uptime-kuma-api/uptime_kuma_api/api.py
lucasheld b87eed2597 fix: adjust monitor status type to allow all used values
BREAKING CHANGE: monitor `status` type changed from `bool` to `MonitorStatus`
2023-05-02 20:34:26 +02:00

3562 lines
124 KiB
Python

from __future__ import annotations
import datetime
import json
import random
import string
import time
from contextlib import contextmanager
from copy import deepcopy
from typing import Any
import requests
import socketio
from packaging.version import parse as parse_version
from . import (AuthMethod,
DockerType,
Event,
IncidentStyle,
MaintenanceStrategy,
MonitorStatus,
MonitorType,
NotificationType,
ProxyProtocol,
UptimeKumaException,
notification_provider_conditions,
notification_provider_options)
from .docstrings import (append_docstring,
docker_host_docstring,
maintenance_docstring,
monitor_docstring,
notification_docstring,
proxy_docstring,
tag_docstring)
def int_to_bool(data, keys) -> None:
if isinstance(data, list):
for d in data:
int_to_bool(d, keys)
else:
for key in keys:
if key in data:
data[key] = True if data[key] == 1 else False
def parse_value(data, func) -> None:
if isinstance(data, list):
for d in data:
parse_value(d, func)
else:
func(data)
def parse_monitor_status(data) -> None:
def parse(x):
x["status"] = MonitorStatus(x["status"])
parse_value(data, parse)
def gen_secret(length: int) -> str:
chars = string.ascii_uppercase + string.ascii_lowercase + string.digits
return ''.join(random.choice(chars) for _ in range(length))
def _convert_monitor_return(monitor) -> None:
if isinstance(monitor["notificationIDList"], dict):
monitor["notificationIDList"] = [int(i) for i in monitor["notificationIDList"].keys()]
def _convert_monitor_input(kwargs) -> None:
if not kwargs["accepted_statuscodes"]:
kwargs["accepted_statuscodes"] = ["200-299"]
dict_notification_ids = {}
if kwargs["notificationIDList"]:
for notification_id in kwargs["notificationIDList"]:
dict_notification_ids[notification_id] = True
kwargs["notificationIDList"] = dict_notification_ids
if not kwargs["databaseConnectionString"]:
if kwargs["type"] == MonitorType.SQLSERVER:
kwargs["databaseConnectionString"] = "Server=<hostname>,<port>;Database=<your database>;User Id=<your user id>;Password=<your password>;Encrypt=<true/false>;TrustServerCertificate=<Yes/No>;Connection Timeout=<int>"
elif kwargs["type"] == MonitorType.POSTGRES:
kwargs["databaseConnectionString"] = "postgres://username:password@host:port/database"
elif kwargs["type"] == MonitorType.MYSQL:
kwargs["databaseConnectionString"] = "mysql://username:password@host:port/database"
elif kwargs["type"] == MonitorType.MONGODB:
kwargs["databaseConnectionString"] = "mongodb://username:password@host:port/database"
elif kwargs["type"] == MonitorType.REDIS:
kwargs["databaseConnectionString"] = "redis://user:password@host:port"
if kwargs["type"] == MonitorType.PUSH and not kwargs.get("pushToken"):
kwargs["pushToken"] = gen_secret(10)
def _build_notification_data(
name: str,
type: NotificationType,
isDefault: bool = False,
applyExisting: bool = False,
**kwargs
) -> dict:
allowed_kwargs = []
for keys in notification_provider_options.values():
allowed_kwargs.extend(keys)
for key in kwargs.keys():
if key not in allowed_kwargs:
raise TypeError(f"unknown argument '{key}'")
data = {
"name": name,
"type": type,
"isDefault": isDefault,
"applyExisting": applyExisting,
**kwargs
}
return data
def _build_proxy_data(
protocol: ProxyProtocol,
host: str,
port: str,
auth: bool = False,
username: str = None,
password: str = None,
active: bool = True,
default: bool = False,
applyExisting: bool = False,
) -> dict:
data = {
"protocol": protocol,
"host": host,
"port": port,
"auth": auth,
"username": username,
"password": password,
"active": active,
"default": default,
"applyExisting": applyExisting
}
return data
def _build_status_page_data(
slug: str,
# config
id: int,
title: str,
description: str = None,
theme: str = "light",
published: bool = True,
showTags: bool = False,
domainNameList: list = None,
googleAnalyticsId: str = None,
customCSS: str = "",
footerText: str = None,
showPoweredBy: bool = True,
icon: str = "/icon.svg",
publicGroupList: list = None
) -> tuple(str, dict, str, list):
if theme not in ["light", "dark"]:
raise ValueError
if not domainNameList:
domainNameList = []
if not publicGroupList:
publicGroupList = []
config = {
"id": id,
"slug": slug,
"title": title,
"description": description,
"icon": icon,
"theme": theme,
"published": published,
"showTags": showTags,
"domainNameList": domainNameList,
"googleAnalyticsId": googleAnalyticsId,
"customCSS": customCSS,
"footerText": footerText,
"showPoweredBy": showPoweredBy
}
return slug, config, icon, publicGroupList
def _convert_docker_host_input(kwargs) -> None:
if not kwargs["dockerDaemon"]:
if kwargs["dockerType"] == DockerType.SOCKET:
kwargs["dockerDaemon"] = "/var/run/docker.sock"
elif kwargs["dockerType"] == DockerType.TCP:
kwargs["dockerDaemon"] = "tcp://localhost:2375"
def _build_docker_host_data(
name: str,
dockerType: DockerType,
dockerDaemon: str = None
) -> dict:
data = {
"name": name,
"dockerType": dockerType,
"dockerDaemon": dockerDaemon
}
return data
def _build_tag_data(
name: str,
color: str
) -> dict:
data = {
"new": True,
"name": name,
"color": color
}
return data
def _check_missing_arguments(required_params, kwargs) -> None:
missing_arguments = []
for required_param in required_params:
if kwargs.get(required_param) is None:
missing_arguments.append(required_param)
if missing_arguments:
missing_arguments_str = ", ".join([f"'{i}'" for i in missing_arguments])
raise TypeError(f"missing {len(missing_arguments)} required argument: {missing_arguments_str}")
def _check_argument_conditions(valid_params, kwargs) -> None:
for valid_param in valid_params:
if valid_param in kwargs:
value = kwargs[valid_param]
if value is None:
continue
conditions = valid_params[valid_param]
min_ = conditions.get("min")
max_ = conditions.get("max")
if min_ is not None and value < min_:
raise ValueError(f"the value of {valid_param} must not be less than {min_}")
if max_ is not None and value > max_:
raise ValueError(f"the value of {valid_param} must not be larger than {max_}")
def _check_arguments_monitor(kwargs) -> None:
required_args = [
"type",
"name",
"interval",
"maxretries",
"retryInterval"
]
_check_missing_arguments(required_args, kwargs)
required_args_by_type = {
MonitorType.HTTP: ["url", "maxredirects"],
MonitorType.PORT: ["hostname", "port"],
MonitorType.PING: ["hostname"],
MonitorType.KEYWORD: ["url", "keyword", "maxredirects"],
MonitorType.GRPC_KEYWORD: ["grpcUrl", "keyword", "grpcServiceName", "grpcMethod"],
MonitorType.DNS: ["hostname", "dns_resolve_server", "port"],
MonitorType.DOCKER: ["docker_container", "docker_host"],
MonitorType.PUSH: [],
MonitorType.STEAM: ["hostname", "port"],
MonitorType.GAMEDIG: ["game", "hostname", "port"],
MonitorType.MQTT: ["hostname", "port", "mqttTopic"],
MonitorType.SQLSERVER: [],
MonitorType.POSTGRES: [],
MonitorType.MYSQL: [],
MonitorType.MONGODB: [],
MonitorType.RADIUS: ["radiusUsername", "radiusPassword", "radiusSecret", "radiusCalledStationId", "radiusCallingStationId"],
MonitorType.REDIS: []
}
type_ = kwargs["type"]
required_args = required_args_by_type[type_]
_check_missing_arguments(required_args, kwargs)
conditions = dict(
interval=dict(
min=20,
),
maxretries=dict(
min=0,
),
retryInterval=dict(
min=20,
),
maxredirects=dict(
min=0,
),
port=dict(
min=0,
max=65535,
),
)
_check_argument_conditions(conditions, kwargs)
def _check_arguments_notification(kwargs) -> None:
required_args = ["type", "name"]
_check_missing_arguments(required_args, kwargs)
# TODO: collect required notification args from /src/components/notifications/*
# type_ = kwargs["type"]
# required_args = notification_provider_options[type_]
# _check_missing_arguments(required_args, kwargs)
_check_argument_conditions(notification_provider_conditions, kwargs)
def _check_arguments_proxy(kwargs) -> None:
required_args = ["protocol", "host", "port"]
if kwargs.get("auth"):
required_args.extend(["username", "password"])
_check_missing_arguments(required_args, kwargs)
conditions = dict(
port=dict(
min=0,
max=65535,
)
)
_check_argument_conditions(conditions, kwargs)
def _check_arguments_maintenance(kwargs) -> None:
required_args = ["title", "strategy"]
_check_missing_arguments(required_args, kwargs)
strategy = kwargs["strategy"]
if strategy in [MaintenanceStrategy.RECURRING_INTERVAL, MaintenanceStrategy.RECURRING_WEEKDAY, MaintenanceStrategy.RECURRING_DAY_OF_MONTH]:
required_args = ["dateRange"]
_check_missing_arguments(required_args, kwargs)
conditions = dict(
intervalDay=dict(
min=1,
max=3650,
)
)
_check_argument_conditions(conditions, kwargs)
def _check_arguments_tag(kwargs) -> None:
required_args = [
"name",
"color"
]
_check_missing_arguments(required_args, kwargs)
class UptimeKumaApi(object):
"""This class is used to communicate with Uptime Kuma.
Example::
Import UptimeKumaApi from the library and specify the Uptime Kuma server url (e.g. 'http://127.0.0.1:3001'), username and password to initialize the connection.
>>> from uptime_kuma_api import UptimeKumaApi
>>> api = UptimeKumaApi('INSERT_URL')
>>> api.login('INSERT_USERNAME', 'INSERT_PASSWORD')
{
'token': 'eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJ1c2VybmFtZSI6ImFkbWluIiwiaWF0IjoxNjgyOTU4OTU4fQ.Xb81nuKXeNyE1D_XoQowYgsgZHka-edONdwHmIznJdk'
}
Now you can call one of the existing methods of the instance. For example create a new monitor:
>>> api.add_monitor(
... type=MonitorType.HTTP,
... name="Google",
... url="https://google.com"
... )
{
'msg': 'Added Successfully.',
'monitorId': 1
}
At the end, the connection to the API must be disconnected so that the program does not block.
