937 lines
34 KiB
ReStructuredText
937 lines
34 KiB
ReStructuredText
:mod:`espnow` --- support for the ESP-NOW wireless protocol
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===========================================================
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.. module:: espnow
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:synopsis: ESP-NOW wireless protocol support
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This module provides an interface to the `ESP-NOW <https://www.espressif.com/
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en/products/software/esp-now/overview>`_ protocol provided by Espressif on
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ESP32 and ESP8266 devices (`API docs <https://docs.espressif.com/
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projects/esp-idf/en/latest/api-reference/network/esp_now.html>`_).
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Table of Contents:
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------------------
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- `Introduction`_
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- `Configuration`_
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- `Sending and Receiving Data`_
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- `Peer Management`_
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- `Callback Methods`_
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- `Exceptions`_
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- `Constants`_
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- `Wifi Signal Strength (RSSI) - (ESP32 Only)`_
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- `Supporting asyncio`_
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- `Broadcast and Multicast`_
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- `ESPNow and Wifi Operation`_
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- `ESPNow and Sleep Modes`_
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Introduction
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------------
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ESP-NOW is a connection-less wireless communication protocol supporting:
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- Direct communication between up to 20 registered peers:
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- Without the need for a wireless access point (AP),
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- Encrypted and unencrypted communication (up to 6 encrypted peers),
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- Message sizes up to 250 bytes,
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- Can operate alongside Wifi operation (:doc:`network.WLAN<network.WLAN>`) on
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ESP32 and ESP8266 devices.
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It is especially useful for small IoT networks, latency sensitive or power
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sensitive applications (such as battery operated devices) and for long-range
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communication between devices (hundreds of metres).
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This module also supports tracking the Wifi signal strength (RSSI) of peer
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devices.
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A simple example would be:
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**Sender:** ::
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import network
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import espnow
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# A WLAN interface must be active to send()/recv()
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sta = network.WLAN(network.STA_IF) # Or network.AP_IF
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sta.active(True)
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sta.disconnect() # For ESP8266
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e = espnow.ESPNow()
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e.active(True)
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peer = b'\xbb\xbb\xbb\xbb\xbb\xbb' # MAC address of peer's wifi interface
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e.add_peer(peer) # Must add_peer() before send()
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e.send(peer, "Starting...")
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for i in range(100):
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e.send(peer, str(i)*20, True)
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e.send(peer, b'end')
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**Receiver:** ::
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import network
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import espnow
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# A WLAN interface must be active to send()/recv()
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sta = network.WLAN(network.STA_IF)
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sta.active(True)
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sta.disconnect() # Because ESP8266 auto-connects to last Access Point
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e = espnow.ESPNow()
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e.active(True)
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while True:
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host, msg = e.recv()
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if msg: # msg == None if timeout in recv()
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print(host, msg)
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if msg == b'end':
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break
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class ESPNow
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------------
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Constructor
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-----------
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.. class:: ESPNow()
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Returns the singleton ESPNow object. As this is a singleton, all calls to
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`espnow.ESPNow()` return a reference to the same object.
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.. note::
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Some methods are available only on the ESP32 due to code size
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restrictions on the ESP8266 and differences in the Espressif API.
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Configuration
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-------------
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.. method:: ESPNow.active([flag])
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Initialise or de-initialise the ESP-NOW communication protocol depending on
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the value of the ``flag`` optional argument.
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.. data:: Arguments:
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- *flag*: Any python value which can be converted to a boolean type.
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- ``True``: Prepare the software and hardware for use of the ESP-NOW
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communication protocol, including:
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- initialise the ESPNow data structures,
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- allocate the recv data buffer,
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- invoke esp_now_init() and
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- register the send and recv callbacks.
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- ``False``: De-initialise the Espressif ESP-NOW software stack
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(esp_now_deinit()), disable callbacks, deallocate the recv
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data buffer and deregister all peers.
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If *flag* is not provided, return the current status of the ESPNow
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interface.
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.. data:: Returns:
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``True`` if interface is currently *active*, else ``False``.
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.. method:: ESPNow.config(param=value, ...)
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ESPNow.config('param') (ESP32 only)
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Set or get configuration values of the ESPNow interface. To set values, use
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the keyword syntax, and one or more parameters can be set at a time. To get
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a value the parameter name should be quoted as a string, and just one
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parameter is queried at a time.
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**Note:** *Getting* parameters is not supported on the ESP8266.
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.. data:: Options:
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*rxbuf*: (default=526) Get/set the size in bytes of the internal
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buffer used to store incoming ESPNow packet data. The default size is
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selected to fit two max-sized ESPNow packets (250 bytes) with associated
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mac_address (6 bytes), a message byte count (1 byte) and RSSI data plus
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buffer overhead. Increase this if you expect to receive a lot of large
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packets or expect bursty incoming traffic.
