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base: technicalkiwi:822bbc40e634464d31d7cd3ab2dcbc8cfae71616
Branches Tags
technicalkiwi:main technicalkiwi:espnow technicalkiwi:patterns technicalkiwi:dev technicalkiwi:patterns-async
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compare: technicalkiwi:patterns-async
Branches Tags
technicalkiwi:espnow technicalkiwi:patterns technicalkiwi:dev technicalkiwi:patterns-async technicalkiwi:main

54 Commits
822bbc40e6 ... patterns-a

Author SHA1 Message Date
jimmy
e83f0d607c Switch to async patterns 2025-08-28 22:55:10 +12:00
jimmy
d2826a0f63 Swtich to names isntead of ids 2025-07-12 10:22:17 +12:00
jimmy
87fc74bb51 Add flicker pattern 2025-07-12 10:21:43 +12:00
jimmy
03f3f02da8 Remove wifi client 2025-06-19 19:13:13 +12:00
jimmy
524db5e979 Move espnow to seperate file 2025-06-19 19:05:08 +12:00
jimmy
279416cded Add set_pattern_step 2025-06-19 19:03:22 +12:00
jimmy
fbd14f2e16 If no ids run set_settings 2025-06-12 21:32:24 +12:00
jimmy
1989f6f5c9 Switch to list for colors 2025-06-12 21:29:31 +12:00
jimmy
a19b1e86f2 Have to save when using espnow 2025-06-08 13:18:28 +12:00
jimmy
c63e907204 espnow if id is 0 call set_settings 2025-06-04 21:07:15 +12:00
jimmy
b7920e224f Add color order 2025-06-04 21:02:55 +12:00
jimmy
42e92dafc8 Add led pin setting 2025-06-04 20:03:51 +12:00
jimmy
0b6eb9724f Add device ID 2025-06-04 19:54:06 +12:00
jimmy
55ef5c1580 Move json load out of set_settings 2025-06-04 19:22:09 +12:00
jimmy
c15f9787a7 Sync after going through all the keys 2025-06-02 00:32:43 +12:00
jimmy
3d0078f118 Update leds straight away after a sync 2025-06-02 00:18:25 +12:00
jimmy
9e72dba035 Check all keys before returning 2025-06-02 00:16:58 +12:00
jimmy
3d7dd754eb Wifi and ESPNOW don't work at the same time 2025-06-02 00:15:31 +12:00
jimmy
2dd20fa51b Enable garabage collection 2025-05-28 21:19:56 +12:00
jimmy
d33bd6b0e4 Enable watchdog timer 2025-05-28 21:17:23 +12:00
jimmy
8902adf18c Fix color transition 2025-05-24 13:09:28 +12:00
jimmy
9abd425f46 Add wifi 2025-05-22 22:02:49 +12:00
jimmy
ee28b5805d Change title and h1 to "name" 2025-05-22 22:02:29 +12:00
jimmy
ec29dbdd01 Add color order 2025-05-19 22:00:35 +12:00
jimmy
3fa9377438 Add set_settings to Settings class 2025-05-19 21:59:43 +12:00
jimmy
ec049b52c0 Only check wifi settings if not connected 2025-05-19 19:35:29 +12:00
jimmy
a009ea85bc Add wifi settings 2025-05-19 19:32:53 +12:00
jimmy
bd2e6e56cf Check if ssid, password, ip and gateway are "" 2025-05-19 19:31:30 +12:00
jimmy
37c7280a15 Get ap password from settings 2025-05-19 19:28:11 +12:00
jimmy
2f10d4cabd Fix rgb order 2025-05-19 19:24:17 +12:00
jimmy
385dcffe68 Add led pin in settings 2025-05-19 19:22:38 +12:00
jimmy
fa0578349b Delete index_html.py 2025-05-18 21:28:44 +12:00
jimmy
4a36ff0da0 Update main.py 2025-05-18 21:28:41 +12:00
jimmy
bd4046572c Update main.css 2025-05-18 21:28:38 +12:00
jimmy
fdd299b063 Update main.js 2025-05-18 21:28:34 +12:00
jimmy
a44ef2d0ad Update index.html 2025-05-18 21:28:29 +12:00
jimmy
2d1208e223 Update web.py 2025-05-18 21:28:21 +12:00
jimmy
67279a8f46 Update wifi.py 2025-05-18 21:28:14 +12:00
jimmy
a52ac3df99 Update Pipfile.lock 2025-05-18 21:27:58 +12:00
jimmy
c4356cf354 Switch to web socket 2025-05-18 21:26:33 +12:00
jimmy
0c219e0697 Add websocket settings endpoint 2025-05-12 22:22:05 +12:00
jimmy
cee8c20176 Always sync 2025-05-12 22:21:11 +12:00
jimmy
135f6b06f8 Ignore .venv 2025-05-07 19:46:28 +12:00
jimmy
0aa3803f20 Add espnow 2025-04-21 21:52:20 +12:00
jimmy
ed3351a20b Have single json endpoint 2025-04-21 21:51:55 +12:00
jimmy
c8bcb85062 Add mac. Remove wifi settings 2025-04-21 21:51:15 +12:00
jimmy
17d33d98e2 Send to a single json endpoint 2025-04-21 21:50:27 +12:00
jimmy
afaf4c02e4 Change and and defaults 
Add set_settings
 2025-04-21 21:49:51 +12:00
jimmy
e1e472b2e4 Remove wifi connect 2025-04-21 21:48:36 +12:00
Jimmy
2f6704a346 Add screenshots 2025-02-06 22:45:58 +13:00
Jimmy
60dddafc04 Add wifi ap connection info 2025-02-06 22:45:29 +13:00
Jimmy
db94530f29 Change to PORTNAME 2025-02-06 22:39:10 +13:00
Jimmy
31081d98ee Add micropython install instructions 2025-02-06 22:36:29 +13:00
Jimmy
b681ff02d8 Add esptool 2025-02-06 22:36:03 +13:00
17 changed files with 1125 additions and 751 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@@ -1 +1,2 @@
settings.json
.venv

1
Pipfile
View File

@@ -6,6 +6,7 @@ name = "pypi"
[packages]
mpremote = "*"
pyserial = "*"
esptool = "*"
[dev-packages]

376
Pipfile.lock generated
View File

@@ -1,7 +1,7 @@
{
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},
"pipfile-spec": 6,
"requires": {
@@ -16,15 +16,313 @@
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},
"default": {
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"sha256:d84a1718ee396f54f3a086ea0a66d8e552b2ab2017ef8b420e92edbc841c352d",
"sha256:d8e03406cac8513435335dbab54c0d385e4a49e4945d2909a581c83647ca0290",
"sha256:e10ce637b18caea04431ce14fabcf5c64a1c61ec9c56b071a4b7ca131ca52d44",
"sha256:ec031d5d2feb36d1d1a24380e4db6d43695f3748343d99434e6f5f9156aaa2ed",
"sha256:ef6107725bd54b262d6dedcc2af448a266975032bc85ef0172c5f059da6325b4",
"sha256:efdca5630322a10774e8e98e1af481aad470dd62c3170801852d752aa7a783ba",
"sha256:f753120cb8181e736c57ef7636e83f31b9c0d1722c516f7e86cf15b7aa57ff12",
"sha256:ff3824dc5261f50c9b0dfb3be22b4567a6f938ccce4587b38952d85fd9e9afe4"
],
"markers": "python_version >= '3.8'",
"version": "==6.0.2"
},
"reedsolo": {
"hashes": [
"sha256:2b6a3e402a1ee3e1eea3f932f81e6c0b7bbc615588074dca1dbbcdeb055002bd",
"sha256:c1359f02742751afe0f1c0de9f0772cc113835aa2855d2db420ea24393c87732"
],
"version": "==1.7.0"
},
"six": {
"hashes": [
"sha256:4721f391ed90541fddacab5acf947aa0d3dc7d27b2e1e8eda2be8970586c3274",
"sha256:ff70335d468e7eb6ec65b95b99d3a2836546063f63acc5171de367e834932a81"
],
"markers": "python_version >= '2.7' and python_version not in '3.0, 3.1, 3.2, 3.3'",
"version": "==1.17.0"
}
},
"develop": {}

23
README.md
View File

@@ -8,14 +8,31 @@ https://pipenv.pypa.io/en/latest/installation.html
```pipenv sync ```
## Install Micropython
https://micropython.org/resources/firmware/ESP32_GENERIC_C3-20241129-v1.24.1.bin
```
pipenv run esptool.py --port PORTNAME erase_flash
