sonic-buildimage/device/delta/x86_64-delta_evs-a-32q56-r0/plugins/sfputil.py
Tony Titus 05dc6834c2
[201911] Update Innovium device support (#5341)
- Add new device delta_evs-a-32q56 support for Innovium
- Update qos and buffer json files
- Update Innovium config files
2020-10-07 10:51:24 -07:00

261 lines
8.6 KiB
Python

# sfputil.py
#
# Platform-specific SFP transceiver interface for SONiC
#
try:
import os.path
import time
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_START_SFP = 32
PORT_END = 33
PORTS_IN_BLOCK = 34
_port_to_eeprom_mapping = {}
port_dict = {}
@property
def port_start(self):
return self.PORT_START
@property
def port_end(self):
return self.PORT_END
@property
def port_start_sfp(self):
return self.PORT_START_SFP
@property
def qsfp_ports(self):
return range(0, self.PORTS_IN_BLOCK + 1)
@property
def port_to_eeprom_mapping(self):
return self._port_to_eeprom_mapping
@property
def get_transceiver_status(self):
try:
reg_file = open("/sys/kernel/sfp/sfp_is_present")
except IOError as e:
print "Error: unable to open file: %s" % str(e)
return False
content = reg_file.readline().rstrip()
reg_file.close()
return int(content, 16)
def __init__(self):
eeprom_path = "/sys/bus/i2c/devices/{0}-0050/eeprom"
for x in range(0, self.port_end + 1):
if x >= self.port_start_sfp:
# SFP1: 41-0050, SFP2: 42-0050
self.port_to_eeprom_mapping[x] = eeprom_path.format(x + 9)
else:
# QSFP1: 51-0050 ~ QSFP32: 82-0050
self.port_to_eeprom_mapping[x] = eeprom_path.format(x + 51)
self.modprs_register = self.get_transceiver_status
SfpUtilBase.__init__(self)
def get_presence(self, port_num):
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
if port_num < 16 or port_num >= self.port_start_sfp:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x01")
else:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x10")
if port_num >= self.port_start_sfp:
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x01").readline().strip()
else:
if ((port_num / 8) % 2 == 0):
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x08").readline().strip()
else:
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x09").readline().strip()
# content is a string containing the hex representation of the register
reg_value = int(content, 16)
# Mask off the bit corresponding to our port
mask = (1 << (port_num % 8))
# 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 - 2:
return False
if port_num < 16:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x01")
else:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x10")
if ((port_num / 8) % 2 == 0):
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x12").readline().strip()
else:
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x13").readline().strip()
# content is a string containing the hex representation of the register
reg_value = int(content, 16)
# Mask off the bit corresponding to our port
mask = (1 << (port_num % 8))
# 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 - 2:
return False
if port_num < 16:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x01")
else:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x10")
if ((port_num / 8) % 2 == 0):
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x12").readline().strip()
else:
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x13").readline().strip()
# content is a string containing the hex representation of the register
reg_value = int(content, 16)
# Mask off the bit corresponding to our port
mask = (1 << (port_num % 8))
# 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).rstrip("L") or "0"
if ((port_num / 8) % 2 == 0):
os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x00 0x12 {0}".format(content))
else:
os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x00 0x13 {0}".format(content))
return True
def reset(self, port_num):
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end - 2:
return False
if port_num < 16:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x01")
else:
os.popen("ipmitool raw 0x06 0x52 0x07 0xe2 0x01 0x10")
if ((port_num / 8) % 2 == 0):
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x06").readline().strip()
else:
content = os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x01 0x07").readline().strip()
# File content is a string containing the hex representation of the register
reg_value = int(content, 16)
# Mask off the bit corresponding to our port
mask = (1 << (port_num % 8))
# ResetL is active low
reg_value = reg_value & ~mask
# Convert our register value back to a hex string and write back
if ((port_num / 8) % 2 == 0):
os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x00 0x06 {0}".format(hex(reg_value)))
else:
os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x00 0x07 {0}".format(hex(reg_value)))
# 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
reg_value = reg_value | mask
if ((port_num / 8) % 2 == 0):
os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x00 0x06 {0}".format(hex(reg_value)))
else:
os.popen("ipmitool raw 0x06 0x52 0x07 0x64 0x00 0x07 {0}".format(hex(reg_value)))
return True
def get_transceiver_change_event(self, timeout=2000):
start_time = time.time()
port_dict = {}
port = self.port_start
forever = False
if timeout == 0:
forever = True
elif timeout > 0:
timeout = timeout / float(1000) # Convert to secs
else:
print "get_transceiver_change_event:Invalid timeout value", timeout
return False, {}
end_time = start_time + timeout
if start_time > end_time:
print 'get_transceiver_change_event:' \
'time wrap / invalid timeout value', timeout
return False, {} # Time wrap or possibly incorrect timeout
while timeout >= 0:
# Check for OIR events and return updated port_dict
reg_value = self.get_transceiver_status
if reg_value != self.modprs_register:
changed_ports = self.modprs_register ^ reg_value
while port >= self.port_start and port <= self.port_end:
# Mask off the bit corresponding to our port
mask = (1 << port)
if changed_ports & mask:
# ModPrsL is active low
if reg_value & mask == 0:
port_dict[port] = '1'
else:
port_dict[port] = '0'
port += 1
# Update reg value
self.modprs_register = reg_value
return True, port_dict
if forever:
time.sleep(1)
else:
timeout = end_time - time.time()
if timeout >= 1:
time.sleep(1) # We poll at 1 second granularity
else:
if timeout > 0:
time.sleep(timeout)
return True, {}
print "get_transceiver_change_event: Should not reach here."
return False, {}