""" Caching mechanism for compiled functions. """ from abc import ABCMeta, abstractmethod, abstractproperty import contextlib import errno import hashlib import inspect import itertools import os import pickle import sys import tempfile import warnings from numba.misc.appdirs import AppDirs import numba from numba.core.errors import NumbaWarning from numba.core.base import BaseContext from numba.core.codegen import CodeLibrary from numba.core.compiler import CompileResult from numba.core import config, compiler from numba.core.serialize import dumps def _get_codegen(obj): """ Returns the Codegen associated with the given object. """ if isinstance(obj, BaseContext): return obj.codegen() elif isinstance(obj, CodeLibrary): return obj.codegen elif isinstance(obj, CompileResult): return obj.target_context.codegen() else: raise TypeError(type(obj)) def _cache_log(msg, *args): if config.DEBUG_CACHE: msg = msg % args print(msg) class _Cache(metaclass=ABCMeta): @abstractproperty def cache_path(self): """ The base filesystem path of this cache (for example its root folder). """ @abstractmethod def load_overload(self, sig, target_context): """ Load an overload for the given signature using the target context. The saved object must be returned if successful, None if not found in the cache. """ @abstractmethod def save_overload(self, sig, data): """ Save the overload for the given signature. """ @abstractmethod def enable(self): """ Enable the cache. """ @abstractmethod def disable(self): """ Disable the cache. """ @abstractmethod def flush(self): """ Flush the cache. """ class NullCache(_Cache): @property def cache_path(self): return None def load_overload(self, sig, target_context): pass def save_overload(self, sig, cres): pass def enable(self): pass def disable(self): pass def flush(self): pass class _CacheLocator(metaclass=ABCMeta): """ A filesystem locator for caching a given function. """ def ensure_cache_path(self): path = self.get_cache_path() os.makedirs(path, exist_ok=True) # Ensure the directory is writable by trying to write a temporary file tempfile.TemporaryFile(dir=path).close() @abstractmethod def get_cache_path(self): """ Return the directory the function is cached in. """ @abstractmethod def get_source_stamp(self): """ Get a timestamp representing the source code's freshness. Can return any picklable Python object. """ @abstractmethod def get_disambiguator(self): """ Get a string disambiguator for this locator's function. It should allow disambiguating different but similarly-named functions. """ @classmethod def from_function(cls, py_func, py_file): """ Create a locator instance for the given function located in the given file. """ raise NotImplementedError @classmethod def get_suitable_cache_subpath(cls, py_file): """Given the Python file path, compute a suitable path inside the cache directory. This will reduce a file path that is too long, which can be a problem on some operating system (i.e. Windows 7). """ path = os.path.abspath(py_file) subpath = os.path.dirname(path) parentdir = os.path.split(subpath)[-1] # Use SHA1 to reduce path length. # Note: windows doesn't like long path. hashed = hashlib.sha1(subpath.encode()).hexdigest() # Retain parent directory name for easier debugging return '_'.join([parentdir, hashed]) class _SourceFileBackedLocatorMixin(object): """ A cache locator mixin for functions which are backed by a well-known Python source file. """ def get_source_stamp(self): if getattr(sys, 'frozen', False): st = os.stat(sys.executable) else: st = os.stat(self._py_file) # We use both timestamp and size as some filesystems only have second # granularity. return st.st_mtime, st.st_size def get_disambiguator(self): return str(self._lineno) @classmethod def from_function(cls, py_func, py_file): if not os.path.exists(py_file): # Perhaps a placeholder (e.g. "") return self = cls(py_func, py_file) try: self.ensure_cache_path() except OSError: # Cannot ensure the cache directory exists or is writable return return self class _UserProvidedCacheLocator(_SourceFileBackedLocatorMixin, _CacheLocator): """ A locator that always point to the user provided directory in `numba.config.CACHE_DIR` """ def __init__(self, py_func, py_file): self._py_file = py_file self._lineno = py_func.