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sonic-buildimage/device/celestica/x86_64-cel_e1031-r0/sonic_platform/watchdog.py
Wirut Getbamrung 4bf873bf42
[device/celestica]: Fix failed test cases of Haliburton platform API (#7579) 
- Why I did it
To fix failed test cases of Haliburton platform APIs that found on platform_tests script
- How I did it
Add device/celestica/x86_64-cel_e1031-r0/platform.json
Update functions to support python3.7
Add more functions follow latest sonic_platform_base
Fix the bug
- How to verify it
Run platform_tests script

Signed-off-by: Wirut Getbamrung [wgetbumr@celestica.com]
2021-07-23 06:18:39 -07:00

207 lines
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#############################################################################
# Celestica
#
# Watchdog contains an implementation of SONiC Platform Base API
#
#############################################################################
try:
import os
import time
from sonic_platform_base.watchdog_base import WatchdogBase
from .common import Common
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
PLATFORM_CPLD_PATH = '/sys/devices/platform/e1031.smc/'
SETREG_FILE = 'setreg'
GETREG_FILE = 'getreg'
WDT_COMMON_ERROR = -1
MMC_VERSION_REG = "0x100"
# watchdog infomation for cpld v06
V06_MMC_VERSION = 0x05
V06_WDT_WIDTH = '0x110'
V06_WDT_WIDTH_SELECTOR = {
30: '0x1',
60: '0x2',
180: '0x3'
}
V06_CPLD_WDT_INFO = {
'wdt_en_reg': '0x111',
'wdt_en_cmd': '0x0',
'wdt_dis_cmd': '0x1'
}
# watchdog infomation
WDT_TIMER_L_BIT_REG = '0x117'
WDT_TIMER_M_BIT_REG = '0x118'
WDT_TIMER_H_BIT_REG = '0x119'
WDT_KEEP_ALVIVE_REG = '0x11a'
CPLD_WDT_INFO = {
'wdt_en_reg': '0x116',
'wdt_en_cmd': '0x1',
'wdt_dis_cmd': '0x0'
}
class Watchdog(WatchdogBase):
def __init__(self):
# Init api_common
self._api_common = Common()
# Init cpld reg path
self.setreg_path = os.path.join(PLATFORM_CPLD_PATH, SETREG_FILE)
self.getreg_path = os.path.join(PLATFORM_CPLD_PATH, GETREG_FILE)
self.mmc_v = self._get_mmc_version()
self.cpld_info = V06_CPLD_WDT_INFO if self.mmc_v <= V06_MMC_VERSION else CPLD_WDT_INFO
# Set default value
self._disable()
self.armed = False
self.timeout = 0
def _get_mmc_version(self):
hex_str_v = self._api_common.get_reg(self.getreg_path, MMC_VERSION_REG)
return int(hex_str_v, 16)
def _get_level_hex(self, sub_hex):
sub_hex_str = sub_hex.replace("x", "0")
return hex(int(sub_hex_str, 16))
def _seconds_to_lmh_hex(self, seconds):
ms = seconds*1000 # calculate timeout in ms format
hex_str = hex(ms)
l = self._get_level_hex(hex_str[-2:])
m = self._get_level_hex(hex_str[-4:-2])
h = self._get_level_hex(hex_str[-6:-4])
return (l, m, h)
def _enable(self):
"""
Turn on the watchdog timer
"""
return self._api_common.set_reg(self.setreg_path, self.cpld_info['wdt_en_reg'], self.cpld_info['wdt_en_cmd'])
def _disable(self):
"""
Turn off the watchdog timer
"""
return self._api_common.set_reg(self.setreg_path, self.cpld_info['wdt_en_reg'], self.cpld_info['wdt_dis_cmd'])
def _keepalive(self):
"""
Keep alive watchdog timer
"""
if self.mmc_v <= V06_MMC_VERSION:
self._disable()
self._enable()
else:
self._api_common.set_reg(
self.setreg_path, WDT_KEEP_ALVIVE_REG, self.cpld_info['wdt_en_cmd'])
def _settimeout(self, seconds):
"""
Set watchdog timer timeout
@param seconds - timeout in seconds
@return is the actual set timeout
"""
if self.mmc_v <= V06_MMC_VERSION:
timeout_hex = V06_WDT_WIDTH_SELECTOR.get(seconds, '0x2')
seconds = 60 if timeout_hex == '0x2' else seconds
self._api_common.set_reg(
self.setreg_path, V06_WDT_WIDTH, timeout_hex)
else:
(l, m, h) = self._seconds_to_lmh_hex(seconds)
self._api_common.set_reg(
self.setreg_path, WDT_TIMER_H_BIT_REG, h) # set high bit
self._api_common.set_reg(
self.setreg_path, WDT_TIMER_M_BIT_REG, m) # set med bit
self._api_common.set_reg(
self.setreg_path, WDT_TIMER_L_BIT_REG, l) # set low bit
return seconds
#################################################################
def arm(self, seconds):
"""
Arm the hardware watchdog with a timeout of <seconds> seconds.
If the watchdog is currently armed, calling this function will
simply reset the timer to the provided value. If the underlying
hardware does not support the value provided in <seconds>, this
method should arm the watchdog with the *next greater* available
value.
Returns:
An integer specifying the *actual* number of seconds the watchdog
was armed with. On failure returns -1.
"""
ret = WDT_COMMON_ERROR
if seconds < 0 or seconds > 180:
return ret
try:
if self.timeout != seconds:
self.timeout = self._settimeout(seconds)
if self.armed:
self._keepalive()
else:
self._enable()
self.armed = True
ret = self.timeout
self.arm_timestamp = time.time()
except IOError as e:
print("Error: unable to enable wdt due to : {}".format(e))
return ret
def disarm(self):
"""
Disarm the hardware watchdog
Returns:
A boolean, True if watchdog is disarmed successfully, False if not
"""
disarmed = False
try:
self._disable()
self.armed = False
disarmed = True
except IOError as e:
print("Error: unable to disable wdt due to : {}".format(e))
return disarmed
def is_armed(self):
"""
Retrieves the armed state of the hardware watchdog.
Returns:
A boolean, True if watchdog is armed, False if not
"""
return self.armed
def get_remaining_time(self):
"""
If the watchdog is armed, retrieve the number of seconds remaining on
the watchdog timer
Returns:
An integer specifying the number of seconds remaining on thei
watchdog timer. If the watchdog is not armed, returns -1.
"""
timeleft = WDT_COMMON_ERROR
if self.armed:
timeleft = int(self.timeout - (time.time() - self.arm_timestamp))
return timeleft
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