def api_date_check(self): tmpl = self.env.get_template('json/date_check.json') cherrypy.response.headers['Content-Type'] = 'application/json' tmpl_vars = dict() if Checks.last_check_date is None: tmpl_vars['last_timestamp'] = '0' tmpl_vars['last_fulldate'] = 'Never' else: tmpl_vars['last_timestamp'] = crUtilsDate.datetimeToTimestamp(Checks.last_check_date) tmpl_vars['last_fulldate'] = Checks.last_check_date.strftime("%Y-%m-%d %H:%M:%S") tmpl_vars['current_timestamp'] = crUtilsDate.datetimeToTimestamp(datetime.datetime.now()) try: tmpl_vars['checks_interval'] = int(Config.getConfigValue('Checks', 'interval')) except: tmpl_vars['checks_interval'] = int(Config.CR_CONFIG_DEFAULT_CHECKS_INTERVAL) return tmpl.render(tmpl_vars)
def api_full_check(self): tmpl = self.env.get_template('json/full_check.json') cherrypy.response.headers['Content-Type'] = 'application/json' tmpl_vars = dict() if Checks.last_check_date is None: tmpl_vars['last_timestamp'] = '0' tmpl_vars['last_fulldate'] = 'Never' else: tmpl_vars['last_timestamp'] = crUtilsDate.datetimeToTimestamp(Checks.last_check_date) tmpl_vars['last_fulldate'] = Checks.last_check_date.strftime("%Y-%m-%d %H:%M:%S") tmpl_vars['current_timestamp'] = crUtilsDate.datetimeToTimestamp(datetime.datetime.now()) # CPU Check informations if Checks.last_check_cpu is None: tmpl_vars['cpu_check_enabled'] = 'False' else: tmpl_vars['cpu_check_enabled'] = 'True' tmpl_vars['cpu_percent'] = int(Checks.last_check_cpu.user) + int(Checks.last_check_cpu.system) tmpl_vars['cpu_user'] = Checks.last_check_cpu.user tmpl_vars['cpu_system'] = Checks.last_check_cpu.system if int(Config.getConfigValue('Alerts', 'cpu_alert')) <= int(tmpl_vars['cpu_percent']): tmpl_vars['cpu_state'] = "alert" elif int(Config.getConfigValue('Alerts', 'cpu_warning')) <= int(tmpl_vars['cpu_percent']): tmpl_vars['cpu_state'] = "warning" else: tmpl_vars['cpu_state'] = 'ok' # Memory check informations if Checks.last_check_memory is None: tmpl_vars['memory_check_enabled'] = 'False' else: tmpl_vars['memory_check_enabled'] = "True" tmpl_vars['memory_percent'] = ((int(Checks.last_check_memory.total) - int( Checks.last_check_memory.free)) * 100) / int(Checks.last_check_memory.total) tmpl_vars['memory_free'] = crUtilsText.convertByte(Checks.last_check_memory.free) tmpl_vars['memory_total'] = crUtilsText.convertByte(Checks.last_check_memory.total) tmpl_vars['memory_used'] = crUtilsText.convertByte( float(Checks.last_check_memory.total) - float(Checks.last_check_memory.free)) if int(tmpl_vars['memory_percent']) >= int(Config.getConfigValue('Alerts', 'memory_alert')): tmpl_vars['memory_state'] = "alert" elif int(tmpl_vars['memory_percent']) >= int(Config.getConfigValue('Alerts', 'memory_warning')): tmpl_vars['memory_state'] = "warning" else: tmpl_vars['memory_state'] = 'ok' # Last: swap stats if 0 != int(Checks.last_check_memory.swapSize): tmpl_vars['swap_percent'] = int(Checks.last_check_memory.swapUsed) * 100 / int( Checks.last_check_memory.swapSize) tmpl_vars['swap_used'] = crUtilsText.convertByte(Checks.last_check_memory.swapUsed) tmpl_vars['swap_free'] = crUtilsText.convertByte(Checks.last_check_memory.swapFree) tmpl_vars['swap_size'] = crUtilsText.convertByte(Checks.last_check_memory.swapSize) # On Mac, the swap is unlimited (only limited by the available hard drive size) if Checks.last_check_memory.swapSize == Checks.last_check_memory.total: tmpl_vars['swap_configuration'] = 'unlimited' else: tmpl_vars['swap_configuration'] = 'limited' if isinstance(tmpl_vars['swap_percent'], int): if int(tmpl_vars['swap_percent']) >= int(Config.getConfigValue('Alerts', 'swap_alert')): tmpl_vars['swap_state'] = 'alert' elif int(tmpl_vars['swap_percent']) >= int(Config.getConfigValue('Alerts', 'swap_warning')): tmpl_vars['swap_state'] = 'warning' else: tmpl_vars['swap_state'] = 'ok' else: tmpl_vars['swap_state'] = 'ok' else: # No swap available on this host tmpl_vars['swap_configuration'] = 'undefined' # Load average if Checks.last_check_loadAverage is None: tmpl_vars['load_check_enabled'] = 'False' else: tmpl_vars['load_check_enabled'] = "True" tmpl_vars['load_last_one'] = Checks.last_check_loadAverage.last1m tmpl_vars['load_percent'] = (float(Checks.last_check_loadAverage.last1m) * 100) / int( Checks.hostEntity.cpuCount) if int(tmpl_vars['load_percent']) >= int(Config.getConfigValue('Alerts', 'load_alert')): tmpl_vars['load_state'] = "alert" elif int(tmpl_vars['load_percent']) >= int(Config.getConfigValue('Alerts', 'load_warning')): tmpl_vars['load_state'] = "warning" else: tmpl_vars['load_state'] = 'ok' tmpl_vars['uptime_full_text'] = crUtilsText.secondsToPhraseTime( int(Checks.last_check_loadAverage.uptime)) tmpl_vars['uptime_seconds'] = crUtilsText.numberSeparators(str(Checks.last_check_loadAverage.uptime)) tmpl_vars['start_date'] = datetime.datetime.fromtimestamp( crUtilsDate.datetimeToTimestamp(Checks.last_check_date) - int( Checks.last_check_loadAverage.uptime)).strftime("%Y-%m-%d %H:%M:%S") return tmpl.render(tmpl_vars)
def index(self): tmpl = self.env.get_template('index.tpl') tmpl_vars = dict() # Host informations tmpl_vars['hostname'] = Checks.hostEntity.hostname tmpl_vars['os_name'] = Checks.hostEntity.osName tmpl_vars['os_version'] = Checks.hostEntity.osVersion if Config.HOST_CURRENT == Config.HOST_MAC: tmpl_vars['host_os'] = 'MAC' elif Config.HOST_CURRENT == Config.HOST_UBUNTU: tmpl_vars['host_os'] = 'UBUNTU' elif Config.HOST_CURRENT == Config.HOST_DEBIAN: tmpl_vars['host_os'] = 'DEBIAN' tmpl_vars['CR_version'] = Config.CR_VERSION tmpl_vars['CR_version_name'] = Config.CR_VERSION_NAME if Checks.last_check_date is None: tmpl_vars['last_check'] = 'Never' else: tmpl_vars['last_check'] = Checks.last_check_date.strftime("%Y-%m-%d %H:%M:%S") # CPU stats if Checks.last_check_cpu is not None: tmpl_vars['cpu_percent'] = 100 - int(Checks.last_check_cpu.idle) tmpl_vars['cpu_user'] = Checks.last_check_cpu.user tmpl_vars['cpu_system'] = Checks.last_check_cpu.system tmpl_vars['cpu_count'] = Checks.hostEntity.cpuCount if int(tmpl_vars['cpu_percent']) >= int(Config.getConfigValue('Alerts', 'cpu_alert')): tmpl_vars['cpu_alert'] = True elif int(tmpl_vars['cpu_percent']) >= int(Config.getConfigValue('Alerts', 'cpu_warning')): tmpl_vars['cpu_warning'] = True else: tmpl_vars['cpu_ok'] = True # Memory and swap stats if Checks.last_check_memory is not None: # First: Memory stats tmpl_vars['memory_percent'] = ((int(Checks.last_check_memory.total) - int( Checks.last_check_memory.free)) * 