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automatic/modules/rocm.py

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import os
import sys
import ctypes
import shutil
import subprocess
from typing import Union, List
from enum import Enum
from functools import wraps
def resolve_link(path_: str) -> str:
if not os.path.islink(path_):
return path_
return resolve_link(os.readlink(path_))
def dirname(path_: str, r: int = 1) -> str:
for _ in range(0, r):
path_ = os.path.dirname(path_)
return path_
def spawn(command: str, cwd: os.PathLike = '.') -> str:
process = subprocess.run(command, cwd=cwd, shell=True, check=False, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
return process.stdout.decode(encoding="utf8", errors="ignore")
def load_library_global(path_: str):
ctypes.CDLL(path_, mode=ctypes.RTLD_GLOBAL)
class Environment:
pass
# rocm is installed system-wide
class ROCmEnvironment(Environment):
path: str
def __init__(self, path: str):
self.path = path
# rocm-sdk package is installed
class PythonPackageEnvironment(Environment):
hip: ctypes.CDLL
def __init__(self):
import _rocm_sdk_core
if sys.platform == "win32":
path = os.path.join(_rocm_sdk_core.__path__[0], "bin", "amdhip64_7.dll")
else:
raise NotImplementedError
# This library will be loaded/used by PyTorch. So it won't make conflicts.
self.hip = ctypes.CDLL(path)
class MicroArchitecture(Enum):
GCN = "gcn"
RDNA = "rdna"
CDNA = "cdna"
class Agent:
name: str
gfx_version: int
arch: MicroArchitecture
is_apu: bool
blaslt_supported: bool
@staticmethod
def parse_gfx_version(name: str) -> int:
result = 0
for i in range(3, len(name)):
if name[i].isdigit():
result *= 0x10
result += ord(name[i]) - 48
continue
if name[i] in "abcdef":
result *= 0x10
result += ord(name[i]) - 87
continue
break
return result
def __init__(self, name: str):
self.name = name
self.gfx_version = Agent.parse_gfx_version(name)
if self.gfx_version > 0x1000:
self.arch = MicroArchitecture.RDNA
elif self.gfx_version in (0x908, 0x90a, 0x942,):
self.arch = MicroArchitecture.CDNA
else:
self.arch = MicroArchitecture.GCN
self.is_apu = (self.gfx_version & 0xFFF0 == 0x1150) or self.gfx_version in (0x801, 0x902, 0x90c, 0x1013, 0x1033, 0x1035, 0x1036, 0x1103,)
self.blaslt_supported = os.path.exists(os.path.join(blaslt_tensile_libpath, f"Kernels.so-000-{name}.hsaco" if sys.platform == "win32" else f"extop_{name}.co"))
@property
def therock(self) -> Union[str, None]:
if (self.gfx_version & 0xFFF0) == 0x1200:
return "gfx120X-all"
if (self.gfx_version & 0xFFF0) == 0x1100:
return "gfx110X-all"
if self.gfx_version == 0x1150:
return "gfx1150"
if self.gfx_version == 0x1151:
return "gfx1151"
#if (self.gfx_version & 0xFFF0) == 0x1030:
# return "gfx103X-dgpu"
#if (self.gfx_version & 0xFFF0) == 0x1010:
# return "gfx101X-dgpu"
#if (self.gfx_version & 0xFFF0) == 0x900:
# return "gfx90X-dcgpu"
#if (self.gfx_version & 0xFFF0) == 0x940:
# return "gfx94X-dcgpu"
#if self.gfx_version == 0x950:
# return "gfx950-dcgpu"
return None
def get_gfx_version(self) -> Union[str, None]:
if self.gfx_version >= 0x1100 and self.gfx_version < 0x1200:
return "11.0.0"
elif self.gfx_version != 0x1030 and self.gfx_version >= 0x1000 and self.gfx_version < 0x1100:
# gfx1010 users had to override gfx version to 10.3.0 in Linux
# it is unknown whether overriding is needed in ZLUDA
return "10.3.0"
return None
def find() -> Union[Environment, None]:
try: # TheRock
import _rocm_sdk_core # pylint: disable=unused-import
return PythonPackageEnvironment()
except ImportError:
pass
# system-wide installation
hip_path = shutil.which("hipconfig")
if hip_path is not None:
return ROCmEnvironment(dirname(resolve_link(hip_path), 2))
if sys.platform == "win32":
hip_path = os.environ.get("HIP_PATH", None)
if hip_path is not None:
return ROCmEnvironment(hip_path)
program_files = os.environ.get('ProgramFiles', r'C:\Program Files')
hip_path = rf'{program_files}\AMD\ROCm'
if not os.path.exists(hip_path):
return None
class Version:
major: int
minor: int
def __init__(self, string: str):
self.major, self.minor = [int(v) for v in string.strip().split(".")]
