[Netberg][Barefoot] Added support for Aurora 750 (#16342)

Why I did it
Support Intel Tofino based platforms Netberg Aurora 750
ASIC: Intel Tofino BFN-T10-064Q
Pors: 64x 100G

How I did it
Added specification to device/netberg directory
Added platform/barefoot/sonic-platform-modules-netberg contains kernel modules, scripts and sonic_platform packages.
Modified the platform/barefoot/platform-modules-netberg.mk to include Aurora 750 related ID.

Signed-off-by: Andrew Sapronov <andrew.sapronov@gmail.com>
This commit is contained in:
Andrew Sapronov 2023-09-02 08:52:39 +03:00 committed by GitHub
parent 3bdfdd95ea
commit 0405b369af
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
43 changed files with 5384 additions and 1 deletions

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{%- set default_topo = 't0' %}
{%- include 'buffers_config.j2' %}

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{% set default_cable = '5m' %}
{% set ingress_lossless_pool_size = '4194304' %}
{% set ingress_lossy_pool_size = '7340032' %}
{% set egress_lossless_pool_size = '16777152' %}
{% set egress_lossy_pool_size = '7340032' %}
{%- macro generate_port_lists(PORT_ALL) %}
{# Generate list of ports #}
{%- for port_idx in range(0,64) %}
{%- if PORT_ALL.append("Ethernet%d" % (port_idx * 4)) %}{%- endif %}
{%- endfor %}
{%- endmacro %}
{%- macro generate_buffer_pool_and_profiles() %}
"BUFFER_POOL": {
"ingress_lossless_pool": {
"size": "{{ ingress_lossless_pool_size }}",
"type": "ingress",
"mode": "dynamic"
},
"ingress_lossy_pool": {
"size": "{{ ingress_lossy_pool_size }}",
"type": "ingress",
"mode": "dynamic"
},
"egress_lossless_pool": {
"size": "{{ egress_lossless_pool_size }}",
"type": "egress",
"mode": "dynamic"
},
"egress_lossy_pool": {
"size": "{{ egress_lossy_pool_size }}",
"type": "egress",
"mode": "dynamic"
}
},
"BUFFER_PROFILE": {
"ingress_lossless_profile": {
"pool":"ingress_lossless_pool",
"size":"4096",
"dynamic_th":"0"
},
"ingress_lossy_profile": {
"pool":"ingress_lossy_pool",
"size":"4096",
"dynamic_th":"3"
},
"egress_lossless_profile": {
"pool":"egress_lossless_pool",
"size":"4096",
"dynamic_th":"7"
},
"egress_lossy_profile": {
"pool":"egress_lossy_pool",
"size":"4096",
"dynamic_th":"3"
},
"q_lossy_profile": {
"pool":"egress_lossy_pool",
"size":"4096",
"dynamic_th":"3"
}
},
{%- endmacro %}
{%- macro generate_pg_profils(port_names) %}
"BUFFER_PG": {
"{{ port_names }}|3-4": {
"profile" : "ingress_lossless_profile"
}
},
{%- endmacro %}
{%- macro generate_queue_buffers(port_names) %}
"BUFFER_QUEUE": {
"{{ port_names }}|3-4": {
"profile" : "egress_lossless_profile"
},
"{{ port_names }}|0-1": {
"profile" : "q_lossy_profile"
}
}
{%- endmacro %}

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{% set default_cable = '5m' %}
{% set ingress_lossless_pool_size = '2097152' %}
{% set ingress_lossy_pool_size = '5242880' %}
{% set egress_lossless_pool_size = '16777152' %}
{% set egress_lossy_pool_size = '5242880' %}
{%- macro generate_port_lists(PORT_ALL) %}
{# Generate list of ports #}
{%- for port_idx in range(0,64) %}
{%- if PORT_ALL.append("Ethernet%d" % (port_idx * 4)) %}{%- endif %}
{%- endfor %}
{%- endmacro %}
{%- macro generate_buffer_pool_and_profiles() %}
"BUFFER_POOL": {
"ingress_lossless_pool": {
"size": "{{ ingress_lossless_pool_size }}",
"type": "ingress",
"mode": "dynamic"
},
"ingress_lossy_pool": {
"size": "{{ ingress_lossy_pool_size }}",
"type": "ingress",
"mode": "dynamic"
},
"egress_lossless_pool": {
"size": "{{ egress_lossless_pool_size }}",
"type": "egress",
"mode": "dynamic"
},
"egress_lossy_pool": {
"size": "{{ egress_lossy_pool_size }}",
"type": "egress",
"mode": "dynamic"
}
},
"BUFFER_PROFILE": {
"ingress_lossless_profile": {
"pool":"ingress_lossless_pool",
"size":"4096",
"dynamic_th":"0"
},
"ingress_lossy_profile": {
"pool":"ingress_lossy_pool",
"size":"4096",
"dynamic_th":"3"
},
"egress_lossless_profile": {
"pool":"egress_lossless_pool",
"size":"4096",
"dynamic_th":"7"
},
"egress_lossy_profile": {
"pool":"egress_lossy_pool",
"size":"4096",
"dynamic_th":"3"
},
"q_lossy_profile": {
"pool":"egress_lossy_pool",
"size":"4096",
"dynamic_th":"3"
}
},
{%- endmacro %}
{%- macro generate_pg_profils(port_names) %}
"BUFFER_PG": {
"{{ port_names }}|3-4": {
"profile" : "ingress_lossless_profile"
}
},
{%- endmacro %}
{%- macro generate_queue_buffers(port_names) %}
"BUFFER_QUEUE": {
"{{ port_names }}|3-4": {
"profile" : "egress_lossless_profile"
},
"{{ port_names }}|0-1": {
"profile" : "q_lossy_profile"
}
}
{%- endmacro %}

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{
"interfaces": {
"Ethernet0": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet4": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet8": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet12": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet16": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet20": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet24": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet28": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet32": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet36": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet40": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet44": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet48": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet52": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet56": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet60": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet64": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet68": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet72": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet76": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet80": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet84": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet88": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet92": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet96": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet100": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet104": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet108": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet112": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet116": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet120": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet124": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet128": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet132": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet136": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet140": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet144": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet148": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet152": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet156": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet160": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet164": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet168": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet172": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet176": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet180": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet184": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet188": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet192": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet196": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet200": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet204": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet208": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet212": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet216": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet220": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet224": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet228": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet232": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet236": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet240": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet244": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet248": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet252": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "rs"
},
"Ethernet256": {
"default_brkout_mode": "1x100G[40G]",
"autoneg": "off",
"fec": "none"
}
}
}

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# PG lossless profiles.
# speed cable size xon xoff threshold
10000 5m 34816 18432 16384 0
25000 5m 34816 18432 16384 0
40000 5m 34816 18432 16384 0
50000 5m 34816 18432 16384 0
100000 5m 36864 18432 18432 0
10000 40m 36864 18432 18432 0
25000 40m 39936 18432 21504 0
40000 40m 41984 18432 23552 0
50000 40m 41984 18432 23552 0
100000 40m 54272 18432 35840 0
10000 300m 49152 18432 30720 0
25000 300m 71680 18432 53248 0
40000 300m 94208 18432 75776 0
50000 300m 94208 18432 75776 0
100000 300m 184320 18432 165888 0

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# name lanes alias speed autoneg fec index
Ethernet0 0,1,2,3 Ethernet0 100000 0 rs 0
Ethernet4 4,5,6,7 Ethernet4 100000 0 rs 1
Ethernet8 8,9,10,11 Ethernet8 100000 0 rs 2
Ethernet12 12,13,14,15 Ethernet12 100000 0 rs 3
Ethernet16 16,17,18,19 Ethernet16 100000 0 rs 4
Ethernet20 20,21,22,23 Ethernet20 100000 0 rs 5
Ethernet24 24,25,26,27 Ethernet24 100000 0 rs 6
Ethernet28 28,29,30,31 Ethernet28 100000 0 rs 7
Ethernet32 32,33,34,35 Ethernet32 100000 0 rs 8
Ethernet36 36,37,38,39 Ethernet36 100000 0 rs 9
Ethernet40 40,41,42,43 Ethernet40 100000 0 rs 10
Ethernet44 44,45,46,47 Ethernet44 100000 0 rs 11
Ethernet48 48,49,50,51 Ethernet48 100000 0 rs 12
Ethernet52 52,53,54,55 Ethernet52 100000 0 rs 13
Ethernet56 56,57,58,59 Ethernet56 100000 0 rs 14
Ethernet60 60,61,62,63 Ethernet60 100000 0 rs 15
Ethernet64 64,65,66,67 Ethernet64 100000 0 rs 16
Ethernet68 68,69,70,71 Ethernet68 100000 0 rs 17
Ethernet72 72,73,74,75 Ethernet72 100000 0 rs 18
Ethernet76 76,77,78,79 Ethernet76 100000 0 rs 19
Ethernet80 80,81,82,83 Ethernet80 100000 0 rs 20
Ethernet84 84,85,86,87 Ethernet84 100000 0 rs 21
Ethernet88 88,89,90,91 Ethernet88 100000 0 rs 22
Ethernet92 92,93,94,95 Ethernet92 100000 0 rs 23
Ethernet96 96,97,98,99 Ethernet96 100000 0 rs 24
Ethernet100 100,101,102,103 Ethernet100 100000 0 rs 25
Ethernet104 104,105,106,107 Ethernet104 100000 0 rs 26
Ethernet108 108,109,110,111 Ethernet108 100000 0 rs 27
Ethernet112 112,113,114,115 Ethernet112 100000 0 rs 28
Ethernet116 116,117,118,119 Ethernet116 100000 0 rs 29
Ethernet120 120,121,122,123 Ethernet120 100000 0 rs 30
Ethernet124 124,125,126,127 Ethernet124 100000 0 rs 31
Ethernet128 128,129,130,131 Ethernet128 100000 0 rs 32
Ethernet132 132,133,134,135 Ethernet132 100000 0 rs 33
Ethernet136 136,137,138,139 Ethernet136 100000 0 rs 34
Ethernet140 140,141,142,143 Ethernet140 100000 0 rs 35
Ethernet144 144,145,146,147 Ethernet144 100000 0 rs 36
Ethernet148 148,149,150,151 Ethernet148 100000 0 rs 37
Ethernet152 152,153,154,155 Ethernet152 100000 0 rs 38
Ethernet156 156,157,158,159 Ethernet156 100000 0 rs 39
Ethernet160 160,161,162,163 Ethernet160 100000 0 rs 40
Ethernet164 164,165,166,167 Ethernet164 100000 0 rs 41
Ethernet168 168,169,170,171 Ethernet168 100000 0 rs 42
Ethernet172 172,173,174,175 Ethernet172 100000 0 rs 43
Ethernet176 176,177,178,179 Ethernet176 100000 0 rs 44
Ethernet180 180,181,182,183 Ethernet180 100000 0 rs 45
Ethernet184 184,185,186,187 Ethernet184 100000 0 rs 46
Ethernet188 188,189,190,191 Ethernet188 100000 0 rs 47
Ethernet192 192,193,194,195 Ethernet192 100000 0 rs 48
Ethernet196 196,197,198,199 Ethernet196 100000 0 rs 49
Ethernet200 200,201,202,203 Ethernet200 100000 0 rs 50
Ethernet204 204,205,206,207 Ethernet204 100000 0 rs 51
Ethernet208 208,209,210,211 Ethernet208 100000 0 rs 52
Ethernet212 212,213,214,215 Ethernet212 100000 0 rs 53
Ethernet216 216,217,218,219 Ethernet216 100000 0 rs 54
Ethernet220 220,221,222,223 Ethernet220 100000 0 rs 55
Ethernet224 224,225,226,227 Ethernet224 100000 0 rs 56
Ethernet228 228,229,230,231 Ethernet228 100000 0 rs 57
Ethernet232 232,233,234,235 Ethernet232 100000 0 rs 58
Ethernet236 236,237,238,239 Ethernet236 100000 0 rs 59
Ethernet240 240,241,242,243 Ethernet240 100000 0 rs 60
Ethernet244 244,245,246,247 Ethernet244 100000 0 rs 61
Ethernet248 248,249,250,251 Ethernet248 100000 0 rs 62
Ethernet252 252,253,254,255 Ethernet252 100000 0 rs 63

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{%- macro generate_tc_to_pg_map() %}
"TC_TO_PRIORITY_GROUP_MAP": {
"AZURE": {
"3": "3",
"4": "4"
}
},
{%- endmacro %}
{%- include 'qos_config.j2' %}

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SAI_KEY_WARM_BOOT_WRITE_FILE=/var/warmboot/sai-warmboot.bin
SAI_KEY_WARM_BOOT_READ_FILE=/var/warmboot/sai-warmboot.bin

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{
"instance": 0,
"chip_list": [
{
"id": "asic-0",
"chip_family": "Tofino",
"instance": 0,
"pcie_sysfs_prefix": "/sys/devices/pci0000:00/0000:00:03.0/0000:05:00.0",
"pcie_domain": 0,
"pcie_bus": 5,
"pcie_fn": 0,
"pcie_dev": 0,
"pcie_int_mode": 1,
"sds_fw_path": "share/tofino_sds_fw/avago/firmware"
}
],
"p4_devices": [
{
"device-id": 0,
"agent0": "lib/platform/x86_64-netberg_aurora_750-r0/libpltfm_mgr.so",
"p4_programs": [
{
"p4_pipelines": [
{
"p4_pipeline_name": "pipe",
"config": "share/switch/pipe/tofino.bin",
"context": "share/switch/pipe/context.json"
}
],
"program-name": "switch",
"sai": "lib/libsai.so",
"bfrt-config": "share/switch/bf-rt.json",
"model_json_path" : "share/switch/aug_model.json",
"switchapi_port_add": false,
"non_default_port_ppgs": 5
}
]
}
]
}

