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#!/usr/bin/env python
"""virt top"""
# ideally we would like to use the monkeypatch but it is untested
# and experimental
# import defusedxml # type:ignore
# defusedxml.defuse_stdlib()
import argparse
import dataclasses
import subprocess
# import time
import typing
from xml.dom.minidom import Document
from defusedxml import ElementTree # type:ignore
from defusedxml import minidom
import libvirt # type:ignore
class Argparser: # pylint: disable=too-few-public-methods
"""Argparser class."""
def __init__(self):
self.parser = argparse.ArgumentParser()
self.parser.add_argument(
"--delay",
"-d",
type=float,
help="The delay between updates",
default=5,
)
self.parser.add_argument(
"--uri",
"-u",
nargs="+",
type=str,
help="A list of URIs to connect to seperated by commas",
default=["qemu:///system"],
)
self.args = self.parser.parse_args()
# pylint: disable=too-few-public-methods
class Colors:
"""static color definitions"""
purple = "\033[95m"
blue = "\033[94m"
green = "\033[92m"
yellow = "\033[93m"
red = "\033[91m"
grey = "\033[1;37m"
darkgrey = "\033[1;30m"
cyan = "\033[1;36m"
ENDC = "\033[0m"
BOLD = "\033[1m"
UNDERLINE = "\033[4m"
blueblue = "\x1b[38;5;24m"
greenie = "\x1b[38;5;23m"
goo = "\x1b[38;5;22m"
@dataclasses.dataclass
# pylint: disable=too-many-instance-attributes
class VirtData:
"""Holds the data that we collect to display to the user"""
name: typing.List[str] = dataclasses.field(default_factory=list)
cpu_times: typing.List[str] = dataclasses.field(default_factory=list)
mem_actual: typing.List[str] = dataclasses.field(default_factory=list)
mem_unused: typing.List[str] = dataclasses.field(default_factory=list)
write_bytes: typing.List[str] = dataclasses.field(default_factory=list)
read_bytes: typing.List[str] = dataclasses.field(default_factory=list)
macs: typing.List[str] = dataclasses.field(default_factory=list)
ips: typing.List[str] = dataclasses.field(default_factory=list)
disk_reads: typing.List[str] = dataclasses.field(default_factory=list)
disk_writes: typing.List[str] = dataclasses.field(default_factory=list)
def get_network_info(
xml_doc: Document,
) -> typing.Dict[str, str]:
"""returns the network info"""
result_dict = {}
interface_types = xml_doc.getElementsByTagName("interface")
for interface_type in interface_types:
interface_nodes = interface_type.childNodes
for interface_node in interface_nodes:
if interface_node.nodeName[0:1] != "#":
for attr in interface_node.attributes.keys():
result_dict[
interface_node.attributes[attr].name
] = interface_node.attributes[attr].value
return result_dict
def get_ip_by_arp(mac: str) -> str:
"""Get ip adress using the arp table."""
# arp -n | grep xx:xx:xx:xx:xx:xx | gawk '{print $1}'
try:
proc1 = subprocess.run(
["/usr/bin/arp", "-n"],
capture_output=True,
check=True,
shell=False,
)
proc2 = subprocess.run(
["/usr/bin/grep", mac],
input=proc1.stdout,
capture_output=True,
check=True,
shell=False,
)
proc3 = subprocess.run(
["/usr/bin/awk", "{print $1}"],
input=proc2.stdout,
capture_output=True,
check=True,
shell=False,
)
ip_address = proc3.stdout.decode("utf-8").strip("\n")
except subprocess.CalledProcessError:
ip_address = "N/A"
return ip_address
def get_disk_info(
xml_doc: Document,
) -> typing.Dict[str, str]:
"""returns the disk info"""
result_dict: typing.Dict = {}
disk_types = xml_doc.getElementsByTagName("disk")
for disk_type in disk_types:
disk_nodes = disk_type.childNodes
for disk_node in disk_nodes:
if disk_node.nodeName[0:1] != "#":
for attr in disk_node.attributes.keys():
