micropython/tests/multi_espnow/90_memory_test.py

# Test of a ESPnow echo server and client transferring data.
# This test works with ESP32 or ESP8266 as server or client.

try:
    import network
    import random
    import espnow
except ImportError:
    print("SKIP")
    raise SystemExit

# Set read timeout to 5 seconds
timeout_ms = 5000
default_pmk = b"MicroPyth0nRules"
sync = True


def echo_server(e):
    peers = []
    i = 0
    while True:
        peer, msg = e.irecv(timeout_ms)
        i += 1
        if i % 10 == 0:
            print("OK:", i)
        if peer is None:
            return
        if peer not in peers:
            peers.append(peer)
            e.add_peer(peer)

        #  Echo the MAC and message back to the sender
        if not e.send(peer, msg, sync):
            print("ERROR: send() failed to", peer)
            return

        if msg == b"!done":
            return


def echo_test(e, peer, msg, sync):
    try:
        if not e.send(peer, msg, sync):
            print("ERROR: Send failed.")
            return
    except OSError as exc:
        # Don't print exc as it is differs for esp32 and esp8266
        print("ERROR: OSError:")
        return

    p2, msg2 = e.irecv(timeout_ms)
    if msg2 != msg:
        print("ERROR: Received != Sent")


def echo_client(e, peer, msglens):
    for sync in [True]:
        for msglen in msglens:
            msg = bytearray(msglen)
            if msglen > 0:
                msg[0] = b"_"[0]  # Random message must not start with '!'
            for i in range(1, msglen):
                msg[i] = random.getrandbits(8)
            echo_test(e, peer, msg, sync)


def init(sta_active=True, ap_active=False):
    wlans = [network.WLAN(i) for i in [network.STA_IF, network.AP_IF]]
    e = espnow.ESPNow()
    e.active(True)
    e.set_pmk(default_pmk)
    wlans[0].active(sta_active)
    wlans[1].active(ap_active)
    wlans[0].disconnect()  # Force esp8266 STA interface to disconnect from AP
    return e


# Server
def instance0():
    e = init(True, False)
    multitest.globals(PEERS=[network.WLAN(i).config("mac") for i in (0, 1)])
    multitest.next()
    print("Server Start")
    echo_server(e)
    print("Server Done")
    e.active(False)


# Client
def instance1():
    e = init(True, False)
    multitest.next()
    peer = PEERS[0]
    e.add_peer(peer)
    echo_test(e, peer, b"ping", True)
    gc.collect()
    mem_start = gc.mem_alloc()
    for i in range(10):
        echo_client(e, peer, [250] * 10)
        print("OK:", (i + 1) * 10)
    echo_test(e, peer, b"!done", True)
    gc.collect()
    mem_end = gc.mem_alloc()
    if mem_end - mem_start < 1024:
        print("OK: Less than 1024 bytes consumed")
    else:
        print("Error: Memory consumed is", mem_end - mem_start)
    e.active(False)
esp32,esp8266: Add support for the Espressif ESP-NOW protocol. ESP-NOW is a proprietary wireless communication protocol which supports connectionless communication between ESP32 and ESP8266 devices, using vendor specific WiFi frames. This commit adds support for this protocol through a new `espnow` module. This commit builds on original work done by @nickzoic, @shawwwn and with contributions from @zoland. Features include: - Use of (extended) ring buffers in py/ringbuf.[ch] for robust IO. - Signal strength (RSSI) monitoring. - Core support in `_espnow` C module, extended by `espnow.py` module. - Asyncio support via `aioespnow.py` module (separate to this commit). - Docs provided at `docs/library/espnow.rst`. Methods available in espnow.ESPNow class are: - active(True/False) - config(): set rx buffer size, read timeout and tx rate - recv()/irecv()/recvinto() to read incoming messages from peers - send() to send messages to peer devices - any() to test if a message is ready to read - irq() to set callback for received messages - stats() returns transfer stats: (tx_pkts, tx_pkt_responses, tx_failures, rx_pkts, lost_rx_pkts) - add_peer(mac, ...) registers a peer before sending messages - get_peer(mac) returns peer info: (mac, lmk, channel, ifidx, encrypt) - mod_peer(mac, ...) changes peer info parameters - get_peers() returns all peer info tuples - peers_table supports RSSI signal monitoring for received messages: {peer1: [rssi, time_ms], peer2: [rssi, time_ms], ...} ESP8266 is a pared down version of the ESP32 ESPNow support due to code size restrictions and differences in the low-level API. See docs for details. Also included is a test suite in tests/multi_espnow. This tests basic espnow data transfer, multiple transfers, various message sizes, encrypted messages (pmk and lmk), and asyncio support. Initial work is from https://github.com/micropython/micropython/pull/4115. Initial import of code is from: https://github.com/nickzoic/micropython/tree/espnow-4115. 2020-09-24 05:37:04 +00:00			`# Test of a ESPnow echo server and client transferring data.`
			`# This test works with ESP32 or ESP8266 as server or client.`

