[platform]: Fix Belgite platform issues (#13389)

As part of platform hardening this commit fixes several platform issues
in various components like PSU, FAN, Temperature, LED.
This commit is contained in:
Jemston Fernando 2023-01-18 23:30:07 +05:30 committed by GitHub
parent 63f2ab2cc3
commit 892f26556c
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
17 changed files with 1122 additions and 186 deletions

View File

@ -0,0 +1,284 @@
{
"interfaces": {
"Ethernet0": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet1": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet2": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet3": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet4": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet5": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet6": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet7": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet8": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet9": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet10": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet11": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet12": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet13": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet14": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet15": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet16": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet17": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet18": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet19": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet20": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet21": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet22": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet23": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet24": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet25": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet26": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet27": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet28": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet29": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet30": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet31": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet32": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet33": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet34": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet35": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet36": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet37": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet38": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet39": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet40": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet41": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet42": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet43": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet44": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet45": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet46": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet47": {
"default_brkout_mode": "1x1000[100,10]",
"autoneg": "on",
"fec": "none"
},
"Ethernet48": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
},
"Ethernet49": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
},
"Ethernet50": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
},
"Ethernet51": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
},
"Ethernet52": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
},
"Ethernet53": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
},
"Ethernet54": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
},
"Ethernet55": {
"default_brkout_mode": "1x10G[1G]",
"autoneg": "off",
"fec": "none"
}
}
}

View File

@ -105,7 +105,7 @@ unsigned short portmap[] = {
1, 2, 3, 4, 5, 6, 7, 8,
9, 10, 11, 12, 24, 23, 22, 21,
20, 19, 18, 17, 16, 15, 14, 13,
58, 60, 57, 59, 64, 62, 63, 61
60, 58, 59, 57, 62, 64, 61, 63
};

View File

@ -1,3 +1,3 @@
m0 load 0 0x3800 /usr/share/sonic/platform/custom_led.bin
led auto on
led start

View File

@ -5,7 +5,7 @@
{
"i2c":
{
"valmap-SFP28": {"1":false, "0":true }
"valmap-SFP+": {"1":false, "0":true }
}
}
},
@ -29,7 +29,7 @@
{
"i2c":
{
"valmap": { "F2B":"INTAKE", "B2F":"EXHAUST" }
"valmap": { "0":"INTAKE", "1":"EXHAUST" }
}
},
"PSU_FAN_MAX_SPEED":"18000"
@ -50,10 +50,6 @@
"valmap": {"1":false, "0":true}
}
},
"fan_master_led_color":
{
"colmap": {"green":"green", "red":"amber"}
},
"duty_cycle_to_pwm": "lambda dc: dc*255/100",
"pwm_to_duty_cycle": "lambda pwm: pwm/255*100"