pipenv run esptool.py --port PORTNAME --baud 460800 write_flash 0 ESP32_GENERIC_C3-20241129-v1.24.1.bin
```
## Upload libraries and src
```pipenv run ./dev.py <PORT> lib src```
```pipenv run ./dev.py PORTNAME lib src```
## Upload src, reset and follow
```pipenv run ./dev.py <PORT> src reset follow```
```pipenv run ./dev.py PORTNAME src reset follow```
## Connect
Connect to wifi nextwork called led-xxxxxx...
http://192.168.4.1/
![alt text](screenshots/controls.png)
![alt text](screenshots/settings.png)

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20
src/boot.py
View File

@@ -1,19 +1,9 @@
import settings
import wifi
import time
from settings import Settings
print(wifi.ap('qwerty'))
s = Settings()
settings = Settings()
ssid = settings.get('wifi', {}).get('ssid', None)
password = settings.get('wifi', {}).get('password', None)
ip = settings.get('wifi', {}).get('ip', None)
gateway = settings.get('wifi', {}).get('gateway', None)
for i in range(10):
config = wifi.connect(ssid, password, ip, gateway)
if config:
print(config)
break
time.sleep(0.1)
name = s.get('name', 'led')
password = s.get("ap_password", "")
wifi.ap(name, password)

35
src/main.py
View File

@@ -1,24 +1,24 @@
import asyncio
import aioespnow
from settings import Settings
from web import web
from patterns import Patterns
import gc
import utime
import machine
import ntptime
import time
import wifi
import json
from p2p import p2p
async def main():
settings = Settings()
patterns = Patterns(4, settings["num_leds"], selected=settings["selected_pattern"])
patterns.set_color1(tuple(int(settings["color1"][i:i+2], 16) for i in (1, 5, 3)))
patterns.set_color2(tuple(int(settings["color2"][i:i+2], 16) for i in (1, 5, 3)))
patterns = Patterns(settings["led_pin"], settings["num_leds"], selected=settings["pattern"])
if settings["color_order"] == "rbg": color_order = (1, 5, 3)
else: color_order = (1, 3, 5)
patterns.set_color(0,(tuple(int(settings["color1"][i:i+2], 16) for i in color_order)))
patterns.set_color(1,(tuple(int(settings["color2"][i:i+2], 16) for i in color_order)))
patterns.set_brightness(int(settings["brightness"]))
patterns.set_delay(int(settings["delay"]))
@@ -30,26 +30,17 @@ async def main():
wdt = machine.WDT(timeout=10000)
wdt.feed()
async def tick():
while True:
patterns.tick()
await asyncio.sleep_ms(1)
asyncio.create_task(tick())
first = True
asyncio.create_task(p2p(settings, patterns))
while True:
#print(time.localtime())
# gc.collect()
for i in range(60):
gc.collect()
for i in range(20):
wdt.feed()
await asyncio.sleep_ms(500)
await asyncio.sleep_ms(1000)
# cleanup before ending the application
await server
asyncio.run(main())

20
src/p2p.py Normal file
View File

@@ -0,0 +1,20 @@
import asyncio
import aioespnow
import json
async def p2p(settings, patterns):
e = aioespnow.AIOESPNow() # Returns AIOESPNow enhanced with async support
e.active(True)
async for mac, msg in e:
try:
data = json.loads(msg)
except:
print(f"Failed to load espnow data {msg}")
continue
print(data)
if "names" not in data or settings.get("name") in data.get("names", []):
if "step" in settings and isinstance(settings["step"], int):
patterns.set_pattern_step(settings["step"])
else:
await settings.set_settings(data.get("settings", {}), patterns, data.get("save", False))
print("should not print")

359
src/patterns.py
View File

@@ -1,4 +1,5 @@
from machine import Pin
import asyncio
from machine import Pin, WDT
from neopixel import NeoPixel
import utime
import random
@@ -7,37 +8,24 @@ class Patterns:
def __init__(self, pin, num_leds, color1=(0,0,0), color2=(0,0,0), brightness=127, selected="rainbow_cycle", delay=100):
self.n = NeoPixel(Pin(pin, Pin.OUT), num_leds)
self.num_leds = num_leds
self.pattern_step = 0
self.last_update = utime.ticks_ms()
self.delay = delay
self.brightness = brightness
self.patterns = {
"off": self.off,
"on" : self.on,
"color_wipe": self.color_wipe_step,
"rainbow_cycle": self.rainbow_cycle_step,
"theater_chase": self.theater_chase_step,
"blink": self.blink_step,
"random_color_wipe": self.random_color_wipe_step,
"random_rainbow_cycle": self.random_rainbow_cycle_step,
"random_theater_chase": self.random_theater_chase_step,
"random_blink": self.random_blink_step,
"color_transition": self.color_transition_step,
"external": None
"blink": self.blink,
"rainbow": self.rainbow,
"theater chase": self.theater_chase,
"flicker": self.flicker # Added flicker pattern
}
self.selected = selected
self.color1 = color1
self.color2 = color2
self.transition_duration = 50 # Duration of color transition in milliseconds
self.transition_step = 0
def sync(self):
# Ensure colors list always starts with at least two for robust transition handling
self.colors = [color1, color2] if color1 != color2 else [color1, (255, 255, 255)] # Fallback if initial colors are same
if not self.colors: # Ensure at least one color exists
self.colors = [(0, 0, 0)]
self.task = None
self.pattern_step = 0
self.last_update = utime.ticks_ms()
def tick(self):
if self.patterns[self.selected]:
self.patterns[self.selected]()
def update_num_leds(self, pin, num_leds):
self.n = NeoPixel(Pin(pin, Pin.OUT), num_leds)
@@ -50,63 +38,61 @@ class Patterns:
def set_brightness(self, brightness):
self.brightness = brightness
def set_color1(self, color):
print(color)
self.color1 = self.apply_brightness(color)
def set_colors(self, colors):
self.colors = colors
def set_color2(self, color):
self.color2 = self.apply_brightness(color)
def apply_brightness(self, color):
return tuple(int(c * self.brightness / 255) for c in color)
def select(self, pattern):
if pattern in self.patterns:
self.selected = pattern
def set_color(self, num, color):
# Changed: More robust index check
if 0 <= num < len(self.colors):
self.colors[num] = color
return True
elif num == len(self.colors): # Allow setting a new color at the end
self.colors.append(color)
return True
return False
def del_color(self, num):
# Changed: More robust index check and using del for lists
if 0 <= num < len(self.colors):
del self.colors[num]
return True
return False
def apply_brightness(self, color, brightness_override=None):
effective_brightness = brightness_override if brightness_override is not None else self.brightness