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aurora-750 t1

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INTERVAL=10
DEVPATH=hwmon1=devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-16/16-002f hwmon3=devices/pci0000:00/0000:00:1f.3/i2c-0/i2c-6/6-004c
DEVNAME=hwmon1=w83795adg
FCTEMPS=hwmon1/device/pwm2=hwmon3/temp1_input
FCFANS=hwmon1/device/pwm2=hwmon1/device/fan7_input hwmon1/device/pwm2=hwmon1/device/fan5_input hwmon1/device/pwm2=hwmon1/device/fan3_input hwmon1/device/pwm2=hwmon1/device/fan1_input
MINTEMP=hwmon1/device/pwm2=20
MAXTEMP=hwmon1/device/pwm2=60
MINSTART=hwmon1/device/pwm2=75
MINSTOP=hwmon1/device/pwm2=22

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CONSOLE_PORT=0x3f8
CONSOLE_DEV=0
CONSOLE_SPEED=115200

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- bus: '00'
dev: '00'
fn: '0'
id: 6f00
name: 'Host bridge: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D DMI2
(rev 03)'
- bus: '00'
dev: '02'
fn: '0'
id: 6f04
name: 'PCI bridge: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D PCI
Express Root Port 2 (rev 03)'
- bus: '00'
dev: '02'
fn: '2'
id: 6f06
name: 'PCI bridge: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D PCI
Express Root Port 2 (rev 03)'
- bus: '00'
dev: '03'
fn: '0'
id: 6f08
name: 'PCI bridge: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D PCI
Express Root Port 3 (rev 03)'
- bus: '00'
dev: '03'
fn: '1'
id: 6f09
name: 'PCI bridge: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D PCI
Express Root Port 3 (rev 03)'
- bus: '00'
dev: '03'
fn: '2'
id: 6f0a
name: 'PCI bridge: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D PCI
Express Root Port 3 (rev 03)'
- bus: '00'
dev: '03'
fn: '3'
id: 6f0b
name: 'PCI bridge: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D PCI
Express Root Port 3 (rev 03)'
- bus: '00'
dev: '05'
fn: '0'
id: 6f28
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Map/VTd_Misc/System Management (rev 03)'
- bus: '00'
dev: '05'
fn: '1'
id: 6f29
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D IIO Hot Plug (rev 03)'
- bus: '00'
dev: '05'
fn: '2'
id: 6f2a
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D IIO RAS/Control Status/Global Errors (rev 03)'
- bus: '00'
dev: '05'
fn: '4'
id: 6f2c
name: 'PIC: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon D I/O APIC (rev
03)'
- bus: '00'
dev: '14'
fn: '0'
id: 8c31
name: 'USB controller: Intel Corporation 8 Series/C220 Series Chipset Family USB
xHCI (rev 05)'
- bus: '00'
dev: 1c
fn: '0'
id: 8c10
name: 'PCI bridge: Intel Corporation 8 Series/C220 Series Chipset Family PCI Express
Root Port #1 (rev d5)'
- bus: '00'
dev: 1f
fn: '0'
id: 8c54
name: 'ISA bridge: Intel Corporation C224 Series Chipset Family Server Standard
SKU LPC Controller (rev 05)'
- bus: '00'
dev: 1f
fn: '2'
id: 8c02
name: 'SATA controller: Intel Corporation 8 Series/C220 Series Chipset Family 6-port
SATA Controller 1 [AHCI mode] (rev 05)'
- bus: '00'
dev: 1f
fn: '3'
id: 8c22
name: 'SMBus: Intel Corporation 8 Series/C220 Series Chipset Family SMBus Controller
(rev 05)'
- bus: '01'
dev: '00'
fn: '0'
id: 6f50
name: 'System peripheral: Intel Corporation Xeon Processor D Family QuickData Technology
Register DMA Channel 0'
- bus: '01'
dev: '00'
fn: '1'
id: 6f51
name: 'System peripheral: Intel Corporation Xeon Processor D Family QuickData Technology
Register DMA Channel 1'
- bus: '01'
dev: '00'
fn: '2'
id: 6f52
name: 'System peripheral: Intel Corporation Xeon Processor D Family QuickData Technology
Register DMA Channel 2'
- bus: '01'
dev: '00'
fn: '3'
id: 6f53
name: 'System peripheral: Intel Corporation Xeon Processor D Family QuickData Technology
Register DMA Channel 3'
- bus: '02'
dev: '00'
fn: '0'
id: 15ab
name: 'Ethernet controller: Intel Corporation Ethernet Connection X552 10 GbE Backplane'
- bus: '02'
dev: '00'
fn: '1'
id: 15ab
name: 'Ethernet controller: Intel Corporation Ethernet Connection X552 10 GbE Backplane'
- bus: '04'
dev: '00'
fn: '0'
id: '0010'
name: 'Unassigned class [ff00]: Device 1d1c:0010 (rev 10)'
- bus: 08
dev: '00'
fn: '0'
id: '1533'
name: 'Ethernet controller: Intel Corporation I210 Gigabit Network Connection (rev
03)'
- bus: ff
dev: 0b
fn: '0'
id: 6f81
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D R3 QPI Link 0/1 (rev 03)'
- bus: ff
dev: 0b
fn: '1'
id: 6f36
name: 'Performance counters: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D R3 QPI Link 0/1 (rev 03)'
- bus: ff
dev: 0b
fn: '2'
id: 6f37
name: 'Performance counters: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D R3 QPI Link 0/1 (rev 03)'
- bus: ff
dev: 0b
fn: '3'
id: 6f76
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D R3 QPI Link Debug (rev 03)'
- bus: ff
dev: 0c
fn: '0'
id: 6fe0
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: 0c
fn: '1'
id: 6fe1
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: 0c
fn: '2'
id: 6fe2
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: 0c
fn: '3'
id: 6fe3
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: 0f
fn: '0'
id: 6ff8
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: 0f
fn: '4'
id: 6ffc
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: 0f
fn: '5'
id: 6ffd
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: 0f
fn: '6'
id: 6ffe
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Caching Agent (rev 03)'
- bus: ff
dev: '10'
fn: '0'
id: 6f1d
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D R2PCIe Agent (rev 03)'
- bus: ff
dev: '10'
fn: '1'
id: 6f34
name: 'Performance counters: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D R2PCIe Agent (rev 03)'
- bus: ff
dev: '10'
fn: '5'
id: 6f1e
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Ubox (rev 03)'
- bus: ff
dev: '10'
fn: '6'
id: 6f7d
name: 'Performance counters: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Ubox (rev 03)'
- bus: ff
dev: '10'
fn: '7'
id: 6f1f
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Ubox (rev 03)'
- bus: ff
dev: '12'
fn: '0'
id: 6fa0
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Home Agent 0 (rev 03)'
- bus: ff
dev: '12'
fn: '1'
id: 6f30
name: 'Performance counters: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Home Agent 0 (rev 03)'
- bus: ff
dev: '13'
fn: '0'
id: 6fa8
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Target Address/Thermal/RAS (rev 03)'
- bus: ff
dev: '13'
fn: '1'
id: 6f71
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Target Address/Thermal/RAS (rev 03)'
- bus: ff
dev: '13'
fn: '2'
id: 6faa
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel Target Address Decoder (rev 03)'
- bus: ff
dev: '13'
fn: '3'
id: 6fab
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel Target Address Decoder (rev 03)'
- bus: ff
dev: '13'
fn: '4'
id: 6fac
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel Target Address Decoder (rev 03)'
- bus: ff
dev: '13'
fn: '5'
id: 6fad
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel Target Address Decoder (rev 03)'
- bus: ff
dev: '13'
fn: '6'
id: 6fae
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D DDRIO Channel 0/1 Broadcast (rev 03)'
- bus: ff
dev: '13'
fn: '7'
id: 6faf
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D DDRIO Global Broadcast (rev 03)'
- bus: ff
dev: '14'
fn: '0'
id: 6fb0
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 0 Thermal Control (rev 03)'
- bus: ff
dev: '14'
fn: '1'
id: 6fb1
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 1 Thermal Control (rev 03)'
- bus: ff
dev: '14'
fn: '2'
id: 6fb2
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 0 Error (rev 03)'
- bus: ff
dev: '14'
fn: '3'
id: 6fb3
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 1 Error (rev 03)'
- bus: ff
dev: '14'
fn: '4'
id: 6fbc
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D DDRIO Channel 0/1 Interface (rev 03)'
- bus: ff
dev: '14'
fn: '5'
id: 6fbd
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D DDRIO Channel 0/1 Interface (rev 03)'
- bus: ff
dev: '14'
fn: '6'
id: 6fbe
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D DDRIO Channel 0/1 Interface (rev 03)'
- bus: ff
dev: '14'
fn: '7'
id: 6fbf
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D DDRIO Channel 0/1 Interface (rev 03)'
- bus: ff
dev: '15'
fn: '0'
id: 6fb4
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 2 Thermal Control (rev 03)'
- bus: ff
dev: '15'
fn: '1'
id: 6fb5
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 3 Thermal Control (rev 03)'
- bus: ff
dev: '15'
fn: '2'
id: 6fb6
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 2 Error (rev 03)'
- bus: ff
dev: '15'
fn: '3'
id: 6fb7
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Memory Controller 0 - Channel 3 Error (rev 03)'
- bus: ff
dev: 1e
fn: '0'
id: 6f98
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Power Control Unit (rev 03)'
- bus: ff
dev: 1e
fn: '1'
id: 6f99
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Power Control Unit (rev 03)'
- bus: ff
dev: 1e
fn: '2'
id: 6f9a
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Power Control Unit (rev 03)'
- bus: ff
dev: 1e
fn: '3'
id: 6fc0
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Power Control Unit (rev 03)'
- bus: ff
dev: 1e
fn: '4'
id: 6f9c
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Power Control Unit (rev 03)'
- bus: ff
dev: 1f
fn: '0'
id: 6f88
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Power Control Unit (rev 03)'
- bus: ff
dev: 1f
fn: '2'
id: 6f8a
name: 'System peripheral: Intel Corporation Xeon E7 v4/Xeon E5 v4/Xeon E3 v4/Xeon
D Power Control Unit (rev 03)'

View File

@ -0,0 +1 @@
barefoot

View File

@ -0,0 +1,9 @@
{
"skip_pcied": false,
"skip_fancontrol": false,
"skip_thermalctld": false,
"skip_ledd": true,
"skip_xcvrd": false,
"skip_psud": false,
"skip_syseepromd": false
}

View File

@ -0,0 +1,94 @@
# libsensors configuration file
chip "i350bb-*"
ignore loc1
chip "jc42-*"
bus "i2c-16" "i2c-mux-1 (chan_id 7)"
chip "w83795adg-*"
ignore in0
label in1 "VDD_CORE"
set in1_min 0.717
set in1_max 0.962
ignore in2
ignore in3
label in4 "3.3V"
compute in4 @/(0.3052), (0.3052)*@
set in4_min 3.3 * 0.95
set in4_max 3.3 * 1.05
label in5 "0.9V"
set in5_min 0.90 * 0.98
set in5_max 0.90 * 1.02
ignore in6
ignore in7
ignore in8
ignore in9
ignore in10
ignore in11
ignore in12
ignore in13
ignore in14
ignore in15
ignore in16
ignore in17
ignore in18
ignore in19
label fan1 "FANTRAY 1"
ignore fan2
label fan3 "FANTRAY 2"
ignore fan4
label fan5 "FANTRAY 3"
ignore fan6
label fan7 "FANTRAY 4"
ignore fan8
ignore temp1
ignore temp2
ignore temp3
ignore temp4
ignore temp5
ignore temp6
ignore intrusion0
chip "tmp75-i2c-*-4A"
label temp1 "BMC Board Temp"
set temp1_max 50
set temp1_max_hyst 45
bus "i2c-0" "SMBus I801 adapter at f000"
chip "tmp75-i2c-*-4F"
label temp1 "x86 CPU Board Temp"
set temp1_max 50
set temp1_max_hyst 45
bus "i2c-6" "i2c-0-mux (chan_id 5)"
chip "lm75-i2c-6-4D"
label temp1 "Rear Panel Temp"
set temp1_max 50
set temp1_max_hyst 45
chip "lm75-i2c-6-4E"
label temp1 "Rear MAC"
set temp1_max 50
set temp1_max_hyst 45
chip "lm86-i2c-6-4C"
label temp1 "lm86"
set temp1_max 50
label temp2 "Front MAC Temp"
set temp2_max 70
bus "i2c-7" "i2c-0-mux (chan_id 6)"
chip "lm75-i2c-7-4D"
label temp1 "Front Panel"
set temp1_max 50
set temp1_max_hyst 45
chip "lm75-i2c-7-4E"
label temp1 "Front MAC"
set temp1_max 50
set temp1_max_hyst 45
chip "lm75-i2c-16-4A"
label temp1 "BMC board thermal"
set temp1_max 50
set temp1_max_hyst 45
chip "lm75-i2c-0-4F"
label temp1 "CPU board thermal,"
set temp1_max 50
set temp1_max_hyst 45