View File

@ -179,7 +179,7 @@
{ "attr_name":"psu_v_out", "attr_devaddr":"0x58", "attr_devtype":"pmbus", "attr_offset":"0x8b", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_i_out", "attr_devaddr":"0x58", "attr_devtype":"pmbus", "attr_offset":"0x8c", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_p_out", "attr_devaddr":"0x58", "attr_devtype":"pmbus", "attr_offset":"0x96", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_fan_dir", "attr_devaddr":"0x58", "attr_devtype":"pmbus", "attr_offset":"0xc5", "attr_mask":"0x18", "attr_cmpval":"0x08", "attr_len":"1"},
{ "attr_name":"psu_fan_dir", "attr_devaddr":"0x58", "attr_devtype":"pmbus", "attr_offset":"0x80", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"1"},
{ "attr_name":"psu_fan1_speed_rpm", "attr_devaddr":"0x58", "attr_devtype":"pmbus", "attr_offset":"0x90", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_temp1_input", "attr_devaddr":"0x58", "attr_devtype":"pmbus", "attr_offset":"0x8d", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"}
]
@ -215,7 +215,7 @@
{ "attr_name":"psu_v_out", "attr_devaddr":"0x59", "attr_devtype":"pmbus", "attr_offset":"0x8b", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_i_out", "attr_devaddr":"0x59", "attr_devtype":"pmbus", "attr_offset":"0x8c", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_p_out", "attr_devaddr":"0x59", "attr_devtype":"pmbus", "attr_offset":"0x96", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_fan_dir", "attr_devaddr":"0x59", "attr_devtype":"pmbus", "attr_offset":"0xc5", "attr_mask":"0x18", "attr_cmpval":"0x08", "attr_len":"1"},
{ "attr_name":"psu_fan_dir", "attr_devaddr":"0x59", "attr_devtype":"pmbus", "attr_offset":"0x80", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"1"},
{ "attr_name":"psu_fan1_speed_rpm", "attr_devaddr":"0x59", "attr_devtype":"pmbus", "attr_offset":"0x90", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"},
{ "attr_name":"psu_temp1_input", "attr_devaddr":"0x59", "attr_devtype":"pmbus", "attr_offset":"0x8d", "attr_mask":"0x0", "attr_cmpval":"0xff", "attr_len":"2"}
]
@ -283,7 +283,7 @@
},
"PORT49":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT49", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT49", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"49"},
"i2c":
{
@ -324,7 +324,7 @@
},
"PORT50":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT50", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT50", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"50"},
"i2c":
{
@ -366,7 +366,7 @@
},
"PORT51":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT51", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT51", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"51"},
"i2c":
{
@ -407,7 +407,7 @@
},
"PORT52":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT52", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT52", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"52"},
"i2c":
{
@ -449,7 +449,7 @@
},
"PORT53":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT53", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT53", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"53"},
"i2c":
{
@ -491,7 +491,7 @@
},
"PORT54":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT54", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT54", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"54"},
"i2c":
{
@ -532,7 +532,7 @@
},
"PORT55":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT55", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT55", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"55"},
"i2c":
{
@ -573,7 +573,7 @@
},
"PORT56":
{
"dev_info": { "device_type":"SFP28", "device_name":"PORT56", "device_parent":"MUX2"},
"dev_info": { "device_type":"SFP+", "device_name":"PORT56", "device_parent":"MUX2"},
"dev_attr": { "dev_idx":"56"},
"i2c":
{
@ -642,7 +642,7 @@
[
{"attr_name":"STATUS_LED_COLOR_AMBER","swpld_addr":"0x32","attr_devtype":"cpld","attr_devname":"CPLD1", "bits":"5:4","descr":"","value":"0x1","swpld_addr_offset":"0x43"},
{"attr_name":"STATUS_LED_COLOR_GREEN","swpld_addr":"0x32","attr_devtype":"cpld","attr_devname":"CPLD1", "bits":"5:4","descr":"","value":"0x2","swpld_addr_offset":"0x43"},
{"attr_name":"STATUS_LED_COLOR_OFF","swpld_addr":"0x32","attr_devtype":"cpld","attr_devname":"CPLD1", "bits":"5:4","descr":"","value":"0x0","swpld_addr_offset":"0x43"}
{"attr_name":"STATUS_LED_COLOR_OFF","swpld_addr":"0x32","attr_devtype":"cpld","attr_devname":"CPLD1", "bits":"5:4","descr":"","value":"0x3","swpld_addr_offset":"0x43"}
]
}
},
@ -666,7 +666,7 @@
"attr_list":
[
{"attr_name":"STATUS_LED_COLOR_GREEN","attr_devtype":"cpld","attr_devname":"CPLD1","bits":"1:0","descr":"","value":"0x1","swpld_addr":"0x32","swpld_addr_offset":"0x37"},
{"attr_name":"STATUS_LED_COLOR_AMBER","attr_devtype":"cpld","attr_devname":"CPLD1B","bits":"1:0","descr":"","value":"0x2","swpld_addr":"0x32","swpld_addr_offset":"0x37"}
{"attr_name":"STATUS_LED_COLOR_AMBER","attr_devtype":"cpld","attr_devname":"CPLD1","bits":"1:0","descr":"","value":"0x2","swpld_addr":"0x32","swpld_addr_offset":"0x37"}
]
}
},

