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closer to working, but not right

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This commit is contained in:
Kyle Brown
2020-10-21 15:26:51 -07:00
parent 56732930c5
commit 9972e8d23d
4 changed files with 188 additions and 139 deletions
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114
kmk/extensions/rgb.py
View File

@@ -3,6 +3,7 @@ import time
from math import e, exp, pi, sin
from kmk.extensions import Extension
from kmk.handlers.stock import passthrough as handler_passthrough
from kmk.keys import make_key
rgb_config = {}
@@ -71,24 +72,63 @@ class RGB(Extension):
self.disable_auto_write = disable_auto_write
self.loopcounter = loopcounter
make_key(names=('RGB_TOG',), on_press=self._rgb_tog)
make_key(names=('RGB_HUI',), on_press=self._rgb_hui)
make_key(names=('RGB_HUD',), on_press=self._rgb_hud)
make_key(names=('RGB_SAI',), on_press=self._rgb_sai)
make_key(names=('RGB_SAD',), on_press=self._rgb_sad)
make_key(names=('RGB_VAI',), on_press=self._rgb_vai)
make_key(names=('RGB_VAD',), on_press=self._rgb_vad)
make_key(names=('RGB_ANI',), on_press=self._rgb_ani)
make_key(names=('RGB_AND',), on_press=self._rgb_and)
make_key(names=('RGB_MODE_PLAIN', 'RGB_M_P'), on_press=self._rgb_mode_static)
make_key(names=('RGB_MODE_BREATHE', 'RGB_M_B'), on_press=self._rgb_mode_breathe)
make_key(names=('RGB_MODE_RAINBOW', 'RGB_M_R'), on_press=self._rgb_mode_rainbow)
make_key(
names=('RGB_TOG',), on_press=self._rgb_tog, on_release=handler_passthrough
)
make_key(
names=('RGB_HUI',), on_press=self._rgb_hui, on_release=handler_passthrough
)
make_key(
names=('RGB_HUD',), on_press=self._rgb_hud, on_release=handler_passthrough
)
make_key(
names=('RGB_SAI',), on_press=self._rgb_sai, on_release=handler_passthrough
)
make_key(
names=('RGB_SAD',), on_press=self._rgb_sad, on_release=handler_passthrough
)
make_key(
names=('RGB_VAI',), on_press=self._rgb_vai, on_release=handler_passthrough
)
make_key(
names=('RGB_VAD',), on_press=self._rgb_vad, on_release=handler_passthrough
)
make_key(
names=('RGB_ANI',), on_press=self._rgb_ani, on_release=handler_passthrough
)
make_key(
names=('RGB_AND',), on_press=self._rgb_and, on_release=handler_passthrough
)
make_key(
names=('RGB_MODE_PLAIN', 'RGB_M_P'),
on_press=self._rgb_mode_static,
on_release=handler_passthrough,
)
make_key(
names=('RGB_MODE_BREATHE', 'RGB_M_B'),
on_press=self._rgb_mode_breathe,
on_release=handler_passthrough,
)
make_key(
names=('RGB_MODE_RAINBOW', 'RGB_M_R'),
on_press=self._rgb_mode_rainbow,
on_release=handler_passthrough,
)
make_key(
names=('RGB_MODE_BREATHE_RAINBOW', 'RGB_M_BR'),
on_press=self._rgb_mode_breathe_rainbow,
on_release=handler_passthrough,
)
make_key(
names=('RGB_MODE_SWIRL', 'RGB_M_S'),
on_press=self._rgb_mode_swirl,
on_release=handler_passthrough,
)
make_key(
names=('RGB_MODE_KNIGHT', 'RGB_M_K'),
on_press=self._rgb_mode_knight,
on_release=handler_passthrough,
)
make_key(names=('RGB_MODE_SWIRL', 'RGB_M_S'), on_press=self._rgb_mode_swirl)
make_key(names=('RGB_MODE_KNIGHT', 'RGB_M_K'), on_press=self._rgb_mode_knight)
def during_bootup(self, keyboard):
pass
@@ -500,69 +540,69 @@ class RGB(Extension):
return self
def _rgb_tog(self, key, state, *args, **kwargs):
if state.pixels.animation_mode == 'static_standby':
state.pixels.animation_mode = 'static'
state.pixels.enabled = not state.pixels.enabled
if self.animation_mode == AnimationModes.STATIC:
self.animation_mode = AnimationModes.STATIC_STANDBY
self.enable = not self.enable
return state
def _rgb_hui(self, key, state, *args, **kwargs):
state.pixels.increase_hue()
self.increase_hue()
return state
def _rgb_hud(self, key, state, *args, **kwargs):
state.pixels.decrease_hue()
self.decrease_hue()
return state
def _rgb_sai(self, key, state, *args, **kwargs):
state.pixels.increase_sat()
self.increase_sat()
return state
def _rgb_sad(self, key, state, *args, **kwargs):
state.pixels.decrease_sat()
self.decrease_sat()
return state
def _rgb_vai(self, key, state, *args, **kwargs):
state.pixels.increase_val()
self.increase_val()
return state
def _rgb_vad(self, key, state, *args, **kwargs):
state.pixels.decrease_val()
self.decrease_val()
return state
def _rgb_ani(self, key, state, *args, **kwargs):
state.pixels.increase_ani()
self.increase_ani()
return state
def _rgb_and(self, key, state, *args, **kwargs):
state.pixels.decrease_ani()
self.decrease_ani()
return state
def _rgb_mode_static(self, key, state, *args, **kwargs):
state.pixels.effect_init = True
state.pixels.animation_mode = 'static'
self.effect_init = True
self.animation_mode = 'static'
return state
def _rgb_mode_breathe(self, key, state, *args, **kwargs):
state.pixels.effect_init = True
state.pixels.animation_mode = 'breathing'
self.effect_init = True
self.animation_mode = 'breathing'
return state
def _rgb_mode_breathe_rainbow(self, key, state, *args, **kwargs):
state.pixels.effect_init = True
state.pixels.animation_mode = 'breathing_rainbow'
self.effect_init = True
self.animation_mode = 'breathing_rainbow'
return state
def _rgb_mode_rainbow(self, key, state, *args, **kwargs):
state.pixels.effect_init = True
state.pixels.animation_mode = 'rainbow'
self.effect_init = True
self.animation_mode = 'rainbow'
return state
def _rgb_mode_swirl(self, key, state, *args, **kwargs):
state.pixels.effect_init = True
state.pixels.animation_mode = 'swirl'
self.effect_init = True
self.animation_mode = 'swirl'
return state
def _rgb_mode_knight(self, key, state, *args, **kwargs):
state.pixels.effect_init = True
state.pixels.animation_mode = 'knight'
self.effect_init = True
self.animation_mode = 'knight'
return state