View File

@ -15,6 +15,7 @@ $(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(INGRASYS_S9280_64X_PLATFORM_MODULE)
$(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(BFN_MONTARA_QS_PLATFORM_MODULE) $(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(BFN_MONTARA_QS_PLATFORM_MODULE)
$(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(NETBERG_AURORA_610_PLATFORM_MODULE) $(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(NETBERG_AURORA_610_PLATFORM_MODULE)
$(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(NETBERG_AURORA_710_PLATFORM_MODULE) $(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(NETBERG_AURORA_710_PLATFORM_MODULE)
$(SONIC_ONE_IMAGE)_LAZY_INSTALLS += $(NETBERG_AURORA_750_PLATFORM_MODULE)
ifeq ($(INSTALL_DEBUG_TOOLS),y) ifeq ($(INSTALL_DEBUG_TOOLS),y)
$(SONIC_ONE_IMAGE)_DOCKERS += $(SONIC_INSTALL_DOCKER_DBG_IMAGES) $(SONIC_ONE_IMAGE)_DOCKERS += $(SONIC_INSTALL_DOCKER_DBG_IMAGES)
$(SONIC_ONE_IMAGE)_DOCKERS += $(filter-out $(patsubst %-$(DBG_IMAGE_MARK).gz,%.gz, $(SONIC_INSTALL_DOCKER_DBG_IMAGES)), $(SONIC_INSTALL_DOCKER_IMAGES)) $(SONIC_ONE_IMAGE)_DOCKERS += $(filter-out $(patsubst %-$(DBG_IMAGE_MARK).gz,%.gz, $(SONIC_INSTALL_DOCKER_DBG_IMAGES)), $(SONIC_INSTALL_DOCKER_IMAGES))

View File

@ -2,9 +2,11 @@
NETBERG_AURORA_610_PLATFORM_MODULE_VERSION = 1.1.1 NETBERG_AURORA_610_PLATFORM_MODULE_VERSION = 1.1.1
NETBERG_AURORA_710_PLATFORM_MODULE_VERSION = 1.1.1 NETBERG_AURORA_710_PLATFORM_MODULE_VERSION = 1.1.1
NETBERG_AURORA_750_PLATFORM_MODULE_VERSION = 1.1.1
export NETBERG_AURORA_610_PLATFORM_MODULE_VERSION export NETBERG_AURORA_610_PLATFORM_MODULE_VERSION
export NETBERG_AURORA_710_PLATFORM_MODULE_VERSION export NETBERG_AURORA_710_PLATFORM_MODULE_VERSION
export NETBERG_AURORA_750_PLATFORM_MODULE_VERSION
NETBERG_AURORA_610_PLATFORM_MODULE = sonic-platform-netberg-aurora-610_$(NETBERG_AURORA_610_PLATFORM_MODULE_VERSION)_amd64.deb NETBERG_AURORA_610_PLATFORM_MODULE = sonic-platform-netberg-aurora-610_$(NETBERG_AURORA_610_PLATFORM_MODULE_VERSION)_amd64.deb
$(NETBERG_AURORA_610_PLATFORM_MODULE)_SRC_PATH = $(PLATFORM_PATH)/sonic-platform-modules-netberg $(NETBERG_AURORA_610_PLATFORM_MODULE)_SRC_PATH = $(PLATFORM_PATH)/sonic-platform-modules-netberg
@ -17,3 +19,8 @@ NETBERG_AURORA_710_PLATFORM_MODULE = sonic-platform-netberg-aurora-710_$(NETBERG
$(NETBERG_AURORA_710_PLATFORM_MODULE)_PLATFORM = x86_64-netberg_aurora_710-r0 $(NETBERG_AURORA_710_PLATFORM_MODULE)_PLATFORM = x86_64-netberg_aurora_710-r0
$(eval $(call add_extra_package,$(NETBERG_AURORA_610_PLATFORM_MODULE),$(NETBERG_AURORA_710_PLATFORM_MODULE))) $(eval $(call add_extra_package,$(NETBERG_AURORA_610_PLATFORM_MODULE),$(NETBERG_AURORA_710_PLATFORM_MODULE)))
NETBERG_AURORA_750_PLATFORM_MODULE = sonic-platform-netberg-aurora-750_$(NETBERG_AURORA_750_PLATFORM_MODULE_VERSION)_amd64.deb
$(NETBERG_AURORA_750_PLATFORM_MODULE)_PLATFORM = x86_64-netberg_aurora_750-r0
$(eval $(call add_extra_package,$(NETBERG_AURORA_610_PLATFORM_MODULE),$(NETBERG_AURORA_750_PLATFORM_MODULE)))

View File

@ -0,0 +1,23 @@
# kernel module build
*.o
*.ko
*.mod.c
*.mod.o
*.cmd
Module.symvers
modules.order
# debian packaging
*.debhelper
*.log
DEBIAN
.tmp_versions
.finished.build
*.substvars
# python
*.pyc
/build
/*.egg-info
/venv
/.pybuild

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@ -0,0 +1 @@
obj-m := netberg_nba750_64x_i2c_cpld.o

View File

@ -0,0 +1,322 @@
/* header file for i2c cpld driver of NETBERG_NBA750_64X
*
*/
#ifndef NETBERG_NBA750_64X_I2C_CPLD_H
#define NETBERG_NBA750_64X_I2C_CPLD_H
/* CPLD device index value */
enum cpld_id {
cpld1,
cpld2,
cpld3,
cpld4,
cpld5
};
enum LED_BLINK {
BLINK,
NOBLINK,
};
enum LED_YELLOW {
YELLOW_OFF,
YELLOW_ON,
};
enum LED_GREEN {
GREEN_OFF,
GREEN_ON,
};
/* port number on CPLD */
#define CPLD_1_PORT_NUM 12
#define CPLD_2_PORT_NUM 13
/* QSFP port number */
#define QSFP_MAX_PORT_NUM 64
#define QSFP_MIN_PORT_NUM 1
/* SFP+ port number */
#define SFP_MAX_PORT_NUM 2
#define SFP_MIN_PORT_NUM 1
/* CPLD registers */
#define CPLD_BOARD_TYPE_REG 0x0
#define CPLD_EXT_BOARD_TYPE_REG 0x7
#define CPLD_VERSION_REG 0x1
#define CPLD_ID_REG 0x2
#define CPLD_QSFP_PORT_STATUS_BASE_REG 0x20
#define CPLD_QSFP_PORT_CONFIG_BASE_REG 0x30
#define CPLD_QSFP_PORT_INTERRUPT_REG 0x40
#define CPLD_SFP_PORT_STATUS_REG 0x2F
#define CPLD_SFP_PORT_CONFIG_REG 0x3F
#define CPLD_QSFP_PORT_INTERRUPT_REG 0x40
#define CPLD_10GMUX_CONFIG_REG 0x41
#define CPLD_BMC_STATUS_REG 0x42
#define CPLD_BMC_WATCHDOG_REG 0x43
#define CPLD_USB_STATUS_REG 0x44
#define CPLD_RESET_CONTROL_REG 0x4A
#define CPLD_SFP_LED_REG 0x80
#define CPLD_SFP_LED_BLINK_REG 0x90
#define CPLD_QSFP_LED_BASE_REG 0x80
#define CPLD_QSFP_LED_BLINK_BASE_REG 0x90
#define CPLD_RTMR_RESET_REG 0x4B
#define CPLD_ROV_STATUS_REG 0x4C
/* bit definition for register value */
enum CPLD_QSFP_PORT_STATUS_BITS {
CPLD_QSFP_PORT_STATUS_INT_BIT,
CPLD_QSFP_PORT_STATUS_ABS_BIT,
};
enum CPLD_QSFP_PORT_CONFIG_BITS {
CPLD_QSFP_PORT_CONFIG_RESET_BIT,
CPLD_QSFP_PORT_CONFIG_RESERVE_BIT,
CPLD_QSFP_PORT_CONFIG_LPMODE_BIT,
};
enum CPLD_SFP_PORT_STATUS_BITS {
CPLD_SFP0_PORT_STATUS_PRESENT_BIT,
CPLD_SFP0_PORT_STATUS_TXFAULT_BIT,
CPLD_SFP0_PORT_STATUS_RXLOS_BIT,
CPLD_SFP_PORT_STATUS_DUMMY,
CPLD_SFP1_PORT_STATUS_PRESENT_BIT,
CPLD_SFP1_PORT_STATUS_TXFAULT_BIT,
CPLD_SFP1_PORT_STATUS_RXLOS_BIT,
};
enum CPLD_SFP_PORT_CONFIG_BITS {
CPLD_SFP0_PORT_CONFIG_TXDIS_BIT,
CPLD_SFP0_PORT_CONFIG_RS_BIT,
CPLD_SFP0_PORT_CONFIG_TS_BIT,
CPLD_SFP_PORT_CONFIG_DUMMY,
CPLD_SFP1_PORT_CONFIG_TXDIS_BIT,
CPLD_SFP1_PORT_CONFIG_RS_BIT,
CPLD_SFP1_PORT_CONFIG_TS_BIT,
};
enum CPLD_10GMUX_CONFIG_BITS {
CPLD_10GMUX_CONFIG_ENSMB_BIT,
CPLD_10GMUX_CONFIG_ENINPUT_BIT,
CPLD_10GMUX_CONFIG_SEL1_BIT,
CPLD_10GMUX_CONFIG_SEL0_BIT,
};
enum CPLD_BMC_WATCHDOG_BITS {
CPLD_10GMUX_CONFIG_ENTIMER_BIT,
CPLD_10GMUX_CONFIG_TIMEOUT_BIT,
};
enum CPLD_RESET_CONTROL_BITS {
CPLD_RESET_CONTROL_SWRST_BIT,
CPLD_RESET_CONTROL_CP2104RST_BIT,
CPLD_RESET_CONTROL_82P33814RST_BIT,
CPLD_RESET_CONTROL_BMCRST_BIT,
};
enum CPLD_SFP_LED_BITS {
CPLD_SFP_LED_SFP0_GREEN_BIT,
CPLD_SFP_LED_SFP0_YELLOW_BIT,
CPLD_SFP_LED_SFP1_GREEN_BIT,
CPLD_SFP_LED_SFP1_YELLOW_BIT,
};
enum CPLD_SFP_LED_BLINK_BITS {
CPLD_SFP_LED_BLINK_SFP0_BIT,
CPLD_SFP_LED_BLINK_SFP1_BIT,
};
enum CPLD_QSFP_LED_BITS {
CPLD_QSFP_LED_CHAN_0_GREEN_BIT,
CPLD_QSFP_LED_CHAN_0_YELLOW_BIT,
CPLD_QSFP_LED_CHAN_1_GREEN_BIT,
CPLD_QSFP_LED_CHAN_1_YELLOW_BIT,
CPLD_QSFP_LED_CHAN_2_GREEN_BIT,
CPLD_QSFP_LED_CHAN_2_YELLOW_BIT,
CPLD_QSFP_LED_CHAN_3_GREEN_BIT,
CPLD_QSFP_LED_CHAN_3_YELLOW_BIT,
};
enum CPLD_QSFP_LED_BLINK_BITS {
CPLD_QSFP_LED_BLINK_X_CHAN0_BIT,
CPLD_QSFP_LED_BLINK_X_CHAN1_BIT,
CPLD_QSFP_LED_BLINK_X_CHAN2_BIT,
CPLD_QSFP_LED_BLINK_X_CHAN3_BIT,
CPLD_QSFP_LED_BLINK_XPLUS_CHAN0_BIT,
CPLD_QSFP_LED_BLINK_XPLUS_CHAN1_BIT,
CPLD_QSFP_LED_BLINK_XPLUS_CHAN2_BIT,
CPLD_QSFP_LED_BLINK_XPLUS_CHAN3_BIT,
};
/* bit field structure for register value */
struct cpld_reg_board_type_t {
u8 build_rev:2;
u8 hw_rev:2;
u8 board_id:4;
};
struct cpld_reg_version_t {
u8 revision:6;
u8 release:1;
u8 reserve:1;
};
struct cpld_reg_id_t {
u8 id:3;
u8 release:5;
};
/* common manipulation */
#define INVALID(i, min, max) ((i < min) || (i > max) ? 1u : 0u)
#define READ_BIT(val, bit) ((0u == (val & (1<<bit))) ? 0u : 1u)
#define SET_BIT(val, bit) (val |= (1 << bit))
#define CLEAR_BIT(val, bit) (val &= ~(1 << bit))
#define TOGGLE_BIT(val, bit) (val ^= (1 << bit))
#define _BIT(n) (1<<(n))
#define _BIT_MASK(len) (BIT(len)-1)
/* bitfield of register manipulation */
#define READ_BF(bf_struct, val, bf_name, bf_value) \
(bf_value = ((struct bf_struct *)&val)->bf_name)
#define READ_BF_1(bf_struct, val, bf_name, bf_value) \
bf_struct bf; \
bf.data = val; \
bf_value = bf.bf_name
#define BOARD_TYPE_BUILD_REV_GET(val, res) \
READ_BF(cpld_reg_board_type_t, val, build_rev, res)
#define BOARD_TYPE_HW_REV_GET(val, res) \
READ_BF(cpld_reg_board_type_t, val, hw_rev, res)
#define BOARD_TYPE_BOARD_ID_GET(val, res) \
READ_BF(cpld_reg_board_type_t, val, board_id, res)
#define CPLD_VERSION_REV_GET(val, res) \
READ_BF(cpld_reg_version_t, val, revision, res)
#define CPLD_VERSION_REL_GET(val, res) \
READ_BF(cpld_reg_version_t, val, release, res)
#define CPLD_ID_ID_GET(val, res) \
READ_BF(cpld_reg_id_t, val, id, res)
#define CPLD_ID_REL_GET(val, res) \
READ_BF(cpld_reg_id_t, val, release, res)
/* SFP/QSFP port led registers manipulation */
#define SFP_LED_TO_CPLD_IDX(sfp_port) cpld1
#define SFP_LED_REG(sfp_port) CPLD_SFP_LED_REG
#define SFP_LED_BLINK_REG(sfp_port) CPLD_SFP_LED_BLINK_REG
#define QSFP_LED_TO_CPLD_IDX(qsfp_port) \
((qsfp_port - 1) / 16 + 2)
#define QSFP_LED_REG(qsfp_port) \
((qsfp_port - 1) % 16 + CPLD_QSFP_LED_BASE_REG)
#define QSFP_LED_BLINK_REG(qsfp_port) \
(((qsfp_port - 1) % 16) / 2 + CPLD_QSFP_LED_BLINK_BASE_REG)
/* QSFP/SFP port status registers manipulation */
#define QSFP_TO_CPLD_IDX(qsfp_port, cpld_index, cpld_port) \
{ \
if (QSFP_MIN_PORT_NUM <= qsfp_port && qsfp_port <= CPLD_1_PORT_NUM) { \
cpld_index = cpld1; \
cpld_port = qsfp_port - 1; \
} else if (CPLD_1_PORT_NUM < qsfp_port \
&& qsfp_port <= QSFP_MAX_PORT_NUM) { \
cpld_index = cpld2 + (qsfp_port - 1 - CPLD_1_PORT_NUM) \
/ CPLD_2_PORT_NUM; \
cpld_port = (qsfp_port - 1 - CPLD_1_PORT_NUM) % \
CPLD_2_PORT_NUM; \
} else { \
cpld_index = 0; \
cpld_port = 0; \
} \
}
#define QSFP_PORT_STATUS_REG(cpld_port) \
(CPLD_QSFP_PORT_STATUS_BASE_REG + cpld_port)
#define QSFP_PORT_CONFIG_REG(cpld_port) \
(CPLD_QSFP_PORT_CONFIG_BASE_REG + cpld_port)
#define QSFP_PORT_INT_BIT_GET(port_status_value) \
READ_BIT(port_status_value, CPLD_QSFP_PORT_STATUS_INT_BIT)
#define QSFP_PORT_ABS_BIT_GET(port_status_value) \
READ_BIT(port_status_value, CPLD_QSFP_PORT_STATUS_ABS_BIT)
#define QSFP_PORT_RESET_BIT_GET(port_config_value) \
READ_BIT(port_config_value, CPLD_QSFP_PORT_CONFIG_RESET_BIT)
#define QSFP_PORT_LPMODE_BIT_GET(port_config_value) \
READ_BIT(port_config_value, CPLD_QSFP_PORT_CONFIG_LPMODE_BIT)
#define QSFP_PORT_RESET_BIT_SET(port_config_value) \
SET_BIT(port_config_value, CPLD_QSFP_PORT_CONFIG_RESET_BIT)
#define QSFP_PORT_RESET_BIT_CLEAR(port_config_value) \
CLEAR_BIT(port_config_value, CPLD_QSFP_PORT_CONFIG_RESET_BIT)
#define QSFP_PORT_LPMODE_BIT_SET(port_config_value) \
SET_BIT(port_config_value, CPLD_QSFP_PORT_CONFIG_LPMODE_BIT)
#define QSFP_PORT_LPMODE_BIT_CLEAR(port_config_value) \
CLEAR_BIT(port_config_value, CPLD_QSFP_PORT_CONFIG_LPMODE_BIT)
#define SFP_PORT_PRESENT_BIT_GET(sfp_port, port_status_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
READ_BIT(port_status_value, CPLD_SFP0_PORT_STATUS_PRESENT_BIT); \
} else { \
READ_BIT(port_status_value, CPLD_SFP1_PORT_STATUS_PRESENT_BIT); \
}
#define SFP_PORT_TXFAULT_BIT_GET(sfp_port, port_status_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
READ_BIT(port_status_value, CPLD_SFP0_PORT_STATUS_TXFAULT_BIT); \
} else { \
READ_BIT(port_status_value, CPLD_SFP1_PORT_STATUS_TXFAULT_BIT); \
}
#define SFP_PORT_RXLOS_BIT_GET(sfp_port, port_status_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
READ_BIT(port_status_value, CPLD_SFP0_PORT_STATUS_RXLOS_BIT); \
} else { \
READ_BIT(port_status_value, CPLD_SFP1_PORT_STATUS_RXLOS_BIT); \
}
#define SFP_PORT_TXDIS_BIT_GET(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
READ_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_TXDIS_BIT); \
} else { \
READ_BIT(port_config_value, CPLD_SFP1_PORT_STATUS_RXLOS_BIT); \
}
#define SFP_PORT_RS_BIT_GET(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
READ_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_RS_BIT); \
} else { \
READ_BIT(port_config_value, CPLD_SFP1_PORT_CONFIG_RS_BIT); \
}
#define SFP_PORT_TS_BIT_GET(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
READ_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_TS_BIT); \
} else { \
READ_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_TS_BIT); \
}
#define SFP_PORT_TXDIS_BIT_SET(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
SET_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_TXDIS_BIT); \
} else { \
SET_BIT(port_config_value, CPLD_SFP1_PORT_CONFIG_TXDIS_BIT); \
}
#define SFP_PORT_TXDIS_BIT_CLEAR(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
CLEAR_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_TXDIS_BIT); \
} else { \
CLEAR_BIT(port_config_value, CPLD_SFP1_PORT_CONFIG_TXDIS_BIT); \
}
#define SFP_PORT_RS_BIT_SET(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
SET_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_RS_BIT); \
} else { \
SET_BIT(port_config_value, CPLD_SFP1_PORT_CONFIG_RS_BIT); \
}
#define SFP_PORT_RS_BIT_CLEAR(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
CLEAR_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_RS_BIT); \
} else { \
CLEAR_BIT(port_config_value, CPLD_SFP1_PORT_CONFIG_RS_BIT); \
}
#define SFP_PORT_TS_BIT_SET(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
SET_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_TS_BIT); \
} else { \
SET_BIT(port_config_value, CPLD_SFP1_PORT_CONFIG_TS_BIT); \
}
#define SFP_PORT_TS_BIT_CLEAR(sfp_port, port_config_value) \
if (sfp_port == SFP_MIN_PORT_NUM) { \
CLEAR_BIT(port_config_value, CPLD_SFP0_PORT_CONFIG_TS_BIT); \
} else { \
CLEAR_BIT(port_config_value, CPLD_SFP1_PORT_CONFIG_TS_BIT); \
}
/* CPLD access functions */
extern int netberg_i2c_cpld_get_qsfp_port_status_val(u8 port_num);
extern int netberg_i2c_cpld_get_qsfp_port_config_val(u8 port_num);
extern int netberg_i2c_cpld_set_qsfp_port_config_val(u8 port_num, u8 reg_val);
extern int netberg_i2c_cpld_get_sfp_port_status_val(void);
extern int netberg_i2c_cpld_get_sfp_port_config_val(void);
extern int netberg_i2c_cpld_set_sfp_port_config_val(u8 reg_val);
extern u8 fp_port_to_phy_port(u8 fp_port);
#endif

