from __future__ import print_function from __future__ import unicode_literals import re import os import socket import select import hashlib import base64 import queue import random import string from threading import Thread, Event import ttfw_idf def get_my_ip(): s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) try: # doesn't even have to be reachable s.connect(('10.255.255.255', 1)) IP = s.getsockname()[0] except Exception: IP = '127.0.0.1' finally: s.close() return IP # Simple Websocket server for testing purposes class Websocket: HEADER_LEN = 6 def __init__(self, port): self.port = port self.socket = socket.socket() self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self.socket.settimeout(10.0) self.send_q = queue.Queue() self.shutdown = Event() def __enter__(self): try: self.socket.bind(('', self.port)) except socket.error as e: print("Bind failed:{}".format(e)) raise self.socket.listen(1) self.server_thread = Thread(target=self.run_server) self.server_thread.start() return self def __exit__(self, exc_type, exc_value, traceback): self.shutdown.set() self.server_thread.join() self.socket.close() self.conn.close() def run_server(self): self.conn, address = self.socket.accept() # accept new connection self.socket.settimeout(10.0) print("Connection from: {}".format(address)) self.establish_connection() print("WS established") # Handle connection until client closes it, will echo any data received and send data from send_q queue self.handle_conn() def establish_connection(self): while not self.shutdown.is_set(): try: # receive data stream. it won't accept data packet greater than 1024 bytes data = self.conn.recv(1024).decode() if not data: # exit if data is not received raise if "Upgrade: websocket" in data and "Connection: Upgrade" in data: self.handshake(data) return except socket.error as err: print("Unable to establish a websocket connection: {}, {}".format(err)) raise def handshake(self, data): # Magic string from RFC MAGIC_STRING = "258EAFA5-E914-47DA-95CA-C5AB0DC85B11" headers = data.split("\r\n") for header in headers: if "Sec-WebSocket-Key" in header: client_key = header.split()[1] if client_key: resp_key = client_key + MAGIC_STRING resp_key = base64.standard_b64encode(hashlib.sha1(resp_key.encode()).digest()) resp = "HTTP/1.1 101 Switching Protocols\r\n" + \ "Upgrade: websocket\r\n" + \ "Connection: Upgrade\r\n" + \ "Sec-WebSocket-Accept: {}\r\n\r\n".format(resp_key.decode()) self.conn.send(resp.encode()) def handle_conn(self): while not self.shutdown.is_set(): r,w,e = select.select([self.conn], [], [], 1) try: if self.conn in r: self.echo_data() if not self.send_q.empty(): self._send_data_(self.send_q.get()) except socket.error as err: print("Stopped echoing data: {}".format(err)) raise def echo_data(self): header = bytearray(self.conn.recv(self.HEADER_LEN, socket.MSG_WAITALL)) if not header: # exit if socket closed by peer return # Remove mask bit payload_len = ~(1 << 7) & header[1] payload = bytearray(self.conn.recv(payload_len, socket.MSG_WAITALL)) if not payload: # exit if socket closed by peer return frame = header + payload decoded_payload = self.decode_frame(frame) print("Sending echo...") self._send_data_(decoded_payload) def _send_data_(self, data): frame = self.encode_frame(data) self.conn.send(frame) def send_data(self, data): self.send_q.put(data.encode()) def decode_frame(self, frame): # Mask out MASK bit from payload length, this len is only valid for short messages (<126) payload_len = ~(1 << 7) & frame[1] mask = frame[2:self.HEADER_LEN] encrypted_payload = frame[self.HEADER_LEN:self.HEADER_LEN + payload_len] payload = bytearray() for i in range(payload_len): payload.append(encrypted_payload[i] ^ mask[i % 4]) return payload def encode_frame(self, payload): # Set FIN = 1 and OP_CODE = 1 (text) header = (1 << 7) | (1 << 0) frame = bytearray([header]) payload_len = len(payload) # If payload len is longer than 125 then the next 16 bits are used to encode length if payload_len > 125: frame.append(126) frame.append(payload_len >> 8) frame.append(0xFF & payload_len) else: frame.append(payload_len) frame += payload return frame def test_echo(dut): dut.expect("WEBSOCKET_EVENT_CONNECTED") for i in range(0, 10): dut.expect(re.compile(r"Received=hello (\d)"), timeout=30) print("All echos received") def test_recv_long_msg(dut, websocket, msg_len, repeats): send_msg = ''.join(random.choice(string.ascii_uppercase + string.ascii_lowercase + string.digits) for _ in range(msg_len)) for _ in range(repeats): websocket.send_data(send_msg) recv_msg = '' while len(recv_msg) < msg_len: # Filter out color encoding match = dut.expect(re.compile(r"Received=([a-zA-Z0-9]*).*\n"), timeout=30)[0] recv_msg += match if recv_msg == send_msg: print("Sent message and received message are equal") else: raise ValueError("DUT received string do not match sent string, \nexpected: {}\nwith length {}\ \nreceived: {}\nwith length {}".format(send_msg, len(send_msg), recv_msg, len(recv_msg))) @ttfw_idf.idf_example_test(env_tag="Example_WIFI") def test_examples_protocol_websocket(env, extra_data): """ steps: 1. join AP 2. connect to uri specified in the config 3. send and receive data """ dut1 = env.get_dut("websocket", "examples/protocols/websocket", dut_class=ttfw_idf.ESP32DUT) # check and log bin size binary_file = os.path.join(dut1.app.binary_path, "websocket-example.bin") bin_size = os.path.getsize(binary_file) ttfw_idf.log_performance("websocket_bin_size", "{}KB".format(bin_size // 1024)) ttfw_idf.check_performance("websocket_bin_size", bin_size // 1024) try: if "CONFIG_WEBSOCKET_URI_FROM_STDIN" in dut1.app.get_sdkconfig(): uri_from_stdin = True else: uri = dut1.app.get_sdkconfig()["CONFIG_WEBSOCKET_URI"].strip('"') uri_from_stdin = False except Exception: print('ENV_TEST_FAILURE: Cannot find uri settings in sdkconfig') raise # start test dut1.start_app() if uri_from_stdin: server_port = 4455 with Websocket(server_port) as ws: uri = "ws://{}:{}".format(get_my_ip(), server_port) print("DUT connecting to {}".format(uri)) dut1.expect("Please enter uri of websocket endpoint", timeout=30) dut1.write(uri) test_echo(dut1) # Message length should exceed DUT's buffer size to test fragmentation, default is 1024 byte test_recv_long_msg(dut1, ws, 2000, 3) else: print("DUT connecting to {}".format(uri)) test_echo(dut1) if __name__ == '__main__': test_examples_protocol_websocket()