import datetime import logging import asyncio import aiocoap.resource as resource import aiocoap class BlockResource(resource.Resource): """Example resource which supports the GET and PUT methods. It sends large responses, which trigger blockwise transfer.""" def __init__(self): super().__init__() self.set_content(b"This is the resource's default content. It is padded " b"with numbers to be large enough to trigger blockwise " b"transfer.\n") def set_content(self, content): self.content = content while len(self.content) <= 1024: self.content = self.content + b"0123456789\n" async def render_get(self, request): return aiocoap.Message(payload=self.content) async def render_put(self, request): print('PUT payload: %s' % request.payload) self.set_content(request.payload) return aiocoap.Message(code=aiocoap.CHANGED, payload=self.content) class SeparateLargeResource(resource.Resource): """Example resource which supports the GET method. It uses asyncio.sleep to simulate a long-running operation, and thus forces the protocol to send empty ACK first. """ def get_link_description(self): # Publish additional data in .well-known/core return dict(**super().get_link_description(), title="A large resource") async def render_get(self, request): await asyncio.sleep(3) payload = "Three rings for the elven kings under the sky, seven rings "\ "for dwarven lords in their halls of stone, nine rings for "\ "mortal men doomed to die, one ring for the dark lord on his "\ "dark throne.".encode('ascii') return aiocoap.Message(payload=payload) class TimeResource(resource.ObservableResource): """Example resource that can be observed. The `notify` method keeps scheduling itself, and calles `update_state` to trigger sending notifications.""" def __init__(self): super().__init__() self.handle = None def notify(self): self.updated_state() self.reschedule() def reschedule(self): self.handle = asyncio.get_event_loop().call_later(5, self.notify) def update_observation_count(self, count): if count and self.handle is None: print("Starting the clock") self.reschedule() if count == 0 and self.handle: print("Stopping the clock") self.handle.cancel() self.handle = None async def render_get(self, request): payload = datetime.datetime.now().\ strftime("%Y-%m-%d %H:%M").encode('ascii') return aiocoap.Message(payload=payload) class WhoAmI(resource.Resource): async def render_get(self, request): text = ["Used protocol: %s." % request.remote.scheme] text.append("Request came from %s." % request.remote.hostinfo) text.append("The server address used %s." % request.remote.hostinfo_local) claims = list(request.remote.authenticated_claims) if claims: text.append("Authenticated claims of the client: %s." % ", ".join(repr(c) for c in claims)) else: text.append("No claims authenticated.") return aiocoap.Message(content_format=0, payload="\n".join(text).encode('utf8')) # logging setup logging.basicConfig(level=logging.INFO) logging.getLogger("coap-server").setLevel(logging.DEBUG) async def main(): # Resource tree creation root = resource.Site() root.add_resource(['.well-known', 'core'], resource.WKCResource(root.get_resources_as_linkheader)) root.add_resource(['time'], TimeResource()) root.add_resource(['other', 'block'], BlockResource()) root.add_resource(['other', 'separate'], SeparateLargeResource()) root.add_resource(['whoami'], WhoAmI()) await aiocoap.Context.create_server_context(root) # Run forever await asyncio.get_running_loop().create_future() if __name__ == "__main__": asyncio.run(main())