>>> api.disconnect()
With a context manager, the disconnect method is called automatically:
.. code-block:: python
from uptime_kuma_api import UptimeKumaApi
with UptimeKumaApi('INSERT_URL') as api:
api.login('INSERT_USERNAME', 'INSERT_PASSWORD')
api.add_monitor(
type=MonitorType.HTTP,
name="Google",
url="https://google.com"
)
:param str url: The url to the Uptime Kuma instance. For example ``http://127.0.0.1:3001``
:param float wait_timeout: How many seconds the client should wait for the connection., defaults to 1
:param dict headers: Headers that are passed to the socketio connection, defaults to None
:param bool ssl_verify: ``True`` to verify SSL certificates, or ``False`` to skip SSL certificate
verification, allowing connections to servers with self signed certificates.
Default is ``True``.
:param float wait_events: How many seconds the client should wait for the next event of the same type.
There is no way to determine when the last message of a certain type has arrived.
Therefore, a timeout is required. If no further message has arrived within this time,
it is assumed that it was the last message. Defaults is ``0.2``.
:raises UptimeKumaException: When connection to server failed.
"""
def __init__(
self,
url: str,
wait_timeout: float = 1,
headers: dict = None,
ssl_verify: bool = True,
wait_events: float = 0.2
) -> None:
self.url = url
self.wait_timeout = wait_timeout
self.headers = headers
self.wait_events = wait_events
self.sio = socketio.Client(ssl_verify=ssl_verify)
self._event_data: dict = {
Event.MONITOR_LIST: None,
Event.NOTIFICATION_LIST: None,
Event.PROXY_LIST: None,
Event.STATUS_PAGE_LIST: None,
Event.HEARTBEAT_LIST: None,
Event.IMPORTANT_HEARTBEAT_LIST: None,
Event.AVG_PING: None,
Event.UPTIME: None,
Event.HEARTBEAT: None,
Event.INFO: None,
Event.CERT_INFO: None,
Event.DOCKER_HOST_LIST: None,
Event.AUTO_LOGIN: None,
Event.MAINTENANCE_LIST: None,
Event.API_KEY_LIST: None
}
self.sio.on(Event.CONNECT, self._event_connect)
self.sio.on(Event.DISCONNECT, self._event_disconnect)
self.sio.on(Event.MONITOR_LIST, self._event_monitor_list)
self.sio.on(Event.NOTIFICATION_LIST, self._event_notification_list)
self.sio.on(Event.PROXY_LIST, self._event_proxy_list)
self.sio.on(Event.STATUS_PAGE_LIST, self._event_status_page_list)
self.sio.on(Event.HEARTBEAT_LIST, self._event_heartbeat_list)
self.sio.on(Event.IMPORTANT_HEARTBEAT_LIST, self._event_important_heartbeat_list)
self.sio.on(Event.AVG_PING, self._event_avg_ping)
self.sio.on(Event.UPTIME, self._event_uptime)
self.sio.on(Event.HEARTBEAT, self._event_heartbeat)
self.sio.on(Event.INFO, self._event_info)
self.sio.on(Event.CERT_INFO, self._event_cert_info)
self.sio.on(Event.DOCKER_HOST_LIST, self._event_docker_host_list)
self.sio.on(Event.AUTO_LOGIN, self._event_auto_login)
self.sio.on(Event.INIT_SERVER_TIMEZONE, self._event_init_server_timezone)
self.sio.on(Event.MAINTENANCE_LIST, self._event_maintenance_list)
self.sio.on(Event.API_KEY_LIST, self._event_api_key_list)
self.connect()
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.disconnect()
@contextmanager
def wait_for_event(self, event: Event) -> None:
# 200 * 0.05 seconds = 10 seconds
retries = 200
sleep = 0.05
try:
yield
except:
raise
else:
counter = 0
while self._event_data[event] is None:
time.sleep(sleep)
counter += 1
if counter >= retries:
print(f"wait_for_event {event} timeout")
break
def _get_event_data(self, event) -> Any:
monitor_events = [Event.AVG_PING, Event.UPTIME, Event.HEARTBEAT_LIST, Event.IMPORTANT_HEARTBEAT_LIST, Event.CERT_INFO, Event.HEARTBEAT]
while self._event_data[event] is None:
# do not wait for events that are not sent
if self._event_data[Event.MONITOR_LIST] == {} and event in monitor_events:
return []
time.sleep(0.01)
time.sleep(self.wait_events) # wait for multiple messages
return deepcopy(self._event_data[event])
def _call(self, event, data=None) -> Any:
r = self.sio.call(event, data)
if isinstance(r, dict) and "ok" in r:
if not r["ok"]:
raise UptimeKumaException(r.get("msg"))
r.pop("ok")
return r
# event handlers
def _event_connect(self) -> None:
pass
def _event_disconnect(self) -> None:
pass
def _event_monitor_list(self, data) -> None:
self._event_data[Event.MONITOR_LIST] = data
def _event_notification_list(self, data) -> None:
self._event_data[Event.NOTIFICATION_LIST] = data
def _event_proxy_list(self, data) -> None:
self._event_data[Event.PROXY_LIST] = data
def _event_status_page_list(self, data) -> None:
self._event_data[Event.STATUS_PAGE_LIST] = data
def _event_heartbeat_list(self, id_, data, bool_) -> None:
if self._event_data[Event.HEARTBEAT_LIST] is None:
self._event_data[Event.HEARTBEAT_LIST] = []
self._event_data[Event.HEARTBEAT_LIST].append({
"id": id_,
"data": data,
"bool": bool_,
})
def _event_important_heartbeat_list(self, id_, data, bool_) -> None:
if self._event_data[Event.IMPORTANT_HEARTBEAT_LIST] is None:
self._event_data[Event.IMPORTANT_HEARTBEAT_LIST] = []
self._event_data[Event.IMPORTANT_HEARTBEAT_LIST].append({
"id": id_,
"data": data,
"bool": bool_,
})
def _event_avg_ping(self, id_, data) -> None:
if self._event_data[Event.AVG_PING] is None:
self._event_data[Event.AVG_PING] = []
self._event_data[Event.AVG_PING].append({
"id": id_,
"data": data,
})
def _event_uptime(self, monitor_id, duration, uptime) -> None:
if self._event_data[Event.UPTIME] is None:
self._event_data[Event.UPTIME] = []
self._event_data[Event.UPTIME].append({
"id": monitor_id,
"duration": duration,
"uptime": uptime,
})
def _event_heartbeat(self, data) -> None:
if self._event_data[Event.HEARTBEAT] is None:
self._event_data[Event.HEARTBEAT] = []
self._event_data[Event.HEARTBEAT].append(data)
def _event_info(self, data) -> None:
self._event_data[Event.INFO] = data
def _event_cert_info(self, id_, data) -> None:
if self._event_data[Event.CERT_INFO] is None:
self._event_data[Event.CERT_INFO] = []
self._event_data[Event.CERT_INFO].append({
"id": id_,
"data": data,
})
def _event_docker_host_list(self, data) -> None:
self._event_data[Event.DOCKER_HOST_LIST] = data
def _event_auto_login(self) -> None:
self._event_data[Event.AUTO_LOGIN] = True
def _event_init_server_timezone(self) -> None:
pass
def _event_maintenance_list(self, data) -> None:
self._event_data[Event.MAINTENANCE_LIST] = data
def _event_api_key_list(self, data) -> None:
self._event_data[Event.API_KEY_LIST] = data
# connection
def connect(self) -> None:
"""
Connects to Uptime Kuma.
Called automatically when the UptimeKumaApi instance is created.
:raises UptimeKumaException: When connection to server failed.
"""
url = self.url.rstrip("/")
try:
self.sio.connect(f'{url}/socket.io/', wait_timeout=self.wait_timeout, headers=self.headers)
except:
raise UptimeKumaException("unable to connect")
def disconnect(self) -> None:
"""
Disconnects from Uptime Kuma.
Needs to be called to prevent blocking the program.
"""
self.sio.disconnect()
# builder
@property
def version(self) -> str:
info = self.info()
return info.get("version")
def _build_monitor_data(
self,
type: MonitorType,
name: str,
description: str = None,
interval: int = 60,
retryInterval: int = 60,
resendInterval: int = 0,
maxretries: int = 1,
upsideDown: bool = False,
notificationIDList: list = None,
httpBodyEncoding: str = "json",
# HTTP, KEYWORD
url: str = None,
expiryNotification: bool = False,
ignoreTls: bool = False,
maxredirects: int = 10,
accepted_statuscodes: list = None,
proxyId: int = None,
method: str = "GET",
body: str = None,
headers: str = None,
authMethod: AuthMethod = AuthMethod.NONE,
tlsCert: str = None,
tlsKey: str = None,
tlsCa: str = None,
basic_auth_user: str = None,
basic_auth_pass: str = None,
authDomain: str = None,
authWorkstation: str = None,
# KEYWORD
keyword: str = None,
# GRPC_KEYWORD
grpcUrl: str = None,
grpcEnableTls: bool = False,
grpcServiceName: str = None,
grpcMethod: str = None,
grpcProtobuf: str = None,
grpcBody: str = None,
grpcMetadata: str = None,
# DNS, PING, STEAM, MQTT
hostname: str = None,
# PING
packetSize: int = 56,
# DNS, STEAM, MQTT, RADIUS
port: int = None,
# DNS
dns_resolve_server: str = "1.1.1.1",
dns_resolve_type: str = "A",
# MQTT
mqttUsername: str = None,
mqttPassword: str = None,
mqttTopic: str = None,
mqttSuccessMessage: str = None,
# SQLSERVER, POSTGRES, MYSQL, MONGODB, REDIS
databaseConnectionString: str = None,
# SQLSERVER, POSTGRES, MYSQL
databaseQuery: str = None,
# DOCKER
docker_container: str = "",
docker_host: int = None,
# RADIUS
radiusUsername: str = None,
radiusPassword: str = None,
radiusSecret: str = None,
radiusCalledStationId: str = None,
radiusCallingStationId: str = None,
# GAMEDIG
game: str = None
) -> dict:
# https://github.com/louislam/uptime-kuma/compare/1.21.1...1.21.2#diff-f672603317047f3e6f27b0d7a44f6f244b7dbb5d0d0a85f1059a6b0bc2cb9aa0L910
if parse_version(self.version) < parse_version("1.21.2"):
maxretries = 0
data = {
"type": type,
"name": name,
"interval": interval,
"retryInterval": retryInterval,
"maxretries": maxretries,
"notificationIDList": notificationIDList,
"upsideDown": upsideDown,
}
if parse_version(self.version) >= parse_version("1.18"):
data.update({
"resendInterval": resendInterval
})
if parse_version(self.version) >= parse_version("1.21"):
data.update({
"description": description,
"httpBodyEncoding": httpBodyEncoding
})
if type in [MonitorType.KEYWORD, MonitorType.GRPC_KEYWORD]:
data.update({
"keyword": keyword,
})
# HTTP, KEYWORD
data.update({
"url": url,
"expiryNotification": expiryNotification,
"ignoreTls": ignoreTls,
"maxredirects": maxredirects,
"accepted_statuscodes": accepted_statuscodes,
"proxyId": proxyId,
"method": method,
"body": body,