return tuple(int(c * effective_brightness / 255) for c in color)
async def select(self, pattern, reset = True):
if pattern not in self.patterns:
return False
self.selected = pattern
if self.task is not None:
self.task.cancel()
if reset: self.pattern_step = 0
print(pattern)
self.task = asyncio.create_task(self.patterns[pattern]())
return True
def set(self, i, color):
self.n[i] = color
def write(self):
self.n.write()
def fill(self):
for i in range(self.num_leds):
self.n[i] = self.color1
def fill(self, color):
self.n.fill(color)
self.n.write()
def off(self):
color = self.color1
self.color1 = (0,0,0)
self.fill()
self.color1 = color
async def off(self):
self.fill((0, 0, 0))
def on(self):
color = self.color1
self.color1 = self.apply_brightness(self.color1)
self.fill()
self.color1 = color
async def on(self):
self.fill(self.apply_brightness(self.colors[0]))
def color_wipe_step(self):
color = self.apply_brightness(self.color1)
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
if self.pattern_step < self.num_leds:
for i in range(self.num_leds):
self.n[i] = (0, 0, 0)
self.n[self.pattern_step] = self.apply_brightness(color)
self.n.write()
self.pattern_step += 1
else:
def sync(self):
self.pattern_step = 0
self.last_update = current_time
def rainbow_cycle_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay/5:
async def rainbow(self):
def wheel(pos):
if pos < 85:
return (pos * 3, 255 - pos * 3, 0)
@@ -116,176 +102,121 @@ class Patterns:
else:
pos -= 170
return (0, pos * 3, 255 - pos * 3)
last_update = utime.ticks_ms()
while True:
if utime.ticks_diff(utime.ticks_ms(), last_update) >= self.delay:
for i in range(self.num_leds):
rc_index = (i * 256 // self.num_leds) + self.pattern_step
self.n[i] = self.apply_brightness(wheel(rc_index & 255))
self.n.write()
self.pattern_step = (self.pattern_step + 1) % 256
self.last_update = current_time
last_update += self.delay
await asyncio.sleep(0)
def theater_chase_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
async def theater_chase(self):
last_update = utime.ticks_ms()
while True:
if utime.ticks_diff(utime.ticks_ms(), last_update) >= self.delay:
for i in range(self.num_leds):
if (i + self.pattern_step) % 3 == 0:
self.n[i] = self.apply_brightness(self.color1)
self.n[i] = self.apply_brightness(self.colors[0])
else:
self.n[i] = (0, 0, 0)
self.n.write()
self.pattern_step = (self.pattern_step + 1) % 3
self.last_update = current_time
last_update += self.delay
await asyncio.sleep(0)
def blink_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
if self.pattern_step % 2 == 0:
for i in range(self.num_leds):
self.n[i] = self.apply_brightness(self.color1)
else:
for i in range(self.num_leds):
self.n[i] = (0, 0, 0)
self.n.write()
self.pattern_step = (self.pattern_step + 1) % 2
self.last_update = current_time
def random_color_wipe_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
color = (random.randint(0, 255), random.randint(0, 255), random.randint(0, 255))
if self.pattern_step < self.num_leds:
for i in range(self.num_leds):
self.n[i] = (0, 0, 0)
self.n[self.pattern_step] = self.apply_brightness(color)
self.n.write()
self.pattern_step += 1
else:
async def blink(self):
last_update = utime.ticks_ms()
self.pattern_step = 0
self.last_update = current_time
def random_rainbow_cycle_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
def wheel(pos):
if pos < 85:
return (pos * 3, 255 - pos * 3, 0)
elif pos < 170:
pos -= 85
return (255 - pos * 3, 0, pos * 3)
else:
pos -= 170
return (0, pos * 3, 255 - pos * 3)
random_offset = random.randint(0, 255)
for i in range(self.num_leds):
rc_index = (i * 256 // self.num_leds) + self.pattern_step + random_offset
self.n[i] = self.apply_brightness(wheel(rc_index & 255))
self.n.write()
self.pattern_step = (self.pattern_step + 1) % 256
self.last_update = current_time
def random_theater_chase_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
color = (random.randint(0, 255), random.randint(0, 255), random.randint(0, 255))
for i in range(self.num_leds):
if (i + self.pattern_step) % 3 == 0:
self.n[i] = self.apply_brightness(color)
else:
self.n[i] = (0, 0, 0)
self.n.write()
self.pattern_step = (self.pattern_step + 1) % 3
self.last_update = current_time
def random_blink_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
color = (random.randint(0, 255), random.randint(0, 255), random.randint(0, 255))
if self.pattern_step % 2 == 0:
for i in range(self.num_leds):
self.n[i] = self.apply_brightness(color)
else:
for i in range(self.num_leds):
self.n[i] = (0, 0, 0)
self.n.write()
self.pattern_step = (self.pattern_step + 1) % 2
self.last_update = current_time
def color_transition_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
# Calculate transition factor based on elapsed time
transition_factor = (self.pattern_step * 100) / self.transition_duration
if transition_factor > 100:
transition_factor = 100
color = self.interpolate_color(self.color1, self.color2, transition_factor / 100)
# Apply the interpolated color to all LEDs
for i in range(self.num_leds):
self.n[i] = self.apply_brightness(color)
self.n.write()
self.pattern_step += self.delay
if self.pattern_step > self.transition_duration:
while True:
if utime.ticks_diff(utime.ticks_ms(), last_update) >= self.delay:
if self.pattern_step:
self.off()
self.pattern_step = 0
else:
self.on()
self.pattern_step = 1
last_update += self.delay
await asyncio.sleep(0)
self.last_update = current_time
async def flicker(self):
last_update = utime.ticks_ms()
while True:
if utime.ticks_diff(utime.ticks_ms(), last_update) >= self.delay:
# Calculate a single flicker amount for all LEDs
flicker_amount = random.randint(int(-self.brightness // 1.5), int(self.brightness // 1.5))
flicker_brightness = max(0, min(255, self.brightness + flicker_amount))
self.fill(self.apply_brightness(self.colors[0], brightness_override=flicker_brightness))
last_update += self.delay
await asyncio.sleep(0)
def interpolate_color(self, color1, color2, factor):
return (
int(color1[0] + (color2[0] - color1[0]) * factor),
int(color1[1] + (color2[1] - color1[1]) * factor),
int(color1[2] + (color2[2] - color1[2]) * factor)
async def color_transition(self):
if len(self.colors) < 2:
