blob: 060758e0c4f99a79bd99909bdb6ed7da137a8a47 [file] [log] [blame]
#
# BitBake Cache implementation
#
# Caching of bitbake variables before task execution
# Copyright (C) 2006 Richard Purdie
# Copyright (C) 2012 Intel Corporation
# but small sections based on code from bin/bitbake:
# Copyright (C) 2003, 2004 Chris Larson
# Copyright (C) 2003, 2004 Phil Blundell
# Copyright (C) 2003 - 2005 Michael 'Mickey' Lauer
# Copyright (C) 2005 Holger Hans Peter Freyther
# Copyright (C) 2005 ROAD GmbH
#
# SPDX-License-Identifier: GPL-2.0-only
#
import os
import sys
import logging
import pickle
from collections import defaultdict
import bb.utils
logger = logging.getLogger("BitBake.Cache")
__cache_version__ = "152"
def getCacheFile(path, filename, data_hash):
return os.path.join(path, filename + "." + data_hash)
# RecipeInfoCommon defines common data retrieving methods
# from meta data for caches. CoreRecipeInfo as well as other
# Extra RecipeInfo needs to inherit this class
class RecipeInfoCommon(object):
@classmethod
def listvar(cls, var, metadata):
return cls.getvar(var, metadata).split()
@classmethod
def intvar(cls, var, metadata):
return int(cls.getvar(var, metadata) or 0)
@classmethod
def depvar(cls, var, metadata):
return bb.utils.explode_deps(cls.getvar(var, metadata))
@classmethod
def pkgvar(cls, var, packages, metadata):
return dict((pkg, cls.depvar("%s_%s" % (var, pkg), metadata))
for pkg in packages)
@classmethod
def taskvar(cls, var, tasks, metadata):
return dict((task, cls.getvar("%s_task-%s" % (var, task), metadata))
for task in tasks)
@classmethod
def flaglist(cls, flag, varlist, metadata, squash=False):
out_dict = dict((var, metadata.getVarFlag(var, flag))
for var in varlist)
if squash:
return dict((k,v) for (k,v) in out_dict.items() if v)
else:
return out_dict
@classmethod
def getvar(cls, var, metadata, expand = True):
return metadata.getVar(var, expand) or ''
class CoreRecipeInfo(RecipeInfoCommon):
__slots__ = ()
cachefile = "bb_cache.dat"
def __init__(self, filename, metadata):
self.file_depends = metadata.getVar('__depends', False)
self.timestamp = bb.parse.cached_mtime(filename)
self.variants = self.listvar('__VARIANTS', metadata) + ['']
self.appends = self.listvar('__BBAPPEND', metadata)
self.nocache = self.getvar('BB_DONT_CACHE', metadata)
self.skipreason = self.getvar('__SKIPPED', metadata)
if self.skipreason:
self.pn = self.getvar('PN', metadata) or bb.parse.vars_from_file(filename,metadata)[0]
self.skipped = True
self.provides = self.depvar('PROVIDES', metadata)
self.rprovides = self.depvar('RPROVIDES', metadata)
return
self.tasks = metadata.getVar('__BBTASKS', False)
self.pn = self.getvar('PN', metadata)
self.packages = self.listvar('PACKAGES', metadata)
if not self.packages:
self.packages.append(self.pn)
self.basetaskhashes = self.taskvar('BB_BASEHASH', self.tasks, metadata)
self.hashfilename = self.getvar('BB_HASHFILENAME', metadata)
self.task_deps = metadata.getVar('_task_deps', False) or {'tasks': [], 'parents': {}}
self.skipped = False
self.pe = self.getvar('PE', metadata)
self.pv = self.getvar('PV', metadata)
self.pr = self.getvar('PR', metadata)
self.defaultpref = self.intvar('DEFAULT_PREFERENCE', metadata)
self.not_world = self.getvar('EXCLUDE_FROM_WORLD', metadata)
self.stamp = self.getvar('STAMP', metadata)
self.stampclean = self.getvar('STAMPCLEAN', metadata)
self.stamp_extrainfo = self.flaglist('stamp-extra-info', self.tasks, metadata)
self.file_checksums = self.flaglist('file-checksums', self.tasks, metadata, True)
