.use_sysroot(): reldest = reldest[len(os.sep + os.pardir):] self._log_debug("made link target '%s' relative as '%s'" % (linkdest, reldest)) else: reldest = linkdest self._log_debug("copying link '%s' pointing to '%s' with isdir=%s" % (srcpath, linkdest, os.path.isdir(absdest))) dstpath = self.strip_sysroot(srcpath) # use the relative target path in the tarball self.archive.add_link(reldest, dstpath) if os.path.isdir(absdest): self._log_debug("link '%s' is a directory, skipping..." % linkdest) return self.copied_files.append({'srcpath': srcpath, 'dstpath': dstpath, 'symlink': "yes", 'pointsto': linkdest}) # Check for indirect symlink loops by stat()ing the next step # in the link chain. try: os.stat(absdest) except OSError as e: if e.errno == 40: self._log_debug("link '%s' is part of a file system " "loop, skipping target..." % dstpath) return # copy the symlink target translating relative targets # to absolute paths to pass to _do_copy_path. self._log_debug("normalized link target '%s' as '%s'" % (linkdest, absdest)) # skip recursive copying of symlink pointing to itself. if (absdest != srcpath): self._do_copy_path(absdest) else: self._log_debug("link '%s' points to itself, skipping target..." % linkdest) def _copy_dir(self, srcpath): try: for name in os.listdir(srcpath): self._log_debug("recursively adding '%s' from '%s'" % (name, srcpath)) path = os.path.join(srcpath, name) self._do_copy_path(path) except OSError as e: if e.errno == errno.EPERM or errno.EACCES: msg = "Permission denied" self._log_warn("_copy_dir: '%s' %s" % (srcpath, msg)) return if e.errno == errno.ELOOP: msg = "Too many levels of symbolic links copying" self._log_error("_copy_dir: %s '%s'" % (msg, srcpath)) return raise def _get_dest_for_srcpath(self, srcpath): if self.use_sysroot(): srcpath = self.join_sysroot(srcpath) for copied in self.copied_files: if srcpath == copied["srcpath"]: return copied["dstpath"] return None def _is_forbidden_path(self, path): return _path_in_path_list(path, self.forbidden_paths) def _copy_node(self, path, st): dev_maj = os.major(st.st_rdev) dev_min = os.minor(st.st_rdev) mode = st.st_mode self.archive.add_node(path, mode, os.makedev(dev_maj, dev_min)) # Methods for copying files and shelling out def _do_copy_path(self, srcpath, dest=None): """Copy file or directory to the destination tree. If a directory, then everything below it is recursively copied. A list of copied files are saved for use later in preparing a report. """ if self._timeout_hit: return if self._is_forbidden_path(srcpath): self._log_debug("skipping forbidden path '%s'" % srcpath) return '' if not dest: dest = srcpath if self.use_sysroot(): dest = self.strip_sysroot(dest) try: st = os.lstat(srcpath) except (OSError, IOError): self._log_info("failed to stat '%s'" % srcpath) return if stat.S_ISLNK(st.st_mode): self._copy_symlink(srcpath) return else: if stat.S_ISDIR(st.st_mode) and os.access(srcpath, os.R_OK): # copy empty directory if not os.listdir(srcpath): self.archive.add_dir(dest) return self._copy_dir(srcpath) return # handle special nodes (block, char, fifo, socket) if not (stat.S_ISREG(st.st_mode) or stat.S_ISDIR(st.st_mode)): ntype = _node_type(st) self._log_debug("creating %s node at archive:'%s'" % (ntype, dest)) self._copy_node(dest, st) return # if we get here, it's definitely a regular file (not a symlink or dir) self._log_debug("copying path '%s' to archive:'%s'" % (srcpath, dest)) # if not readable(srcpath) if not st.st_mode & 0o444: # FIXME: reflect permissions in archive self.archive.add_string("", dest) else: self.archive.add_file(srcpath, dest) self.copied_files.append({ 'srcpath': srcpath, 'dstpath': dest, 'symlink': "no" }) def add_forbidden_path(self, forbidden): """Specify a path, or list of paths, to not copy, even if it's part of a copy_specs[] entry. """ if isinstance(forbidden, six.string_types): forbidden = [forbidden] if self.use_sysroot(): forbidden = [self.join_sysroot(f) for f in forbidden] for forbid in forbidden: self._log_info("adding forbidden path '%s'" % forbid) for path in glob.glob(forbid): self.forbidden_paths.append(path) def get_all_options(self): """return a list of all options selected""" return (self.opt_names, self.opt_parms) def set_option(self, optionname, value): """Set the named option to value. Ensure the original type of the option value is preserved. """ for name, parms in zip(self.opt_names, self.opt_parms): if name == optionname: # FIXME: ensure that the resulting type of the set option # matches that of the default value. This prevents a string # option from being coerced to int simply because it holds # a numeric value (e.g. a password). # See PR #1526 and Issue #1597 defaulttype = type(parms['enabled']) if defaulttype != type(value) and defaulttype != type(None): value = (defaulttype)(value) parms['enabled'] = value return True return False def get_option(self, optionname, default=0): """Returns the first value that matches 'optionname' in parameters passed in via the command line or set via set_option or via the global_plugin_options dictionary, in that order. optionaname may be iterable, in which case the first option that matches any of the option names is returned. """ global_options = ( 'all_logs', 'allow_system_changes', 'log_size', 'plugin_timeout', 'since', 'verify' ) if optionname in global_options: return getattr(self.commons['cmdlineopts'], optionname) for name, parms in zip(self.opt_names, self.opt_parms): if name == optionname: val = parms['enabled'] if val is not None: return val return default def get_option_as_list(self, optionname, delimiter=",", default=None): """Will try to return the option as a list separated by the delimiter. """ option = self.get_option(optionname) try: opt_list = [opt.strip() for opt in option.split(delimiter)] return list(filter(None, opt_list)) except Exception: return default def _add_copy_paths(self, copy_paths): self.copy_paths.update(copy_paths) def add_copy_spec(self, copyspecs, sizelimit=None, maxage=None, tailit=True, pred=None): """Add a file or glob but limit it to sizelimit megabytes. Collect files with mtime not older than maxage hours. If fname is a single file the file will be tailed to meet sizelimit. If the first file in a glob is too large it will be tailed to meet the sizelimit. """ since = None if self.get_option('since'): since = self.get_option('since') logarchive_pattern = re.compile(r'.*((\.(zip|gz|bz2|xz))|[-.][\d]+)$') configfile_pattern = re.compile(r"^%s/*" % self.join_sysroot("etc")) if not self.test_predicate(pred=pred): self._log_info("skipped copy spec '%s' due to predicate (%s)" % (copyspecs, self.get_predicate(pred=pred))) return if sizelimit is None: sizelimit = self.get_option("log_size") if self.get_option('all_logs'): sizelimit = None if sizelimit: sizelimit *= 1024 * 1024 # in MB if not copyspecs: return False if isinstance(copyspecs, six.string_types): copyspecs = [copyspecs] for copyspec in copyspecs: if not (copyspec and len(copyspec)): return False if self.use_sysroot(): copyspec = self.join_sysroot(copyspec) files = self._expand_copy_spec(copyspec) if len(files) == 0: continue # Files hould be sorted in most-recently-modified order, so that # we collect the newest data first before reaching the limit. def getmtime(path): try: return os.path.getmtime(path) except OSError: return 0 def time_filter(path): """ When --since is passed, or maxage is coming from the plugin, we need to filter out older files """ # skip config files or not-logarchive files from the filter if ((logarchive_pattern.search(path) is None) or (configfile_pattern.search(path) is not None)): return True filetime = datetime.fromtimestamp(getmtime(path)) if ((since and filetime < since) or (maxage and (time()-filetime < maxage*3600))): return False return True if since or maxage: files = list(filter(lambda f: time_filter(f), files)) files.sort(key=getmtime, reverse=True) current_size = 0 limit_reached = False for _file in files: if _file in self.copy_paths: self._log_debug("skipping redundant file '%s'" % _file) continue if self._is_forbidden_path(_file): self._log_debug("skipping forbidden path '%s'" % _file) continue if limit_reached: self._log_info("skipping '%s' over size limit" % _file) continue try: filestat = os.stat(_file) except OSError: self._log_info("failed to stat '%s'" % _file) continue current_size += filestat[stat.ST_SIZE] if sizelimit and current_size > sizelimit: limit_reached = True if tailit and not _file_is_compressed(_file): self._log_info("collecting tail of '%s' due to size " "limit" % _file) file_name = _file if file_name[0] == os.sep: file_name = file_name.lstrip(os.sep) strfile = ( file_name.replace(os.path.sep, ".") + ".tailed" ) self.add_string_as_file(tail(_file, sizelimit), strfile) rel_path = os.path.relpath('/', os.path.dirname(_file)) link_path = os.path.join(rel_path, 'sos_strings', self.name(), strfile) self.archive.add_link(link_path, _file) else: self._log_info("skipping '%s' over size limit" % _file) else: # size limit not hit, copy the file self._add_copy_paths([_file]) def _add_cmd_output(self, **kwargs): """Internal helper to add a single command to the collection list.""" pred = kwargs.pop('pred') if 'pred' in kwargs else None soscmd = SoSCommand(**kwargs) self._log_debug("packed command: " + soscmd.__str__()) if self.test_predicate(cmd=True, pred=pred): self.collect_cmds.append(soscmd) self._log_info("added cmd output '%s'" % soscmd.cmd) else: self.log_skipped_cmd(pred, soscmd.cmd, kmods=bool(pred.kmods), services=bool(pred.services), changes=soscmd.changes) def add_cmd_output(self, cmds, suggest_filename=None, root_symlink=None, timeout=cmd_timeout, stderr=True, chroot=True, runat=None, env=None, binary=False, sizelimit=None, pred=None, subdir=None, changes=False, foreground=False): """Run a program or a list of programs and collect the output""" if isinstance(cmds, six.string_types): cmds = [cmds] if len(cmds) > 1 and (suggest_filename or root_symlink): self._log_warn("ambiguous filename or symlink for command list") if sizelimit is None: sizelimit = self.get_option("log_size") if pred is None: pred = self.get_predicate(cmd=True) for cmd in cmds: self._add_cmd_output(cmd=cmd, suggest_filename=suggest_filename, root_symlink=root_symlink, timeout=timeout, stderr=stderr, chroot=chroot, runat=runat, env=env, binary=binary, sizelimit=sizelimit, pred=pred, subdir=subdir, changes=changes, foreground=foreground) def get_cmd_output_path(self, name=None, make=True): """Return a path into which this module should store collected command output """ cmd_output_path = os.path.join(self.archive.get_tmp_dir(), 'sos_commands', self.name()) if name: cmd_output_path = os.path.join(cmd_output_path, name) if make: os.makedirs(cmd_output_path) return cmd_output_path def file_grep(self, regexp, *fnames): """Returns lines matched in fnames, where fnames can either be pathnames to files to grep through or open file objects to grep through line by line. """ return grep(regexp, *fnames) def _mangle_command(self, exe): name_max = self.archive.name_max() return _mangle_command(exe, name_max) def _make_command_filename(self, exe, subdir=None): """The internal function to build up a filename based on a command.""" plugin_dir = self.name() if subdir: # only allow a single level of subdir to be created plugin_dir += "/%s" % subdir.split('/')[0] outdir = os.path.join(self.commons['cmddir'], plugin_dir) outfn = self._mangle_command(exe) # check for collisions if os.path.exists(os.path.join(self.archive.get_tmp_dir(), outdir, outfn)): inc = 1 name_max = self.archive.name_max() while True: suffix = ".