# Copyright (C) 2008 Dejan Muhamedagic # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This software 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 library; if not, write to the Free Software # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA # import os import pwd from tempfile import mkstemp import subprocess import re import glob import time from userprefs import Options, UserPrefs from vars import Vars from msg import * def is_program(prog): return subprocess.call("which %s >/dev/null 2>&1"%prog, shell=True) == 0 def ask(msg): # if there's no terminal, no use asking and default to "no" if not sys.stdin.isatty(): return False print_msg = True while True: try: ans = raw_input(msg + ' ') except EOFError: ans = 'n' if not ans or ans[0].lower() not in ('n','y'): if print_msg: print "Please answer with y[es] or n[o]" print_msg = False else: return ans[0].lower() == 'y' def verify_boolean(opt): return opt.lower() in ("yes","true","on") or \ opt.lower() in ("no","false","off") def is_boolean_true(opt): return opt.lower() in ("yes","true","on") def keyword_cmp(string1, string2): return string1.lower() == string2.lower() from UserDict import DictMixin class odict(DictMixin): def __init__(self, data=None, **kwdata): self._keys = [] self._data = {} def __setitem__(self, key, value): if key not in self._data: self._keys.append(key) self._data[key] = value def __getitem__(self, key): if key not in self._data: return self._data[key.lower()] return self._data[key] def __delitem__(self, key): del self._data[key] self._keys.remove(key) def keys(self): return list(self._keys) def copy(self): copyDict = odict() copyDict._data = self._data.copy() copyDict._keys = self._keys[:] return copyDict class olist(list): def __init__(self, keys): #print "Init %s" % (repr(keys)) super(olist, self).__init__() for key in keys: self.append(key) self.append(key.upper()) def setup_help_aliases(obj): for cmd in obj.cmd_aliases.keys(): for alias in obj.cmd_aliases[cmd]: if obj.help_table: obj.help_table[alias] = obj.help_table[cmd] def setup_aliases(obj): for cmd in obj.cmd_aliases.keys(): for alias in obj.cmd_aliases[cmd]: obj.cmd_table[alias] = obj.cmd_table[cmd] def os_types_list(path): l = [] for f in glob.glob(path): if os.access(f,os.X_OK) and os.path.isfile(f): a = f.split("/") l.append(a[-1]) return l def listtemplates(): l = [] for f in os.listdir(vars.tmpl_dir): if os.path.isfile("%s/%s" % (vars.tmpl_dir,f)): l.append(f) return l def listconfigs(): l = [] for f in os.listdir(vars.tmpl_conf_dir): if os.path.isfile("%s/%s" % (vars.tmpl_conf_dir,f)): l.append(f) return l def add_sudo(cmd): if user_prefs.crm_user: return "sudo -E -u %s %s"%(user_prefs.crm_user,cmd) return cmd def pipe_string(cmd,s): rc = -1 # command failed cmd = add_sudo(cmd) p = subprocess.Popen(cmd, shell=True, stdin=subprocess.PIPE) try: p.communicate(s) p.wait() rc = p.returncode except IOError, msg: if not ("Broken pipe" in msg): common_err(msg) return rc def filter_string(cmd,s,stderr_on = True): rc = -1 # command failed if stderr_on: stderr = None else: stderr = subprocess.PIPE cmd = add_sudo(cmd) p = subprocess.Popen(cmd, shell=True, \ stdin = subprocess.PIPE, \ stdout = subprocess.PIPE, stderr = stderr) try: outp = p.communicate(s)[0] p.wait() rc = p.returncode except IOError, msg: common_err(msg) return rc,outp def str2tmp(s): ''' Write the given string to a temporary file. Return the name of the file. ''' fd,tmp = mkstemp() try: f = os.fdopen(fd,"w") except IOError, msg: common_err(msg) return f.write(s) f.close() return tmp def str2file(s,fname): ''' Write a string to a file. ''' try: f = open(fname,"w") except IOError, msg: common_err(msg) return False f.write(s) f.close() return True def is_filename_sane(name): if re.search("['`/#*?$\[\]]",name): common_err("%s: bad name"%name) return False return True def is_name_sane(name): if re.search("[']",name): common_err("%s: bad name"%name) return False return True def is_value_sane(name): if re.search("[']",name): common_err("%s: bad name"%name) return False return True def show_dot_graph(dotfile): p = subprocess.Popen("%s %s" % (user_prefs.dotty,dotfile), shell=True, bufsize=0, stdin=None, stdout=None, stderr=None, close_fds=True) common_info("starting %s to show transition graph"%user_prefs.dotty) def ext_cmd(cmd): if options.regression_tests: print ".EXT", cmd return subprocess.call(add_sudo(cmd), shell=True) def get_stdout(cmd, stderr_on = True): ''' Run a cmd, return stdin output. stderr_on controls