View File

@ -11,10 +11,7 @@
"name": "SWCPLD"
},
{
"name": "Main_BIOS"
},
{
"name": "Backup_BIOS"
"name": "BIOS"
}
],
"fans": [
@ -391,5 +388,398 @@
}
]
},
"interfaces": {}
"interfaces": {
"Ethernet0": {
"index": "1",
"lanes": "26",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/1"]
}
},
"Ethernet1": {
"index": "2",
"lanes": "25",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/2"]
}
},
"Ethernet2": {
"index": "3",
"lanes": "28",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/3"]
}
},
"Ethernet3": {
"index": "4",
"lanes": "27",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/4"]
}
},
"Ethernet4": {
"index": "5",
"lanes": "30",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/5"]
}
},
"Ethernet5": {
"index": "6",
"lanes": "29",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/6"]
}
},
"Ethernet6": {
"index": "7",
"lanes": "32",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/7"]
}
},
"Ethernet7": {
"index": "8",
"lanes": "31",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/8"]
}
},
"Ethernet8": {
"index": "9",
"lanes": "34",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/9"]
}
},
"Ethernet9": {
"index": "10",
"lanes": "33",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/10"]
}
},
"Ethernet10": {
"index": "11",
"lanes": "36",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/11"]
}
},
"Ethernet11": {
"index": "12",
"lanes": "35",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/12"]
}
},
"Ethernet12": {
"index": "13",
"lanes": "38",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/13"]
}
},
"Ethernet13": {
"index": "14",
"lanes": "37",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/14"]
}
},
"Ethernet14": {
"index": "15",
"lanes": "40",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/15"]
}
},
"Ethernet15": {
"index": "16",
"lanes": "39",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/16"]
}
},
"Ethernet16": {
"index": "17",
"lanes": "42",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/17"]
}
},
"Ethernet17": {
"index": "18",
"lanes": "41",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/18"]
}
},
"Ethernet18": {
"index": "19",
"lanes": "44",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/19"]
}
},
"Ethernet19": {
"index": "20",
"lanes": "43",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/20"]
}
},
"Ethernet20": {
"index": "21",
"lanes": "50",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/21"]
}
},
"Ethernet21": {
"index": "22",
"lanes": "49",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/22"]
}
},
"Ethernet22": {
"index": "23",
"lanes": "52",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/23"]
}
},
"Ethernet23": {
"index": "24",
"lanes": "51",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/24"]
}
},
"Ethernet24": {
"index": "25",
"lanes": "2",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/25"]
}
},
"Ethernet25": {
"index": "26",
"lanes": "1",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/26"]
}
},
"Ethernet26": {
"index": "27",
"lanes": "4",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/27"]
}
},
"Ethernet27": {
"index": "28",
"lanes": "3",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/28"]
}
},
"Ethernet28": {
"index": "29",
"lanes": "6",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/29"]
}
},
"Ethernet29": {
"index": "30",
"lanes": "5",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/30"]
}
},
"Ethernet30": {
"index": "31",
"lanes": "8",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/31"]
}
},
"Ethernet31": {
"index": "32",
"lanes": "7",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/32"]
}
},
"Ethernet32": {
"index": "33",
"lanes": "10",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/33"]
}
},
"Ethernet33": {
"index": "34",
"lanes": "9",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/34"]
}
},
"Ethernet34": {
"index": "35",
"lanes": "12",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/35"]
}
},
"Ethernet35": {
"index": "36",
"lanes": "11",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/36"]
}
},
"Ethernet36": {
"index": "37",
"lanes": "14",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/37"]
}
},
"Ethernet37": {
"index": "38",
"lanes": "13",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/38"]
}
},
"Ethernet38": {
"index": "39",
"lanes": "16",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/39"]
}
},
"Ethernet39": {
"index": "40",
"lanes": "15",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/40"]
}
},
"Ethernet40": {
"index": "41",
"lanes": "18",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/41"]
}
},
"Ethernet41": {
"index": "42",
"lanes": "17",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/42"]
}
},
"Ethernet42": {
"index": "43",
"lanes": "20",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/43"]
}
},
"Ethernet43": {
"index": "44",
"lanes": "19",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/44"]
}
},
"Ethernet44": {
"index": "45",
"lanes": "22",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/45"]
}
},
"Ethernet45": {
"index": "46",
"lanes": "21",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/46"]
}
},
"Ethernet46": {
"index": "47",
"lanes": "24",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/47"]
}
},
"Ethernet47": {
"index": "48",
"lanes": "23",
"breakout_modes": {
"1x1000[100,10]": ["Ethernet1/0/48"]
}
},
"Ethernet48": {
"index": "49",
"lanes": "60",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/49"]
}
},
"Ethernet49": {
"index": "50",
"lanes": "58",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/50"]
}
},
"Ethernet50": {
"index": "51",
"lanes": "59",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/51"]
}
},
"Ethernet51": {
"index": "52",
"lanes": "57",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/52"]
}
},
"Ethernet52": {
"index": "53",
"lanes": "62",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/53"]
}
},
"Ethernet53": {
"index": "54",
"lanes": "64",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/54"]
}
},
"Ethernet54": {
"index": "55",
"lanes": "61",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/55"]
}
},
"Ethernet55": {
"index": "56",
"lanes": "63",
"breakout_modes": {
"1x10G[1G]": ["Ethernet1/0/56"]
}
}
}
}

