[Dell] [Z9100] Supporting PreEmphasis Settings for Optics (#2501)

This commit is contained in:
sridhar-ravindran 2019-02-06 14:08:06 +05:30 committed by lguohan
parent 922fdc5de1
commit ed2d87a710
6 changed files with 1620 additions and 0 deletions

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@ -6,6 +6,10 @@ common/fstrim.timer etc/systemd/system
common/fstrim.service etc/systemd/system common/fstrim.service etc/systemd/system
common/platform_reboot usr/share/sonic/device/x86_64-dell_z9100_c2538-r0 common/platform_reboot usr/share/sonic/device/x86_64-dell_z9100_c2538-r0
z9100/scripts/platform_sensors.py usr/local/bin z9100/scripts/platform_sensors.py usr/local/bin
z9100/scripts/z9100_qsfp_monitor.py usr/local/bin
z9100/scripts/z9100_preemp_db.py usr/local/bin
z9100/scripts/qsfp_monitor usr/local/bin
z9100/scripts/sensors usr/bin z9100/scripts/sensors usr/bin
z9100/cfg/z9100-modules.conf etc/modules-load.d z9100/cfg/z9100-modules.conf etc/modules-load.d
z9100/systemd/platform-modules-z9100.service etc/systemd/system z9100/systemd/platform-modules-z9100.service etc/systemd/system
z9100/systemd/z9100-qsfp-monitor.service etc/systemd/system

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@ -9,5 +9,8 @@ depmod -a
systemctl enable platform-modules-z9100.service systemctl enable platform-modules-z9100.service
systemctl start platform-modules-z9100.service systemctl start platform-modules-z9100.service
# Enable Dell-Z9100-Qsfp-Monitor-service
systemctl enable z9100-qsfp-monitor.service
systemctl start z9100-qsfp-monitor.service
#DEBHELPER# #DEBHELPER#

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@ -0,0 +1,4 @@
#!/bin/bash
if [ -r /usr/local/bin/z9100_qsfp_monitor.py ]; then
python /usr/local/bin/z9100_qsfp_monitor.py &
fi

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@ -0,0 +1,522 @@
import os
import re
import signal
import subprocess
import sys
import imp
import syslog
import time
import os.path
import z9100_preemp_db
from sonic_sfp.bcmshell import bcmshell
SYSLOG_IDENTIFIER = "dell_qsfp_monitor"
HWSKU_KEY = 'DEVICE_METADATA.localhost.hwsku'
PLATFORM_KEY = 'DEVICE_METADATA.localhost.platform'
SONIC_CFGGEN_PATH = '/usr/local/bin/sonic-cfggen'
PLATFORM_ROOT_PATH = '/usr/share/sonic/device'
PLATFORM_SPECIFIC_CLASS_NAME = "SfpUtil"
PLATFORM_SPECIFIC_MODULE_NAME = "sfputil"
# Global platform-specific sfputil class instance
platform_sfputil = None
# Timer Value
DEFAULT_WAIT_FOR_SWSS_SYNCD = 45
MINIMUM_WAIT_FOR_BCM_SHELL = 3
MINIMUM_WAIT_FOR_SWSS_SYNCD = 5
MINIMUM_RETRY_FOR_SWSS_DB = 10
# ========================== Syslog wrappers ==========================
def log_debug(msg):
syslog.openlog(SYSLOG_IDENTIFIER)
syslog.syslog(syslog.LOG_DEBUG, msg)
syslog.closelog()
def log_info(msg):
syslog.openlog(SYSLOG_IDENTIFIER)
syslog.syslog(syslog.LOG_INFO, msg)
syslog.closelog()
def log_warning(msg):
syslog.openlog(SYSLOG_IDENTIFIER)
syslog.syslog(syslog.LOG_WARNING, msg)
syslog.closelog()
def log_error(msg):
syslog.openlog(SYSLOG_IDENTIFIER)
syslog.syslog(syslog.LOG_ERR, msg)
syslog.closelog()
# ========================== Signal Handling ==========================
def signal_handler(sig, frame):
if sig == signal.SIGHUP:
log_info("Caught SIGHUP - ignoring...")
return
elif sig == signal.SIGINT:
log_info("Caught SIGINT - exiting...")
sys.exit(128 + sig)
elif sig == signal.SIGTERM:
log_info("Caught SIGTERM - exiting...")
