sonic-buildimage/device/dell/x86_64-dell_s6100_c2538-r0/plugins/sfputil.py
Aravind Mani 80fdb29957 Dell S6100: Modify transceiver change event from interrupt to poll mode (#7309)
#### Why I did it

- xcvrd crash was seen in latest 201811 images.
- For Dell S6100,API 2.0 uses poll mode while 1.0 was still using interrupt mode.

#### How I did it

- Modified get_transceiver_change_event in 1.0 to poll mode.
2021-04-21 14:01:53 -07:00

582 lines
18 KiB
Python

# sfputil.py
#
# Platform-specific SFP transceiver interface for SONiC
#
# +-i2c----+--------+
# | 6 | 7 |
# | +-------------+ |
# | |IOM1 | IOM3 | |
# | |IOM2 | IOM4 | |
# | +-------------+ |
# | 8 | 9 |
# +--------+--------+
try:
import time
import os
import logging
from sonic_sfp.sfputilbase import SfpUtilBase
except ImportError as e:
raise ImportError("%s - required module not found" % str(e))
class SfpUtil(SfpUtilBase):
"""Platform-specific SfpUtil class"""
PORT_START = 0
PORT_END = 63
PORTS_IN_BLOCK = 64
POLL_INTERVAL = 1
_port_to_eeprom_mapping = {}
_port_to_i2c_mapping = {
0: [6, 18, 34, 50, 66],
1: [6, 19, 35, 51, 67],
2: [6, 20, 36, 52, 68],
3: [6, 21, 37, 53, 69],
4: [6, 22, 38, 54, 70],
5: [6, 23, 39, 55, 71],
6: [6, 24, 40, 56, 72],
7: [6, 25, 41, 57, 73],
8: [6, 26, 42, 58, 74],
9: [6, 27, 43, 59, 75],
10: [6, 28, 44, 60, 76],
11: [6, 29, 45, 61, 77],
12: [6, 30, 46, 62, 78],
13: [6, 31, 47, 63, 79],
14: [6, 32, 48, 64, 80],
15: [6, 33, 49, 65, 81],
16: [8, 18, 34, 50, 66],
17: [8, 19, 35, 51, 67],
18: [8, 20, 36, 52, 68],
19: [8, 21, 37, 53, 69],
20: [8, 22, 38, 54, 70],
21: [8, 23, 39, 55, 71],
22: [8, 24, 40, 56, 72],
23: [8, 25, 41, 57, 73],
24: [8, 26, 42, 58, 74],
25: [8, 27, 43, 59, 75],
26: [8, 28, 44, 60, 76],
27: [8, 29, 45, 61, 77],
28: [8, 30, 46, 62, 78],
29: [8, 31, 47, 63, 79],
30: [8, 32, 48, 64, 80],
31: [8, 33, 49, 65, 81],
32: [7, 18, 34, 50, 66],
33: [7, 19, 35, 51, 67],
34: [7, 20, 36, 52, 68],
35: [7, 21, 37, 53, 69],
36: [7, 22, 38, 54, 70],
37: [7, 23, 39, 55, 71],
38: [7, 24, 40, 56, 72],
39: [7, 25, 41, 57, 73],
40: [7, 26, 42, 58, 74],
41: [7, 27, 43, 59, 75],
42: [7, 28, 44, 60, 76],
43: [7, 29, 45, 61, 77],
44: [7, 30, 46, 62, 78],
45: [7, 31, 47, 63, 79],
46: [7, 32, 48, 64, 80],
47: [7, 33, 49, 65, 81],
48: [9, 18, 34, 50, 66],
49: [9, 19, 35, 51, 67],
50: [9, 20, 36, 52, 68],
51: [9, 21, 37, 53, 69],
52: [9, 22, 38, 54, 70],
53: [9, 23, 39, 55, 71],
54: [9, 24, 40, 56, 72],
55: [9, 25, 41, 57, 73],
56: [9, 26, 42, 58, 74],
57: [9, 27, 43, 59, 75],
58: [9, 28, 44, 60, 76],
59: [9, 29, 45, 61, 77],
60: [9, 30, 46, 62, 78],
61: [9, 31, 47, 63, 79],
62: [9, 32, 48, 64, 80],
63: [9, 33, 49, 65, 81]
}
IOM_1_PORT_START = 0
IOM_1_PORT_END = 15
IOM_2_PORT_START = 16
IOM_2_PORT_END = 31
IOM_3_PORT_START = 32
IOM_3_PORT_END = 47
IOM_4_PORT_START = 48
IOM_4_PORT_END = 63
BASE_VAL_PATH = "/sys/class/i2c-adapter/i2c-{0}/{0}-003e/"
oir_fd = -1
epoll = -1
@property
def port_start(self):
return self.PORT_START
@property
def port_end(self):
return self.PORT_END
@property
def qsfp_ports(self):
return list(range(0, self.PORTS_IN_BLOCK + 1))
@property
def iom1_port_start(self):
return self.IOM_1_PORT_START
@property
def iom1_port_end(self):
return self.IOM_1_PORT_END
@property
def iom2_port_start(self):
return self.IOM_2_PORT_START
@property
def iom2_port_end(self):
return self.IOM_2_PORT_END
@property
def iom3_port_start(self):
return self.IOM_3_PORT_START
@property
def iom3_port_end(self):
return self.IOM_3_PORT_END
@property
def iom4_port_start(self):
return self.IOM_4_PORT_START
@property
def iom4_port_end(self):
return self.IOM_4_PORT_END
@property
def port_to_eeprom_mapping(self):