"headers": headers,
"authMethod": authMethod,
})
if authMethod in [AuthMethod.HTTP_BASIC, AuthMethod.NTLM]:
data.update({
"basic_auth_user": basic_auth_user,
"basic_auth_pass": basic_auth_pass,
})
if authMethod == AuthMethod.NTLM:
data.update({
"authDomain": authDomain,
"authWorkstation": authWorkstation,
})
if authMethod == AuthMethod.MTLS:
data.update({
"tlsCert": tlsCert,
"tlsKey": tlsKey,
"tlsCa": tlsCa,
})
# GRPC_KEYWORD
if type == MonitorType.GRPC_KEYWORD:
data.update({
"grpcUrl": grpcUrl,
"grpcEnableTls": grpcEnableTls,
"grpcServiceName": grpcServiceName,
"grpcMethod": grpcMethod,
"grpcProtobuf": grpcProtobuf,
"grpcBody": grpcBody,
"grpcMetadata": grpcMetadata,
})
# PORT, PING, DNS, STEAM, MQTT
data.update({
"hostname": hostname,
})
# PING
if parse_version(self.version) >= parse_version("1.20"):
data.update({
"packetSize": packetSize,
})
# PORT, DNS, STEAM, MQTT, RADIUS
if not port:
if type == MonitorType.DNS:
port = 53
elif type == MonitorType.RADIUS:
port = 1812
data.update({
"port": port,
})
# DNS
data.update({
"dns_resolve_server": dns_resolve_server,
"dns_resolve_type": dns_resolve_type,
})
# MQTT
data.update({
"mqttUsername": mqttUsername,
"mqttPassword": mqttPassword,
"mqttTopic": mqttTopic,
"mqttSuccessMessage": mqttSuccessMessage,
})
# SQLSERVER, POSTGRES, MYSQL, MONGODB, REDIS
data.update({
"databaseConnectionString": databaseConnectionString
})
# SQLSERVER, POSTGRES, MYSQL
if type in [MonitorType.SQLSERVER, MonitorType.POSTGRES, MonitorType.MYSQL]:
data.update({
"databaseQuery": databaseQuery,
})
# DOCKER
if type == MonitorType.DOCKER:
data.update({
"docker_container": docker_container,
"docker_host": docker_host
})
# RADIUS
if type == MonitorType.RADIUS:
data.update({
"radiusUsername": radiusUsername,
"radiusPassword": radiusPassword,
"radiusSecret": radiusSecret,
"radiusCalledStationId": radiusCalledStationId,
"radiusCallingStationId": radiusCallingStationId
})
# GAMEDIG
if type == MonitorType.GAMEDIG:
data.update({
"game": game
})
return data
def _build_maintenance_data(
self,
title: str,
strategy: MaintenanceStrategy,
active: bool = True,
description: str = "",
dateRange: list = None,
intervalDay: int = 1,
weekdays: list = None,
daysOfMonth: list = None,
timeRange: list = None,
cron: str = "30 3 * * *",
durationMinutes: int = 60,
timezone: str = None
) -> dict:
if not dateRange:
dateRange = [
datetime.date.today().strftime("%Y-%m-%d 00:00:00")
]
if not timeRange:
timeRange = [
{
"hours": 2,
"minutes": 0,
}, {
"hours": 3,
"minutes": 0,
}
]
if not weekdays:
weekdays = []
if not daysOfMonth:
daysOfMonth = []
data = {
"title": title,
"active": active,
"intervalDay": intervalDay,
"dateRange": dateRange,
"description": description,
"strategy": strategy,
"weekdays": weekdays,
"daysOfMonth": daysOfMonth,
"timeRange": timeRange
}
if parse_version(self.version) >= parse_version("1.21.2"):
data.update({
"cron": cron,
"durationMinutes": durationMinutes,
"timezone": timezone,
})
return data
# monitor
def get_monitors(self) -> list[dict]:
"""
Get all monitors.
:return: A list of monitors.
:rtype: list
Example::
>>> api.get_monitors()
[
{
'accepted_statuscodes': ['200-299'],
'active': True,
'authDomain': None,
'authMethod': '',
'authWorkstation': None,
'basic_auth_pass': None,
'basic_auth_user': None,
'body': None,
'databaseConnectionString': None,
'databaseQuery': None,
'dns_last_result': None,
'dns_resolve_server': '1.1.1.1',
'dns_resolve_type': 'A',
'docker_container': None,
'docker_host': None,
'expiryNotification': False,
'game': None,
'grpcBody': None,
'grpcEnableTls': False,
'grpcMetadata': None,
'grpcMethod': None,
'grpcProtobuf': None,
'grpcServiceName': None,
'grpcUrl': None,
'headers': None,
'hostname': None,
'id': 1,
'ignoreTls': False,
'includeSensitiveData': True,
'interval': 60,
'keyword': None,
'maintenance': False,
'maxredirects': 10,
'maxretries': 1,
'method': 'GET',
'mqttPassword': None,
'mqttSuccessMessage': None,
'mqttTopic': None,
'mqttUsername': None,
'name': 'monitor 1',
'notificationIDList': [1, 2],
'packetSize': 56,
'port': None,
'proxyId': None,
'pushToken': None,
'radiusCalledStationId': None,
'radiusCallingStationId': None,
'radiusPassword': None,
'radiusSecret': None,
'radiusUsername': None,
'resendInterval': 0,
'retryInterval': 60,
'tags': [],
'type': 'http',
'upsideDown': False,
'url': 'http://127.0.0.1',
'weight': 2000
}
]
"""
# TODO: replace with getMonitorList?
r = list(self._get_event_data(Event.MONITOR_LIST).values())
for monitor in r:
_convert_monitor_return(monitor)
int_to_bool(r, ["active"])
return r
def get_monitor(self, id_: int) -> dict:
"""
Get a monitor.
:param int id_: The monitor id.
:return: The monitor.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_monitor(1)
{
'accepted_statuscodes': ['200-299'],
'active': True,
'authDomain': None,
'authMethod': '',
'authWorkstation': None,
'basic_auth_pass': None,
'basic_auth_user': None,
'body': None,
'databaseConnectionString': None,
'databaseQuery': None,
'dns_last_result': None,
'dns_resolve_server': '1.1.1.1',
'dns_resolve_type': 'A',
'docker_container': None,
'docker_host': None,
'expiryNotification': False,
'game': None,
'grpcBody': None,
'grpcEnableTls': False,
'grpcMetadata': None,
'grpcMethod': None,
'grpcProtobuf': None,
'grpcServiceName': None,
'grpcUrl': None,
'headers': None,
'hostname': None,
'id': 1,
'ignoreTls': False,
'includeSensitiveData': True,
'interval': 60,
'keyword': None,
'maintenance': False,
'maxredirects': 10,
'maxretries': 1,
'method': 'GET',
'mqttPassword': None,
'mqttSuccessMessage': None,
'mqttTopic': None,
'mqttUsername': None,
'name': 'monitor 1',
'notificationIDList': [1, 2],
'packetSize': 56,
'port': None,
'proxyId': None,
'pushToken': None,
'radiusCalledStationId': None,
'radiusCallingStationId': None,
'radiusPassword': None,
'radiusSecret': None,
'radiusUsername': None,
'resendInterval': 0,
'retryInterval': 60,
'tags': [],
'type': 'http',
'upsideDown': False,
'url': 'http://127.0.0.1',
'weight': 2000
}
"""
r = self._call('getMonitor', id_)["monitor"]
_convert_monitor_return(r)
int_to_bool(r, ["active"])
return r
def pause_monitor(self, id_: int) -> dict:
"""
Pauses a monitor.
:param int id_: The monitor id.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.pause_monitor(1)
{
'msg': 'Paused Successfully.'
}
"""
return self._call('pauseMonitor', id_)
def resume_monitor(self, id_: int) -> dict:
"""
Resumes a monitor.
:param int id_: The monitor id.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.resume_monitor(1)
{
'msg': 'Resumed Successfully.'
}
"""
return self._call('resumeMonitor', id_)
def delete_monitor(self, id_: int) -> dict:
"""
Deletes a monitor.
:param int id_: The monitor id.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_monitor(1)
{
'msg': 'Deleted Successfully.'
}
"""
with self.wait_for_event(Event.MONITOR_LIST):
return self._call('deleteMonitor', id_)
def get_monitor_beats(self, id_: int, hours: int) -> list[dict]:
"""
Get monitor beats for a specific monitor in a time range.
:param int id_: The monitor id.
:param int hours: Period time in hours from now.
:return: The server response.
:rtype: list
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_monitor_beats(1, 6)
[
{
'down_count': 0,
'duration': 0,
'id': 25,
'important': True,
'monitor_id': 1,
'msg': '200 - OK',
'ping': 201,
'status': <MonitorStatus.UP: 1>,
'time': '2022-12-15 12:38:42.661'
},
{
'down_count': 0,
'duration': 60,
'id': 26,
'important': False,
'monitor_id': 1,
'msg': '200 - OK',
'ping': 193,
'status': <MonitorStatus.UP: 1>,
'time': '2022-12-15 12:39:42.878'
},
...
]
"""
r = self._call('getMonitorBeats', (id_, hours))["data"]
int_to_bool(r, ["important"])
parse_monitor_status(r)
return r
def get_game_list(self) -> list[dict]:
"""
Get a list of games that are supported by the GameDig monitor type.
:return: The server response.
:rtype: list
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_game_list()
[
{
'extra': {},
'keys': ['7d2d'],
'options': {
'port': 26900,
'port_query_offset': 1,
'protocol': 'valve'
},
'pretty': '7 Days to Die (2013)'
},
{
'extra': {},
'keys': ['arma2'],
'options': {
'port': 2302,
'port_query_offset': 1,
'protocol': 'valve'
},
'pretty': 'ARMA 2 (2009)'
},
...
]
"""
r = self._call('getGameList')
# Workaround, gamelist is not available on first call.
# Fixed in https://github.com/louislam/uptime-kuma/commit/7b8ed01f272fc4c6b69ff6299185e936a5e63735
# Exists in 1.20.0 - 1.21.0
if not r:
r = self._call('getGameList')
return r.get("gameList")
@append_docstring(monitor_docstring("add"))
def add_monitor(self, **kwargs) -> dict:
"""
Adds a new monitor.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_monitor(
... type=MonitorType.HTTP,
... name="Google",
... url="https://google.com"
... )
{
'msg': 'Added Successfully.',
'monitorID': 1
}
"""
data = self._build_monitor_data(**kwargs)
_convert_monitor_input(data)
_check_arguments_monitor(data)
with self.wait_for_event(Event.MONITOR_LIST):
return self._call('add', data)
@append_docstring(monitor_docstring("edit"))
def edit_monitor(self, id_: int, **kwargs) -> dict:
"""
Edits an existing monitor.
:param int id_: The monitor id.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.edit_monitor(1,
... interval=20
... )
{
'monitorID': 1,
'msg': 'Saved.'
}
"""
data = self.get_monitor(id_)
data.update(kwargs)
_convert_monitor_input(data)
_check_arguments_monitor(data)
with self.wait_for_event(Event.MONITOR_LIST):
return self._call('editMonitor', data)
# monitor tags
def add_monitor_tag(self, tag_id: int, monitor_id: int, value: str = "") -> dict:
"""
Add a tag to a monitor.