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#ifndef _NBA750_64X_PLATFORM_H
#define _NBA750_64X_PLATFORM_H
#include <linux/i2c.h>
// remove debug before release
#define DEBUG
enum bus_order {
I2C_BUS_MAIN,
MUX_9548_0_CH0,
MUX_9548_0_CH1,
MUX_9548_0_CH2,
MUX_9548_0_CH3,
MUX_9548_0_CH4,
MUX_9548_0_CH5,
MUX_9548_0_CH6,
MUX_9548_0_CH7,
MUX_9548_1_CH0,
MUX_9548_1_CH1,
MUX_9548_1_CH2,
MUX_9548_1_CH3,
MUX_9548_1_CH4,
MUX_9548_1_CH5,
MUX_9548_1_CH6,
MUX_9548_1_CH7,
MUX_9548_2_CH0,
MUX_9548_2_CH1,
MUX_9548_2_CH2,
MUX_9548_2_CH3,
MUX_9548_2_CH4,
MUX_9548_2_CH5,
MUX_9548_2_CH6,
MUX_9548_2_CH7,
MUX_9546_0_CH0,
MUX_9546_0_CH1,
MUX_9546_0_CH2,
MUX_9546_0_CH3,
MUX_9546_1_CH0,
MUX_9546_1_CH1,
MUX_9546_1_CH2,
MUX_9546_1_CH3,
MUX_9548_11_CH0,
MUX_9548_11_CH1,
MUX_9548_11_CH2,
MUX_9548_11_CH3,
MUX_9548_11_CH4,
MUX_9548_11_CH5,
MUX_9548_11_CH6,
MUX_9548_11_CH7,
MUX_9548_3_CH0,
MUX_9548_3_CH1,
MUX_9548_3_CH2,
MUX_9548_3_CH3,
MUX_9548_3_CH4,
MUX_9548_3_CH5,
MUX_9548_3_CH6,
MUX_9548_3_CH7,
MUX_9548_4_CH0,
MUX_9548_4_CH1,
MUX_9548_4_CH2,
MUX_9548_4_CH3,
MUX_9548_4_CH4,
MUX_9548_4_CH5,
MUX_9548_4_CH6,
MUX_9548_4_CH7,
MUX_9548_5_CH0,
MUX_9548_5_CH1,
MUX_9548_5_CH2,
MUX_9548_5_CH3,
MUX_9548_5_CH4,
MUX_9548_5_CH5,
MUX_9548_5_CH6,
MUX_9548_5_CH7,
MUX_9548_6_CH0,
MUX_9548_6_CH1,
MUX_9548_6_CH2,
MUX_9548_6_CH3,
MUX_9548_6_CH4,
MUX_9548_6_CH5,
MUX_9548_6_CH6,
MUX_9548_6_CH7,
MUX_9548_7_CH0,
MUX_9548_7_CH1,
MUX_9548_7_CH2,
MUX_9548_7_CH3,
MUX_9548_7_CH4,
MUX_9548_7_CH5,
MUX_9548_7_CH6,
MUX_9548_7_CH7,
MUX_9548_8_CH0,
MUX_9548_8_CH1,
MUX_9548_8_CH2,
MUX_9548_8_CH3,
MUX_9548_8_CH4,
MUX_9548_8_CH5,
MUX_9548_8_CH6,
MUX_9548_8_CH7,
MUX_9548_9_CH0,
MUX_9548_9_CH1,
MUX_9548_9_CH2,
MUX_9548_9_CH3,
MUX_9548_9_CH4,
MUX_9548_9_CH5,
MUX_9548_9_CH6,
MUX_9548_9_CH7,
MUX_9548_10_CH0,
MUX_9548_10_CH1,
MUX_9548_10_CH2,
MUX_9548_10_CH3,
MUX_9548_10_CH4,
MUX_9548_10_CH5,
MUX_9548_10_CH6,
MUX_9548_10_CH7,
};
#define I2C_ADDR_MUX_9555_0 (0x20)
#define I2C_ADDR_MUX_9555_1 (0x24)
#define I2C_ADDR_MUX_9555_2 (0x25)
#define I2C_ADDR_MUX_9555_3 (0x26)
#define I2C_ADDR_MUX_9539_0 (0x76)
#define I2C_ADDR_MUX_9539_1 (0x76)
#define I2C_BUS_FAN_STATUS (I2C_BUS_MAIN)
#define I2C_BUS_SYS_LED (MUX_9548_1_CH1)
#define I2C_BUS_PSU_STATUS (I2C_BUS_MAIN)
#define I2C_ADDR_PSU_STATUS (I2C_ADDR_MUX_9555_2)
#define NUM_OF_I2C_MUX (11)
#define NUM_OF_CPLD (5)
#define NUM_OF_QSFP_PORT (64)
#define NUM_OF_SFP_PORT (2)
#define QSFP_EEPROM_I2C_ADDR (0x50)
enum gpio_reg {
REG_PORT0_IN,
REG_PORT1_IN,
REG_PORT0_OUT,
REG_PORT1_OUT,
REG_PORT0_POL,
REG_PORT1_POL,
REG_PORT0_DIR,
REG_PORT1_DIR,
};
struct ing_i2c_board_info {
int ch;
int size;
struct i2c_board_info *board_info;
};
struct i2c_init_data {
__u16 ch;
__u16 addr;
__u8 reg;
__u8 value;
};
#endif

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[Unit]
Description= This Platform Monitor service is to initialize platform and monitor platform.
Before=platform-monitor.service
After=sysinit.target
Wants=fancontrol.service
Wants=qsfp-monitor.service
DefaultDependencies=no
[Service]
ExecStart=/usr/sbin/i2c_init.sh
KillSignal=SIGKILL
SuccessExitStatus=SIGKILL
# Resource Limitations
LimitCORE=infinity
[Install]
WantedBy=multi-user.target

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#!/usr/bin/env python
import os
from setuptools import setup
os.listdir
setup(
name='sonic_platform',
version='1.0',
description='Netberg Aurora 750 sonic platform API',
packages=['sonic_platform'],
package_dir={'sonic_platform': 'sonic_platform'},
classifiers=[
'Development Status :: 3 - Beta',
'Environment :: Plugins',
'Intended Audience :: Developers',
'Intended Audience :: Information Technology',
'Intended Audience :: System Administrators',
'License :: OSI Approved :: Apache Software License',
'Natural Language :: English',
'Operating System :: POSIX :: Linux',
'Programming Language :: Python :: 3.7',
'Topic :: Utilities',
],
)

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__all__ = ['chassis', 'eeprom', 'platform', 'psu', 'sfp']
from . import platform