View File

@ -0,0 +1,10 @@
{
"chassis": {
"E1070": {
"component": {
"SWCPLD": {},
"BIOS": {}
}
}
}
}

View File

@ -0,0 +1,78 @@
#
# psuutil.py
# Platform-specific PSU status interface for SONiC
#
import os
try:
from sonic_psu.psu_base import PsuBase
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
class PsuUtil(PsuBase):
"""Platform-specific PSUutil class"""
def __init__(self):
PsuBase.__init__(self)
def get_num_psus(self):
"""
Retrieves the number of PSUs available on the device
:return: An integer, the number of PSUs available on the device
"""
return 2
def get_psu_status(self, index):
"""
Retrieves the oprational status of power supply unit (PSU) defined
by 1-based index <index>
:param index: An integer, 1-based index of the PSU of which to query status
:return: Boolean, True if PSU is operating properly, False if PSU is faulty
"""
if index is None:
return False
if index == 1:
status_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-4/4-0058/psu_power_good"
elif index == 2:
status_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-4/4-0059/psu_power_good"
else:
return False
try:
with open(status_path, 'r') as fd:
status = fd.read().rstrip('\r\n')
if status == '0':
return True
else:
return False
except IOError:
return False
def get_psu_presence(self, index):
"""
Retrieves the presence status of power supply unit (PSU) defined
by 1-based index <index>
:param index: An integer, 1-based index of the PSU of which to query status
:return: Boolean, True if PSU is plugged, False if not
"""
if index is None:
return False
if index == 1:
status_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-4/4-0058/psu_present"
elif index == 2:
status_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-4/4-0059/psu_present"
else:
return False
try:
with open(status_path, 'r') as fd:
status = fd.read().rstrip('\r\n')
if status == '1':
return True
else:
return False
except IOError:
return False

View File

@ -0,0 +1,142 @@
# Platform-specific SFP transceiver interface for SONiC
#
try:
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 = 1
PORT_END = 56
SFP_PORT_START = 49
SFP_PORT_END = 56
SFP_I2C_BUS_START = 0xa
PORTS_IN_BLOCK = 56
_port_to_eeprom_mapping = {}
sfp_status_dict = {}
@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(self.PORT_START, self.PORTS_IN_BLOCK + 1))
@property
def port_to_eeprom_mapping(self):
return self._port_to_eeprom_mapping
def __init__(self):
# Override port_to_eeprom_mapping for class initialization
eeprom_path = '/sys/bus/i2c/devices/i2c-{0}/{0}-0050/eeprom'
for port_idx in range(self.SFP_PORT_START, self.SFP_PORT_END + 1):
self._port_to_eeprom_mapping[port_idx] = eeprom_path.format(self.SFP_I2C_BUS_START + (port_idx - self.SFP_PORT_START))
self.sfp_status_dict[port_idx] = 0 #Initialize all modules as absent/removed
SfpUtilBase.__init__(self)
def get_presence(self, port_num):
# Check for invalid port_num
if port_num < self.SFP_PORT_START or port_num > self.SFP_PORT_END:
return False
sfp_status_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-9/i2c-{0}/{0}-0066/xcvr_present"\
.format(self.SFP_I2C_BUS_START + (port_num - self.SFP_PORT_START))
try:
with open(sfp_status_path, 'r') as fd:
status = fd.read().rstrip('\r\n')
if status == '0':
return True
else:
return False
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
return False
def get_low_power_mode(self, port_num):
# Check for invalid port_num
if port_num < self.SFP_PORT_START or port_num > self.SFP_PORT_END:
return False
sfp_lpmode_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-9/i2c-{0}/{0}-0066/xcvr_lpmode"\
.format(self.SFP_I2C_BUS_START + (port_num - self.SFP_PORT_START))
try:
with open(sfp_lpmode_path, 'r') as fd:
status = fd.read().rstrip('\r\n')
if status == '1':
return True
else:
return False
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
return False
def set_low_power_mode(self, port_num, lpmode):
# Check for invalid port_num
if port_num < self.SFP_PORT_START or port_num > self.SFP_PORT_END:
return False
sfp_lpmode_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-9/i2c-{0}/{0}-0066/xcvr_lpmode"\
.format(self.SFP_I2C_BUS_START + (port_num - self.SFP_PORT_START))
try:
with open(sfp_lpmode_path, 'w') as fd:
if lpmode:
fd.write('1')
else:
fd.write('0')
return True
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
return False
def reset(self, port_num):
# SFP reset is not supported
return False
def get_transceiver_change_event(self, timeout=0):
sfp_dict = {}
SFP_REMOVED = '0'
SFP_INSERTED = '1'
SFP_PRESENT = True
SFP_ABSENT = False
start_time = time.time()
time_period = timeout/float(1000) #Convert msecs to secs
while time.time() < (start_time + time_period) or timeout == 0:
for port_idx in range(self.SFP_PORT_START, self.SFP_PORT_END + 1):
if self.sfp_status_dict[port_idx] == SFP_REMOVED and \
self.get_presence(port_idx) == SFP_PRESENT:
sfp_dict[str(port_idx)] = SFP_INSERTED
self.sfp_status_dict[port_idx] = SFP_INSERTED
elif self.sfp_status_dict[port_idx] == SFP_INSERTED and \
self.get_presence(port_idx) == SFP_ABSENT:
sfp_dict[str(port_idx)] = SFP_REMOVED
self.sfp_status_dict[port_idx] = SFP_REMOVED
if sfp_dict != {}:
return (True, {'sfp':sfp_dict})
time.sleep(0.5)
return (True, {}) # Timeout

