libvirt/tests/cputestdata/cpu-data.py

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#!/usr/bin/env python3
import argparse
import fcntl
import json
import os
import re
import struct
import subprocess
import sys
import xml.etree.ElementTree
_KEYS = {
"cpuid": ["eax_in", "ecx_in"],
"msr": ["index"],
}
_REGS = {
"cpuid": ["eax", "ebx", "ecx", "edx"],
"msr": ["eax", "edx"],
}
def gather_name(args):
if args.name:
return args.name
with open("/proc/cpuinfo", "rt") as f:
for line in f.readlines():
if line.startswith("model name"):
return line.split(":", 2)[1].strip()
exit("Error: '/proc/cpuinfo' does not contain a model name.\n"
"Use '--model' to set a model name.")
def gather_cpuid_leaves(args):
def mask(regs, eax_in, ecx_in, eax_mask, ebx_mask, ecx_mask, edx_mask):
if regs["eax_in"] == eax_in and regs["ecx_in"] == ecx_in:
regs["eax"] &= eax_mask
regs["ebx"] &= ebx_mask
regs["ecx"] &= ecx_mask
regs["edx"] &= edx_mask
leave_pattern = re.compile(
"^\\s*"
"(0x[0-9a-f]+)\\s*"
"(0x[0-9a-f]+):\\s*"
"eax=(0x[0-9a-f]+)\\s*"
"ebx=(0x[0-9a-f]+)\\s*"
"ecx=(0x[0-9a-f]+)\\s*"
"edx=(0x[0-9a-f]+)\\s*$")
cpuid = args.path_to_cpuid or "cpuid"
try:
output = subprocess.check_output(
[cpuid, "-1r"],
universal_newlines=True)
except FileNotFoundError as e:
exit("Error: '{}' not found.\n'cpuid' can be usually found in a "
"package named identically. If your distro does not provide such "
"package, you can find the sources or binary packages at "
"'http://www.etallen.com/cpuid.html'.".format(e.filename))
for line in output.split("\n"):
match = leave_pattern.match(line)
if not match:
continue
regs = {
"eax_in": int(match.group(1), 0),
"ecx_in": int(match.group(2), 0),
"eax": int(match.group(3), 0),
"ebx": int(match.group(4), 0),
"ecx": int(match.group(5), 0),
"edx": int(match.group(6), 0)}
# local apic id. Pretend to always run on logical processor #0.
mask(regs, 0x01, 0x00, 0xffffffff, 0x00ffffff, 0xffffffff, 0xffffffff)
mask(regs, 0x0b, 0x00, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffff00)
mask(regs, 0x0b, 0x01, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffff00)
yield regs
def gather_msr():
msrs = dict()
addresses = [
0x10a, # IA32_ARCH_CAPABILITIES_MSR
0xcf, # IA32_CORE_CAPABILITY_MSR
]
KVM_GET_MSRS = 0xc008ae88
try:
with open("/dev/cpu/0/msr", "rb") as f:
for addr in addresses:
f.seek(addr)
buf = f.read(8)
msrs[addr] = struct.unpack("=Q", buf)[0]
return "", msrs
except IOError as e:
print("Warning: {}".format(e), file=sys.stderr)
try:
with open("/dev/kvm", "rb") as f:
for addr in addresses:
bufIn = struct.pack("=LLLLQ", 1, 0, addr, 0, 0)
bufOut = fcntl.ioctl(f, KVM_GET_MSRS, bufIn)
msrs[addr] = struct.unpack("=LLLLQ", bufOut)[4]
return " via KVM", msrs
except IOError as e:
print("Warning: {}".format(e), file=sys.stderr)
return None, {}
def call_qemu(qemu, qmp_cmds):
cmd = [
qemu,
"-machine", "accel=kvm",
"-cpu", "host",
"-nodefaults",
"-nographic",
"-qmp", "stdio"]
stdin = list()
stdin.append("{\"execute\": \"qmp_capabilities\"}")
stdin.extend([json.dumps(o) for o in qmp_cmds])
stdin.append("{\"execute\": \"quit\"}")
try:
output = subprocess.check_output(
cmd,
universal_newlines=True,
input="\n".join(stdin))
except subprocess.CalledProcessError:
exit("Error: Non-zero exit code from '{}'.".format(qemu))
except FileNotFoundError:
exit("Error: File not found: '{}'.".format(qemu))
for line in output.split("\n"):
if not line:
continue
response = json.loads(line)
if "return" in response and not response["return"]:
continue
if response.get("event") == "SHUTDOWN":
continue
yield response
def gather_model(args):
output = call_qemu(args.path_to_qemu, [
{
"execute": "query-cpu-model-expansion",
"arguments":
{
"type": "static",
"model": {"name": "host"}
},
"id": "model-expansion"
}])
static_model = None
for o in output:
if o.get("id") == "model-expansion":
static_model = o["return"]["model"]
if static_model:
return call_qemu(args.path_to_qemu, [
{
"execute": "query-cpu-model-expansion",
