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healthchecks
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healthchecks/hc/api/models.py

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# coding: utf-8
import hashlib
import json
import time
import uuid
from datetime import datetime, timedelta as td
from croniter import croniter
from django.conf import settings
from django.core.signing import TimestampSigner
from django.db import models
from django.urls import reverse
from django.utils import timezone
from django.utils.text import slugify
from hc.accounts.models import Project
from hc.api import transports
from hc.lib import emails
from hc.lib.date import month_boundaries
import pytz
STATUSES = (("up", "Up"), ("down", "Down"), ("new", "New"), ("paused", "Paused"))
DEFAULT_TIMEOUT = td(days=1)
DEFAULT_GRACE = td(hours=1)
NEVER = datetime(3000, 1, 1, tzinfo=pytz.UTC)
CHECK_KINDS = (("simple", "Simple"), ("cron", "Cron"))
# max time between start and ping where we will consider both events related:
MAX_DELTA = td(hours=24)
CHANNEL_KINDS = (
("email", "Email"),
("webhook", "Webhook"),
("hipchat", "HipChat"),
("slack", "Slack"),
("pd", "PagerDuty"),
("pagertree", "PagerTree"),
("pagerteam", "Pager Team"),
("po", "Pushover"),
("pushbullet", "Pushbullet"),
("opsgenie", "Opsgenie"),
("victorops", "Splunk On-Call"),
("discord", "Discord"),
("telegram", "Telegram"),
("sms", "SMS"),
("zendesk", "Zendesk"),
("trello", "Trello"),
("matrix", "Matrix"),
("whatsapp", "WhatsApp"),
("apprise", "Apprise"),
("mattermost", "Mattermost"),
("msteams", "Microsoft Teams"),
("shell", "Shell Command"),
("zulip", "Zulip"),
("spike", "Spike"),
("call", "Phone Call"),
("linenotify", "LINE Notify"),
("signal", "Signal"),
)
PO_PRIORITIES = {-2: "lowest", -1: "low", 0: "normal", 1: "high", 2: "emergency"}
def isostring(dt):
"""Convert the datetime to ISO 8601 format with no microseconds. """
if dt:
return dt.replace(microsecond=0).isoformat()
class Check(models.Model):
name = models.CharField(max_length=100, blank=True)
slug = models.CharField(max_length=100, blank=True)
tags = models.CharField(max_length=500, blank=True)
code = models.UUIDField(default=uuid.uuid4, editable=False, unique=True)
desc = models.TextField(blank=True)
project = models.ForeignKey(Project, models.CASCADE)
created = models.DateTimeField(auto_now_add=True)
kind = models.CharField(max_length=10, default="simple", choices=CHECK_KINDS)
timeout = models.DurationField(default=DEFAULT_TIMEOUT)
grace = models.DurationField(default=DEFAULT_GRACE)
schedule = models.CharField(max_length=100, default="* * * * *")
tz = models.CharField(max_length=36, default="UTC")
subject = models.CharField(max_length=200, blank=True)
subject_fail = models.CharField(max_length=200, blank=True)
methods = models.CharField(max_length=30, blank=True)
manual_resume = models.BooleanField(default=False)
n_pings = models.IntegerField(default=0)
last_ping = models.DateTimeField(null=True, blank=True)
last_start = models.DateTimeField(null=True, blank=True)
last_duration = models.DurationField(null=True, blank=True)
last_ping_was_fail = models.BooleanField(default=False)
has_confirmation_link = models.BooleanField(default=False)
alert_after = models.DateTimeField(null=True, blank=True, editable=False)
status = models.CharField(max_length=6, choices=STATUSES, default="new")
class Meta:
indexes = [
# Index for the alert_after field. Excludes rows with status=down.
# Used in the sendalerts management command.
models.Index(
fields=["alert_after"],
name="api_check_aa_not_down",
condition=~models.Q(status="down"),
),
models.Index(fields=["project_id", "slug"], name="api_check_project_slug"),
]
def __str__(self):
return "%s (%d)" % (self.name or self.code, self.id)
def name_then_code(self):
if self.name:
return self.name
return str(self.code)
def url(self):
""" Return check's ping url in user's preferred style.
Note: this method reads self.project. If project is not loaded already,
this causes a SQL query.
