tools/sst-compare-redfish-os.py - openbmc/smbios-mdr - Gitiles

 #!/usr/bin/env python3

 # This tool runs on the host CPU and gathers all SST related configuration from
 # the BMC (Redfish) and from the linux driver, and compares them to catch any
 # errors or disagreement. Only required arguments are the details to start a
 # Redfish session.
 #
 # This was tested running on a live Arch Linux ISO environment. Any Linux
 # installation should work, but best to get the latest tools and kernel driver.
 #
 # Required dependencies:
 # * DMTF's redfish python library. This is available in pip.
 # * intel-speed-select tool from the kernel source tree
 #   (tools/power/x86/intel-speed-select), and available in the PATH.

 import argparse
 import json
 import re
 import subprocess
 import sys

 import redfish

 linux_cpu_map = dict()
 success = True


 def filter_powerdomains(sst_data):
     # For TPMI-based CPUs, we only care about powerdomain-0
     cpus = list(sst_data.keys())
     for proc in cpus:
         match = re.search("powerdomain-(\\d+)", proc)
         if not match or match.group(1) == "0":
             continue
         del sst_data[proc]


 def get_linux_output():
     cmd = [
         "/usr/bin/env",
         "intel-speed-select",
         "--debug",
         "--format=json",
         "perf-profile",
         "info",
     ]
     process = subprocess.run(cmd, capture_output=True, text=True)
     process.check_returncode()
     result = json.loads(process.stderr)
     filter_powerdomains(result)

     global linux_cpu_map
     linux_cpu_map = dict()
     for line in process.stdout.split("\n"):
         match = re.search("logical_cpu:(\\d+).*punit_core:(\\d+)", line)
         if not match:
             continue
         logical_thread = int(match.group(1))
         physical_core = int(match.group(2))
         linux_cpu_map[logical_thread] = physical_core

     cmd = [
         "/usr/bin/env",
         "intel-speed-select",
         "--format=json",
         "perf-profile",
         "get-config-current-level",
     ]
     process = subprocess.run(cmd, capture_output=True, text=True)
     current_level = json.loads(process.stderr)
     filter_powerdomains(current_level)

     for proc, data in current_level.items():
         result[proc].update(data)

     return result


 def compare(redfish_val, linux_val, description):
     err = ""
     if None in (redfish_val, linux_val):
         err = "MISSING VALUE"
     elif redfish_val != linux_val:
         err = "!! MISMATCH !!"
         global success
         success = False
     print(f"{description}: {err}")
     print(f"  Redfish: {redfish_val}")
     print(f"  Linux: {linux_val}")


 def get_linux_package(linux_data, redfish_id):
     match = re.match("cpu(\\d+)", redfish_id)
     if not match:
         raise RuntimeError(f"Redfish CPU name is unexpected: {redfish_id}")
     num = match.group(1)
     matching_keys = []
     for key in linux_data.keys():
         if re.match(f"^package-{num}:.*", key):
             matching_keys.append(key)
     if len(matching_keys) != 1:
         raise RuntimeError(
             f"Unexpected number of matching linux objects for {redfish_id}"
         )
     return linux_data[matching_keys[0]]


 def compare_config(redfish_config, linux_config):
     print(f"--Checking {redfish_config['Id']}--")
     compare(
         redfish_config["BaseSpeedMHz"],
         int(linux_config["base-frequency(MHz)"]),
         "Base Speed",
     )

     actual_hp_p1 = actual_lp_p1 = 0
     actual_hp_cores = set()
     for bf in redfish_config["BaseSpeedPrioritySettings"]:
         if not actual_hp_p1 or bf["BaseSpeedMHz"] > actual_hp_p1:
             actual_hp_p1 = bf["BaseSpeedMHz"]
             actual_hp_cores = set(bf["CoreIDs"])
         if not actual_lp_p1 or bf["BaseSpeedMHz"] < actual_lp_p1:
             actual_lp_p1 = bf["BaseSpeedMHz"]

     exp_hp_p1 = exp_lp_p1 = 0
     exp_hp_cores = set()
     if "speed-select-base-freq-properties" in linux_config:
         exp_bf_props = linux_config["speed-select-base-freq-properties"]
         exp_hp_p1 = int(exp_bf_props["high-priority-base-frequency(MHz)"])
         exp_hp_cores = set(
             map(
                 lambda x: linux_cpu_map[x],
                 map(int, exp_bf_props["high-priority-cpu-list"].split(",")),
             )
         )
         exp_lp_p1 = int(exp_bf_props["low-priority-base-frequency(MHz)"])

     compare(actual_hp_p1, exp_hp_p1, "SST-BF High Priority P1 Freq")
     compare(actual_hp_cores, exp_hp_cores, "SST-BF High Priority Core List")
     compare(actual_lp_p1, exp_lp_p1, "SST-BF Low Priority P1 Freq")