"arguments":
{
"type": "full",
"model": static_model
},
"id": "model-expansion"
},
{
"execute": "query-cpu-definitions",
"id": "definitions"
}
])
else:
return call_qemu(args.path_to_qemu, [
{
"execute": "qom-get",
"arguments":
{
"path": "/machine/unattached/device[0]",
"property": "feature-words"
},
"id": "feature-words"
},
{
"execute": "qom-get",
"arguments":
{
"path": "/machine/unattached/device[0]",
"property": "family"
},
"id": "family"
},
{
"execute": "qom-get",
"arguments":
{
"path": "/machine/unattached/device[0]",
"property": "model"
},
"id": "model"
},
{
"execute": "qom-get",
"arguments":
{
"path": "/machine/unattached/device[0]",
"property": "stepping"
},
"id": "stepping"
},
{
"execute": "qom-get",
"arguments":
{
"path": "/machine/unattached/device[0]",
"property": "model-id"
},
"id": "model-id"
},
{
"execute": "query-cpu-definitions",
"id": "definitions"
}
])
def gather(args):
result = dict()
result["name"] = gather_name(args)
result["leaves"] = list(gather_cpuid_leaves(args))
result["via"], result["msr"] = gather_msr()
result["model"] = list(gather_model(args))
return result
def parse_filename(data):
filename = data["name"].strip()
filename = re.sub("[ -]+ +", " ", filename)
filename = re.sub("\\(([Rr]|[Tt][Mm])\\)", "", filename)
filename = re.sub(".*(Intel|AMD) ", "", filename)
filename = re.sub(" (Duo|Quad|II X[0-9]+)", " ", filename)
filename = re.sub(" (CPU|[Pp]rocessor)", "", filename)
filename = re.sub(" @.*", "", filename)
filename = re.sub(" APU .*", "", filename)
filename = re.sub(" SE$", "", filename)
filename = re.sub(" ", "-", filename)
return "x86_64-cpuid-{}".format(filename)
def output_xml(data, filename):
leave_template = \
" <cpuid" \
" eax_in='0x{0[eax_in]:08x}'" \
" ecx_in='0x{0[ecx_in]:02x}'" \
" eax='0x{0[eax]:08x}'" \
" ebx='0x{0[ebx]:08x}'" \
" ecx='0x{0[ecx]:08x}'" \
" edx='0x{0[edx]:08x}'" \
"/>\n"
msr_template = " <msr index='0x{:x}' edx='0x{:08x}' eax='0x{:08x}'/>\n"
print(filename)
with open(filename, "wt") as f:
f.write("<!-- {} -->\n".format(data["name"]))
f.write("<cpudata arch='x86'>\n")
for leave in data["leaves"]:
f.write(leave_template.format(leave))
for key, value in sorted(data["msr"].items()):
f.write(msr_template.format(
int(key),
0xffffffff & (value >> 32),
0xffffffff & (value >> 0)))
f.write("</cpudata>\n")
def output_json(data, filename):
replies = list()
for reply in data["model"]:
if "QMP" in reply:
continue
if "timestamp" in reply:
continue
if "return" in reply and not reply["return"]:
continue
replies.append(reply)
if not replies:
return
if "model-expansion" not in [reply.get("id") for reply in replies]:
exit(
"Error: Missing query-cpu-model-expansion reply in "
"{}".format(filename))
print(filename)
with open(filename, "wt") as f:
for reply in replies:
if reply is not replies[0]:
f.write("\n")
json.dump(reply, f, indent=2)
f.write("\n")
def parse(args, data):
filename = parse_filename(data)
filename_xml = "{}.xml".format(filename)
filename_json = "{}.json".format(filename)
output_xml(data, filename_xml)
output_json(data, filename_json)
if not os.path.isfile(filename_json):
return
if os.path.getsize(filename_json) == 0:
return
args.json_files = getattr(args, "json_files", list()) + [filename_json]
def checkFeature(cpuData, feature):
for key in ["type"] + _KEYS.get(feature["type"], list()):
if feature[key] not in cpuData:
return False
cpuData = cpuData[feature[key]]
for reg in _REGS.get(feature["type"], list()):
if feature[reg] > 0 and feature[reg] == feature[reg] & cpuData[reg]:
return True
return False
def addFeature(cpuData, feature):
for key in ["type"] + _KEYS.get(feature["type"], list()):
if feature[key] not in cpuData:
cpuData[feature[key]] = dict()
cpuData = cpuData[feature[key]]
for reg in _REGS.get(feature["type"], list()):
cpuData[reg] = cpuData.get(reg, 0) | feature[reg]
def parseQemu(path, features):
cpuData = {}
with open(path, "r") as f:
data, pos = json.JSONDecoder().raw_decode(f.read())