"""
if self.project_id and self.project.show_slugs:
if not self.slug:
return None
# If ping_key is not set, use dummy placeholder
key = self.project.ping_key or "{ping_key}"
return settings.PING_ENDPOINT + key + "/" + self.slug
return settings.PING_ENDPOINT + str(self.code)
def details_url(self):
return settings.SITE_ROOT + reverse("hc-details", args=[self.code])
def cloaked_url(self):
return settings.SITE_ROOT + reverse("hc-uncloak", args=[self.unique_key])
def email(self):
return "%s@%s" % (self.code, settings.PING_EMAIL_DOMAIN)
def clamped_last_duration(self):
if self.last_duration and self.last_duration < MAX_DELTA:
return self.last_duration
def set_name_slug(self, name):
self.name = name
self.slug = slugify(name)
def get_grace_start(self, with_started=True):
""" Return the datetime when the grace period starts.
If the check is currently new, paused or down, return None.
"""
# NEVER is a constant sentinel value (year 3000).
# Using None instead would make the logic clunky.
result = NEVER
if self.kind == "simple" and self.status == "up":
result = self.last_ping + self.timeout
elif self.kind == "cron" and self.status == "up":
# The complex case, next ping is expected based on cron schedule.
# Don't convert to naive datetimes (and so avoid ambiguities around
# DST transitions). Croniter will handle the timezone-aware datetimes.
zone = pytz.timezone(self.tz)
last_local = timezone.localtime(self.last_ping, zone)
it = croniter(self.schedule, last_local)
result = it.next(datetime)
if with_started and self.last_start and self.status != "down":
result = min(result, self.last_start)
if result != NEVER:
return result
def going_down_after(self):
""" Return the datetime when the check goes down.
If the check is new or paused, and not currently running, return None.
If the check is already down, also return None.
"""
grace_start = self.get_grace_start()
if grace_start is not None:
return grace_start + self.grace
def get_status(self, now=None, with_started=False):
""" Return current status for display. """
if now is None:
now = timezone.now()
if self.last_start:
if now >= self.last_start + self.grace:
return "down"
elif with_started:
return "started"
if self.status in ("new", "paused", "down"):
return self.status
grace_start = self.get_grace_start(with_started=with_started)
grace_end = grace_start + self.grace
if now >= grace_end:
return "down"
if now >= grace_start:
return "grace"
return "up"
def get_status_with_started(self):
return self.get_status(with_started=True)
def assign_all_channels(self):
channels = Channel.objects.filter(project=self.project)
self.channel_set.set(channels)
def tags_list(self):
return [t.strip() for t in self.tags.split(" ") if t.strip()]
def matches_tag_set(self, tag_set):
return tag_set.issubset(self.tags_list())
def channels_str(self):
""" Return a comma-separated string of assigned channel codes. """
# self.channel_set may already be prefetched.
# Sort in python to make sure we do't run additional queries
codes = [str(channel.code) for channel in self.channel_set.all()]
return ",".join(sorted(codes))
@property
def unique_key(self):
code_half = self.code.hex[:16]
return hashlib.sha1(code_half.encode()).hexdigest()
def to_dict(self, readonly=False):
result = {
"name": self.name,
"slug": self.slug,
"tags": self.tags,
"desc": self.desc,
"grace": int(self.grace.total_seconds()),
"n_pings": self.n_pings,
"status": self.get_status(with_started=True),
"last_ping": isostring(self.last_ping),
"next_ping": isostring(self.get_grace_start()),
"manual_resume": self.manual_resume,
"methods": self.methods,
}
if self.last_duration:
result["last_duration"] = int(self.last_duration.total_seconds())
if readonly:
result["unique_key"] = self.unique_key
else:
update_rel_url = reverse("hc-api-single", args=[self.code])
pause_rel_url = reverse("hc-api-pause", args=[self.code])
result["ping_url"] = settings.PING_ENDPOINT + str(self.code)
result["update_url"] = settings.SITE_ROOT + update_rel_url
result["pause_url"] = settings.SITE_ROOT + pause_rel_url
result["channels"] = self.channels_str()
if self.kind == "simple":
result["timeout"] = int(self.timeout.total_seconds())
elif self.kind == "cron":
result["schedule"] = self.schedule
result["tz"] = self.tz
return result
def ping(self, remote_addr, scheme, method, ua, body, action, exitstatus=None):
now = timezone.now()
if self.status == "paused" and self.manual_resume:
action = "ign"
if action == "start":