%d" % inc newfn = outfn if name_max < len(newfn)+len(suffix): newfn = newfn[:(name_max-len(newfn)-len(suffix))] newfn = newfn + suffix if not os.path.exists(os.path.join(self.archive.get_tmp_dir(), outdir, newfn)): outfn = newfn break inc += 1 return os.path.join(outdir, outfn) def add_env_var(self, name): """Add an environment variable to the list of to-be-collected env vars. Accepts either a single variable name or a list of names. Any value given will be added as provided to the method, as well as an upper- and lower- cased version. """ if not isinstance(name, list): name = [name] for env in name: # get both upper and lower cased vars since a common support issue # is setting the env vars to the wrong case, and if the plugin # adds a mixed case variable name, still get that as well self._env_vars.update([env, env.upper(), env.lower()]) def add_string_as_file(self, content, filename, pred=None): """Add a string to the archive as a file named `filename`""" # Generate summary string for logging summary = content.splitlines()[0] if content else '' if not isinstance(summary, six.string_types): summary = content.decode('utf8', 'ignore') if not self.test_predicate(cmd=False, pred=pred): self._log_info("skipped string ...'%s' due to predicate (%s)" % (summary, self.get_predicate(pred=pred))) return self.copy_strings.append((content, filename)) self._log_debug("added string ...'%s' as '%s'" % (summary, filename)) def _collect_cmd_output(self, cmd, suggest_filename=None, root_symlink=False, timeout=cmd_timeout, stderr=True, chroot=True, runat=None, env=None, binary=False, sizelimit=None, subdir=None, changes=False, foreground=False): """Execute a command and save the output to a file for inclusion in the report. Positional Arguments: :param cmd: The command to run Keyword Arguments: :param suggest_filename: Filename to use when writing to the archive :param root_symlink: Create a symlink in the archive root :param timeout: Time in seconds to allow a cmd to run :param stderr: Write stderr to stdout? :param chroot: Perform chroot before running cmd? :param runat: Run the command from this location, overriding chroot :param env: Dict of env vars to set for the cmd :param binary: Is the output in binary? :param sizelimit: Maximum size in MB of output to save :param subdir: Subdir in plugin directory to save to :param changes: Does this cmd potentially make a change on the system? :returns: dict containing status, output, and filename in the archive for the executed cmd """ if self._timeout_hit: return if chroot or self.commons['cmdlineopts'].chroot == 'always': root = self.sysroot else: root = None start = time() result = sos_get_command_output( cmd, timeout=timeout, stderr=stderr, chroot=root, chdir=runat, env=env, binary=binary, sizelimit=sizelimit, poller=self.check_timeout, foreground=foreground ) if result['status'] == 124: self._log_warn( "command '%s' timed out after %ds" % (cmd, timeout) ) # command not found or not runnable if result['status'] == 126 or result['status'] == 127: # automatically retry chroot'ed commands in the host namespace if root and root != '/': if self.commons['cmdlineopts'].chroot != 'always': self._log_info("command '%s' not found in %s - " "re-trying in host root" % (cmd.split()[0], root)) result = sos_get_command_output( cmd, timeout=timeout, chroot=False, chdir=runat, env=env, binary=binary, sizelimit=sizelimit, poller=self.check_timeout ) self._log_debug("could not run '%s': command not found" % cmd) # Exit here if the command was not found in the chroot check above # as otherwise we will create a blank file in the archive if result['status'] in [126, 127]: return result self._log_debug("collected output of '%s' in %s (changes=%s)" % (cmd.split()[0], time() - start, changes)) if suggest_filename: outfn = self._make_command_filename(suggest_filename, subdir) else: outfn = self._make_command_filename(cmd, subdir) outfn_strip = outfn[len(self.commons['cmddir'])+1:] if binary: self.archive.add_binary(result['output'], outfn) else: self.archive.add_string(result['output'], outfn) if root_symlink: self.archive.add_link(outfn, root_symlink) # save info for later self.executed_commands.append({'cmd': cmd, 'file': outfn_strip, 'binary': 'yes' if binary else 'no'}) result['filename'] = ( os.path.join(self.archive.get_archive_path(), outfn) if outfn else '' ) return