sys.exit(128 + sig)
else:
log_warning("Caught unhandled signal '" + sig + "'")
class BcmShell(bcmshell):
bcm_port_mapping = {}
def port_mapping_populate(self):
try:
content = self.run("ps")
count = 0
for line in content.split("\n"):
PSOutput = re.search(r"(?P<port_name>(xe|ce)\d+)"
"\(\s*(?P<bcm_id>\d+)\).+\s+"
"(?P<speed>\d+)G", line)
if PSOutput is not None:
port = "Ethernet" + str(count)
self.bcm_port_mapping[port] = list()
self.bcm_port_mapping[port].append(
int(PSOutput.group("bcm_id")))
self.bcm_port_mapping[port].append(
PSOutput.group("port_name"))
speed = PSOutput.group("speed")
if ((speed == "100") or (speed == "40")):
lane_count = 4
count = count + 4
elif (speed == "50"):
lane_count = 2
count = count + 2
else:
lane_count = 1
count = count + 1
self.bcm_port_mapping[port].append(str(lane_count))
self.bcm_port_mapping[port].append(speed)
if (speed == "10"):
del self.bcm_port_mapping[port]
except:
log_error("Unable to read bcm port status")
sys.exit(3)
def execute_command(self, cmd):
self.cmd(cmd)
class dell_qsfp_monitor(object):
"""
Class which configures the preEmphasis Settings corresponding to
optics inserted. This script will run only once after reload.
Support Insertion/Removal of optics is not provided
Attributes:
"""
# Instantiate BCM Shell
def __init__(self):
self.bcm_shell = BcmShell()
self.bcm_shell.port_mapping_populate()
# For the given eeprom data, return the PreEmphasisDB to be used
def get_preemphasis_db(self, port, eeprom_dict):
preemphasis_db = {}
if (eeprom_dict == {}):
return z9100_preemp_db.preEmphasis_100g
else:
qsfp_identifier = eeprom_dict["Identifier"]
cable_length = eeprom_dict["Length Cable Assembly(m)"]
if (qsfp_identifier == "QSFP28"):
if (cable_length == 0.75):
preemphasis_db = z9100_preemp_db.preEmphasis_100g_dac_750mm
elif (cable_length == 1):
preemphasis_db = z9100_preemp_db.preEmphasis_100g_dac_1_0m
elif (cable_length == 1.5):
preemphasis_db = z9100_preemp_db.preEmphasis_100g_dac_1_5m
elif (cable_length == 2):
preemphasis_db = z9100_preemp_db.preEmphasis_100g_dac_2_0m
elif (cable_length == 3):
preemphasis_db = z9100_preemp_db.preEmphasis_100g_dac_3_0m
elif (qsfp_identifier == "QSFP+"):
preemphasis_db = z9100_preemp_db.preEmphasis_40g
return preemphasis_db
# For Given Port, Lane and PreEmp Register, retrive the value from
# PreEmphasisDB which needs to be programmed into ASIC,
# In case of Fanned-out ports, use the values from base port
def get_preemphasis_value(self, port, bcm_hw_lane,
preemphasis_dict, preemp_idx):
portIdStr = re.findall('\d+', port)
portId = int(portIdStr[0])
basePortId = (portId//4)*4
portIndex = "Ethernet" + str(basePortId)
value = preemphasis_dict[portIndex][bcm_hw_lane][preemp_idx]
return value
# For Given port, return bcmPortname (Ex:- ce21, xe4, ce0 )
def get_bcm_port_name(self, port):
if (self.bcm_shell.bcm_port_mapping == {}):
log_error("bcm port mapping is null")
sys.exit(3)
bcm_port_name = self.bcm_shell.bcm_port_mapping[port][1]
return bcm_port_name
# Return the number of lanes for the port
# (Ex:- 100G - 4, 50G - 2, 40G - 4)
def get_lane_count(self, port):
if (self.bcm_shell.bcm_port_mapping == {}):
log_error("bcm port mapping is null")
sys.exit(3)
laneCntStr = self.bcm_shell.bcm_port_mapping[port][2]
lane_count = int(laneCntStr)
return lane_count
# For Given port, return bcmPortname (Ex:- ce21, xe4, ce0 )
def get_bcm_port_speed(self, port):
