sonic-buildimage/platform/mellanox/mlnx-platform-api/sonic_platform/led.py

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import os
class Led(object):
STATUS_LED_COLOR_GREEN = 'green'
STATUS_LED_COLOR_GREEN_BLINK = 'green_blink'
STATUS_LED_COLOR_RED = 'red'
STATUS_LED_COLOR_RED_BLINK = 'red_blink'
STATUS_LED_COLOR_ORANGE = 'orange'
STATUS_LED_COLOR_ORANGE_BLINK = 'orange_blink'
STATUS_LED_COLOR_OFF = 'off'
LED_ON = '1'
LED_OFF = '0'
LED_BLINK = '50'
LED_PATH = "/var/run/hw-management/led/"
def set_status(self, color):
led_cap_list = self.get_capability()
if led_cap_list is None:
return False
status = False
try:
self._stop_blink(led_cap_list)
blink_pos = color.find('blink')
if blink_pos != -1:
return self._set_status_blink(color, blink_pos, led_cap_list)
if color == Led.STATUS_LED_COLOR_GREEN:
with open(self.get_green_led_path(), 'w') as led:
led.write(Led.LED_ON)
status = True
elif color == Led.STATUS_LED_COLOR_RED:
# Some led don't support red led but support orange led, in this case we set led to orange
if Led.STATUS_LED_COLOR_RED in led_cap_list:
led_path = self.get_red_led_path()
elif Led.STATUS_LED_COLOR_ORANGE in led_cap_list:
led_path = self.get_orange_led_path()
else:
return False
with open(led_path, 'w') as led:
led.write(Led.LED_ON)
status = True
elif color == Led.STATUS_LED_COLOR_OFF:
if Led.STATUS_LED_COLOR_GREEN in led_cap_list:
with open(self.get_green_led_path(), 'w') as led:
led.write(Led.LED_OFF)
if Led.STATUS_LED_COLOR_RED in led_cap_list:
with open(self.get_red_led_path(), 'w') as led:
led.write(Led.LED_OFF)
if Led.STATUS_LED_COLOR_ORANGE in led_cap_list:
with open(self.get_orange_led_path(), 'w') as led:
led.write(Led.LED_OFF)
status = True
else:
status = False
except (ValueError, IOError):
status = False
return status
def _set_status_blink(self, color, blink_pos, led_cap_list):
if color not in led_cap_list:
if color == Led.STATUS_LED_COLOR_RED_BLINK and Led.STATUS_LED_COLOR_ORANGE_BLINK in led_cap_list:
color = Led.STATUS_LED_COLOR_ORANGE_BLINK
elif color == Led.STATUS_LED_COLOR_ORANGE_BLINK and Led.STATUS_LED_COLOR_RED_BLINK in led_cap_list:
color = Led.STATUS_LED_COLOR_RED_BLINK
else:
return False
if Led.STATUS_LED_COLOR_GREEN_BLINK == color:
self._set_led_blink_status(self.get_green_led_delay_on_path(), self.get_green_led_delay_off_path(), Led.LED_BLINK)
elif Led.STATUS_LED_COLOR_RED_BLINK == color:
self._set_led_blink_status(self.get_red_led_delay_on_path(), self.get_red_led_delay_off_path(), Led.LED_BLINK)
elif Led.STATUS_LED_COLOR_ORANGE_BLINK == color:
self._set_led_blink_status(self.get_orange_led_delay_on_path(), self.get_orange_led_delay_off_path(), Led.LED_BLINK)
else:
return False
return True
def _stop_blink(self, led_cap_list):
try:
if Led.STATUS_LED_COLOR_GREEN_BLINK in led_cap_list:
self._set_led_blink_status(self.get_green_led_delay_on_path(), self.get_green_led_delay_off_path(), Led.LED_OFF)
if Led.STATUS_LED_COLOR_RED_BLINK in led_cap_list:
self._set_led_blink_status(self.get_red_led_delay_on_path(), self.get_red_led_delay_off_path(), Led.LED_OFF)
if Led.STATUS_LED_COLOR_ORANGE_BLINK in led_cap_list:
self._set_led_blink_status(self.get_orange_led_delay_on_path(), self.get_orange_led_delay_off_path(), Led.LED_OFF)
