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[DellEMC] Platform2.0 API Implementation for Watchdog [Z9264F] #4192

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Original file line number Diff line number Diff line change
Expand Up @@ -15,6 +15,7 @@
from sonic_platform.sfp import Sfp
from sonic_platform.eeprom import Eeprom
from sonic_platform.psu import Psu
from sonic_platform.watchdog import Watchdog
from sonic_platform.thermal import Thermal
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
Expand Down Expand Up @@ -56,6 +57,8 @@ def __init__(self):

self._eeprom = Eeprom()

self._watchdog = Watchdog()

for i in range(MAX_Z9264F_PSU):
psu = Psu(i)
self._psu_list.append(psu)
Expand Down
Original file line number Diff line number Diff line change
@@ -0,0 +1,214 @@
#!/usr/bin/env python

########################################################################
#
# DELLEMC Z9264f
#
# Abstract base class for implementing a platform-specific class with
# which to interact with a hardware watchdog module in SONiC
#
########################################################################

try:
import sys
import struct
import ctypes
import subprocess
from sonic_platform_base.watchdog_base import WatchdogBase
except ImportError as e:
raise ImportError(str(e) + "- required module not found")


class _timespec(ctypes.Structure):
_fields_ = [
('tv_sec', ctypes.c_long),
('tv_nsec', ctypes.c_long)
]


class Watchdog(WatchdogBase):
"""
Abstract base class for interfacing with a hardware watchdog module
"""

TIMERS = [15,20,30,40,50,60,65,70]

armed_time = 0
timeout = 0
CLOCK_MONOTONIC = 1

def __init__(self):
self._librt = ctypes.CDLL('librt.so.1', use_errno=True)
self._clock_gettime = self._librt.clock_gettime
self._clock_gettime.argtypes=[ctypes.c_int, ctypes.POINTER(_timespec)]

def _get_command_result(self, cmdline):
try:
proc = subprocess.Popen(cmdline.split(), stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
stdout = proc.communicate()[0]
proc.wait()
result = stdout.rstrip('\n')
except OSError:
result = None

return result

def _get_reg_val(self):
# 0x31 = CPLD I2C Base Address
# 0x07 = Watchdog Function Register
value = self._get_command_result("/usr/sbin/i2cget -y 601 0x31 0x07")
if not value:
return None
else:
return int(value, 16)

def _set_reg_val(self,val):
# 0x31 = CPLD I2C Base Address
# 0x07 = Watchdog Function Register
value = self._get_command_result("/usr/sbin/i2cset -y 601 0x31 0x07 %s"
% (val))
return value

def _get_time(self):
"""
To get clock monotonic time
"""
ts = _timespec()
if self._clock_gettime(self.CLOCK_MONOTONIC, ctypes.pointer(ts)) != 0:
self._errno = ctypes.get_errno()
return 0
return ts.tv_sec + ts.tv_nsec * 1e-9

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.
"""
timer_offset = -1
for key,timer_seconds in enumerate(self.TIMERS):
if seconds <= timer_seconds:
timer_offset = key
seconds = timer_seconds
break

if timer_offset == -1:
return -1

# Extracting 5th to 7th bits for WD timer values
# 000 - 15 sec
# 001 - 20 sec
# 010 - 30 sec
# 011 - 40 sec
# 100 - 50 sec
# 101 - 60 sec
# 110 - 65 sec
# 111 - 70 sec
reg_val = self._get_reg_val()
wd_timer_offset = (reg_val >> 4) & 0x7

if wd_timer_offset != timer_offset:
# Setting 5th to 7th bits
# value from timer_offset
self.disarm()
self._set_reg_val((reg_val & 0x87) | (timer_offset << 4))

if self.is_armed():
# Setting last bit to WD Timer punch
# Last bit = WD Timer punch
self._set_reg_val(reg_val & 0xFE)

self.armed_time = self._get_time()
self.timeout = seconds
return seconds
else:
# Setting 4th bit to enable WD
# 4th bit = Enable WD
reg_val = self._get_reg_val()
self._set_reg_val(reg_val | 0x8)

self.armed_time = self._get_time()
self.timeout = seconds
return seconds

return -1

def disarm(self):
"""
Disarm the hardware watchdog

Returns:
A boolean, True if watchdog is disarmed successfully, False
if not
"""
if self.is_armed():
# Setting 4th bit to disable WD
# 4th bit = Disable WD
reg_val = self._get_reg_val()
self._set_reg_val(reg_val & 0xF7)

self.armed_time = 0
self.timeout = 0
return True

return False

def is_armed(self):
"""
Retrieves the armed state of the hardware watchdog.

Returns:
A boolean, True if watchdog is armed, False if not
"""

# Extracting 4th bit to get WD Enable/Disable status
# 0 - Disabled WD
# 1 - Enabled WD
reg_val = self._get_reg_val()
wd_offset = (reg_val >> 3) & 1

return bool(wd_offset)

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
their watchdog timer. If the watchdog is not armed, returns
-1.

Z9264 doesnot have hardware support to show remaining time.
Due to this limitation, this API is implemented in software.
This API would return correct software time difference if it
is called from the process which armed the watchdog timer.
If this API called from any other process, it would return
0. If the watchdog is not armed, this API would return -1.
"""
if not self.is_armed():
return -1

if self.armed_time > 0 and self.timeout != 0:
cur_time = self._get_time()

if cur_time <= 0:
return 0

diff_time = int(cur_time - self.armed_time)

if diff_time > self.timeout:
return self.timeout
else:
return self.timeout - diff_time

return 0