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netbox-agent/netbox_agent/lshw.py

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Added disks extended attributes This patch brings some of the physical and virtual drive attributes as `custom_fields` to the disks inventory. The goal is to have this information present to ease disks maintenance when a drive becomes unavailable and its attributes can't be read anymore from the RAID controller. It also helps to standardize the extended disk attributes across the different manufacturers. As the disk physical identifers were not available under the correct format (hexadecimal format using the `xml` output as opposed as `X:Y:Z` format using the default `list` format), the command line parser has been refactored to read the `list` format, rather than `xml` one in the `omreport` raid controller parser. As the custom fields have to be created prior being able to register the disks extended attributes, this feature is only activated using the `--process-virtual-drives` command line parameter, or by setting `process_virtual_drives` to `true` in the configuration file. The custom fields to create as `DCIM > inventory item` `Text` are described below. NAME LABEL DESCRIPTION mount_point Mount point Device mount point(s) pd_identifier Physical disk identifier Physical disk identifier in the RAID controller vd_array Virtual drive array Virtual drive array the disk is member of vd_consistency Virtual drive consistency Virtual disk array consistency vd_device Virtual drive device Virtual drive system device vd_raid_type Virtual drive RAID Virtual drive array RAID type vd_size Virtual drive size Virtual drive array size In the current implementation, the disks attributes ore not updated: if a disk with the correct serial number is found, it's sufficient to consider it as up to date. To force the reprocessing of the disks extended attributes, the `--force-disk-refresh` command line option can be used: it removes all existing disks to before populating them with the correct parsing. Unless this option is specified, the extended attributes won't be modified unless a disk is replaced. It is possible to dump the physical/virtual disks map on the filesystem under the JSON notation to ease or automate disks management. The file path has to be provided using the `--dump-disks-map` command line parameter.
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from netbox_agent.misc import is_tool
Setup tests
2020-02-02 20:08:56 +01:00
import subprocess
Added disks extended attributes This patch brings some of the physical and virtual drive attributes as `custom_fields` to the disks inventory. The goal is to have this information present to ease disks maintenance when a drive becomes unavailable and its attributes can't be read anymore from the RAID controller. It also helps to standardize the extended disk attributes across the different manufacturers. As the disk physical identifers were not available under the correct format (hexadecimal format using the `xml` output as opposed as `X:Y:Z` format using the default `list` format), the command line parser has been refactored to read the `list` format, rather than `xml` one in the `omreport` raid controller parser. As the custom fields have to be created prior being able to register the disks extended attributes, this feature is only activated using the `--process-virtual-drives` command line parameter, or by setting `process_virtual_drives` to `true` in the configuration file. The custom fields to create as `DCIM > inventory item` `Text` are described below. NAME LABEL DESCRIPTION mount_point Mount point Device mount point(s) pd_identifier Physical disk identifier Physical disk identifier in the RAID controller vd_array Virtual drive array Virtual drive array the disk is member of vd_consistency Virtual drive consistency Virtual disk array consistency vd_device Virtual drive device Virtual drive system device vd_raid_type Virtual drive RAID Virtual drive array RAID type vd_size Virtual drive size Virtual drive array size In the current implementation, the disks attributes ore not updated: if a disk with the correct serial number is found, it's sufficient to consider it as up to date. To force the reprocessing of the disks extended attributes, the `--force-disk-refresh` command line option can be used: it removes all existing disks to before populating them with the correct parsing. Unless this option is specified, the extended attributes won't be modified unless a disk is replaced. It is possible to dump the physical/virtual disks map on the filesystem under the JSON notation to ease or automate disks management. The file path has to be provided using the `--dump-disks-map` command line parameter.
