:mod:`espnow` --- support for the ESP-NOW wireless protocol =========================================================== .. module:: espnow :synopsis: ESP-NOW wireless protocol support This module provides an interface to the `ESP-NOW `_ protocol provided by Espressif on ESP32 and ESP8266 devices (`API docs `_). Table of Contents: ------------------ - `Introduction`_ - `Configuration`_ - `Sending and Receiving Data`_ - `Peer Management`_ - `Callback Methods`_ - `Exceptions`_ - `Constants`_ - `Wifi Signal Strength (RSSI) - (ESP32 Only)`_ - `Supporting asyncio`_ - `Broadcast and Multicast`_ - `ESPNow and Wifi Operation`_ - `ESPNow and Sleep Modes`_ Introduction ------------ ESP-NOW is a connection-less wireless communication protocol supporting: - Direct communication between up to 20 registered peers: - Without the need for a wireless access point (AP), - Encrypted and unencrypted communication (up to 6 encrypted peers), - Message sizes up to 250 bytes, - Can operate alongside Wifi operation (:doc:`network.WLAN`) on ESP32 and ESP8266 devices. It is especially useful for small IoT networks, latency sensitive or power sensitive applications (such as battery operated devices) and for long-range communication between devices (hundreds of metres). This module also supports tracking the Wifi signal strength (RSSI) of peer devices. A simple example would be: **Sender:** :: import network import espnow # A WLAN interface must be active to send()/recv() sta = network.WLAN(network.STA_IF) # Or network.AP_IF sta.active(True) sta.disconnect() # For ESP8266 e = espnow.ESPNow() e.active(True) peer = b'\xbb\xbb\xbb\xbb\xbb\xbb' # MAC address of peer's wifi interface e.add_peer(peer) # Must add_peer() before send() e.send(peer, "Starting...") for i in range(100): e.send(peer, str(i)*20, True) e.send(peer, b'end') **Receiver:** :: import network import espnow # A WLAN interface must be active to send()/recv() sta = network.WLAN(network.STA_IF) sta.active(True) sta.disconnect() # Because ESP8266 auto-connects to last Access Point e = espnow.ESPNow() e.active(True) while True: host, msg = e.recv() if msg: # msg == None if timeout in recv() print(host, msg) if msg == b'end': break class ESPNow ------------ Constructor ----------- .. class:: ESPNow() Returns the singleton ESPNow object. As this is a singleton, all calls to `espnow.ESPNow()` return a reference to the same object. .. note:: Some methods are available only on the ESP32 due to code size restrictions on the ESP8266 and differences in the Espressif API. Configuration ------------- .. method:: ESPNow.active([flag]) Initialise or de-initialise the ESP-NOW communication protocol depending on the value of the ``flag`` optional argument. .. data:: Arguments: - *flag*: Any python value which can be converted to a boolean type. - ``True``: Prepare the software and hardware for use of the ESP-NOW communication protocol, including: - initialise the ESPNow data structures, - allocate the recv data buffer, - invoke esp_now_init() and - register the send and recv callbacks. - ``False``: De-initialise the Espressif ESP-NOW software stack (esp_now_deinit()), disable callbacks, deallocate the recv data buffer and deregister all peers. If *flag* is not provided, return the current status of the ESPNow interface. .. data:: Returns: ``True`` if interface is currently *active*, else ``False``. .. method:: ESPNow.config(param=value, ...) ESPNow.config('param') (ESP32 only) Set or get configuration values of the ESPNow interface. To set values, use the keyword syntax, and one or more parameters can be set at a time. To get a value the parameter name should be quoted as a string, and just one parameter is queried at a time. **Note:** *Getting* parameters is not supported on the ESP8266. .. data:: Options: *rxbuf*: (default=526) Get/set the size in bytes of the internal buffer used to store incoming ESPNow packet data. The default size is selected to fit two max-sized ESPNow packets (250 bytes) with associated mac_address (6 bytes), a message byte count (1 byte) and RSSI data plus buffer overhead. Increase this if you expect to receive a lot of large packets or expect bursty incoming traffic. **Note:** The recv buffer is allocated by `ESPNow.active()`. Changing this value will have no effect until the next call of `ESPNow.active(True)`. *timeout_ms*: (default=300,000) Default timeout (in milliseconds) for receiving ESPNow messages. If *timeout_ms* is less than zero, then wait forever. The timeout can also be provided as arg to `recv()`/`irecv()`/`recvinto()`. *rate*: (ESP32 only, IDF>=4.3.0 only) Set the transmission speed for ESPNow packets. Must be set to a number from the allowed numeric values in `enum wifi_phy_rate_t `_. .. data:: Returns: ``None`` or the value of the parameter being queried. .. data:: Raises: - ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised. - ``ValueError()`` on invalid configuration options or values. Sending and Receiving Data -------------------------- A wifi interface (``network.STA_IF`` or ``network.AP_IF``) must be `active()` before messages can be sent or received, but it is not necessary to connect or configure the WLAN interface. For example:: import network sta = network.WLAN(network.STA_IF) sta.active(True) sta.disconnect() # For ESP8266 **Note:** The ESP8266 has a *feature* that causes it to automatically reconnect to the last wifi Access Point when set `active(True)` (even after reboot/reset). This reduces the reliability of receiving ESP-NOW messages (see `ESPNow and Wifi Operation`_). You can avoid this by calling `disconnect()` after `active(True)`. .. method:: ESPNow.send(mac, msg[, sync]) ESPNow.send(msg) (ESP32 only) Send the data contained in ``msg`` to the peer with given network ``mac`` address. In the second form, ``mac=None`` and ``sync=True``. The peer must be registered with `ESPNow.add_peer()` before the message can be sent. .. data:: Arguments: - *mac*: byte string exactly ``espnow.ADDR_LEN`` (6 bytes) long or ``None``. If *mac* is ``None`` (ESP32 only) the message will be sent to all registered peers, except any broadcast or multicast MAC addresses. - *msg*: string or byte-string up to ``espnow.MAX_DATA_LEN`` (250) bytes long. - *sync*: - ``True``: (default) send ``msg`` to the peer(s) and wait for a response (or not). - ``False`` send ``msg`` and return immediately. Responses from the peers will be discarded. .. data:: Returns: ``True`` if ``sync=False`` or if ``sync=True`` and *all* peers respond, else ``False``. .. data:: Raises: - ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised. - ``OSError(num, "ESP_ERR_ESPNOW_NOT_FOUND")`` if peer is not registered. - ``OSError(num, "ESP_ERR_ESPNOW_IF")`` the wifi interface is not `active()`. - ``OSError(num, "ESP_ERR_ESPNOW_NO_MEM")`` internal ESP-NOW buffers are full. - ``ValueError()`` on invalid values for the parameters. **Note**: A peer will respond with success if its wifi interface is `active()` and set to the same channel as the sender, regardless of whether it has initialised it's ESP-NOW system or is actively listening for ESP-NOW traffic (see the Espressif ESP-NOW docs). .. method:: ESPNow.recv([timeout_ms]) Wait for an incoming message and return the ``mac`` address of the peer and the message. **Note**: It is **not** necessary to register a peer (using `add_peer()`) to receive a message from that peer. .. data:: Arguments: - *timeout_ms*: (Optional): May have the following values. - ``0``: No timeout. Return immediately if no data is available; - ``> 0``: Specify a timeout value in milliseconds; - ``< 0``: Do not timeout, ie. wait forever for new messages; or - ``None`` (or not provided): Use the default timeout value set with `ESPNow.config()`. .. data:: Returns: - ``(None, None)`` if timeout is reached before a message is received, or - ``[mac, msg]``: where: - ``mac`` is a bytestring containing the address of the device which sent the message, and - ``msg`` is a bytestring containing the message. .. data:: Raises: - ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised. - ``OSError(num, "ESP_ERR_ESPNOW_IF")`` if the wifi interface is not `active()`. - ``ValueError()`` on invalid *timeout_ms* values. `ESPNow.recv()` will allocate new storage for the returned list and the ``peer`` and ``msg`` bytestrings. This can lead to memory fragmentation if the data rate is high. See `ESPNow.irecv()` for a memory-friendly alternative. .. method:: ESPNow.irecv([timeout_ms]) Works