return self._port_to_eeprom_mapping
@property
def port_to_i2c_mapping(self):
return self._port_to_i2c_mapping
def __init__(self):
eeprom_path = "/sys/class/i2c-adapter/i2c-{0}/i2c-{1}/{1}-0050/eeprom"
global port_to_eeprom_path
for port_num in range(0, self.port_end + 1):
if port_num >= self.iom1_port_start and port_num <=\
self.iom1_port_end:
assigned = 0
# i2c-6
for x in range(1, 5):
port_to_eeprom_path = eeprom_path.format(
self.port_to_i2c_mapping[port_num][0],
self.port_to_i2c_mapping[port_num][x])
if (os.path.isfile(port_to_eeprom_path)):
self.port_to_eeprom_mapping[port_num] =\
port_to_eeprom_path
assigned = 1
elif (not assigned):
self.port_to_eeprom_mapping[port_num] =\
"No IOM"
elif(port_num >= self.iom2_port_start and
port_num <= self.iom2_port_end):
assigned = 0
# i2c-8
for x in range(1, 5):
port_to_eeprom_path = eeprom_path.format(
self.port_to_i2c_mapping[port_num][0],
self.port_to_i2c_mapping[port_num][x])
if (os.path.isfile(port_to_eeprom_path)):
self.port_to_eeprom_mapping[port_num] =\
port_to_eeprom_path
assigned = 1
elif (not assigned):
self.port_to_eeprom_mapping[port_num] =\
"No IOM"
elif(port_num >= self.iom3_port_start and port_num <=
self.iom3_port_end):
assigned = 0
# i2c-7
for x in range(1, 5):
port_to_eeprom_path = eeprom_path.format(
self.port_to_i2c_mapping[port_num][0],
self.port_to_i2c_mapping[port_num][x])
if (os.path.isfile(port_to_eeprom_path)):
self.port_to_eeprom_mapping[port_num] =\
port_to_eeprom_path
assigned = 1
elif (not assigned):
self.port_to_eeprom_mapping[port_num] =\
"No IOM"
elif(port_num >= self.iom4_port_start and port_num <=
self.iom4_port_end):
assigned = 0
# i2c-9
for x in range(1, 5):
port_to_eeprom_path = eeprom_path.format(
self.port_to_i2c_mapping[port_num][0],
self.port_to_i2c_mapping[port_num][x])
if (os.path.isfile(port_to_eeprom_path)):
self.port_to_eeprom_mapping[port_num] =\
port_to_eeprom_path
assigned = 1
elif (not assigned):
self.port_to_eeprom_mapping[port_num] =\
"No IOM"
SfpUtilBase.__init__(self)
self._transceiver_presence = self._get_transceiver_presence()
def __del__(self):
if self.oir_fd != -1:
self.epoll.unregister(self.oir_fd.fileno())
self.epoll.close()
self.oir_fd.close()
def get_presence(self, port_num):
global i2c_line
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
# port_num and i2c match
if(port_num >= self.iom1_port_start and port_num <=
self.iom1_port_end):
i2c_line = 14
elif(port_num >= self.iom2_port_start and port_num <=
self.iom2_port_end):
i2c_line = 16
elif(port_num >= self.iom3_port_start and port_num <=
self.iom3_port_end):
i2c_line = 15
elif(port_num >= self.iom4_port_start and port_num <=
self.iom4_port_end):
i2c_line = 17
try:
qsfp_path = self.BASE_VAL_PATH.format(i2c_line)+"qsfp_modprs"
reg_file = open(qsfp_path, "r")
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
content = reg_file.readline().rstrip()
# Absence of IOM throws read error
if (content == 'read error'):
return False
# content is a string containing the hex representation of the register
reg_value = int(content, 16)
# Rationalize port settings
if port_num > 15:
port_num = port_num % 16
# Mask off the bit corresponding to our port
mask = (1 << port_num)
# ModPrsL is active low
if reg_value & mask == 0:
return True
return False
def get_low_power_mode(self, port_num):
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
# port_num and i2c match
if(port_num >= self.iom1_port_start and port_num <=
self.iom1_port_end):
i2c_line = 14
elif(port_num >= self.iom2_port_start and port_num <=
self.iom2_port_end):
i2c_line = 16
elif(port_num >= self.iom3_port_start and port_num <=
self.iom3_port_end):
i2c_line = 15
elif(port_num >= self.iom4_port_start and port_num <=
self.iom4_port_end):
i2c_line = 17
try:
qsfp_path = self.BASE_VAL_PATH.format(i2c_line)+"qsfp_lpmode"
reg_file = open(qsfp_path, "r")
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
content = reg_file.readline().rstrip()
# Absence of IOM throws read error
if (content == 'read error'):
return False
# content is a string containing the hex representation of the register
reg_value = int(content, 16)
# Rationalize port settings
if port_num > 15:
port_num = port_num % 16
# Mask off the bit corresponding to our port
mask = (1 << port_num)
# LPMode is active high
if reg_value & mask == 0:
return False
return True
def set_low_power_mode(self, port_num, lpmode):
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
# port_num and i2c match
if(port_num >= self.iom1_port_start and port_num <=
self.iom1_port_end):
i2c_line = 14
elif(port_num >= self.iom2_port_start and port_num <=
self.iom2_port_end):
i2c_line = 16
elif(port_num >= self.iom3_port_start and port_num <=
self.iom3_port_end):
i2c_line = 15
elif(port_num >= self.iom4_port_start and port_num <=
self.iom4_port_end):
i2c_line = 17
try:
qsfp_path = self.BASE_VAL_PATH.format(i2c_line)+"qsfp_lpmode"
reg_file = open(qsfp_path, "r+")
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
content = reg_file.readline().rstrip()
# Absence of IOM throws read error
if (content == 'read error'):
return False
# content is a string containing the hex representation of the register
reg_value = int(content, 16)
# Rationalize port settings
if port_num > 15:
port_num = port_num % 16
# Mask off the bit corresponding to our port
mask = (1 << port_num)
# LPMode is active high; set or clear the bit accordingly
if lpmode is True:
reg_value = reg_value | mask
else:
reg_value = reg_value & ~mask
# Convert our register value back to a hex string and write back
content = hex(reg_value)
reg_file.seek(0)
reg_file.write(content)
reg_file.close()
return True
def reset(self, port_num):
global i2c_line
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
# port_num and i2c match
if(port_num >= self.iom1_port_start and port_num <=
self.iom1_port_end):
i2c_line = 14
elif(port_num >= self.iom2_port_start and port_num <=
self.iom2_port_end):
i2c_line = 16
elif(port_num >= self.iom3_port_start and port_num <=
self.iom3_port_end):
i2c_line = 15
elif(port_num >= self.iom4_port_start and port_num <=
self.iom4_port_end):
i2c_line = 17
try:
qsfp_path = self.BASE_VAL_PATH.format(i2c_line)+"qsfp_lpmode"
reg_file = open(qsfp_path, "r+")
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
content = reg_file.readline().rstrip()
# Absence of IOM throws read error
if (content == 'read error'):
print("it's empty")
return False
# File content is a string containing the hex representation
# of the register
reg_value = int(content, 16)
# Rationalize port settings
if port_num > 15:
port_num = port_num % 16
# Mask off the bit corresponding to our port
mask = (1 << port_num)
# ResetL is active low
reg_value = reg_value & ~mask
# Convert our register value back to a hex string and write back
reg_file.seek(0)
reg_file.write(hex(reg_value))
reg_file.close()
# Sleep 1 second to allow it to settle
time.sleep(1)
# Flip the bit back high and write back to the register to take port
# out of reset
try:
qsfp_path = self.BASE_VAL_PATH.format(i2c_line)+"qsfp_lpmode"
reg_file = open(qsfp_path, "w")
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
reg_value = reg_value | mask
reg_file.seek(0)
reg_file.write(hex(reg_value))
reg_file.close()
return True
def get_register(self, reg_file):
retval = 'ERR'
if not os.path.isfile(reg_file):
print(reg_file + ' not found !')