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import logging
import json
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
import sys
class LSHW():
def __init__(self):
if not is_tool('lshw'):
logging.error('lshw does not seem to be installed')
sys.exit(1)
data = subprocess.getoutput(
'lshw -quiet -json'
)
Added disks extended attributes This patch brings some of the physical and virtual drive attributes as `custom_fields` to the disks inventory. The goal is to have this information present to ease disks maintenance when a drive becomes unavailable and its attributes can't be read anymore from the RAID controller. It also helps to standardize the extended disk attributes across the different manufacturers. As the disk physical identifers were not available under the correct format (hexadecimal format using the `xml` output as opposed as `X:Y:Z` format using the default `list` format), the command line parser has been refactored to read the `list` format, rather than `xml` one in the `omreport` raid controller parser. As the custom fields have to be created prior being able to register the disks extended attributes, this feature is only activated using the `--process-virtual-drives` command line parameter, or by setting `process_virtual_drives` to `true` in the configuration file. The custom fields to create as `DCIM > inventory item` `Text` are described below. NAME LABEL DESCRIPTION mount_point Mount point Device mount point(s) pd_identifier Physical disk identifier Physical disk identifier in the RAID controller vd_array Virtual drive array Virtual drive array the disk is member of vd_consistency Virtual drive consistency Virtual disk array consistency vd_device Virtual drive device Virtual drive system device vd_raid_type Virtual drive RAID Virtual drive array RAID type vd_size Virtual drive size Virtual drive array size In the current implementation, the disks attributes ore not updated: if a disk with the correct serial number is found, it's sufficient to consider it as up to date. To force the reprocessing of the disks extended attributes, the `--force-disk-refresh` command line option can be used: it removes all existing disks to before populating them with the correct parsing. Unless this option is specified, the extended attributes won't be modified unless a disk is replaced. It is possible to dump the physical/virtual disks map on the filesystem under the JSON notation to ease or automate disks management. The file path has to be provided using the `--dump-disks-map` command line parameter.
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json_data = json.loads(data)
# Starting from version 02.18, `lshw -json` wraps its result in a list
# rather than returning directly a dictionary
if isinstance(json_data, list):
self.hw_info = json_data[0]
else:
self.hw_info = json_data
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
self.info = {}
self.memories = []
self.interfaces = []
self.cpus = []
self.power = []
self.disks = []
Add GPU inventory support (#164) * Add GPU support * Some update in the doc
2020-09-18 12:29:05 +02:00
self.gpus = []
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
self.vendor = self.hw_info["vendor"]
self.product = self.hw_info["product"]
self.chassis_serial = self.hw_info["serial"]
self.motherboard_serial = self.hw_info["children"][0].get("serial", "No S/N")
self.motherboard = self.hw_info["children"][0].get("product", "Motherboard")
for k in self.hw_info["children"]:
if k["class"] == "power":
# self.power[k["id"]] = k
self.power.append(k)
if "children" in k:
for j in k["children"]:
if j["class"] == "generic":
continue
if j["class"] == "storage":
self.find_storage(j)
if j["class"] == "memory":
self.find_memories(j)
if j["class"] == "processor":
self.find_cpus(j)
if j["class"] == "bridge":
self.walk_bridge(j)
def get_hw_linux(self, hwclass):
if hwclass == "cpu":
return self.cpus
Add GPU inventory support (#164) * Add GPU support * Some update in the doc
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if hwclass == "gpu":
return self.gpus
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
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if hwclass == "network":
return self.interfaces
if hwclass == 'storage':
return self.disks
if hwclass == 'memory':
return self.memories
def find_network(self, obj):
Unnamed network interfaces. Some interfaces do not have device (logical) name (eth0, for instance), such as not connected network mezzanine cards in blade servers. In such situations, the card will be named `unknown[0-9]`.
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# Some interfaces do not have device (logical) name (eth0, for
# instance), such as not connected network mezzanine cards in blade
# servers. In such situations, the card will be named `unknown[0-9]`.
fix: lshw crashes due to duplicate logical name
2023-04-08 11:17:23 +02:00
unkn_intfs = []
for i in self.interfaces:
# newer versions of lshw can return a list of names, see issue #227
if not isinstance(i["name"], list):
if i["name"].startswith("unknown"):
unkn_intfs.push(i)
else:
for j in i["name"]:
if j.startswith("unknown"):
unkn_intfs.push(j)
Unnamed network interfaces. Some interfaces do not have device (logical) name (eth0, for instance), such as not connected network mezzanine cards in blade servers. In such situations, the card will be named `unknown[0-9]`.