self.last_start = now
# Don't update "last_ping" field.
elif action == "ign":
pass
else:
self.last_ping = now
if self.last_start:
self.last_duration = self.last_ping - self.last_start
self.last_start = None
else:
self.last_duration = None
new_status = "down" if action == "fail" else "up"
if self.status != new_status:
flip = Flip(owner=self)
flip.created = self.last_ping
flip.old_status = self.status
flip.new_status = new_status
flip.save()
self.status = new_status
self.alert_after = self.going_down_after()
self.n_pings = models.F("n_pings") + 1
self.has_confirmation_link = "confirm" in str(body).lower()
self.save()
self.refresh_from_db()
ping = Ping(owner=self)
ping.n = self.n_pings
ping.created = now
if action in ("start", "fail", "ign"):
ping.kind = action
ping.remote_addr = remote_addr
ping.scheme = scheme
ping.method = method
# If User-Agent is longer than 200 characters, truncate it:
ping.ua = ua[:200]
ping.body = body[: settings.PING_BODY_LIMIT]
ping.exitstatus = exitstatus
ping.save()
def downtimes(self, months):
""" Calculate the number of downtimes and downtime minutes per month.
Returns a list of (datetime, downtime_in_secs, number_of_outages) tuples.
"""
def monthkey(dt):
return dt.year, dt.month
# Datetimes of the first days of months we're interested in. Ascending order.
boundaries = month_boundaries(months=months)
# Will accumulate totals here.
# (year, month) -> [datetime, total_downtime, number_of_outages]
totals = {monthkey(b): [b, td(), 0] for b in boundaries}
# A list of flips and month boundaries
events = [(b, "---") for b in boundaries]
q = self.flip_set.filter(created__gt=min(boundaries))
for pair in q.values_list("created", "old_status"):
events.append(pair)
# Iterate through flips and month boundaries in reverse order,
# and for each "down" event increase the counters in `totals`.
dt, status = timezone.now(), self.status
for prev_dt, prev_status in sorted(events, reverse=True):
if status == "down":
delta = dt - prev_dt
totals[monthkey(prev_dt)][1] += delta
totals[monthkey(prev_dt)][2] += 1
dt = prev_dt
if prev_status != "---":
status = prev_status
# Set counters to None for months when the check didn't exist yet
for ym in totals:
if ym < monthkey(self.created):
totals[ym][1] = None
totals[ym][2] = None
return sorted(totals.values())
def past_downtimes(self):
""" Return downtime summary for two previous months. """
return self.downtimes(3)[:-1]
class Ping(models.Model):
id = models.BigAutoField(primary_key=True)
n = models.IntegerField(null=True)
owner = models.ForeignKey(Check, models.CASCADE)
created = models.DateTimeField(default=timezone.now)
kind = models.CharField(max_length=6, blank=True, null=True)
scheme = models.CharField(max_length=10, default="http")
remote_addr = models.GenericIPAddressField(blank=True, null=True)
method = models.CharField(max_length=10, blank=True)
ua = models.CharField(max_length=200, blank=True)
body = models.TextField(blank=True, null=True)
exitstatus = models.SmallIntegerField(null=True)
def to_dict(self):
return {
"type": self.kind or "success",
"date": self.created.isoformat(),
"n": self.n,
"scheme": self.scheme,
"remote_addr": self.remote_addr,
"method": self.method,
"ua": self.ua,
}
class Channel(models.Model):
name = models.CharField(max_length=100, blank=True)
code = models.UUIDField(default=uuid.uuid4, editable=False, unique=True)
project = models.ForeignKey(Project, models.CASCADE)
created = models.DateTimeField(auto_now_add=True)
kind = models.CharField(max_length=20, choices=CHANNEL_KINDS)
value = models.TextField(blank=True)
email_verified = models.BooleanField(default=False)
last_error = models.CharField(max_length=200, blank=True)
checks = models.ManyToManyField(Check)
def __str__(self):
if self.name:
return self.name
if self.kind == "email":
return "Email to %s" % self.email_value
elif self.kind == "sms":
return "SMS to %s" % self.phone_number
elif self.kind == "slack":
return "Slack %s" % self.slack_channel
elif self.kind == "telegram":
return "Telegram %s" % self.telegram_name
elif self.kind == "zulip":
if self.zulip_type == "stream":
return "Zulip stream %s" % self.zulip_to
if self.zulip_type == "private":
return "Zulip user %s" % self.zulip_to
return self.get_kind_display()
def to_dict(self):
return {"id": str(self.code), "name": self.name, "kind": self.kind}
def is_editable(self):
return self.kind in ("email", "webhook", "sms", "signal", "whatsapp")
def assign_all_checks(self):
checks = Check.objects.filter(project=self.project)
self.checks.add(*checks)
def make_token(self):
seed = "%s%s" % (self.code, settings.SECRET_KEY)
seed = seed.encode()