result def collect_cmd_output(self, cmd, suggest_filename=None, root_symlink=False, timeout=cmd_timeout, stderr=True, chroot=True, runat=None, env=None, binary=False, sizelimit=None, pred=None, subdir=None): """Execute a command and save the output to a file for inclusion in the report. """ if not self.test_predicate(cmd=True, pred=pred): self._log_info("skipped cmd output '%s' due to predicate (%s)" % (cmd, self.get_predicate(cmd=True, pred=pred))) return { 'status': None, # don't match on if result['status'] checks 'output': '', 'filename': '' } return self._collect_cmd_output( cmd, suggest_filename=suggest_filename, root_symlink=root_symlink, timeout=timeout, stderr=stderr, chroot=chroot, runat=runat, env=env, binary=binary, sizelimit=sizelimit, subdir=subdir ) def exec_cmd(self, cmd, timeout=cmd_timeout, stderr=True, chroot=True, runat=None, env=None, binary=False, pred=None, foreground=False): """Execute a command right now and return the output and status, but do not save the output within the archive. Use this method in a plugin's setup() if command output is needed to build subsequent commands added to a report via add_cmd_output(). """ if not self.test_predicate(cmd=True, pred=pred): return { 'status': None, 'output': '' } if chroot or self.commons['cmdlineopts'].chroot == 'always': root = self.sysroot else: root = None return sos_get_command_output(cmd, timeout=timeout, chroot=root, chdir=runat, binary=binary, env=env, foreground=foreground) def is_module_loaded(self, module_name): """Return whether specified module as module_name is loaded or not""" return module_name in self.policy.kernel_mods # For adding output def add_alert(self, alertstring): """Add an alert to the collection of alerts for this plugin. These will be displayed in the report """ self.alerts.append(alertstring) def add_custom_text(self, text): """Append text to the custom text that is included in the report. This is freeform and can include html. """ self.custom_text += text def add_service_status(self, services, **kwargs): """Collect service status information based on the InitSystem used. :param services: A string, or list of strings, specifying the services to collect :param kwargs Optional arguments to pass to _add_cmd_output (timeout, predicate, suggest_filename,..) """ if isinstance(services, six.string_types): services = [services] query = self.policy.init_system.query_cmd if not query: # No policy defined InitSystem, cannot use add_service_status self._log_debug('Cannot add service output, policy does not define' ' an InitSystem to use') return for service in services: self._add_cmd_output(cmd="%s %s" % (query, service), **kwargs) def add_journal(self, units=None, boot=None, since=None, until=None, lines=None, allfields=False, output=None, timeout=cmd_timeout, identifier=None, catalog=None, sizelimit=None, pred=None): """Collect journald logs from one of more units. :param units: A string, or list of strings specifying the systemd units for which journal entries will be collected. :param boot: A string selecting a boot index using the journalctl syntax. The special values 'this' and 'last' are also accepted. :param since: A string representation of the start time for journal messages. :param until: A string representation of the end time for journal messages. :param lines: The maximum number of lines to be collected. :param allfields: A bool. Include all journal fields regardless of size or non-printable characters. :param output: A journalctl output control string, for example "verbose". :param timeout: An optional timeout in seconds. :param identifier: An optional message identifier. :param catalog: Bool. If True, augment lines with descriptions from the system catalog. :param sizelimit: Limit to the size of output returned in MB. Defaults to the value of --log-size. """ journal_cmd = "journalctl --no-pager " unit_opt = " --unit %s" boot_opt = " --boot %s" since_opt = " --since '%s'" until_opt = " --until %s" lines_opt = " --lines %s" output_opt = " --output %s" identifier_opt = " --identifier %s" catalog_opt = " --catalog" journal_size = 100 all_logs = self.get_option("all_logs") log_size = sizelimit or self.get_option("log_size") log_size = max(log_size, journal_size) if not all_logs else 0 if isinstance(units, six.string_types): units = [units] if units: for unit in units: journal_cmd += unit_opt % unit if identifier: journal_cmd += identifier_opt % identifier if catalog: journal_cmd += catalog_opt if allfields: journal_cmd += " --all" if boot: if boot == "this": boot = "" if boot == "last": boot = "-1" journal_cmd += boot_opt % boot if since: journal_cmd += since_opt % since if until: journal_cmd += until_opt % until if lines: journal_cmd += lines_opt % lines if output: journal_cmd += output_opt % output self._log_debug("collecting journal: %s" % journal_cmd) self._add_cmd_output(cmd=journal_cmd, timeout=timeout, sizelimit=log_size, pred=pred) def add_udev_info(self, device, attrs=False): """Collect udevadm info output for a given device :param device: A string or list of strings of device names or sysfs paths. E.G. either '/sys/class/scsi_host/host0' or '/dev/sda' is valid. :param attrs: If True, run udevadm with the --attribute-walk option. """ udev_cmd = 'udevadm info' if attrs: udev_cmd += ' -a' if isinstance(device, six.string_types): device = [device] for dev in device: self._log_debug("collecting udev info for: %s" % dev) self._add_cmd_output(cmd='%s %s' % (udev_cmd, dev)) def _expand_copy_spec(self, copyspec): return glob.glob(copyspec) def _collect_copy_specs(self): for path in self.copy_paths: self._log_info("collecting path '%s'" % path) self._do_copy_path(path) def _collect_cmds(self): for soscmd in self.collect_cmds: self._log_debug("unpacked command: " + soscmd.__str__()) self._log_info("collecting output of '%s'" % soscmd.cmd) self._collect_cmd_output(**soscmd.__dict__) def _collect_strings(self): for string, file_name in self.copy_strings: if self._timeout_hit: return content = '' if string: content = string.splitlines()[0] if not isinstance(content, six.string_types): content = content.decode('utf8', 'ignore') self._log_info("collecting string ...'%s' as '%s'" % (content, file_name)) try: self.archive.add_string(string, os.path.join('sos_strings', self.name(), file_name)) except Exception as e: self._log_debug("could not add string '%s': %s" % (file_name, e)) def collect(self): """Collect the data for a plugin.""" start = time() self._collect_copy_specs() self._collect_cmds() self._collect_strings() fields = (self.name(), time() - start) self._log_debug("collected plugin '%s' in %s" % fields) def get_description(self): """ This function will return the description for the plugin""" try: if hasattr(self, '__doc__') and self.__doc__: return self.__doc__.strip() return super(self.__class__, self).__doc__.strip() except Exception: return "<no description available>" def check_enabled(self): """This method will be used to verify that a plugin should execute given the condition of the underlying environment. The default implementation will return True if none of class.files, class.packages, nor class.commands is specified. If any of these is specified the plugin will check for the existence of any of the corresponding paths, packages or commands and return True if any are present. For SCLPlugin subclasses, it will check whether the plugin can be run for any of installed SCLs. If so, it will store names of these SCLs on the plugin class in addition to returning True. For plugins with more complex enablement checks this method may be overridden. """ # some files or packages have been specified for this package if any([self.files, self.packages, self.commands, self.kernel_mods, self.services, self.architectures]): if isinstance(self.files, six.string_types): self.files = [self.files] if isinstance(self.packages, six.string_types): self.packages = [self.packages] if isinstance(self.commands, six.string_types): self.commands = [self.commands] if isinstance(self.kernel_mods, six.string_types): self.kernel_mods = [self.kernel_mods] if isinstance(self.services, six.string_types): self.services = [self.services] if isinstance(self, SCLPlugin): # save SCLs that match files or packages type(self)._scls_matched = [] for scl in self._get_scls(): files = [f % {"scl_name": scl} for f in self.files] packages = [p % {"scl_name": scl} for p in self.packages] commands = [c % {"scl_name": scl} for c in self.commands] services = [s % {"scl_name": scl} for s in self.services] if self._check_plugin_triggers(files, packages, commands, services): type(self)._scls_matched.append(scl) return len(type(self)._scls_matched) > 0 return self._check_plugin_triggers(self.files, self.packages, self.commands, self.services) if isinstance(self, SCLPlugin): # if files and packages weren't specified, we take all SCLs type(self)._scls_matched = self._get_scls() return True def _check_plugin_triggers(self, files, packages, commands, services): return ((any(os.path.exists(fname) for fname in files) or any(self.is_installed(pkg) for pkg in packages) or any(is_executable(cmd) for cmd in commands) or any(self.is_module_loaded(mod) for mod in self.kernel_mods) or any(self.is_service(svc) for svc in services)) and self.check_is_architecture()) def check_is_architecture(self): """Checks whether or not the system is running on an architecture that the plugin allows. If not architecture is set, assume plugin can run on all arches. """ if self.architectures is None: return True regex = '(?:%s)' % '|'.join(self.architectures) return re.match(regex, self.policy.get_arch()) def default_enabled(self): """This decides whether a plugin should be automatically loaded or only if manually specified in the command line.""" return True def add_default_collections(self): """Based on the class attrs defined for plugin enablement, add a standardized set of collections before we call the plugin's own setup() method. """ # For any service used for enablement checks, collect its current # status if it exists for service in self.services: if self.is_service(service): self.add_service_status(service) def setup(self): """Collect the list of files declared by the plugin. This method may be overridden to add further copy_specs, forbidden_paths, and external programs if required. """ self.add_copy_spec(list(self.files)) def setup_verify(self): if not hasattr(self, "verify_packages") or not self.verify_packages: if hasattr(self, "packages") and self.packages: # Limit automatic verification to only the named packages self.verify_packages = [p + "$" for p in self.packages] else: return pm = self.policy.package_manager verify_cmd = pm.build_verify_command(self.verify_packages) if verify_cmd: self.add_cmd_output(verify_cmd) def postproc(self): """Perform any postprocessing. To be replaced by a plugin if required. """ pass def check_process_by_name(self, process): """Checks if a named process is found in /proc/[0-9]*/cmdline. Returns either True or False.""" status = False cmd_line_glob = "/proc/[0-9]*/cmdline" try: cmd_line_paths = glob.glob(cmd_line_glob) for path in cmd_line_paths: f = open(path, 'r') cmd_line = f.read().strip() if process in cmd_line: status = True except IOError as e: return False return status def get_process_pids(self, process): """Returns PIDs of all processes with process name. If the process doesn't exist, returns an empty list""" pids = [] cmd_line_glob = "/proc/[0-9]*/cmdline" cmd_line_paths = glob.glob(cmd_line_glob) for path in cmd_line_paths: try: with open(path, 'r') as f: cmd_line = f.read().strip() if process in cmd_line: pids.append(path.split("/")[2]) except IOError as e: continue return pids class RedHatPlugin(object): """Tagging class for Red Hat's Linux distributions""" pass class SCLPlugin(RedHatPlugin): """Superclass for plugins operating on Software Collections (SCLs). Subclasses of this plugin class can specify class.files and class.packages using "%(scl_name)s" interpolation. The