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unkn_name = "unknown{}".format(len(unkn_intfs))
self.interfaces.append({
"name": obj.get("logicalname", unkn_name),
"macaddress": obj.get("serial", ""),
"serial": obj.get("serial", ""),
"product": obj["product"],
"vendor": obj["vendor"],
"description": obj["description"],
})
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
def find_storage(self, obj):
if "children" in obj:
for device in obj["children"]:
Added disks extended attributes This patch brings some of the physical and virtual drive attributes as `custom_fields` to the disks inventory. The goal is to have this information present to ease disks maintenance when a drive becomes unavailable and its attributes can't be read anymore from the RAID controller. It also helps to standardize the extended disk attributes across the different manufacturers. As the disk physical identifers were not available under the correct format (hexadecimal format using the `xml` output as opposed as `X:Y:Z` format using the default `list` format), the command line parser has been refactored to read the `list` format, rather than `xml` one in the `omreport` raid controller parser. As the custom fields have to be created prior being able to register the disks extended attributes, this feature is only activated using the `--process-virtual-drives` command line parameter, or by setting `process_virtual_drives` to `true` in the configuration file. The custom fields to create as `DCIM > inventory item` `Text` are described below. NAME LABEL DESCRIPTION mount_point Mount point Device mount point(s) pd_identifier Physical disk identifier Physical disk identifier in the RAID controller vd_array Virtual drive array Virtual drive array the disk is member of vd_consistency Virtual drive consistency Virtual disk array consistency vd_device Virtual drive device Virtual drive system device vd_raid_type Virtual drive RAID Virtual drive array RAID type vd_size Virtual drive size Virtual drive array size In the current implementation, the disks attributes ore not updated: if a disk with the correct serial number is found, it's sufficient to consider it as up to date. To force the reprocessing of the disks extended attributes, the `--force-disk-refresh` command line option can be used: it removes all existing disks to before populating them with the correct parsing. Unless this option is specified, the extended attributes won't be modified unless a disk is replaced. It is possible to dump the physical/virtual disks map on the filesystem under the JSON notation to ease or automate disks management. The file path has to be provided using the `--dump-disks-map` command line parameter.
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self.disks.append({
"logicalname": device.get("logicalname"),
"product": device.get("product"),
"serial": device.get("serial"),
"version": device.get("version"),
"size": device.get("size"),
"description": device.get("description"),
"type": device.get("description"),
})
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
elif "nvme" in obj["configuration"]["driver"]:
Fix inventory crash on nvme binary too old or absent (#170) * When nvme binary absent or too old and no json output, this crash the inventory, i prefer just pass nvme inventory and continue * log if nvme-cli is not installed
2020-10-14 12:40:19 +02:00
if not is_tool('nvme'):
logging.error('nvme-cli >= 1.0 does not seem to be installed')
Added disks extended attributes This patch brings some of the physical and virtual drive attributes as `custom_fields` to the disks inventory. The goal is to have this information present to ease disks maintenance when a drive becomes unavailable and its attributes can't be read anymore from the RAID controller. It also helps to standardize the extended disk attributes across the different manufacturers. As the disk physical identifers were not available under the correct format (hexadecimal format using the `xml` output as opposed as `X:Y:Z` format using the default `list` format), the command line parser has been refactored to read the `list` format, rather than `xml` one in the `omreport` raid controller parser. As the custom fields have to be created prior being able to register the disks extended attributes, this feature is only activated using the `--process-virtual-drives` command line parameter, or by setting `process_virtual_drives` to `true` in the configuration file. The custom fields to create as `DCIM > inventory item` `Text` are described below. NAME LABEL DESCRIPTION mount_point Mount point Device mount point(s) pd_identifier Physical disk identifier Physical disk identifier in the RAID controller vd_array Virtual drive array Virtual drive array the disk is member of vd_consistency Virtual drive consistency Virtual disk array consistency vd_device Virtual drive device Virtual drive system device vd_raid_type Virtual drive RAID Virtual drive array RAID type vd_size Virtual drive size Virtual drive array size In the current implementation, the disks attributes ore not updated: if a disk with the correct serial number is found, it's sufficient to consider it as up to date. To force the reprocessing of the disks extended attributes, the `--force-disk-refresh` command line option can be used: it removes all existing disks to before populating them with the correct parsing. Unless this option is specified, the extended attributes won't be modified unless a disk is replaced. It is possible to dump the physical/virtual disks map on the filesystem under the JSON notation to ease or automate disks management. The file path has to be provided using the `--dump-disks-map` command line parameter.