return hashlib.sha1(seed).hexdigest()
def send_verify_link(self):
args = [self.code, self.make_token()]
verify_link = reverse("hc-verify-email", args=args)
verify_link = settings.SITE_ROOT + verify_link
emails.verify_email(self.email_value, {"verify_link": verify_link})
def get_unsub_link(self):
signer = TimestampSigner(salt="alerts")
signed_token = signer.sign(self.make_token())
args = [self.code, signed_token]
verify_link = reverse("hc-unsubscribe-alerts", args=args)
return settings.SITE_ROOT + verify_link
@property
def transport(self):
if self.kind == "email":
return transports.Email(self)
elif self.kind == "webhook":
return transports.Webhook(self)
elif self.kind in ("slack", "mattermost"):
return transports.Slack(self)
elif self.kind == "hipchat":
return transports.HipChat(self)
elif self.kind == "pd":
return transports.PagerDuty(self)
elif self.kind == "pagertree":
return transports.PagerTree(self)
elif self.kind == "pagerteam":
return transports.PagerTeam(self)
elif self.kind == "victorops":
return transports.VictorOps(self)
elif self.kind == "pushbullet":
return transports.Pushbullet(self)
elif self.kind == "po":
return transports.Pushover(self)
elif self.kind == "opsgenie":
return transports.Opsgenie(self)
elif self.kind == "discord":
return transports.Discord(self)
elif self.kind == "telegram":
return transports.Telegram(self)
elif self.kind == "sms":
return transports.Sms(self)
elif self.kind == "trello":
return transports.Trello(self)
elif self.kind == "matrix":
return transports.Matrix(self)
elif self.kind == "whatsapp":
return transports.WhatsApp(self)
elif self.kind == "apprise":
return transports.Apprise(self)
elif self.kind == "msteams":
return transports.MsTeams(self)
elif self.kind == "shell":
return transports.Shell(self)
elif self.kind == "zulip":
return transports.Zulip(self)
elif self.kind == "spike":
return transports.Spike(self)
elif self.kind == "call":
return transports.Call(self)
elif self.kind == "linenotify":
return transports.LineNotify(self)
elif self.kind == "signal":
return transports.Signal(self)
else:
raise NotImplementedError("Unknown channel kind: %s" % self.kind)
def notify(self, check, is_test=False):
if self.transport.is_noop(check):
return "no-op"
n = Notification(channel=self)
if is_test:
# When sending a test notification we leave the owner field null.
# (the passed check is a dummy, unsaved Check instance)
pass
else:
n.owner = check
n.check_status = check.status
n.error = "Sending"
n.save()
# These are not database fields. It is just a convenient way to pass
# status_url and the is_test flag to transport classes.
check.is_test = is_test
check.status_url = n.status_url()
error = self.transport.notify(check) or ""
Notification.objects.filter(id=n.id).update(error=error)
Channel.objects.filter(id=self.id).update(last_error=error)
return error
def icon_path(self):
return "img/integrations/%s.png" % self.kind
def latest_notification(self):
return Notification.objects.filter(channel=self).latest()
@property
def json(self):
return json.loads(self.value)
@property
def po_priority(self):
assert self.kind == "po"
parts = self.value.split("|")
prio = int(parts[1])
return PO_PRIORITIES[prio]
def webhook_spec(self, status):
assert self.kind == "webhook"
doc = json.loads(self.value)
if status == "down" and "method_down" in doc:
return {
"method": doc["method_down"],
"url": doc["url_down"],
"body": doc["body_down"],
"headers": doc["headers_down"],
}
elif status == "up" and "method_up" in doc:
return {
"method": doc["method_up"],
"url": doc["url_up"],
"body": doc["body_up"],
"headers": doc["headers_up"],
}
@property
def down_webhook_spec(self):
return self.webhook_spec("down")
@property
def up_webhook_spec(self):
return self.webhook_spec("up")
@property
def url_down(self):
return self.down_webhook_spec["url"]
@property
def url_up(self):
return self.up_webhook_spec["url"]
@property
def cmd_down(self):
assert self.kind == "shell"
return self.json["cmd_down"]
@property
def cmd_up(self):
assert self.kind == "shell"
return self.json["cmd_up"]
@property
def slack_team(self):
assert self.kind == "slack"
if not self.value.startswith("{"):
return None
doc = json.loads(self.value)
if "team_name" in doc:
return doc["team_name"]
if "team" in doc:
return doc["team"]["name"]
@property
def slack_channel(self):
assert self.kind == "slack"
if not self.value.startswith("{"):
return None
doc = json.loads(self.value)
return doc["incoming_webhook"]["channel"]
@property
def slack_webhook_url(self):
assert self.kind in ("slack", "mattermost")
if not self.value.startswith("{"):
return self.value