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try:
import re
from sonic_platform_base.chassis_base import ChassisBase
from sonic_platform.eeprom import Eeprom
from sonic_platform.fan_drawer import FanDrawer
from sonic_platform.psu import Psu
from sonic_platform.sfp import Sfp
from sonic_platform.thermal import Thermal
from sonic_platform.component import Component
from sonic_platform.watchdog import Watchdog
from sonic_platform.event_monitor import EventMonitor
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
PMON_REBOOT_CAUSE_PATH = "/usr/share/sonic/platform/reboot-cause/"
REBOOT_CAUSE_FILE = "reboot-cause.txt"
PREV_REBOOT_CAUSE_FILE = "previous-reboot-cause.txt"
monitor = None
class Chassis(ChassisBase):
__num_of_fantrays = 4
__num_of_psus = 2
__num_of_sfps = 64
__num_of_thermals = 11
__num_of_components = 1
def __init__(self):
ChassisBase.__init__(self)
# Initialize EEPROM
self._eeprom = Eeprom()
self._eeprom_data = self._eeprom.get_eeprom_data()
# Initialize FAN
for index in range(self.__num_of_fantrays):
fandrawer = FanDrawer(index)
self._fan_drawer_list.append(fandrawer)
self._fan_list.extend(fandrawer._fan_list)
# Initialize PSU
for index in range(self.__num_of_psus):
psu = Psu(index)
self._psu_list.append(psu)
self._fan_list.extend(psu._fan_list)
# Initialize SFP
for index in range(self.__num_of_sfps):
sfp = Sfp(index)
self._sfp_list.append(sfp)
# Initialize THERMAL
for index in range(self.__num_of_thermals):
thermal = Thermal(index)
self._thermal_list.append(thermal)
# Initialize COMPONENT
for index in range(self.__num_of_components):
component = Component(index)
self._component_list.append(component)
# Initialize WATCHDOG
self._watchdog = Watchdog()
def __read_txt_file(self, file_path):
try:
with open(file_path, 'r') as fd:
data = fd.read()
return data.strip()
except IOError:
pass
return None
##############################################
# Device methods
##############################################
def get_name(self):
"""
Retrieves the name of the chassis
Returns:
string: The name of the chassis
"""
return self._eeprom.modelstr()
def get_presence(self):
"""
Retrieves the presence of the chassis
Returns:
bool: True if chassis is present, False if not
"""
return True
def get_model(self):
"""
Retrieves the model number (or part number) of the chassis
Returns:
string: Model/part number of chassis
"""
return self._eeprom.part_number_str()
def get_serial(self):
"""
Retrieves the serial number of the chassis
Returns:
string: Serial number of chassis
"""
return self._eeprom.serial_number_str()
def get_status(self):
"""
Retrieves the operational status of the chassis
Returns:
bool: A boolean value, True if chassis is operating properly
False if not
"""
return True
##############################################
# Chassis methods
##############################################
def get_base_mac(self):
"""
Retrieves the base MAC address for the chassis
Returns:
A string containing the MAC address in the format
'XX:XX:XX:XX:XX:XX'
"""
return self._eeprom.base_mac_addr(self._eeprom_data)
def get_serial_number(self):
"""
Retrieves the hardware serial number for the chassis
Returns:
A string containing the hardware serial number for this chassis.
"""
return self._eeprom.serial_number_str()
def get_system_eeprom_info(self):
"""
Retrieves the full content of system EEPROM information for the chassis
Returns:
A dictionary where keys are the type code defined in
OCP ONIE TlvInfo EEPROM format and values are their corresponding
values.
Ex. { '0x21':'AG9064', '0x22':'V1.0', '0x23':'AG9064-0109867821',
'0x24':'001c0f000fcd0a', '0x25':'02/03/2018 16:22:00',
'0x26':'01', '0x27':'REV01', '0x28':'AG9064-C2358-16G'}
"""
return self._eeprom.system_eeprom_info()
def get_reboot_cause(self):
"""
Retrieves the cause of the previous reboot
Returns:
A tuple (string, string) where the first element is a string
containing the cause of the previous reboot. This string must be
one of the predefined strings in this class. If the first string
is "REBOOT_CAUSE_HARDWARE_OTHER", the second string can be used
to pass a description of the reboot cause.
"""
description = 'None'
reboot_cause = self.REBOOT_CAUSE_HARDWARE_OTHER
reboot_cause_path = PMON_REBOOT_CAUSE_PATH + REBOOT_CAUSE_FILE
prev_reboot_cause_path = PMON_REBOOT_CAUSE_PATH + PREV_REBOOT_CAUSE_FILE
sw_reboot_cause = self.__read_txt_file(reboot_cause_path) or "Unknown"
prev_sw_reboot_cause = self.__read_txt_file(
prev_reboot_cause_path) or "Unknown"
if sw_reboot_cause == "Unknown" and prev_sw_reboot_cause in ("Unknown", self.REBOOT_CAUSE_POWER_LOSS):
reboot_cause = self.REBOOT_CAUSE_POWER_LOSS
description = prev_sw_reboot_cause
elif sw_reboot_cause != "Unknown":
reboot_cause = self.REBOOT_CAUSE_NON_HARDWARE
description = sw_reboot_cause
elif prev_reboot_cause_path != "Unknown":
reboot_cause = self.REBOOT_CAUSE_NON_HARDWARE
description = prev_sw_reboot_cause
return (reboot_cause, description)
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.
"""
global monitor
port_dict = {}
while True:
with EventMonitor(timeout) as monitor:
while True:
event = monitor.get_events()
if not bool(event):
return True, {'sfp': port_dict}
else:
if event['SUBSYSTEM'] == 'swps':
portname = event['DEVPATH'].split("/")[-1]
rc = re.match(r"port(?P<num>\d+)", portname)
if rc is not None:
if event['ACTION'] == "remove":
remove_num = int(rc.group("num"))
port_dict[remove_num] = "0"
elif event['ACTION'] == "add":
add_num = int(rc.group("num"))
port_dict[add_num] = "1"
return True, {'sfp': port_dict}
return False, {'sfp': port_dict}
else:
pass

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#!/usr/bin/env python
try:
import os
import subprocess
import logging
from sonic_platform_base.component_base import ComponentBase
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
OS_SYSTEM_SUCCESS = 0
MAIN_BIOS_INDEX = 0
COMPONENT_NAME_LIST = [
"Main BIOS",
]
COMPONENT_DESC_LIST = [
"Main BIOS",
]
class Component(ComponentBase):
def __get_attr_value(self, attr_path):
retval = 'ERR'
if not os.path.isfile(attr_path):
return retval
try:
with open(attr_path, 'r') as fd:
retval = fd.read()
except Exception as error:
logging.error("Unable to open file: %s", attr_path)
retval = retval.rstrip(' \t\n\r')
return retval
def __set_attr_value(self, attr_path, value):
try:
with open(attr_path, 'r+') as reg_file:
reg_file.write(value)
except IOError as e:
logging.error("Error: unable to open file: %s", str(e))
return False
return True
def __get_bios_version(self):
"""
Retrieves the firmware version of the BIOS
Returns:
A string containing the firmware version of the BIOS
"""
try:
cmd = ['dmidecode', '-s', 'bios-version']
if os.geteuid() != 0:
cmd.insert(0, 'sudo')
return subprocess.check_output(cmd).strip().decode()
except subprocess.CalledProcessError as e:
raise RuntimeError("Failed to get BIOS version")
__get_version_callback_list = {
MAIN_BIOS_INDEX: __get_bios_version,
}
def __init__(self, component_index):
self.index = component_index
def get_name(self):
"""
Retrieves the name of the component
Returns:
A string containing the name of the component
"""
return COMPONENT_NAME_LIST[self.index]
def get_description(self):
"""
Retrieves the description of the component
Returns:
A string containing the description of the component
"""
return COMPONENT_DESC_LIST[self.index]
def get_firmware_version(self):
"""
Retrieves the firmware version of the component
Returns:
A string containing the firmware version of the component
"""
return self.__get_version_callback_list[self.index](self)
def install_firmware(self, image_path):
"""
Installs firmware to the component
Args:
image_path: A string, path to firmware image
Returns:
A boolean, True if install was successful, False if not
"""
return self.__install_firmware_callback_list[self.index](self, image_path)

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#!/usr/bin/env python
try:
import sys
import re
if sys.version_info.major == 3:
from io import StringIO
else:
from cStringIO import StringIO
# from sonic_platform_base.sonic_eeprom import eeprom_dts
from sonic_platform_base.sonic_eeprom import eeprom_tlvinfo
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
class Eeprom(eeprom_tlvinfo.TlvInfoDecoder):
EEPROM_DECODE_HEADLINES = 6
def __init__(self):
self._eeprom_path = "/sys/bus/i2c/devices/0-0055/eeprom"
super(Eeprom, self).__init__(self._eeprom_path, 0, '', True)
self._eeprom = self._load_eeprom()
def __parse_output(self, decode_output):
decode_output.replace('\0', '')
lines = decode_output.split('\n')
lines = lines[self.EEPROM_DECODE_HEADLINES:]
_eeprom_info_dict = dict()
for line in lines:
match = re.search(
r'(0x[0-9a-fA-F]{2})([\s]+[\S]+[\s]+)([\S]+)', line)
if match is not None:
idx = match.group(1)
value = match.group(3).rstrip('\0')
_eeprom_info_dict[idx] = value
return _eeprom_info_dict
def _load_eeprom(self):
original_stdout = sys.stdout
sys.stdout = StringIO()
err = self.read_eeprom_db()
if err:
pass
else:
decode_output = sys.stdout.getvalue()
sys.stdout = original_stdout
return self.__parse_output(decode_output)
status = self.check_status()
if status < 'ok':
return {}
data = self.read_eeprom()
if data is None:
return 0
self.decode_eeprom(data)
decode_output = sys.stdout.getvalue()
sys.stdout = original_stdout
is_valid = self.is_checksum_valid(data)
if not is_valid:
return {}
return self.__parse_output(decode_output)
def get_eeprom(self):
return self._eeprom
def serial_number_str(self):
"""
Returns the serial number
"""
return self._eeprom.get('0x23', "Undefined.")
def base_mac_addr(self, ee):
"""
Returns the base mac address found in the system EEPROM
"""
return self._eeprom.get('0x24', "Undefined.")
def modelstr(self):
"""
Returns the Model name
"""
return self._eeprom.get('0x28', "Undefined.")
def part_number_str(self):
"""
Returns the part number
"""
return self._eeprom.get('0x22', "Undefined.")
def revision_str(self):
"""
Returns the device revision
"""
return self._eeprom.get('0x26', "Undefined.")
def serial_str(self):
return self._eeprom.get('0x2F', "Undefined.")
def system_eeprom_info(self):
"""
Returns a dictionary, where keys are the type code defined in
ONIE EEPROM format and values are their corresponding values
found in the system EEPROM.
"""
return self._eeprom
def get_eeprom_data(self):
return self._eeprom

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#
# event_monitor.py
# Description: module to minitor events
#
try:
import socket
from collections import OrderedDict
import os
except ImportError as e:
raise ImportError("%s - required module not found" % str(e))
NETLINK_KOBJECT_UEVENT = 15
class EventMonitor:
def __init__(self, timeout):
self.recieved_events = OrderedDict()
self.socket = socket.socket(
socket.AF_NETLINK, socket.SOCK_DGRAM, NETLINK_KOBJECT_UEVENT)
self.timeout = timeout
def start(self):
self.socket.bind((os.getpid(), -1))
if self.timeout == 0:
self.socket.settimeout(None)
else:
self.socket.settimeout(self.timeout/1000.0)
def stop(self):
self.socket.close()
def __enter__(self):
self.start()
return self
def __exit__(self, exc_type, exc_value, traceback):
self.stop()
def __iter__(self):
while True:
for item in self.next_events():
yield item
def next_events(self):
try:
data = self.socket.recv(16384)
event = {}
for item in data.split(b'\x00'):
if not item:
# check if we have an event and if we already received it
if event and event['SEQNUM'] not in self.recieved_events:
self.recieved_events[event['SEQNUM']] = None
if len(self.recieved_events) > 100:
self.recieved_events.popitem(last=False)
yield event
event = {}
else:
try:
k, v = item.split(b'=', 1)
event[k.decode('ascii')] = v.decode('ascii')
except ValueError:
pass
except socket.timeout:
yield event
def get_events(self):
event = {}
while True:
try:
data = self.socket.recv(16384)
for item in data.split(b'\x00'):
if not item:
# check if we have an event and if we already received it
# if no item and event empty, means received garbled
if bool(event):
if event['SEQNUM'] not in self.recieved_events:
self.recieved_events[event['SEQNUM']] = None
if len(self.recieved_events) > 100:
self.recieved_events.popitem(last=False)
return event
else:
event = {}
else:
try:
k, v = item.split(b'=', 1)
event[k] = v
except ValueError:
pass
except socket.timeout:
return event

