from __future__ import unicode_literals import base64 import hashlib import json import re import six import struct from xml.sax.saxutils import escape import boto.sqs from moto.core.exceptions import RESTError from moto.core import BaseBackend, BaseModel from moto.core.utils import camelcase_to_underscores, get_random_message_id, unix_time, unix_time_millis from .utils import generate_receipt_handle from .exceptions import ( MessageAttributesInvalid, MessageNotInflight, QueueDoesNotExist, QueueAlreadyExists, ReceiptHandleIsInvalid, ) DEFAULT_ACCOUNT_ID = 123456789012 DEFAULT_SENDER_ID = "AIDAIT2UOQQY3AUEKVGXU" TRANSPORT_TYPE_ENCODINGS = {'String': b'\x01', 'Binary': b'\x02', 'Number': b'\x01'} class Message(BaseModel): def __init__(self, message_id, body): self.id = message_id self._body = body self.message_attributes = {} self.receipt_handle = None self.sender_id = DEFAULT_SENDER_ID self.sent_timestamp = None self.approximate_first_receive_timestamp = None self.approximate_receive_count = 0 self.deduplication_id = None self.group_id = None self.visible_at = 0 self.delayed_until = 0 @property def body_md5(self): md5 = hashlib.md5() md5.update(self._body.encode('utf-8')) return md5.hexdigest() @property def attribute_md5(self): """ The MD5 of all attributes is calculated by first generating a utf-8 string from each attribute and MD5-ing the concatenation of them all. Each attribute is encoded with some bytes that describe the length of each part and the type of attribute. Not yet implemented: List types (https://github.com/aws/aws-sdk-java/blob/7844c64cf248aed889811bf2e871ad6b276a89ca/aws-java-sdk-sqs/src/main/java/com/amazonaws/services/sqs/MessageMD5ChecksumHandler.java#L58k) """ def utf8(str): if isinstance(str, six.string_types): return str.encode('utf-8') return str md5 = hashlib.md5() struct_format = "!I".encode('ascii') # ensure it's a bytestring for name in sorted(self.message_attributes.keys()): attr = self.message_attributes[name] data_type = attr['data_type'] encoded = utf8('') # Each part of each attribute is encoded right after it's # own length is packed into a 4-byte integer # 'timestamp' -> b'\x00\x00\x00\t' encoded += struct.pack(struct_format, len(utf8(name))) + utf8(name) # The datatype is additionally given a final byte # representing which type it is encoded += struct.pack(struct_format, len(data_type)) + utf8(data_type) encoded += TRANSPORT_TYPE_ENCODINGS[data_type] if data_type == 'String' or data_type == 'Number': value = attr['string_value'] elif data_type == 'Binary': print(data_type, attr['binary_value'], type(attr['binary_value'])) value = base64.b64decode(attr['binary_value']) else: print("Moto hasn't implemented MD5 hashing for {} attributes".format(data_type)) # The following should be enough of a clue to users that # they are not, in fact, looking at a correct MD5 while # also following the character and length constraints of # MD5 so as not to break client softwre return('deadbeefdeadbeefdeadbeefdeadbeef') encoded += struct.pack(struct_format, len(utf8(value))) + utf8(value) md5.update(encoded) return md5.hexdigest() @property def body(self): return escape(self._body) def mark_sent(self, delay_seconds=None): self.sent_timestamp = int(unix_time_millis()) if delay_seconds: self.delay(delay_seconds=delay_seconds) def mark_received(self, visibility_timeout=None): """ When a message is received we will set the first receive timestamp, tap the ``approximate_receive_count`` and the ``visible_at`` time. """ if visibility_timeout: visibility_timeout = int(visibility_timeout) else: visibility_timeout = 0 if not self.approximate_first_receive_timestamp: self.approximate_first_receive_timestamp = int(unix_time_millis()) self.approximate_receive_count += 1 # Make message visible again in the future unless its # destroyed. if visibility_timeout: self.change_visibility(visibility_timeout) self.receipt_handle = generate_receipt_handle() def change_visibility(self, visibility_timeout): # We're dealing with milliseconds internally visibility_timeout_msec = int(visibility_timeout) * 1000 self.visible_at = unix_time_millis() + visibility_timeout_msec def delay(self, delay_seconds): delay_msec = int(delay_seconds) * 1000 self.delayed_until = unix_time_millis() + delay_msec @property def visible(self): current_time = unix_time_millis() if current_time > self.visible_at: return True return False @property def delayed(self): current_time = unix_time_millis() if current_time < self.delayed_until: return True return False class Queue(BaseModel): base_attributes = ['ApproximateNumberOfMessages', 'ApproximateNumberOfMessagesDelayed', 'ApproximateNumberOfMessagesNotVisible', 'CreatedTimestamp', 'DelaySeconds', 'LastModifiedTimestamp', 'MaximumMessageSize', 'MessageRetentionPeriod', 'QueueArn', 'ReceiveMessageWaitTimeSeconds', 'VisibilityTimeout'] fifo_attributes = ['FifoQueue', 'ContentBasedDeduplication'] kms_attributes = ['KmsDataKeyReusePeriodSeconds', 'KmsMasterKeyId'] ALLOWED_PERMISSIONS = ('*', 'ChangeMessageVisibility', 'DeleteMessage', 'GetQueueAttributes', 'GetQueueUrl', 'ReceiveMessage', 'SendMessage') def __init__(self, name, region, **kwargs): self.name = name self.region = region self.tags = {} self.permissions = {} self._messages = [] self._pending_messages = set() now = unix_time() self.created_timestamp = now self.queue_arn = 'arn:aws:sqs:{0}:123456789012:{1}'.format(self.region, self.name) self.dead_letter_queue = None # default settings for a non fifo queue defaults = { 'ContentBasedDeduplication': 'false', 'DelaySeconds': 0, 'FifoQueue': 'false', 'KmsDataKeyReusePeriodSeconds': 300, # five minutes 'KmsMasterKeyId': None, 'MaximumMessageSize': int(64 << 10), 'MessageRetentionPeriod': 86400 * 4, # four days 'Policy': None, 'ReceiveMessageWaitTimeSeconds': 0, 'RedrivePolicy': None, 'VisibilityTimeout': 30, } defaults.update(kwargs) self._set_attributes(defaults, now) # Check some conditions if self.fifo_queue and not self.name.endswith('.fifo'): raise MessageAttributesInvalid('Queue name must end in .fifo for FIFO queues') @property def pending_messages(self): return self._pending_messages @property def pending_message_groups(self): return set(message.group_id for message in self._pending_messages if message.group_id is not None) def _set_attributes(self, attributes, now=None): if not now: now = unix_time() integer_fields = ('DelaySeconds', 'KmsDataKeyreusePeriodSeconds', 'MaximumMessageSize', 'MessageRetentionPeriod', 'ReceiveMessageWaitTime', 'VisibilityTimeout') bool_fields = ('ContentBasedDeduplication', 'FifoQueue') for key, value in six.iteritems(attributes): if key in integer_fields: value = int(value) if key in bool_fields: value = value == "true" if key == 'RedrivePolicy' and value is not None: continue setattr(self, camelcase_to_underscores(key), value) if attributes.get('RedrivePolicy', None): self._setup_dlq(attributes['RedrivePolicy']) self.last_modified_timestamp = now def _setup_dlq(self, policy): if isinstance(policy, six.text_type): try: self.redrive_policy = json.loads(policy) except ValueError: raise RESTError('InvalidParameterValue', 'Redrive policy is not a dict or valid json') elif isinstance(policy, dict): self.redrive_policy = policy else: raise RESTError('InvalidParameterValue', 'Redrive policy is not a dict or valid json') if 'deadLetterTargetArn' not in self.redrive_policy: raise RESTError('InvalidParameterValue', 'Redrive policy does not contain deadLetterTargetArn') if 'maxReceiveCount' not in self.redrive_policy: raise RESTError('InvalidParameterValue', 'Redrive policy does not contain maxReceiveCount') for queue in sqs_backends[self.region].queues.values(): if queue.queue_arn == self.redrive_policy['deadLetterTargetArn']: self.dead_letter_queue = queue if self.fifo_queue and not queue.fifo_queue: raise RESTError('InvalidParameterCombination', 'Fifo queues cannot use non fifo dead letter queues') break else: raise RESTError('AWS.SimpleQueueService.NonExistentQueue', 'Could not find DLQ for {0}'.format(self.redrive_policy['deadLetterTargetArn'])) @classmethod def create_from_cloudformation_json(cls, resource_name, cloudformation_json, region_name): properties = cloudformation_json['Properties'] sqs_backend = sqs_backends[region_name] return sqs_backend.create_queue( name=properties['QueueName'], region=region_name, **properties ) @classmethod def update_from_cloudformation_json(cls, original_resource, new_resource_name, cloudformation_json, region_name): properties = cloudformation_json['Properties'] queue_name = properties['QueueName'] sqs_backend = sqs_backends[region_name] queue = sqs_backend.get_queue(queue_name) if 