100) / int(Checks.last_check_memory.total) tmpl_vars['memory_free'] = crUtilsText.convertByte(Checks.last_check_memory.free) tmpl_vars['memory_total'] = crUtilsText.convertByte(Checks.last_check_memory.total) tmpl_vars['memory_used'] = crUtilsText.convertByte( float(Checks.last_check_memory.total) - float(Checks.last_check_memory.free)) # Memory status if int(tmpl_vars['memory_percent']) >= int(Config.getConfigValue('Alerts', 'memory_alert')): tmpl_vars['memory_alert'] = True elif int(tmpl_vars['memory_percent']) >= int(Config.getConfigValue('Alerts', 'memory_warning')): tmpl_vars['memory_warning'] = True else: tmpl_vars['memory_ok'] = True # Last: swap stats if 0 != int(Checks.last_check_memory.swapSize): tmpl_vars['swap_percent'] = int(Checks.last_check_memory.swapUsed) * 100 / int( Checks.last_check_memory.swapSize) tmpl_vars['swap_used'] = crUtilsText.convertByte(Checks.last_check_memory.swapUsed) tmpl_vars['swap_free'] = crUtilsText.convertByte(Checks.last_check_memory.swapFree) tmpl_vars['swap_size'] = crUtilsText.convertByte(Checks.last_check_memory.swapSize) # On Mac, the swap is unlimited (only limited by the available hard drive size) if Checks.last_check_memory.swapSize == Checks.last_check_memory.total: tmpl_vars['swap_configuration'] = 'unlimited' else: tmpl_vars['swap_configuration'] = 'limited' if isinstance(tmpl_vars['swap_percent'], int): if int(tmpl_vars['swap_percent']) >= int(Config.getConfigValue('Alerts', 'swap_alert')): tmpl_vars['swap_alert'] = True elif int(tmpl_vars['swap_percent']) >= int(Config.getConfigValue('Alerts', 'swap_warning')): tmpl_vars['swap_warning'] = True else: tmpl_vars['swap_ok'] = True else: tmpl_vars['swap_ok'] = True else: # No swap available on this host tmpl_vars['swap_configuration'] = 'undefined' # Load average stats if Checks.last_check_loadAverage is not None: tmpl_vars['loadaverage'] = Checks.last_check_loadAverage.last1m tmpl_vars['loadaverage_percent'] = (float(Checks.last_check_loadAverage.last1m) * 100) / int( Checks.hostEntity.cpuCount) if int(tmpl_vars['loadaverage_percent']) >= int(Config.getConfigValue('Alerts', 'load_alert')): tmpl_vars['load_alert'] = True elif int(tmpl_vars['loadaverage_percent']) >= int(Config.getConfigValue('Alerts', 'load_warning')): tmpl_vars['load_warning'] = True else: tmpl_vars['load_ok'] = True # Uptime stats (checked in load average collector) if Checks.last_check_loadAverage is not None: tmpl_vars['uptime'] = crUtilsText.secondsToPhraseTime(int(Checks.last_check_loadAverage.uptime)) tmpl_vars['uptime_seconds'] = crUtilsText.numberSeparators(str(Checks.last_check_loadAverage.uptime)) tmpl_vars['start_date'] = datetime.datetime.fromtimestamp( crUtilsDate.datetimeToTimestamp(Checks.last_check_date) - int( Checks.last_check_loadAverage.uptime)).strftime("%Y-%m-%d %H:%M:%S") # DIsks stats if Checks.last_check_disk is not None: allChecksDisk = [] for disk in Checks.last_check_disk.checks: checkDisk = {} # TODO: Find a better solution to decode UTF8 checkDisk['name'] = str.replace(disk.name, '/dev/', '').decode('utf-8') checkDisk['free'] = crUtilsText.convertByte(disk.free) checkDisk['total'] = crUtilsText.convertByte(disk.size) checkDisk['percent'] = int(round(disk.used, 0) * 100 / int(disk.size)) allChecksDisk.append(checkDisk) tmpl_vars['disks'] = allChecksDisk return tmpl.render(tmpl_vars)