if (self.bcm_shell.bcm_port_mapping == {}):
log_error("bcm port mapping is null")
sys.exit(3)
bcm_port_speed = self.bcm_shell.bcm_port_mapping[port][3]
return bcm_port_speed
# For Given, Port and lane_id, return the hardware lane number
def get_bcm_lane_info(self, port, lane_id):
lane_count = self.get_lane_count(port)
portIdStr = re.findall('\d+', port)
portId = int(portIdStr[0])
basePortId = (portId//4)*4
portIndex = "Ethernet" + str(basePortId)
if ((portId % 4) == 0):
laneIndex = lane_id
elif ((portId % 2) == 0):
if (lane_count == 2):
laneIndex = lane_id + 2
else:
laneIndex = (PortId - basePortId)
else:
laneIndex = (PortId - basePortId)
return z9100_preemp_db.lane_mapping[portIndex][laneIndex]
# Form the AMS_TX_AMP_CTL command string
# "serdes_driver_current" config variable in BCM Chipset
def form_bcm_phy_ams_cmd(self, port, preemphasis_dict):
ams_idx = 0
ams_cmd = list()
bcm_port_name = self.get_bcm_port_name(port)
lane_count = self.get_lane_count(port)
for lane_id in range(lane_count):
bcm_hw_lane = self.get_bcm_lane_info(port, lane_id)
value = self.get_preemphasis_value(port, bcm_hw_lane,
preemphasis_dict, ams_idx)
ams_cmd_str = "phy " + bcm_port_name + " AMS_TX_CTL2r." + str(
bcm_hw_lane) + " AMS_TX_AMP_CTL" + "=" + hex(value)
ams_cmd.append(ams_cmd_str)
return ams_cmd
# Form the TXFIR_POST command string
# "serdes_preemphasis" Bits 23:16 config variable in BCM Chipset
def form_bcm_phy_txfir_post_cmd(self, port, preemphasis_dict):
txfir_post_idx = 1
txfir_post_cmd = list()
bcm_port_name = self.get_bcm_port_name(port)
lane_count = self.get_lane_count(port)
for lane_id in range(lane_count):
bcm_hw_lane = self.get_bcm_lane_info(port, lane_id)
value = self.get_preemphasis_value(port, bcm_hw_lane,
preemphasis_dict,
txfir_post_idx)
txfir_post_str_p1 = "phy " + bcm_port_name + " CL93N72_UT_CTL2r."
txfir_post_str_p2 = txfir_post_str_p1 + str(bcm_hw_lane)
txfir_post_str_p3 = txfir_post_str_p2 + " CL93N72_TXFIR_POST"
txfir_post_cmd_str = txfir_post_str_p3 + "=" + hex(value)
txfir_post_cmd.append(txfir_post_cmd_str)
return txfir_post_cmd
# Form the TXFIR_MAIN command string
# "serdes_preemphasis" Bits 15:8 config variable in BCM Chipset
def form_bcm_phy_txfir_main_cmd(self, port, preemphasis_dict):
txfir_main_idx = 2
txfir_main_cmd = list()
bcm_port_name = self.get_bcm_port_name(port)
lane_count = self.get_lane_count(port)
for lane_id in range(lane_count):
bcm_hw_lane = self.get_bcm_lane_info(port, lane_id)
value = self.get_preemphasis_value(port, bcm_hw_lane,
preemphasis_dict,
txfir_main_idx)
txfir_main_str_p1 = "phy " + bcm_port_name + " CL93N72_UT_CTL3r."
txfir_main_str_p2 = txfir_main_str_p1 + str(bcm_hw_lane)
txfir_main_str_p3 = txfir_main_str_p2 + " CL93N72_TXFIR_MAIN"
txfir_main_cmd_str = txfir_main_str_p3 + "=" + hex(value)
txfir_main_cmd.append(txfir_main_cmd_str)
return txfir_main_cmd
# Form the TXFIR_PRE command string
# "serdes_preemphasis" Bits 7:0 config variable in BCM Chipset
def form_bcm_phy_txfir_pre_cmd(self, port, preemphasis_dict):
txfir_pre_idx = 3
txfir_pre_cmd = list()
bcm_port_name = self.get_bcm_port_name(port)
lane_count = self.get_lane_count(port)
for lane_id in range(lane_count):
bcm_hw_lane = self.get_bcm_lane_info(port, lane_id)
value = self.get_preemphasis_value(port, bcm_hw_lane,
preemphasis_dict,
txfir_pre_idx)
txfir_pre_str_p1 = "phy " + bcm_port_name + " CL93N72_UT_CTL2r."
