#!/usr/bin/python3
# Xen Mask Calculator - Calculate CPU masking information based on cpuid(1)
# Copyright (C) 2017 Armando Vega
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
import argparse
import sys
import os
EAX1_MATCH = '0x00000001 0x00:'
EAX7_MATCH = '0x00000007 0x00:'
EXP_LINELN = 76
libxl_names_ecx1 = []
libxl_names_edx1 = []
libvirt_names_ecx1 = []
libvirt_names_edx1 = []
libxl_names_ebx7 = []
libxl_names_ecx7 = []
libvirt_names_ebx7 = []
libvirt_names_ecx7 = []
def fill_ecx1(bit, libxl, libvirt):
if libxl_names_ecx1[bit]:
print("ecx bit %s already set: libxl %s libvirt %s. Ignoring %s/%s\n" % (bit, libxl_names_ecx1[bit], libvirt_names_ecx1[bit], libxl, libvirt))
return
libxl_names_ecx1[bit] = libxl
libvirt_names_ecx1[bit] = libvirt
def fill_edx1(bit, libxl, libvirt):
if libxl_names_edx1[bit]:
print("edx bit %s already set: libxl %s libvirt %s. Ignoring %s/%s\n" % (bit, libxl_names_edx1[bit], libvirt_names_edx1[bit], libxl, libvirt))
return
libxl_names_edx1[bit] = libxl
libvirt_names_edx1[bit] = libvirt
def fill_ebx7(bit, libxl, libvirt):
if libxl_names_ebx7[bit]:
print("edx bit %s already set: libxl %s libvirt %s. Ignoring %s/%s\n" % (bit, libxl_names_ebx7[bit], libvirt_names_ebx7[bit], libxl, libvirt))
return
libxl_names_ebx7[bit] = libxl
libvirt_names_ebx7[bit] = libvirt
def fill_ecx7(bit, libxl, libvirt):
if libxl_names_ecx7[bit]:
print("ecx bit %s already set: libxl %s libvirt %s. Ignoring %s/%s\n" % (bit, libxl_names_ecx7[bit], libvirt_names_ecx7[bit], libxl, libvirt))
return
libxl_names_ecx7[bit] = libxl
libvirt_names_ecx7[bit] = libvirt
def fill_bit_names():
for i in range(0,32):
libxl_names_ecx1.append(None)
libxl_names_edx1.append(None)
libxl_names_ebx7.append(None)
libxl_names_ecx7.append(None)
libvirt_names_ecx1.append(None)
libvirt_names_edx1.append(None)
libvirt_names_ebx7.append(None)
libvirt_names_ecx7.append(None)
fill_ecx1(0, "sse3", "pni")
fill_ecx1(1, "pclmulqdq", "pclmuldq")
fill_ecx1(2, "dtes64", "dtes64")
fill_ecx1(3, "monitor", "monitor")
fill_ecx1(4, "dscpl", "ds_cpl")
fill_ecx1(5, "vmx", "vmx")
fill_ecx1(6, "smx", "smx")
fill_ecx1(7, "est", "est")
fill_ecx1(8, "tm2", "tm2")
fill_ecx1(9, "ssse3", "ssse3")
fill_ecx1(10, "cntxid", "cid")
fill_ecx1(12, "fma", "fma")
fill_ecx1(13, "cmpxchg16", "cx16")
fill_ecx1(14, "xtpr", "xtpr")
fill_ecx1(15, "pdcm", "pdcm")
fill_ecx1(17, "pcid", "pcid")
fill_ecx1(18, "dca", "dca")
fill_ecx1(19, "sse4_1", "sse4.1")
fill_ecx1(20, "sse4_2", "sse4.2")
fill_ecx1(21, "x2apic", "x2apic")
fill_ecx1(22, "movbe", "movbe")
fill_ecx1(23, "popcnt", "popcnt")
fill_ecx1(24, "tsc-deadline", "tsc-deadline")
fill_ecx1(25, "aes", "aes")
fill_ecx1(26, "xsave", "xsave")
fill_ecx1(27, "osxsave", "osxsave")
fill_ecx1(28, "avx", "avx")
fill_ecx1(29, "f16c", "f16c")
fill_ecx1(30, "rdrand", "rdrand")