View File

@ -1,4 +1,6 @@
{
"skip_ledd": true,
"skip_pcied": true
"skip_pcied": true,
"skip_fancontrol": true,
"skip_xcvrd_cmis_mgr": true
}

View File

@ -3,13 +3,13 @@
"devices_to_ignore": [
"asic",
"psu.temperature",
"PSU2 Fan",
"PSU1 Fan"
"PSU1_FAN1",
"PSU2_FAN1"
],
"user_defined_checkers": [],
"polling_interval": 60,
"led_color": {
"fault": "orange",
"fault": "amber",
"normal": "green",
"booting": "orange_blink"
}

View File

@ -4,6 +4,7 @@
#
#############################################################################
import os
import time
try:
from sonic_platform_pddf_base.pddf_chassis import PddfChassis
@ -14,26 +15,29 @@ try:
import sys
import subprocess
from sonic_py_common import device_info
from sonic_platform_base.sfp_base import SfpBase
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
NUM_COMPONENT = 3
FAN_DIRECTION_FILE_PATH = "/var/fan_direction"
NUM_COMPONENT = 2
class Chassis(PddfChassis):
"""
PDDF Platform-specific Chassis class
"""
sfp_status_dict = {}
def __init__(self, pddf_data=None, pddf_plugin_data=None):
PddfChassis.__init__(self, pddf_data, pddf_plugin_data)
vendor_ext = self._eeprom.vendor_ext_str()
with open(FAN_DIRECTION_FILE_PATH, "w+") as f:
f.write(vendor_ext)
(self.platform, self.hwsku) = device_info.get_platform_and_hwsku()
self.__initialize_components()
self.sfp_port_list = list(range(49, 56+1))
for port_idx in self.sfp_port_list:
present = self.get_sfp(port_idx).get_presence()
self.sfp_status_dict[port_idx] = '1' if present else '0'
def __initialize_components(self):
from sonic_platform.component import Component
@ -122,11 +126,13 @@ class Chassis(PddfChassis):
return (reboot_cause, description)
def get_serial(self):
return self._eeprom.serial_number_str()
def get_revision(self):
return self._eeprom.revision_str()
version_str = self._eeprom.revision_str()
if version_str != "NA":
return str(bytearray(version_str, 'ascii')[0])
return version_str
@staticmethod
def get_position_in_parent():
@ -134,19 +140,7 @@ class Chassis(PddfChassis):
@staticmethod
def is_replaceable():
return True
def get_base_mac(self):
return self._eeprom.base_mac_addr()
def get_system_eeprom_info(self):
return self._eeprom.system_eeprom_info()
def get_name(self):
return self.modelstr()
def get_model(self):
return self._eeprom.part_number_str()
return False
def set_status_led(self, color):
color_dict = {
@ -155,8 +149,94 @@ class Chassis(PddfChassis):
'amber': "STATUS_LED_COLOR_AMBER",
'off': "STATUS_LED_COLOR_OFF"
}
return self.set_system_led("SYS_LED", color_dict.get(color, "off"))
return self.set_system_led("SYS_LED", color_dict.get(color, "STATUS_LED_COLOR_OFF"))