txfir_pre_str_p2 = txfir_pre_str_p1 + str(bcm_hw_lane)
txfir_pre_str_p3 = txfir_pre_str_p2 + " CL93N72_TXFIR_PRE"
txfir_pre_cmd_str = txfir_pre_str_p3 + "=" + hex(value)
txfir_pre_cmd.append(txfir_pre_cmd_str)
return txfir_pre_cmd
# For the Given port and eeprom_dict, configure
# the preemphasis settings. This invokes the bcmcmd and configures
# the preemphasis settings for each lane in all the ports
def preemphasis_set(self, port, eeprom_dict):
preemphasis_dict = self.get_preemphasis_db(port, eeprom_dict)
lane_count = self.get_lane_count(port)
ams_cmd = self.form_bcm_phy_ams_cmd(port, preemphasis_dict)
txfir_pre_cmd = self.form_bcm_phy_txfir_pre_cmd(port,
preemphasis_dict)
txfir_post_cmd = self.form_bcm_phy_txfir_post_cmd(port,
preemphasis_dict)
txfir_main_cmd = self.form_bcm_phy_txfir_main_cmd(port,
preemphasis_dict)
for lane_id in range(lane_count):
self.bcm_shell.execute_command(ams_cmd[lane_id])
self.bcm_shell.execute_command(txfir_pre_cmd[lane_id])
self.bcm_shell.execute_command(txfir_post_cmd[lane_id])
self.bcm_shell.execute_command(txfir_main_cmd[lane_id])
return 0
# Loop through all the ports, read the eeprom and configure
# PreEmphasis Values based on eeprom data
def run(self):
self.bcm_shell.bcm_port_mapping
for logical_port in self.bcm_shell.bcm_port_mapping:
eeprom_dict = get_eeprom_info_dict(logical_port)
ret_val = self.preemphasis_set(logical_port, eeprom_dict)
# ============================= Functions =============================
# Populate Eeprom Info Dict
# Based on the existing sfputil infra
def get_eeprom_info_dict(logical_port_name):
eeprom_info_dict = {}
phy_port_list = logical_port_name_to_physical_port_list(logical_port_name)
for physical_port in phy_port_list:
if not platform_sfputil.get_presence(physical_port):
return eeprom_info_dict
eeprom_dict = platform_sfputil.get_eeprom_dict(physical_port)
# Only print detected sfp ports for oneline
if eeprom_dict is not None:
eeprom_iface_dict = eeprom_dict.get('interface')
eeprom_info_dict = eeprom_iface_dict.get('data')
return eeprom_info_dict
# Returns platform and HW SKU
def get_platform_and_hwsku():
try:
proc = subprocess.Popen([SONIC_CFGGEN_PATH, '-H', '-v', PLATFORM_KEY],
stdout=subprocess.PIPE,
shell=False,
stderr=subprocess.STDOUT)
stdout = proc.communicate()[0]
proc.wait()
platform = stdout.rstrip('\n')
proc = subprocess.Popen([SONIC_CFGGEN_PATH, '-d', '-v', HWSKU_KEY],
stdout=subprocess.PIPE,
shell=False,
stderr=subprocess.STDOUT)
stdout = proc.communicate()[0]
proc.wait()
hwsku = stdout.rstrip('\n')
except OSError, e:
raise OSError("Cannot detect platform")
return (platform, hwsku)
def logical_port_name_to_physical_port_list(port_name):
if port_name.startswith("Ethernet"):
if platform_sfputil.is_logical_port(port_name):
return platform_sfputil.get_logical_to_physical(port_name)
else:
print "Error: Invalid port '%s'" % port_name
return None
else:
return [int(port_name)]
# Returns path to port config file
def get_path_to_port_config_file():
# Get platform and hwsku
(platform, hwsku) = get_platform_and_hwsku()
# Load platform module from source
platform_path = "/".join([PLATFORM_ROOT_PATH, platform])
hwsku_path = "/".join([platform_path, hwsku])
# First check for the presence of the new 'port_config.ini' file
port_config_file_path = "/".join([hwsku_path, "port_config.ini"])
if not os.path.isfile(port_config_file_path):
# port_config.ini doesn't exist.
# Try loading the legacy 'portmap.ini' file
port_config_file_path = "/".join([hwsku_path, "portmap.ini"])
return port_config_file_path
# Wait for bcmshell to be running
def check_bcm_shell_status():
while (1):
# Check if bcmshell is ready.
# Execute ps command,
# If bcmShell is not ready it raises exception
# Wait till bcmcmd returns success
cmd = "bcmcmd ps"
try:
result = subprocess.check_output(cmd, shell=True)
return 0
except subprocess.CalledProcessError as e:
log_info("Waiting for bcmShell to get ready !!!")
