import asyncio import fnmatch import random import re import string import time from copy import deepcopy from django.conf import settings from django.core.signals import setting_changed from django.utils.module_loading import import_string from channels import DEFAULT_CHANNEL_LAYER from .exceptions import ChannelFull, InvalidChannelLayerError class ChannelLayerManager: """ Takes a settings dictionary of backends and initialises them on request. """ def __init__(self): self.backends = {} setting_changed.connect(self._reset_backends) def _reset_backends(self, setting, **kwargs): """ Removes cached channel layers when the CHANNEL_LAYERS setting changes. """ if setting == "CHANNEL_LAYERS": self.backends = {} @property def configs(self): # Lazy load settings so we can be imported return getattr(settings, "CHANNEL_LAYERS", {}) def make_backend(self, name): """ Instantiate channel layer. """ config = self.configs[name].get("CONFIG", {}) return self._make_backend(name, config) def make_test_backend(self, name): """ Instantiate channel layer using its test config. """ try: config = self.configs[name]["TEST_CONFIG"] except KeyError: raise InvalidChannelLayerError("No TEST_CONFIG specified for %s" % name) return self._make_backend(name, config) def _make_backend(self, name, config): # Check for old format config if "ROUTING" in self.configs[name]: raise InvalidChannelLayerError( "ROUTING key found for %s - this is no longer needed in Channels 2." % name ) # Load the backend class try: backend_class = import_string(self.configs[name]["BACKEND"]) except KeyError: raise InvalidChannelLayerError("No BACKEND specified for %s" % name) except ImportError: raise InvalidChannelLayerError( "Cannot import BACKEND %r specified for %s" % (self.configs[name]["BACKEND"], name) ) # Initialise and pass config return backend_class(**config) def __getitem__(self, key): if key not in self.backends: self.backends[key] = self.make_backend(key) return self.backends[key] def __contains__(self, key): return key in self.configs def set(self, key, layer): """ Sets an alias to point to a new ChannelLayerWrapper instance, and returns the old one that it replaced. Useful for swapping out the backend during tests. """ old = self.backends.get(key, None) self.backends[key] = layer return old class BaseChannelLayer: """ Base channel layer class that others can inherit from, with useful common functionality. """ def __init__(self, expiry=60, capacity=100, channel_capacity=None): self.expiry = expiry self.capacity = capacity self.channel_capacity = channel_capacity or {} def compile_capacities(self, channel_capacity): """ Takes an input channel_capacity dict and returns the compiled list of regexes that get_capacity will look for as self.channel_capacity """ result = [] for pattern, value in channel_capacity.items(): # If they passed in a precompiled regex, leave it, else interpret # it as a glob. if hasattr(pattern, "match"): result.append((pattern, value)) else: result.append((re.compile(fnmatch.translate(pattern)), value)) return result def get_capacity(self, channel): """ Gets the correct capacity for the given channel; either the default, or a matching result from channel_capacity. Returns the first matching result; if you want to control the order of matches, use an ordered dict as input. """ for pattern, capacity in self.channel_capacity: if pattern.match(channel): return capacity return self.capacity def match_type_and_length(self, name): if isinstance(name, str) and (len(name) < 100): return True return False # Name validation functions channel_name_regex = re.compile(r"^[a-zA-Z\d\-_.]+(\![\d\w\-_.]*)?$") group_name_regex = re.compile(r"^[a-zA-Z\d\-_.]+$") invalid_name_error = ( "{} name must be a valid unicode string containing only ASCII " + "alphanumerics, hyphens, underscores, or periods." ) def valid_channel_name(self, name, receive=False): if self.match_type_and_length(name): if bool(self.channel_name_regex.match(name)): # Check cases for special channels if "!" in name and not name.endswith("!") and receive: raise TypeError( "Specific channel names in receive() must end at the !" ) return True raise TypeError( "Channel name must be a valid unicode string containing only ASCII " + "alphanumerics, hyphens, or periods, not '{}'.".format(name) ) def valid_group_name(self, name): if self.match_type_and_length(name): if bool(self.group_name_regex.match(name)): return True raise TypeError( "Group name must be a valid unicode string containing only ASCII " + "alphanumerics, hyphens, or periods." ) def valid_channel_names(self, names, receive=False): _non_empty_list = True if names else False _names_type = isinstance(names, list) assert _non_empty_list and _names_type, "names must be a non-empty list" assert all( self.valid_channel_name(channel, receive=receive) for channel in names ) return True def non_local_name(self, name): """ Given a channel name, returns the "non-local" part. If the channel name is a process-specific channel (contains !) this means the part up to and including the !; if it is anything else, this means the full name. """ if "!" in name: return name[: name.find("!") + 1] else: return name class InMemoryChannelLayer(BaseChannelLayer): """ In-memory channel layer implementation """ def __init__( self, expiry=60, group_expiry=86400, capacity=100, channel_capacity=None, **kwargs ): super().