scripts/cpu-x86-uarch-abi.py - third_party/qemu - Git at Google

 #!/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["return"]:
     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["return"]["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()
	#!/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["return"]:
	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["return"]["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()