def __gt__(self, other):
return self.major * 10 + other.minor > other.major * 10 + other.minor
def __str__(self):
return f"{self.major}.{self.minor}"
latest = None
versions = os.listdir(hip_path)
for s in versions:
item = None
try:
item = Version(s)
except Exception:
continue
if latest is None:
latest = item
continue
if item > latest:
latest = item
if latest is None:
return None
return ROCmEnvironment(os.path.join(hip_path, str(latest)))
else:
if not os.path.exists("/opt/rocm"):
return None
return ROCmEnvironment(resolve_link("/opt/rocm"))
def get_version() -> str:
if isinstance(environment, ROCmEnvironment):
# We don't load the hip library that will not be used by PyTorch.
if sys.platform == "win32":
# ROCm is system-wide installed. Assume the version is the folder name. (e.g. C:\Program Files\AMD\ROCm\6.4)
# hipconfig requires Perl
return os.path.basename(environment.path) or os.path.basename(os.path.dirname(environment.path))
else:
arr = spawn("hipconfig --version", cwd=os.path.join(environment.path, 'bin')).split(".")
return f'{arr[0]}.{arr[1]}' if len(arr) >= 2 else None
else:
# If rocm-sdk package is installed, the hip library may be used by PyTorch.
ver = ctypes.c_int()
environment.hip.hipRuntimeGetVersion(ctypes.byref(ver))
major = ver.value // 10000000
minor = (ver.value // 100000) % 100
#patch = version.value % 100000
return f"{major}.{minor}"
def get_flash_attention_command(agent: Agent) -> str:
default = "git+https://github.com/ROCm/flash-attention"
if agent.gfx_version >= 0x1100 and agent.gfx_version < 0x1200 and os.environ.get("FLASH_ATTENTION_USE_TRITON_ROCM", "false").lower() != "true":
# use the navi_rotary_fix fork because the original doesn't support rotary_emb for transformers
# original: "git+https://github.com/ROCm/flash-attention@howiejay/navi_support"
default = "git+https://github.com/Disty0/flash-attention@navi_rotary_fix"
return "--no-build-isolation " + os.environ.get("FLASH_ATTENTION_PACKAGE", default)
def refresh():
global environment, blaslt_tensile_libpath, is_installed, version # pylint: disable=global-statement
if sys.platform == "win32":
global agents # pylint: disable=global-statement
try:
agents = driver_get_agents()
except Exception:
agents = []
environment = find()
if environment is not None:
if isinstance(environment, ROCmEnvironment):
blaslt_tensile_libpath = os.environ.get("HIPBLASLT_TENSILE_LIBPATH", os.path.join(environment.path, "bin" if sys.platform == "win32" else "lib", "hipblaslt", "library"))
is_installed = True
version = get_version()
if sys.platform == "win32":
def get_agents() -> List[Agent]:
return agents
#if isinstance(environment, ROCmEnvironment):
# out = spawn("amdgpu-arch", cwd=os.path.join(environment.path, 'bin'))
#else:
# # Assume that amdgpu-arch is in PATH (venv/Scripts/amdgpu-arch.exe)
# out = spawn("amdgpu-arch")
#out = out.strip()
#if out == "":
# return []
#return [Agent(x.split(' ')[-1].strip()) for x in out.split("\n")]
def driver_get_agents() -> List[Agent]:
# unsafe and experimental feature
from modules import windows_hip_ffi
archs = windows_hip_ffi.get_archs()