:param int tag_id: Id of the tag.
:param int monitor_id: Id of the monitor to add the tag to.
:param str, optional value: Value of the tag., defaults to ""
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_monitor_tag(
... tag_id=1,
... monitor_id=1,
... value="test"
... )
{
'msg': 'Added Successfully.'
}
"""
r = self._call('addMonitorTag', (tag_id, monitor_id, value))
# the monitor list event does not send the updated tags
self._event_data[Event.MONITOR_LIST][str(monitor_id)] = self.get_monitor(monitor_id)
return r
# editMonitorTag is unused in uptime-kuma
# def edit_monitor_tag(self, tag_id: int, monitor_id: int, value=""):
# return self._call('editMonitorTag', (tag_id, monitor_id, value))
def delete_monitor_tag(self, tag_id: int, monitor_id: int, value: str = "") -> dict:
"""
Delete a tag from a monitor.
:param int tag_id: Id of the tag to remove.
:param int monitor_id: Id of monitor to remove the tag from.
:param str, optional value: Value of the tag., defaults to ""
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_monitor_tag(
... tag_id=1,
... monitor_id=1,
... value="test"
... )
{
'msg': 'Deleted Successfully.'
}
"""
r = self._call('deleteMonitorTag', (tag_id, monitor_id, value))
# the monitor list event does not send the updated tags
self._event_data[Event.MONITOR_LIST][str(monitor_id)] = self.get_monitor(monitor_id)
return r
# notification
def get_notifications(self) -> list[dict]:
"""
Get all notifications.
:return: All notifications.
:rtype: list
Example::
>>> api.get_notifications()
[
{
'active': True,
'applyExisting': True,
'id': 1,
'isDefault': True,
'name': 'notification 1',
'pushAPIKey': '123456789',
'type': 'PushByTechulus',
'userId': 1
}
]
"""
notifications = self._get_event_data(Event.NOTIFICATION_LIST)
r = []
for notification_raw in notifications:
notification = notification_raw.copy()
config = json.loads(notification["config"])
del notification["config"]
notification.update(config)
r.append(notification)
return r
def get_notification(self, id_: int) -> dict:
"""
Get a notification.
:param int id_: Id of the notification to get.
:return: The notification.
:rtype: dict
:raises UptimeKumaException: If the notification does not exist.
Example::
>>> api.get_notification(1)
{
'active': True,
'applyExisting': True,
'id': 1,
'isDefault': True,
'name': 'notification 1',
'pushAPIKey': '123456789',
'type': 'PushByTechulus',
'userId': 1
}
"""
notifications = self.get_notifications()
for notification in notifications:
if notification["id"] == id_:
return notification
raise UptimeKumaException("notification does not exist")
@append_docstring(notification_docstring("test"))
def test_notification(self, **kwargs) -> dict:
"""
Test a notification.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.test_notification(
... name="notification 1",
... isDefault=True,
... applyExisting=True,
... type=NotificationType.PUSHBYTECHULUS,
... pushAPIKey="INSERT_PUSH_API_KEY"
... )
{
'ok': True,
'msg': 'Sent Successfully.'
}
"""
data = _build_notification_data(**kwargs)
_check_arguments_notification(data)
return self._call('testNotification', data)
@append_docstring(notification_docstring("add"))
def add_notification(self, **kwargs) -> dict:
"""
Add a notification.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_notification(
... name="notification 1",
... isDefault=True,
... applyExisting=True,
... type=NotificationType.PUSHBYTECHULUS,
... pushAPIKey="123456789"
... )
{
'id': 1,
'msg': 'Saved'
}
"""
data = _build_notification_data(**kwargs)
_check_arguments_notification(data)
with self.wait_for_event(Event.NOTIFICATION_LIST):
return self._call('addNotification', (data, None))
@append_docstring(notification_docstring("edit"))
def edit_notification(self, id_: int, **kwargs) -> dict:
"""
Edit a notification.
:param int id_: Id of the notification to edit.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.edit_notification(1,
... name="notification 1 edited",
... isDefault=False,
... applyExisting=False,
... type=NotificationType.PUSHDEER,
... pushdeerKey="987654321"
... )
{
'id': 1,
'msg': 'Saved'
}
"""
notification = self.get_notification(id_)
# remove old notification provider options from notification object
if "type" in kwargs and kwargs["type"] != notification["type"]:
for provider in notification_provider_options:
provider_options = notification_provider_options[provider]
if provider != kwargs["type"]:
for option in provider_options:
if option in notification:
del notification[option]
notification.update(kwargs)
_check_arguments_notification(notification)
with self.wait_for_event(Event.NOTIFICATION_LIST):
return self._call('addNotification', (notification, id_))
def delete_notification(self, id_: int) -> dict:
"""
Delete a notification.
:param int id_: Id of the notification to delete.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_notification(1)
{
'msg': 'Deleted'
}
"""
with self.wait_for_event(Event.NOTIFICATION_LIST):
return self._call('deleteNotification', id_)
def check_apprise(self) -> bool:
"""
Check if apprise exists.
:return: The server response.
:rtype: bool
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.check_apprise()
True
"""
return self._call('checkApprise')
# proxy
def get_proxies(self) -> list[dict]:
"""
Get all proxies.
:return: All proxies.
:rtype: list
Example::
>>> api.get_proxies()
[
{
'active': True,
'auth': True,
'createdDate': '2022-12-15 16:24:24',
'default': False,
'host': '127.0.0.1',
'id': 1,
'password': 'password',
'port': 8080,
'protocol': 'http',
'userId': 1,
'username': 'username'
}
]
"""
r = self._get_event_data(Event.PROXY_LIST)
int_to_bool(r, ["auth", "active", "default", "applyExisting"])
return r
def get_proxy(self, id_: int) -> dict:
"""
Get a proxy.
:param int id_: Id of the proxy to get.
:return: The proxy.
:rtype: dict
:raises UptimeKumaException: If the proxy does not exist.
Example::
>>> api.get_proxy(1)
{
'active': True,
'auth': True,
'createdDate': '2022-12-15 16:24:24',
'default': False,
'host': '127.0.0.1',
'id': 1,
'password': 'password',
'port': 8080,
'protocol': 'http',
'userId': 1,
'username': 'username'
}
"""
proxies = self.get_proxies()
for proxy in proxies:
if proxy.get("id") == id_:
return proxy
raise UptimeKumaException("proxy does not exist")
@append_docstring(proxy_docstring("add"))
def add_proxy(self, **kwargs) -> dict:
"""
Add a proxy.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_proxy(
... protocol=ProxyProtocol.HTTP,
... host="127.0.0.1",
... port=8080,
... auth=True,
... username="username",
... password="password",
... active=True,
... default=False,
... applyExisting=False
... )
{
'id': 1,
'msg': 'Saved'
}
"""
data = _build_proxy_data(**kwargs)
_check_arguments_proxy(data)
with self.wait_for_event(Event.PROXY_LIST):
return self._call('addProxy', (data, None))
@append_docstring(proxy_docstring("edit"))
def edit_proxy(self, id_: int, **kwargs) -> dict:
"""
Edit a proxy.
:param int id_: Id of the proxy to edit.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.edit_proxy(1,
... protocol=ProxyProtocol.HTTPS,
... host="127.0.0.2",
... port=8888
... )
{
'id': 1,
'msg': 'Saved'
}
"""
proxy = self.get_proxy(id_)
proxy.update(kwargs)
_check_arguments_proxy(proxy)
with self.wait_for_event(Event.PROXY_LIST):
return self._call('addProxy', (proxy, id_))
def delete_proxy(self, id_: int) -> dict:
"""
Delete a proxy.
:param int id_: Id of the proxy to delete.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_proxy(1)
{
'msg': 'Deleted'
}
"""
with self.wait_for_event(Event.PROXY_LIST):
return self._call('deleteProxy', id_)
# status page
def get_status_pages(self) -> list[dict]:
"""
Get all status pages.
:return: All status pages.
:rtype: list
Example::
>>> api.get_status_pages()
[
{
'customCSS': '',
'description': 'description 1',
'domainNameList': [],
'footerText': None,
'icon': '/icon.svg',
'googleAnalyticsId': '',
'id': 1,
'published': True,
'showPoweredBy': False,
'showTags': False,
'slug': 'slug1',
'theme': 'light',
'title': 'status page 1'
}
]
"""
return list(self._get_event_data(Event.STATUS_PAGE_LIST).values())
def get_status_page(self, slug: str) -> dict:
"""
Get a status page.
:param str slug: Slug
:return: The status page.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_status_page("slug1")
{
'customCSS': '',
'description': 'description 1',
'domainNameList': [],
'footerText': None,
'icon': '/icon.svg',
'googleAnalyticsId': '',
'id': 1,
'incident': {
'content': 'content 1',
'createdDate': '2022-12-15 16:51:43',
'id': 1,
'lastUpdatedDate': None,
'pin': 1,
'style': 'danger',
'title': 'title 1'
},
'maintenanceList': [],
'publicGroupList': [
{
'id': 1,
'monitorList': [
{
'id': 1,
'maintenance': False,
'name': 'monitor 1',
'sendUrl': 0
}
],
'name': 'Services',
'weight': 1
}
],
'published': True,
'showPoweredBy': False,
'showTags': False,
'slug': 'slug1',
'theme': 'light',
'title': 'status page 1'
}
"""
r1 = self._call('getStatusPage', slug)
r2 = requests.get(f"{self.url}/api/status-page/{slug}").json()
config = r1["config"]
config.update(r2["config"])
data = {
**config,
"incident": r2["incident"],
"publicGroupList": r2["publicGroupList"],
}
if parse_version(self.version) >= parse_version("1.19"):
data.update({
"maintenanceList": r2["maintenanceList"]
})
return data
def add_status_page(self, slug: str, title: str) -> dict:
"""
Add a status page.
:param str slug: Slug
:param str title: Title
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_status_page("slug1", "status page 1")
{
'msg': 'OK!'
}
"""
with self.wait_for_event(Event.STATUS_PAGE_LIST):
return self._call('addStatusPage', (title, slug))
def delete_status_page(self, slug: str) -> dict:
"""
Delete a status page.
:param str slug: Slug
:return: The server response.
:rtype: dict
Example::
>>> api.delete_status_page("slug1")
{}
"""
r = self._call('deleteStatusPage', slug)
# uptime kuma does not send the status page list event when a status page is deleted
for status_page in self._event_data[Event.STATUS_PAGE_LIST].values():
if status_page["slug"] == slug:
status_page_id = status_page["id"]
del self._event_data[Event.STATUS_PAGE_LIST][str(status_page_id)]
break
return r
def save_status_page(self, slug: str, **kwargs) -> dict:
"""
Save a status page.