doc = json.loads(self.value)
return doc["incoming_webhook"]["url"]
@property
def discord_webhook_url(self):
assert self.kind == "discord"
url = self.json["webhook"]["url"]
# Discord migrated to discord.com,
# and is dropping support for discordapp.com on 7 November 2020
if url.startswith("https://discordapp.com/"):
url = "https://discord.com/" + url[23:]
return url
@property
def telegram_id(self):
assert self.kind == "telegram"
return self.json.get("id")
@property
def telegram_type(self):
assert self.kind == "telegram"
return self.json.get("type")
@property
def telegram_name(self):
assert self.kind == "telegram"
return self.json.get("name")
@property
def pd_service_key(self):
assert self.kind == "pd"
if not self.value.startswith("{"):
return self.value
return self.json["service_key"]
@property
def pd_account(self):
assert self.kind == "pd"
if self.value.startswith("{"):
return self.json.get("account")
@property
def phone_number(self):
assert self.kind in ("call", "sms", "whatsapp", "signal")
if self.value.startswith("{"):
return self.json["value"]
return self.value
@property
def trello_token(self):
assert self.kind == "trello"
return self.json["token"]
@property
def trello_board_list(self):
assert self.kind == "trello"
doc = json.loads(self.value)
return doc["board_name"], doc["list_name"]
@property
def trello_list_id(self):
assert self.kind == "trello"
return self.json["list_id"]
@property
def email_value(self):
assert self.kind == "email"
if not self.value.startswith("{"):
return self.value
return self.json["value"]
@property
def email_notify_up(self):
assert self.kind == "email"
if not self.value.startswith("{"):
return True
return self.json.get("up")
@property
def email_notify_down(self):
assert self.kind == "email"
if not self.value.startswith("{"):
return True
return self.json.get("down")
@property
def whatsapp_notify_up(self):
assert self.kind == "whatsapp"
return self.json["up"]
@property
def whatsapp_notify_down(self):
assert self.kind == "whatsapp"
return self.json["down"]
@property
def signal_notify_up(self):
assert self.kind == "signal"
return self.json["up"]
@property
def signal_notify_down(self):
assert self.kind == "signal"
return self.json["down"]
@property
def sms_notify_up(self):
assert self.kind == "sms"
return self.json.get("up", False)
@property
def sms_notify_down(self):
assert self.kind == "sms"
return self.json.get("down", True)
@property
def opsgenie_key(self):
assert self.kind == "opsgenie"
if not self.value.startswith("{"):
return self.value
return self.json["key"]
@property
def opsgenie_region(self):
assert self.kind == "opsgenie"
if not self.value.startswith("{"):
return "us"
return self.json["region"]
@property
def zulip_bot_email(self):
assert self.kind == "zulip"
return self.json["bot_email"]
@property
def zulip_site(self):
assert self.kind == "zulip"
doc = json.loads(self.value)
if "site" in doc:
return doc["site"]
# Fallback if we don't have the site value:
# derive it from bot's email
_, domain = doc["bot_email"].split("@")
return "https://" + domain
@property
def zulip_api_key(self):
assert self.kind == "zulip"
return self.json["api_key"]
@property
def zulip_type(self):
assert self.kind == "zulip"
return self.json["mtype"]
@property
def zulip_to(self):
assert self.kind == "zulip"
return self.json["to"]
@property
def linenotify_token(self):
assert self.kind == "linenotify"
return self.value
class Notification(models.Model):
code = models.UUIDField(default=uuid.uuid4, null=True, editable=False)
owner = models.ForeignKey(Check, models.CASCADE, null=True)
check_status = models.CharField(max_length=6)
channel = models.ForeignKey(Channel, models.CASCADE)
created = models.DateTimeField(auto_now_add=True)
error = models.CharField(max_length=200, blank=True)
class Meta:
get_latest_by = "created"
def status_url(self):
path = reverse("hc-api-notification-status", args=[self.code])
return settings.SITE_ROOT + path
class Flip(models.Model):
owner = models.ForeignKey(Check, models.CASCADE)
created = models.DateTimeField()
processed = models.DateTimeField(null=True, blank=True)
old_status = models.CharField(max_length=8, choices=STATUSES)
new_status = models.CharField(max_length=8, choices=STATUSES)
class Meta:
indexes = [
# For quickly looking up unprocessed flips.
# Used in the sendalerts management command.
models.Index(
fields=["processed"],
name="api_flip_not_processed",
condition=models.Q(processed=None),
)
]
def to_dict(self):
return {
"timestamp": isostring(self.created),
"up": 1 if self.new_status == "up" else 0,
}
def send_alerts(self):
"""Loop over the enabled channels, call notify() on each.