205
kmk/hid.py
View File

@@ -1,46 +1,48 @@
import usb_hid
from micropython import const
from kmk.keys import FIRST_KMK_INTERNAL_KEY, ConsumerKey, ModifierKey
from mycropython import const
class HIDModes:
NOOP = const(0) # currently unused; for testing?
USB = const(1)
BLE = const(2) # currently unused; for bluetooth
NOOP = 0 # currently unused; for testing?
USB = 1
BLE = 2 # currently unused; for bluetooth
ALL_MODES = (NOOP, USB, BLE)
class HIDReportTypes:
KEYBOARD = const(1)
MOUSE = const(2)
CONSUMER = const(3)
SYSCONTROL = const(4)
KEYBOARD = 1
MOUSE = 2
CONSUMER = 3
SYSCONTROL = 4
class HIDUsage:
KEYBOARD = const(0x06)
MOUSE = const(0x02)
CONSUMER = const(0x01)
SYSCONTROL = const(0x80)
KEYBOARD = 0x06
MOUSE = 0x02
CONSUMER = 0x01
SYSCONTROL = 0x80
class HIDUsagePage:
CONSUMER = const(0x0C)
KEYBOARD = MOUSE = SYSCONTROL = const(0x01)
CONSUMER = 0x0C
KEYBOARD = MOUSE = SYSCONTROL = 0x01
HID_REPORT_SIZES = {
HIDReportTypes.KEYBOARD: const(8),
HIDReportTypes.MOUSE: const(4),
HIDReportTypes.CONSUMER: const(2),
HIDReportTypes.SYSCONTROL: const(8), # TODO find the correct value for this
HIDReportTypes.KEYBOARD: 8,
HIDReportTypes.MOUSE: 4,
HIDReportTypes.CONSUMER: 2,
HIDReportTypes.SYSCONTROL: 8, # TODO find the correct value for this
}
class AbstractHID:
REPORT_BYTES = const(8)
REPORT_BYTES = 8
def __init__(self, **kwargs):
def __init__(self):
self._evt = bytearray(self.REPORT_BYTES)
self.report_device = memoryview(self._evt)[0:1]
self.report_device[0] = HIDReportTypes.KEYBOARD
@@ -54,7 +56,7 @@ class AbstractHID:
self.report_mods = memoryview(self._evt)[1:2]
self.report_non_mods = memoryview(self._evt)[3:]
self.post_init(**kwargs)
self.post_init()
def __repr__(self):
return '{}(REPORT_BYTES={})'.format(self.__class__.__name__, self.REPORT_BYTES)
@@ -188,14 +190,12 @@ class AbstractHID:
class USBHID(AbstractHID):
import usb_hid
REPORT_BYTES = 9
REPORT_BYTES = const(9)
def post_init(self, **kwargs):
def post_init(self):
self.devices = {}
for device in self.usb_hid.devices:
for device in usb_hid.devices:
us = device.usage
up = device.usage_page
@@ -225,101 +225,106 @@ class USBHID(AbstractHID):
class BLEHID(AbstractHID):
from adafruit_ble import BLERadio
from adafruit_ble.advertising.standard import ProvideServicesAdvertisement
from adafruit_ble.services.standard.hid import HIDService
try:
# TODO FIXME This is wrapped in a try block to prevent crashes on M4 devices
from adafruit_ble import BLERadio
from adafruit_ble.advertising.standard import ProvideServicesAdvertisement
from adafruit_ble.services.standard.hid import HIDService
BLE_APPEARANCE_HID_KEYBOARD = const(961)
# Hardcoded in CPy
MAX_CONNECTIONS = const(2)
BLE_APPEARANCE_HID_KEYBOARD = const(961)
# Hardcoded in CPy
MAX_CONNECTIONS = const(2)
def post_init(self, ble_name='KMK Keyboard', **kwargs):
self.conn_id = -1
def post_init(self, ble_name='KMK Keyboard', **kwargs):
self.conn_id = -1
self.ble = self.BLERadio()
self.ble.name = ble_name
self.hid = self.HIDService()
self.hid.protocol_mode = 0 # Boot protocol
self.ble = self.BLERadio()
self.ble.name = ble_name
self.hid = self.HIDService()
self.hid.protocol_mode = 0 # Boot protocol
# Security-wise this is not right. While you're away someone turns
# on your keyboard and they can pair with it nice and clean and then
# listen to keystrokes.
# On the other hand we don't have LESC so it's like shouting your
# keystrokes in the air
if not self.ble.connected or not self.hid.devices:
self.start_advertising()
# Security-wise this is not right. While you're away someone turns
# on your keyboard and they can pair with it nice and clean and then
# listen to keystrokes.
# On the other hand we don't have LESC so it's like shouting your
# keystrokes in the air
if not self.ble.connected or not self.hid.devices:
self.start_advertising()
self.conn_id = 0
self.conn_id = 0
@property