:param str slug: Slug
:param int id: Id of the status page to save
:param str title: Title
:param str, optional description: Description, defaults to None
:param str, optional theme: Switch Theme, defaults to "light"
:param bool, optional published: Published, defaults to True
:param bool, optional showTags: Show Tags, defaults to False
:param list, optional domainNameList: Domain Names, defaults to None
:param str, optional googleAnalyticsId: Google Analytics ID, defaults to None
:param str, optional customCSS: Custom CSS, defaults to ""
:param str, optional footerText: Custom Footer, defaults to None
:param bool, optional showPoweredBy: Show Powered By, defaults to True
:param str, optional icon: Icon, defaults to "/icon.svg"
:param list, optional publicGroupList: Public Group List, defaults to None
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> monitor_id = 1
>>> api.save_status_page(
... slug="slug1",
... title="status page 1",
... description="description 1",
... publicGroupList=[
... {
... 'name': 'Services',
... 'weight': 1,
... 'monitorList': [
... {
... "id": monitor_id
... }
... ]
... }
... ]
... )
{
'publicGroupList': [
{
'id': 1,
'monitorList': [
{
'id': 1
}
],
'name': 'Services',
'weight': 1
}
]
}
"""
status_page = self.get_status_page(slug)
status_page.pop("incident")
if parse_version(self.version) >= parse_version("1.19"):
status_page.pop("maintenanceList")
status_page.update(kwargs)
data = _build_status_page_data(**status_page)
r = self._call('saveStatusPage', data)
# uptime kuma does not send the status page list event when a status page is saved
status_page = self._call('getStatusPage', slug)["config"]
status_page_id = status_page["id"]
if self._event_data[Event.STATUS_PAGE_LIST] is None:
self._event_data[Event.STATUS_PAGE_LIST] = {}
self._event_data[Event.STATUS_PAGE_LIST][str(status_page_id)] = status_page
return r
def post_incident(
self,
slug: str,
title: str,
content: str,
style: IncidentStyle = IncidentStyle.PRIMARY
) -> dict:
"""
Post an incident to status page.
:param str slug: Slug
:param str title: Title
:param str content: Content
:param IncidentStyle, optional style: Style, defaults to :attr:`~.IncidentStyle.PRIMARY`
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.post_incident(
... slug="slug1",
... title="title 1",
... content="content 1",
... style=IncidentStyle.DANGER
... )
{
'content': 'content 1',
'createdDate': '2022-12-15 16:51:43',
'id': 1,
'pin': True,
'style': 'danger',
'title': 'title 1'
}
"""
incident = {
"title": title,
"content": content,
"style": style
}
r = self._call('postIncident', (slug, incident))["incident"]
self.save_status_page(slug)
return r
def unpin_incident(self, slug: str) -> dict:
"""
Unpin an incident from a status page.
:param str slug: Slug
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.unpin_incident(slug="slug1")
{}
"""
r = self._call('unpinIncident', slug)
self.save_status_page(slug)
return r
# heartbeat
def get_heartbeats(self) -> list[dict]:
"""
Get heartbeats.
:return: The heartbeats.
:rtype: list
Example::
>>> api.get_heartbeats()
[
{
'bool': False,
'data': [
{
'down_count': 0,
'duration': 0,
'id': 1,
'important': True,
'monitor_id': 1,
'msg': 'connect ECONNREFUSED 127.0.0.1:80',
'ping': None,
'status': <MonitorStatus.DOWN: 0>,
'time': '2022-12-15 16:51:41.782'
},
{
'down_count': 0,
'duration': 60,
'id': 2,
'important': False,
'monitor_id': 1,
'msg': 'connect ECONNREFUSED 127.0.0.1:80',
'ping': None,
'status': <MonitorStatus.DOWN: 0>,
'time': '2022-12-15 16:52:41.799'
},
...
],
'id': '1'
}
]
"""
r = self._get_event_data(Event.HEARTBEAT_LIST)
for i in r:
int_to_bool(i["data"], ["important"])
parse_monitor_status(i["data"])
return r
def get_important_heartbeats(self) -> list[dict]:
"""
Get important heartbeats.
:return: The important heartbeats.
:rtype: list
Example::
>>> api.get_important_heartbeats()
[
{
'bool': False,
'data': [
{
'duration': 0,
'important': True,
'monitorID': 1,
'msg': 'connect ECONNREFUSED 127.0.0.1:80',
'ping': None,
'status': <MonitorStatus.DOWN: 0>,
'time': '2022-12-15 16:51:41.782'
}
],
'id': '1'
}
]
"""
r = self._get_event_data(Event.IMPORTANT_HEARTBEAT_LIST)
for i in r:
int_to_bool(i["data"], ["important"])
parse_monitor_status(i["data"])
return r
def get_heartbeat(self) -> list[dict]:
"""
Get heartbeat.
:return: The heartbeat.
:rtype: list
Example::
>>> api.get_heartbeat()
[
{
'duration': 60,
'important': False,
'monitorID': 1,
'msg': 'connect ECONNREFUSED 127.0.0.1:80',
'status': <MonitorStatus.DOWN: 0>,
'time': '2022-12-15 17:17:42.099'
}
]
"""
r = self._get_event_data(Event.HEARTBEAT)
int_to_bool(r, ["important"])
parse_monitor_status(r)
return r
# avg ping
def avg_ping(self) -> list[dict]:
"""
Get average ping.
:return: The average ping.
:rtype: list
Example::
>>> api.avg_ping()
[
{
'id': '1',
'data': 67
}
]
"""
return self._get_event_data(Event.AVG_PING)
# cert info
def cert_info(self) -> list[dict]:
"""
Get certificate info.
:return: Certificate info.
:rtype: list
Example::
>>> api.cert_info()
[
{
'id': '2',
'data': '{"valid":true,"certInfo":{"subject":{"C":"US","ST":"California","L":"San Francisco","O":"Cloudflare, Inc.","CN":"cloudflare-dns.com"},"issuer":{"C":"US","O":"DigiCert Inc","CN":"DigiCert TLS Hybrid ECC SHA384 2020 CA1"},"subjectaltname":"DNS:cloudflare-dns.com, DNS:*.cloudflare-dns.com, DNS:one.one.one.one, IP Address:1.0.0.1, IP Address:1.1.1.1, IP Address:162.159.36.1, IP Address:162.159.46.1, IP Address:2606:4700:4700:0:0:0:0:1001, IP Address:2606:4700:4700:0:0:0:0:1111, IP Address:2606:4700:4700:0:0:0:0:64, IP Address:2606:4700:4700:0:0:0:0:6400","infoAccess":{"OCSP - URI":["http://ocsp.digicert.com"],"CA Issuers - URI":["http://cacerts.digicert.com/DigiCertTLSHybridECCSHA3842020CA1-1.crt"]},"bits":256,"pubkey":{"type":"Buffer","data":[4,252,62,81,239,116,29,198,218,120,186,174,165,138,74,221,217,11,230,226,91,87,49,87,222,211,191,182,217,138,59,79,210,84,84,136,207,189,46,101,231,102,235,197,223,208,49,84,82,167,44,238,18,134,163,154,102,193,234,6,121,3,186,27,240]},"asn1Curve":"prime256v1","nistCurve":"P-256","valid_from":"Sep 13 00:00:00 2022 GMT","valid_to":"Sep 13 23:59:59 2023 GMT","fingerprint":"D1:D4:67:E7:BC:0E:AC:CD:C8:87:A6:12:B8:B2:BC:15:C1:69:04:6B","fingerprint256":"66:67:73:19:84:78:03:0C:56:FB:23:76:8E:48:19:C2:B7:5C:32:2C:D3:BE:A4:A8:34:6B:B0:3C:22:8D:4F:18","fingerprint512":"C2:76:3A:C5:AC:64:76:BB:BF:9F:AB:3A:B9:04:55:06:A4:8D:13:67:08:26:10:A0:FE:22:B5:E2:26:E0:67:1F:EC:17:B7:C2:59:18:1E:7B:46:99:7C:54:A4:9E:4B:C6:58:B4:16:B4:88:6F:0C:5B:60:D1:78:AD:E9:CE:28:1C","ext_key_usage":["1.3.6.1.5.5.7.3.1","1.3.6.1.5.5.7.3.2"],"serialNumber":"0D1C7AF28E5F2717DBB27F410820BDF7","raw":{"type":"Buffer","data":[48,130,5,247,48,130,5,125,160,3,2,1,2,2,16,13,28,122,242,142,95,39,23,219,178,127,65,8,32,189,247,48,10,6,8,42,134,72,206,61,4,3,3,48,86,49,11,48,9,6,3,85,4,6,19,2,85,83,49,21,48,19,6,3,85,4,10,19,12,68,105,103,105,67,101,114,116,32,73,110,99,49,48,48,46,6,3,85,4,3,19,39,68,105,103,105,67,101,114,116,32,84,76,83,32,72,121,98,114,105,100,32,69,67,67,32,83,72,65,51,56,52,32,50,48,50,48,32,67,65,49,48,30,23,13,50,50,48,57,49,51,48,48,48,48,48,48,90,23,13,50,51,48,57,49,51,50,51,53,57,53,57,90,48,114,49,11,48,9,6,3,85,4,6,19,2,85,83,49,19,48,17,6,3,85,4,8,19,10,67,97,108,105,102,111,114,110,105,97,49,22,48,20,6,3,85,4,7,19,13,83,97,110,32,70,114,97,110,99,105,115,99,111,49,25,48,23,6,3,85,4,10,19,16,67,108,111,117,100,102,108,97,114,101,44,32,73,110,99,46,49,27,48,25,6,3,85,4,3,19,18,99,108,111,117,100,102,108,97,114,101,45,100,110,115,46,99,111,109,48,89,48,19,6,7,42,134,72,206,61,2,1,6,8,42,134,72,206,61,3,1,7,3,66,0,4,252,62,81,239,116,29,198,218,120,186,174,165,138,74,221,217,11,230,226,91,87,49,87,222,211,191,182,217,138,59,79,210,84,84,136,207,189,46,101,231,102,235,197,223,208,49,84,82,167,44,238,18,134,163,154,102,193,234,6,121,3,186,27,240,163,130,4,15,48,130,4,11,48,31,6,3,85,29,35,4,24,48,22,128,20,10,188,8,41,23,140,165,57,109,122,14,206,51,199,46,179,237,251,195,122,48,29,6,3,85,29,14,4,22,4,20,210,99,186,148,214,84,127,76,133,20,8,58,28,133,86,41,239,89,143,204,48,129,166,6,3,85,29,17,4,129,158,48,129,155,130,18,99,108,111,117,100,102,108,97,114,101,45,100,110,115,46,99,111,109,130,20,42,46,99,108,111,117,100,102,108,97,114,101,45,100,110,115,46,99,111,109,130,15,111,110,101,46,111,110,101,46,111,110,101,46,111,110,101,135,4,1,0,0,1,135,4,1,1,1,1,135,4,162,159,36,1,135,4,162,159,46,1,135,16,38,6,71,0,71,0,0,0,0,0,0,0,0,0,16,1,135,16,38,6,71,0,71,0,0,0,0,0,0,0,0,0,17,17,135,16,38,6,71,0,71,0,0,0,0,0,0,0,0,0,0,100,135,16,38,6,71,0,71,0,0,0,0,0,0,0,0,0,100,0,48,14,6,3,85,29,15,1,1,255,4,4,3,2,7,128,48,29,6,3,85,29,37,4,22,48,20,6,8,43,6,1,5,5,7,3,1,6,8,43,6,1,5,5,7,3,2,48,129,155,6,3,85,29,31,4,129,147,48,129,144,48,70,160,68,160,66,134,64,104,116,116,112,58,47,47,99,114,108,51,46,100,105,103,105,99,101,114,116,46,99,111,109,47,68,105,103,105,67,101,114,116,84,76,83,72,121,98,114,105,100,69,67,67,83,72,65,51,56,52,50,48,50,48,67,65,49,45,49,46,99,114,108,48,70,160,68,160,66,134,64,104,116,116,112,58,47,47,99,114,108,52,46,100,105,103,105,99,101,114,116,46,99,111,109,47,68,105,103,105,67,101,114,116,84,76,83,72,121,98,114,105,100,69,67,67,83,72,65,51,56,52,50,48,50,48,67,65,49,45,49,46,99,114,108,48,62,6,3,85,29,32,4,55,48,53,48,51,6,6