import struct import reboot esc = struct.pack('i', 27) RED = esc + "[1;31m" GREEN = esc + "[1;32m" YELLOW = esc + "[1;33m" BLUE = esc + "[1;34m" LIGHTBLUE = esc + "[1;36m" NORMAL = esc + "[0;39m" def red(str): return RED + str + NORMAL def yellow(str): return YELLOW + str + NORMAL def green(str): return GREEN + str + NORMAL def lightblue(str): return LIGHTBLUE + str + NORMAL def blue(str): return BLUE + str + NORMAL def get_current_state(fbnode): if 'state' in fbnode: state = fbnode['state'] else: state = "none" l = state.lower() if l == "debug": l = 'dbg ' return l def color_pcu_state(fbnode): import plc if 'plcnode' in fbnode and 'pcu_ids' in fbnode['plcnode'] and len(fbnode['plcnode']['pcu_ids']) > 0 : values = reboot.get_pcu_values(fbnode['plcnode']['pcu_ids'][0]) if values == None: return fbnode['pcu'] else: if 'pcu' not in fbnode: return 'NOPCU' else: return fbnode['pcu'] if 'reboot' in values: rb = values['reboot'] if rb == 0 or rb == "0": return fbnode['pcu'] + "OK " #return fbnode['pcu'] + "OK " #return green(fbnode['pcu']) elif "NetDown" == rb or "Not_Run" == rb: return fbnode['pcu'] + "DOWN" #return yellow(fbnode['pcu']) else: return fbnode['pcu'] + "BAD " #return red(fbnode['pcu']) else: #return red(fbnode['pcu']) return fbnode['pcu'] + "BAD " def color_boot_state(l): if l == "dbg": return yellow("debg") elif l == "dbg ": return yellow("debg") elif l == "diag": return lightblue(l) elif l == "disable": return red("dsbl") elif l == "down": return red(l) elif l == "boot": return green(l) elif l == "rins": return blue(l) else: return l def diff_time(timestamp): import math now = time.time() if timestamp == None: return "unknown" diff = now - timestamp # return the number of seconds as a difference from current time. t_str = "" if diff < 60: # sec in min. t = diff / 1 t_str = "%s sec ago" % int(math.ceil(t)) elif diff < 60*60: # sec in hour t = diff / (60) t_str = "%s min ago" % int(math.ceil(t)) elif diff < 60*60*24: # sec in day t = diff / (60*60) t_str = "%s hrs ago" % int(math.ceil(t)) elif diff < 60*60*24*7: # sec in week t = diff / (60*60*24) t_str = "%s days ago" % int(math.ceil(t)) elif diff <= 60*60*24*30: # approx sec in month t = diff / (60*60*24*7) t_str = "%s wks ago" % int(math.ceil(t)) elif diff > 60*60*24*30: # approx sec in month t = diff / (60*60*24*30) t_str = "%s mnths ago" % int(t) return t_str def nodegroup_display(node, fb, conf=None): if node['hostname'] in fb['nodes']: node['current'] = get_current_state(fb['nodes'][node['hostname']]['values']) else: node['current'] = 'none' if fb['nodes'][node['hostname']]['values'] == []: return "" s = fb['nodes'][node['hostname']]['values']['kernel'].split() if len(s) >=3: node['kernel'] = s[2] else: node['kernel'] = fb['nodes'][node['hostname']]['values']['kernel'] if '2.6' not in node['kernel']: node['kernel'] = "" if conf and not conf.nocolor: node['boot_state'] = color_boot_state(node['boot_state']) node['current'] = color_boot_state(node['current']) #node['boot_state'] = node['boot_state'] #node['current'] = node['current'] node['pcu'] = fb['nodes'][node['hostname']]['values']['pcu'] node['lastupdate'] = diff_time(node['last_contact']) return "%(hostname)-42s %(boot_state)8s %(current)5s %(pcu)6s %(key)20.20s... %(kernel)43s %(lastupdate)12s " % node from model import * import soltesz def node_end_record(node): act_all = soltesz.dbLoad("act_all") if node not in act_all: del act_all return False if len(act_all[node]) == 0: del act_all return False a = Action(node, act_all[node][0]) a.delField('rt') a.delField('found_rt_ticket') a.delField('second-mail-at-oneweek') a.delField('second-mail-at-twoweeks') a.delField('first-found') rec = a.get() rec['action'] = ["close_rt"] rec['category'] = "UNKNOWN" rec['stage'] = "monitor-end-record" rec['time'] = time.time() - 7*60*60*24 act_all[node].insert(0,rec) soltesz.dbDump("act_all", act_all) del act_all return True def datetime_fromstr(str): if '-' in str: try: tup = time.strptime(str, "%Y-%m-%d") except: tup = time.strptime(str, "%Y-%m-%d-%H:%M") elif '/' in str: tup = time.strptime(str, "%m/%d/%Y") else: tup = time.strptime(str, "%m/%d/%Y") ret = datetime.fromtimestamp(time.mktime(tup)) return ret