2022-02-25 18:43:09 +01:00
return
try:
nvme = json.loads(
subprocess.check_output(
["nvme", '-list', '-o', 'json'],
encoding='utf8')
)
for device in nvme["Devices"]:
d = {
'logicalname': device["DevicePath"],
'product': device["ModelNumber"],
'serial': device["SerialNumber"],
"version": device["Firmware"],
'description': "NVME",
'type': "NVME",
}
if "UsedSize" in device:
d['size'] = device["UsedSize"]
if "UsedBytes" in device:
d['size'] = device["UsedBytes"]
self.disks.append(d)
except Exception:
pass
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
def find_cpus(self, obj):
handle sockets with no cpu installed. should fix #117 (#118)
2020-02-21 09:13:02 +01:00
if "product" in obj:
Unnamed network interfaces. Some interfaces do not have device (logical) name (eth0, for instance), such as not connected network mezzanine cards in blade servers. In such situations, the card will be named `unknown[0-9]`.
2022-03-07 17:14:00 +01:00
self.cpus.append({
"product": obj["product"],
"vendor": obj["vendor"],
"description": obj["description"],
"location": obj["slot"],
})
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
def find_memories(self, obj):
if "children" not in obj:
# print("not a DIMM memory.")
return
for dimm in obj["children"]:
if "empty" in dimm["description"]:
continue
Unnamed network interfaces. Some interfaces do not have device (logical) name (eth0, for instance), such as not connected network mezzanine cards in blade servers. In such situations, the card will be named `unknown[0-9]`.
2022-03-07 17:14:00 +01:00
self.memories.append({
"slot": dimm.get("slot"),
"description": dimm.get("description"),
"id": dimm.get("id"),
"serial": dimm.get("serial", 'N/A'),
"vendor": dimm.get("vendor", 'N/A'),
"product": dimm.get("product", 'N/A'),
"size": dimm.get("size", 0) / 2 ** 20 / 1024,
})
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
Add GPU inventory support (#164) * Add GPU support * Some update in the doc
2020-09-18 12:29:05 +02:00
def find_gpus(self, obj):
if "product" in obj:
Unnamed network interfaces. Some interfaces do not have device (logical) name (eth0, for instance), such as not connected network mezzanine cards in blade servers. In such situations, the card will be named `unknown[0-9]`.
2022-03-07 17:14:00 +01:00
self.gpus.append({
"product": obj["product"],
"vendor": obj["vendor"],
"description": obj["description"],
})
Add GPU inventory support (#164) * Add GPU support * Some update in the doc
2020-09-18 12:29:05 +02:00
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
def walk_bridge(self, obj):
if "children" not in obj:
return
for bus in obj["children"]:
if bus["class"] == "storage":
self.find_storage(bus)
Add GPU inventory support (#164) * Add GPU support * Some update in the doc
2020-09-18 12:29:05 +02:00
if bus["class"] == "display":
self.find_gpus(bus)
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
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if "children" in bus:
for b in bus["children"]:
if b["class"] == "storage":
self.find_storage(b)
if b["class"] == "network":
self.find_network(b)
Add GPU inventory support (#164) * Add GPU support * Some update in the doc
2020-09-18 12:29:05 +02:00
if b["class"] == "display":
self.find_gpus(b)
use lshw for inventory (#58) * Use lshw for inventory * Add motherboard to inventory * Handle non raid devices * Handle nvme drives
2019-09-05 15:13:36 +02:00
if __name__ == "__main__":
pass
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