You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
bazarr/libs/apprise/plugins/NotifySNS.py

678 lines
23 KiB

6 years ago
# -*- coding: utf-8 -*-
#
# Copyright (C) 2019 Chris Caron <lead2gold@gmail.com>
# All rights reserved.
#
# This code is licensed under the MIT License.
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files(the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and / or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions :
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
import re
import hmac
import requests
from hashlib import sha256
from datetime import datetime
from collections import OrderedDict
from xml.etree import ElementTree
from itertools import chain
from .NotifyBase import NotifyBase
from ..URLBase import PrivacyMode
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from ..common import NotifyType
from ..utils import parse_list
from ..utils import validate_regex
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from ..AppriseLocale import gettext_lazy as _
# Some Phone Number Detection
IS_PHONE_NO = re.compile(r'^\+?(?P<phone>[0-9\s)(+-]+)\s*$')
# Topic Detection
# Summary: 256 Characters max, only alpha/numeric plus underscore (_) and
# dash (-) additionally allowed.
#
# Soure: https://docs.aws.amazon.com/AWSSimpleQueueService/latest\
# /SQSDeveloperGuide/sqs-limits.html#limits-queues
#
# Allow a starting hashtag (#) specification to help eliminate possible
# ambiguity between a topic that is comprised of all digits and a phone number
IS_TOPIC = re.compile(r'^#?(?P<name>[A-Za-z0-9_-]+)\s*$')
# Because our AWS Access Key Secret contains slashes, we actually use the
# region as a delimiter. This is a bit hacky; but it's much easier than having
# users of this product search though this Access Key Secret and escape all
# of the forward slashes!
IS_REGION = re.compile(
r'^\s*(?P<country>[a-z]{2})-(?P<area>[a-z]+)-(?P<no>[0-9]+)\s*$', re.I)
# Extend HTTP Error Messages
AWS_HTTP_ERROR_MAP = {
403: 'Unauthorized - Invalid Access/Secret Key Combination.',
}
class NotifySNS(NotifyBase):
"""
A wrapper for AWS SNS (Amazon Simple Notification)
"""
# The default descriptive name associated with the Notification
service_name = 'AWS Simple Notification Service (SNS)'
# The services URL
service_url = 'https://aws.amazon.com/sns/'
# The default secure protocol
secure_protocol = 'sns'
# A URL that takes you to the setup/help of the specific protocol
setup_url = 'https://github.com/caronc/apprise/wiki/Notify_sns'
# AWS is pretty good for handling data load so request limits
# can occur in much shorter bursts
request_rate_per_sec = 2.5
# The maximum length of the body
# Source: https://docs.aws.amazon.com/sns/latest/api/API_Publish.html
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body_maxlen = 160
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# A title can not be used for SMS Messages. Setting this to zero will
# cause any title (if defined) to get placed into the message body.
title_maxlen = 0
# Define object templates
templates = (
'{schema}://{access_key_id}/{secret_access_key}{region}/{targets}',
)
# Define our template tokens
template_tokens = dict(NotifyBase.template_tokens, **{
'access_key_id': {
'name': _('Access Key ID'),
'type': 'string',
'private': True,
'required': True,
},
'secret_access_key': {
'name': _('Secret Access Key'),
'type': 'string',
'private': True,
'required': True,
},
'region': {
'name': _('Region'),
'type': 'string',
'required': True,
'regex': (r'^[a-z]{2}-[a-z]+-[0-9]+$', 'i'),
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'map_to': 'region_name',
},
'target_phone_no': {
'name': _('Target Phone No'),
'type': 'string',
'map_to': 'targets',
'regex': (r'^[0-9\s)(+-]+$', 'i')
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},
'target_topic': {
'name': _('Target Topic'),
'type': 'string',
'map_to': 'targets',
'prefix': '#',
'regex': (r'^[A-Za-z0-9_-]+$', 'i'),
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},
'targets': {
'name': _('Targets'),
'type': 'list:string',
},
})
# Define our template arguments
template_args = dict(NotifyBase.template_args, **{
'to': {
'alias_of': 'targets',
},
})
def __init__(self, access_key_id, secret_access_key, region_name,
targets=None, **kwargs):
"""
Initialize Notify AWS SNS Object
"""
super(NotifySNS, self).__init__(**kwargs)
# Store our AWS API Access Key
self.aws_access_key_id = validate_regex(access_key_id)
if not self.aws_access_key_id:
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msg = 'An invalid AWS Access Key ID was specified.'