return retval
try:
with open(reg_file, 'r') as fd:
retval = fd.read()
except Exception as error:
logging.error("Unable to open ", reg_file, "file !")
retval = retval.rstrip('\r\n')
retval = retval.lstrip(" ")
return retval
def _get_transceiver_presence(self):
cpld2_modprs = self.get_register(
"/sys/class/i2c-adapter/i2c-14/14-003e/qsfp_modprs")
cpld3_modprs = self.get_register(
"/sys/class/i2c-adapter/i2c-15/15-003e/qsfp_modprs")
cpld4_modprs = self.get_register(
"/sys/class/i2c-adapter/i2c-16/16-003e/qsfp_modprs")
cpld5_modprs = self.get_register(
"/sys/class/i2c-adapter/i2c-17/17-003e/qsfp_modprs")
# If IOM is not present, register read will fail.
# Handle the scenario gracefully
if cpld2_modprs == 'read error' or cpld2_modprs == 'ERR':
cpld2_modprs = '0x0'
if cpld3_modprs == 'read error' or cpld3_modprs == 'ERR':
cpld3_modprs = '0x0'
if cpld4_modprs == 'read error' or cpld4_modprs == 'ERR':
cpld4_modprs = '0x0'
if cpld5_modprs == 'read error' or cpld5_modprs == 'ERR':
cpld5_modprs = '0x0'
# Make it contiguous
transceiver_presence = (int(cpld2_modprs, 16) & 0xffff) |\
((int(cpld4_modprs, 16) & 0xffff) << 16) |\
((int(cpld3_modprs, 16) & 0xffff) << 32) |\
((int(cpld5_modprs, 16) & 0xffff) << 48)
return transceiver_presence
def get_transceiver_change_event(self, timeout=0):
"""
Returns a dictionary containing optics insertion/removal status.
Args:
timeout: Timeout in milliseconds (optional). If timeout == 0,
this method will block until a change is detected.
Returns:
(bool, dict):
- True if call successful, False if not;
"""
port_dict = {}
forever = False
if timeout == 0:
forever = True
elif timeout > 0:
timeout = timeout / float(1000) # Convert to secs
else:
return False, port_dict # Incorrect timeout
while True:
if forever:
timer = self.POLL_INTERVAL
else:
timer = min(timeout, self.POLL_INTERVAL)
start_time = time.time()
time.sleep(timer)
cur_presence = self._get_transceiver_presence()
# Update dict only if a change has been detected
if cur_presence != self._transceiver_presence:
changed_ports = self._transceiver_presence ^ cur_presence
for port in range(self.port_end):
# Mask off the bit corresponding to particular port
mask = 1 << port
if changed_ports & mask:
# qsfp_modprs 1 => optics is removed
if cur_presence & mask:
port_dict[port] = '0'
# qsfp_modprs 0 => optics is inserted
else:
port_dict[port] = '1'
# Update current presence
self._transceiver_presence = cur_presence
break
if not forever:
elapsed_time = time.time() - start_time
timeout = round(timeout - elapsed_time, 3)
if timeout <= 0:
break
return True, port_dict