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#!/usr/bin/env python
#
# Name: fan.py, version: 1.0
#
# Description: Module contains the definitions of SONiC platform APIs
#
try:
import logging
import os
from sonic_platform_base.fan_base import FanBase
from sonic_py_common.logger import Logger
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
MAX_FAN_RPM = 22000
MAX_PSU_FAN_RPM = 18000
MAX_PWM_OF_FAN = 255
FAN_SYS_FS = "/sys/bus/i2c/devices/16-002f/fan{}_input"
FAN_ALARM_SYS_FS = "/sys/bus/i2c/devices/16-002f/fan{}_alarm"
PSU_FAN_SYS_FS = "/sys/class/hwmon/hwmon{}/fan1_input"
PSU_FAN_ALARM_SYS_FS = "/sys/class/hwmon/hwmon{}/fan1_alarm"
logger = Logger('sonic-platform-fan')
class Fan(FanBase):
def __init__(self, index, psu_fan=False):
self.__psu_fan = psu_fan
if psu_fan:
self.__index = index
self.__rpm = PSU_FAN_SYS_FS.format(9 + self.__index)
self.__alarm = PSU_FAN_ALARM_SYS_FS.format(9 + self.__index)
else:
self.__index = 1 + 2*index
self.__rpm = FAN_SYS_FS.format(self.__index)
self.__alarm = FAN_ALARM_SYS_FS.format(self.__index)
def __get_attr_value(self, attr_path):
retval = 'ERR'
if not os.path.isfile(attr_path):
return retval
try:
with open(attr_path, 'r') as fd:
retval = fd.read()
except Exception as error:
logging.error("Unable to open file: %s", attr_path)
retval = retval.rstrip(' \t\n\r')
return retval
##############################################
# Device methods
##############################################
def get_name(self):
"""
Retrieves the name of the device
Returns:
string: The name of the device
"""
return "FAN{}".format(self.__index) if not self.__psu_fan else "PSU{}_FAN".format(self.__index+1)
def get_presence(self):
"""
Retrieves the presence of the device
Returns:
bool: True if device is present, False if not
"""
return self.get_status()
def get_model(self):
"""
Retrieves the model number (or part number) of the device
Returns:
string: Model/part number of device
"""
return 'N/A'
def get_serial(self):
"""
Retrieves the serial number of the device
Returns:
string: Serial number of device
"""
return 'N/A'
def get_status(self):
"""
Retrieves the operational status of the device
Returns:
A boolean value, True if device is operating properly, False if not
"""
status = False
rv = self.__get_attr_value(self.__alarm)
if rv != 'ERR':
if rv == '0':
status = True
else:
raise SyntaxError
return status
def is_replaceable(self):
"""
Indicate whether Fan is replaceable.
Returns:
bool: True if it is replaceable.
"""
return False
def get_position_in_parent(self):
return self.__index
##############################################
# FAN methods
##############################################
def get_direction(self):
"""
Retrieves the direction of fan
Returns:
A string, either FAN_DIRECTION_INTAKE or FAN_DIRECTION_EXHAUST
depending on fan direction
"""
return 'N/A'
def get_speed(self):
"""
Retrieves the speed of fan as a percentage of full speed
Returns:
An integer, the percentage of full fan speed, in the range 0 (off)
to 100 (full speed)
"""
speed = 44
rv = self.__get_attr_value(self.__rpm)
if rv != 'ERR':
speed = int(
rv) * 100 // (MAX_PSU_FAN_RPM if self.__psu_fan else MAX_FAN_RPM)
return speed
def get_target_speed(self):
"""
Retrieves the target (expected) speed of the fan
Returns:
An integer, the percentage of full fan speed, in the range 0 (off)
to 100 (full speed)
"""
return self.get_speed()
def get_speed_tolerance(self):
"""
Retrieves the speed tolerance of the fan
Returns:
An integer, the percentage of variance from target speed which is
considered tolerable
"""
raise NotImplementedError
def set_speed(self, speed):
"""
Sets the fan speed
Args:
speed: An integer, the percentage of full fan speed to set fan to,
in the range 0 (off) to 100 (full speed)
Returns:
A boolean, True if speed is set successfully, False if not
"""
return False
def set_status_led(self, color):
"""
Sets the state of the fan module status LED
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
"""
return False
def get_status_led(self):
"""
Gets the state of the fan status LED
Returns:
A string, one of the predefined STATUS_LED_COLOR_* strings above
"""
return None

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try:
from sonic_platform_base.fan_drawer_base import FanDrawerBase
from sonic_platform.fan import Fan
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
class FanDrawer(FanDrawerBase):
""" Platform-specific Fan class"""
def __init__(self, fantray_index):
FanDrawerBase.__init__(self)
self.fantray_index = fantray_index
self._fan_list.append(Fan(fantray_index))
def get_name(self):
"""
Retrieves the fan drawer name
Returns:
string: The name of the device
"""
return "FanTray{}".format(self.fantray_index+1)

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#!/usr/bin/env python
#
# Name: platform.py, version: 1.0
#
# Description: Module contains the definitions of SONiC platform APIs
#
try:
from sonic_platform_base.platform_base import PlatformBase
from sonic_platform.chassis import Chassis
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
class Platform(PlatformBase):
def __init__(self):
PlatformBase.__init__(self)
self._chassis = Chassis()

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try:
from sonic_platform_base.psu_base import PsuBase
from sonic_py_common.logger import Logger
from sonic_platform.fan import Fan
import subprocess
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
VOLTAGE_HIGH_THRESHOLD = 13.4
VOLTAGE_LOW_THRESHOLD = 10.2
TEMPERATURE_HIGH_THRESHOLD = 70.0
MAX_SUPPLIED_POWER = 550.0
GPIO_OFFSET = 512 + 256
PSU_SYS_FS = "/sys/class/hwmon/hwmon{}/"
PSU_EEPROM = "/sys/bus/i2c/devices/{}-0050/eeprom"
logger = Logger('sonic-platform-psu')
class Psu(PsuBase):
__name_of_psus = ['PSU1', 'PSU2']
def __init__(self, index):
PsuBase.__init__(self)
self.__index = index
psun_sys_fs = PSU_SYS_FS.format(9 + self.__index)
# /sys/bus/i2c/devices/i2c-57/57-0058/hwmon/hwmon8/in2_input
self.__psu_voltage_out_attr = psun_sys_fs + "in2_input"
# /sys/bus/i2c/devices/i2c-57/57-0058/hwmon/hwmon8/curr2_input
self.__psu_current_out_attr = psun_sys_fs + "curr2_input"
# /sys/bus/i2c/devices/i2c-57/57-0058/hwmon/hwmon8/power2_input
self.__psu_power_out_attr = psun_sys_fs + "power2_input"
# /sys/bus/i2c/devices/i2c-57/57-0058/hwmon/hwmon8/temp2_input
self.__psu_temperature_attr = psun_sys_fs + "temp2_input"
self.__psu_eeprom_attr = PSU_EEPROM.format(17 + index)
self._fan_list.append(Fan(index=self.__index, psu_fan=True))
def __eeprom_read_bytes(self, start, end):
try:
val = open(self.__psu_eeprom_attr, "rb").read()[start:end]
except Exception:
val = None
return val.decode('ascii')
def __get_attr_value(self, filepath):
# logger.log_error("openning: {}".format(filepath))
try:
with open(filepath, 'r') as fd:
# text
data = fd.readlines()
return data[0].rstrip('\r\n')
except FileNotFoundError:
logger.log_error(f"File {filepath} not found. Aborting")
except (OSError, IOError) as ex:
logger.log_error("Cannot open - {}: {}".format(filepath, repr(ex)))
return 'ERR'
##############################################
# Device methods
##############################################
def get_name(self):
"""
Retrieves the name of the device
Returns:
string: The name of the device
"""
return self.__name_of_psus[self.__index]
def get_presence(self):
"""
Retrieves the presence of the device
Returns:
bool: True if device is present, False if not
"""
presence = False
if self.get_model is not None:
presence = True
return presence
def get_model(self):
"""
Retrieves the model number (or part number) of the device
Returns:
string: Model/part number of device
"""
return self.__eeprom_read_bytes(20, 40)
def get_serial(self):
"""
Retrieves the serial number of the device
Returns:
string: Serial number of device
"""
return self.__eeprom_read_bytes(61, 80)
def get_revision(self):
"""
Retrieves the hardware revision of the device
Returns:
string: Revision value of device
"""
return self.__eeprom_read_bytes(57, 59)
def get_status(self):
"""
Retrieves the operational status of the device
Returns:
A boolean value, True if device is operating properly, False if not
"""
return self.get_presence()
def is_replaceable(self):
"""
Indicate whether this device is replaceable.
Returns:
bool: True if it is replaceable.
"""
return True
##############################################
# PSU methods
##############################################
def get_voltage(self):
"""
Retrieves current PSU voltage output
Returns:
A float number, the output voltage in volts,
e.g. 12.1
"""
attr_path = self.__psu_voltage_out_attr
attr_rv = self.__get_attr_value(attr_path)
if attr_rv != 'ERR':
voltage_out = float(attr_rv) / 1000
else:
raise SyntaxError
return voltage_out
def get_input_voltage(self):
return self.get_voltage()
def get_current(self):
"""
Retrieves present electric current supplied by PSU
Returns:
A float number, the electric current in amperes, e.g 15.4
"""
attr_path = self.__psu_current_out_attr
attr_rv = self.__get_attr_value(attr_path)
if attr_rv != 'ERR':
current_out = float(attr_rv) / 1000
else:
raise SyntaxError
return current_out
def get_input_current(self):
return self.get_current()
def get_power(self):
"""
Retrieves current energy supplied by PSU
Returns:
A float number, the power in watts, e.g. 302.6
"""
attr_path = self.__psu_power_out_attr
attr_rv = self.__get_attr_value(attr_path)
if attr_rv != 'ERR':
power_out = float(attr_rv) / 1000000
else:
raise SyntaxError
return power_out
def get_temperature(self):
"""
Retrieves current temperature reading from PSU
Returns:
A float number of current temperature in Celsius up to nearest thousandth
of one degree Celsius, e.g. 30.125
"""
attr_rv = self.__get_attr_value(self.__psu_temperature_attr)
if attr_rv != 'ERR':
temperature = float(attr_rv) / 1000
else:
raise SyntaxError
return temperature
def get_powergood_status(self):
"""
Retrieves the powergood status of PSU
Returns:
A boolean, True if PSU has stablized its output voltages and passed all
its internal self-tests, False if not.
"""
powergood_status = False
voltage_out = self.get_voltage()
# Check the voltage out with 12V, plus or minus 20 percentage.
if self.get_voltage_low_threshold() <= voltage_out <= self.get_voltage_high_threshold():
powergood_status = True
return powergood_status
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 VOLTAGE_HIGH_THRESHOLD
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 VOLTAGE_LOW_THRESHOLD
def get_temperature_high_threshold(self):
"""
Retrieves the high threshold temperature of PSU
Returns:
A float number, the high threshold temperature of PSU in Celsius
up to nearest thousandth of one degree Celsius, e.g. 30.125
"""
return TEMPERATURE_HIGH_THRESHOLD
def get_maximum_supplied_power(self):
"""
Retrieves the maximum supplied power by PSU
Returns:
A float number, the maximum power output in Watts.
e.g. 1200.1
"""
return MAX_SUPPLIED_POWER
def set_status_led(self, color):
"""
Sets the state of the PSU status LED
Args:
color: A string representing the color with which to set the
PSU status LED
Returns:
bool: True if status LED state is set successfully, False if not
"""
value = 0
# PSU1: mask = 8
# PSU2: mask = 16
mask = 8 + 8 * self.__index
if color == self.STATUS_LED_COLOR_GREEN:
value = 0x00
elif color == self.STATUS_LED_COLOR_AMBER:
value = 0xFF
else:
logger.log_error(
"Invalid Parameters. LED Color {} doesn't support".format(color))
return False
ret_val, log = subprocess.getstatusoutput(
"i2cset -m {} -y -r 50 0x75 2 {}".format(mask, value))
if ret_val != 0:
logger.log_error("Unable set PSU{} color with following i2cset output {} ".format(
self.__index + 1, log))
return False
return True
def get_status_led(self):
"""
Gets the state of the PSU status LED
Returns:
A string, one of the predefined STATUS_LED_COLOR_* strings above
"""
raise NotImplementedError