result_dict[
disk_node.attributes[attr].name
] = disk_node.attributes[attr].value
return result_dict
def ffs(offset: int, header_list: typing.List[str], numbered: bool, *args):
"""A simple columnar printer"""
max_column_width = []
lines = []
numbers_f: typing.List[int] = []
dummy = []
if numbered:
numbers_f.extend(range(1, len(args[-1]) + 1))
max_column_width.append(max(len(repr(number)) for number in numbers_f))
header_list.insert(0, "idx")
for arg in args:
max_column_width.append(max(len(repr(argette)) for argette in arg))
index = range(0, len(header_list))
for header, width, i in zip(header_list, max_column_width, index):
max_column_width[i] = max(len(header), width) + offset
for i in index:
dummy.append(
Colors.greenie
+ Colors.BOLD
+ header_list[i].ljust(max_column_width[i])
+ Colors.ENDC
)
lines.append("".join(dummy))
dummy.clear()
index2 = range(0, len(args[-1]))
for i in index2:
if numbered:
dummy.append(
Colors.goo
+ Colors.BOLD
+ repr(i).ljust(max_column_width[0])
+ Colors.ENDC
)
for arg, width in zip(args, max_column_width[1:]):
dummy.append(
Colors.blueblue + (arg[i]).ljust(width) + Colors.ENDC
)
else:
for arg, width in zip(args, max_column_width):
dummy.append(
Colors.blueblue + (arg[i]).ljust(width) + Colors.ENDC
)
lines.append("".join(dummy))
dummy.clear()
return lines
def size_abr(num: float, shift_by: float) -> str:
"""Rounds and abbreviates floats."""
num = num * shift_by
if num < 1000:
return repr(num)
if num < 1_000_000.0:
return repr(round(num / 1_000, 2)) + " KB"
if num < 1_000_000_000:
return repr(round(num / 1_000_000, 2)) + " MB"
if num < 1_000_000_000_000:
return repr(round(num / 1_000_000_000, 2)) + " GB"
return "N/A"
def fill_virt_data_uri(conn, active_hosts, virt_data: VirtData) -> None:
"""fill VirtData for one URI."""
for host_id in active_hosts:
dom = conn.lookupByID(host_id)
virt_data.cpu_times.append(
repr(
int(dom.getCPUStats(total=True)[0]["cpu_time"] / 1_000_000_000)
)
+ "s"
)
xml_doc = minidom.parseString(dom.XMLDesc())
virt_data.name.append(dom.name())
mem_stats = dom.memoryStats()
virt_data.mem_actual.append(size_abr(mem_stats["actual"], 1000))
virt_data.mem_unused.append(size_abr(mem_stats["unused"], 1000))
tree = ElementTree.fromstring(dom.XMLDesc())
iface = tree.find("devices/interface/target").get("dev")
stats = dom.interfaceStats(iface)
virt_data.write_bytes.append(size_abr(stats[4], 1))
virt_data.read_bytes.append(size_abr(stats[0], 1))
disk_info = get_disk_info(xml_doc)
image_name = disk_info["file"]
_, rd_bytes, _, wr_bytes, _ = dom.blockStats(image_name)
virt_data.disk_reads.append(size_abr(rd_bytes, 1))
virt_data.disk_writes.append(size_abr(wr_bytes, 1))
network_info = get_network_info(xml_doc)
virt_data.macs.append(network_info["address"])
virt_data.ips.append(get_ip_by_arp(network_info["address"]))
def main() -> None:
"""entrypoint"""
argparser = Argparser()
virt_data = VirtData()
for hv_host in argparser.args.uri:
conn = libvirt.openReadOnly(hv_host)
active_hosts = conn.listDomainsID()
fill_virt_data_uri(conn, active_hosts, virt_data)
lines = ffs(
3,
[
"name",
"cpu",
"mem_actual",
"mem_unused",
"net_write_B",
"net_read_B",
"MAC",
"IP",
"IO_read_B",
"IO_write_B",
],
True,
virt_data.name,
virt_data.cpu_times,
virt_data.mem_actual,
virt_data.mem_unused,
virt_data.write_bytes,
virt_data.read_bytes,
virt_data.macs,
virt_data.ips,
virt_data.disk_reads,
virt_data.disk_writes,
)
for line in lines:
print(line)
# time.sleep(argparser.args.delay)
if __name__ == "__main__":
main()
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