# If there's only one color or no colors, just display that color (or off)
self.fill(self.apply_brightness(self.colors[0]))
return
last_transition_start_time = utime.ticks_ms()
current_color_index = 0
transition_duration_ms = self.delay # Use self.delay as the transition time
while True:
color_from = self.colors[current_color_index]
color_to = self.colors[(current_color_index + 1) % len(self.colors)]
start_time = utime.ticks_ms()
elapsed_time = 0
while elapsed_time < transition_duration_ms:
# Calculate the interpolation factor (0.0 to 1.0)
# Maximize to avoid division by zero if delay is 0, though a meaningful delay is expected
t = min(1.0, elapsed_time / max(1, transition_duration_ms))
# Interpolate each color component
interpolated_color = (
int(color_from[0] + (color_to[0] - color_from[0]) * t),
int(color_from[1] + (color_to[1] - color_from[1]) * t),
int(color_from[2] + (color_to[2] - color_from[2]) * t)
)
def two_steps_forward_one_step_back_step(self):
current_time = utime.ticks_ms()
if utime.ticks_diff(current_time, self.last_update) >= self.delay:
# Move forward 2 steps and backward 1 step
if self.direction == 1: # Moving forward
if self.scanner_position < self.num_leds - 2:
self.scanner_position += 2 # Move forward 2 steps
else:
self.direction = -1 # Change direction to backward
else: # Moving backward
if self.scanner_position > 0:
self.scanner_position -= 1 # Move backward 1 step
else:
self.direction = 1 # Change direction to forward
self.fill(self.apply_brightness(interpolated_color))
await asyncio.sleep(0) # Update smoothly
elapsed_time = utime.ticks_diff(utime.ticks_ms(), start_time)
# Set all LEDs to off
for i in range(self.num_leds):
self.n[i] = (0, 0, 0)
# Ensure the final color is set precisely after interpolation loop
self.fill(self.apply_brightness(color_to))
# Set the current position to the color
self.n[self.scanner_position] = self.apply_brightness(self.color1)
current_color_index = (current_color_index + 1) % len(self.colors)
await asyncio.sleep(0) # Yield control
# Apply the color transition
transition_factor = (self.pattern_step * 100) / self.transition_duration
if transition_factor > 100:
transition_factor = 100
color = self.interpolate_color(self.color1, self.color2, transition_factor / 100)
self.n[self.scanner_position] = self.apply_brightness(color)
self.n.write()
self.pattern_step += self.delay
if self.pattern_step > self.transition_duration:
self.pattern_step = 0
self.last_update = current_time
async def main():
w = WDT(timeout = 10000)
p = Patterns(num_leds=10, pin=10, color1=(16,16,0))
# p.set_delay(100)
# await p.select("blink")
# await asyncio.sleep(2)
# p.set_delay(10)
# await p.select("rainbow")
# await asyncio.sleep(2)
# p.set_delay(100)
# await p.select("theater chase")
# await asyncio.sleep(2)
# p.set_colors([(255, 100, 0)]) # Set a base color for flicker (e.g., orange for a candle effect)
# p.set_brightness(200) # Set a brighter base for flicker to allow for dimming
# p.set_delay(100) # Faster updates for a more convincing flicker
# await p.select("flicker")
# await asyncio.sleep(2)
w.feed()
# Test the new color transition pattern
print("Starting color transition...")
p.set_colors([(255, 0, 0), (0, 255, 0), (0, 0, 255), (255, 255, 0)]) # Red, Green, Blue, Yellow
p.set_delay(1000) # 1 second transition between colors
p.set_brightness(150)
await p.select("color transition")
await asyncio.sleep(10) # Let it run for 10 seconds
if __name__ == "__main__":
p = Patterns(4, 180)
p.set_color1((255,0,0))
p.set_color2((0,255,0))
#p.set_delay(10)
try:
while True:
for key in p.patterns:
print(key)
p.select(key)
for _ in range(2000):
p.tick()
utime.sleep_ms(1)
except KeyboardInterrupt:
p.fill((0, 0, 0))
asyncio.run(main())

70
src/settings.py
View File

@@ -1,4 +1,7 @@
import json
import wifi
import ubinascii
import machine
class Settings(dict):
SETTINGS_FILE = "/settings.json"
@@ -6,15 +9,21 @@ class Settings(dict):
def __init__(self):
super().__init__()
self.load() # Load settings from file during initialization
if self["color_order"] == "rbg": self.color_order = (1, 5, 3)
else: self.color_order = (1, 3, 5)
def set_defaults(self):
self["led_pin"] = 10
self["num_leds"] = 50
self["selected_pattern"] = "blink"
self["color1"] = "#000f00"
self["color2"] = "#0f0000"
self["pattern"] = "on"
self["color1"] = "#00ff00"
self["color2"] = "#ff0000"
self["delay"] = 100
self["brightness"] = 100
self["wifi"] = {"ssid": "", "password": ""}
self["brightness"] = 10
self["color_order"] = "rgb"
self["name"] = f"led-{ubinascii.hexlify(wifi.get_mac()).decode()}"
self["ap_password"] = ""
self["id"] = 0
def save(self):
try:
@@ -34,6 +43,55 @@ class Settings(dict):
except Exception as e:
print(f"Error loading settings")
self.set_defaults()
self.save()
async def set_settings(self, data, patterns, save):
try:
print(data)
for key, value in data.items():
print(key, value)
if key == "colors":
buff = []
for color in value:
buff.append(tuple(int(color[i:i+2], 16) for i in self.color_order))
patterns.set_colors(buff)
elif key == "color1":
patterns.set_color(0,(tuple(int(value[i:i+2], 16) for i in self.color_order))) # Convert hex to RGB
elif key == "color2":
patterns.set_color(1,(tuple(int(value[i:i+2], 16) for i in self.color_order))) # Convert hex to RGB
elif key == "num_leds":
patterns.update_num_leds(self["led_pin"], value)
elif key == "pattern":
if not await patterns.select(value):
return "Pattern doesn't exist", 400
elif key == "delay":
delay = int(data["delay"])
patterns.set_delay(delay)
elif key == "brightness":
brightness = int(data["brightness"])
patterns.set_brightness(brightness)
elif key == "name":
self[key] = value
self.save()
machine.reset()
elif key == "color_order":
if value == "rbg": self.color_order = (1, 5, 3)
else: self.color_order = (1, 3, 5)
pass
elif key == "id":
pass
elif key == "led_pin":
patterns.update_num_leds(value, self["num_leds"])
else:
return "Invalid key", 400
self[key] = value
#print(self)
patterns.sync()
if save:
self.save()
return "OK", 200
except (KeyError, ValueError):
return "Bad request", 400
# Example usage
def main():
@@ -48,6 +106,8 @@ def main():
print(f"Loaded number of LEDs: {new_settings['num_leds']}")
print(settings)
# Run the example
if __name__ == "__main__":
