I have worked with several code examples from the Git and they all work - until after a few seconds when they crash with a memory error. However, the memory of the ESP32 does not seem to be full. As already described in this topic viewtopic.php?f=20&t=8844 it is probably related to the bluetooth stack. Unfortunately there was no solution for me there.
edit: It looks like it does not crash with time.sleep(2) but even with time.sleep(1) it crashes after 8-12s. Still, I manage to send 10-20 notifications with "high" frequencies like 20 ms.
Code: Select all
Traceback (most recent call last):
File "<stdin>", line 136, in <module>
File "<stdin>", line 131, in run_ESP32
File "<stdin>", line 102, in send
OSError: [Errno 12] ENOMEM
Code: Select all
import io, os
import machine
import bluetooth
import random
import time
from ble_advertising import advertising_payload
from micropython import const
# bluetooth magic settings
_IRQ_CENTRAL_CONNECT = const(1)
_IRQ_CENTRAL_DISCONNECT = const(2)
_IRQ_GATTS_WRITE = const(3)
_FLAG_READ = const(0x0002)
_FLAG_WRITE_NO_RESPONSE = const(0x0004)
_FLAG_WRITE = const(0x0008)
_FLAG_NOTIFY = const(0x0010)
_UART_UUID = bluetooth.UUID("00000000-0000-1000-8000-00805F9B34FB")
_UART_TX = (
bluetooth.UUID("00000002-0000-1000-8000-00805F9B34FB"),
_FLAG_READ | _FLAG_NOTIFY,
)
_UART_RX = (
bluetooth.UUID("00000001-0000-1000-8000-00805F9B34FB"),
_FLAG_WRITE | _FLAG_WRITE_NO_RESPONSE,
)
_UART_SERVICE = (
_UART_UUID,
(_UART_TX, _UART_RX),
)
class BLESimplePeripheral:
def __init__(self, ble, name="esp32"):
self._ble = ble
self._ble.active(True)
self._ble.irq(self._irq)
((self._handle_tx, self._handle_rx),) = self._ble.gatts_register_services((_UART_SERVICE,))
self._connections = set()
self._write_callback = None
self._payload = advertising_payload(name=name, services=[_UART_UUID])
self._advertise()
def _irq(self, event, data):
# Track connections so we can send notifications.
if event == _IRQ_CENTRAL_CONNECT:
conn_handle, _, _ = data
print("New connection", conn_handle)
self._connections.add(conn_handle)
elif event == _IRQ_CENTRAL_DISCONNECT:
conn_handle, _, _ = data
print("Disconnected", conn_handle)
self._connections.remove(conn_handle)
# Start advertising again to allow a new connection.
self._advertise()
elif event == _IRQ_GATTS_WRITE:
conn_handle, value_handle = data
value = self._ble.gatts_read(value_handle)
if value_handle == self._handle_rx and self._write_callback:
self._write_callback(value)
def send(self, data):
self._ble.gatts_set_buffer(self._handle_tx, 1000, False) # ??
self._ble.gatts_write(self._handle_tx, str.encode(data))
for conn_handle in self._connections:
self._ble.gatts_notify(conn_handle, self._handle_tx)
def is_connected(self):
return len(self._connections) > 0
def _advertise(self, interval_us=500000):
print("Starting advertising")
self._ble.gap_advertise(interval_us, adv_data=self._payload)
def on_write(self, callback):
self._write_callback = callback
def run_ESP32():
# to allow code cancellation in Thonny
time.sleep_ms(3000)
# initialize bluetooth hardware
ble = bluetooth.BLE()
p = BLESimplePeripheral(ble)
while True:
# synthetic measurement data
data = "hello world" # this also fails after some time
time.sleep(0.128)
# send data if connection is available
if p.is_connected():
p.send(data)
print(data)
if __name__ == "__main__":
while True:
run_ESP32()
Code: Select all
# Helpers for generating BLE advertising payloads.
from micropython import const
import struct
import bluetooth
# Advertising payloads are repeated packets of the following form:
# 1 byte data length (N + 1)
# 1 byte type (see constants below)
# N bytes type-specific data
_ADV_TYPE_FLAGS = const(0x01)
_ADV_TYPE_NAME = const(0x09)
_ADV_TYPE_UUID16_COMPLETE = const(0x3)
_ADV_TYPE_UUID32_COMPLETE = const(0x5)
_ADV_TYPE_UUID128_COMPLETE = const(0x7)
_ADV_TYPE_UUID16_MORE = const(0x2)
_ADV_TYPE_UUID32_MORE = const(0x4)
_ADV_TYPE_UUID128_MORE = const(0x6)
_ADV_TYPE_APPEARANCE = const(0x19)
# Generate a payload to be passed to gap_advertise(adv_data=...).
def advertising_payload(limited_disc=False, br_edr=False, name=None, services=None, appearance=0):
payload = bytearray()
def _append(adv_type, value):
nonlocal payload
payload += struct.pack("BB", len(value) + 1, adv_type) + value
_append(
_ADV_TYPE_FLAGS,
struct.pack("B", (0x01 if limited_disc else 0x02) + (0x18 if br_edr else 0x04)),
)
if name:
_append(_ADV_TYPE_NAME, name)
if services:
for uuid in services:
b = bytes(uuid)
if len(b) == 2:
_append(_ADV_TYPE_UUID16_COMPLETE, b)
elif len(b) == 4:
_append(_ADV_TYPE_UUID32_COMPLETE, b)
elif len(b) == 16:
_append(_ADV_TYPE_UUID128_COMPLETE, b)
# See org.bluetooth.characteristic.gap.appearance.xml
if appearance:
_append(_ADV_TYPE_APPEARANCE, struct.pack("<h", appearance))
return payload
def decode_field(payload, adv_type):
i = 0
result = []
while i + 1 < len(payload):
if payload[i + 1] == adv_type:
result.append(payload[i + 2 : i + payload[i] + 1])
i += 1 + payload[i]
return result
def decode_name(payload):
n = decode_field(payload, _ADV_TYPE_NAME)
return str(n[0], "utf-8") if n else ""
def decode_services(payload):
services = []
for u in decode_field(payload, _ADV_TYPE_UUID16_COMPLETE):
services.append(bluetooth.UUID(struct.unpack("<h", u)[0]))
for u in decode_field(payload, _ADV_TYPE_UUID32_COMPLETE):
services.append(bluetooth.UUID(struct.unpack("<d", u)[0]))
for u in decode_field(payload, _ADV_TYPE_UUID128_COMPLETE):
services.append(bluetooth.UUID(u))
return services
def demo():
payload = advertising_payload(
name="micropython",
services=[bluetooth.UUID(0x181A), bluetooth.UUID("6E400001-B5A3-F393-E0A9-E50E24DCCA9E")],
)
print(payload)
print(decode_name(payload))
print(decode_services(payload))
if __name__ == "__main__":
demo()