# filter out None (is there any better way?)
return [Agent(x) for x in archs if x is not None]
def postinstall():
import torch
if torch.version.hip is None:
os.environ.pop("ROCM_HOME", None)
os.environ.pop("ROCM_PATH", None)
paths = os.environ["PATH"].split(";")
paths_no_rocm = []
for path_ in paths:
if "rocm" not in path_.lower():
paths_no_rocm.append(path_)
os.environ["PATH"] = ";".join(paths_no_rocm)
return
build_targets = torch.cuda.get_arch_list()
for available in agents:
if available.name in build_targets:
return
# use cpu instead of crashing
torch.cuda.is_available = lambda: False
def rocm_init():
try:
import torch
import numpy as np
from modules.devices import get_optimal_device
gfx_version = Agent.parse_gfx_version(getattr(torch.cuda.get_device_properties(get_optimal_device()), "gcnArchName", "gfx0000"))
if (gfx_version & 0xFFF0) == 0x1200:
# disable MIOpen for gfx120x
torch.backends.cudnn.enabled = False
original_cholesky_ex = torch.linalg.cholesky_ex
@wraps(original_cholesky_ex)
def cholesky_ex(A: torch.Tensor, upper=False, check_errors=False, out=None) -> torch.return_types.linalg_cholesky_ex:
assert not check_errors
return_device = A.device
L = torch.from_numpy(np.linalg.cholesky(A.to("cpu").numpy(), upper=upper)).to(return_device)
info = torch.tensor(0, dtype=torch.int32, device=return_device)
if out is not None:
out[0].copy_(L)
out[1].copy_(info)
return torch.return_types.linalg_cholesky_ex((L, info), {})
torch.linalg.cholesky_ex = cholesky_ex
original_cholesky = torch.linalg.cholesky
@wraps(original_cholesky)
def cholesky(A: torch.Tensor, upper=False, out=None) -> torch.Tensor:
return_device = A.device
L = torch.from_numpy(np.linalg.cholesky(A.to("cpu").numpy(), upper=upper)).to(return_device)
if out is not None:
out.copy_(L)
return L
torch.linalg.cholesky = cholesky
except Exception as e:
return False, e
return True, None
is_wsl: bool = False
agents: List[Agent] = [] # temp
else: # sys.platform != "win32"
def get_agents() -> List[Agent]:
try:
_agents = spawn("rocm_agent_enumerator").split("\n")
_agents = [x for x in _agents if x and x != 'gfx000']
except Exception: # old version of ROCm WSL doesn't have rocm_agent_enumerator
_agents = spawn("rocminfo").split("\n")
_agents = [x.strip().split(" ")[-1] for x in _agents if x.startswith(' Name:') and "CPU" not in x]
return [Agent(x) for x in _agents]
def postinstall():
if is_wsl:
try:
if shutil.which("conda") is not None:
# Preload stdc++ library. This will bypass Anaconda stdc++ library.
load_library_global("/lib/x86_64-linux-gnu/libstdc++.so.6")
# Preload rocr4wsl. The user don't have to replace the library file.
load_library_global("/opt/rocm/lib/libhsa-runtime64.so")
except OSError:
pass
def rocm_init():
return True, None
is_wsl: bool = os.environ.get('WSL_DISTRO_NAME', 'unknown' if spawn('wslpath -w /') else None) is not None
environment = None
blaslt_tensile_libpath = ""
is_installed = False
version = None
refresh()
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