,103,129,12,1,2,2,48,41,48,39,6,8,43,6,1,5,5,7,2,1,22,27,104,116,116,112,58,47,47,119,119,119,46,100,105,103,105,99,101,114,116,46,99,111,109,47,67,80,83,48,129,133,6,8,43,6,1,5,5,7,1,1,4,121,48,119,48,36,6,8,43,6,1,5,5,7,48,1,134,24,104,116,116,112,58,47,47,111,99,115,112,46,100,105,103,105,99,101,114,116,46,99,111,109,48,79,6,8,43,6,1,5,5,7,48,2,134,67,104,116,116,112,58,47,47,99,97,99,101,114,116,115,46,100,105,103,105,99,101,114,116,46,99,111,109,47,68,105,103,105,67,101,114,116,84,76,83,72,121,98,114,105,100,69,67,67,83,72,65,51,56,52,50,48,50,48,67,65,49,45,49,46,99,114,116,48,9,6,3,85,29,19,4,2,48,0,48,130,1,126,6,10,43,6,1,4,1,214,121,2,4,2,4,130,1,110,4,130,1,106,1,104,0,117,0,232,62,208,218,62,245,6,53,50,231,87,40,188,137,107,201,3,211,203,209,17,107,236,235,105,225,119,125,109,6,189,110,0,0,1,131,57,10,85,95,0,0,4,3,0,70,48,68,2,32,19,225,125,163,221,153,90,255,11,159,65,167,55,234,243,77,130,35,3,9,67,221,172,45,200,156,200,78,60,52,50,247,2,32,53,26,206,34,249,6,72,61,141,13,201,235,157,108,146,194,3,186,89,214,148,238,143,113,56,232,38,0,18,118,72,15,0,119,0,53,207,25,27,191,177,108,87,191,15,173,76,109,66,203,187,182,39,32,38,81,234,63,225,42,239,168,3,195,59,214,76,0,0,1,131,57,10,85,167,0,0,4,3,0,72,48,70,2,33,0,162,182,69,93,222,50,248,3,60,156,189,95,73,27,139,121,27,251,57,104,115,83,67,131,78,119,138,55,210,86,118,226,2,33,0,132,146,242,202,94,171,22,244,80,236,141,149,240,132,54,176,168,153,184,117,5,158,160,74,247,194,22,246,142,35,28,79,0,118,0,179,115,119,7,225,132,80,248,99,134,214,5,169,220,17,9,74,121,45,177,103,12,11,135,220,240,3,14,121,54,165,154,0,0,1,131,57,10,85,247,0,0,4,3,0,71,48,69,2,33,0,154,1,140,175,47,65,114,139,87,11,28,28,7,144,34,177,195,215,254,128,187,251,210,181,170,206,96,95,15,98,14,223,2,32,10,140,75,206,219,38,223,184,94,103,214,158,104,124,206,196,212,21,154,83,59,128,31,7,246,107,12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Inc","CN":"DigiCert TLS Hybrid ECC SHA384 2020 CA1"},"issuer":{"C":"US","O":"DigiCert Inc","OU":"www.digicert.com","CN":"DigiCert Global Root CA"},"infoAccess":{"OCSP - URI":["http://ocsp.digicert.com"],"CA Issuers - URI":["http://cacerts.digicert.com/DigiCertGlobalRootCA.crt"]},"bits":384,"pubkey":{"type":"Buffer","data":[4,193,27,198,154,91,152,217,164,41,160,233,212,4,181,219,235,166,178,108,85,192,255,237,152,198,73,47,6,39,81,203,191,112,193,5,122,195,177,157,135,137,186,173,180,19,23,201,168,180,131,200,184,144,209,204,116,53,54,60,131,114,176,181,208,247,34,105,200,241,128,196,123,64,143,207,104,135,38,92,57,137,241,77,145,77,218,137,139,228,3,195,67,229,191,47,115]},"asn1Curve":"secp384r1","nistCurve":"P-384","valid_from":"Apr 14 00:00:00 2021 GMT","valid_to":"Apr 13 23:59:59 2031 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}
]
"""
return self._get_event_data(Event.CERT_INFO)
# uptime
def uptime(self) -> list[dict]:
"""
Get monitor uptime.
:return: Monitor uptime.
:rtype: list
Example::
>>> api.uptime()
[
{
'id': '2',
'duration': 24,
'uptime': 1
},
{
'id': '2',
'duration': 720,
'uptime': 1
}
]
"""
return self._get_event_data(Event.UPTIME)
# info
def info(self) -> dict:
"""
Get server info.
:return: Server info.
:rtype: dict
Example::
>>> api.info()
{
'version': '1.19.2',
'latestVersion': '1.19.2',
'primaryBaseURL': None,
'serverTimezone': 'Europe/Berlin',
'serverTimezoneOffset': '+01:00'
}
"""
r = self._get_event_data(Event.INFO)
return r
# clear
def clear_events(self, monitor_id: int) -> dict:
"""
Clear monitor events.
:param int monitor_id: Id of the monitor to clear events.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.clear_events(1)
{}
"""
return self._call('clearEvents', monitor_id)
def clear_heartbeats(self, monitor_id: int) -> dict:
"""
Clear monitor heartbeats.
:param int monitor_id: Id of the monitor to clear heartbeats.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.clear_heartbeats(1)
{}
"""
return self._call('clearHeartbeats', monitor_id)
def clear_statistics(self) -> dict:
"""
Clear statistics.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.clear_statistics()
{}
"""
return self._call('clearStatistics')
# tags
def get_tags(self) -> list[dict]:
"""
Get all tags.
:return: All tags.
:rtype: list
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_tags()
[
{
'color': '#ffffff',
'id': 1,
'name': 'tag 1'
}
]
"""
return self._call('getTags')["tags"]
def get_tag(self, id_: int) -> dict:
"""
Get a tag.
:param int id_: Id of the monitor to get.
:return: The tag.
:rtype: dict
:raises UptimeKumaException: If the tag does not exist.
Example::
>>> api.get_tag(1)
{
'color': '#ffffff',
'id': 1,
'name': 'tag 1'
}
"""
tags = self.get_tags()
for tag in tags:
if tag["id"] == id_:
return tag
raise UptimeKumaException("tag does not exist")
@append_docstring(tag_docstring("add"))
def add_tag(self, **kwargs) -> dict:
"""
Add a tag.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_tag(
... name="tag 1",
... color="#ffffff"
... )
{
'color': '#ffffff',
'id': 1,
'name': 'tag 1'
}
"""
data = _build_tag_data(**kwargs)
_check_arguments_tag(data)
return self._call('addTag', data)["tag"]
@append_docstring(tag_docstring("edit"))
def edit_tag(self, id_: int, **kwargs) -> dict:
"""
Edits an existing tag.
:param int id_: Id of the tag to edit.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.edit_tag(1,
... name="tag 1 new",
... color="#000000"
... )
{
'msg': 'Saved',
'tag': {
'id': 1,
'name': 'tag 1 new',
'color': '#000000'
}
}
"""
data = self.get_tag(id_)
data.update(kwargs)
_check_arguments_tag(data)
return self._call('editTag', data)
def delete_tag(self, id_: int) -> dict:
"""
Delete a tag.
:param int id_: Id of the monitor to delete.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_tag(1)
{
'msg': 'Deleted Successfully.'
}
"""
return self._call('deleteTag', id_)
# settings
def get_settings(self) -> dict:
"""
Get settings.
:return: Settings.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_settings()
{
'checkBeta': False,
'checkUpdate': False,
'disableAuth': False,
'dnsCache': True,
'entryPage': 'dashboard',
'keepDataPeriodDays': 180,
'primaryBaseURL': '',
'searchEngineIndex': False,
'serverTimezone': 'Europe/Berlin',
'steamAPIKey': '',
'tlsExpiryNotifyDays': [
7,
14,
21
],
'trustProxy': False
}
"""
r = self._call('getSettings')["data"]
return r
def set_settings(
self,
password: str = None, # only required if disableAuth is true
# about
checkUpdate: bool = True,
checkBeta: bool = False,
# monitor history
keepDataPeriodDays: int = 180,
# general
serverTimezone: str = "",
entryPage: str = "dashboard",
searchEngineIndex: bool = False,
primaryBaseURL: str = "",
steamAPIKey: str = "",
dnsCache: bool = False,
# notifications
tlsExpiryNotifyDays: list = None,
# security
disableAuth: bool = False,
# reverse proxy
trustProxy: bool = False
) -> dict:
"""
Set settings.
:param str, optional password: Password, defaults to None
:param bool, optional checkUpdate: Show update if available, defaults to True
:param bool, optional checkBeta: Also check beta release, defaults to False
:param int, optional keepDataPeriodDays: Keep monitor history data for X days. Set to 0 for infinite retention., defaults to 180
:param str, optional serverTimezone: Server Timezone, defaults to ""
:param str, optional entryPage: Entry Page, defaults to "dashboard"
:param bool, optional searchEngineIndex: Search Engine Visibility, defaults to False
:param str, optional primaryBaseURL: Primary Base URL, defaults to ""
:param str, optional steamAPIKey: Steam API Key. For monitoring a Steam Game Server you need a Steam Web-API key., defaults to ""
:param bool, optional dnsCache: True to enable DNS Cache. It may be not working in some IPv6 environments, disable it if you encounter any issues., defaults to False
:param list, optional tlsExpiryNotifyDays: TLS Certificate Expiry. HTTPS Monitors trigger notification when TLS certificate expires in., defaults to None
:param bool, optional disableAuth: Disable Authentication, defaults to False
:param bool, optional trustProxy: Trust Proxy. Trust 'X-Forwarded-\*' headers. If you want to get the correct client IP and your Uptime Kuma is behind such as Nginx or Apache, you should enable this., defaults to False
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.set_settings(
... checkUpdate=False,
... checkBeta=False,
... keepDataPeriodDays=180,
... serverTimezone="Europe/Berlin",
... entryPage="dashboard",
... searchEngineIndex=False,
... primaryBaseURL="",
... steamAPIKey="",
... dnsCache=False,
... tlsExpiryNotifyDays=[
... 7,
... 14,
... 21
... ],
... disableAuth=False,
... trustProxy=False
... )
{
'msg': 'Saved'
}
"""
if not tlsExpiryNotifyDays:
tlsExpiryNotifyDays = [7, 14, 21]
data = {
"checkUpdate": checkUpdate,
"checkBeta": checkBeta,
"keepDataPeriodDays": keepDataPeriodDays,
"serverTimezone": serverTimezone,
"entryPage": entryPage,
"searchEngineIndex": searchEngineIndex,
"primaryBaseURL": primaryBaseURL,
"steamAPIKey": steamAPIKey,
"dnsCache": dnsCache,
"tlsExpiryNotifyDays": tlsExpiryNotifyDays,
"disableAuth": disableAuth
}
if parse_version(self.version) >= parse_version("1.18"):
data.update({
"trustProxy": trustProxy
})
return self._call('setSettings', (data, password))
def change_password(self, old_password: str, new_password: str) -> dict:
"""
Change password.
