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- #!/usr/bin/env python3
- import argparse
- import configparser
- import dbus
- import os
- import psutil
- import struct
- import subprocess
- import sys
- from collections import defaultdict
- from dbus.mainloop.glib import DBusGMainLoop
- from errno import EACCES, EPERM
- from gi.repository import GLib
- from mmio import MMIO, MMIOError
- from multiprocessing import cpu_count
- from threading import Event, Thread
- SYSFS_POWER_PATH = '/sys/class/power_supply/AC/online'
- VOLTAGE_PLANES = {
- 'CORE': 0,
- 'GPU': 1,
- 'CACHE': 2,
- 'UNCORE': 3,
- 'ANALOGIO': 4,
- }
- TRIP_TEMP_RANGE = [40, 97]
- power = {'source': None, 'method': 'polling'}
- platform_info_bits = {
- 'maximum_non_turbo_ratio': [8, 15],
- 'maximum_efficiency_ratio': [40, 47],
- 'minimum_operating_ratio': [48, 55],
- 'feature_ppin_cap': [23, 23],
- 'feature_programmable_turbo_ratio': [28, 28],
- 'feature_programmable_tdp_limit': [29, 29],
- 'number_of_additional_tdp_profiles': [33, 34],
- 'feature_programmable_temperature_target': [30, 30],
- 'feature_low_power_mode': [32, 32]
- }
- thermal_status_bits = {
- 'thermal_limit_status': [0, 0],
- 'thermal_limit_log': [1, 1],
- 'prochot_or_forcepr_status': [2, 2],
- 'prochot_or_forcepr_log': [3, 3],
- 'crit_temp_status': [4, 4],
- 'crit_temp_log': [5, 5],
- 'thermal_threshold1_status': [6, 6],
- 'thermal_threshold1_log': [7, 7],
- 'thermal_threshold2_status': [8, 8],
- 'thermal_threshold2_log': [9, 9],
- 'power_limit_status': [10, 10],
- 'power_limit_log': [11, 11],
- 'current_limit_status': [12, 12],
- 'current_limit_log': [13, 13],
- 'cross_domain_limit_status': [14, 14],
- 'cross_domain_limit_log': [15, 15],
- 'cpu_temp': [16, 22],
- 'temp_resolution': [27, 30],
- 'reading_valid': [31, 31],
- }
- class bcolors:
- GREEN = '\033[92m'
- RED = '\033[91m'
- RESET = '\033[0m'
- BOLD = '\033[1m'
- OK = bcolors.GREEN + bcolors.BOLD + 'OK' + bcolors.RESET
- ERR = bcolors.RED + bcolors.BOLD + 'ERR' + bcolors.RESET
- def writemsr(msr, val):
- msr_list = ['/dev/cpu/{:d}/msr'.format(x) for x in range(cpu_count())]
- if not os.path.exists(msr_list[0]):
- try:
- subprocess.check_call(('modprobe', 'msr'))
- except subprocess.CalledProcessError:
- print('[E] Unable to load the msr module.')
- sys.exit(1)
- try:
- for addr in msr_list:
- f = os.open(addr, os.O_WRONLY)
- os.lseek(f, msr, os.SEEK_SET)
- os.write(f, struct.pack('Q', val))
- os.close(f)
- except (IOError, OSError) as e:
- if e.errno == EPERM or e.errno == EACCES:
- print('[E] Unable to write to MSR. Try to disable Secure Boot.')
- sys.exit(1)
- else:
- raise e
- # returns the value between from_bit and to_bit as unsigned long
- def readmsr(msr, from_bit=0, to_bit=63, cpu=None, flatten=False):
- assert cpu is None or cpu in range(cpu_count())
- if from_bit > to_bit:
- print('[E] Wrong readmsr bit params')
- sys.exit(1)
- msr_list = ['/dev/cpu/{:d}/msr'.format(x) for x in range(cpu_count())]
- if not os.path.exists(msr_list[0]):
- try:
- subprocess.check_call(('modprobe', 'msr'))
- except subprocess.CalledProcessError:
- print('[E] Unable to load the msr module.')
- sys.exit(1)
- try:
- output = []
- for addr in msr_list:
- f = os.open(addr, os.O_RDONLY)
- os.lseek(f, msr, os.SEEK_SET)
- val = struct.unpack('Q', os.read(f, 8))[0]
- os.close(f)
- output.append(get_value_for_bits(val, from_bit, to_bit))
- if flatten:
- return output[0] if len(set(output)) == 1 else output
- return output[cpu] if cpu is not None else output
- except (IOError, OSError) as e:
- if e.errno == EPERM or e.errno == EACCES:
- print('[E] Unable to read from MSR. Try to disable Secure Boot.')
- sys.exit(1)
- else:
- raise e
- def get_value_for_bits(val, from_bit=0, to_bit=63):
- mask = sum(2**x for x in range(from_bit, to_bit + 1))
- return (val & mask) >> from_bit
- def is_on_battery():
- with open(SYSFS_POWER_PATH) as f:
- return not bool(int(f.read()))
- def get_cpu_platform_info():
- features_msr_value = readmsr(0xce, cpu=0)
- cpu_platform_info = {}
- for key, value in platform_info_bits.items():
- cpu_platform_info[key] = int(get_value_for_bits(features_msr_value, value[0], value[1]))
- return cpu_platform_info
- def get_reset_thermal_status():
- #read thermal status
- thermal_status_msr_value = readmsr(0x19c)
- thermal_status = []
- for core in range(cpu_count()):
- thermal_status_core = {}
- for key, value in thermal_status_bits.items():
- thermal_status_core[key] = int(get_value_for_bits(thermal_status_msr_value[core], value[0], value[1]))
- thermal_status.append(thermal_status_core)
- #reset log bits
- writemsr(0x19c, 0)
- return thermal_status
- def get_time_unit():
- # 0.000977 is the time unit of my CPU
- # TODO formula might be different for other CPUs
- return 1.0 / 2**readmsr(0x606, 16, 19, cpu=0)
- def get_power_unit():
- # 0.125 is the power unit of my CPU
- # TODO formula might be different for other CPUs
- return 1.0 / 2**readmsr(0x606, 0, 3, cpu=0)
- def get_critical_temp():
- # the critical temperature for my CPU is 100 'C
- return readmsr(0x1a2, 16, 23, cpu=0)
- def calc_time_window_vars(t):
- time_unit = get_time_unit()
- for Y in range(2**5):
- for Z in range(2**2):
- if t <= (2**Y) * (1. + Z / 4.) * time_unit:
- return (Y, Z)
- raise ValueError('Unable to find a good combination!')
- def calc_undervolt_msr(plane, offset):
- """Return the value to be written in the MSR 150h for setting the given
- offset voltage (in mV) to the given voltage plane.
- """
- assert offset <= 0
- assert plane in VOLTAGE_PLANES
- offset = int(round(offset * 1.024))
- offset = 0xFFE00000 & ((offset & 0xFFF) << 21)
- return 0x8000001100000000 | (VOLTAGE_PLANES[plane] << 40) | offset
- def calc_undervolt_mv(msr_value):
- """Return the offset voltage (in mV) from the given raw MSR 150h value.
- """
- offset = (msr_value & 0xFFE00000) >> 21
- offset = offset if offset <= 0x400 else -(0x800 - offset)
- return int(round(offset / 1.024))
- def undervolt(config):
- for plane in VOLTAGE_PLANES:
- write_offset_mv = config.getfloat('UNDERVOLT', plane)
- write_value = calc_undervolt_msr(plane, write_offset_mv)
- writemsr(0x150, write_value)
- if args.debug:
- write_value &= 0xFFFFFFFF
- writemsr(0x150, 0x8000001000000000 | (VOLTAGE_PLANES[plane] << 40))
- read_value = readmsr(0x150, flatten=True)
- read_offset_mv = calc_undervolt_mv(read_value)
- match = OK if write_value == read_value else ERR
- print('[D] Undervolt plane {:s} - write {:.0f} mV ({:#x}) - read {:.0f} mV ({:#x}) - match {}'.format(
- plane, write_offset_mv, write_value, read_offset_mv, read_value, match))
- def load_config():
- config = configparser.ConfigParser()
- config.read(args.config)
- # config values sanity check
- for power_source in ('AC', 'BATTERY'):
- for option in (
- 'Update_Rate_s',
- 'PL1_Tdp_W',
- 'PL1_Duration_s',
- 'PL2_Tdp_W',
- 'PL2_Duration_S',
- ):
- config.set(power_source, option, str(max(0.1, config.getfloat(power_source, option))))
- trip_temp = config.getfloat(power_source, 'Trip_Temp_C')
- valid_trip_temp = min(TRIP_TEMP_RANGE[1], max(TRIP_TEMP_RANGE[0], trip_temp))
- if trip_temp != valid_trip_temp:
- config.set(power_source, 'Trip_Temp_C', str(valid_trip_temp))
- print('[!] Overriding invalid "Trip_Temp_C" value in "{:s}": {:.1f} -> {:.1f}'.format(
- power_source, trip_temp, valid_trip_temp))
- for plane in VOLTAGE_PLANES:
- value = config.getfloat('UNDERVOLT', plane)
- valid_value = min(0, value)
- if value != valid_value:
- config.set('UNDERVOLT', plane, str(valid_value))
- print('[!] Overriding invalid "UNDERVOLT" value in "{:s}" voltage plane: {:.0f} -> {:.0f}'.format(
- plane, value, valid_value))
- return config
- def calc_reg_values(platform_info, config):
- regs = defaultdict(dict)
- for power_source in ('AC', 'BATTERY'):
- if platform_info['feature_programmable_temperature_target'] != 1:
- print("[W] Setting temperature target is not supported by this CPU")
- else:
- # the critical temperature for my CPU is 100 'C
- critical_temp = get_critical_temp()
- # update the allowed temp range to keep at least 3 'C from the CPU critical temperature
- global TRIP_TEMP_RANGE
- TRIP_TEMP_RANGE[1] = min(TRIP_TEMP_RANGE[1], critical_temp - 3)
- trip_offset = int(round(critical_temp - config.getfloat(power_source, 'Trip_Temp_C')))
- regs[power_source]['MSR_TEMPERATURE_TARGET'] = trip_offset << 24
- power_unit = get_power_unit()
- PL1 = int(round(config.getfloat(power_source, 'PL1_Tdp_W') / power_unit))
- Y, Z = calc_time_window_vars(config.getfloat(power_source, 'PL1_Duration_s'))
- TW1 = Y | (Z << 5)
- PL2 = int(round(config.getfloat(power_source, 'PL2_Tdp_W') / power_unit))
- Y, Z = calc_time_window_vars(config.getfloat(power_source, 'PL2_Duration_s'))
- TW2 = Y | (Z << 5)
- regs[power_source]['MSR_PKG_POWER_LIMIT'] = PL1 | (1 << 15) | (TW1 << 17) | (PL2 << 32) | (1 << 47) | (
- TW2 << 49)
- # cTDP
- c_tdp_target_value = config.getint(power_source, 'cTDP', fallback=None)
- if c_tdp_target_value is not None:
- if platform_info['feature_programmable_tdp_limit'] != 1:
- print("[W] cTDP setting not supported by this CPU")
- elif platform_info['number_of_additional_tdp_profiles'] < c_tdp_target_value:
- print("[W] the configured cTDP profile is not supported by this CPU")
- else:
- valid_c_tdp_target_value = max(0, c_tdp_target_value)
- regs[power_source]['MSR_CONFIG_TDP_CONTROL'] = valid_c_tdp_target_value
- return regs
- def set_hwp(pref):
- # set HWP energy performance hints
- assert pref in ('performance', 'balance_performance', 'default', 'balance_power', 'power')
- CPUs = [
- '/sys/devices/system/cpu/cpu{:d}/cpufreq/energy_performance_preference'.format(x) for x in range(cpu_count())
- ]
- for i, c in enumerate(CPUs):
- with open(c, 'wb') as f:
- f.write(pref.encode())
- if args.debug:
- with open(c) as f:
- read_value = f.read().strip()
- match = OK if pref == read_value else ERR
- print('[D] HWP for cpu{:d} - write "{:s}" - read "{:s}" - match {}'.format(i, pref, read_value, match))
- def power_thread(config, regs, exit_event):
- try:
- mchbar_mmio = MMIO(0xfed159a0, 8)
- except MMIOError:
- print('[E] Unable to open /dev/mem. Try to disable Secure Boot.')
- sys.exit(1)
- while not exit_event.is_set():
- #print thermal status
- if args.debug:
- thermal_status = get_reset_thermal_status()
- for index, core_thermal_status in enumerate(thermal_status):
- for key, value in core_thermal_status.items():
- print('[D] core {} thermal status: {} = {}'.format(index, key.replace("_", " "), value))
- # switch back to sysfs polling
- if power['method'] == 'polling':
- power['source'] = 'BATTERY' if is_on_battery() else 'AC'
- # set temperature trip point
- if 'MSR_TEMPERATURE_TARGET' in regs[power['source']]:
- write_value = regs[power['source']]['MSR_TEMPERATURE_TARGET']
- writemsr(0x1a2, write_value)
- if args.debug:
- read_value = readmsr(0x1a2, 24, 29, flatten=True)
- match = OK if write_value >> 24 == read_value else ERR
- print('[D] TEMPERATURE_TARGET - write {:#x} - read {:#x} - match {}'.format(
- write_value >> 24, read_value, match))
- # set cTDP
- if 'MSR_CONFIG_TDP_CONTROL' in regs[power['source']]:
- write_value = regs[power['source']]['MSR_CONFIG_TDP_CONTROL']
- writemsr(0x64b, write_value)
- if args.debug:
- read_value = readmsr(0x64b, 0, 1, flatten=True)
- match = OK if write_value == read_value else ERR
- print('[D] CONFIG_TDP_CONTROL - write {:#x} - read {:#x} - match {}'.format(
- write_value, read_value, match))
- # set PL1/2 on MSR
- write_value = regs[power['source']]['MSR_PKG_POWER_LIMIT']
- writemsr(0x610, write_value)
- if args.debug:
- read_value = readmsr(0x610, 0, 55, flatten=True)
- match = OK if write_value == read_value else ERR
- print('[D] MSR PACKAGE_POWER_LIMIT - write {:#x} - read {:#x} - match {}'.format(
- write_value, read_value, match))
- # set MCHBAR register to the same PL1/2 values
- mchbar_mmio.write32(0, write_value & 0xffffffff)
- mchbar_mmio.write32(4, write_value >> 32)
- if args.debug:
- read_value = mchbar_mmio.read32(0) | (mchbar_mmio.read32(4) << 32)
- match = OK if write_value == read_value else ERR
- print('[D] MCHBAR PACKAGE_POWER_LIMIT - write {:#x} - read {:#x} - match {}'.format(
- write_value, read_value, match))
- wait_t = config.getfloat(power['source'], 'Update_Rate_s')
- enable_hwp_mode = config.getboolean('AC', 'HWP_Mode', fallback=False)
- if power['source'] == 'AC' and enable_hwp_mode:
- cpu_usage = float(psutil.cpu_percent(interval=wait_t))
- # set full performance mode only when load is greater than this threshold (~ at least 1 core full speed)
- performance_mode = cpu_usage > 100. / (cpu_count() * 1.25)
- # check again if we are on AC, since in the meantime we might have switched to BATTERY
- if not is_on_battery():
- set_hwp('performance' if performance_mode else 'balance_performance')
- else:
- exit_event.wait(wait_t)
- def main():
- global args
- if os.geteuid() != 0:
- print('[E] No root no party. Try again with sudo.')
- sys.exit(1)
- parser = argparse.ArgumentParser()
- parser.add_argument('--debug', action='store_true', help='add some debug info and additional checks')
- parser.add_argument('--config', default='/etc/lenovo_fix.conf', help='override default config file path')
- args = parser.parse_args()
- power['source'] = 'BATTERY' if is_on_battery() else 'AC'
- config = load_config()
- platform_info = get_cpu_platform_info()
- if args.debug:
- for key, value in platform_info.items():
- print('[D] cpu platform info: {} = {}'.format(key.replace("_", " "), value))
- regs = calc_reg_values(platform_info, config)
- if not config.getboolean('GENERAL', 'Enabled'):
- return
- exit_event = Event()
- thread = Thread(target=power_thread, args=(config, regs, exit_event))
- thread.daemon = True
- thread.start()
- undervolt(config)
- # handle dbus events for applying undervolt on resume from sleep/hybernate
- def handle_sleep_callback(sleeping):
- if not sleeping:
- undervolt(config)
- def handle_ac_callback(*args):
- try:
- power['source'] = 'BATTERY' if args[1]['Online'] == 0 else 'AC'
- power['method'] = 'dbus'
- except:
- power['method'] = 'polling'
- DBusGMainLoop(set_as_default=True)
- bus = dbus.SystemBus()
- # add dbus receiver only if undervolt is enabled in config
- if any(config.getfloat('UNDERVOLT', plane) != 0 for plane in VOLTAGE_PLANES):
- bus.add_signal_receiver(handle_sleep_callback, 'PrepareForSleep', 'org.freedesktop.login1.Manager',
- 'org.freedesktop.login1')
- bus.add_signal_receiver(
- handle_ac_callback,
- signal_name="PropertiesChanged",
- dbus_interface="org.freedesktop.DBus.Properties",
- path="/org/freedesktop/UPower/devices/line_power_AC")
- try:
- loop = GLib.MainLoop()
- loop.run()
- except (KeyboardInterrupt, SystemExit):
- pass
- exit_event.set()
- loop.quit()
- thread.join(timeout=1)
- if __name__ == '__main__':
- main()
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