main()

44
src/static/main.css
View File

@@ -16,7 +16,10 @@ body {
display: block;
margin-bottom: 5px;
}
input[type="text"], input[type="submit"], input[type="range"], input[type="color"] {
input[type="text"],
input[type="submit"],
input[type="range"],
input[type="color"] {
width: 100%;
margin-bottom: 10px;
@@ -29,7 +32,7 @@ body {
background: #d3d3d3;
outline: none;
opacity: 0.7;
transition: opacity .2s;
transition: opacity 0.2s;
}
input[type="range"]:hover {
opacity: 1;
@@ -39,14 +42,14 @@ body {
appearance: none;
width: 25px;
height: 25px;
background: #4CAF50;
background: #4caf50;
cursor: pointer;
border-radius: 50%;
}
input[type="range"]::-moz-range-thumb {
width: 25px;
height: 25px;
background: #4CAF50;
background: #4caf50;
cursor: pointer;
border-radius: 50%;
}
@@ -59,7 +62,7 @@ body {
#pattern_buttons button {
flex: 1 0 calc(33.333% - 10px);
padding: 10px;
background-color: #4CAF50;
background-color: #4caf50;
color: white;
border: none;
cursor: pointer;
@@ -73,3 +76,34 @@ body {
flex: 1 0 calc(50% - 10px);
}
}
#connection-status {
width: 15px;
height: 15px;
border-radius: 50%;
display: inline-block; /* Or block, depending on where you put it */
margin-left: 10px; /* Adjust spacing as needed */
vertical-align: middle; /* Align with nearby text */
background-color: grey; /* Default: Unknown */
}
#connection-status.connecting {
background-color: yellow;
}
#connection-status.open {
background-color: green;
}
#connection-status.closing,
#connection-status.closed {
background-color: red;
}
#color_order_form label,
#color_order_form input[type="radio"] {
/* Ensures they behave as inline elements */
display: inline-block;
/* Adds some space between them for readability */
margin-right: 10px;
vertical-align: middle; /* Aligns them nicely if heights vary */
}

211
src/static/main.js
View File

@@ -2,22 +2,87 @@ let delayTimeout;
let brightnessTimeout;
let colorTimeout;
let color2Timeout;
let ws; // Variable to hold the WebSocket connection
let connectionStatusElement; // Variable to hold the connection status element
// Function to update the connection status indicator
function updateConnectionStatus(status) {
if (!connectionStatusElement) {
connectionStatusElement = document.getElementById("connection-status");
}
if (connectionStatusElement) {
connectionStatusElement.className = ""; // Clear existing classes
connectionStatusElement.classList.add(status);
// Optionally, you could also update text content based on status
// connectionStatusElement.textContent = status.charAt(0).toUpperCase() + status.slice(1);
}
}
// Function to establish WebSocket connection
function connectWebSocket() {
// Determine the WebSocket URL based on the current location
const wsUrl = `ws://${window.location.host}/ws`;
ws = new WebSocket(wsUrl);
updateConnectionStatus("connecting"); // Indicate connecting state
ws.onopen = function (event) {
console.log("WebSocket connection opened:", event);
updateConnectionStatus("open"); // Indicate open state
// Optionally, you could send an initial message here
};
ws.onmessage = function (event) {
console.log("WebSocket message received:", event.data);
};
ws.onerror = function (event) {
console.error("WebSocket error:", event);
updateConnectionStatus("closed"); // Indicate error state (treat as closed)
};
ws.onclose = function (event) {
if (event.wasClean) {
console.log(
`WebSocket connection closed cleanly, code=${event.code}, reason=${event.reason}`,
);
updateConnectionStatus("closed"); // Indicate closed state
} else {
console.error("WebSocket connection died");
updateConnectionStatus("closed"); // Indicate closed state
}
// Attempt to reconnect after a delay
setTimeout(connectWebSocket, 1000);
};
}
// Function to send data over WebSocket
function sendWebSocketData(data) {
if (ws && ws.readyState === WebSocket.OPEN) {
console.log("Sending data over WebSocket:", data);
ws.send(JSON.stringify(data));
} else {
console.error("WebSocket is not connected. Cannot send data:", data);
// You might want to queue messages or handle this in a different way
}
}
// Keep the post and get functions for now, they might still be useful
async function post(path, data) {
console.log(`POST to ${path}`, data);
try {
const response = await fetch(path, {
method: "POST",
headers: {
'Content-Type': 'application/json'
"Content-Type": "application/json",
},
body: JSON.stringify(data) // Convert data to JSON string
body: JSON.stringify(data),
});
if (!response.ok) {
throw new Error(`HTTP error! Status: ${response.status}`);
}
} catch (error) {
console.error('Error during POST request:', error);
console.error("Error during POST request:", error);
}
}
@@ -27,84 +92,98 @@ async function get(path) {
if (!response.ok) {
throw new Error(`HTTP error! Status: ${response.status}`);
}
return await response.json(); // Assuming you are expecting JSON response
return await response.json();
} catch (error) {
console.error('Error during GET request:', error);
console.error("Error during GET request:", error);
}
}
async function updateColor(event) {
event.preventDefault();
clearTimeout(colorTimeout);
colorTimeout = setTimeout(async function() {
const color = document.getElementById('color').value;
await post("/color", { color }); // Send as JSON
colorTimeout = setTimeout(function () {
const color = document.getElementById("color").value;
sendWebSocketData({ color1: color });
}, 500);
}
async function updateColor2(event) {
event.preventDefault();
clearTimeout(color2Timeout);
color2Timeout = setTimeout(async function() {
const color = document.getElementById('color2').value;
await post("/color2", { color }); // Send as JSON
color2Timeout = setTimeout(function () {
const color = document.getElementById("color2").value;
sendWebSocketData({ color2: color });
}, 500);
}
async function updatePattern(pattern) {
event.preventDefault();
await post("/pattern", { pattern }); // Send as JSON
sendWebSocketData({ pattern: pattern });
}
async function updateBrightness(event) {
event.preventDefault();
clearTimeout(brightnessTimeout);
brightnessTimeout = setTimeout(async function() {
const brightness = document.getElementById('brightness').value;
await post('/brightness', { brightness }); // Send as JSON