__init__( expiry=expiry, capacity=capacity, channel_capacity=channel_capacity, **kwargs ) self.channels = {} self.groups = {} self.group_expiry = group_expiry # Channel layer API extensions = ["groups", "flush"] async def send(self, channel, message): """ Send a message onto a (general or specific) channel. """ # Typecheck assert isinstance(message, dict), "message is not a dict" assert self.valid_channel_name(channel), "Channel name not valid" # If it's a process-local channel, strip off local part and stick full # name in message assert "__asgi_channel__" not in message queue = self.channels.setdefault(channel, asyncio.Queue()) # Are we full if queue.qsize() >= self.capacity: raise ChannelFull(channel) # Add message await queue.put((time.time() + self.expiry, deepcopy(message))) async def receive(self, channel): """ Receive the first message that arrives on the channel. If more than one coroutine waits on the same channel, a random one of the waiting coroutines will get the result. """ assert self.valid_channel_name(channel) self._clean_expired() queue = self.channels.setdefault(channel, asyncio.Queue()) # Do a plain direct receive try: _, message = await queue.get() finally: if queue.empty(): del self.channels[channel] return message async def new_channel(self, prefix="specific."): """ Returns a new channel name that can be used by something in our process as a specific channel. """ return "%s.inmemory!%s" % ( prefix, "".join(random.choice(string.ascii_letters) for i in range(12)), ) # Expire cleanup def _clean_expired(self): """ Goes through all messages and groups and removes those that are expired. Any channel with an expired message is removed from all groups. """ # Channel cleanup for channel, queue in list(self.channels.items()): # See if it's expired while not queue.empty() and queue._queue[0][0] < time.time(): queue.get_nowait() # Any removal prompts group discard self._remove_from_groups(channel) # Is the channel now empty and needs deleting? if queue.empty(): del self.channels[channel] # Group Expiration timeout = int(time.time()) - self.group_expiry for group in self.groups: for channel in list(self.groups.get(group, set())): # If join time is older than group_expiry end the group membership if ( self.groups[group][channel] and int(self.groups[group][channel]) < timeout ): # Delete from group del self.groups[group][channel] # Flush extension async def flush(self): self.channels = {} self.groups = {} async def close(self): # Nothing to go pass def _remove_from_groups(self, channel): """ Removes a channel from all groups. Used when a message on it expires. """ for channels in self.groups.values(): if channel in channels: del channels[channel] # Groups extension async def group_add(self, group, channel): """ Adds the channel name to a group. """ # Check the inputs assert self.valid_group_name(group), "Group name not valid" assert self.valid_channel_name(channel), "Channel name not valid" # Add to group dict self.groups.setdefault(group, {}) self.groups[group][channel] = time.time() async def group_discard(self, group, channel): # Both should be text and valid assert self.valid_channel_name(channel), "Invalid channel name" assert self.valid_group_name(group), "Invalid group name" # Remove from group set if group in self.groups: if channel in self.groups[group]: del self.groups[group][channel] if not self.groups[group]: del self.groups[group] async def group_send(self, group, message): # Check types assert isinstance(message, dict), "Message is not a dict" assert self.valid_group_name(group), "Invalid group name" # Run clean self._clean_expired() # Send to each channel for channel in self.groups.get(group, set()): try: await self.send(channel, message) except ChannelFull: pass def get_channel_layer(alias=DEFAULT_CHANNEL_LAYER): """ Returns a channel layer by alias, or None if it is not configured. """ try: return channel_layers[alias] except KeyError: return None # Default global instance of the channel layer manager channel_layers = ChannelLayerManager()