sonic-buildimage/device/accton/x86_64-accton_as6712_32x-r0/plugins/sfputil.py

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# sfputil.py
#
# Platform-specific SFP transceiver interface for SONiC
#
try:
import time
import os
import string
from ctypes import create_string_buffer
from sonic_sfp.sfputilbase import SfpUtilBase
except ImportError as e:
raise ImportError("%s - required module not found" % str(e))
#from xcvrd
SFP_STATUS_INSERTED = '1'
SFP_STATUS_REMOVED = '0'
class SfpUtil(SfpUtilBase):
"""Platform-specific SfpUtil class"""
PORT_START = 1
PORT_END = 32
PORTS_IN_BLOCK = 32
QSFP_PORT_START = 1
QSFP_PORT_END = 32
I2C_DEV_PATH = "/sys/bus/i2c/devices/"
BASE_VAL_PATH = "/sys/class/i2c-adapter/i2c-{0}/{1}-0050/"
BASE_OOM_PATH = "/sys/bus/i2c/devices/{0}-0050/"
CPLD_ADDRESS = ['-0062', '-0064']
_port_to_is_present = {}
_port_to_lp_mode = {}
_port_to_eeprom_mapping = {}
_port_to_i2c_mapping = {
1: [1, 2],
2: [2, 3],
3: [3, 4],
4: [4, 5],
5: [5, 6],
6: [6, 7],
7: [7, 8],
8: [8, 9],
9: [9, 10],
10: [10, 11],
11: [11, 12],
12: [12, 13],
13: [13, 14],
14: [14, 15],
15: [15, 16],
16: [16, 17],
17: [17, 18],
18: [18, 19],
19: [19, 20],
20: [20, 21],
21: [21, 22],
22: [22, 23],
23: [23, 24],
24: [24, 25],
25: [25, 26],
26: [26, 27],
27: [27, 28],
28: [28, 29],
29: [29, 30],
30: [30, 31],
31: [31, 32],
32: [32, 33],
}
@property
def port_start(self):
return self.PORT_START
@property
def port_end(self):
return self.PORT_END
@property
def qsfp_port_start(self):
return self.QSFP_PORT_START
@property
def qsfp_port_end(self):
return self.QSFP_PORT_END
@property
def qsfp_ports(self):
return range(self.QSFP_PORT_START, self.PORTS_IN_BLOCK + 1)
@property
def port_to_eeprom_mapping(self):
return self._port_to_eeprom_mapping
def __init__(self):
eeprom_path = self.BASE_OOM_PATH + "eeprom"
for x in range(self.port_start, self.port_end+1):
self.port_to_eeprom_mapping[x] = eeprom_path.format(
self._port_to_i2c_mapping[x][1]
)
SfpUtilBase.__init__(self)
def get_cpld_dev_path(self, port_num):
if port_num <= 16:
cpld_num = 0
else:
cpld_num = 1
#cpld can be at either bus 0 or bus 1.