like `ESPNow.recv()` but will reuse internal bytearrays to store the return values: ``[mac, msg]``, so that no new memory is allocated on each call. .. data:: Arguments: *timeout_ms*: (Optional) Timeout in milliseconds (see `ESPNow.recv()`). .. data:: Returns: - As for `ESPNow.recv()`, except that ``msg`` is a bytearray, instead of a bytestring. On the ESP8266, ``mac`` will also be a bytearray. .. data:: Raises: - See `ESPNow.recv()`. **Note:** You may also read messages by iterating over the ESPNow object, which will use the `irecv()` method for alloc-free reads, eg: :: import espnow e = espnow.ESPNow(); e.active(True) for mac, msg in e: print(mac, msg) if mac is None: # mac, msg will equal (None, None) on timeout break .. method:: ESPNow.recvinto(data[, timeout_ms]) Wait for an incoming message and return the length of the message in bytes. This is the low-level method used by both `recv()` and `irecv()` to read messages. .. data:: Arguments: *data*: A list of at least two elements, ``[peer, msg]``. ``msg`` must be a bytearray large enough to hold the message (250 bytes). On the ESP8266, ``peer`` should be a bytearray of 6 bytes. The MAC address of the sender and the message will be stored in these bytearrays (see Note on ESP32 below). *timeout_ms*: (Optional) Timeout in milliseconds (see `ESPNow.recv()`). .. data:: Returns: - Length of message in bytes or 0 if *timeout_ms* is reached before a message is received. .. data:: Raises: - See `ESPNow.recv()`. **Note:** On the ESP32: - It is unnecessary to provide a bytearray in the first element of the ``data`` list because it will be replaced by a reference to a unique ``peer`` address in the **peer device table** (see `ESPNow.peers_table`). - If the list is at least 4 elements long, the rssi and timestamp values will be saved as the 3rd and 4th elements. .. method:: ESPNow.any() Check if data is available to be read with `ESPNow.recv()`. For more sophisticated querying of available characters use `select.poll()`:: import select import espnow e = espnow.ESPNow() poll = select.poll() poll.register(e, select.POLLIN) poll.poll(timeout) .. data:: Returns: ``True`` if data is available to be read, else ``False``. .. method:: ESPNow.stats() (ESP32 only) .. data:: Returns: A 5-tuple containing the number of packets sent/received/lost: ``(tx_pkts, tx_responses, tx_failures, rx_packets, rx_dropped_packets)`` Incoming packets are *dropped* when the recv buffers are full. To reduce packet loss, increase the ``rxbuf`` config parameters and ensure you are reading messages as quickly as possible. **Note**: Dropped packets will still be acknowledged to the sender as received. Peer Management --------------- On ESP32 devices, the Espressif ESP-NOW software requires that other devices (peers) must be *registered* using `add_peer()` before we can `send()` them messages (this is *not* enforced on ESP8266 devices). It is **not** necessary to register a peer to receive an un-encrypted message from that peer. **Encrypted messages**: To receive an *encrypted* message, the receiving device must first register the sender and use the same encryption keys as the sender (PMK and LMK) (see `set_pmk()` and `add_peer()`. .. method:: ESPNow.set_pmk(pmk) Set the Primary Master Key (PMK) which is used to encrypt the Local Master Keys (LMK) for encrypting messages. If this is not set, a default PMK is used by the underlying Espressif ESP-NOW software stack. **Note:** messages will only be encrypted if *lmk* is also set in `ESPNow.add_peer()` (see `Security `_ in the Espressif API docs). .. data:: Arguments: *pmk*: Must be a byte string, bytearray or string of length `espnow.KEY_LEN` (16 bytes). .. data:: Returns: ``None`` .. data:: Raises: ``ValueError()`` on invalid *pmk* values. .. method:: ESPNow.add_peer(mac, [lmk], [channel], [ifidx], [encrypt]) ESPNow.add_peer(mac, param=value, ...) (ESP32 only) Add/register the provided *mac* address as a peer. Additional parameters may also be specified as positional or keyword arguments (any parameter set to ``None`` will be set to it's default value): .. data:: Arguments: - *mac*: The MAC address of the peer (as a 6-byte byte-string). - *lmk*: The Local Master Key (LMK) key used