brightnessTimeout = setTimeout(function () {
const brightness = document.getElementById("brightness").value;
sendWebSocketData({ brightness: brightness });
}, 500);
}
async function updateDelay(event) {
event.preventDefault();
clearTimeout(delayTimeout);
delayTimeout = setTimeout(async function() {
const delay = document.getElementById('delay').value;
await post('/delay', { delay }); // Send as JSON
delayTimeout = setTimeout(function () {
const delay = document.getElementById("delay").value;
sendWebSocketData({ delay: delay });
}, 500);
}
async function updateNumLeds(event) {
event.preventDefault();
const numLeds = document.getElementById('num_leds').value;
await post('/num_leds', { num_leds: numLeds }); // Send as JSON
const numLeds = document.getElementById("num_leds").value;
sendWebSocketData({ num_leds: parseInt(numLeds) });
}
async function updateWifi(event) {
async function updateName(event) {
event.preventDefault();
const ssid = document.getElementById('ssid').value;
const password = document.getElementById('password').value;
const ip = document.getElementById('ip').value;
const gateway = document.getElementById('gateway').value;
const wifiSettings = { ssid, password, ip, gateway }; // Create JSON object
console.log(wifiSettings);
const response = await post('/wifi_settings', wifiSettings); // Send as JSON
if (response === 500) {
alert("Failed to connect to Wi-Fi");
const name = document.getElementById("name").value;
sendWebSocketData({ name: name });
}
async function updateID(event) {
event.preventDefault();
const id = document.getElementById("id").value;
sendWebSocketData({ id: parseInt(id) });
}
async function updateLedPin(event) {
event.preventDefault();
const ledpin = document.getElementById("led_pin").value;
sendWebSocketData({ led_pin: parseInt(ledpin) });
}
function handleRadioChange(event) {
event.preventDefault();
console.log("Selected color order:", event.target.value);
// Add your specific logic here
if (event.target.value === "rgb") {
console.log("RGB order selected!");
} else if (event.target.value === "rbg") {
console.log("RBG order selected!");
}
sendWebSocketData({ color_order: event.target.value });
}
function createPatternButtons(patterns) {
const container = document.getElementById('pattern_buttons');
container.innerHTML = ''; // Clear previous buttons
const container = document.getElementById("pattern_buttons");
container.innerHTML = ""; // Clear previous buttons
patterns.forEach(pattern => {
const button = document.createElement('button');
button.type = 'button'; // Use 'button' instead of 'submit'
patterns.forEach((pattern) => {
const button = document.createElement("button");
button.type = "button";
button.textContent = pattern;
button.value = pattern;
button.addEventListener('click', async function(event) {
button.addEventListener("click", async function (event) {
event.preventDefault();
await updatePattern(pattern);
});
@@ -112,19 +191,37 @@ function createPatternButtons(patterns) {
});
}
document.addEventListener('DOMContentLoaded', async function() {
document.getElementById('color').addEventListener('input', updateColor);
document.getElementById('color2').addEventListener('input', updateColor2);
document.getElementById('delay').addEventListener('input', updateDelay);
document.getElementById('brightness').addEventListener('input', updateBrightness);
document.getElementById('num_leds_form').addEventListener('submit', updateNumLeds);
document.getElementById('wifi_form').addEventListener('submit', updateWifi);
document.getElementById('delay').addEventListener('touchend', updateDelay);
document.getElementById('brightness').addEventListener('touchend', updateBrightness);
document.addEventListener("DOMContentLoaded", async function () {
// Get the connection status element once the DOM is ready
connectionStatusElement = document.getElementById("connection-status");
document.querySelectorAll(".pattern_button").forEach(button => {
// Establish WebSocket connection on page load
connectWebSocket();
document.getElementById("color").addEventListener("input", updateColor);
document.getElementById("color2").addEventListener("input", updateColor2);
document.getElementById("delay").addEventListener("input", updateDelay);
document
.getElementById("brightness")
.addEventListener("input", updateBrightness);
document
.getElementById("num_leds_form")
.addEventListener("submit", updateNumLeds);
document.getElementById("name_form").addEventListener("submit", updateName);
document.getElementById("id_form").addEventListener("submit", updateID);
document
.getElementById("led_pin_form")
.addEventListener("submit", updateLedPin);
document.getElementById("delay").addEventListener("touchend", updateDelay);
document
.getElementById("brightness")
.addEventListener("touchend", updateBrightness);
document.getElementById("rgb").addEventListener("change", handleRadioChange);
document.getElementById("rbg").addEventListener("change", handleRadioChange);
document.querySelectorAll(".pattern_button").forEach((button) => {
console.log(button.value);
button.addEventListener('click', async event => {
button.addEventListener("click", async (event) => {
event.preventDefault();
await updatePattern(button.value);
});
@@ -133,15 +230,15 @@ document.addEventListener('DOMContentLoaded', async function() {
// Function to toggle the display of the settings menu
function selectSettings() {
const settingsMenu = document.getElementById('settings_menu');
controls = document.getElementById('controls');
settingsMenu.style.display = 'block';
controls.style.display = 'none';
const settingsMenu = document.getElementById("settings_menu");
controls = document.getElementById("controls");
settingsMenu.style.display = "block";
controls.style.display = "none";
}
function selectControls() {
const settingsMenu = document.getElementById('settings_menu');
controls = document.getElementById('controls');
settingsMenu.style.display = 'none';
controls.style.display = 'block';
const settingsMenu = document.getElementById("settings_menu");
controls = document.getElementById("controls");
settingsMenu.style.display = "none";
controls.style.display = "block";
}

113
src/templates/index.html
View File

