acrn-hypervisor/tools/acrntrace/scripts/vmexit_analyze.py

217 lines
6.5 KiB
Python
Executable File

#!/usr/bin/python3
# -*- coding: UTF-8 -*-
"""
This script defines the function to do the vm_exit analysis
"""
import csv
import struct
from config import TSC_FREQ
TSC_BEGIN = 0
TSC_END = 0
TOTAL_NR_EXITS = 0
VM_EXIT = 0x10
VM_ENTER = 0x11
VMEXIT_ENTRY = 0x10000
LIST_EVENTS = {
'VMEXIT_EXCEPTION_OR_NMI': VMEXIT_ENTRY + 0x00000000,
'VMEXIT_EXTERNAL_INTERRUPT': VMEXIT_ENTRY + 0x00000001,
'VMEXIT_INTERRUPT_WINDOW': VMEXIT_ENTRY + 0x00000002,
'VMEXIT_CPUID': VMEXIT_ENTRY + 0x00000004,
'VMEXIT_RDTSC': VMEXIT_ENTRY + 0x00000010,
'VMEXIT_VMCALL': VMEXIT_ENTRY + 0x00000012,
'VMEXIT_CR_ACCESS': VMEXIT_ENTRY + 0x0000001C,
'VMEXIT_IO_INSTRUCTION': VMEXIT_ENTRY + 0x0000001E,
'VMEXIT_RDMSR': VMEXIT_ENTRY + 0x0000001F,
'VMEXIT_WRMSR': VMEXIT_ENTRY + 0x00000020,
'VMEXIT_APICV_ACCESS': VMEXIT_ENTRY + 0x00000030,
'VMEXIT_APICV_VIRT_EOI': VMEXIT_ENTRY + 0x00000031,
'VMEXIT_EPT_VIOLATION': VMEXIT_ENTRY + 0x00000033,
'VMEXIT_EPT_MISCONFIGURATION': VMEXIT_ENTRY + 0x00000038,
'VMEXIT_RDTSCP': VMEXIT_ENTRY + 0x00000039,
'VMEXIT_APICV_WRITE': VMEXIT_ENTRY + 0x0000003A,
'VMEXIT_UNHANDLED': 0x20000
}
NR_EXITS = {
'VMEXIT_EXCEPTION_OR_NMI': 0,
'VMEXIT_EXTERNAL_INTERRUPT': 0,
'VMEXIT_INTERRUPT_WINDOW': 0,
'VMEXIT_CPUID': 0,
'VMEXIT_RDTSC': 0,
'VMEXIT_VMCALL': 0,
'VMEXIT_CR_ACCESS': 0,
'VMEXIT_IO_INSTRUCTION': 0,
'VMEXIT_RDMSR': 0,
'VMEXIT_WRMSR': 0,
'VMEXIT_APICV_ACCESS': 0,
'VMEXIT_APICV_VIRT_EOI': 0,
'VMEXIT_EPT_VIOLATION': 0,
'VMEXIT_EPT_MISCONFIGURATION': 0,
'VMEXIT_RDTSCP': 0,
'VMEXIT_APICV_WRITE': 0,
'VMEXIT_UNHANDLED': 0
}
TIME_IN_EXIT = {
'VMEXIT_EXCEPTION_OR_NMI': 0,
'VMEXIT_EXTERNAL_INTERRUPT': 0,
'VMEXIT_INTERRUPT_WINDOW': 0,
'VMEXIT_CPUID': 0,
'VMEXIT_RDTSC': 0,
'VMEXIT_VMCALL': 0,
'VMEXIT_CR_ACCESS': 0,
'VMEXIT_IO_INSTRUCTION': 0,
'VMEXIT_RDMSR': 0,
'VMEXIT_WRMSR': 0,
'VMEXIT_APICV_ACCESS': 0,
'VMEXIT_APICV_VIRT_EOI': 0,
'VMEXIT_EPT_VIOLATION': 0,
'VMEXIT_EPT_MISCONFIGURATION': 0,
'VMEXIT_RDTSCP': 0,
'VMEXIT_APICV_WRITE': 0,
'VMEXIT_UNHANDLED': 0
}
# 4 * 64bit per trace entry
TRCREC = "QQQQ"
def parse_trace_data(ifile):
"""parse the trace data file
Args:
ifile: input trace data file
Return:
None
"""
global TSC_BEGIN, TSC_END, TOTAL_NR_EXITS
last_ev_id = ''
tsc_enter = 0
tsc_exit = 0
tsc_last_exit_period = 0
fd = open(ifile, 'rb')
while True:
try:
line = fd.read(struct.calcsize(TRCREC))
if not line:
break
(tsc, event, d1, d2) = struct.unpack(TRCREC, line)
event = event & 0xffffffffffff
if event == VM_ENTER:
if TSC_BEGIN == 0:
TSC_BEGIN = tsc
tsc_exit = tsc
TOTAL_NR_EXITS = 0
tsc_enter = tsc
TSC_END = tsc_enter
tsc_last_exit_period = tsc_enter - tsc_exit
if tsc_last_exit_period != 0:
TIME_IN_EXIT[last_ev_id] += tsc_last_exit_period
elif event == VM_EXIT:
tsc_exit = tsc
TSC_END = tsc_exit
TOTAL_NR_EXITS += 1
else:
for key in LIST_EVENTS.keys():
if event == LIST_EVENTS.get(key):
NR_EXITS[key] += 1
last_ev_id = key
else:
# Skip the non-VMEXIT trace event
pass
except (IOError, struct.error) as e:
sys.exit()
def generate_report(ofile, freq):
""" generate analysis report
Args:
ofile: output report
freq: TSC frequency of the device trace data from
Return:
None
"""
global TSC_BEGIN, TSC_END, TOTAL_NR_EXITS
csv_name = ofile + '.csv'
try:
with open(csv_name, 'a') as filep:
f_csv = csv.writer(filep)
total_exit_time = 0
rt_cycle = TSC_END - TSC_BEGIN
assert rt_cycle != 0, "total_run_time in cycle is 0,\
tsc_end %d, tsc_begin %d"\
% (TSC_END, TSC_BEGIN)
rt_sec = float(rt_cycle) / (float(freq) * 1000 * 1000)
for event in LIST_EVENTS:
total_exit_time += TIME_IN_EXIT[event]
print ("Total run time: %d cycles" % (rt_cycle))
print ("TSC Freq: %f MHz" % (freq))
print ("Total run time: %d sec" % (rt_sec))
f_csv.writerow(['Run time(cycles)', 'Run time(Sec)', 'Freq(MHz)'])
f_csv.writerow(['%d' % (rt_cycle),
'%.3f' % (rt_sec),
'%d' % (freq)])
print ("Event \tNR_Exit \tNR_Exit/Sec \tTime Consumed \tTime Percentage")
f_csv.writerow(['Exit_Reason',
'NR_Exit',
'NR_Exit/Sec',
'Time Consumed(cycles)',
'Time Percentage'])
for event in LIST_EVENTS:
ev_freq = float(NR_EXITS[event]) / rt_sec
pct = float(TIME_IN_EXIT[event]) * 100 / float(rt_cycle)
print ("%s \t%d \t%.2f \t%d \t%2.2f" %
(event, NR_EXITS[event], ev_freq, TIME_IN_EXIT[event], pct))
row = [event, NR_EXITS[event], '%.2f' % ev_freq, TIME_IN_EXIT[event],
'%2.2f' % (pct)]
f_csv.writerow(row)
ev_freq = float(TOTAL_NR_EXITS) / rt_sec
pct = float(total_exit_time) * 100 / float(rt_cycle)
print("Total \t%d \t%.2f \t%d \t%2.2f"
% (TOTAL_NR_EXITS, ev_freq, total_exit_time, pct))
row = ["Total", TOTAL_NR_EXITS, '%.2f' % ev_freq, total_exit_time,
'%2.2f' % (pct)]
f_csv.writerow(row)
except IOError as err:
print ("Output File Error: " + str(err))
def analyze_vm_exit(ifile, ofile):
"""do the vm exits analysis
Args:
ifile: input trace data file
ofile: output report file
Return:
None
"""
print("VM exits analysis started... \n\tinput file: %s\n"
"\toutput file: %s.csv" % (ifile, ofile))
parse_trace_data(ifile)
# save report to the output file
generate_report(ofile, TSC_FREQ)