'VisibilityTimeout' in properties: queue.visibility_timeout = int(properties['VisibilityTimeout']) if 'ReceiveMessageWaitTimeSeconds' in properties: queue.receive_message_wait_time_seconds = int(properties['ReceiveMessageWaitTimeSeconds']) return queue @classmethod def delete_from_cloudformation_json(cls, resource_name, cloudformation_json, region_name): properties = cloudformation_json['Properties'] queue_name = properties['QueueName'] sqs_backend = sqs_backends[region_name] sqs_backend.delete_queue(queue_name) @property def approximate_number_of_messages_delayed(self): return len([m for m in self._messages if m.delayed]) @property def approximate_number_of_messages_not_visible(self): return len([m for m in self._messages if not m.visible]) @property def approximate_number_of_messages(self): return len(self.messages) @property def physical_resource_id(self): return self.name @property def attributes(self): result = {} for attribute in self.base_attributes: attr = getattr(self, camelcase_to_underscores(attribute)) result[attribute] = attr if self.fifo_queue: for attribute in self.fifo_attributes: attr = getattr(self, camelcase_to_underscores(attribute)) result[attribute] = attr if self.kms_master_key_id: for attribute in self.kms_attributes: attr = getattr(self, camelcase_to_underscores(attribute)) result[attribute] = attr if self.policy: result['Policy'] = self.policy if self.redrive_policy: result['RedrivePolicy'] = json.dumps(self.redrive_policy) for key in result: if isinstance(result[key], bool): result[key] = str(result[key]).lower() return result def url(self, request_url): return "{0}://{1}/123456789012/{2}".format(request_url.scheme, request_url.netloc, self.name) @property def messages(self): return [message for message in self._messages if message.visible and not message.delayed] def add_message(self, message): self._messages.append(message) def get_cfn_attribute(self, attribute_name): from moto.cloudformation.exceptions import UnformattedGetAttTemplateException if attribute_name == 'Arn': return self.queue_arn elif attribute_name == 'QueueName': return self.name raise UnformattedGetAttTemplateException() class SQSBackend(BaseBackend): def __init__(self, region_name): self.region_name = region_name self.queues = {} super(SQSBackend, self).__init__() def reset(self): region_name = self.region_name self.__dict__ = {} self.__init__(region_name) def create_queue(self, name, **kwargs): queue = self.queues.get(name) if queue: # Queue already exist. If attributes don't match, throw error for key, value in kwargs.items(): if getattr(queue, camelcase_to_underscores(key)) != value: raise QueueAlreadyExists("The specified queue already exists.") else: try: kwargs.pop('region') except KeyError: pass queue = Queue(name, region=self.region_name, **kwargs) self.queues[name] = queue return queue def list_queues(self, queue_name_prefix): re_str = '.*' if queue_name_prefix: re_str = '^{0}.*'.format(queue_name_prefix) prefix_re = re.compile(re_str) qs = [] for name, q in self.queues.items(): if prefix_re.search(name): qs.append(q) return qs def get_queue(self, queue_name): queue = self.queues.get(queue_name) if queue is None: raise QueueDoesNotExist() return queue def delete_queue(self, queue_name): if queue_name in self.queues: return self.queues.pop(queue_name) return False def set_queue_attributes(self, queue_name, attributes): queue = self.get_queue(queue_name) queue._set_attributes(attributes) return queue def send_message(self, queue_name, message_body, message_attributes=None, delay_seconds=None, deduplication_id=None, group_id=None): queue = self.get_queue(queue_name) if delay_seconds: delay_seconds = int(delay_seconds) else: delay_seconds = queue.delay_seconds message_id = get_random_message_id() message = Message(message_id, message_body) # Attributes, but not *message* attributes if deduplication_id is not None: message.deduplication_id = deduplication_id if group_id is not None: message.group_id = group_id if message_attributes: message.message_attributes = message_attributes message.mark_sent( delay_seconds=delay_seconds ) queue.add_message(message) return message def receive_messages(self, queue_name, count, wait_seconds_timeout, visibility_timeout): """ Attempt to retrieve visible messages from a queue. If a