to encrypt data transfers with this peer (unless the *encrypt* parameter is set to ``False``). Must be: - a byte-string or bytearray or string of length ``espnow.KEY_LEN`` (16 bytes), or - any non ``True`` python value (default= ``b''``), signifying an *empty* key which will disable encryption. - *channel*: The wifi channel (2.4GHz) to communicate with this peer. Must be an integer from 0 to 14. If channel is set to 0 the current channel of the wifi device will be used. (default=0) - *ifidx*: (ESP32 only) Index of the wifi interface which will be used to send data to this peer. Must be an integer set to ``network.STA_IF`` (=0) or ``network.AP_IF`` (=1). (default=0/``network.STA_IF``). See `ESPNow and Wifi Operation`_ below for more information. - *encrypt*: (ESP32 only) If set to ``True`` data exchanged with this peer will be encrypted with the PMK and LMK. (default = ``True`` if *lmk* is set to a valid key, else ``False``) **ESP8266**: Keyword args may not be used on the ESP8266. **Note:** The maximum number of peers which may be registered is 20 (`espnow.MAX_TOTAL_PEER_NUM`), with a maximum of 6 (`espnow.MAX_ENCRYPT_PEER_NUM`) of those peers with encryption enabled (see `ESP_NOW_MAX_ENCRYPT_PEER_NUM `_ in the Espressif API docs). .. data:: Raises: - ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised. - ``OSError(num, "ESP_ERR_ESPNOW_EXIST")`` if *mac* is already registered. - ``OSError(num, "ESP_ERR_ESPNOW_FULL")`` if too many peers are already registered. - ``ValueError()`` on invalid keyword args or values. .. method:: ESPNow.del_peer(mac) Deregister the peer associated with the provided *mac* address. .. data:: Returns: ``None`` .. data:: Raises: - ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised. - ``OSError(num, "ESP_ERR_ESPNOW_NOT_FOUND")`` if *mac* is not registered. - ``ValueError()`` on invalid *mac* values. .. method:: ESPNow.get_peer(mac) (ESP32 only) Return information on a registered peer. .. data:: Returns: ``(mac, lmk, channel, ifidx, encrypt)``: a tuple of the "peer info" associated with the given *mac* address. .. data:: Raises: - ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised. - ``OSError(num, "ESP_ERR_ESPNOW_NOT_FOUND")`` if *mac* is not registered. - ``ValueError()`` on invalid *mac* values. .. method:: ESPNow.peer_count() (ESP32 only) Return the number of registered peers: - ``(peer_num, encrypt_num)``: where - ``peer_num`` is the number of peers which are registered, and - ``encrypt_num`` is the number of encrypted peers. .. method:: ESPNow.get_peers() (ESP32 only) Return the "peer info" parameters for all the registered peers (as a tuple of tuples). .. method:: ESPNow.mod_peer(mac, lmk, [channel], [ifidx], [encrypt]) (ESP32 only) ESPNow.mod_peer(mac, 'param'=value, ...) (ESP32 only) Modify the parameters of the peer associated with the provided *mac* address. Parameters may be provided as positional or keyword arguments (see `ESPNow.add_peer()`). Any parameter that is not set (or set to ``None``) will retain the existing value for that parameter. Callback Methods ---------------- .. method:: ESPNow.irq(callback) (ESP32 only) Set a callback function to be called *as soon as possible* after a message has been received from another ESPNow device. The callback function will be called with the `ESPNow` instance object as an argument. For more reliable operation, it is recommended to read out as many messages as are available when the callback is invoked and to set the read timeout to zero, eg: :: def recv_cb(e): while True: # Read out all messages waiting in the buffer mac, msg = e.irecv(0) # Don't wait if no messages left if mac is None: return print(mac, msg) e.irq(recv_cb) The `irq()` callback method is an alternative method for processing incoming messages, especially if the data rate is moderate and the device is *not too busy* but there are some caveats: - The scheduler stack *can* overflow and callbacks will be missed if packets are arriving at a sufficient rate or if other MicroPython components (eg, bluetooth, machine.Pin.irq(), machine.timer, i2s, ...) are exercising the scheduler stack. This method may be less reliable for dealing with bursts of messages, or high throughput or on a device