For each channel, yield a (channel, error, send_time) triple:
* channel is a Channel instance
* error is an empty string ("") on success, error message otherwise
* send_time is the send time in seconds (float)
"""
# Don't send alerts on new->up and paused->up transitions
if self.new_status == "up" and self.old_status in ("new", "paused"):
return
if self.new_status not in ("up", "down"):
raise NotImplementedError("Unexpected status: %s" % self.status)
for channel in self.owner.channel_set.all():
start = time.time()
error = channel.notify(self.owner)
if error == "no-op":
continue
yield (channel, error, time.time() - start)
class TokenBucket(models.Model):
value = models.CharField(max_length=80, unique=True)
tokens = models.FloatField(default=1.0)
updated = models.DateTimeField(default=timezone.now)
@staticmethod
def authorize(value, capacity, refill_time_secs):
now = timezone.now()
obj, created = TokenBucket.objects.get_or_create(value=value)
if not created:
# Top up the bucket:
delta_secs = (now - obj.updated).total_seconds()
obj.tokens = min(1.0, obj.tokens + delta_secs / refill_time_secs)
obj.tokens -= 1.0 / capacity
if obj.tokens < 0:
# Not enough tokens
return False
# Race condition: two concurrent authorize calls can overwrite each
# other's changes. It's OK to be a little inexact here for the sake
# of simplicity.
obj.updated = now
obj.save()
return True
@staticmethod
def authorize_login_email(email):
# remove dots and alias:
mailbox, domain = email.split("@")
mailbox = mailbox.replace(".", "")
mailbox = mailbox.split("+")[0]
email = mailbox + "@" + domain
salted_encoded = (email + settings.SECRET_KEY).encode()
value = "em-%s" % hashlib.sha1(salted_encoded).hexdigest()
# 20 login attempts for a single email per hour:
return TokenBucket.authorize(value, 20, 3600)
@staticmethod
def authorize_invite(user):
value = "invite-%d" % user.id
# 20 invites per day
return TokenBucket.authorize(value, 20, 3600 * 24)
@staticmethod
def authorize_login_password(email):
salted_encoded = (email + settings.SECRET_KEY).encode()
value = "pw-%s" % hashlib.sha1(salted_encoded).hexdigest()
# 20 password attempts per day
return TokenBucket.authorize(value, 20, 3600 * 24)
@staticmethod
def authorize_telegram(telegram_id):
value = "tg-%s" % telegram_id
# 6 messages for a single chat per minute:
return TokenBucket.authorize(value, 6, 60)
@staticmethod
def authorize_signal(phone):
salted_encoded = (phone + settings.SECRET_KEY).encode()
value = "signal-%s" % hashlib.sha1(salted_encoded).hexdigest()
# 6 messages for a single recipient per minute:
return TokenBucket.authorize(value, 6, 60)
@staticmethod
def authorize_pushover(user_key):
salted_encoded = (user_key + settings.SECRET_KEY).encode()
value = "po-%s" % hashlib.sha1(salted_encoded).hexdigest()
# 6 messages for a single user key per minute:
return TokenBucket.authorize(value, 6, 60)
@staticmethod
def authorize_sudo_code(user):
value = "sudo-%d" % user.id
# 10 sudo attempts per day
return TokenBucket.authorize(value, 10, 3600 * 24)
@staticmethod
def authorize_totp_attempt(user):
value = "totp-%d" % user.id
# 96 attempts per user per 24 hours
# (or, on average, one attempt per 15 minutes)
return TokenBucket.authorize(value, 96, 3600 * 24)
@staticmethod
def authorize_totp_code(user, code):
value = "totpc-%d-%s" % (user.id, code)
# A code has a validity period of 3 * 30 = 90 seconds.
# During that period, allow the code to only be used once,
# so an eavesdropping attacker cannot reuse a code.
return TokenBucket.authorize(value, 1, 90)