     compare(
         redfish_config["MaxJunctionTemperatureCelsius"],
         int(linux_config["tjunction-max(C)"]),
         "Junction Temperature",
     )
     # There is no equivalent value in linux for the per-level P0_1 freq.
     compare(redfish_config["MaxSpeedMHz"], None, "SSE Max Turbo Speed")
     compare(
         redfish_config["TDPWatts"],
         int(linux_config["thermal-design-power(W)"]),
         "TDP",
     )
     compare(
         redfish_config["TotalAvailableCoreCount"],
         int(linux_config["enable-cpu-count"]) // 2,
         "Enabled Core Count",
     )

     actual_turbo = [
         (x["ActiveCoreCount"], x["MaxSpeedMHz"])
         for x in redfish_config["TurboProfile"]
     ]
     linux_turbo = (
         linux_config.get("turbo-ratio-limits-sse")
         or linux_config["turbo-ratio-limits-level-0"]
     )
     exp_turbo = []
     for bucket_key in sorted(linux_turbo.keys()):
         bucket = linux_turbo[bucket_key]
         exp_turbo.append(
             (
                 int(bucket["core-count"]),
                 int(bucket["max-turbo-frequency(MHz)"]),
             )
         )
     compare(actual_turbo, exp_turbo, "SSE Turbo Profile")


 def get_level_from_config_id(config_id):
     match = re.match("config(\\d+)", config_id)
     if not match:
         raise RuntimeError(f"Invalid config name {config_id}")
     return match.group(1)


 def main():
     parser = argparse.ArgumentParser(
         description="Compare Redfish SST properties against Linux tools"
     )
     parser.add_argument("hostname")
     parser.add_argument("--username", "-u", default="root")
     parser.add_argument("--password", "-p", default="0penBmc")
     args = parser.parse_args()

     linux_data = get_linux_output()

     bmc = redfish.redfish_client(
         base_url=f"https://{args.hostname}",
         username=args.username,
         password=args.password,
     )
     bmc.login(auth="session")

     # Load the ProcessorCollection
     resp = json.loads(bmc.get("/redfish/v1/Systems/system/Processors").text)
     for proc_member in resp["Members"]:
         proc_resp = json.loads(bmc.get(proc_member["@odata.id"]).text)
         proc_id = proc_resp["Id"]
         print()
         print(f"----Checking Processor {proc_id}----")

         if proc_resp["Status"]["State"] == "Absent":
             print("Not populated")
             continue

         # Get subset of intel-speed-select data which applies to this CPU
         pkg_data = get_linux_package(linux_data, proc_id)

         # Check currently applied config
         applied_config = proc_resp["AppliedOperatingConfig"][
             "@odata.id"
         ].split("/")[-1]
         current_level = get_level_from_config_id(applied_config)
         compare(
             current_level,
             pkg_data["get-config-current_level"],
             "Applied Config",
         )

         exp_cur_level_data = pkg_data[f"perf-profile-level-{current_level}"]

         # Check whether SST-BF is enabled
         bf_enabled = proc_resp["BaseSpeedPriorityState"].lower()
         exp_bf_enabled = exp_cur_level_data["speed-select-base-freq"]
         if exp_bf_enabled == "unsupported":
             exp_bf_enabled = "disabled"
         compare(bf_enabled, exp_bf_enabled, "SST-BF Enabled?")

         # Check high speed core list
         hscores = set(proc_resp["HighSpeedCoreIDs"])
         exp_hscores = set()
         if "speed-select-base-freq-properties" in exp_cur_level_data:
             exp_hscores = exp_cur_level_data[
                 "speed-select-base-freq-properties"
             ]["high-priority-cpu-list"]
             exp_hscores = set(
                 [linux_cpu_map[int(x)] for x in exp_hscores.split(",")]
             )
         compare(hscores, exp_hscores, "High Speed Core List")

         # Load the OperatingConfigCollection
         resp = json.loads(
             bmc.get(proc_resp["OperatingConfigs"]["@odata.id"]).text
         )

         # Check number of available configs
         profile_keys = list(
             filter(
                 lambda x: x.startswith("perf-profile-level"), pkg_data.keys()
             )
         )
         compare(
             resp["Members@odata.count"],
             int(len(profile_keys)),
             "Number of profiles",
         )

         for config_member in resp["Members"]:
             # Load each OperatingConfig and compare all its contents
             config_resp = json.loads(bmc.get(config_member["@odata.id"]).text)
             level = get_level_from_config_id(config_resp["Id"])
             exp_level_data = pkg_data[f"perf-profile-level-{level}"]
             compare_config(config_resp, exp_level_data)

     print()
     if success:
         print("Everything matched! :)")
         return 0
     else:
         print("There were mismatches, please check output :(")
         return 1


 if __name__ == "__main__":
     sys.exit(main())
	#!/usr/bin/env python3

	# This tool runs on the host CPU and gathers all SST related configuration from
	# the BMC (Redfish) and from the linux driver, and compares them to catch any
	# errors or disagreement. Only required arguments are the details to start a
	# Redfish session.
	#
	# This was tested running on a live Arch Linux ISO environment. Any Linux
	# installation should work, but best to get the latest tools and kernel driver.
	#
	# Required dependencies:
	# * DMTF's redfish python library. This is available in pip.
	# * intel-speed-select tool from the kernel source tree
	# (tools/power/x86/intel-speed-select), and available in the PATH.