time.sleep(MINIMUM_WAIT_FOR_BCM_SHELL)
continue
return 0
# Wait for syncd to be running
def check_swss_sycnd_status():
redis_db_cnt = 0
while (1):
# Check if syncd starts and redisDb populated
# Wait till redis Db return valid output
cmd_p1 = "docker exec -i swss bash -c "
cmd_p2 = cmd_p1 + "\"echo -en \\\"SELECT 1\\\\nHLEN HIDDEN\\\" | "
cmd = cmd_p2 + "redis-cli | sed -n 2p\""
try:
result = subprocess.check_output(cmd, shell=True)
except subprocess.CalledProcessError as e:
# Wait till swss is spawned
log_info("Waiting for swss to spawn !!!")
time.sleep(MINIMUM_WAIT_FOR_SWSS_SYNCD)
continue
if (result.rstrip() == "5"):
# Check if bcm_shell server,client is ready
ret = check_bcm_shell_status()
return ret
else:
if (redis_db_cnt == MINIMUM_RETRY_FOR_SWSS_DB):
log_error("Fail : RedisDb in swss not populated")
sys.exit(2)
# Wait till redisDb is populated
log_info("Waiting for redisDb to be populated !!!")
time.sleep(MINIMUM_WAIT_FOR_SWSS_SYNCD)
redis_db_cnt = redis_db_cnt + 1
return 0
# Loads platform specific sfputil module from source
def load_platform_sfputil():
global platform_sfputil
# Get platform and hwsku
(platform, hwsku) = get_platform_and_hwsku()
# Load platform module from source
platform_path = "/".join([PLATFORM_ROOT_PATH, platform])
hwsku_path = "/".join([platform_path, hwsku])
try:
module_file = "/".join([platform_path, "plugins",
PLATFORM_SPECIFIC_MODULE_NAME + ".py"])
module = imp.load_source(PLATFORM_SPECIFIC_MODULE_NAME, module_file)
except IOError, e:
log_error("Failed to load platform module '%s': %s" %
(PLATFORM_SPECIFIC_MODULE_NAME, str(e)), True)
return -1
try:
platform_sfputil_class = getattr(module, PLATFORM_SPECIFIC_CLASS_NAME)
platform_sfputil = platform_sfputil_class()
except AttributeError, e:
log_error("Failed to instantiate '%s' class: %s" %
(PLATFORM_SPECIFIC_CLASS_NAME, str(e)), True)
return -2
return 0
def main():
log_info("Starting up...")
if not os.geteuid() == 0:
log_error("Must be root to run this daemon")
print "Error: Must be root to run this daemon"
sys.exit(1)
# Register our signal handlers
signal.signal(signal.SIGHUP, signal_handler)
signal.signal(signal.SIGINT, signal_handler)
signal.signal(signal.SIGTERM, signal_handler)
# Default Wait Time till SWSS spawns
time.sleep(DEFAULT_WAIT_FOR_SWSS_SYNCD)
err = check_swss_sycnd_status()
if (err != 0):
log_error("Error timeout for swss service spawn")
sys.exit(3)
# Use the existing sfputil infra to read the eeprom data of inserted Qsfps
err = load_platform_sfputil()
if (err != 0):
sys.exit(2)
# Load port info
try:
port_config_file_path = get_path_to_port_config_file()
platform_sfputil.read_porttab_mappings(port_config_file_path)
except Exception, e:
log_error("Error reading port info (%s)" % str(e), True)
sys.exit(3)
# Instantiate Dell QSFP Monitor object
dell_qsfpd = dell_qsfp_monitor()
dell_qsfpd.run()
log_info("QSFP Monitor Completed Successfully...")
if __name__ == "__main__":
main()

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@ -0,0 +1,11 @@
[Unit]
Description=Dell Z9100 Qsfp Monitor
DefaultDependencies=no
[Service]
Type=oneshot
ExecStart=/usr/local/bin/qsfp_monitor start
RemainAfterExit=yes
[Install]
WantedBy=multi-user.target