self.packages_dynamic = self.listvar('PACKAGES_DYNAMIC', metadata)
self.depends = self.depvar('DEPENDS', metadata)
self.provides = self.depvar('PROVIDES', metadata)
self.rdepends = self.depvar('RDEPENDS', metadata)
self.rprovides = self.depvar('RPROVIDES', metadata)
self.rrecommends = self.depvar('RRECOMMENDS', metadata)
self.rprovides_pkg = self.pkgvar('RPROVIDES', self.packages, metadata)
self.rdepends_pkg = self.pkgvar('RDEPENDS', self.packages, metadata)
self.rrecommends_pkg = self.pkgvar('RRECOMMENDS', self.packages, metadata)
self.inherits = self.getvar('__inherit_cache', metadata, expand=False)
self.fakerootenv = self.getvar('FAKEROOTENV', metadata)
self.fakerootdirs = self.getvar('FAKEROOTDIRS', metadata)
self.fakerootnoenv = self.getvar('FAKEROOTNOENV', metadata)
self.extradepsfunc = self.getvar('calculate_extra_depends', metadata)
@classmethod
def init_cacheData(cls, cachedata):
# CacheData in Core RecipeInfo Class
cachedata.task_deps = {}
cachedata.pkg_fn = {}
cachedata.pkg_pn = defaultdict(list)
cachedata.pkg_pepvpr = {}
cachedata.pkg_dp = {}
cachedata.stamp = {}
cachedata.stampclean = {}
cachedata.stamp_extrainfo = {}
cachedata.file_checksums = {}
cachedata.fn_provides = {}
cachedata.pn_provides = defaultdict(list)
cachedata.all_depends = []
cachedata.deps = defaultdict(list)
cachedata.packages = defaultdict(list)
cachedata.providers = defaultdict(list)
cachedata.rproviders = defaultdict(list)
cachedata.packages_dynamic = defaultdict(list)
cachedata.rundeps = defaultdict(lambda: defaultdict(list))
cachedata.runrecs = defaultdict(lambda: defaultdict(list))
cachedata.possible_world = []
cachedata.universe_target = []
cachedata.hashfn = {}
cachedata.basetaskhash = {}
cachedata.inherits = {}
cachedata.fakerootenv = {}
cachedata.fakerootnoenv = {}
cachedata.fakerootdirs = {}
cachedata.extradepsfunc = {}
def add_cacheData(self, cachedata, fn):
cachedata.task_deps[fn] = self.task_deps
cachedata.pkg_fn[fn] = self.pn
cachedata.pkg_pn[self.pn].append(fn)
cachedata.pkg_pepvpr[fn] = (self.pe, self.pv, self.pr)
cachedata.pkg_dp[fn] = self.defaultpref
cachedata.stamp[fn] = self.stamp
cachedata.stampclean[fn] = self.stampclean
cachedata.stamp_extrainfo[fn] = self.stamp_extrainfo
cachedata.file_checksums[fn] = self.file_checksums
provides = [self.pn]
for provide in self.provides:
if provide not in provides:
provides.append(provide)
cachedata.fn_provides[fn] = provides
for provide in provides:
cachedata.providers[provide].append(fn)
if provide not in cachedata.pn_provides[self.pn]:
cachedata.pn_provides[self.pn].append(provide)
for dep in self.depends:
if dep not in cachedata.deps[fn]:
cachedata.deps[fn].append(dep)
if dep not in cachedata.all_depends:
cachedata.all_depends.append(dep)
rprovides = self.rprovides
for package in self.packages:
cachedata.packages[package].append(fn)
rprovides += self.rprovides_pkg[package]
for rprovide in rprovides:
if fn not in cachedata.rproviders[rprovide]:
cachedata.rproviders[rprovide].append(fn)
for package in self.packages_dynamic:
cachedata.packages_dynamic[package].append(fn)
# Build hash of runtime depends and recommends
for package in self.packages:
cachedata.rundeps[fn][package] = list(self.rdepends) + self.rdepends_pkg[package]
cachedata.runrecs[fn][package] = list(self.rrecommends) + self.rrecommends_pkg[package]
# Collect files we may need for possible world-dep
# calculations
if self.not_world:
logger.debug(1, "EXCLUDE FROM WORLD: %s", fn)
else:
cachedata.possible_world.append(fn)