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**Note:** The recv buffer is allocated by `ESPNow.active()`. Changing
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this value will have no effect until the next call of
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`ESPNow.active(True)<ESPNow.active()>`.
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*timeout_ms*: (default=300,000) Default timeout (in milliseconds)
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for receiving ESPNow messages. If *timeout_ms* is less than zero, then
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wait forever. The timeout can also be provided as arg to
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`recv()`/`irecv()`/`recvinto()`.
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*rate*: (ESP32 only, IDF>=4.3.0 only) Set the transmission speed for
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ESPNow packets. Must be set to a number from the allowed numeric values
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in `enum wifi_phy_rate_t
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<https://docs.espressif.com/projects/esp-idf/en/v4.4.1/esp32/
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api-reference/network/esp_wifi.html#_CPPv415wifi_phy_rate_t>`_.
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.. data:: Returns:
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``None`` or the value of the parameter being queried.
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.. data:: Raises:
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised.
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- ``ValueError()`` on invalid configuration options or values.
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Sending and Receiving Data
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--------------------------
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A wifi interface (``network.STA_IF`` or ``network.AP_IF``) must be
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`active()<network.WLAN.active>` before messages can be sent or received,
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but it is not necessary to connect or configure the WLAN interface.
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For example::
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import network
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sta = network.WLAN(network.STA_IF)
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sta.active(True)
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sta.disconnect() # For ESP8266
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**Note:** The ESP8266 has a *feature* that causes it to automatically reconnect
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to the last wifi Access Point when set `active(True)<network.WLAN.active>` (even
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after reboot/reset). This reduces the reliability of receiving ESP-NOW messages
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(see `ESPNow and Wifi Operation`_). You can avoid this by calling
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`disconnect()<network.WLAN.disconnect>` after
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`active(True)<network.WLAN.active>`.
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.. method:: ESPNow.send(mac, msg[, sync])
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ESPNow.send(msg) (ESP32 only)
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Send the data contained in ``msg`` to the peer with given network ``mac``
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address. In the second form, ``mac=None`` and ``sync=True``. The peer must
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be registered with `ESPNow.add_peer()<ESPNow.add_peer()>` before the
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message can be sent.
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.. data:: Arguments:
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- *mac*: byte string exactly ``espnow.ADDR_LEN`` (6 bytes) long or
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``None``. If *mac* is ``None`` (ESP32 only) the message will be sent
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to all registered peers, except any broadcast or multicast MAC
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addresses.
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- *msg*: string or byte-string up to ``espnow.MAX_DATA_LEN`` (250)
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bytes long.
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- *sync*:
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- ``True``: (default) send ``msg`` to the peer(s) and wait for a
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response (or not).
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- ``False`` send ``msg`` and return immediately. Responses from the
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peers will be discarded.
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.. data:: Returns:
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``True`` if ``sync=False`` or if ``sync=True`` and *all* peers respond,
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else ``False``.
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.. data:: Raises:
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised.
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_FOUND")`` if peer is not registered.
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- ``OSError(num, "ESP_ERR_ESPNOW_IF")`` the wifi interface is not
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`active()<network.WLAN.active>`.
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- ``OSError(num, "ESP_ERR_ESPNOW_NO_MEM")`` internal ESP-NOW buffers are
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full.
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- ``ValueError()`` on invalid values for the parameters.
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**Note**: A peer will respond with success if its wifi interface is
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`active()<network.WLAN.active>` and set to the same channel as the sender,
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regardless of whether it has initialised it's ESP-NOW system or is
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actively listening for ESP-NOW traffic (see the Espressif ESP-NOW docs).
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.. method:: ESPNow.recv([timeout_ms])
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Wait for an incoming message and return the ``mac`` address of the peer and
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the message. **Note**: It is **not** necessary to register a peer (using
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`add_peer()<ESPNow.add_peer()>`) to receive a message from that peer.
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.. data:: Arguments:
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- *timeout_ms*: (Optional): May have the following values.
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- ``0``: No timeout. Return immediately if no data is available;
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- ``> 0``: Specify a timeout value in milliseconds;
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- ``< 0``: Do not timeout, ie. wait forever for new messages; or
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- ``None`` (or not provided): Use the default timeout value set with
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`ESPNow.config()`.
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.. data:: Returns:
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- ``(None, None)`` if timeout is reached before a message is received, or
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- ``[mac, msg]``: where:
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- ``mac`` is a bytestring containing the address of the device which
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sent the message, and
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- ``msg`` is a bytestring containing the message.
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.. data:: Raises:
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised.
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- ``OSError(num, "ESP_ERR_ESPNOW_IF")`` if the wifi interface is not
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`active()<network.WLAN.active>`.