def devices(self):
'''Search through the provided list of devices to find the ones with the
send_report attribute.'''
if not self.ble.connected:
return []
@property
def devices(self):
'''Search through the provided list of devices to find the ones with the
send_report attribute.'''
if not self.ble.connected:
return []
result = []
# Security issue:
# This introduces a race condition. Let's say you have 2 active
# connections: Alice and Bob - Alice is connection 1 and Bob 2.
# Now Chuck who has already paired with the device in the past
# (this assumption is needed only in the case of LESC)
# wants to gather the keystrokes you send to Alice. You have
# selected right now to talk to Alice (1) and you're typing a secret.
# If Chuck kicks Alice off and is quick enough to connect to you,
# which means quicker than the running interval of this function,
# he'll be earlier in the `self.hid.devices` so will take over the
# selected 1 position in the resulted array.
# If no LESC is in place, Chuck can sniff the keystrokes anyway
for device in self.hid.devices:
if hasattr(device, 'send_report'):
result.append(device)
result = []
# Security issue:
# This introduces a race condition. Let's say you have 2 active
# connections: Alice and Bob - Alice is connection 1 and Bob 2.
# Now Chuck who has already paired with the device in the past
# (this assumption is needed only in the case of LESC)
# wants to gather the keystrokes you send to Alice. You have
# selected right now to talk to Alice (1) and you're typing a secret.
# If Chuck kicks Alice off and is quick enough to connect to you,
# which means quicker than the running interval of this function,
# he'll be earlier in the `self.hid.devices` so will take over the
# selected 1 position in the resulted array.
# If no LESC is in place, Chuck can sniff the keystrokes anyway
for device in self.hid.devices:
if hasattr(device, 'send_report'):
result.append(device)
return result
return result
def _check_connection(self):
devices = self.devices
if not devices:
return False
def _check_connection(self):
devices = self.devices
if not devices:
return False
if self.conn_id >= len(devices):
self.conn_id = len(devices) - 1
if self.conn_id >= len(devices):
self.conn_id = len(devices) - 1
if self.conn_id < 0:
return False
if self.conn_id < 0:
return False
if not devices[self.conn_id]:
return False
if not devices[self.conn_id]:
return False
return True
return True
def hid_send(self, evt):
if not self._check_connection():
return
def hid_send(self, evt):
if not self._check_connection():
return
device = self.devices[self.conn_id]
device = self.devices[self.conn_id]
while len(evt) < len(device._characteristic.value) + 1:
evt.append(0)
while len(evt) < len(device._characteristic.value) + 1:
evt.append(0)
return device.send_report(evt[1:])
return device.send_report(evt[1:])
def clear_bonds(self):
import _bleio
def clear_bonds(self):
import _bleio
_bleio.adapter.erase_bonding()
_bleio.adapter.erase_bonding()
def next_connection(self):
self.conn_id = (self.conn_id + 1) % len(self.devices)
def next_connection(self):
self.conn_id = (self.conn_id + 1) % len(self.devices)
def previous_connection(self):
self.conn_id = (self.conn_id - 1) % len(self.devices)
def previous_connection(self):
self.conn_id = (self.conn_id - 1) % len(self.devices)
def start_advertising(self):
advertisement = self.ProvideServicesAdvertisement(self.hid)
advertisement.appearance = self.BLE_APPEARANCE_HID_KEYBOARD
def start_advertising(self):
advertisement = self.ProvideServicesAdvertisement(self.hid)
advertisement.appearance = self.BLE_APPEARANCE_HID_KEYBOARD
self.ble.start_advertising(advertisement)
self.ble.start_advertising(advertisement)
def stop_advertising(self):
self.ble.stop_advertising()
def stop_advertising(self):
self.ble.stop_advertising()
except ImportError:
pass