:param str old_password: Old password
:param str new_password: New password
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.change_password(
... old_password="secret123",
... new_password="321terces"
... )
{
'msg': 'Password has been updated successfully.'
}
"""
return self._call('changePassword', {
"currentPassword": old_password,
"newPassword": new_password,
})
def upload_backup(self, json_data: str, import_handle: str = "skip") -> dict:
"""
Import Backup.
:param str json_data: Backup data as json string.
:param str, optional import_handle: Choose "skip" if you want to skip every monitor or notification with the same name. "overwrite" will delete every existing monitor and notification. "keep" will keep both., defaults to "skip"
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> json_data = json.dumps({
... "version": "1.17.1",
... "notificationList": [],
... "monitorList": [],
... "proxyList": []
... })
>>> api.upload_backup(
... json_data=json_data,
... import_handle="overwrite"
... )
{
'msg': 'Backup successfully restored.'
}
"""
if import_handle not in ["overwrite", "skip", "keep"]:
raise ValueError()
return self._call('uploadBackup', (json_data, import_handle))
# 2FA
def twofa_status(self) -> dict:
"""
Get current 2FA status.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.twofa_status()
{
'status': False
}
"""
return self._call('twoFAStatus')
def prepare_2fa(self, password: str) -> dict:
"""
Prepare 2FA configuration.
:param str password: Current password.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> password = "secret123"
>>> r = api.prepare_2fa(password)
>>> r
{
'uri': 'otpauth://totp/Uptime%20Kuma:admin?secret=NBGVQNSNNRXWQ3LJJN4DIWSWIIYW45CZJRXXORSNOY3USSKXO5RG4MDPI5ZUK5CWJFIFOVCBGZVG24TSJ5LDE2BTMRLXOZBSJF3TISA'
}
>>> uri = r["uri"]
>>>
>>> from urllib import parse
>>> def parse_secret(uri):
... query = parse.urlsplit(uri).query
... params = dict(parse.parse_qsl(query))
... return params["secret"]
>>> secret = parse_secret(uri)
>>> secret
NBGVQNSNNRXWQ3LJJN4DIWSWIIYW45CZJRXXORSNOY3USSKXO5RG4MDPI5ZUK5CWJFIFOVCBGZVG24TSJ5LDE2BTMRLXOZBSJF3TISA
"""
return self._call('prepare2FA', password)
def verify_token(self, token: str, password: str) -> dict:
"""
Verify the provided 2FA token.
:param str token: 2FA token.
:param str password: Current password.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> import pyotp
>>> def generate_token(secret):
... totp = pyotp.TOTP(secret)
... return totp.now()
>>> token = generate_token(secret)
>>> token
526564
>>> api.verify_token(token, password)
{
'valid': True
}
"""
return self._call('verifyToken', (token, password))
def save_2fa(self, password: str) -> dict:
"""
Save the current 2FA configuration.
:param str password: Current password.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.save_2fa(password)
{
'msg': '2FA Enabled.'
}
"""
return self._call('save2FA', password)
def disable_2fa(self, password: str) -> dict:
"""
Disable 2FA for this user.
:param str password: Current password.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.disable_2fa(password)
{
'msg': '2FA Disabled.'
}
"""
return self._call('disable2FA', password)
# login
def login(self, username: str = None, password: str = None, token: str = "") -> dict:
"""
Login.
If username and password is not provided, auto login is performed if disableAuth is enabled.
:param str, optional username: Username. Must be None if disableAuth is enabled., defaults to None
:param str, optional password: Password. Must be None if disableAuth is enabled., defaults to None
:param str, optional token: 2FA Token. Required if 2FA is enabled., defaults to ""
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> username = "admin"
>>> password = "secret123"
>>> api.login(username, password)
{
'token': 'eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJ1c2VybmFtZSI6ImFkbWluIiwiaWF0IjoxNjcxMTk3MjkzfQ.lpho_LuKMnoltXOdA7-jZ98gXOU-UbEIuxMwMRm4Nz0'
}
"""
# autologin
if username is None and password is None:
with self.wait_for_event(Event.AUTO_LOGIN):
return {}
return self._call('login', {
"username": username,
"password": password,
"token": token
})
def login_by_token(self, token: str) -> dict:
"""
Login by token.
:param str token: Login token generated by :meth:`~login`
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.login_by_token(token)
{}
"""
return self._call('loginByToken', token)
def logout(self) -> None:
"""
Logout.
:return: The server response.
:rtype: None
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.logout()
None
"""
return self._call('logout')
# setup
def need_setup(self) -> bool:
"""
Check if the server has already been set up.
:return: The server response.
:rtype: bool
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.need_setup()
True
"""
return self._call('needSetup')
def setup(self, username: str, password: str) -> dict:
"""
Set up the server.
:param str username: Username
:param str password: Password
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.setup(username, password)
{
'msg': 'Added Successfully.'
}
"""
return self._call("setup", (username, password))
# database
def get_database_size(self) -> dict:
"""
Get database size.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_database_size()
{
'size': 61440
}
"""
return self._call('getDatabaseSize')
def shrink_database(self) -> dict:
"""
Shrink database.
Trigger database VACUUM for SQLite. If your database is created after 1.10.0, AUTO_VACUUM is already enabled and this action is not needed.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.shrink_database()
{}
"""
return self._call('shrinkDatabase')
# docker host
def get_docker_hosts(self) -> list[dict]:
"""
Get all docker hosts.
:return: All docker hosts.
:rtype: list
Example::
>>> api.get_docker_hosts()
[
{
'dockerDaemon': '/var/run/docker.sock',
'dockerType': 'socket',
'id': 1,
'name': 'name 1',
'userID': 1
}
]
"""
r = self._get_event_data(Event.DOCKER_HOST_LIST)
return r
def get_docker_host(self, id_: int) -> dict:
"""
Get a docker host.
:param int id_: Id of the docker host to get.
:return: The docker host.
:rtype: dict
:raises UptimeKumaException: If the docker host does not exist.
Example::
>>> api.get_docker_host(1)
{
'dockerDaemon': '/var/run/docker.sock',
'dockerType': 'socket',
'id': 1,
'name': 'name 1',
'userID': 1
}
"""
docker_hosts = self.get_docker_hosts()
for docker_host in docker_hosts:
if docker_host["id"] == id_:
return docker_host
raise UptimeKumaException("docker host does not exist")
@append_docstring(docker_host_docstring("test"))
def test_docker_host(self, **kwargs) -> dict:
"""
Test a docker host.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.test_docker_host(
... name="name 1",
... dockerType=DockerType.SOCKET,
... dockerDaemon="/var/run/docker.sock"
... )
{
'msg': 'Connected Successfully. Amount of containers: 10'
}
"""
data = _build_docker_host_data(**kwargs)
return self._call('testDockerHost', data)
@append_docstring(docker_host_docstring("add"))
def add_docker_host(self, **kwargs) -> dict:
"""
Add a docker host.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_docker_host(
... name="name 1",
... dockerType=DockerType.SOCKET,
... dockerDaemon="/var/run/docker.sock"
... )
{
'id': 1,
'msg': 'Saved'
}
"""
data = _build_docker_host_data(**kwargs)
_convert_docker_host_input(data)
with self.wait_for_event(Event.DOCKER_HOST_LIST):
return self._call('addDockerHost', (data, None))
@append_docstring(docker_host_docstring("edit"))
def edit_docker_host(self, id_: int, **kwargs) -> dict:
"""
Edit a docker host.
:param int id_: Id of the docker host to edit.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.edit_docker_host(1,
... name="name 2"
... )
{
'id': 1,
'msg': 'Saved'
}
"""
data = self.get_docker_host(id_)
data.update(kwargs)
_convert_docker_host_input(data)
with self.wait_for_event(Event.DOCKER_HOST_LIST):
return self._call('addDockerHost', (data, id_))
def delete_docker_host(self, id_: int) -> dict:
"""
Delete a docker host.
:param int id_: Id of the docker host to delete.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_docker_host(1)
{
'msg': 'Deleted'
}
"""
with self.wait_for_event(Event.DOCKER_HOST_LIST):
return self._call('deleteDockerHost', id_)
# maintenance
def get_maintenances(self) -> list[dict]:
"""
Get all maintenances.
:return: All maintenances.
:rtype: list
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_maintenances()
[
{
"id": 1,
"title": "title",
"description": "description",
"strategy": "single",
"intervalDay": 1,
"active": true,
"dateRange": [
"2022-12-27 15:39:00",
"2022-12-30 15:39:00"
],
"timeRange": [
{
"hours": 0,
"minutes": 0
},
{
"hours": 0,
"minutes": 0
}
],
"weekdays": [],
"daysOfMonth": [],
"timeslotList": [
{
"startDate": "2022-12-27 22:36:00",
"endDate": "2022-12-29 22:36:00"
}
],
"cron": "",
"durationMinutes": null,
"timezone": "Europe/Berlin",
"timezoneOffset": "+02:00",
"status": "ended"
}
]
"""
return list(self._get_event_data(Event.MAINTENANCE_LIST).values())
def get_maintenance(self, id_: int) -> dict:
"""
Get a maintenance.
:param int id_: Id of the maintenance to get.