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- ``ValueError()`` on invalid *timeout_ms* values.
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`ESPNow.recv()` will allocate new storage for the returned list and the
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``peer`` and ``msg`` bytestrings. This can lead to memory fragmentation if
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the data rate is high. See `ESPNow.irecv()` for a memory-friendly
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alternative.
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.. method:: ESPNow.irecv([timeout_ms])
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Works like `ESPNow.recv()` but will reuse internal bytearrays to store the
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return values: ``[mac, msg]``, so that no new memory is allocated on each
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call.
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.. data:: Arguments:
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*timeout_ms*: (Optional) Timeout in milliseconds (see `ESPNow.recv()`).
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.. data:: Returns:
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- As for `ESPNow.recv()`, except that ``msg`` is a bytearray, instead of
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a bytestring. On the ESP8266, ``mac`` will also be a bytearray.
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.. data:: Raises:
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- See `ESPNow.recv()`.
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**Note:** You may also read messages by iterating over the ESPNow object,
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which will use the `irecv()` method for alloc-free reads, eg: ::
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import espnow
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e = espnow.ESPNow(); e.active(True)
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for mac, msg in e:
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print(mac, msg)
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if mac is None: # mac, msg will equal (None, None) on timeout
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break
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.. method:: ESPNow.recvinto(data[, timeout_ms])
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Wait for an incoming message and return the length of the message in bytes.
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This is the low-level method used by both `recv()<ESPNow.recv()>` and
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`irecv()` to read messages.
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.. data:: Arguments:
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*data*: A list of at least two elements, ``[peer, msg]``. ``msg`` must
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be a bytearray large enough to hold the message (250 bytes). On the
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ESP8266, ``peer`` should be a bytearray of 6 bytes. The MAC address of
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the sender and the message will be stored in these bytearrays (see Note
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on ESP32 below).
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*timeout_ms*: (Optional) Timeout in milliseconds (see `ESPNow.recv()`).
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.. data:: Returns:
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- Length of message in bytes or 0 if *timeout_ms* is reached before a
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message is received.
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.. data:: Raises:
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- See `ESPNow.recv()`.
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**Note:** On the ESP32:
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- It is unnecessary to provide a bytearray in the first element of the
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``data`` list because it will be replaced by a reference to a unique
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``peer`` address in the **peer device table** (see `ESPNow.peers_table`).
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- If the list is at least 4 elements long, the rssi and timestamp values
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will be saved as the 3rd and 4th elements.
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.. method:: ESPNow.any()
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Check if data is available to be read with `ESPNow.recv()`.
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For more sophisticated querying of available characters use `select.poll()`::
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import select
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import espnow
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e = espnow.ESPNow()
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poll = select.poll()
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poll.register(e, select.POLLIN)
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poll.poll(timeout)
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.. data:: Returns:
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``True`` if data is available to be read, else ``False``.
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.. method:: ESPNow.stats() (ESP32 only)
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.. data:: Returns:
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A 5-tuple containing the number of packets sent/received/lost:
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``(tx_pkts, tx_responses, tx_failures, rx_packets, rx_dropped_packets)``
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Incoming packets are *dropped* when the recv buffers are full. To reduce
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packet loss, increase the ``rxbuf`` config parameters and ensure you are
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reading messages as quickly as possible.
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**Note**: Dropped packets will still be acknowledged to the sender as
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received.
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Peer Management
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---------------
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On ESP32 devices, the Espressif ESP-NOW software requires that other devices
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(peers) must be *registered* using `add_peer()` before we can
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`send()<ESPNow.send()>` them messages (this is *not* enforced on ESP8266
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devices). It is **not** necessary to register a peer to receive an
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un-encrypted message from that peer.
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**Encrypted messages**: To receive an *encrypted* message, the receiving device
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must first register the sender and use the same encryption keys as the sender
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(PMK and LMK) (see `set_pmk()` and `add_peer()`.
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.. method:: ESPNow.set_pmk(pmk)
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Set the Primary Master Key (PMK) which is used to encrypt the Local Master
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Keys (LMK) for encrypting messages. If this is not set, a default PMK is
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used by the underlying Espressif ESP-NOW software stack.
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**Note:** messages will only be encrypted if *lmk* is also set in
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`ESPNow.add_peer()` (see `Security
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<https://docs.espressif.com/projects/esp-idf/en/latest/
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esp32/api-reference/network/esp_now.html#security>`_ in the Espressif API
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docs).
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.. data:: Arguments:
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*pmk*: Must be a byte string, bytearray or string of length
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`espnow.KEY_LEN` (16 bytes).
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.. data:: Returns:
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``None``
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.. data:: Raises:
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``ValueError()`` on invalid *pmk* values.