# create a collection of all targets for sanity checking
# tasks, such as upstream versions, license, and tools for
# task and image creation.
cachedata.universe_target.append(self.pn)
cachedata.hashfn[fn] = self.hashfilename
for task, taskhash in self.basetaskhashes.items():
identifier = '%s.%s' % (fn, task)
cachedata.basetaskhash[identifier] = taskhash
cachedata.inherits[fn] = self.inherits
cachedata.fakerootenv[fn] = self.fakerootenv
cachedata.fakerootnoenv[fn] = self.fakerootnoenv
cachedata.fakerootdirs[fn] = self.fakerootdirs
cachedata.extradepsfunc[fn] = self.extradepsfunc
def virtualfn2realfn(virtualfn):
"""
Convert a virtual file name to a real one + the associated subclass keyword
"""
mc = ""
if virtualfn.startswith('multiconfig:'):
elems = virtualfn.split(':')
mc = elems[1]
virtualfn = ":".join(elems[2:])
fn = virtualfn
cls = ""
if virtualfn.startswith('virtual:'):
elems = virtualfn.split(':')
cls = ":".join(elems[1:-1])
fn = elems[-1]
return (fn, cls, mc)
def realfn2virtual(realfn, cls, mc):
"""
Convert a real filename + the associated subclass keyword to a virtual filename
"""
if cls:
realfn = "virtual:" + cls + ":" + realfn
if mc:
realfn = "multiconfig:" + mc + ":" + realfn
return realfn
def variant2virtual(realfn, variant):
"""
Convert a real filename + the associated subclass keyword to a virtual filename
"""
if variant == "":
return realfn
if variant.startswith("multiconfig:"):
elems = variant.split(":")
if elems[2]:
return "multiconfig:" + elems[1] + ":virtual:" + ":".join(elems[2:]) + ":" + realfn
return "multiconfig:" + elems[1] + ":" + realfn
return "virtual:" + variant + ":" + realfn
def parse_recipe(bb_data, bbfile, appends, mc=''):
"""
Parse a recipe
"""
chdir_back = False
bb_data.setVar("__BBMULTICONFIG", mc)
# expand tmpdir to include this topdir
bb_data.setVar('TMPDIR', bb_data.getVar('TMPDIR') or "")
bbfile_loc = os.path.abspath(os.path.dirname(bbfile))
oldpath = os.path.abspath(os.getcwd())
bb.parse.cached_mtime_noerror(bbfile_loc)
# The ConfHandler first looks if there is a TOPDIR and if not
# then it would call getcwd().
# Previously, we chdir()ed to bbfile_loc, called the handler
# and finally chdir()ed back, a couple of thousand times. We now
# just fill in TOPDIR to point to bbfile_loc if there is no TOPDIR yet.
if not bb_data.getVar('TOPDIR', False):
chdir_back = True
bb_data.setVar('TOPDIR', bbfile_loc)
try:
if appends:
bb_data.setVar('__BBAPPEND', " ".join(appends))
bb_data = bb.parse.handle(bbfile, bb_data)
if chdir_back:
os.chdir(oldpath)
return bb_data
except:
if chdir_back:
os.chdir(oldpath)
raise
class NoCache(object):
def __init__(self, databuilder):
self.databuilder = databuilder
self.data = databuilder.data
def loadDataFull(self, virtualfn, appends):
"""
Return a complete set of data for fn.
To do this, we need to parse the file.