	import argparse
	import json
	import re
	import subprocess
	import sys

	import redfish

	linux_cpu_map = dict()
	success = True


	def filter_powerdomains(sst_data):
	# For TPMI-based CPUs, we only care about powerdomain-0
	cpus = list(sst_data.keys())
	for proc in cpus:
	match = re.search("powerdomain-(\\d+)", proc)
	if not match or match.group(1) == "0":
	continue
	del sst_data[proc]


	def get_linux_output():
	cmd = [
	"/usr/bin/env",
	"intel-speed-select",
	"--debug",
	"--format=json",
	"perf-profile",
	"info",
	]
	process = subprocess.run(cmd, capture_output=True, text=True)
	process.check_returncode()
	result = json.loads(process.stderr)
	filter_powerdomains(result)

	global linux_cpu_map
	linux_cpu_map = dict()
	for line in process.stdout.split("\n"):
	match = re.search("logical_cpu:(\\d+).*punit_core:(\\d+)", line)
	if not match:
	continue
	logical_thread = int(match.group(1))
	physical_core = int(match.group(2))
	linux_cpu_map[logical_thread] = physical_core

	cmd = [
	"/usr/bin/env",
	"intel-speed-select",
	"--format=json",
	"perf-profile",
	"get-config-current-level",
	]
	process = subprocess.run(cmd, capture_output=True, text=True)
	current_level = json.loads(process.stderr)
	filter_powerdomains(current_level)

	for proc, data in current_level.items():
	result[proc].update(data)

	return result


	def compare(redfish_val, linux_val, description):
	err = ""
	if None in (redfish_val, linux_val):
	err = "MISSING VALUE"
	elif redfish_val != linux_val:
	err = "!! MISMATCH !!"
	global success
	success = False
	print(f"{description}: {err}")
	print(f" Redfish: {redfish_val}")
	print(f" Linux: {linux_val}")


	def get_linux_package(linux_data, redfish_id):
	match = re.match("cpu(\\d+)", redfish_id)
	if not match:
	raise RuntimeError(f"Redfish CPU name is unexpected: {redfish_id}")
	num = match.group(1)
	matching_keys = []
	for key in linux_data.keys():
	if re.match(f"^package-{num}:.*", key):
	matching_keys.append(key)
	if len(matching_keys) != 1:
	raise RuntimeError(
	f"Unexpected number of matching linux objects for {redfish_id}"
	)
	return linux_data[matching_keys[0]]


	def compare_config(redfish_config, linux_config):
	print(f"--Checking {redfish_config['Id']}--")
	compare(
	redfish_config["BaseSpeedMHz"],
	int(linux_config["base-frequency(MHz)"]),
	"Base Speed",
	)

	actual_hp_p1 = actual_lp_p1 = 0
	actual_hp_cores = set()
	for bf in redfish_config["BaseSpeedPrioritySettings"]:
	if not actual_hp_p1 or bf["BaseSpeedMHz"] > actual_hp_p1:
	actual_hp_p1 = bf["BaseSpeedMHz"]
	actual_hp_cores = set(bf["CoreIDs"])
	if not actual_lp_p1 or bf["BaseSpeedMHz"] < actual_lp_p1:
	actual_lp_p1 = bf["BaseSpeedMHz"]

	exp_hp_p1 = exp_lp_p1 = 0
	exp_hp_cores = set()
	if "speed-select-base-freq-properties" in linux_config:
	exp_bf_props = linux_config["speed-select-base-freq-properties"]
	exp_hp_p1 = int(exp_bf_props["high-priority-base-frequency(MHz)"])
	exp_hp_cores = set(
	map(
	lambda x: linux_cpu_map[x],
	map(int, exp_bf_props["high-priority-cpu-list"].split(",")),
	)
	)
	exp_lp_p1 = int(exp_bf_props["low-priority-base-frequency(MHz)"])

	compare(actual_hp_p1, exp_hp_p1, "SST-BF High Priority P1 Freq")
	compare(actual_hp_cores, exp_hp_cores, "SST-BF High Priority Core List")
	compare(actual_lp_p1, exp_lp_p1, "SST-BF Low Priority P1 Freq")