__code__.co_firstlineno cache_subpath = self.get_suitable_cache_subpath(py_file) self._cache_path = os.path.join(config.CACHE_DIR, cache_subpath) def get_cache_path(self): return self._cache_path @classmethod def from_function(cls, py_func, py_file): if not config.CACHE_DIR: return parent = super(_UserProvidedCacheLocator, cls) return parent.from_function(py_func, py_file) class _InTreeCacheLocator(_SourceFileBackedLocatorMixin, _CacheLocator): """ A locator for functions backed by a regular Python module with a writable __pycache__ directory. """ def __init__(self, py_func, py_file): self._py_file = py_file self._lineno = py_func.__code__.co_firstlineno self._cache_path = os.path.join(os.path.dirname(self._py_file), '__pycache__') def get_cache_path(self): return self._cache_path class _UserWideCacheLocator(_SourceFileBackedLocatorMixin, _CacheLocator): """ A locator for functions backed by a regular Python module or a frozen executable, cached into a user-wide cache directory. """ def __init__(self, py_func, py_file): self._py_file = py_file self._lineno = py_func.__code__.co_firstlineno appdirs = AppDirs(appname="numba", appauthor=False) cache_dir = appdirs.user_cache_dir cache_subpath = self.get_suitable_cache_subpath(py_file) self._cache_path = os.path.join(cache_dir, cache_subpath) def get_cache_path(self): return self._cache_path @classmethod def from_function(cls, py_func, py_file): if not (os.path.exists(py_file) or getattr(sys, 'frozen', False)): # Perhaps a placeholder (e.g. "") # stop function exit if frozen, since it uses a temp placeholder return self = cls(py_func, py_file) try: self.ensure_cache_path() except OSError: # Cannot ensure the cache directory exists or is writable return return self class _IPythonCacheLocator(_CacheLocator): """ A locator for functions entered at the IPython prompt (notebook or other). """ def __init__(self, py_func, py_file): self._py_file = py_file # Note IPython enhances the linecache module to be able to # inspect source code of functions defined on the interactive prompt. source = inspect.getsource(py_func) if isinstance(source, bytes): self._bytes_source = source else: self._bytes_source = source.encode('utf-8') def get_cache_path(self): # We could also use jupyter_core.paths.jupyter_runtime_dir() # In both cases this is a user-wide directory, so we need to # be careful when disambiguating if we don't want too many # conflicts (see below). try: from IPython.paths import get_ipython_cache_dir except ImportError: # older IPython version from IPython.utils.path import get_ipython_cache_dir return os.path.join(get_ipython_cache_dir(), 'numba_cache') def get_source_stamp(self): return hashlib.sha256(self._bytes_source).hexdigest() def get_disambiguator(self): # Heuristic: we don't want too many variants being saved, but # we don't want similar named functions (e.g. "f") to compete # for the cache, so we hash the first two lines of the function # source (usually this will be the @jit decorator + the function # signature). firstlines = b''.join(self._bytes_source.splitlines(True)[:2]) return hashlib.sha256(firstlines).hexdigest()[:10] @classmethod def from_function(cls, py_func, py_file): if not ( py_file.startswith("' can appear in the qualname (e.g. '') but # are forbidden in Windows filenames fixed_fullname = fullname.replace('<', '').replace('>', '') fmt = '%s-%s.py%d%d%s' return fmt % (fixed_fullname, self.locator.get_disambiguator(), sys.version_info[0], sys.version_info[1], abiflags) @property def filename_base(self): return self._filename_base @property def locator(self): return self._locator @abstractmethod def reduce(self, data): "Returns the serialized form the data" pass @abstractmethod def rebuild(self, target_context, reduced_data): "Returns the de-serialized form of the *reduced_data*" pass @abstractmethod def check_cachable(self, data): "Returns True if the given data is cachable; otherwise, returns False." pass class CompileResultCacheImpl(_CacheImpl): """ Implements the logic to cache CompileResult objects. """ def reduce(self, cres): """ Returns a serialized CompileResult """ return cres._reduce() def rebuild(self, target_context, payload): """ Returns the unserialized CompileResult """ return compiler.CompileResult._rebuild(target_context, *payload) def check_cachable(self, cres): """ Check cachability of the given compile result. """ cannot_cache = None if any(not x.can_cache for x in cres.lifted): cannot_cache = "as it uses lifted code" elif cres.library.has_dynamic_globals: cannot_cache = ("as it uses dynamic globals " "(such as ctypes pointers and large global arrays)") if cannot_cache: msg = ('Cannot cache compiled function "%s" %s' % (cres.fndesc.qualname.split('.')