:return: The maintenance.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_maintenance(1)
{
"id": 1,
"title": "title",
"description": "description",
"strategy": "single",
"intervalDay": 1,
"active": true,
"dateRange": [
"2022-12-27 15:39:00",
"2022-12-30 15:39:00"
],
"timeRange": [
{
"hours": 0,
"minutes": 0
},
{
"hours": 0,
"minutes": 0
}
],
"weekdays": [],
"daysOfMonth": [],
"timeslotList": [
{
"startDate": "2022-12-27 22:36:00",
"endDate": "2022-12-29 22:36:00"
}
],
"cron": null,
"duration": null,
"durationMinutes": 0,
"timezone": "Europe/Berlin",
"timezoneOffset": "+02:00",
"status": "ended"
}
"""
return self._call('getMaintenance', id_)["maintenance"]
@append_docstring(maintenance_docstring("add"))
def add_maintenance(self, **kwargs) -> dict:
"""
Adds a maintenance.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example (strategy: :attr:`~.MaintenanceStrategy.MANUAL`)::
>>> api.add_maintenance(
... title="test",
... description="test",
... strategy=MaintenanceStrategy.MANUAL,
... active=True,
... intervalDay=1,
... dateRange=[
... "2022-12-27 00:00:00"
... ],
... weekdays=[],
... daysOfMonth=[]
... )
{
"msg": "Added Successfully.",
"maintenanceID": 1
}
Example (strategy: :attr:`~.MaintenanceStrategy.SINGLE`)::
>>> api.add_maintenance(
... title="test",
... description="test",
... strategy=MaintenanceStrategy.SINGLE,
... active=True,
... intervalDay=1,
... dateRange=[
... "2022-12-27 22:36:00",
... "2022-12-29 22:36:00"
... ],
... weekdays=[],
... daysOfMonth=[],
... timezone="Europe/Berlin"
... )
{
"msg": "Added Successfully.",
"maintenanceID": 1
}
Example (strategy: :attr:`~.MaintenanceStrategy.RECURRING_INTERVAL`)::
>>> api.add_maintenance(
... title="test",
... description="test",
... strategy=MaintenanceStrategy.RECURRING_INTERVAL,
... active=True,
... intervalDay=1,
... dateRange=[
... "2022-12-27 22:37:00",
... "2022-12-31 22:37:00"
... ],
... timeRange=[
... {
... "hours": 2,
... "minutes": 0,
... "seconds": 0
... },
... {
... "hours": 3,
... "minutes": 0,
... "seconds": 0
... }
... ],
... weekdays=[],
... daysOfMonth=[],
... timezone="Europe/Berlin"
... )
{
"msg": "Added Successfully.",
"maintenanceID": 1
}
Example (strategy: :attr:`~.MaintenanceStrategy.RECURRING_WEEKDAY`)::
>>> api.add_maintenance(
... title="test",
... description="test",
... strategy=MaintenanceStrategy.RECURRING_WEEKDAY,
... active=True,
... intervalDay=1,
... dateRange=[
... "2022-12-27 22:38:00",
... "2022-12-31 22:38:00"
... ],
... timeRange=[
... {
... "hours": 2,
... "minutes": 0,
... "seconds": 0
... },
... {
... "hours": 3,
... "minutes": 0,
... "seconds": 0
... }
... ],
... weekdays=[
... 1,
... 3,
... 5,
... 0
... ],
... daysOfMonth=[],
... timezone="Europe/Berlin"
... )
{
"msg": "Added Successfully.",
"maintenanceID": 1
}
Example (strategy: :attr:`~.MaintenanceStrategy.RECURRING_DAY_OF_MONTH`)::
>>> api.add_maintenance(
... title="test",
... description="test",
... strategy=MaintenanceStrategy.RECURRING_DAY_OF_MONTH,
... active=True,
... intervalDay=1,
... dateRange=[
... "2022-12-27 22:39:00",
... "2022-12-31 22:39:00"
... ],
... timeRange=[
... {
... "hours": 2,
... "minutes": 0,
... "seconds": 0
... },
... {
... "hours": 3,
... "minutes": 0,
... "seconds": 0
... }
... ],
... weekdays=[],
... daysOfMonth=[
... 1,
... 10,
... 20,
... 30,
... "lastDay1"
... ],
... timezone="Europe/Berlin"
... )
{
"msg": "Added Successfully.",
"maintenanceID": 1
}
Example (strategy: :attr:`~.MaintenanceStrategy.CRON`)::
>>> api.add_maintenance(
... title="test",
... description="test",
... strategy=MaintenanceStrategy.CRON,
... active=True,
... intervalDay=1,
... dateRange=[
... "2022-12-27 22:39:00",
... "2022-12-31 22:39:00"
... ],
... weekdays=[],
... daysOfMonth=[],
... cron="50 5 * * *",
... durationMinutes=120,
... timezone="Europe/Berlin"
... )
{
"msg": "Added Successfully.",
"maintenanceID": 1
}
"""
data = self._build_maintenance_data(**kwargs)
_check_arguments_maintenance(data)
return self._call('addMaintenance', data)
@append_docstring(maintenance_docstring("edit"))
def edit_maintenance(self, id_: int, **kwargs) -> dict:
"""
Edits a maintenance.
:param int id_: Id of the maintenance to edit.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.edit_maintenance(1,
... title="test",
... description="test",
... strategy=MaintenanceStrategy.RECURRING_INTERVAL,
... active=True,
... intervalDay=1,
... dateRange=[
... "2022-12-27 22:37:00",
... "2022-12-31 22:37:00"
... ],
... timeRange=[
... {
... "hours": 2,
... "minutes": 0,
... "seconds": 0
... },
... {
... "hours": 3,
... "minutes": 0,
... "seconds": 0
... }
... ],
... weekdays=[],
... daysOfMonth=[]
... )
{
"msg": "Saved.",
"maintenanceID": 1
}
"""
maintenance = self.get_maintenance(id_)
maintenance.update(kwargs)
_check_arguments_maintenance(maintenance)
return self._call('editMaintenance', maintenance)
def delete_maintenance(self, id_: int) -> dict:
"""
Deletes a maintenance.
:param int id_: Id of the maintenance to delete.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_maintenance(1)
{
"msg": "Deleted Successfully."
}
"""
return self._call('deleteMaintenance', id_)
def pause_maintenance(self, id_: int) -> dict:
"""
Pauses a maintenance.
:param int id_: Id of the maintenance to pause.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.pause_maintenance(1)
{
"msg": "Paused Successfully."
}
"""
return self._call('pauseMaintenance', id_)
def resume_maintenance(self, id_: int) -> dict:
"""
Resumes a maintenance.
:param int id_: Id of the maintenance to resume.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.resume_maintenance(1)
{
"msg": "Resume Successfully"
}
"""
return self._call('resumeMaintenance', id_)
def get_monitor_maintenance(self, id_: int) -> list[dict]:
"""
Gets all monitors of a maintenance.
:param int id_: Id of the maintenance to get the monitors from.
:return: All monitors of the maintenance.
:rtype: list
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_monitor_maintenance(1)
[
{
"id": 1,
"name": "monitor 1"
},
{
"id": 2,
"name": "monitor 2"
}
]
"""
return self._call('getMonitorMaintenance', id_)["monitors"]
def add_monitor_maintenance(
self,
id_: int,
monitors: list,
) -> dict:
"""
Adds monitors to a maintenance.
:param int id_: Id of the maintenance to add the monitors to.
:param list monitors: The list of monitors to add to the maintenance.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> monitors = [
... {
... "id": 1,
... "name": "monitor 1"
... },
... {
... "id": 2,
... "name": "monitor 2"
... }
... ]
>>> api.add_monitor_maintenance(1, monitors)
{
"msg": "Added Successfully."
}
"""
return self._call('addMonitorMaintenance', (id_, monitors))
def get_status_page_maintenance(self, id_: int) -> list[dict]:
"""
Gets all status pages of a maintenance.
:param int id_: Id of the maintenance to get the status pages from.
:return: All status pages of the maintenance.
:rtype: list
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_status_page_maintenance(1)
[
{
"id": 1,
"title": "test"
}
]
"""
return self._call('getMaintenanceStatusPage', id_)["statusPages"]
def add_status_page_maintenance(
self,
id_: int,
status_pages: list,
) -> dict:
"""
Adds status pages to a maintenance.
:param int id_: Id of the maintenance to add the monitors to.
:param list status_pages: The list of status pages to add to the maintenance.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> status_pages = [
... {
... "id": 1,
... "name": "status page 1"
... },
... {
... "id": 2,
... "name": "status page 2"
... }
... ]
>>> api.add_status_page_maintenance(1, status_pages)
{
"msg": "Added Successfully."
}
"""
return self._call('addMaintenanceStatusPage', (id_, status_pages))
# api key
def get_api_keys(self) -> list[dict]:
"""
Get all api keys.
:return: All api keys.
:rtype: list
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.get_api_key_list()
[
{
"id": 1,
"name": "test",
"userID": 1,
"createdDate": "2023-03-20 11:15:05",
"active": False,
"expires": null,
"status": "inactive"
},
{
"id": 2,
"name": "test2",
"userID": 1,
"createdDate": "2023-03-20 11:20:29",
"active": True,
"expires": "2023-03-30 12:20:00",
"status": "active"
}
]
"""
# TODO: replace with getAPIKeyList?
r = self._get_event_data(Event.API_KEY_LIST)
int_to_bool(r, ["active"])
return r
def get_api_key(self, id_: int) -> dict:
"""
Get an api key.
:param int id_: Id of the api key to get.
:return: The api key.
:rtype: dict
:raises UptimeKumaException: If the api key does not exist.
Example::
>>> api.get_api_key(1)
{
"id": 1,
"name": "test",
"userID": 1,
"createdDate": "2023-03-20 11:15:05",
"active": False,
"expires": null,
"status": "inactive"
}
"""
api_keys = self.get_api_keys()
for api_key in api_keys:
if api_key["id"] == id_:
return api_key
raise UptimeKumaException("notification does not exist")
def add_api_key(self, name: str, expires: str, active: bool) -> dict:
"""
Adds a new api key.
:param str name: Name of the api key.
:param str expires: Expiration date of the api key. Set to ``None`` to disable expiration.
:param bool active: True to activate api key.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.add_api_key(
... name="test",
... expires="2023-03-30 12:20:00",
... active=True
... )
{
"msg": "Added Successfully.",
"key": "uk1_9XPRjV7ilGj9CvWRKYiBPq9GLtQs74UzTxKfCxWY",
"keyID": 1
}
>>> api.add_api_key(
... name="test2",
... expires=None,
... active=True
... )
{
"msg": "Added Successfully.",
"key": "uk2_jsB9H1Zmt9eEjycNFMTKgse1B0Vfvb944H4_aRqW",
"keyID": 2
}
"""
data = {
"name": name,
"expires": expires,
"active": 1 if active else 0
}
with self.wait_for_event(Event.API_KEY_LIST):
return self._call('addAPIKey', data)
def enable_api_key(self, id_: int) -> dict:
"""
Enable an api key.
:param int id_: Id of the api key to enable.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.enable_api_key(1)
{
"msg": "Enabled Successfully"
}
"""
with self.wait_for_event(Event.API_KEY_LIST):
return self._call('enableAPIKey', id_)
def disable_api_key(self, id_: int) -> dict:
"""
Disable an api key.
:param int id_: Id of the api key to disable.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.disable_api_key(1)
{
"msg": "Disabled Successfully."
}
"""
with self.wait_for_event(Event.API_KEY_LIST):
return self._call('disableAPIKey', id_)
def delete_api_key(self, id_: int) -> dict:
"""
Enable an api key.
:param int id_: Id of the api key to delete.
:return: The server response.
:rtype: dict
:raises UptimeKumaException: If the server returns an error.
Example::
>>> api.delete_api_key(1)
{
"msg": "Deleted Successfully."
}
"""
with self.wait_for_event(Event.API_KEY_LIST):
return self._call('deleteAPIKey', id_)