fill_ecx1(31, "hypervisor", "hypervisor")
fill_edx1(0, "fpu", "fpu")
fill_edx1(1, "vme", "vme")
fill_edx1(2, "de", "de")
fill_edx1(3, "pse", "pse")
fill_edx1(4, "tsc", "tsc")
fill_edx1(5, "msr", "msr")
fill_edx1(6, "pae", "pae")
fill_edx1(7, "mce", "mce")
fill_edx1(8, "cmpxchg8", "cx8")
fill_edx1(9, "apic", "apic")
fill_edx1(11, "sysenter", "sep")
fill_edx1(12, "mtrr", "mtrr")
fill_edx1(13, "pge", "pge")
fill_edx1(14, "mca", "mca")
fill_edx1(15, "cmov", "cmov")
fill_edx1(16, "pat", "pat")
fill_edx1(17, "pse36", "pse36")
fill_edx1(18, "psn", "pn")
fill_edx1(19, "clfsh", "clflush")
fill_edx1(21, "ds", "ds")
fill_edx1(22, "acpi", "acpi")
fill_edx1(23, "mmx", "mmx")
fill_edx1(24, "fxsr", "fxsr")
fill_edx1(25, "sse", "sse")
fill_edx1(26, "sse2", "sse2")
fill_edx1(27, "ss", "ss")
fill_edx1(28, "htt", "ht")
fill_edx1(29, "tm", "tm")
fill_edx1(30, "ia64", "ia64")
fill_edx1(31, "pbe", "pbe")
fill_ebx7(0, "fsgsbase", "fsgsbase")
fill_ebx7(1, "tsc_adjust", "tsc_adjust")
fill_ebx7(3, "bmi1", "bmi1")
fill_ebx7(4, "hle", "hle")
fill_ebx7(5, "avx2", "avx2")
fill_ebx7(7, "smep", "smep")
fill_ebx7(8, "bmi2", "bmi2")
fill_ebx7(9, "erms", "erms")
fill_ebx7(10, "invpcid", "invpcid")
fill_ebx7(11, "rtm", "rtm")
fill_ebx7(12, "cmt", "cmt")
fill_ebx7(14, "mpx", "mpx")
fill_ebx7(16, "avx512f", "avx512f")
fill_ebx7(17, "avx512dq", "avx512dq")
fill_ebx7(18, "rdseed", "rdseed")
fill_ebx7(19, "adx", "adx")
fill_ebx7(20, "smap", "smap")
fill_ebx7(21, "avx512-ifma", "avx512-ifma")
fill_ebx7(23, "clflushopt", "clflushopt")
fill_ebx7(24, "clwb", "clwb")
fill_ebx7(26, "avx512pf", "avx512pf")
fill_ebx7(27, "avx512er", "avx512er")
fill_ebx7(28, "avx512cd", "avx512cd")
fill_ebx7(29, "sha", "sha")
fill_ebx7(30, "avx512bw", "avx512bw")
fill_ebx7(31, "avx512vl", "avx512vl")
fill_ecx7(0, "prefetchwt1", "prefetchwt1")
fill_ecx7(1, "avx512-vbmi", "avx512-vbmi")
fill_ecx7(2, "umip", "umip")
fill_ecx7(3, "pku", "pku")
fill_ecx7(4, "ospke", "ospke")
fill_ecx7(6, "avx512-vbmi2", "avx512-vbmi2")
fill_ecx7(8, "gfni", "gfni")
fill_ecx7(9, "vaes", "vaes")
fill_ecx7(10, "vpclmulqdq", "vpclmulqdq")
fill_ecx7(11, "avx512-vnni", "avx512-vnni")
fill_ecx7(12, "avx512-bitalg", "avx512-bitalg")
fill_ecx7(14, "avx512-vpopcntdq", "avx512-vpopcntdq")
fill_ecx7(22, "rdpid", "rdpid")
fill_ecx7(25, "cldemote", "cldemote")
def get_register_mask(regs):
""" Take a list of register values and return the calculated mask """
reg_n = len(regs)
mask = ''
for idx in range(32):
counter = 0
for reg in regs:
counter += 1 if (reg & (1 << idx) > 0) else 0
# if we have all 1s or all 0s we don't mask the bit
if counter == reg_n or counter == 0:
mask = mask + 'x'
else:
mask = mask + '0'
# we calculated the mask in reverse, so we reverse it again
return mask[::-1]
def print_xl_masking_config(nodes):