def get_status_led(self):
return self.get_system_led("SYS_LED")
def get_port_or_cage_type(self, index):
"""
Retrieves sfp port or cage type corresponding to physical port <index>
Args:
index: An integer (>=0), the index of the sfp to retrieve.
The index should correspond to the physical port in a chassis.
For example:-
1 for Ethernet0, 2 for Ethernet4 and so on for one platform.
0 for Ethernet0, 1 for Ethernet4 and so on for another platform.
Returns:
The masks of all types of port or cage that can be supported on the port
Types are defined in sfp_base.py
Eg.
Both SFP and SFP+ are supported on the port, the return value should be 0x0a
which is 0x02 | 0x08
"""
if index in range(1, 48+1):
return SfpBase.SFP_PORT_TYPE_BIT_RJ45
elif index in range(49, 56+1):
return (SfpBase.SFP_PORT_TYPE_BIT_SFP | SfpBase.SFP_PORT_TYPE_BIT_SFP_PLUS)
else:
raise NotImplementedError
def get_change_event(self, timeout=0):
"""
Returns a nested dictionary containing all devices which have
experienced a change at chassis level
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;
- A nested dictionary where key is a device type,
value is a dictionary with key:value pairs in the format of
{'device_id':'device_event'},
where device_id is the device ID for this device and
device_event,
status='1' represents device inserted,
status='0' represents device removed.
Ex. {'fan':{'0':'0', '2':'1'}, 'sfp':{'11':'0'}}
indicates that fan 0 has been removed, fan 2
has been inserted and sfp 11 has been removed.
Specifically for SFP event, besides SFP plug in and plug out,
there are some other error event could be raised from SFP, when
these error happened, SFP eeprom will not be avalaible, XCVRD shall
stop to read eeprom before SFP recovered from error status.
status='2' I2C bus stuck,
status='3' Bad eeprom,
status='4' Unsupported cable,
status='5' High Temperature,
status='6' Bad cable.
"""
sfp_dict = {}
SFP_REMOVED = '0'
SFP_INSERTED = '1'
SFP_PRESENT = True
SFP_ABSENT = False
start_time = time.time()
time_period = timeout/float(1000) #Convert msecs to secs
while time.time() < (start_time + time_period) or timeout == 0:
for port_idx in self.sfp_port_list:
if self.sfp_status_dict[port_idx] == SFP_REMOVED and \
self.get_sfp(port_idx).get_presence() == SFP_PRESENT:
sfp_dict[port_idx] = SFP_INSERTED
self.sfp_status_dict[port_idx] = SFP_INSERTED
elif self.sfp_status_dict[port_idx] == SFP_INSERTED and \
self.get_sfp(port_idx).get_presence() == SFP_ABSENT:
sfp_dict[port_idx] = SFP_REMOVED
self.sfp_status_dict[port_idx] = SFP_REMOVED
if sfp_dict:
return True, {'sfp':sfp_dict}
time.sleep(0.5)
return True, {'sfp':{}} # Timeout