except Exception as e:
return
def _set_led_blink_status(self, delay_on_file, delay_off_file, value):
with open(delay_on_file, 'w') as led:
led.write(value)
with open(delay_off_file, 'w') as led:
led.write(value)
def get_status(self):
led_cap_list = self.get_capability()
if led_cap_list is None:
return Led.STATUS_LED_COLOR_OFF
try:
blink_status = self._get_blink_status(led_cap_list)
if blink_status is not None:
return blink_status
with open(self.get_green_led_path(), 'r') as led:
if Led.LED_OFF != led.read().rstrip('\n'):
return Led.STATUS_LED_COLOR_GREEN
if Led.STATUS_LED_COLOR_RED in led_cap_list:
with open(self.get_red_led_path(), 'r') as led:
if Led.LED_OFF != led.read().rstrip('\n'):
return Led.STATUS_LED_COLOR_RED
if Led.STATUS_LED_COLOR_ORANGE in led_cap_list:
with open(self.get_orange_led_path(), 'r') as led:
if Led.LED_OFF != led.read().rstrip('\n'):
return Led.STATUS_LED_COLOR_RED
except (ValueError, IOError) as e:
raise RuntimeError("Failed to read led status due to {}".format(repr(e)))
return Led.STATUS_LED_COLOR_OFF
def _get_blink_status(self, led_cap_list):
try:
if Led.STATUS_LED_COLOR_GREEN_BLINK in led_cap_list:
if self._is_led_blinking(self.get_green_led_delay_on_path(), self.get_green_led_delay_off_path()):
return Led.STATUS_LED_COLOR_GREEN_BLINK
if Led.STATUS_LED_COLOR_RED_BLINK in led_cap_list:
if self._is_led_blinking(self.get_red_led_delay_on_path(), self.get_red_led_delay_off_path()):
return Led.STATUS_LED_COLOR_RED_BLINK
if Led.STATUS_LED_COLOR_ORANGE_BLINK in led_cap_list:
if self._is_led_blinking(self.get_orange_led_delay_on_path(), self.get_orange_led_delay_off_path()):
return Led.STATUS_LED_COLOR_ORANGE_BLINK
except Exception as e:
return None
return None
def _is_led_blinking(self, delay_on_file, delay_off_file):
with open(delay_on_file, 'r') as led:
delay_on = led.read().rstrip('\n')
with open(delay_off_file, 'r') as led:
delay_off = led.read().rstrip('\n')
return delay_on != Led.LED_OFF and delay_off != Led.LED_OFF
def get_capability(self):
cap_list = None
try:
with open(self.get_led_cap_path(), 'r') as led_cap:
caps = led_cap.read()
cap_list = set(caps.split())
except (ValueError, IOError):
pass
return cap_list
def get_green_led_path(self):
pass
def get_green_led_delay_off_path(self):
return '{}_delay_off'.format(self.get_green_led_path())
def get_green_led_delay_on_path(self):
return '{}_delay_on'.format(self.get_green_led_path())
def get_red_led_path(self):
pass
def get_red_led_delay_off_path(self):
return '{}_delay_off'.format(self.get_red_led_path())
def get_red_led_delay_on_path(self):
return '{}_delay_on'.format(self.get_red_led_path())
def get_orange_led_path(self):
pass
def get_orange_led_delay_off_path(self):
return '{}_delay_off'.format(self.get_orange_led_path())
def get_orange_led_delay_on_path(self):
return '{}_delay_on'.format(self.get_orange_led_path())
def get_led_cap_path(self):
pass
class FanLed(Led):
LED_PATH = "/var/run/hw-management/led/"
def __init__(self, index):
if index is not None:
self._green_led_path = os.path.join(Led.LED_PATH, "led_fan{}_green".format(index))
self._red_led_path = os.path.join(Led.LED_PATH, "led_fan{}_red".format(index))