			`try:`
			`import network`
			`import random`
			`import espnow`
			`except ImportError:`
			`print("SKIP")`
			`raise SystemExit`

			`# Set read timeout to 5 seconds`
			`timeout_ms = 5000`
			`default_pmk = b"MicroPyth0nRules"`
			`sync = True`


			`def echo_server(e):`
			`peers = []`
			`i = 0`
			`while True:`
			`peer, msg = e.irecv(timeout_ms)`
			`i += 1`
			`if i % 10 == 0:`
			`print("OK:", i)`
			`if peer is None:`
			`return`
			`if peer not in peers:`
			`peers.append(peer)`
			`e.add_peer(peer)`

			`# Echo the MAC and message back to the sender`
			`if not e.send(peer, msg, sync):`
			`print("ERROR: send() failed to", peer)`
			`return`

			`if msg == b"!done":`
			`return`


			`def echo_test(e, peer, msg, sync):`
			`try:`
			`if not e.send(peer, msg, sync):`
			`print("ERROR: Send failed.")`
			`return`
			`except OSError as exc:`
			`# Don't print exc as it is differs for esp32 and esp8266`
			`print("ERROR: OSError:")`
			`return`

			`p2, msg2 = e.irecv(timeout_ms)`
			`if msg2 != msg:`
			`print("ERROR: Received != Sent")`


			`def echo_client(e, peer, msglens):`
			`for sync in [True]:`
			`for msglen in msglens:`
			`msg = bytearray(msglen)`
			`if msglen > 0:`
			`msg[0] = b"_"[0] # Random message must not start with '!'`
			`for i in range(1, msglen):`
			`msg[i] = random.getrandbits(8)`
			`echo_test(e, peer, msg, sync)`


			`def init(sta_active=True, ap_active=False):`
			`wlans = [network.WLAN(i) for i in [network.STA_IF, network.AP_IF]]`
			`e = espnow.ESPNow()`
			`e.active(True)`
			`e.set_pmk(default_pmk)`
			`wlans[0].active(sta_active)`
			`wlans[1].active(ap_active)`
			`wlans[0].disconnect() # Force esp8266 STA interface to disconnect from AP`
			`return e`


			`# Server`
			`def instance0():`
			`e = init(True, False)`
			`multitest.globals(PEERS=[network.WLAN(i).config("mac") for i in (0, 1)])`
			`multitest.next()`
			`print("Server Start")`
			`echo_server(e)`
			`print("Server Done")`
			`e.active(False)`


			`# Client`
			`def instance1():`
			`e = init(True, False)`
			`multitest.next()`
			`peer = PEERS[0]`
			`e.add_peer(peer)`
			`echo_test(e, peer, b"ping", True)`
			`gc.collect()`
			`mem_start = gc.mem_alloc()`
			`for i in range(10):`
			`echo_client(e, peer, [250] * 10)`
			`print("OK:", (i + 1) * 10)`
			`echo_test(e, peer, b"!done", True)`
			`gc.collect()`
			`mem_end = gc.mem_alloc()`
			`if mem_end - mem_start < 1024:`
			`print("OK: Less than 1024 bytes consumed")`
			`else:`
			`print("Error: Memory consumed is", mem_end - mem_start)`
			`e.active(False)`