message was read by client and not deleted it is considered to be "inflight" and cannot be read. We make attempts to obtain ``count`` messages but we may return less if messages are in-flight or there are simple not enough messages in the queue. :param string queue_name: The name of the queue to read from. :param int count: The maximum amount of messages to retrieve. :param int visibility_timeout: The number of seconds the message should remain invisible to other queue readers. :param int wait_seconds_timeout: The duration (in seconds) for which the call waits for a message to arrive in the queue before returning. If a message is available, the call returns sooner than WaitTimeSeconds """ queue = self.get_queue(queue_name) result = [] previous_result_count = len(result) polling_end = unix_time() + wait_seconds_timeout # queue.messages only contains visible messages while True: if result or (wait_seconds_timeout and unix_time() > polling_end): break messages_to_dlq = [] for message in queue.messages: if not message.visible: continue if message in queue.pending_messages: # The message is pending but is visible again, so the # consumer must have timed out. queue.pending_messages.remove(message) if message.group_id and queue.fifo_queue: if message.group_id in queue.pending_message_groups: # There is already one active message with the same # group, so we cannot deliver this one. continue queue.pending_messages.add(message) if queue.dead_letter_queue is not None and message.approximate_receive_count >= queue.redrive_policy['maxReceiveCount']: messages_to_dlq.append(message) continue message.mark_received( visibility_timeout=visibility_timeout ) result.append(message) if len(result) >= count: break for message in messages_to_dlq: queue._messages.remove(message) queue.dead_letter_queue.add_message(message) if previous_result_count == len(result): if wait_seconds_timeout == 0: # There is timeout and we have added no additional results, # so break to avoid an infinite loop. break import time time.sleep(0.001) continue previous_result_count = len(result) return result def delete_message(self, queue_name, receipt_handle): queue = self.get_queue(queue_name) new_messages = [] for message in queue._messages: # Only delete message if it is not visible and the reciept_handle # matches. if message.receipt_handle == receipt_handle: queue.pending_messages.remove(message) continue new_messages.append(message) queue._messages = new_messages def change_message_visibility(self, queue_name, receipt_handle, visibility_timeout): queue = self.get_queue(queue_name) for message in queue._messages: if message.receipt_handle == receipt_handle: if message.visible: raise MessageNotInflight message.change_visibility(visibility_timeout) if message.visible: # If the message is visible again, remove it from pending # messages. queue.pending_messages.remove(message) return raise ReceiptHandleIsInvalid def purge_queue(self, queue_name): queue = self.get_queue(queue_name) queue._messages = [] def list_dead_letter_source_queues(self, queue_name): dlq = self.get_queue(queue_name) queues = [] for queue in self.queues.values(): if queue.dead_letter_queue is dlq: queues.append(queue) return queues def add_permission(self, queue_name, actions, account_ids, label): queue = self.get_queue(queue_name) if actions is None or len(actions) == 0: raise RESTError('InvalidParameterValue', 'Need at least one Action') if account_ids is None or len(account_ids) == 0: raise RESTError('InvalidParameterValue', 'Need at least one Account ID') if not all([item in Queue.ALLOWED_PERMISSIONS for item in actions]): raise RESTError('InvalidParameterValue', 'Invalid permissions') queue.permissions[label] = (account_ids, actions) def remove_permission(self, queue_name, label): queue = self.get_queue(queue_name) if label not in queue.permissions: raise RESTError('InvalidParameterValue', 'Permission doesnt exist for the given label') del queue.permissions[label] def tag_queue(self, queue_name, tags): queue = self.get_queue(queue_name) queue.tags.update(tags) def untag_queue(self, queue_name, tag_keys): queue = self.get_queue(queue_name) for key in tag_keys: try: del queue.tags[key] except KeyError: pass sqs_backends = {} for region in boto.sqs.regions(): sqs_backends[region.name] = SQSBackend(region.name)