@@ -1,15 +1,15 @@
{% args settings, patterns %}
<!DOCTYPE html>
{% args settings, patterns, mac %}
<!doctype html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>LED Control</title>
<meta charset="UTF-8" />
<meta name="viewport" content="width=device-width, initial-scale=1.0" />
<title>{{settings['name']}}</title>
<script src="static/main.js"></script>
<link rel="stylesheet" href="static/main.css">
<link rel="stylesheet" href="static/main.css" />
</head>
<body>
<h1>Control LEDs</h1>
<h1>{{settings['name']}}</h1>
<button onclick="selectControls()">Controls</button>
<button onclick="selectSettings()">Settings</button>
@@ -24,48 +24,101 @@
</div>
<form id="delay_form" method="post" action="/delay">
<label for="delay">Delay:</label>
<input type="range" id="delay" name="delay" min="1" max="1000" value="{{settings['delay']}}" step="10">
<input
type="range"
id="delay"
name="delay"
min="1"
max="1000"
value="{{settings['delay']}}"
step="10"
/>
</form>
<form id="brightness_form" method="post" action="/brightness">
<label for="brightness">Brightness:</label>
<input type="range" id="brightness" name="brightness" min="0" max="100" value="{{settings['brightness']}}" step="1">
<input
type="range"
id="brightness"
name="brightness"
min="0"
max="100"
value="{{settings['brightness']}}"
step="1"
/>
</form>
<form id="color_form" method="post" action="/color">
<input type="color" id="color" name="color" value="{{settings['color1']}}">
<input
type="color"
id="color"
name="color"
value="{{settings['color1']}}"
/>
</form>
<form id="color2_form" method="post" action="/color2">
<input type="color" id="color2" name="color2" value="{{settings['color2']}}">
<input
type="color"
id="color2"
name="color2"
value="{{settings['color2']}}"
/>
</form>
</div>
<!-- Settings Menu for num_leds, Wi-Fi SSID, and Password -->
<div id="settings_menu" style="display: none;">
<div id="settings_menu" style="display: none">
<h2>Settings</h2>
<form id="name_form" method="post" action="/name">
<label for="name">Name:</label>
<input
type="text"
id="name"
name="num_leds"
value="{{settings['name']}}"
/>
<input type="submit" value="Update Name" />
</form>
<form id="id_form" method="post" action="/id">
<label for="id">ID:</label>
<input
type="text"
id="id"
name="id"
value="{{settings['id']}}"
/>
<input type="submit" value="Update ID" />
</form>
<!-- Separate form for submitting num_leds -->
<form id="num_leds_form" method="post" action="/num_leds">
<label for="num_leds">Number of LEDs:</label>
<input type="text" id="num_leds" name="num_leds" value="{{settings['num_leds']}}">
<input type="submit" value="Update Number of LEDs">
<input
type="text"
id="num_leds"
name="num_leds"
value="{{settings['num_leds']}}"
/>
<input type="submit" value="Update Number of LEDs" />
</form>
<form id="led_pin_form" method="post" action="/led_pin">
<label for="num_leds">Led pin:</label>
<input
type="text"
id="led_pin"
name="led_pin"
value="{{settings['led_pin']}}"
/>
<input type="submit" value="Update Led Pin" />
</form>
<form id="color_order_form">
<label for="rgb">RGB:</label>
<input type="radio" id="rgb" name="color_order" value="rgb" {{'checked' if settings["color_order"]=="rgb" else ''}} />
<label for="rbg">RBG</label>
<input type="radio" id="rbg" name="color_order" value="rbg" {{'checked' if settings["color_order"]=="rbg" else ''}}/>
</form>
<!-- Form for Wi-Fi SSID and password -->
<form id="wifi_form" method="post" action="/wifi_settings">
<label for="ssid">Wi-Fi SSID:</label>
<input type="text" id="ssid" name="ssid" value="{{settings['wifi']['ssid']}}">
<br>
<label for="password">Wi-Fi Password:</label>
<input type="password" id="password" name="password">
<br>
<label for="ip">Wi-Fi IP:</label>
<input type="ip" id="ip" name="ip" value="{{settings.get('wifi', {}).get('ip', '')}}">
<br>
<label for="gateway">Wi-Fi Gateway:</label>
<input type="gateway" id="gateway" name="gateway" value="{{settings.get('wifi', {}).get('gateway', '')}}">
<br>
<input type="submit" value="Save Wi-Fi Settings">
</form>
<p>Mac address: {{mac}}</p>
</div>
<div id="connection-status"></div>
</body>
</html>

94
src/templates/index_html.py
View File

@@ -1,94 +0,0 @@
# Autogenerated file
def render(settings, patterns):
yield """<!DOCTYPE html>
<html lang=\"en\">
<head>
<meta charset=\"UTF-8\">
<meta name=\"viewport\" content=\"width=device-width, initial-scale=1.0\">
<title>LED Control</title>
<script src=\"static/main.js\"></script>
<link rel=\"stylesheet\" href=\"static/main.css\">
</head>
<body>
<h1>Control LEDs</h1>
<button onclick=\"selectControls()\">Controls</button>
<button onclick=\"selectSettings()\">Settings</button>
<!-- Main LED Controls -->
<div id=\"controls\">
<div id=\"pattern_buttons\">
"""
for p in patterns:
yield """ <button class=\"pattern_button\" value=\""""
yield str(p)
yield """\">"""
yield str(p)
yield """</button>
"""
yield """
<!-- Pattern buttons will be inserted here -->
</div>
<form id=\"delay_form\" method=\"post\" action=\"/delay\">
<label for=\"delay\">Delay:</label>
<input type=\"range\" id=\"delay\" name=\"delay\" min=\"1\" max=\"1000\" value=\""""
yield str(settings['delay'])
yield """\" step=\"10\">
</form>
<form id=\"brightness_form\" method=\"post\" action=\"/brightness\">
<label for=\"brightness\">Brightness:</label>
<input type=\"range\" id=\"brightness\" name=\"brightness\" min=\"0\" max=\"100\" value=\""""
yield str(settings['brightness'])
yield """\" step=\"1\">
</form>
<form id=\"color_form\" method=\"post\" action=\"/color\">
<input type=\"color\" id=\"color\" name=\"color\" value=\""""
yield str(settings['color1'])
yield """\">
</form>
<form id=\"color2_form\" method=\"post\" action=\"/color2\">
<input type=\"color\" id=\"color2\" name=\"color2\" value=\""""
yield str(settings['color2'])
yield """\">
</form>
</div>
<!-- Settings Menu for num_leds, Wi-Fi SSID, and Password -->
<div id=\"settings_menu\" style=\"display: none;\">
<h2>Settings</h2>
<!-- Separate form for submitting num_leds -->
<form id=\"num_leds_form\" method=\"post\" action=\"/num_leds\">
<label for=\"num_leds\">Number of LEDs:</label>
<input type=\"text\" id=\"num_leds\" name=\"num_leds\" value=\""""
yield str(settings['num_leds'])
yield """\">