View File

@ -9,21 +9,19 @@
#############################################################################
import subprocess
import time
try:
from sonic_platform_base.component_base import ComponentBase
from sonic_py_common.general import getstatusoutput_noshell_pipe
#from helper import APIHelper
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
SWCPLD_VERSION_PATH = ["i2cget", "-y", "-f", "2", "0x32", "0"]
BIOS_VERSION_PATH_CMD1 = ["dmidecode", "-t", "bios"]
BIOS_VERSION_PATH_CMD2 = ["grep", "Version"]
COMPONENT_NAME_LIST = ["SWCPLD", "Main_BIOS", "Backup_BIOS"]
COMPONENT_DES_LIST = ["Use for boot control and BIOS switch",
"Main basic Input/Output System",
"Backup basic Input/Output System"]
SWCPLD_VERSION_PATH = ['i2cget', '-y', '-f', '2', '0x32', '0']
BIOS_VERSION_PATH = ['dmidecode', '-s', 'bios-version']
COMPONENT_NAME_LIST = ["SWCPLD", "BIOS"]
COMPONENT_DES_LIST = ["Used for managing the chassis and SFP+ ports (49-56)",
"Basic Input/Output System"]
class Component(ComponentBase):
@ -34,43 +32,32 @@ class Component(ComponentBase):
def __init__(self, component_index):
ComponentBase.__init__(self)
self.index = component_index
#self._api_helper = APIHelper()
self.name = self.get_name()
def run_command(self,cmd):
responses = subprocess.Popen(cmd, stdout=subprocess.PIPE, universal_newlines=True).stdout.read()
return responses
def __get_bios_version(self):
# Retrieves the BIOS firmware version
result = self.run_command(["i2cget", "-y", "-f", "2", "0x32", "0x19"])
if result.strip() == "0x01":
if self.name == "Main_BIOS":
_, version = getstatusoutput_noshell_pipe(BIOS_VERSION_PATH_CMD1, BIOS_VERSION_PATH_CMD2)
bios_version = version.strip().split(" ")[1]
return str(bios_version)
elif self.name == "Backup_BIOS":
bios_version = "na"
return bios_version
version = "N/A"
elif result.strip() == "0x03":
if self.name == "Backup_BIOS":
_, version = getstatusoutput_noshell_pipe(BIOS_VERSION_PATH_CMD1, BIOS_VERSION_PATH_CMD2)
bios_version = version.strip().split(" ")[1]
return str(bios_version)
elif self.name == "Main_BIOS":
bios_version = "na"
return bios_version
try:
p = subprocess.Popen(BIOS_VERSION_PATH, stdout=subprocess.PIPE, universal_newlines=True)
data = p.communicate()
version = data[0].strip()
except IOError:
pass
return version
def __get_cpld_version(self):
if self.name == "SWCPLD":
ver = self.run_command(SWCPLD_VERSION_PATH)
print("ver is %s" % ver)
ver = ver.strip().split("x")[1]
print("ver2 is %s" % ver)
version = int(ver.strip()) / 10
return str(version)
version = "N/A"
try:
p = subprocess.Popen(SWCPLD_VERSION_PATH, stdout=subprocess.PIPE, universal_newlines=True)
data = p.communicate()
ver = int(data[0].strip(), 16)
version = "{0}.{1}".format(ver >> 4, ver & 0x0F)
except (IOError, ValueError):
pass
return version
def get_name(self):
"""
@ -96,7 +83,7 @@ class Component(ComponentBase):
"""
fw_version = None
if "BIOS" in self.name:
if self.name == "BIOS":
fw_version = self.__get_bios_version()
elif "CPLD" in self.name:
fw_version = self.__get_cpld_version()