plugin invoking mechanism will try to match these against all found SCLs on the system. SCLs that do match class.files or class.packages are then accessible via self.scls_matched when the plugin is invoked. Additionally, this plugin class provides "add_cmd_output_scl" (run a command in context of given SCL), and "add_copy_spec_scl" and "add_copy_spec_limit_scl" (copy package from file system of given SCL). For example, you can implement a plugin that will list all global npm packages in every SCL that contains "npm" package: class SCLNpmPlugin(Plugin, SCLPlugin): packages = ("%(scl_name)s-npm",) def setup(self): for scl in self.scls_matched: self.add_cmd_output_scl(scl, "npm ls -g --json") """ @property def scls_matched(self): if not hasattr(type(self), '_scls_matched'): type(self)._scls_matched = [] return type(self)._scls_matched def _get_scls(self): output = sos_get_command_output("scl -l")["output"] return [scl.strip() for scl in output.splitlines()] def convert_cmd_scl(self, scl, cmd): """wrapping command in "scl enable" call and adds proper PATH """ # load default SCL prefix to PATH prefix = self.policy.get_default_scl_prefix() # read prefix from /etc/scl/prefixes/${scl} and strip trailing '\n' try: prefix = open('/etc/scl/prefixes/%s' % scl, 'r').read()\ .rstrip('\n') except Exception as e: self._log_error("Failed to find prefix for SCL %s, using %s" % (scl, prefix)) # expand PATH by equivalent prefixes under the SCL tree path = os.environ["PATH"] for p in path.split(':'): path = '%s/%s%s:%s' % (prefix, scl, p, path) scl_cmd = "scl enable %s \"PATH=%s %s\"" % (scl, path, cmd) return scl_cmd def add_cmd_output_scl(self, scl, cmds, **kwargs): """Same as add_cmd_output, except that it wraps command in "scl enable" call and sets proper PATH. """ if isinstance(cmds, six.string_types): cmds = [cmds] scl_cmds = [] for cmd in cmds: scl_cmds.append(self.convert_cmd_scl(scl, cmd)) self.add_cmd_output(scl_cmds, **kwargs) # config files for Software Collections are under /etc/${prefix}/${scl} and # var files are under /var/${prefix}/${scl} where the ${prefix} is distro # specific path. So we need to insert the paths after the appropriate root # dir. def convert_copyspec_scl(self, scl, copyspec): scl_prefix = self.policy.get_default_scl_prefix() for rootdir in ['etc', 'var']: p = re.compile('^/%s/' % rootdir) copyspec = p.sub('/%s/%s/%s/' % (rootdir, scl_prefix, scl), copyspec) return copyspec def add_copy_spec_scl(self, scl, copyspecs): """Same as add_copy_spec, except that it prepends path to SCL root to "copyspecs". """ if isinstance(copyspecs, six.string_types): copyspecs = [copyspecs] scl_copyspecs = [] for copyspec in copyspecs: scl_copyspecs.append(self.convert_copyspec_scl(scl, copyspec)) self.add_copy_spec(scl_copyspecs) def add_copy_spec_limit_scl(self, scl, copyspec, **kwargs): """Same as add_copy_spec_limit, except that it prepends path to SCL root to "copyspec". """ self.add_copy_spec_limit( self.convert_copyspec_scl(scl, copyspec), **kwargs ) class PowerKVMPlugin(RedHatPlugin): """Tagging class for IBM PowerKVM Linux""" pass class ZKVMPlugin(RedHatPlugin): """Tagging class for IBM ZKVM Linux""" pass class UbuntuPlugin(object): """Tagging class for Ubuntu Linux""" pass class DebianPlugin(object): """Tagging class for Debian Linux""" pass class SuSEPlugin(object): """Tagging class for SuSE Linux distributions""" pass class IndependentPlugin(object): """Tagging class for plugins that can run on any platform""" pass class ExperimentalPlugin(object): """Tagging class that indicates that this plugin is experimental""" pass def import_plugin(name, superclasses=None): """Import name as a module and return a list of all classes defined in that module. superclasses should be a tuple of valid superclasses to import, this defaults to (Plugin,). """ plugin_fqname = "sos.plugins.%s" % name if not superclasses: superclasses = (Plugin,) return import_module(plugin_fqname, superclasses) # vim: set et ts=4 sw=4 :