self.logger.warning(msg)
raise TypeError(msg)
# Store our AWS API Secret Access key
self.aws_secret_access_key = validate_regex(secret_access_key)
if not self.aws_secret_access_key:
msg = 'An invalid AWS Secret Access Key ' \
'({}) was specified.'.format(secret_access_key)
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self.logger.warning(msg)
raise TypeError(msg)
# Acquire our AWS Region Name:
# eg. us-east-1, cn-north-1, us-west-2, ...
self.aws_region_name = validate_regex(
region_name, *self.template_tokens['region']['regex'])
if not self.aws_region_name:
msg = 'An invalid AWS Region ({}) was specified.'.format(
region_name)
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self.logger.warning(msg)
raise TypeError(msg)
# Initialize topic list
self.topics = list()
# Initialize numbers list
self.phone = list()
# Set our notify_url based on our region
self.notify_url = 'https://sns.{}.amazonaws.com/'\
.format(self.aws_region_name)
# AWS Service Details
self.aws_service_name = 'sns'
self.aws_canonical_uri = '/'
# AWS Authentication Details
self.aws_auth_version = 'AWS4'
self.aws_auth_algorithm = 'AWS4-HMAC-SHA256'
self.aws_auth_request = 'aws4_request'
# Get our targets
targets = parse_list(targets)
# Validate targets and drop bad ones:
for target in targets:
result = IS_PHONE_NO.match(target)
if result:
# Further check our phone # for it's digit count
# if it's less than 10, then we can assume it's
# a poorly specified phone no and spit a warning
result = ''.join(re.findall(r'\d+', result.group('phone')))
if len(result) < 11 or len(result) > 14:
self.logger.warning(
'Dropped invalid phone # '
'(%s) specified.' % target,
)
continue
# store valid phone number
self.phone.append('+{}'.format(result))
continue
result = IS_TOPIC.match(target)
if result:
# store valid topic
self.topics.append(result.group('name'))
continue
self.logger.warning(
'Dropped invalid phone/topic '
'(%s) specified.' % target,
)
if len(self.phone) == 0 and len(self.topics) == 0:
# We have a bot token and no target(s) to message
msg = 'No AWS targets to notify.'
self.logger.warning(msg)
raise TypeError(msg)
return
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def send(self, body, title='', notify_type=NotifyType.INFO, **kwargs):
"""
wrapper to send_notification since we can alert more then one channel
"""
# Initiaize our error tracking
error_count = 0
# Create a copy of our phone #'s to notify against
phone = list(self.phone)
topics = list(self.topics)
while len(phone) > 0:
# Get Phone No
no = phone.pop(0)
# Prepare SNS Message Payload
payload = {
'Action': u'Publish',
'Message': body,
'Version': u'2010-03-31',
'PhoneNumber': no,
}
(result, _) = self._post(payload=payload, to=no)
if not result:
error_count += 1
# Send all our defined topic id's
while len(topics):
# Get Topic
topic = topics.pop(0)
# First ensure our topic exists, if it doesn't, it gets created
payload = {
'Action': u'CreateTopic',
'Version': u'2010-03-31',
'Name': topic,
}
(result, response) = self._post(payload=payload, to=topic)
if not result:
error_count += 1
continue
# Get the Amazon Resource Name
topic_arn = response.get('topic_arn')
if not topic_arn:
# Could not acquire our topic; we're done
error_count += 1
continue
# Build our payload now that we know our topic_arn
payload = {
'Action': u'Publish',
'Version': u'2010-03-31',
'TopicArn': topic_arn,
'Message': body,
}
# Send our payload to AWS
(result, _) = self._post(payload=payload, to=topic)
if not result:
error_count += 1
return error_count == 0
def _post(self, payload, to):
"""
Wrapper to request.post() to manage it's response better and make
the send() function cleaner and easier to maintain.
This function returns True if the _post was successful and False
if it wasn't.
"""