""" Take a dictionary of nodes containing their registers and print out CPUID masking configuration for xl """
nomasking = 'x' * 32
libxl = []
libvirt = []
eax1_ecx_regs = []
eax1_edx_regs = []
eax7_ebx_regs = []
eax7_ecx_regs = []
for node in nodes:
eax1_ecx_regs.append(nodes[node]['eax1_ecx'])
eax1_edx_regs.append(nodes[node]['eax1_edx'])
eax7_ebx_regs.append(nodes[node]['eax7_ebx'])
eax7_ecx_regs.append(nodes[node]['eax7_ecx'])
# Get masks for the EAX1 and EAX7 registers
eax1_ecx_mask = get_register_mask(eax1_ecx_regs)
eax1_edx_mask = get_register_mask(eax1_edx_regs)
eax7_ebx_mask = get_register_mask(eax7_ebx_regs)
eax7_ecx_mask = get_register_mask(eax7_ecx_regs)
# Build the xl CPUID config
cpuid_config = 'cpuid = [\n "0x00000001:ecx=' + eax1_ecx_mask
if eax1_edx_mask != nomasking:
cpuid_config += ',edx=' + eax1_edx_mask
cpuid_config += '",\n'
cpuid_config += ' "0x00000007,0x00:ebx=' + eax7_ebx_mask
if eax7_ecx_mask != nomasking:
cpuid_config += ',ecx=' + eax7_ecx_mask
cpuid_config += '"\n'
cpuid_config += ']'
print(cpuid_config)
bitnum = len(eax1_ecx_mask)
while bitnum > 0:
bitnum -= 1
bitval = eax1_ecx_mask[len(eax1_ecx_mask) - 1 - bitnum]
if bitval == "0" and libxl_names_ecx1[bitnum]:
libxl.append(libxl_names_ecx1[bitnum] + "=0")
libvirt.append(libvirt_names_ecx1[bitnum])
bitnum = len(eax1_edx_mask)
while bitnum > 0:
bitnum -= 1
bitval = eax1_edx_mask[len(eax1_edx_mask) - 1 - bitnum]
if bitval == "0" and libxl_names_edx1[bitnum]:
libxl.append(libxl_names_edx1[bitnum] + "=0")
libvirt.append(libvirt_names_edx1[bitnum])
bitnum = len(eax7_ebx_mask)
while bitnum > 0:
bitnum -= 1
bitval = eax7_ebx_mask[len(eax7_ebx_mask) - 1 - bitnum]
if bitval == "0" and libxl_names_ebx7[bitnum]:
libxl.append(libxl_names_ebx7[bitnum] + "=0")
libvirt.append(libvirt_names_ebx7[bitnum])
bitnum = len(eax7_ecx_mask)
while bitnum > 0:
bitnum -= 1
bitval = eax7_ecx_mask[len(eax7_ecx_mask) - 1 - bitnum]
if bitval == "0" and libxl_names_ecx7[bitnum]:
libxl.append(libxl_names_ecx7[bitnum] + "=0")
libvirt.append(libvirt_names_ecx7[bitnum])
if len(libxl) > 0:
output = "cpuid = [ host"
for i in libxl:
output += "," + i
output += " ]"
print(output)
print("")
print(" ")
for i in libvirt:
print(" " % i)
print(" ")
print("")
def print_verbose_masking_info(nodes):
""" Take a dictionary of nodes containing their registers and print out verbose mask derivation information """
eax1_ecx_regs = []
eax1_edx_regs = []
eax7_ebx_regs = []
eax7_ecx_regs = []
for node in nodes:
eax1_ecx_regs.append(nodes[node]['eax1_ecx'])
eax1_edx_regs.append(nodes[node]['eax1_edx'])
eax7_ebx_regs.append(nodes[node]['eax7_ebx'])
eax7_ecx_regs.append(nodes[node]['eax7_ecx'])
print("")
print('== Detailed mask derivation info ==')
print("")
print('EAX1 ECX registers:')
for reg in eax1_ecx_regs:
print('{0:032b}'.format(reg))
print('================================')