which is busy dealing with other hardware operations. - For more information on *scheduled* function callbacks see: `micropython.schedule()`. Constants --------- .. data:: espnow.MAX_DATA_LEN(=250) espnow.KEY_LEN(=16) espnow.ADDR_LEN(=6) espnow.MAX_TOTAL_PEER_NUM(=20) espnow.MAX_ENCRYPT_PEER_NUM(=6) Exceptions ---------- If the underlying Espressif ESP-NOW software stack returns an error code, the MicroPython espnow module will raise an ``OSError(errnum, errstring)`` exception where ``errstring`` is set to the name of one of the error codes identified in the `Espressif ESP-NOW docs `_. For example:: try: e.send(peer, 'Hello') except OSError as err: if len(err.args) < 2: raise err if err.args[1] == 'ESP_ERR_ESPNOW_NOT_INIT': e.active(True) elif err.args[1] == 'ESP_ERR_ESPNOW_NOT_FOUND': e.add_peer(peer) elif err.args[1] == 'ESP_ERR_ESPNOW_IF': network.WLAN(network.STA_IF).active(True) else: raise err Wifi Signal Strength (RSSI) - (ESP32 only) ------------------------------------------ The ESPNow object maintains a **peer device table** which contains the signal strength and timestamp of the last received message from all hosts. The **peer device table** can be accessed using `ESPNow.peers_table` and can be used to track device proximity and identify *nearest neighbours* in a network of peer devices. This feature is **not** available on ESP8266 devices. .. data:: ESPNow.peers_table A reference to the **peer device table**: a dict of known peer devices and rssi values:: {peer: [rssi, time_ms], ...} where: - ``peer`` is the peer MAC address (as `bytes`); - ``rssi`` is the wifi signal strength in dBm (-127 to 0) of the last message received from the peer; and - ``time_ms`` is the time the message was received (in milliseconds since system boot - wraps every 12 days). Example:: >>> e.peers_table {b'\xaa\xaa\xaa\xaa\xaa\xaa': [-31, 18372], b'\xbb\xbb\xbb\xbb\xbb\xbb': [-43, 12541]} **Note**: the ``mac`` addresses returned by `recv()` are references to the ``peer`` key values in the **peer device table**. **Note**: RSSI and timestamp values in the device table are updated only when the message is read by the application. Supporting asyncio ------------------ A supplementary module (`aioespnow`) is available to provide :doc:`asyncio` support. **Note:** Asyncio support is available on all ESP32 targets as well as those ESP8266 boards which include the asyncio module (ie. ESP8266 devices with at least 2MB flash memory). A small async server example:: import network import aioespnow import asyncio # A WLAN interface must be active to send()/recv() network.WLAN(network.STA_IF).active(True) e = aioespnow.AIOESPNow() # Returns AIOESPNow enhanced with async support e.active(True) peer = b'\xbb\xbb\xbb\xbb\xbb\xbb' e.add_peer(peer) # Send a periodic ping to a peer async def heartbeat(e, peer, period=30): while True: if not await e.asend(peer, b'ping'): print("Heartbeat: peer not responding:", peer) else: print("Heartbeat: ping", peer) await asyncio.sleep(period) # Echo any received messages back to the sender async def echo_server(e): async for mac, msg in e: print("Echo:", msg) try: await e.asend(mac, msg) except OSError as err: if len(err.args) > 1 and err.args[1] == 'ESP_ERR_ESPNOW_NOT_FOUND': e.add_peer(mac) await e.asend(mac, msg) async def main(e, peer, timeout, period): asyncio.create_task(heartbeat(e, peer, period)) asyncio.create_task(echo_server(e)) await asyncio.sleep(timeout) asyncio.run(main(e, peer, 120, 10)) .. module:: aioespnow :synopsis: ESP-NOW :doc:`asyncio` support .. class:: AIOESPNow() The `AIOESPNow` class inherits all the methods of `ESPNow` and extends the interface with the following async methods. .. method:: async AIOESPNow.arecv() Asyncio support for `ESPNow.recv()`. Note that this method does not take a timeout value as argument. .. method:: async AIOESPNow.airecv() Asyncio support for `ESPNow.irecv()`. Note that this method does not take a timeout value as argument. .. method:: async AIOESPNow.asend(mac, msg, sync=True) async AIOESPNow.asend(msg) Asyncio support for `ESPNow.send()`. .. method:: AIOESPNow._aiter__() / async AIOESPNow.