3
kmk/kmk_keyboard.py
View File

@@ -325,6 +325,7 @@ class KMKKeyboard:
self._hid_helper = BLEHID
else:
self._hid_helper = AbstractHID
self._hid_helper = self._hid_helper()
def _init_matrix(self):
self.matrix = MatrixScanner(
@@ -340,7 +341,7 @@ class KMKKeyboard:
self._extensions = [] + getattr(self, 'extensions', [])
try:
del self._extensions
del self.extensions
except Exception:
pass
finally:

5
user_keymaps/kdb424/nyquist_r2.py
View File

@@ -1,4 +1,6 @@
from kmk.boards.converter.keebio.nyquist_r2 import KMKKeyboard
from kmk.extensions.leader import Leader, LeaderMode
from kmk.extensions.rgb import RGB
from kmk.handlers.sequences import send_string, simple_key_sequence
from kmk.keys import KC
@@ -10,6 +12,7 @@ keyboard.leader_timeout = 2000
keyboard.debug_enabled = False
# RGB Config (underglow)
'''
keyboard.rgb_config['num_pixels'] = 12
keyboard.rgb_config['val_limit'] = 150
keyboard.rgb_config['hue_step'] = 10
@@ -22,7 +25,7 @@ keyboard.rgb_config['knight_effect_length'] = 4
keyboard.rgb_config['animation_mode'] = 'static'
keyboard.rgb_config['animation_speed'] = 1
keyboard.debug_enabled = False
'''
_______ = KC.TRNS
XXXXXXX = KC.NO
SHFT_INS = KC.LSHIFT(KC.INS)