[-1], cannot_cache)) warnings.warn_explicit(msg, NumbaWarning, self._locator._py_file, self._lineno) return False return True class CodeLibraryCacheImpl(_CacheImpl): """ Implements the logic to cache CodeLibrary objects. """ _filename_prefix = None # must be overridden def reduce(self, codelib): """ Returns a serialized CodeLibrary """ return codelib.serialize_using_object_code() def rebuild(self, target_context, payload): """ Returns the unserialized CodeLibrary """ return target_context.codegen().unserialize_library(payload) def check_cachable(self, codelib): """ Check cachability of the given CodeLibrary. """ return not codelib.has_dynamic_globals def get_filename_base(self, fullname, abiflags): parent = super(CodeLibraryCacheImpl, self) res = parent.get_filename_base(fullname, abiflags) return '-'.join([self._filename_prefix, res]) class IndexDataCacheFile(object): """ Implements the logic for the index file and data file used by a cache. """ def __init__(self, cache_path, filename_base, source_stamp): self._cache_path = cache_path self._index_name = '%s.nbi' % (filename_base,) self._index_path = os.path.join(self._cache_path, self._index_name) self._data_name_pattern = '%s.{number:d}.nbc' % (filename_base,) self._source_stamp = source_stamp self._version = numba.__version__ def flush(self): self._save_index({}) def save(self, key, data): """ Save a new cache entry with *key* and *data*. """ overloads = self._load_index() try: # If key already exists, we will overwrite the file data_name = overloads[key] except KeyError: # Find an available name for the data file existing = set(overloads.values()) for i in itertools.count(1): data_name = self._data_name(i) if data_name not in existing: break overloads[key] = data_name self._save_index(overloads) self._save_data(data_name, data) def load(self, key): """ Load a cache entry with *key*. """ overloads = self._load_index() data_name = overloads.get(key) if data_name is None: return try: return self._load_data(data_name) except OSError: # File could have been removed while the index still refers it. return def _load_index(self): """ Load the cache index and return it as a dictionary (possibly empty if cache is empty or obsolete). """ try: with open(self._index_path, "rb") as f: version = pickle.load(f) data = f.read() except FileNotFoundError: # Index doesn't exist yet? return {} if version != self._version: # This is another version. Avoid trying to unpickling the # rest of the stream, as that may fail. return {} stamp, overloads = pickle.loads(data) _cache_log("[cache] index loaded from %r", self._index_path) if stamp != self._source_stamp: # Cache is not fresh. Stale data files will be eventually # overwritten, since they are numbered in incrementing order. return {} else: return overloads def _save_index(self, overloads): data = self._source_stamp, overloads data = self._dump(data) with self._open_for_write(self._index_path) as f: pickle.dump(self._version, f, protocol=-1) f.write(data) _cache_log("[cache] index saved to %r", self._index_path) def _load_data(self, name): path = self._data_path(name) with open(path, "rb") as f: data = f.read() tup = pickle.loads(data) _cache_log("[cache] data loaded from %r", path) return tup def _save_data(self, name, data): data = self._dump(data) path = self._data_path(name) with self._open_for_write(path) as f: f.write(data) _cache_log("[cache] data saved to %r", path) def _data_name(self, number): return self._data_name_pattern.format(number=number) def _data_path(self, name): return os.path.join(self._cache_path, name) def _dump(self, obj): return pickle.dumps(obj, protocol=-1) @contextlib.contextmanager def _open_for_write(self, filepath): """ Open *filepath* for writing in a race condition-free way (hopefully). """ tmpname = '%s.tmp.%d' % (filepath, os.getpid()) try: with open(tmpname, "wb") as f: yield f os.replace(tmpname, filepath) except Exception: # In case of error, remove dangling tmp file try: os.unlink(tmpname) except OSError: pass raise class Cache(_Cache): """ A per-function compilation cache. The cache saves data in separate data files and maintains information in an index file. There is one index file per function and Python version ("function_name-.pyXY.nbi") which contains a mapping of signatures and architectures to data files. It is prefixed by a versioning key and a timestamp of the Python source file containing the function. There is one data file ("function_name-.pyXY..nbc") per function, function signature, target architecture and Python version. Separate index and data files per Python version avoid pickle compatibility problems. Note: This contains the driver logic only. The core logic is provided by a subclass of ``_CacheImpl`` specified as *_impl_class* in the subclass. """ # The following class variables must be overridden by subclass. _impl_class = None def __init__(self, py_func): self._name = repr(py_func) self._py_func = py_func self._impl = self._impl_class(py_func) self._cache_path = self._impl.locator.get_cache_path() # This may be a bit strict but avoids us maintaining a magic number source_stamp = self._impl.locator.get_source_stamp() filename_base = self._impl.filename_base self._cache_file = IndexDataCacheFile(cache_path=self._cache_path, filename_base=filename_base, source_stamp=source_stamp) self.enable() def __repr__(self): return "<%s py_func=%r>" % (self.__class__.__name__, self._name) @property def cache_path(self): return self._cache_path def enable(self): self._enabled = True def disable(self): self._enabled = False def flush(self): self._cache_file.flush() def load_overload(self, sig, target_context): """ Load and recreate the cached object for the given signature, using the *target_context*. """ # Refresh the context to ensure it is initialized target_context.refresh() with self._guard_against_spurious_io_errors(): return self._load_overload(sig, target_context) # None returned if the `with` block swallows an exception def _load_overload(self, sig, target_context): if not self._enabled: return key = self._index_key(sig, _get_codegen(target_context)) data = self._cache_file.load(key) if data is not None: data = self._impl.rebuild(target_context, data) return data def save_overload(self, sig, data): """ Save the data for the given signature in the cache. """ with self._guard_against_spurious_io_errors(): self._save_overload(sig, data) def _save_overload(self, sig, data): if not self._enabled: return if not self._impl.check_cachable(data): return self._impl.locator.ensure_cache_path() key = self._index_key(sig, _get_codegen(data)) data = self._impl.reduce(data) self._cache_file.save(key, data) @contextlib.contextmanager def _guard_against_spurious_io_errors(self): if os.name == 'nt': # Guard against permission errors due to accessing the file # from several processes (see #2028) try: yield except OSError as e: if e.errno != errno.EACCES: raise else: # No such conditions under non-Windows OSes yield def _index_key(self, sig, codegen): """ Compute index key for the given signature and codegen. It includes a description of the OS, target architecture and hashes of the bytecode for the function and, if the function has a __closure__, a hash of the cell_contents. """ codebytes = self._py_func.__code__.co_code if self._py_func.__closure__ is not None: cvars = tuple([x.cell_contents for x in self._py_func.__closure__]) cvarbytes = dumps(cvars) else: cvarbytes = b'' hasher = lambda x: hashlib.sha256(x).hexdigest() return (sig, codegen.magic_tuple(), (hasher(codebytes), hasher(cvarbytes),)) class FunctionCache(Cache): """ Implements Cache that saves and loads CompileResult objects. """ _impl_class = CompileResultCacheImpl # Remember used cache filename prefixes. _lib_cache_prefixes = set(['']) def make_library_cache(prefix): """ Create a Cache class for additional compilation features to cache their result for reuse. The cache is saved in filename pattern like in ``FunctionCache`` but with additional *prefix* as specified. """ # avoid cache prefix reuse assert prefix not in _lib_cache_prefixes _lib_cache_prefixes.add(prefix) class CustomCodeLibraryCacheImpl(CodeLibraryCacheImpl): _filename_prefix = prefix class LibraryCache(Cache): """ Implements Cache that saves and loads CodeLibrary objects for additional feature for the specified python function. """ _impl_class = CustomCodeLibraryCacheImpl return LibraryCache