__anext__() `AIOESPNow` also supports reading incoming messages by asynchronous iteration using ``async for``; eg:: e = AIOESPNow() e.active(True) async def recv_till_halt(e): async for mac, msg in e: print(mac, msg) if msg == b'halt': break asyncio.run(recv_till_halt(e)) Broadcast and Multicast ----------------------- All active ESPNow clients will receive messages sent to their MAC address and all devices (**except ESP8266 devices**) will also receive messages sent to the *broadcast* MAC address (``b'\xff\xff\xff\xff\xff\xff'``) or any multicast MAC address. All ESPNow devices (including ESP8266 devices) can also send messages to the broadcast MAC address or any multicast MAC address. To `send()` a broadcast message, the broadcast (or multicast) MAC address must first be registered using `add_peer()`. `send()` will always return ``True`` for broadcasts, regardless of whether any devices receive the message. It is not permitted to encrypt messages sent to the broadcast address or any multicast address. **Note**: `ESPNow.send(None, msg)` will send to all registered peers *except* the broadcast address. To send a broadcast or multicast message, you must specify the broadcast (or multicast) MAC address as the peer. For example:: bcast = b'\xff' * 6 e.add_peer(bcast) e.send(bcast, "Hello World!") ESPNow and Wifi Operation ------------------------- ESPNow messages may be sent and received on any `active()` `WLAN` interface (``network.STA_IF`` or ``network.AP_IF``), even if that interface is also connected to a wifi network or configured as an access point. When an ESP32 or ESP8266 device connects to a Wifi Access Point (see `ESP32 Quickref <../esp32/quickref.html#networking>`__) the following things happen which affect ESPNow communications: 1. Wifi Power-saving Mode (`network.WLAN.PM_PERFORMANCE`) is automatically activated and 2. The radio on the esp device changes wifi ``channel`` to match the channel used by the Access Point. **Wifi Power-saving Mode:** (see `Espressif Docs `_) The power saving mode causes the device to turn off the radio periodically (typically for hundreds of milliseconds), making it unreliable in receiving ESPNow messages. This can be resolved by either of: 1. Disabling the power-saving mode on the STA_IF interface; - Use ``sta.config(pm=sta.PM_NONE)`` 2. Turning on the AP_IF interface, which will disable the power saving mode. However, the device will then be advertising an active wifi access point. - You **may** also choose to send your messages via the AP_IF interface, but this is not necessary. - ESP8266 peers must send messages to this AP_IF interface (see below). 3. Configuring ESPNow clients to retry sending messages. **Receiving messages from an ESP8266 device:** Strangely, an ESP32 device connected to a wifi network using method 1 or 2 above, will receive ESPNow messages sent to the STA_IF MAC address from another ESP32 device, but will **reject** messages from an ESP8266 device!!!. To receive messages from an ESP8266 device, the AP_IF interface must be set to ``active(True)`` **and** messages must be sent to the AP_IF MAC address. **Managing wifi channels:** Any other ESPNow devices wishing to communicate with a device which is also connected to a Wifi Access Point MUST use the same channel. A common scenario is where one ESPNow device is connected to a wifi router and acts as a proxy for messages from a group of sensors connected via ESPNow: **Proxy:** :: import network, time, espnow sta, ap = wifi_reset() # Reset wifi to AP off, STA on and disconnected sta.connect('myssid', 'mypassword') while not sta.isconnected(): # Wait until connected... time.sleep(0.1) sta.config(pm=sta.PM_NONE) # ..then disable power saving # Print the wifi channel used AFTER finished connecting to access point print("Proxy running on channel:", sta.config("channel")) e = espnow.ESPNow(); e.active(True) for peer, msg in e: # Receive espnow messages and forward them to MQTT broker over wifi **Sensor:** :: import network, espnow sta, ap = wifi_reset() # Reset wifi to AP off, STA on and disconnected sta.config(channel=6) # Change to the channel used by the proxy above. peer = b'0\xaa\xaa\xaa\xaa\xaa' # MAC address of proxy e = espnow.ESPNow(); e.active(True); e.add_peer(peer) while True: msg = read_sensor() e.send(peer, msg) time.sleep(1) Other issues to