View File

@ -9,7 +9,6 @@ except ImportError as e:
# add function:set_status_led,
# Solve the problem that when a fan is pulled out, the Fan LED on the front panel is still green Issue-#11525
# ------------------------------------------------------------------
FAN_DIRECTION_FILE_PATH = "/var/fan_direction"
class Fan(PddfFan):
@ -32,10 +31,24 @@ class Fan(PddfFan):
# this value in derived pddf fan class
return 20
def get_presence(self):
#Overwirte the PDDF Common since the FANs on Belgite are all Fixed and present
return True
if self.is_psu_fan:
#For PSU, FAN must be present when PSU is present
try:
cmd = ['i2cget', '-y', '-f', '0x2', '0x32', '0x41']
p = subprocess.Popen(cmd, stdout=subprocess.PIPE, universal_newlines=True)
data = p.communicate()
status = int(data[0].strip(), 16)
if (self.fans_psu_index == 1 and (status & 0x10) == 0) or \
(self.fans_psu_index == 2 and (status & 0x20) == 0):
return True
except (IOError, ValueError):
pass
return False
else:
#Overwirte the PDDF Common since the FANs on Belgite are all Fixed and present
return True
def get_direction(self):
"""
@ -46,102 +59,35 @@ class Fan(PddfFan):
depending on fan direction
"""
if self.is_psu_fan:
cmd_num = "58" if self.fans_psu_index == 1 else "59"
cmd = ["i2cget", "-y", "-f", "4", "", "0x80"]
cmd[4] = "0x" + cmd_num
res = subprocess.Popen(cmd, stdout=subprocess.PIPE, universal_newlines=True).stdout.read()
# F2B
if res.strip() == "0x01":
direction = "EXHAUST"
else:
direction = "INTAKE"
# Belgite PSU module only has EXHAUST fan
return "EXHAUST"
else:
direction = "INTAKE"
with open(FAN_DIRECTION_FILE_PATH, "r") as f:
fan_direction = f.read()
if fan_direction.strip() == "FB":
direction = "EXHAUST"
return direction
return super().get_direction()
def get_status(self):
speed = self.get_speed_rpm()
status = True if (speed != 0) else False
return status
def get_target_speed(self):
def get_status_led(self):
"""
Retrieves the target (expected) speed of the fan
Gets the state of the fan status LED
Returns:
An integer, the percentage of full fan speed, in the range 0 (off)
to 100 (full speed)
A string, one of the predefined STATUS_LED_COLOR_* strings above
"""
target_speed = 0
if self.is_psu_fan:
# Target speed not usually supported for PSU fans
target_speed = "N/A"
return "N/A"
else:
idx = (self.fantray_index - 1) * 1 + self.fan_index
attr = "fan" + str(idx) + "_pwm"
pwm_path = "/sys/devices/pci0000:00/0000:00:12.0/i2c-0/i2c-2/2-0066/" + attr
pwm = 0
with open(pwm_path, "r") as f:
pwm = f.read()
percentage = int(pwm.strip())
speed_percentage = int(round(percentage / 255 * 100))
target_speed = speed_percentage
return target_speed
return super().get_status_led()
def set_status_led(self, color):
color_dict = {"green": "STATUS_LED_COLOR_GREEN",
"red": "STATUS_LED_COLOR_AMBER"}
color = color_dict.get(color, "off")
index = str(self.fantray_index - 1)
led_device_name = "FANTRAY{}".format(self.fantray_index) + "_LED"
"""
Sets the state of the fan module status LED
result, msg = self.pddf_obj.is_supported_sysled_state(led_device_name, color)
if result is False:
Args:
color: A string representing the color with which to set the
fan module status LED
Returns:
bool: True if status LED state is set successfully, False if not
"""
if self.is_psu_fan:
return False
device_name = self.pddf_obj.data[led_device_name]['dev_info']['device_name']
self.pddf_obj.create_attr('device_name', device_name, self.pddf_obj.get_led_path())
self.pddf_obj.create_attr('index', index, self.pddf_obj.get_led_path())
self.pddf_obj.create_attr('color', color, self.pddf_obj.get_led_cur_state_path())
self.pddf_obj.create_attr('dev_ops', 'set_status', self.pddf_obj.get_led_path())
return True
@staticmethod
def get_model():
"""
Retrieves the model number (or part number) of the device
Returns:
string: Model/part number of device
"""
model = "Unknown"
return model
@staticmethod
def get_serial():
"""
Retrieves the serial number of the device
Returns:
string: Serial number of device
"""
serial = "Unknown"
return serial
def get_position_in_parent(self):
"""
Retrieves the fan/psu fan index number
"""
return self.fantray_index if not self.is_psu_fan else self.fans_psu_index + 4
@staticmethod
def is_replaceable():
"""
Retrieves whether the device is replaceable
"""
return False
else:
return super().set_status_led(color)

View File

@ -53,3 +53,21 @@ class Psu(PddfPsu):
def temperature(self):
return self.get_temperature()
def get_voltage_high_threshold(self):
"""
Retrieves the high threshold PSU voltage output
Returns:
A float number, the high threshold output voltage in volts,
e.g. 12.1
"""
return 12.6
def get_voltage_low_threshold(self):
"""
Retrieves the low threshold PSU voltage output
Returns:
A float number, the low threshold output voltage in volts,
e.g. 12.1
"""
return 11.4

View File

@ -7,4 +7,7 @@ sleep 0.1
#Set LM75 shutdown enable
sudo i2cset -y -f 2 0x32 0x45 0x1
# set sys led green status
sudo i2cset -y -f 2 0x32 0x43 0xec
echo -2 | tee /sys/bus/i2c/drivers/pca954x/*-00*/idle_state