	compare(
	redfish_config["MaxJunctionTemperatureCelsius"],
	int(linux_config["tjunction-max(C)"]),
	"Junction Temperature",
	)
	# There is no equivalent value in linux for the per-level P0_1 freq.
	compare(redfish_config["MaxSpeedMHz"], None, "SSE Max Turbo Speed")
	compare(
	redfish_config["TDPWatts"],
	int(linux_config["thermal-design-power(W)"]),
	"TDP",
	)
	compare(
	redfish_config["TotalAvailableCoreCount"],
	int(linux_config["enable-cpu-count"]) // 2,
	"Enabled Core Count",
	)

	actual_turbo = [
	(x["ActiveCoreCount"], x["MaxSpeedMHz"])
	for x in redfish_config["TurboProfile"]
	]
	linux_turbo = (
	linux_config.get("turbo-ratio-limits-sse")
	or linux_config["turbo-ratio-limits-level-0"]
	)
	exp_turbo = []
	for bucket_key in sorted(linux_turbo.keys()):
	bucket = linux_turbo[bucket_key]
	exp_turbo.append(
	(
	int(bucket["core-count"]),
	int(bucket["max-turbo-frequency(MHz)"]),
	)
	)
	compare(actual_turbo, exp_turbo, "SSE Turbo Profile")


	def get_level_from_config_id(config_id):
	match = re.match("config(\\d+)", config_id)
	if not match:
	raise RuntimeError(f"Invalid config name {config_id}")
	return match.group(1)


	def main():
	parser = argparse.ArgumentParser(
	description="Compare Redfish SST properties against Linux tools"
	)
	parser.add_argument("hostname")
	parser.add_argument("--username", "-u", default="root")
	parser.add_argument("--password", "-p", default="0penBmc")
	args = parser.parse_args()

	linux_data = get_linux_output()

	bmc = redfish.redfish_client(
	base_url=f"https://{args.hostname}",
	username=args.username,
	password=args.password,
	)
	bmc.login(auth="session")

	# Load the ProcessorCollection
	resp = json.loads(bmc.get("/redfish/v1/Systems/system/Processors").text)
	for proc_member in resp["Members"]:
	proc_resp = json.loads(bmc.get(proc_member["@odata.id"]).text)
	proc_id = proc_resp["Id"]
	print()
	print(f"----Checking Processor {proc_id}----")

	if proc_resp["Status"]["State"] == "Absent":
	print("Not populated")
	continue

	# Get subset of intel-speed-select data which applies to this CPU
	pkg_data = get_linux_package(linux_data, proc_id)

	# Check currently applied config
	applied_config = proc_resp["AppliedOperatingConfig"][
	"@odata.id"
	].split("/")[-1]
	current_level = get_level_from_config_id(applied_config)
	compare(
	current_level,
	pkg_data["get-config-current_level"],
	"Applied Config",
	)

	exp_cur_level_data = pkg_data[f"perf-profile-level-{current_level}"]

	# Check whether SST-BF is enabled
	bf_enabled = proc_resp["BaseSpeedPriorityState"].lower()
	exp_bf_enabled = exp_cur_level_data["speed-select-base-freq"]
	if exp_bf_enabled == "unsupported":
	exp_bf_enabled = "disabled"
	compare(bf_enabled, exp_bf_enabled, "SST-BF Enabled?")

	# Check high speed core list
	hscores = set(proc_resp["HighSpeedCoreIDs"])
	exp_hscores = set()
	if "speed-select-base-freq-properties" in exp_cur_level_data:
	exp_hscores = exp_cur_level_data[
	"speed-select-base-freq-properties"
	]["high-priority-cpu-list"]
	exp_hscores = set(
	[linux_cpu_map[int(x)] for x in exp_hscores.split(",")]
	)
	compare(hscores, exp_hscores, "High Speed Core List")

	# Load the OperatingConfigCollection
	resp = json.loads(
	bmc.get(proc_resp["OperatingConfigs"]["@odata.id"]).text
	)

	# Check number of available configs
	profile_keys = list(
	filter(
	lambda x: x.startswith("perf-profile-level"), pkg_data.keys()
	)
	)
	compare(
	resp["Members@odata.count"],
	int(len(profile_keys)),
	"Number of profiles",
	)

	for config_member in resp["Members"]:
	# Load each OperatingConfig and compare all its contents
	config_resp = json.loads(bmc.get(config_member["@odata.id"]).text)
	level = get_level_from_config_id(config_resp["Id"])
	exp_level_data = pkg_data[f"perf-profile-level-{level}"]
	compare_config(config_resp, exp_level_data)

	print()
	if success:
	print("Everything matched! :)")
	return 0
	else:
	print("There were mismatches, please check output :(")
	return 1


	if __name__ == "__main__":
	sys.exit(main())