take care with when using ESPNow with wifi are: - **Set WIFI to known state on startup:** MicroPython does not reset the wifi peripheral after a soft reset. This can lead to unexpected behaviour. To guarantee the wifi is reset to a known state after a soft reset make sure you deactivate the STA_IF and AP_IF before setting them to the desired state at startup, eg.:: import network, time def wifi_reset(): # Reset wifi to AP_IF off, STA_IF on and disconnected sta = network.WLAN(network.STA_IF); sta.active(False) ap = network.WLAN(network.AP_IF); ap.active(False) sta.active(True) while not sta.active(): time.sleep(0.1) sta.disconnect() # For ESP8266 while sta.isconnected(): time.sleep(0.1) return sta, ap sta, ap = wifi_reset() Remember that a soft reset occurs every time you connect to the device REPL and when you type ``ctrl-D``. - **STA_IF and AP_IF always operate on the same channel:** the AP_IF will change channel when you connect to a wifi network; regardless of the channel you set for the AP_IF (see `Attention Note 3 `_ ). After all, there is really only one wifi radio on the device, which is shared by the STA_IF and AP_IF virtual devices. - **Disable automatic channel assignment on your wifi router:** If the wifi router for your wifi network is configured to automatically assign the wifi channel, it may change the channel for the network if it detects interference from other wifi routers. When this occurs, the ESP devices connected to the wifi network will also change channels to match the router, but other ESPNow-only devices will remain on the previous channel and communication will be lost. To mitigate this, either set your wifi router to use a fixed wifi channel or configure your devices to re-scan the wifi channels if they are unable to find their expected peers on the current channel. - **MicroPython re-scans wifi channels when trying to reconnect:** If the esp device is connected to a Wifi Access Point that goes down, MicroPython will automatically start scanning channels in an attempt to reconnect to the Access Point. This means ESPNow messages will be lost while scanning for the AP. This can be disabled by ``sta.config(reconnects=0)``, which will also disable the automatic reconnection after losing connection. - Some versions of the ESP IDF only permit sending ESPNow packets from the STA_IF interface to peers which have been registered on the same wifi channel as the STA_IF:: ESPNOW: Peer channel is not equal to the home channel, send fail! ESPNow and Sleep Modes ---------------------- The `machine.lightsleep([time_ms])` and `machine.deepsleep([time_ms])` functions can be used to put the ESP32 and peripherals (including the WiFi and Bluetooth radios) to sleep. This is useful in many applications to conserve battery power. However, applications must disable the WLAN peripheral (using `active(False)`) before entering light or deep sleep (see `Sleep Modes `_). Otherwise the WiFi radio may not be initialised properly after wake from sleep. If the ``STA_IF`` and ``AP_IF`` interfaces have both been set `active(True)` then both interfaces should be set `active(False)` before entering any sleep mode. **Example:** deep sleep:: import network, machine, espnow sta, ap = wifi_reset() # Reset wifi to AP off, STA on and disconnected peer = b'0\xaa\xaa\xaa\xaa\xaa' # MAC address of peer e = espnow.ESPNow() e.active(True) e.add_peer(peer) # Register peer on STA_IF print('Sending ping...') if not e.send(peer, b'ping'): print('Ping failed!') e.active(False) sta.active(False) # Disable the wifi before sleep print('Going to sleep...') machine.deepsleep(10000) # Sleep for 10 seconds then reboot **Example:** light sleep:: import network, machine, espnow sta, ap = wifi_reset() # Reset wifi to AP off, STA on and disconnected sta.config(channel=6) peer = b'0\xaa\xaa\xaa\xaa\xaa' # MAC address of peer e = espnow.ESPNow() e.active(True) e.add_peer(peer) # Register peer on STA_IF while True: print('Sending ping...') if not e.send(peer, b'ping'): print('Ping failed!') sta.active(False) # Disable the wifi before sleep print('Going to sleep...') machine.lightsleep(10000) # Sleep for 10 seconds sta.active(True) sta.config(channel=6) # Wifi loses config after lightsleep()