for (prop, val) in data["return"]["model"]["props"].items():
if val and prop in features:
addFeature(cpuData, features[prop])
return cpuData
def parseCPUData(path):
cpuData = dict()
for f in xml.etree.ElementTree.parse(path).getroot():
if f.tag not in ("cpuid", "msr"):
continue
feature = {"type": f.tag}
for reg in _KEYS[f.tag] + _REGS[f.tag]:
feature[reg] = int(f.attrib.get(reg, "0"), 0)
addFeature(cpuData, feature)
return cpuData
def parseMap():
path = os.path.dirname(sys.argv[0])
path = os.path.join(path, "..", "..", "src", "cpu_map", "x86_features.xml")
cpuMap = dict()
for f in xml.etree.ElementTree.parse(path).getroot().iter("feature"):
if f[0].tag not in ("cpuid", "msr"):
continue
feature = {"type": f[0].tag}
for reg in _KEYS[f[0].tag] + _REGS[f[0].tag]:
feature[reg] = int(f[0].attrib.get(reg, "0"), 0)
cpuMap[f.attrib["name"]] = feature
return cpuMap
def formatCPUData(cpuData, path, comment):
print(path)
with open(path, "w") as f:
f.write("<!-- " + comment + " -->\n")
f.write("<cpudata arch='x86'>\n")
cpuid = cpuData["cpuid"]
for eax_in in sorted(cpuid.keys()):
for ecx_in in sorted(cpuid[eax_in].keys()):
leaf = cpuid[eax_in][ecx_in]
line = (" <cpuid eax_in='0x%08x' ecx_in='0x%02x' "
"eax='0x%08x' ebx='0x%08x' "
"ecx='0x%08x' edx='0x%08x'/>\n")
f.write(line % (
eax_in, ecx_in,
leaf["eax"], leaf["ebx"], leaf["ecx"], leaf["edx"]))
if "msr" in cpuData:
msr = cpuData["msr"]
for index in sorted(msr.keys()):
f.write(" <msr index='0x%x' edx='0x%08x' eax='0x%08x'/>\n" %
(index, msr[index]['edx'], msr[index]['eax']))
f.write("</cpudata>\n")
def diff(args):
cpuMap = parseMap()
for jsonFile in args.json_files:
cpuDataFile = jsonFile.replace(".json", ".xml")
enabledFile = jsonFile.replace(".json", "-enabled.xml")
disabledFile = jsonFile.replace(".json", "-disabled.xml")
cpuData = parseCPUData(cpuDataFile)
qemu = parseQemu(jsonFile, cpuMap)
enabled = dict()
disabled = dict()
for feature in cpuMap.values():
if checkFeature(qemu, feature):
addFeature(enabled, feature)
elif checkFeature(cpuData, feature):
addFeature(disabled, feature)
formatCPUData(enabled, enabledFile, "Features enabled by QEMU")
formatCPUData(disabled, disabledFile, "Features disabled by QEMU")
def main():
parser = argparse.ArgumentParser(description="Gather cpu test data")
parser.add_argument(
"--name",
help="CPU model name. "
"If unset, model name is read from '/proc/cpuinfo'.")
parser.add_argument(
"--path-to-cpuid",
metavar="PATH",
help="Path to 'cpuid' utility. "
"If unset, the first executable 'cpuid' in $PATH is used.")
parser.add_argument(
"--path-to-qemu",
metavar="PATH",
help="Path to qemu. "
"If unset, will try '/usr/bin/qemu-system-x86_64', "
"'/usr/bin/qemu-kvm', and '/usr/libexec/qemu-kvm'.")
subparsers = parser.add_subparsers(dest="action")
subparsers.add_parser(
"gather",
help="Acquire data on target system and outputs to stdout. "
"This is the default. ")
subparsers.add_parser(
"parse",
help="Reads data from stdin and parses data for libvirt use.")
subparsers.add_parser(
"full",
help="Equivalent to `cpu-data.py gather | cpu-data.py parse`.")
diffparser = subparsers.add_parser(
"diff",
help="Diff json description of CPU model against known features.")
diffparser.add_argument(
"json_files",
nargs="+",
metavar="FILE",
type=os.path.realpath,
help="Path to one or more json CPU model descriptions.")
args = parser.parse_args()
if not args.action:
args.action = "gather"
if not args.path_to_qemu:
args.path_to_qemu = "qemu-system-x86_64"
search = [
"/usr/bin/qemu-system-x86_64",
"/usr/bin/qemu-kvm",
"/usr/libexec/qemu-kvm"]
for f in search:
if os.path.isfile(f):
args.path_to_qemu = f
if args.action in ["gather", "full"]:
data = gather(args)
if args.action == "gather":
json.dump(data, sys.stdout, indent=2)
if args.action in ["parse", "full"]:
if args.action == "parse":
data = json.load(sys.stdin)
parse(args, data)
if "json_files" in args:
diff(args)
if __name__ == "__main__":
main()