whether to show output which comes on stderr. ''' if stderr_on: stderr = None else: stderr = subprocess.PIPE proc = subprocess.Popen(cmd, shell = True, \ stdout = subprocess.PIPE, stderr = stderr) outp = proc.communicate()[0] proc.wait() outp = outp.strip() return outp def stdout2list(cmd, stderr_on = True): ''' Run a cmd, fetch output, return it as a list of lines. stderr_on controls whether to show output which comes on stderr. ''' s = get_stdout(add_sudo(cmd), stderr_on) return s.split('\n') def wait4dc(what = "", show_progress = True): ''' Wait for the DC to get into the S_IDLE state. This should be invoked only after a CIB modification which would exercise the PE. Parameter "what" is whatever the caller wants to be printed if showing progress. It is assumed that the DC is already in a different state, usually it should be either PENGINE or TRANSITION. This assumption may not be true, but there's a high chance that it is since crmd should be faster to move through states than this shell. Further, it may also be that crmd already calculated the new graph, did transition, and went back to the idle state. This may in particular be the case if the transition turned out to be empty. Tricky. Though in practice it shouldn't be an issue. There's no timeout, as we expect the DC to eventually becomes idle. ''' cmd = "crmadmin -D" s = get_stdout(add_sudo(cmd)) if not s.startswith("Designated"): common_warn("%s unexpected output: %s" % (cmd,s)) return False dc = s.split()[-1] if not dc: common_warn("can't find DC in: %s" % s) return False cmd = "crmadmin -S %s" % dc cnt = 0 output_started = 0 while True: s = get_stdout(add_sudo(cmd)) if not s.startswith("Status"): common_warn("%s unexpected output: %s" % (cmd,s)) return False try: dc_status = s.split()[-2] except: common_warn("%s unexpected output: %s" % (cmd,s)) return False if dc_status == "S_IDLE": if output_started: sys.stderr.write(" done\n") return True time.sleep(0.1) if show_progress: if not output_started: output_started = 1 sys.stderr.write("waiting for %s to finish ." % what) cnt += 1 if cnt % 5 == 0: sys.stderr.write(".") def is_id_valid(id): """ Verify that the id follows the definition: http://www.w3.org/TR/1999/REC-xml-names-19990114/#ns-qualnames """ if not id: return False id_re = "^[A-Za-z_][\w._-]*$" return re.match(id_re,id) def check_filename(fname): """ Verify that the string is a filename. """ fname_re = "^[^/]+$" return re.match(fname_re,id) def is_process(s): proc = subprocess.Popen("ps -e -o pid,command | grep -qs '%s'" % s, \ shell=True, stdout=subprocess.PIPE) proc.wait() return proc.returncode == 0 def cluster_stack(): if is_process("heartbeat:.[m]aster"): return "heartbeat" elif is_process("[a]isexec"): return "openais" return "" def edit_file(fname): 'Edit a file.' if not fname: return if not user_prefs.editor: return return ext_cmd("%s %s" % (user_prefs.editor,fname)) def page_string(s): 'Write string through a pager.' if not s: return w,h = get_winsize() if s.count('\n') < h: print s elif not user_prefs.pager or not sys.stdout.isatty() or options.batch: print s else: opts = "" if user_prefs.pager == "less": opts = "-R" pipe_string("%s %s" % (user_prefs.pager,opts), s) def get_winsize(): try: import curses curses.setupterm() w = curses.tigetnum('cols') h = curses.tigetnum('lines') except: try: w = os.environ['COLS'] h = os.environ['LINES'] except: w = 80; h = 25 return w,h def multicolumn(l): ''' A ls-like representation of a list of strings. A naive approach. ''' min_gap = 2 w,h = get_winsize() max_len = 8 for s in l: if len(s) > max_len: max_len = len(s) cols = w/(max_len + min_gap) # approx. col_len = w/cols for i in range(len(l)/cols + 1): s = '' for j in range(i*cols,(i+1)*cols): if not j < len(l): break if not s: s = "%-*s" % (col_len,l[j]) elif (j+1)%cols == 0: s = "%s%s" % (s,l[j]) else: s = "%s%-*s" % (s,col_len,l[j]) if s: print s def find_value(pl,name): for n,v in pl: if n == name: return v return None def lines2cli(s): ''' Convert a string into a list of lines. Replace continuation characters. Strip white space, left and right. Drop empty lines. ''' cl = [] l = s.split('\n') cum = [] for p in l: p = p.strip() if p.endswith('\\'): p = p.rstrip('\\') cum.append(p) else: cum.append(p) cl.append(''.join(cum).strip()) cum = [] if cum: # in case s ends with backslash cl.append(''.join(cum)) return [x for x in cl if x] user_prefs = UserPrefs.getInstance() options = Options.getInstance() vars = Vars.getInstance() # vim:ts=4:sw=4:et: