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unslothai--unsloth/studio/backend/utils/hardware/apple.py
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chore: import upstream snapshot with attribution
2026-07-13 12:59:56 +08:00

433 lines
15 KiB
Python

# SPDX-License-Identifier: AGPL-3.0-only
# Copyright 2026-present the Unsloth AI Inc. team. All rights reserved. See /studio/LICENSE.AGPL-3.0
"""Apple Silicon GPU temperature and power -- no sudo required.
Mirrors macmon's approach (https://github.com/vladkens/macmon):
* Temperature: average of the AppleSMC "Tg*" float keys (available since
macOS 14; on older systems the keys are absent and this returns None).
* Power: IOReport "Energy Model" group, "GPU Energy" channel. Each poll
diffs the energy counter against the previous poll's sample, so the
result is the average wattage over the polling window. The first poll
only sets the baseline and returns None.
Public API (never raises; returns None when sensors are unavailable):
read_gpu_temperature_c()
read_gpu_power_w()
"""
import ctypes
import struct
import time
from typing import Iterable, Optional
from loggers import get_logger
logger = get_logger(__name__)
_IOKIT_PATH = "/System/Library/Frameworks/IOKit.framework/IOKit"
_CF_PATH = "/System/Library/Frameworks/CoreFoundation.framework/CoreFoundation"
_IOREPORT_PATH = "/usr/lib/libIOReport.dylib"
# AppleSMC user-client protocol (same constants as macmon / SMCKit).
_SMC_SELECTOR_HANDLE_EVENT = 2
_SMC_CMD_READ_BYTES = 5
_SMC_CMD_KEY_AT_INDEX = 8
_SMC_CMD_KEY_INFO = 9
_MAX_VALID_TEMP_C = 150.0
_CF_STRING_ENCODING_UTF8 = 0x08000100
_ENERGY_UNIT_DIVISORS = {"mJ": 1e3, "uJ": 1e6, "nJ": 1e9}
# ========== Pure helpers ==========
def _fourcc(key: str) -> int:
"""Encode a 4-char SMC key/type name as a big-endian integer."""
return int.from_bytes(key.encode("ascii"), "big")
def _fourcc_str(value: int) -> str:
return value.to_bytes(4, "big").decode("ascii", errors = "replace")
def _watts(energy: int, unit: str, elapsed_s: float) -> Optional[float]:
"""Convert an IOReport energy counter delta into average watts."""
divisor = _ENERGY_UNIT_DIVISORS.get(unit.strip())
if divisor is None or elapsed_s <= 0:
return None
return energy / divisor / elapsed_s
def _average_valid_temps(values: Iterable[float]) -> Optional[float]:
valid = [v for v in values if 0.0 < v <= _MAX_VALID_TEMP_C]
if not valid:
return None
return round(sum(valid) / len(valid), 1)
def _is_gpu_energy_channel(name: str) -> bool:
# Exact "GPU Energy" plus "DIE_N_GPU Energy" on Ultra chips; the separate
# "GPU SRAM*" channels are not GPU core power.
return name.endswith("GPU Energy") and "SRAM" not in name
# ========== AppleSMC structs (layout must match the kernel exactly) ==========
class _SMCKeyDataVers(ctypes.Structure):
_fields_ = [
("major", ctypes.c_uint8),
("minor", ctypes.c_uint8),
("build", ctypes.c_uint8),
("reserved", ctypes.c_uint8),
("release", ctypes.c_uint16),
]
class _SMCPLimitData(ctypes.Structure):
_fields_ = [
("version", ctypes.c_uint16),
("length", ctypes.c_uint16),
("cpu_p_limit", ctypes.c_uint32),
("gpu_p_limit", ctypes.c_uint32),
("mem_p_limit", ctypes.c_uint32),
]
class _SMCKeyInfo(ctypes.Structure):
_fields_ = [
("data_size", ctypes.c_uint32),
("data_type", ctypes.c_uint32),
("data_attributes", ctypes.c_uint8),
]
class _SMCKeyData(ctypes.Structure):
_fields_ = [
("key", ctypes.c_uint32),
("vers", _SMCKeyDataVers),
("p_limit_data", _SMCPLimitData),
("key_info", _SMCKeyInfo),
("result", ctypes.c_uint8),
("status", ctypes.c_uint8),
("data8", ctypes.c_uint8),
("data32", ctypes.c_uint32),
("bytes", ctypes.c_uint8 * 32),
]
# ========== Library loaders ==========
def _load_iokit() -> ctypes.CDLL:
iokit = ctypes.CDLL(_IOKIT_PATH)
iokit.IOServiceMatching.restype = ctypes.c_void_p
iokit.IOServiceMatching.argtypes = [ctypes.c_char_p]
iokit.IOServiceGetMatchingServices.argtypes = [
ctypes.c_uint32,
ctypes.c_void_p,
ctypes.POINTER(ctypes.c_uint32),
]
iokit.IOIteratorNext.restype = ctypes.c_uint32
iokit.IOIteratorNext.argtypes = [ctypes.c_uint32]
iokit.IORegistryEntryGetName.argtypes = [ctypes.c_uint32, ctypes.c_char_p]
iokit.IOServiceOpen.argtypes = [
ctypes.c_uint32,
ctypes.c_uint32,
ctypes.c_uint32,
ctypes.POINTER(ctypes.c_uint32),
]
iokit.IOObjectRelease.argtypes = [ctypes.c_uint32]
iokit.IOConnectCallStructMethod.argtypes = [
ctypes.c_uint32,
ctypes.c_uint32,
ctypes.c_void_p,
ctypes.c_size_t,
ctypes.c_void_p,
ctypes.POINTER(ctypes.c_size_t),
]
return iokit
def _load_cf() -> ctypes.CDLL:
cf = ctypes.CDLL(_CF_PATH)
cf.CFStringCreateWithCString.restype = ctypes.c_void_p
cf.CFStringCreateWithCString.argtypes = [ctypes.c_void_p, ctypes.c_char_p, ctypes.c_uint32]
cf.CFStringGetCString.restype = ctypes.c_bool
cf.CFStringGetCString.argtypes = [
ctypes.c_void_p,
ctypes.c_char_p,
ctypes.c_long,
ctypes.c_uint32,
]
cf.CFRelease.argtypes = [ctypes.c_void_p]
cf.CFDictionaryGetValue.restype = ctypes.c_void_p
cf.CFDictionaryGetValue.argtypes = [ctypes.c_void_p, ctypes.c_void_p]
cf.CFArrayGetCount.restype = ctypes.c_long
cf.CFArrayGetCount.argtypes = [ctypes.c_void_p]
cf.CFArrayGetValueAtIndex.restype = ctypes.c_void_p
cf.CFArrayGetValueAtIndex.argtypes = [ctypes.c_void_p, ctypes.c_long]
return cf
def _load_ioreport() -> ctypes.CDLL:
ior = ctypes.CDLL(_IOREPORT_PATH)
ior.IOReportCopyChannelsInGroup.restype = ctypes.c_void_p
ior.IOReportCopyChannelsInGroup.argtypes = [
ctypes.c_void_p,
ctypes.c_void_p,
ctypes.c_uint64,
ctypes.c_uint64,
ctypes.c_uint64,
]
ior.IOReportCreateSubscription.restype = ctypes.c_void_p
ior.IOReportCreateSubscription.argtypes = [
ctypes.c_void_p,
ctypes.c_void_p,
ctypes.POINTER(ctypes.c_void_p),
ctypes.c_uint64,
ctypes.c_void_p,
]
ior.IOReportCreateSamples.restype = ctypes.c_void_p
ior.IOReportCreateSamples.argtypes = [ctypes.c_void_p, ctypes.c_void_p, ctypes.c_void_p]
ior.IOReportCreateSamplesDelta.restype = ctypes.c_void_p
ior.IOReportCreateSamplesDelta.argtypes = [ctypes.c_void_p, ctypes.c_void_p, ctypes.c_void_p]
ior.IOReportChannelGetChannelName.restype = ctypes.c_void_p
ior.IOReportChannelGetChannelName.argtypes = [ctypes.c_void_p]
ior.IOReportChannelGetUnitLabel.restype = ctypes.c_void_p
ior.IOReportChannelGetUnitLabel.argtypes = [ctypes.c_void_p]
ior.IOReportSimpleGetIntegerValue.restype = ctypes.c_int64
ior.IOReportSimpleGetIntegerValue.argtypes = [ctypes.c_void_p, ctypes.c_int32]
return ior
def _cfstr(cf: ctypes.CDLL, text: str) -> int:
return cf.CFStringCreateWithCString(None, text.encode("utf-8"), _CF_STRING_ENCODING_UTF8)
def _from_cfstr(cf: ctypes.CDLL, ref: Optional[int]) -> str:
if not ref:
return ""
buf = ctypes.create_string_buffer(128)
if not cf.CFStringGetCString(ref, buf, len(buf), _CF_STRING_ENCODING_UTF8):
return ""
return buf.value.decode("utf-8", errors = "replace").strip()
# ========== SMC connection (GPU temperature) ==========
class _SMCConnection:
"""Connection to AppleSMCKeysEndpoint; discovers "Tg*" GPU temp keys once."""
def __init__(self):
self._iokit = _load_iokit()
self._conn = self._open()
self._key_info_cache: dict[int, _SMCKeyInfo] = {}
self.gpu_keys = [
key
for key in self._all_keys()
if key.startswith("Tg") and self.read_float(key) is not None
]
def _open(self) -> int:
iterator = ctypes.c_uint32(0)
matching = self._iokit.IOServiceMatching(b"AppleSMC")
if self._iokit.IOServiceGetMatchingServices(0, matching, ctypes.byref(iterator)) != 0:
raise OSError("AppleSMC service not found")
try:
conn = self._open_keys_endpoint(iterator.value)
finally:
self._iokit.IOObjectRelease(iterator.value)
if conn is None:
raise OSError("AppleSMCKeysEndpoint not found")
return conn
def _open_keys_endpoint(self, iterator: int) -> Optional[int]:
task = ctypes.CDLL(None).mach_task_self()
while device := self._iokit.IOIteratorNext(iterator):
name = ctypes.create_string_buffer(128)
self._iokit.IORegistryEntryGetName(device, name)
if name.value != b"AppleSMCKeysEndpoint":
self._iokit.IOObjectRelease(device)
continue
conn = ctypes.c_uint32(0)
status = self._iokit.IOServiceOpen(device, task, 0, ctypes.byref(conn))
self._iokit.IOObjectRelease(device)
if status != 0:
raise OSError(f"IOServiceOpen(AppleSMCKeysEndpoint) failed: {status}")
return conn.value
return None
def _call(self, ival: _SMCKeyData) -> _SMCKeyData:
oval = _SMCKeyData()
olen = ctypes.c_size_t(ctypes.sizeof(_SMCKeyData))
status = self._iokit.IOConnectCallStructMethod(
self._conn,
_SMC_SELECTOR_HANDLE_EVENT,
ctypes.byref(ival),
ctypes.sizeof(_SMCKeyData),
ctypes.byref(oval),
ctypes.byref(olen),
)
if status != 0:
raise OSError(f"IOConnectCallStructMethod failed: {status}")
if oval.result != 0:
raise OSError(f"SMC result code: {oval.result}")
return oval
def _read_key_info(self, key_id: int) -> _SMCKeyInfo:
cached = self._key_info_cache.get(key_id)
if cached is not None:
return cached
oval = self._call(_SMCKeyData(key = key_id, data8 = _SMC_CMD_KEY_INFO))
self._key_info_cache[key_id] = oval.key_info
return oval.key_info
def _read_bytes(self, key: str) -> Optional[bytes]:
try:
key_id = _fourcc(key)
info = self._read_key_info(key_id)
oval = self._call(_SMCKeyData(key = key_id, data8 = _SMC_CMD_READ_BYTES, key_info = info))
return bytes(oval.bytes[: info.data_size])
except OSError:
return None
def read_float(self, key: str) -> Optional[float]:
try:
info = self._read_key_info(_fourcc(key))
except OSError:
return None
if info.data_size != 4 or info.data_type != _fourcc("flt "):
return None
data = self._read_bytes(key)
if data is None or len(data) != 4:
return None
return struct.unpack("<f", data)[0]
def _key_name_at(self, index: int) -> Optional[str]:
try:
oval = self._call(_SMCKeyData(data8 = _SMC_CMD_KEY_AT_INDEX, data32 = index))
return oval.key.to_bytes(4, "big").decode("ascii")
except (OSError, UnicodeDecodeError):
return None
def _all_keys(self) -> list[str]:
count_bytes = self._read_bytes("#KEY")
if count_bytes is None or len(count_bytes) != 4:
return []
count = int.from_bytes(count_bytes, "big")
names = (self._key_name_at(i) for i in range(count))
return [name for name in names if name is not None]
def gpu_temperature_c(self) -> Optional[float]:
readings = (self.read_float(key) for key in self.gpu_keys)
return _average_valid_temps(value for value in readings if value is not None)
# ========== IOReport subscription (GPU power) ==========
class _IOReportEnergy:
"""Persistent subscription to the "Energy Model" group for GPU wattage."""
def __init__(self):
self._cf = _load_cf()
self._ior = _load_ioreport()
self._channels = self._ior.IOReportCopyChannelsInGroup(
_cfstr(self._cf, "Energy Model"), None, 0, 0, 0
)
if not self._channels:
raise OSError("IOReport 'Energy Model' channel group unavailable")
subscribed = ctypes.c_void_p()
self._sub = self._ior.IOReportCreateSubscription(
None, self._channels, ctypes.byref(subscribed), 0, None
)
if not self._sub:
raise OSError("IOReportCreateSubscription failed")
# Sample with the channels IOReport subscribes us to, not the requested
# group (matches macmon); fall back if the OS leaves it unset.
self._sample_channels = subscribed if subscribed else self._channels
self._channels_key = _cfstr(self._cf, "IOReportChannels")
self._prev: Optional[tuple[int, float]] = None # (sample ref, monotonic s)
def gpu_power_w(self) -> Optional[float]:
sample = self._ior.IOReportCreateSamples(self._sub, self._sample_channels, None)
if not sample:
return None
now = time.monotonic()
prev, self._prev = self._prev, (sample, now)
if prev is None:
return None
prev_sample, prev_time = prev
delta = self._ior.IOReportCreateSamplesDelta(prev_sample, sample, None)
self._cf.CFRelease(prev_sample)
if not delta:
return None
try:
return self._gpu_watts_from_delta(delta, now - prev_time)
finally:
self._cf.CFRelease(delta)
def _gpu_watts_from_delta(self, delta: int, elapsed_s: float) -> Optional[float]:
items = self._cf.CFDictionaryGetValue(delta, self._channels_key)
if not items:
return None
total: Optional[float] = None
for i in range(self._cf.CFArrayGetCount(items)):
item = self._cf.CFArrayGetValueAtIndex(items, i)
name = _from_cfstr(self._cf, self._ior.IOReportChannelGetChannelName(item))
if not _is_gpu_energy_channel(name):
continue
unit = _from_cfstr(self._cf, self._ior.IOReportChannelGetUnitLabel(item))
energy = self._ior.IOReportSimpleGetIntegerValue(item, 0)
watts = _watts(energy, unit, elapsed_s)
if watts is not None:
total = (total or 0.0) + watts
if total is None or total < 0: # negative = counter reset; show -- not a bogus draw
return None
return round(total, 1)
# ========== Public API (module singletons, failure-latched) ==========
_smc: Optional[_SMCConnection] = None
_smc_failed = False
_energy: Optional[_IOReportEnergy] = None
_energy_failed = False
def read_gpu_temperature_c() -> Optional[float]:
"""Average Apple GPU die temperature in degrees C, or None if unavailable."""
global _smc, _smc_failed
if _smc_failed:
return None
try:
if _smc is None:
_smc = _SMCConnection()
return _smc.gpu_temperature_c()
except Exception as e:
_smc_failed = True
logger.warning("Apple SMC GPU temperature unavailable: %s", e)
return None
def read_gpu_power_w() -> Optional[float]:
"""Average GPU power in watts since the previous call, or None.
The first call establishes the baseline sample and returns None.
"""
global _energy, _energy_failed
if _energy_failed:
return None
try:
if _energy is None:
_energy = _IOReportEnergy()
return _energy.gpu_power_w()
except Exception as e:
_energy_failed = True
logger.warning("Apple IOReport GPU power unavailable: %s", e)
return None