<input type=\"submit\" value=\"Update Number of LEDs\">
</form>
<!-- Form for Wi-Fi SSID and password -->
<form id=\"wifi_form\" method=\"post\" action=\"/wifi_settings\">
<label for=\"ssid\">Wi-Fi SSID:</label>
<input type=\"text\" id=\"ssid\" name=\"ssid\" value=\""""
yield str(settings['wifi']['ssid'])
yield """\">
<br>
<label for=\"password\">Wi-Fi Password:</label>
<input type=\"password\" id=\"password\" name=\"password\">
<br>
<label for=\"ip\">Wi-Fi IP:</label>
<input type=\"ip\" id=\"ip\" name=\"ip\" value=\""""
yield str(settings.get('wifi', {}).get('ip', ''))
yield """\">
<br>
<label for=\"gateway\">Wi-Fi Gateway:</label>
<input type=\"gateway\" id=\"gateway\" name=\"gateway\" value=\""""
yield str(settings.get('wifi', {}).get('gateway', ''))
yield """\">
<br>
<input type=\"submit\" value=\"Save Wi-Fi Settings\">
</form>
</div>
</body>
</html>
"""

130
src/web.py
View File

@@ -1,135 +1,43 @@
from microdot import Microdot, send_file, Response
from microdot.utemplate import Template
from microdot.websocket import with_websocket
import json
import machine
import wifi
import json
def web(settings, patterns):
app = Microdot()
Response.default_content_type = 'text/html'
@app.route('/')
async def index(request):
return Template('/index.html').render(settings=settings, patterns=patterns.patterns.keys())
async def index_hnadler(request):
mac = wifi.get_mac().hex()
return Template('/index.html').render(settings=settings, patterns=patterns.patterns.keys(), mac=mac)
@app.route("/static/<path:path>")
def static(request, path):
def static_handler(request, path):
if '..' in path:
# Directory traversal is not allowed
return 'Not found', 404
return send_file('static/' + path)
@app.post("/num_leds")
def num_leds(request):
try:
data = json.loads(request.body.decode('utf-8'))
num_leds = int(data["num_leds"])
patterns.update_num_leds(4, num_leds)
settings["num_leds"] = num_leds
settings.save()
return "OK", 200
except (ValueError, KeyError, json.JSONDecodeError):
return "Bad request", 400
@app.post("/settings")
def settings_handler(request):
# Keep the POST handler for compatibility or alternative usage if needed
# For WebSocket updates, the /ws handler is now primary
return settings.set_settings(request.body.decode('utf-8'), patterns)
@app.post("/pattern")
def pattern(request):
try:
data = json.loads(request.body.decode('utf-8'))
pattern = data["pattern"]
if patterns.select(pattern):
settings["selected_pattern"] = pattern
settings.save()
return "OK", 200
else:
return "Bad request", 400
except (KeyError, json.JSONDecodeError):
return "Bad request", 400
@app.post("/delay")
def delay(request):
try:
data = json.loads(request.body.decode('utf-8'))
delay = int(data["delay"])
patterns.set_delay(delay)
settings["delay"] = delay
settings.save()
return "OK", 200
except (ValueError, KeyError, json.JSONDecodeError):
return "Bad request", 400
@app.post("/brightness")
def brightness(request):
try:
data = json.loads(request.body.decode('utf-8'))
brightness = int(data["brightness"])
patterns.set_brightness(brightness)
settings["brightness"] = brightness
settings.save()
return "OK", 200
except (ValueError, KeyError, json.JSONDecodeError):
return "Bad request", 400
@app.post("/color")
def color(request):
try:
data = json.loads(request.body.decode('utf-8'))
color = data["color"]
patterns.set_color1(tuple(int(color[i:i+2], 16) for i in (1, 3, 5))) # Convert hex to RGB
settings["color1"] = color
settings.save()
return "OK", 200
except (KeyError, json.JSONDecodeError, ValueError):
return "Bad request", 400
@app.post("/color2")
def color2(request):
try:
data = json.loads(request.body.decode('utf-8'))
color = data["color2"]
patterns.set_color2(tuple(int(color[i:i+2], 16) for i in (1, 3, 5))) # Convert hex to RGB
settings["color2"] = color
settings.save()
return "OK", 200
except (KeyError, json.JSONDecodeError, ValueError):
return "Bad request", 400
@app.post("/wifi_settings")
def wifi_settings(request):
try:
data = json.loads(request.body.decode('utf-8'))
print(data)
ssid = settings['wifi']['ssid'] = data['ssid']
password = settings['wifi']['password'] = data.get('password', settings['wifi']['password'])
ip = settings['wifi']['ip'] = data.get('ip', None)
gateway = settings['wifi']['gateway'] = data.get('gateway', None)
print(settings)
if config := wifi.connect(ssid, password, ip, gateway):
print(config)
settings.save()
return "OK", 200
except Exception as e:
print(f"Wifi {e}")
return "Bad request", 400
@app.post("/sync")
def sync(request):
patterns.sync()
return "OK", 200
@app.route("/external")
@app.route("/ws")
@with_websocket
async def ws(request, ws):
patterns.select("external")
while True:
data = await ws.receive()
print(data)
for i in range(min(patterns.num_leds, int(len(data)/3))):
patterns.set(i, (data[i*3], data[i*3+1], data[i*3+2]))
patterns.write()
if data:
# Process the received data
_, status_code = await settings.set_settings(json.loads(data), patterns, True)
#await ws.send(status_code)
else:
break
return app

29
src/wifi.py
View File

@@ -1,18 +1,16 @@
import network
from machine import Pin
from time import sleep
import ubinascii
from settings import Settings
def connect(ssid, password, ip, gateway):
if ssid is None or password is None:
print("Missing ssid or password")
return None
try:
sta_if = network.WLAN(network.STA_IF)
if ip is not None and gateway is not None:
sta_if.ifconfig((ip, '255.255.255.0', gateway, '1.1.1.1'))
if not sta_if.isconnected():
if ssid == "" or password == "":
print("Missing ssid or password")
return None
if ip != "" and gateway != "":
sta_if.ifconfig((ip, '255.255.255.0', gateway, '1.1.1.1'))
print('connecting to network...')
sta_if.active(True)
sta_if.connect(ssid, password)
@@ -26,21 +24,16 @@ def connect(ssid, password, ip, gateway):
return None
def ap(password):
def ap(ssid, password):
ap_if = network.WLAN(network.AP_IF)
ap_mac = ap_if.config('mac')
ssid = f"led-{ubinascii.hexlify(ap_mac).decode()}"
print(ssid)
ap_if.active(True)
ap_if.config(essid=ssid, password="qwerty1234")
ap_if.config(essid=ssid, password=password)
ap_if.active(False)
ap_if.active(True)
print(ap_if.ifconfig())
def get_mac():
ap_if = network.WLAN(network.AP_IF)
return ap_if.config('mac')