# Always call throttle before any remote server i/o is made; for AWS
# time plays a huge factor in the headers being sent with the payload.
# So for AWS (SNS) requests we must throttle before they're generated
# and not directly before the i/o call like other notification
# services do.
self.throttle()
# Convert our payload from a dict() into a urlencoded string
payload = NotifySNS.urlencode(payload)
# Prepare our Notification URL
# Prepare our AWS Headers based on our payload
headers = self.aws_prepare_request(payload)
self.logger.debug('AWS POST URL: %s (cert_verify=%r)' % (
self.notify_url, self.verify_certificate,
))
self.logger.debug('AWS Payload: %s' % str(payload))
try:
r = requests.post(
self.notify_url,
data=payload,
headers=headers,
verify=self.verify_certificate,
timeout=self.request_timeout,
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)
if r.status_code != requests.codes.ok:
# We had a problem
status_str = \
NotifySNS.http_response_code_lookup(
r.status_code, AWS_HTTP_ERROR_MAP)
self.logger.warning(
'Failed to send AWS notification to {}: '
'{}{}error={}.'.format(
to,
status_str,
', ' if status_str else '',
r.status_code))
self.logger.debug('Response Details:\r\n{}'.format(r.content))
return (False, NotifySNS.aws_response_to_dict(r.content))
else:
self.logger.info(
'Sent AWS notification to "%s".' % (to))
except requests.RequestException as e:
self.logger.warning(
'A Connection error occurred sending AWS '
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'notification to "%s".' % (to),
)
self.logger.debug('Socket Exception: %s' % str(e))
return (False, NotifySNS.aws_response_to_dict(None))
return (True, NotifySNS.aws_response_to_dict(r.content))
def aws_prepare_request(self, payload, reference=None):
"""
Takes the intended payload and returns the headers for it.
The payload is presumed to have been already urlencoded()
"""
# Define our AWS header
headers = {
'User-Agent': self.app_id,
'Content-Type': 'application/x-www-form-urlencoded; charset=utf-8',
# Populated below
'Content-Length': 0,
'Authorization': None,
'X-Amz-Date': None,
}
# Get a reference time (used for header construction)
reference = datetime.utcnow()
# Provide Content-Length
headers['Content-Length'] = str(len(payload))
# Amazon Date Format
amzdate = reference.strftime('%Y%m%dT%H%M%SZ')
headers['X-Amz-Date'] = amzdate
# Credential Scope
scope = '{date}/{region}/{service}/{request}'.format(
date=reference.strftime('%Y%m%d'),
region=self.aws_region_name,
service=self.aws_service_name,
request=self.aws_auth_request,
)
# Similar to headers; but a subset. keys must be lowercase
signed_headers = OrderedDict([
('content-type', headers['Content-Type']),
('host', '{service}.{region}.amazonaws.com'.format(
service=self.aws_service_name,
region=self.aws_region_name)),
('x-amz-date', headers['X-Amz-Date']),
])
#
# Build Canonical Request Object
#
canonical_request = '\n'.join([
# Method
u'POST',
# URL
self.aws_canonical_uri,
# Query String (none set for POST)
'',
# Header Content (must include \n at end!)
# All entries except characters in amazon date must be
# lowercase
'\n'.join(['%s:%s' % (k, v)
for k, v in signed_headers.items()]) + '\n',
# Header Entries (in same order identified above)
';'.join(signed_headers.keys()),
# Payload
sha256(payload.encode('utf-8')).hexdigest(),
])
# Prepare Unsigned Signature
to_sign = '\n'.join([
self.aws_auth_algorithm,
amzdate,
scope,
sha256(canonical_request.encode('utf-8')).hexdigest(),
])
# Our Authorization header
headers['Authorization'] = ', '.join([
'{algorithm} Credential={key}/{scope}'.format(
algorithm=self.aws_auth_algorithm,
key=self.aws_access_key_id,
scope=scope,
),
'SignedHeaders={signed_headers}'.format(
signed_headers=';'.join(signed_headers.keys()),
),
'Signature={signature}'.format(
signature=self.aws_auth_signature(to_sign, reference)
),
])
return headers
def aws_auth_signature(self, to_sign, reference):
"""
Generates a AWS v4 signature based on provided payload
which should be in the form of a string.
"""
def _sign(key, msg, to_hex=False):
"""
Perform AWS Signing
"""
if to_hex:
return hmac.new(key, msg.encode('utf-8'), sha256).hexdigest()
return hmac.new(key, msg.encode('utf-8'), sha256).digest()
_date = _sign((
self.aws_auth_version +
self.aws_secret_access_key).encode('utf-8'),
reference.strftime('%Y%m%d'))
_region = _sign(_date, self.aws_region_name)
_service = _sign(_region, self.aws_service_name)
_signed = _sign(_service, self.aws_auth_request)
return _sign(_signed, to_sign, to_hex=True)
@staticmethod
def aws_response_to_dict(aws_response):
"""
Takes an AWS Response object as input and returns it as a dictionary
but not befor extracting out what is useful to us first.