cpld_path = self.I2C_DEV_PATH + str(0) + self.CPLD_ADDRESS[cpld_num]
if not os.path.exists(cpld_path):
cpld_path = self.I2C_DEV_PATH + str(1) + self.CPLD_ADDRESS[cpld_num]
return cpld_path
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
cpld_path = self.get_cpld_dev_path(port_num)
present_path = cpld_path + "/module_present_"
present_path += str(self._port_to_i2c_mapping[port_num][0])
self.__port_to_is_present = present_path
try:
val_file = open(self.__port_to_is_present)
except IOError as e:
print "Error: unable to open file: %s" % str(e)
return False
content = val_file.readline().rstrip()
val_file.close()
# content is a string, either "0" or "1"
if content == "1":
return True
return False
def get_low_power_mode_cpld(self, port_num):
if port_num < self.qsfp_port_start or port_num > self.qsfp_port_end:
return False
cpld_path = self.get_cpld_dev_path(port_num)
_path = cpld_path + "/module_lp_mode_"
_path += str(self._port_to_i2c_mapping[port_num][0])
try:
reg_file = open(_path)
except IOError as e:
print "Error: unable to open file: %s" % str(e)
return False
content = reg_file.readline().rstrip()
reg_file.close()
# content is a string, either "0" or "1"
if content == "1":
return True
return False
def get_low_power_mode(self, port_num):
if port_num < self.qsfp_port_start or port_num > self.qsfp_port_end:
return False
if not self.get_presence(port_num):
return False
try:
eeprom = None
eeprom = open(self.port_to_eeprom_mapping[port_num], mode="rb", buffering=0)
eeprom.seek(93)
lpmode = ord(eeprom.read(1))
if not (lpmode & 0x1): # 'Power override' bit is 0
return self.get_low_power_mode_cpld(port_num)
else:
if ((lpmode & 0x2) == 0x2):
return True # Low Power Mode if "Power set" bit is 1
else:
return False # High Power Mode if "Power set" bit is 0
except IOError as e:
print "Error: unable to open file: %s" % str(e)
return False
finally:
if eeprom is not None:
eeprom.close()
time.sleep(0.01)
def set_low_power_mode(self, port_num, lpmode):
if port_num < self.qsfp_port_start or port_num > self.qsfp_port_end:
return False
try:
eeprom = None
if not self.get_presence(port_num):
return False # Port is not present, unable to set the eeprom
# Fill in write buffer
regval = 0x3 if lpmode else 0x1 # 0x3:Low Power Mode, 0x1:High Power Mode
buffer = create_string_buffer(1)
buffer[0] = chr(regval)
# Write to eeprom
eeprom = open(self.port_to_eeprom_mapping[port_num], mode="r+b", buffering=0)
eeprom.seek(93)
eeprom.write(buffer[0])
return True
except IOError as e:
print "Error: unable to open file: %s" % str(e)
return False
finally:
if eeprom is not None:
eeprom.close()
time.sleep(0.01)
def reset(self, port_num):
if port_num < self.qsfp_port_start or port_num > self.qsfp_port_end:
return False
cpld_path = self.get_cpld_dev_path(port_num)
_path = cpld_path + "/module_reset_"
_path += str(self._port_to_i2c_mapping[port_num][0])
try:
reg_file = open(_path, 'w')
except IOError as e:
print "Error: unable to open file: %s" % str(e)
return False
reg_file.seek(0)
reg_file.write('1')
time.sleep(1)
reg_file.seek(0)
reg_file.write('0')
reg_file.close()
return True
@property
def get_transceiver_status(self):
nodes = []
cpld_path = self.get_cpld_dev_path(self.port_start)
nodes.append(cpld_path + "/module_present_all")
cpld_path = self.get_cpld_dev_path(self.port_end)
nodes.append(cpld_path + "/module_present_all")
bitmap = ""
for node in nodes:
try:
reg_file = open(node)
except IOError as e:
print "Error: unable to open file: %s" % str(e)
return False
bitmap += reg_file.readline().rstrip() + " "
reg_file.close()
rev = bitmap.split(" ")
rev = "".join(rev[::-1])
return int(rev,16)
data = {'valid':0, 'last':0, 'present':0}
def get_transceiver_change_event(self, timeout=2000):
now = time.time()
port_dict = {}
port = 0
if timeout < 1000:
timeout = 1000
timeout = (timeout) / float(1000) # Convert to secs
if now < (self.data['last'] + timeout) and self.data['valid']:
return True, {}
reg_value = self.get_transceiver_status
changed_ports = self.data['present'] ^ reg_value
if changed_ports:
for port in range (self.port_start, self.port_end+1):
# Mask off the bit corresponding to our port
fp_port = self._port_to_i2c_mapping[port][0]
mask = (1 << (fp_port - 1))
if changed_ports & mask:
if (reg_value & mask) == 0:
port_dict[port] = SFP_STATUS_REMOVED
else:
port_dict[port] = SFP_STATUS_INSERTED
# Update cache
self.data['present'] = reg_value
self.data['last'] = now
self.data['valid'] = 1
return True, port_dict
else:
return True, {}
return False, {}