feat: v0.3.6 — PN532 driver working, badge UID read
This commit is contained in:
@@ -3,15 +3,110 @@
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# (c) Copyright : ae Aeonian Engineering Limited - Hong Kong
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# (c) Copyright : WIDE di D. Papa - Naples - Italy
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# ============================================================+
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# Reads NTAG424 badge via PN532, performs challenge/verify
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# against identity_tag backend.
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# ============================================================+
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import utime
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import ujson
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import ubinascii
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MAX_ATTEMPTS = 3
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ALARM_TIMEOUT = 30 # seconds
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# =============================================================================
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# Display
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# =============================================================================
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def _draw_nfc_idle(oled, frame=0):
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"""NFC waves animation — 4 frames."""
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oled.fill(0)
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cx, cy = 38, 36
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# N symbol
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oled.text('N', cx - 4, cy + 6)
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# Waves — expanding arcs approximated with pixels
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radii = [8, 14, 20]
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for i, r in enumerate(radii):
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if i < (frame % 4):
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# Draw arc (top-right quarter approximation)
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for angle in range(0, 90, 5):
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import math
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x = int(cx + r * math.cos(math.radians(angle)))
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y = int(cy - r * math.sin(math.radians(angle)))
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if 0 <= x < 128 and 0 <= y < 64:
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oled.pixel(x, y, 1)
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oled.text('SCAN BADGE', 30, 56)
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oled.show()
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def _draw_nfc_idle_simple(oled, frame=0):
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"""Simple NFC animation without math — concentric arcs."""
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oled.fill(0)
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# Animate waves based on frame
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waves = frame % 4
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cx, cy = 40, 28
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if waves >= 1:
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oled.hline(cx, cy - 6, 4, 1)
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oled.vline(cx + 4, cy - 6, 12, 1)
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if waves >= 2:
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oled.hline(cx - 4, cy - 10, 4, 1)
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oled.vline(cx + 8, cy - 10, 20, 1)
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oled.hline(cx - 4, cy + 10, 4, 1)
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if waves >= 3:
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oled.hline(cx - 8, cy - 14, 4, 1)
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oled.vline(cx + 12, cy - 14, 28, 1)
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oled.hline(cx - 8, cy + 14, 4, 1)
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# NFC dot
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oled.fill_rect(cx - 2, cy - 2, 5, 5, 1)
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# Bottom text
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oled.text('SCAN BADGE', 20, 54)
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oled.show()
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def _draw_granted(oled, label=''):
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oled.fill(0)
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# Big checkmark
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oled.line(20, 35, 32, 47, 1)
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oled.line(32, 47, 56, 23, 1)
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oled.line(21, 35, 33, 47, 1)
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oled.line(33, 47, 57, 23, 1)
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oled.text(' GRANTED', 14, 52)
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if label:
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oled.text(label[:16], 0, 0)
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oled.show()
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def _draw_denied(oled, attempts, max_attempts):
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oled.fill(0)
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# X mark
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oled.line(20, 20, 44, 44, 1)
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oled.line(44, 20, 20, 44, 1)
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oled.line(21, 20, 45, 44, 1)
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oled.line(45, 20, 21, 44, 1)
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oled.text(' DENIED', 14, 52)
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oled.text(str(attempts) + '/' + str(max_attempts), 104, 0)
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oled.show()
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def _draw_alarm(oled, blink=True):
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oled.fill(1 if blink else 0)
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fg = 0 if blink else 1
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oled.text(' !! ALARM !!', 0, 8, fg)
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oled.text(' ACCESS', 0, 28, fg)
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oled.text(' DENIED', 0, 40, fg)
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oled.show()
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# =============================================================================
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# Main loop
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# =============================================================================
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def run_access_control(cfg, caps):
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"""Main loop for access_control node type. Called from boot_manager."""
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print('[access_control] starting — NFC:', caps.get('has_nfc'))
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if not caps.get('has_nfc'):
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@@ -19,12 +114,109 @@ def run_access_control(cfg, caps):
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while True:
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utime.sleep(60)
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# TODO: init PN532
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# TODO: wait for badge tap
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# TODO: read UID from NTAG424
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# TODO: challenge/verify against cfg['identity_tag_url']
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# TODO: trigger relay on success if has_relay
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# Get hardware refs from boot_manager globals
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import boot_manager as bm
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oled = bm._oled
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nfc = bm._nfc
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key = cfg['comm_key'].encode() if isinstance(cfg['comm_key'], str) else cfg['comm_key']
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iv = cfg['comm_iv'].encode() if isinstance(cfg['comm_iv'], str) else cfg['comm_iv']
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relay_pin = cfg.get('pinout', {}).get('relay_pin', 16)
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import urequests
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from identity_iot_aes import aes_cbc_encrypt, aes_cbc_decrypt
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from identity_iot import IdentityIoT
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tag_url = cfg['identity_tag_url']
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attempts = 0
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frame = 0
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alarm_until = 0
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while True:
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print('[access_control] waiting for badge...')
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utime.sleep(2)
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now = utime.time()
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# ALARM state
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if attempts >= MAX_ATTEMPTS:
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if alarm_until == 0:
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alarm_until = now + ALARM_TIMEOUT
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if now < alarm_until:
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_draw_alarm(oled, blink=(now % 2 == 0))
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utime.sleep_ms(500)
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continue
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else:
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attempts = 0
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alarm_until = 0
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# Idle animation
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_draw_nfc_idle_simple(oled, frame)
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frame += 1
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utime.sleep_ms(400)
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# Poll for badge
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uid = nfc.read_uid(timeout=300)
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if uid is None:
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continue
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uid_hex = ubinascii.hexlify(uid).decode()
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print('[access_control] badge uid:', uid_hex)
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# Get fresh JWT
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try:
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identity = IdentityIoT(
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base_url = cfg['identity_iot_url'],
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node_type = cfg.get('node_type', 'access_control'),
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tenant_id = cfg['tenant_id'],
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node_id = cfg['node_id'],
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comm_key = key,
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comm_iv = iv,
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)
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token = identity.authenticate()
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except Exception as e:
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print('[access_control] auth error:', e)
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utime.sleep(2)
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continue
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# Challenge badge against identity_tag
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try:
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payload = ujson.dumps({
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'request': 'challenge',
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'badge_uid': uid_hex,
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'node_id': str(cfg['node_id']),
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'tenant_id': str(cfg['tenant_id']),
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})
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cipher = aes_cbc_encrypt(payload, key, iv)
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resp = urequests.post(
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tag_url,
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headers={
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'Content-Type': 'application/json',
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'Authorization': 'Bearer ' + token.strip(),
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},
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data=ujson.dumps({'data': cipher}),
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timeout=10,
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)
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raw = resp.text
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resp.close()
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outer = ujson.loads(raw)
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result = ujson.loads(aes_cbc_decrypt(outer['data'], key, iv))
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if result.get('status') == 'ok':
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print('[access_control] GRANTED:', uid_hex)
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attempts = 0
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_draw_granted(oled, cfg.get('node_label', ''))
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# Trigger relay
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if caps.get('has_relay') and bm._relay:
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bm._relay.value(1)
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utime.sleep_ms(500)
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bm._relay.value(0)
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utime.sleep(2)
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else:
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attempts += 1
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print('[access_control] DENIED:', uid_hex, 'attempts:', attempts)
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_draw_denied(oled, attempts, MAX_ATTEMPTS)
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utime.sleep(2)
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except Exception as e:
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print('[access_control] tag error:', e)
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utime.sleep(1)
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nfc.release_target()
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