eg:
IN:
<CreateTopicResponse
xmlns="http://sns.amazonaws.com/doc/2010-03-31/">
<CreateTopicResult>
<TopicArn>arn:aws:sns:us-east-1:000000000000:abcd</TopicArn>
</CreateTopicResult>
<ResponseMetadata>
<RequestId>604bef0f-369c-50c5-a7a4-bbd474c83d6a</RequestId>
</ResponseMetadata>
</CreateTopicResponse>
OUT:
{
type: 'CreateTopicResponse',
request_id: '604bef0f-369c-50c5-a7a4-bbd474c83d6a',
topic_arn: 'arn:aws:sns:us-east-1:000000000000:abcd',
}
"""
# Define ourselves a set of directives we want to keep if found and
# then identify the value we want to map them to in our response
# object
aws_keep_map = {
'RequestId': 'request_id',
'TopicArn': 'topic_arn',
'MessageId': 'message_id',
# Error Message Handling
'Type': 'error_type',
'Code': 'error_code',
'Message': 'error_message',
}
# A default response object that we'll manipulate as we pull more data
# from our AWS Response object
response = {
'type': None,
'request_id': None,
}
try:
# we build our tree, but not before first eliminating any
# reference to namespacing (if present) as it makes parsing
# the tree so much easier.
root = ElementTree.fromstring(
re.sub(' xmlns="[^"]+"', '', aws_response, count=1))
# Store our response tag object name
response['type'] = str(root.tag)
def _xml_iter(root, response):
if len(root) > 0:
for child in root:
# use recursion to parse everything
_xml_iter(child, response)
elif root.tag in aws_keep_map.keys():
response[aws_keep_map[root.tag]] = (root.text).strip()
# Recursivly iterate over our AWS Response to extract the
# fields we're interested in in efforts to populate our response
# object.
_xml_iter(root, response)
except (ElementTree.ParseError, TypeError):
# bad data just causes us to generate a bad response
pass
return response
def url(self, privacy=False, *args, **kwargs):
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"""
Returns the URL built dynamically based on specified arguments.
"""
# Our URL parameters
params = self.url_parameters(privacy=privacy, *args, **kwargs)
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return '{schema}://{key_id}/{key_secret}/{region}/{targets}/'\
'?{params}'.format(
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schema=self.secure_protocol,
key_id=self.pprint(self.aws_access_key_id, privacy, safe=''),
key_secret=self.pprint(
self.aws_secret_access_key, privacy,
mode=PrivacyMode.Secret, safe=''),
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region=NotifySNS.quote(self.aws_region_name, safe=''),
targets='/'.join(
[NotifySNS.quote(x) for x in chain(
# Phone # are prefixed with a plus symbol
['+{}'.format(x) for x in self.phone],
# Topics are prefixed with a pound/hashtag symbol
['#{}'.format(x) for x in self.topics],
)]),
params=NotifySNS.urlencode(params),
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)
@staticmethod
def parse_url(url):
"""
Parses the URL and returns enough arguments that can allow
us to re-instantiate this object.
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"""
results = NotifyBase.parse_url(url, verify_host=False)
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if not results:
# We're done early as we couldn't load the results
return results
# The AWS Access Key ID is stored in the hostname
access_key_id = NotifySNS.unquote(results['host'])
# Our AWS Access Key Secret contains slashes in it which unfortunately
# means it is of variable length after the hostname. Since we require
# that the user provides the region code, we intentionally use this
# as our delimiter to detect where our Secret is.
secret_access_key = None
region_name = None
# We need to iterate over each entry in the fullpath and find our
# region. Once we get there we stop and build our secret from our
# accumulated data.
secret_access_key_parts = list()
# Start with a list of entries to work with
entries = NotifySNS.split_path(results['fullpath'])
# Section 1: Get Region and Access Secret
index = 0
for i, entry in enumerate(entries):
# Are we at the region yet?
result = IS_REGION.match(entry)
if result:
# We found our Region; Rebuild our access key secret based on
# all entries we found prior to this:
secret_access_key = '/'.join(secret_access_key_parts)
# Ensure region is nicely formatted
region_name = "{country}-{area}-{no}".format(
country=result.group('country').lower(),
area=result.group('area').lower(),
no=result.group('no'),
)
# Track our index as we'll use this to grab the remaining
# content in the next Section
index = i + 1
# We're done with Section 1
break
# Store our secret parts
secret_access_key_parts.append(entry)
# Section 2: Get our Recipients (basically all remaining entries)
results['targets'] = entries[index:]
# Support the 'to' variable so that we can support rooms this way too
# The 'to' makes it easier to use yaml configuration
if 'to' in results['qsd'] and len(results['qsd']['to']):
results['targets'] += \
NotifySNS.parse_list(results['qsd']['to'])
# Store our other detected data (if at all)
results['region_name'] = region_name
results['access_key_id'] = access_key_id
results['secret_access_key'] = secret_access_key
# Return our result set
return results