qemu-e2k/scripts/cpu-x86-uarch-abi.py
Zhao Liu 3e7ebf58e8 scripts/cpu-x86-uarch-abi.py: Fix parameter error of cmd
When run this script, there's the error:

python3 scripts/cpu-x86-uarch-abi.py /tmp/qmp
Traceback (most recent call last):
  File "/path-to-qemu/qemu/scripts/cpu-x86-uarch-abi.py", line 96, in <module>
    cpu = shell.cmd("query-cpu-model-expansion",
TypeError: QEMUMonitorProtocol.cmd() takes 2 positional arguments but 3 were given

Commit 7f521b023b ("scripts/cpu-x86-uarch-abi.py: use .command()
instead of .cmd()") converts the the original .cmd() to .command()
(which was later renamed to "cmd" to replace the original one).

But the new .cmd() only accepts typing.Mapping as the parameter instead
of typing.Dict (see _qmp.execute()).

Change the paremeters of "query-cpu-model-expansion" to typing.Mapping
format to fix this error.

Fixes: 7f521b023b ("scripts/cpu-x86-uarch-abi.py: use .command() instead of .cmd()")

Reviewed-by: Vladimir Sementsov-Ogievskiy <vsementsov@yandex-team.ru>
Signed-off-by: Zhao Liu <zhao1.liu@intel.com>
Signed-off-by: Daniel P. Berrangé <berrange@redhat.com>
2023-11-07 16:45:18 +00:00

194 lines
4.7 KiB
Python

#!/usr/bin/python3
#
# SPDX-License-Identifier: GPL-2.0-or-later
#
# A script to generate a CSV file showing the x86_64 ABI
# compatibility levels for each CPU model.
#
from qemu.qmp.legacy import QEMUMonitorProtocol
import sys
if len(sys.argv) != 2:
print("syntax: %s QMP-SOCK\n\n" % __file__ +
"Where QMP-SOCK points to a QEMU process such as\n\n" +
" # qemu-system-x86_64 -qmp unix:/tmp/qmp,server,nowait " +
"-display none -accel kvm", file=sys.stderr)
sys.exit(1)
# Mandatory CPUID features for each microarch ABI level
levels = [
[ # x86-64 baseline
"cmov",
"cx8",
"fpu",
"fxsr",
"mmx",
"syscall",
"sse",
"sse2",
],
[ # x86-64-v2
"cx16",
"lahf-lm",
"popcnt",
"pni",
"sse4.1",
"sse4.2",
"ssse3",
],
[ # x86-64-v3
"avx",
"avx2",
"bmi1",
"bmi2",
"f16c",
"fma",
"abm",
"movbe",
],
[ # x86-64-v4
"avx512f",
"avx512bw",
"avx512cd",
"avx512dq",
"avx512vl",
],
]
# Assumes externally launched process such as
#
# qemu-system-x86_64 -qmp unix:/tmp/qmp,server,nowait -display none -accel kvm
#
# Note different results will be obtained with TCG, as
# TCG masks out certain features otherwise present in
# the CPU model definitions, as does KVM.
sock = sys.argv[1]
shell = QEMUMonitorProtocol(sock)
shell.connect()
models = shell.cmd("query-cpu-definitions")
# These QMP props don't correspond to CPUID fatures
# so ignore them
skip = [
"family",
"min-level",
"min-xlevel",
"vendor",
"model",
"model-id",
"stepping",
]
names = []
for model in models:
if "alias-of" in model:
continue
names.append(model["name"])
models = {}
for name in sorted(names):
cpu = shell.cmd("query-cpu-model-expansion",
type="static",
model={ "name": name })
got = {}
for (feature, present) in cpu["model"]["props"].items():
if present and feature not in skip:
got[feature] = True
if name in ["host", "max", "base"]:
continue
models[name] = {
# Dict of all present features in this CPU model
"features": got,
# Whether each x86-64 ABI level is satisfied
"levels": [False, False, False, False],
# Number of extra CPUID features compared to the x86-64 ABI level
"distance":[-1, -1, -1, -1],
# CPUID features present in model, but not in ABI level
"delta":[[], [], [], []],
# CPUID features in ABI level but not present in model
"missing": [[], [], [], []],
}
# Calculate whether the CPU models satisfy each ABI level
for name in models.keys():
for level in range(len(levels)):
got = set(models[name]["features"])
want = set(levels[level])
missing = want - got
match = True
if len(missing) > 0:
match = False
models[name]["levels"][level] = match
models[name]["missing"][level] = missing
# Cache list of CPU models satisfying each ABI level
abi_models = [
[],
[],
[],
[],
]
for name in models.keys():
for level in range(len(levels)):
if models[name]["levels"][level]:
abi_models[level].append(name)
for level in range(len(abi_models)):
# Find the union of features in all CPU models satisfying this ABI
allfeatures = {}
for name in abi_models[level]:
for feat in models[name]["features"]:
allfeatures[feat] = True
# Find the intersection of features in all CPU models satisfying this ABI
commonfeatures = []
for feat in allfeatures:
present = True
for name in models.keys():
if not models[name]["levels"][level]:
continue
if feat not in models[name]["features"]:
present = False
if present:
commonfeatures.append(feat)
# Determine how many extra features are present compared to the lowest
# common denominator
for name in models.keys():
if not models[name]["levels"][level]:
continue
delta = set(models[name]["features"].keys()) - set(commonfeatures)
models[name]["distance"][level] = len(delta)
models[name]["delta"][level] = delta
def print_uarch_abi_csv():
print("# Automatically generated from '%s'" % __file__)
print("Model,baseline,v2,v3,v4")
for name in models.keys():
print(name, end="")
for level in range(len(levels)):
if models[name]["levels"][level]:
print(",✅", end="")
else:
print(",", end="")
print()
print_uarch_abi_csv()