# -*- coding: utf-8 -*-
"""
This python module implements Cuda context handling
Copyright (C) 2018 SINTEF ICT
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
"""
import os
import numpy as np
import time
import re
import io
import hashlib
import logging
import gc
import pycuda.compiler as cuda_compiler
import pycuda.gpuarray
import pycuda.driver as cuda
from GPUSimulators import Autotuner, Common
"""
Class which keeps track of the CUDA context and some helper functions
"""
class CudaContext(object):
def __init__(self, blocking=False, use_cache=True, autotuning=True):
self.blocking = blocking
self.use_cache = use_cache
self.logger = logging.getLogger(__name__)
self.kernels = {}
self.module_path = os.path.dirname(os.path.realpath(__file__))
#Initialize cuda (must be first call to PyCUDA)
cuda.init(flags=0)
self.logger.info("PyCUDA version %s", str(pycuda.VERSION_TEXT))
#Print some info about CUDA
self.logger.info("CUDA version %s", str(cuda.get_version()))
self.logger.info("Driver version %s", str(cuda.get_driver_version()))
self.cuda_device = cuda.Device(0)
self.logger.info("Using '%s' GPU", self.cuda_device.name())
self.logger.debug(" => compute capability: %s", str(self.cuda_device.compute_capability()))
# Create the CUDA context
if (self.blocking):
self.cuda_context = self.cuda_device.make_context(flags=cuda.ctx_flags.SCHED_BLOCKING_SYNC)
self.logger.warning("Using blocking context")
else:
self.cuda_context = self.cuda_device.make_context(flags=cuda.ctx_flags.SCHED_AUTO)
free, total = cuda.mem_get_info()
self.logger.debug(" => memory: %d / %d MB available", int(free/(1024*1024)), int(total/(1024*1024)))
self.logger.info("Created context handle <%s>", str(self.cuda_context.handle))
#Create cache dir for cubin files
self.cache_path = os.path.join(self.module_path, "cuda_cache")
if (self.use_cache):
if not os.path.isdir(self.cache_path):
os.mkdir(self.cache_path)
self.logger.info("Using CUDA cache dir %s", self.cache_path)
self.autotuner = None
if (autotuning):
self.logger.info("Autotuning enabled. It may take several minutes to run the code the first time: have patience")
self.autotuner = Autotuner.Autotuner()
def __del__(self, *args):
self.logger.info("Cleaning up CUDA context handle <%s>", str(self.cuda_context.handle))
# Loop over all contexts in stack, and remove "this"
other_contexts = []
while (cuda.Context.get_current() != None):
context = cuda.Context.get_current()
if (context.handle != self.cuda_context.handle):
self.logger.debug("<%s> Popping <%s> (*not* ours)", str(self.cuda_context.handle), str(context.handle))
other_contexts = [context] + other_contexts
cuda.Context.pop()
else:
self.logger.debug("<%s> Popping <%s> (ours)", str(self.cuda_context.handle), str(context.handle))
cuda.Context.pop()
# Add all the contexts we popped that were not our own
for context in other_contexts:
self.logger.debug("<%s> Pushing <%s>", str(self.cuda_context.handle), str(context.handle))
cuda.Context.push(context)
self.logger.debug("<%s> Detaching", str(self.cuda_context.handle))
self.cuda_context.detach()
def __str__(self):
return "CudaContext id " + str(self.cuda_context.handle)
def hash_kernel(kernel_filename, include_dirs):
# Generate a kernel ID for our caches
num_includes = 0
max_includes = 100
kernel_hasher = hashlib.md5()
logger = logging.getLogger(__name__)
# Loop over file and includes, and check if something has changed
files = [kernel_filename]
while len(files):
if (num_includes > max_includes):
raise("Maximum number of includes reached - circular include in {:}?".format(kernel_filename))
filename = files.pop()
#logger.debug("Hashing %s", filename)
modified = os.path.getmtime(filename)
# Open the file
with io.open(filename, "r") as file:
# Search for #inclue and also hash the file
file_str = file.read()
kernel_hasher.update(file_str.encode('utf-8'))
kernel_hasher.update(str(modified).encode('utf-8'))
#Find all includes
includes = re.findall('^\W*#include\W+(.+?)\W*$', file_str, re.M)
# Loop over everything that looks like an include
for include_file in includes:
#Search through include directories for the file
file_path = os.path.dirname(filename)
for include_path in [file_path] + include_dirs:
# If we find it, add it to list of files to check
temp_path = os.path.join(include_path, include_file)
if (os.path.isfile(temp_path)):
files = files + [temp_path]
num_includes = num_includes + 1 #For circular includes...
break
return kernel_hasher.hexdigest()
"""
Reads a text file and creates an OpenCL kernel from that
"""
def get_prepared_kernel(self, kernel_filename, kernel_function_name, \
prepared_call_args, \
include_dirs=[], \
defines={}, \
compile_args={'no_extern_c', True}, jit_compile_args={}):
"""
Helper function to print compilation output
"""
def cuda_compile_message_handler(compile_success_bool, info_str, error_str):
self.logger.debug("Compilation returned %s", str(compile_success_bool))
if info_str:
self.logger.debug("Info: %s", info_str)
if error_str:
self.logger.debug("Error: %s", error_str)
kernel_filename = os.path.normpath(kernel_filename)
kernel_path = os.path.abspath(os.path.join(self.module_path, kernel_filename))
#self.logger.debug("Getting %s", kernel_filename)
# Create a hash of the kernel options
options_hasher = hashlib.md5()
options_hasher.update(str(defines).encode('utf-8') + str(compile_args).encode('utf-8'));
options_hash = options_hasher.hexdigest()
# Create hash of kernel souce
source_hash = CudaContext.hash_kernel( \
kernel_path, \
include_dirs=[self.module_path] + include_dirs)
# Create final hash
root, ext = os.path.splitext(kernel_filename)
kernel_hash = root \
+ "_" + source_hash \
+ "_" + options_hash \
+ ext
cached_kernel_filename = os.path.join(self.cache_path, kernel_hash)
# If we have the kernel in our hashmap, return it
if (kernel_hash in self.kernels.keys()):
self.logger.debug("Found kernel %s cached in hashmap (%s)", kernel_filename, kernel_hash)
return self.kernels[kernel_hash]
# If we have it on disk, return it
elif (self.use_cache and os.path.isfile(cached_kernel_filename)):
self.logger.debug("Found kernel %s cached on disk (%s)", kernel_filename, kernel_hash)
with io.open(cached_kernel_filename, "rb") as file:
file_str = file.read()
module = cuda.module_from_buffer(file_str, message_handler=cuda_compile_message_handler, **jit_compile_args)
kernel = module.get_function(kernel_function_name)
kernel.prepare(prepared_call_args)
self.kernels[kernel_hash] = kernel
return kernel
# Otherwise, compile it from source
else:
self.logger.debug("Compiling %s (%s)", kernel_filename, kernel_hash)
#Create kernel string
kernel_string = ""
for key, value in defines.items():
kernel_string += "#define {:s} {:s}\n".format(str(key), str(value))
kernel_string += '#include "{:s}"'.format(os.path.join(self.module_path, kernel_filename))
if (self.use_cache):
cached_kernel_dir = os.path.dirname(cached_kernel_filename)
if not os.path.isdir(cached_kernel_dir):
os.mkdir(cached_kernel_dir)
with io.open(cached_kernel_filename + ".txt", "w") as file:
file.write(kernel_string)
with Common.Timer("compiler") as timer:
import warnings
with warnings.catch_warnings():
warnings.filterwarnings("ignore", message="The CUDA compiler succeeded, but said the following:\nkernel.cu", category=UserWarning)
cubin = cuda_compiler.compile(kernel_string, include_dirs=include_dirs, cache_dir=False, **compile_args)
module = cuda.module_from_buffer(cubin, message_handler=cuda_compile_message_handler, **jit_compile_args)
if (self.use_cache):
with io.open(cached_kernel_filename, "wb") as file:
file.write(cubin)
kernel = module.get_function(kernel_function_name)
kernel.prepare(prepared_call_args)
self.kernels[kernel_hash] = kernel
return kernel
"""
Clears the kernel cache (useful for debugging & development)
"""
def clear_kernel_cache(self):
self.logger.debug("Clearing cache")
self.kernels = {}
gc.collect()
"""
Synchronizes all streams etc
"""
def synchronize(self):
self.cuda_context.synchronize()