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#!/usr/bin/env python
try:
from sonic_platform_base.sonic_xcvr.sfp_optoe_base import SfpOptoeBase
from sonic_py_common.logger import Logger
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
SFP_TYPE = "SFP"
QSFP_TYPE = "QSFP"
QSFP_DD_TYPE = "QSFP_DD"
CPLD_QSFP_STATUS_ABS_BIT=1
CPLD_QSFP_PORT_CONFIG_RESET_BIT=0
CPLD_QSFP_PORT_CONFIG_LPMODE_BIT=2
fp2phy_array=( 0, 1, 4, 5, 8, 9, 12, 13, 16, 17, 20, 21, 24, 25, 28, 29,
32, 33, 36, 37, 40, 41, 44, 45, 48, 49, 52, 53, 56, 57, 60, 61,
2, 3, 6, 7, 10, 11, 14, 15, 18, 19, 22, 23, 26, 27, 30, 31,
34, 35, 38, 39, 42, 43, 46, 47, 50, 51, 54, 55, 58, 59, 62, 63)
EEPROM_PATH = "/sys/bus/i2c/devices/{}-0050/eeprom"
logger = Logger('sonic-platform-sfp')
class Sfp(SfpOptoeBase):
"""
BFN Platform-specific SFP class
"""
def __init__(self, port_num):
SfpOptoeBase.__init__(self)
self.index = port_num
self.port_num = port_num
self.sfp_type = QSFP_TYPE
self.eeprom_path = self.__get_eeprom_path()
self.cpld_status_path = self.__get_cpld_path("status")
self.cpld_config_path = self.__get_cpld_path("config")
logger.log_error(self.cpld_status_path)
def __get_cpld_path(self, sc):
phy = fp2phy_array[self.index]+1
cpld_index = phy // 13 + 1
reg_port_base = 0 if cpld_index == 1 else 13 * (cpld_index - 1) - 1
cpld_port_index = phy - reg_port_base
return "/sys/bus/i2c/drivers/netberg_i2c_cpld/{}-0033/cpld_qsfp_port_{}_{}".format(cpld_index, sc, cpld_port_index)
def __get_eeprom_path(self):
phy = fp2phy_array[self.index] + 1
port_group = int(phy/8)
eeprom_busbase = 41 + (port_group * 8)
eeprom_busshift = phy%8
eeprom_bus = eeprom_busbase + eeprom_busshift -1
return EEPROM_PATH.format(eeprom_bus)
def __get_attr_value(self, filepath):
try:
with open(filepath, 'r') as fd:
# text
data = fd.readlines()
return data[0].rstrip('\r\n')
except FileNotFoundError:
logger.log_error(f"File {filepath} not found. Aborting")
except (OSError, IOError) as ex:
logger.log_error("Cannot open - {}: {}".format(filepath, repr(ex)))
return 'ERR'
def get_presence(self):
"""
Retrieves the presence of the sfp
"""
presence = False
attr_rv = self.__get_attr_value(self.cpld_status_path)
if attr_rv != 'ERR':
if int(attr_rv, 16) & (1 << CPLD_QSFP_STATUS_ABS_BIT) == 0:
presence = True
else:
raise SyntaxError
return presence
def get_lpmode(self):
"""
Retrieves the lpmode (low power mode) status of this SFP
"""
lpmode = False
attr_rv = self.__get_attr_value(self.cpld_config_path)
if attr_rv != 'ERR':
if int(attr_rv, 16) & (1 << CPLD_QSFP_PORT_CONFIG_LPMODE_BIT) == 0:
lpmode = True
else:
raise SyntaxError
return lpmode
def set_lpmode(self, lpmode):
"""
Sets the lpmode (low power mode) of SFP
"""
return False
def get_eeprom_path(self):
return self.eeprom_path
def write_eeprom(self, offset, num_bytes, write_buffer):
# Not supported at the moment
return False
def get_name(self):
"""
Retrieves the name of the device
Returns:
string: The name of the device
"""
return "sfp{}".format(self.index)
def get_reset_status(self):
"""
Retrieves the reset status of SFP
"""
status = False
attr_rv = self.__get_attr_value(self.cpld_config_path)
if attr_rv != 'ERR':
if int(attr_rv, 16) & (1 << CPLD_QSFP_PORT_CONFIG_RESET_BIT) == 0:
status = True
else:
raise SyntaxError
return status
def reset(self):
"""
Reset SFP and return all user module settings to their default srate.
"""
return False
def get_status(self):
"""
Retrieves the operational status of the device
"""
reset = self.get_reset_status()
if reset:
status = False
else:
status = True
return status
def get_position_in_parent(self):
"""
Retrieves 1-based relative physical position in parent device.
Returns:
integer: The 1-based relative physical position in parent
device or -1 if cannot determine the position
"""
return self.index
def is_replaceable(self):
"""
Indicate whether this device is replaceable.
Returns:
bool: True if it is replaceable.
"""
return True
def get_error_description(self):
"""
Retrives the error descriptions of the SFP module
Returns:
String that represents the current error descriptions of vendor specific errors
In case there are multiple errors, they should be joined by '|',
like: "Bad EEPROM|Unsupported cable"
"""
if not self.get_presence():
return self.SFP_STATUS_UNPLUGGED
return self.SFP_STATUS_OK
def tx_disable(self, tx_disable):
"""
Disable SFP TX for all channels
Args:
tx_disable : A Boolean, True to enable tx_disable mode, False to disable
tx_disable mode.
Returns:
A boolean, True if tx_disable is set successfully, False if not
"""
if self.sfp_type == QSFP_TYPE:
return self.tx_disable_channel(0xF, tx_disable)
return False
def tx_disable_channel(self, channel, disable):
"""
Sets the tx_disable for specified SFP channels
Args:
channel : A hex of 4 bits (bit 0 to bit 3) which represent channel 0 to 3,
e.g. 0x5 for channel 0 and channel 2.
disable : A boolean, True to disable TX channels specified in channel,
False to enable
Returns:
A boolean, True if successful, False if not
"""
return False
def get_power_override(self):
return False
def set_power_override(self, power_override, power_set):
return False

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#!/usr/bin/env python
#
# Name: thermal.py, version: 1.0
#
# Description: Module contains the definitions of SONiC platform APIs
#
try:
import os
import logging
from sonic_platform_base.thermal_base import ThermalBase
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
class Thermal(ThermalBase):
__core_temp_path = "/sys/devices/platform/coretemp.0/hwmon/hwmon0/temp{}_{}"
__switch_thermal_path = "/sys/class/hwmon/hwmon{}/temp{}_{}"
__name_of_thermal = [
"Core 0",
"Core 1",
"Core 2",
"Core 3",
"Core 4",
"Rear Panel",
"Rear MAC",
"Front Panel",
"Front MAC",
"BMC board",
"CPU board"
]
__thermal_path_list = [
__core_temp_path.format(1, "input"),
__core_temp_path.format(2, "input"),
__core_temp_path.format(3, "input"),
__core_temp_path.format(4, "input"),
__core_temp_path.format(5, "input"),
__switch_thermal_path.format(1, 1, "input"),
__switch_thermal_path.format(2, 1, "input"),
__switch_thermal_path.format(3, 1, "input"),
__switch_thermal_path.format(5, 1, "input"),
__switch_thermal_path.format(6, 1, "input"),
__switch_thermal_path.format(7, 1, "input")
]
__max_temp_path_list = [
__core_temp_path.format(1, "max"),
__core_temp_path.format(2, "max"),
__core_temp_path.format(3, "max"),
__core_temp_path.format(4, "max"),
__core_temp_path.format(5, "max"),
__switch_thermal_path.format(1, 1, "max"),
__switch_thermal_path.format(2, 1, "max"),
__switch_thermal_path.format(3, 1, "max"),
__switch_thermal_path.format(5, 1, "max"),
__switch_thermal_path.format(6, 1, "max"),
__switch_thermal_path.format(7, 1, "max")
]
def __init__(self, index):
self.__index = index
self.__thermal_temp_attr = self.__thermal_path_list[self.__index]
self.__max_temp_attr = self.__max_temp_path_list[self.__index]
def __get_attr_value(self, attr_path):
retval = 'ERR'
if not os.path.isfile(attr_path):
return retval
try:
with open(attr_path, 'r') as fd:
retval = fd.read()
except FileNotFoundError:
logging.error("File %s not found. Aborting", attr_path)
except (OSError, IOError) as ex:
logging.error("Cannot open - %s: %s", attr_path, repr(ex))
retval = retval.rstrip(' \t\n\r')
return retval
##############################################
# Device methods
##############################################
def get_name(self):
"""
Retrieves the name of the device
Returns:
string: The name of the device
"""
return self.__name_of_thermal[self.__index]
def get_presence(self):
"""
Retrieves the presence of the device
Returns:
bool: True if device is present, False if not
"""
attr_path = self.__thermal_temp_attr
return os.path.isfile(attr_path)
def get_model(self):
"""
Retrieves the model number (or part number) of the device
Returns:
string: Model/part number of device
"""
raise NotImplementedError
def get_serial(self):
"""
Retrieves the serial number of the device
Returns:
string: Serial number of device
"""
raise NotImplementedError
def get_status(self):
"""
Retrieves the operational status of the device
Returns:
A boolean value, True if device is operating properly, False if not
"""
status = False
if self.get_presence():
status = True
return status
##############################################
# THERMAL methods
##############################################
def get_temperature(self):
"""
Retrieves current temperature reading from thermal
Returns:
A float number of current temperature in Celsius up to nearest thousandth
of one degree Celsius, e.g. 30.125
"""
attr_path = self.__thermal_temp_attr
attr_rv = self.__get_attr_value(attr_path)
if attr_rv != 'ERR':
temperature = float(attr_rv) / 1000
else:
raise SyntaxError
return temperature
def get_high_threshold(self):
"""
Retrieves the high threshold temperature of thermal
Returns:
A float number, the high threshold temperature of thermal in Celsius
up to nearest thousandth of one degree Celsius, e.g. 30.125
"""
attr_path = self.__max_temp_attr
if attr_path == '':
raise NotImplementedError
else:
attr_rv = self.__get_attr_value(attr_path)
if attr_rv != 'ERR':
high_threshold = float(attr_rv) / 1000
else:
raise SyntaxError
return high_threshold
def get_low_threshold(self):
"""
Retrieves the low threshold temperature of thermal
Returns:
A float number, the low threshold temperature of thermal in Celsius
up to nearest thousandth of one degree Celsius, e.g. 30.125
"""
raise NotImplementedError
def set_high_threshold(self, temperature):
"""
Sets the high threshold temperature of thermal
Args :
temperature: A float number up to nearest thousandth of one degree Celsius,
e.g. 30.125
Returns:
A boolean, True if threshold is set successfully, False if not
"""
raise NotImplementedError
def set_low_threshold(self, temperature):
"""
Sets the low threshold temperature of thermal
Args :
temperature: A float number up to nearest thousandth of one degree Celsius,
e.g. 30.125
Returns:
A boolean, True if threshold is set successfully, False if not
"""
raise NotImplementedError

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#!/usr/bin/env python
#############################################################################
#
# Module contains an implementation of SONiC Platform Base API and
# provides the Watchdog information
#
#############################################################################
import fcntl
import os
import array
try:
from sonic_platform_base.watchdog_base import WatchdogBase
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
""" ioctl constants """
IO_WRITE = 0x40000000
IO_READ = 0x80000000
IO_READ_WRITE = 0xC0000000
IO_SIZE_INT = 0x00040000
IO_SIZE_40 = 0x00280000
IO_TYPE_WATCHDOG = ord('W') << 8
WDR_INT = IO_READ | IO_SIZE_INT | IO_TYPE_WATCHDOG
WDR_40 = IO_READ | IO_SIZE_40 | IO_TYPE_WATCHDOG
WDWR_INT = IO_READ_WRITE | IO_SIZE_INT | IO_TYPE_WATCHDOG
""" Watchdog ioctl commands """
WDIOC_GETSUPPORT = 0 | WDR_40
WDIOC_GETSTATUS = 1 | WDR_INT
WDIOC_GETBOOTSTATUS = 2 | WDR_INT
WDIOC_GETTEMP = 3 | WDR_INT
WDIOC_SETOPTIONS = 4 | WDR_INT
WDIOC_KEEPALIVE = 5 | WDR_INT
WDIOC_SETTIMEOUT = 6 | WDWR_INT
WDIOC_GETTIMEOUT = 7 | WDR_INT
WDIOC_SETPRETIMEOUT = 8 | WDWR_INT
WDIOC_GETPRETIMEOUT = 9 | WDR_INT
WDIOC_GETTIMELEFT = 10 | WDR_INT
""" Watchdog status constants """
WDIOS_DISABLECARD = 0x0001
WDIOS_ENABLECARD = 0x0002
WDT_COMMON_ERROR = -1
WD_MAIN_IDENTITY = "iTCO_wdt"
WDT_SYSFS_PATH = "/sys/class/watchdog/"
class Watchdog(WatchdogBase):
def __init__(self):
self.watchdog = None
self.armed = False
def _is_wd_main(self, dev):
"""
Checks watchdog identity
"""
identity = self._read_file(
"{}/{}/identity".format(WDT_SYSFS_PATH, dev))
return identity == WD_MAIN_IDENTITY
def _get_wdt(self):
"""
Retrieves watchdog device
"""
wdt_main_dev_list = [dev for dev in os.listdir(
"/dev/") if dev.startswith("watchdog") and self._is_wd_main(dev)]
if not wdt_main_dev_list:
return None
wdt_main_dev_name = wdt_main_dev_list[0]
watchdog_device_path = "/dev/{}".format(wdt_main_dev_name)
try:
watchdog = os.open(watchdog_device_path, os.O_RDWR)
except (FileNotFoundError, IOError, OSError):
watchdog = None
except SystemExit:
pass
return watchdog, wdt_main_dev_name
def _read_file(self, file_path):
"""
Read text file
"""
try:
with open(file_path, "r") as fd:
txt = fd.read()
except IOError:
return WDT_COMMON_ERROR
return txt.strip()
def _enable(self):
"""
Turn on the watchdog timer
"""
req = array.array('h', [WDIOS_ENABLECARD])
fcntl.ioctl(self.watchdog, WDIOC_SETOPTIONS, req, False)
def _disable(self):
"""
Turn off the watchdog timer
"""
if self.watchdog is None:
return WDT_COMMON_ERROR
req = array.array('h', [WDIOS_DISABLECARD])
fcntl.ioctl(self.watchdog, WDIOC_SETOPTIONS, req, False)
def _keepalive(self):
"""
Keep alive watchdog timer
"""
fcntl.ioctl(self.watchdog, WDIOC_KEEPALIVE)
def _settimeout(self, seconds):
"""
Set watchdog timer timeout
@param seconds - timeout in seconds
@return is the actual set timeout
"""
req = array.array('I', [seconds])
fcntl.ioctl(self.watchdog, WDIOC_SETTIMEOUT, req, True)
return int(req[0])
def _gettimeout(self, timeout_path):
"""
Get watchdog timeout
@return watchdog timeout
"""
if self.watchdog is None:
return WDT_COMMON_ERROR
req = array.array('I', [0])
fcntl.ioctl(self.watchdog, WDIOC_GETTIMEOUT, req, True)
return int(req[0])
def _gettimeleft(self):
"""
Get time left before watchdog timer expires
@return time left in seconds
"""
req = array.array('I', [0])
fcntl.ioctl(self.watchdog, WDIOC_GETTIMELEFT, req, True)
return int(req[0])
def _set_arm(self):
self.watchdog, self.wdt_main_dev_name = self._get_wdt()
self.status_path = "/sys/class/watchdog/%s/status" % self.wdt_main_dev_name
self.state_path = "/sys/class/watchdog/%s/state" % self.wdt_main_dev_name
self.timeout_path = "/sys/class/watchdog/%s/timeout" % self.wdt_main_dev_name
# Set default value
self._disable()
self.timeout = self._gettimeout(self.timeout_path)
#################################################################
def arm(self, seconds):
"""
Arm the hardware watchdog with a timeout of <seconds> seconds.
If the watchdog is currently armed, calling this function will
simply reset the timer to the provided value. If the underlying
hardware does not support the value provided in <seconds>, this
method should arm the watchdog with the *next greater* available
value.
Returns:
An integer specifying the *actual* number of seconds the watchdog
was armed with. On failure returns -1.
"""
if self.watchdog is None:
self._set_arm()
ret = WDT_COMMON_ERROR
if seconds < 0 or self.watchdog is None:
return ret
try:
if self.timeout != seconds:
self.timeout = self._settimeout(seconds)
if self.armed:
self._keepalive()
else:
self._enable()
self.armed = True
ret = self.timeout
except IOError as e:
pass
return ret
def disarm(self):
"""
Disarm the hardware watchdog
Returns:
A boolean, True if watchdog is disarmed successfully, False if not
"""
disarmed = False
if self.watchdog is None:
return disarmed
if self.is_armed():
try:
self._disable()
self.armed = False
disarmed = True
except IOError:
pass
return disarmed
def is_armed(self):
"""
Retrieves the armed state of the hardware watchdog.
Returns:
A boolean, True if watchdog is armed, False if not
"""
return self.armed
def get_remaining_time(self):
"""
If the watchdog is armed, retrieve the number of seconds remaining on
the watchdog timer
Returns:
An integer specifying the number of seconds remaining on thei
watchdog timer. If the watchdog is not armed, returns -1.
"""
timeleft = WDT_COMMON_ERROR
if self.watchdog is None:
return WDT_COMMON_ERROR
if self.armed:
try:
timeleft = self._gettimeleft()
except IOError:
pass
return timeleft
def __del__(self):
"""
Close watchdog
"""
if self.watchdog is not None:
os.close(self.watchdog)