print(get_register_mask(eax1_ecx_regs))
print("")
print('EAX1 EDX registers:')
for reg in eax1_edx_regs:
print('{0:032b}'.format(reg))
print('================================')
print(get_register_mask(eax1_edx_regs))
print("")
print('EAX7,0 EBX registers:')
for reg in eax7_ebx_regs:
print('{0:032b}'.format(reg))
print('================================')
print(get_register_mask(eax7_ebx_regs))
print("")
print('EAX7,0 ECX registers:')
for reg in eax7_ecx_regs:
print('{0:032b}'.format(reg))
print('================================')
print(get_register_mask(eax7_ecx_regs))
if __name__ == '__main__':
epilog = """The individual 'node_files' are generated with 'cpuid -1r':
server1~$ cpuid -1r > node1
server2~$ cpuid -1r > node2
server3~$ cpuid -1r > node3
~$ {0} node1 node2 node3
Use 'zypper install cpuid' to install the cpuid.rpm.
Note: Run 'cpuid' with NATIVE boot instead of dom0 to get the complete cpid value.
Xen hides some bits from dom0!
""".format(sys.argv[0])
parser = argparse.ArgumentParser(
formatter_class=argparse.RawDescriptionHelpFormatter,
description='A utility that calculates a XEN CPUID difference mask',
epilog=epilog
)
parser.add_argument('node_files', nargs='*', help='Filenames of XEN node CPUID outputs')
parser.add_argument('-v', '--verbose', action='store_true', help='Get detailed mask derivation information')
args = parser.parse_args()
if len(args.node_files) < 2:
print('Need at least 2 files to do the comparison!')
parser.print_help()
sys.exit(1)
fill_bit_names()
nodes = dict()
for node in args.node_files:
if os.path.isfile(node):
try:
f = open(node)
except IOError as e:
print("I/O error({0}): {1}".format(e.errno, e.strerror))
sys.exit(1)
else:
lines = [line.strip() for line in f]
eax1 = ''
eax7 = ''
# try to match the lines containing interesting registers
# EAX1 - Processor Info and Feature Bits
# EAX7 - Extended features
for line in lines:
if line.startswith(EAX1_MATCH):
eax1 = line
elif line.startswith(EAX7_MATCH):
eax7 = line
# if we get garbled data we should probably just give up
if len(eax1) < EXP_LINELN or len(eax7) < EXP_LINELN:
print('ERROR: invalid data format in file : ' + node)
sys.exit(1)
# check if we can actually parse the strings into integers
try:
eax1_ecx = int(eax1.split()[4].split('=')[1], 0)
eax1_edx = int(eax1.split()[5].split('=')[1], 0)
eax7_ebx = int(eax7.split()[3].split('=')[1], 0)
eax7_ecx = int(eax7.split()[4].split('=')[1], 0)
except ValueError:
print('ERROR: invalid data format in file: ' + node)
sys.exit(1)
nodes[node] = dict()
nodes[node]['eax1_ecx'] = eax1_ecx
nodes[node]['eax1_edx'] = eax1_edx
nodes[node]['eax7_ebx'] = eax7_ebx
nodes[node]['eax7_ecx'] = eax7_ecx
f.close()
else:
print('File not found: ' + node)
sys.exit(1)
print_xl_masking_config(nodes)
if args.verbose:
print_verbose_masking_info(nodes)