self._orange_led_path = os.path.join(Led.LED_PATH, "led_fan{}_orange".format(index))
self._led_cap_path = os.path.join(Led.LED_PATH, "led_fan{}_capability".format(index))
else:
self._green_led_path = os.path.join(Led.LED_PATH, "led_fan_green")
self._red_led_path = os.path.join(Led.LED_PATH, "led_fan_red")
self._orange_led_path = os.path.join(Led.LED_PATH, "led_fan_orange")
self._led_cap_path = os.path.join(Led.LED_PATH, "led_fan_capability")
def get_green_led_path(self):
return self._green_led_path
def get_red_led_path(self):
return self._red_led_path
def get_orange_led_path(self):
return self._orange_led_path
def get_led_cap_path(self):
return self._led_cap_path
class PsuLed(Led):
def __init__(self, index):
if index is not None:
self._green_led_path = os.path.join(Led.LED_PATH, "led_psu{}_green".format(index))
self._red_led_path = os.path.join(Led.LED_PATH, "led_psu{}_red".format(index))
self._orange_led_path = os.path.join(Led.LED_PATH, "led_psu{}_orange".format(index))
self._led_cap_path = os.path.join(Led.LED_PATH, "led_psu{}_capability".format(index))
else:
self._green_led_path = os.path.join(Led.LED_PATH, "led_psu_green")
self._red_led_path = os.path.join(Led.LED_PATH, "led_psu_red")
self._orange_led_path = os.path.join(Led.LED_PATH, "led_psu_orange")
self._led_cap_path = os.path.join(Led.LED_PATH, "led_psu_capability")
def get_green_led_path(self):
return self._green_led_path
def get_red_led_path(self):
return self._red_led_path
def get_orange_led_path(self):
return self._orange_led_path
def get_led_cap_path(self):
return self._led_cap_path
class SystemLed(Led):
def __init__(self):
self._green_led_path = os.path.join(Led.LED_PATH, "led_status_green")
self._red_led_path = os.path.join(Led.LED_PATH, "led_status_red")
self._orange_led_path = os.path.join(Led.LED_PATH, "led_status_orange")
self._led_cap_path = os.path.join(Led.LED_PATH, "led_status_capability")
def get_green_led_path(self):
return self._green_led_path
def get_red_led_path(self):
return self._red_led_path
def get_orange_led_path(self):
return self._orange_led_path
def get_led_cap_path(self):
return self._led_cap_path
class SharedLed(object):
LED_PRIORITY = {
Led.STATUS_LED_COLOR_RED: 0,
Led.STATUS_LED_COLOR_GREEN: 1
}
def __init__(self, led):
self._led = led
self._virtual_leds = []
def add_virtual_leds(self, led):
self._virtual_leds.append(led)
def update_status_led(self):
target_color = Led.STATUS_LED_COLOR_GREEN
for virtual_led in self._virtual_leds:
try:
if SharedLed.LED_PRIORITY[virtual_led.get_led_color()] < SharedLed.LED_PRIORITY[target_color]:
target_color = virtual_led.get_led_color()
except KeyError:
return False
return self._led.set_status(target_color)
def get_status(self):
return self._led.get_status()
class ComponentFaultyIndicator(object):
def __init__(self, shared_led):
self._color = Led.STATUS_LED_COLOR_GREEN
self._shared_led = shared_led
self._shared_led.add_virtual_leds(self)
def set_status(self, color):
current_color = self._color
self._color = color
if self._shared_led.update_status_led():
return True
else:
self._color = current_color
return False
def get_led_color(self):
return self._color
def get_status(self):
return self._shared_led.get_status()