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.. method:: ESPNow.add_peer(mac, [lmk], [channel], [ifidx], [encrypt])
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ESPNow.add_peer(mac, param=value, ...) (ESP32 only)
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Add/register the provided *mac* address as a peer. Additional parameters may
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also be specified as positional or keyword arguments (any parameter set to
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``None`` will be set to it's default value):
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.. data:: Arguments:
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- *mac*: The MAC address of the peer (as a 6-byte byte-string).
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- *lmk*: The Local Master Key (LMK) key used to encrypt data
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transfers with this peer (unless the *encrypt* parameter is set to
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``False``). Must be:
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- a byte-string or bytearray or string of length ``espnow.KEY_LEN``
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(16 bytes), or
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- any non ``True`` python value (default= ``b''``), signifying an
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*empty* key which will disable encryption.
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- *channel*: The wifi channel (2.4GHz) to communicate with this peer.
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Must be an integer from 0 to 14. If channel is set to 0 the current
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channel of the wifi device will be used. (default=0)
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- *ifidx*: (ESP32 only) Index of the wifi interface which will be
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used to send data to this peer. Must be an integer set to
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``network.STA_IF`` (=0) or ``network.AP_IF`` (=1).
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(default=0/``network.STA_IF``). See `ESPNow and Wifi Operation`_
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below for more information.
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- *encrypt*: (ESP32 only) If set to ``True`` data exchanged with
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this peer will be encrypted with the PMK and LMK. (default =
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``True`` if *lmk* is set to a valid key, else ``False``)
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**ESP8266**: Keyword args may not be used on the ESP8266.
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**Note:** The maximum number of peers which may be registered is 20
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(`espnow.MAX_TOTAL_PEER_NUM`), with a maximum of 6
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(`espnow.MAX_ENCRYPT_PEER_NUM`) of those peers with encryption enabled
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(see `ESP_NOW_MAX_ENCRYPT_PEER_NUM <https://docs.espressif.com/
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projects/esp-idf/en/latest/esp32/api-reference/network/
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esp_now.html#c.ESP_NOW_MAX_ENCRYPT_PEER_NUM>`_ in the Espressif API
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docs).
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.. data:: Raises:
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised.
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- ``OSError(num, "ESP_ERR_ESPNOW_EXIST")`` if *mac* is already
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registered.
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- ``OSError(num, "ESP_ERR_ESPNOW_FULL")`` if too many peers are
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already registered.
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- ``ValueError()`` on invalid keyword args or values.
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.. method:: ESPNow.del_peer(mac)
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Deregister the peer associated with the provided *mac* address.
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.. data:: Returns:
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``None``
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.. data:: Raises:
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised.
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_FOUND")`` if *mac* is not
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registered.
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- ``ValueError()`` on invalid *mac* values.
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.. method:: ESPNow.get_peer(mac) (ESP32 only)
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Return information on a registered peer.
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.. data:: Returns:
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``(mac, lmk, channel, ifidx, encrypt)``: a tuple of the "peer
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info" associated with the given *mac* address.
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.. data:: Raises:
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_INIT")`` if not initialised.
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- ``OSError(num, "ESP_ERR_ESPNOW_NOT_FOUND")`` if *mac* is not
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registered.
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- ``ValueError()`` on invalid *mac* values.
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.. 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()<ESPNow.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()<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
|
|
<https://docs.espressif.com/projects/esp-idf/en/latest/
|
|
api-reference/network/esp_now.html#api-reference>`_. 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<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<espnow.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()<ESPNow.send()>` a broadcast message, the broadcast (or
|
|
multicast) MAC address must first be registered using
|
|
`add_peer()<ESPNow.add_peer()>`. `send()<ESPNow.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)<ESPNow.send()>` 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()<network.WLAN.active>`
|
|
`WLAN<network.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 <https://docs.espressif.com/
|
|
projects/esp-idf/en/latest/esp32/api-guides/
|
|
wifi.html#esp32-wi-fi-power-saving-mode>`_) 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
|
|
<https://docs.espressif.com/
|
|
projects/esp-idf/en/latest/esp32/api-reference/network/esp_wifi.html
|
|
#_CPPv419esp_wifi_set_config16wifi_interface_tP13wifi_config_t>`_
|
|
). 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])<machine.lightsleep>` and
|
|
`machine.deepsleep([time_ms])<machine.deepsleep>` 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)<network.WLAN.active>`) before entering light or deep sleep (see
|
|
`Sleep Modes <https://docs.espressif.com/
|
|
projects/esp-idf/en/latest/esp32/api-reference/system/sleep_modes.html>`_).
|
|
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)<network.WLAN.active()>` then both interfaces should be set
|
|
`active(False)<network.WLAN.active()>` 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()
|
|
|