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#!/bin/bash
# vdd value for mac
rov_val_array=( 0.85 0.82 0.77 0.87 0.74 0.84 0.79 0.89 )
rov_reg_array=( 0x24 0x73 0x69 0x7D 0x63 0x77 0x6D 0x81 )
#GPIO Offset
GPIO_OFFSET=768
# fp port to phy port mapping
fp2phy_array=( 0 1 4 5 8 9 12 13 16 17 20 21 24 25 28 29
32 33 36 37 40 41 44 45 48 49 52 53 56 57 60 61
2 3 6 7 10 11 14 15 18 19 22 23 26 27 30 31
34 35 38 39 42 43 46 47 50 51 54 55 58 59 62 63)
#IO Expander Init
function _i2c_io_exp_init {
# _i2c_hwm_init
i2cset -y -r 16 0x2f 0x00 0x80
i2cset -y -r 16 0x2f 0x01 0x9C
i2cset -y -r 16 0x2f 0x04 0x00
i2cset -y -r 16 0x2f 0x06 0xFF
i2cset -y -r 16 0x2f 0x07 0x00
i2cset -y -r 16 0x2f 0x01 0x1C
i2cset -y -r 16 0x2f 0x00 0x82
i2cset -y -r 16 0x2f 0x0F 0x00
i2cset -y -r 16 0x2f 0x18 0x84
i2cset -y -r 16 0x2f 0x19 0x84
# _i2c_io_exp_init
# need to init BMC io expander first due to some io expander are reset default
# Init BMC INT & HW ID IO Expander
i2cset -y -r 0 0x24 6 0xFF
i2cset -y -r 0 0x24 7 0xFF
i2cset -y -r 0 0x24 4 0x00
i2cset -y -r 0 0x24 5 0x00
# Init BMC PSU status IO Expander
i2cset -y -r 0 0x25 6 0xFF
i2cset -y -r 0 0x25 7 0xFF
i2cset -y -r 0 0x25 4 0x00
i2cset -y -r 0 0x25 5 0x00
# Init BMC RST and SEL IO Expander
i2cset -y -r 0 0x26 2 0x3F
i2cset -y -r 0 0x26 3 0x1F
i2cset -y -r 0 0x26 6 0xD0
i2cset -y -r 0 0x26 7 0x00
i2cset -y -r 0 0x26 4 0x00
i2cset -y -r 0 0x26 5 0x00
# Init System LED & HW ID IO Expander
i2cset -y -r 10 0x76 2 0x00
i2cset -y -r 10 0x76 6 0x00
i2cset -y -r 10 0x76 7 0xFF
i2cset -y -r 10 0x76 4 0x00
i2cset -y -r 10 0x76 5 0x00
# Init FAN Board Status IO Expander
i2cset -y -r 0 0x20 2 0x11
i2cset -y -r 0 0x20 3 0x11
i2cset -y -r 0 0x20 6 0xCC
i2cset -y -r 0 0x20 7 0xCC
i2cset -y -r 0 0x20 4 0x00
i2cset -y -r 0 0x20 5 0x00
# Init System SEL and RST IO Expander
i2cset -y -r 32 0x76 2 0x04
i2cset -y -r 32 0x76 3 0xDF
i2cset -y -r 32 0x76 6 0x09
i2cset -y -r 32 0x76 7 0x3F
i2cset -y -r 32 0x76 4 0x00
i2cset -y -r 32 0x76 5 0x00
}
function mac_vdd_init {
# read mac vid register value from CPLD
val=`cat /sys/bus/i2c/devices/1-0033/cpld_rov_status`
# get vid form register value [0:2]
vid=$(($val & 0x7))
# get rov val and reg according to vid
rov_val=${rov_val_array[$vid]}
rov_reg=${rov_reg_array[$vid]}
echo "vid=${vid}, rov_val=${rov_val}, rov_reg=${rov_reg}"
# write the rov reg to rov
i2cset -y -r 15 0x76 0x21 ${rov_reg} w
if [ $? -eq 0 ]; then
echo "set ROV for mac vdd done"
else
echo "set ROV for mac vdd fail"
fi
}
rmmod i2c_i801
modprobe i2c_i801
modprobe i2c_dev
modprobe i2c_mux_pca954x
echo 'pca9548 0x70' > /sys/bus/i2c/devices/i2c-0/new_device
echo 'pca9548 0x73' > /sys/bus/i2c/devices/i2c-0/new_device
echo 'pca9546 0x72' > /sys/bus/i2c/devices/i2c-0/new_device
sleep 1
#todo: switch to channels
echo 'pca9548 0x71' > /sys/bus/i2c/devices/i2c-19/new_device
echo 'pca9546 0x71' > /sys/bus/i2c/devices/i2c-20/new_device
echo 'pca9548 0x75' > /sys/bus/i2c/devices/i2c-0/new_device
sleep 1
for I in {21..28}
do
echo 'pca9548 0x74' > /sys/bus/i2c/devices/i2c-$I/new_device
done
echo '-2' > /sys/bus/i2c/devices/0-0070/idle_state
echo '-2' > /sys/bus/i2c/devices/0-0073/idle_state
echo '-2' > /sys/bus/i2c/devices/0-0072/idle_state
echo '-2' > /sys/bus/i2c/devices/19-0071/idle_state
echo '-2' > /sys/bus/i2c/devices/20-0071/idle_state
echo '-2' > /sys/bus/i2c/devices/0-0075/idle_state
for I in {21..28}
do
echo '-2' > /sys/bus/i2c/devices/$I-0074/idle_state
done
_i2c_io_exp_init
# i2cget -y 44 0x74 2
echo 'w83795adg 0x2F' > /sys/bus/i2c/devices/i2c-16/new_device
#TMP75 Init
echo "lm75 0x4D" > /sys/bus/i2c/devices/i2c-6/new_device # lm75_1 Rear Panel, hwmon2
echo "lm75 0x4E" > /sys/bus/i2c/devices/i2c-6/new_device # lm75_2 Rear MAC, hwmon3
echo "lm86 0x4C" > /sys/bus/i2c/devices/i2c-6/new_device # lm86 , hwmon4
echo "lm75 0x4D" > /sys/bus/i2c/devices/i2c-7/new_device # lm75_3 Front Panel, hwmon5
echo "lm75 0x4E" > /sys/bus/i2c/devices/i2c-7/new_device # lm75_4 Front MAC, hwmon6
echo "lm75 0x4A" > /sys/bus/i2c/devices/i2c-16/new_device # tmp75 BMC board thermal, hwmon7
echo "lm75 0x4F" > /sys/bus/i2c/devices/i2c-0/new_device # tmp75 CPU board thermal, hwmon8
modprobe netberg_nba750_64x_i2c_cpld
for I in {1..5}
do
echo "netberg_cpld$I 0x33"> /sys/bus/i2c/devices/i2c-$I/new_device
done
modprobe at24
#Init MB EEPROM
echo "24c32 0x55" > /sys/bus/i2c/devices/i2c-0/new_device
# modprobe eeprom
# PS EEPROM
echo "spd 0x50" > /sys/bus/i2c/devices/i2c-18/new_device #PS0
echo "spd 0x50" > /sys/bus/i2c/devices/i2c-17/new_device #PS1
#modprobe pmbus
# PS PMBUS
echo "pmbus 0x58" > /sys/bus/i2c/devices/i2c-18/new_device #PS0
echo "pmbus 0x58" > /sys/bus/i2c/devices/i2c-17/new_device #PS1
modprobe optoe
#QSFP EEPROM
for I in {1..64}
do
declare -i phy_port=${fp2phy_array[$I-1]}+1
declare -i port_group=$phy_port/8
declare -i eeprom_busbase=41+$port_group*8
declare -i eeprom_busshift=$phy_port%8
declare -i eeprom_bus=$eeprom_busbase+$eeprom_busshift-1
echo "optoe1 0x50" > /sys/bus/i2c/devices/i2c-$eeprom_bus/new_device
done
# init SFP0/1 EEPROM
echo "sff8436 0x50" > /sys/bus/i2c/devices/i2c-29/new_device
echo "sff8436 0x50" > /sys/bus/i2c/devices/i2c-30/new_device
sleep 1
mac_vdd_init
# Set fan init speed
echo 120 > /sys/bus/i2c/devices/i2c-16/16-002f/pwm1
# _util_port_led_clear
i2cset -m 0x04 -y -r 32 0x76 2 0x0
sleep 1
i2cset -m 0x04 -y -r 32 0x76 2 0xFF
# turn on sys led
i2cset -m 0x80 -y -r 10 0x76 2 0x80

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@ -5,6 +5,10 @@ Maintainer: Netberg <support@netbergtw.com>
Build-Depends: debhelper (>= 9) Build-Depends: debhelper (>= 9)
Standards-Version: 1.0.0 Standards-Version: 1.0.0
Package: sonic-platform-netberg-aurora-750
Architecture: amd64
Description: This package contains Aurora 750 platform driver utility for SONiC project.
Package: sonic-platform-netberg-aurora-710 Package: sonic-platform-netberg-aurora-710
Architecture: amd64 Architecture: amd64
Description: This package contains Aurora 710 platform driver utility for SONiC project. Description: This package contains Aurora 710 platform driver utility for SONiC project.

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@ -8,7 +8,7 @@ PACKAGE_PRE_NAME := sonic-platform-netberg
KVERSION ?= $(shell uname -r) KVERSION ?= $(shell uname -r)
KERNEL_SRC := /lib/modules/$(KVERSION) KERNEL_SRC := /lib/modules/$(KVERSION)
MOD_SRC_DIR:= $(shell pwd) MOD_SRC_DIR:= $(shell pwd)
MODULE_DIRS:= aurora-610 aurora-710 MODULE_DIRS:= aurora-610 aurora-710 aurora-750
MODULE_DIR := modules MODULE_DIR := modules
UTILS_DIR := utils UTILS_DIR := utils
SERVICE_DIR := service SERVICE_DIR := service

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@ -0,0 +1,40 @@
#!/bin/bash
### BEGIN INIT INFO
# Provides: setup-board
# Required-Start:
# Required-Stop:
# Should-Start:
# Should-Stop:
# Default-Start: S
# Default-Stop: 0 6
# Short-Description: Setup Aurora-750 board.
### END INIT INFO
case "$1" in
start)
echo -n "Setting up board... "
depmod -a
/usr/sbin/i2c_init.sh
echo "done."
;;
stop)
echo "done."
;;
force-reload|restart)
echo "Not supported"
;;
*)
echo "Usage: /etc/init.d/sonic-platform-netberg-aurora-750.init {start|stop}"
exit 1
;;
esac
exit 0

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@ -0,0 +1 @@
aurora-750/modules/sonic_platform-1.0-py3-none-any.whl usr/share/sonic/device/x86_64-netberg_aurora_750-r0

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@ -0,0 +1,9 @@
#!/bin/sh
set -e
PLATFORM_NAME=x86_64-netberg_aurora_750-r0
SONIC_PLATFORM_WHEEL_PY3="/usr/share/sonic/device/${PLATFORM_NAME}/sonic_platform-1.0-py3-none-any.whl"
python3 -m pip install ${SONIC_PLATFORM_WHEEL_PY3}
#DEBHELPER#