"""
logger.debug(1, "Parsing %s (full)" % virtualfn)
(fn, virtual, mc) = virtualfn2realfn(virtualfn)
bb_data = self.load_bbfile(virtualfn, appends, virtonly=True)
return bb_data[virtual]
def load_bbfile(self, bbfile, appends, virtonly = False):
"""
Load and parse one .bb build file
Return the data and whether parsing resulted in the file being skipped
"""
if virtonly:
(bbfile, virtual, mc) = virtualfn2realfn(bbfile)
bb_data = self.databuilder.mcdata[mc].createCopy()
bb_data.setVar("__ONLYFINALISE", virtual or "default")
datastores = parse_recipe(bb_data, bbfile, appends, mc)
return datastores
bb_data = self.data.createCopy()
datastores = parse_recipe(bb_data, bbfile, appends)
for mc in self.databuilder.mcdata:
if not mc:
continue
bb_data = self.databuilder.mcdata[mc].createCopy()
newstores = parse_recipe(bb_data, bbfile, appends, mc)
for ns in newstores:
datastores["multiconfig:%s:%s" % (mc, ns)] = newstores[ns]
return datastores
class Cache(NoCache):
"""
BitBake Cache implementation
"""
def __init__(self, databuilder, data_hash, caches_array):
super().__init__(databuilder)
data = databuilder.data
# Pass caches_array information into Cache Constructor
# It will be used later for deciding whether we
# need extra cache file dump/load support
self.caches_array = caches_array
self.cachedir = data.getVar("CACHE")
self.clean = set()
self.checked = set()
self.depends_cache = {}
self.data_fn = None
self.cacheclean = True
self.data_hash = data_hash
if self.cachedir in [None, '']:
self.has_cache = False
logger.info("Not using a cache. "
"Set CACHE = <directory> to enable.")
return
self.has_cache = True
self.cachefile = getCacheFile(self.cachedir, "bb_cache.dat", self.data_hash)
logger.debug(1, "Cache dir: %s", self.cachedir)
bb.utils.mkdirhier(self.cachedir)
cache_ok = True
if self.caches_array:
for cache_class in self.caches_array:
cachefile = getCacheFile(self.cachedir, cache_class.cachefile, self.data_hash)
cache_ok = cache_ok and os.path.exists(cachefile)
cache_class.init_cacheData(self)
if cache_ok:
self.load_cachefile()
elif os.path.isfile(self.cachefile):
logger.info("Out of date cache found, rebuilding...")
else:
logger.debug(1, "Cache file %s not found, building..." % self.cachefile)
def load_cachefile(self):
cachesize = 0
previous_progress = 0
previous_percent = 0
# Calculate the correct cachesize of all those cache files
for cache_class in self.caches_array:
cachefile = getCacheFile(self.cachedir, cache_class.cachefile, self.data_hash)
with open(cachefile, "rb") as cachefile:
cachesize += os.fstat(cachefile.fileno()).st_size
bb.event.fire(bb.event.CacheLoadStarted(cachesize), self.data)
for cache_class in self.caches_array:
cachefile = getCacheFile(self.cachedir, cache_class.cachefile, self.data_hash)
logger.debug(1, 'Loading cache file: %s' % cachefile)
with open(cachefile, "rb") as cachefile:
pickled = pickle.Unpickler(cachefile)
# Check cache version information
try:
cache_ver = pickled.load()
bitbake_ver = pickled.load()
except Exception:
logger.info('Invalid cache, rebuilding...')
return
if cache_ver != __cache_version__:
logger.info('Cache version mismatch, rebuilding...')
return
elif bitbake_ver != bb.__version__:
logger.info('Bitbake version mismatch, rebuilding...')
return
# Load the rest of the cache file
current_progress = 0
while cachefile:
try:
key = pickled.load()
value = pickled.load()
except Exception:
break
if not isinstance(key, str):
bb.warn("%s from extras cache is not a string?" % key)
break
if not isinstance(value, RecipeInfoCommon):
bb.warn("%s from extras cache is not a RecipeInfoCommon class?" % value)
break
if key in self.depends_cache:
self.depends_cache[key].append(value)
else:
self.depends_cache[key] = [value]
# only fire events on even percentage boundaries
current_progress = cachefile.tell() + previous_progress
if current_progress > cachesize:
# we might have calculated incorrect total size because a file
# might've been written out just after we checked its size
cachesize = current_progress
current_percent = 100 * current_progress / cachesize
if current_percent > previous_percent:
previous_percent = current_percent
bb.event.fire(bb.event.CacheLoadProgress(current_progress, cachesize),
self.data)
previous_progress += current_progress
# Note: depends cache number is corresponding to the parsing file numbers.
# The same file has several caches, still regarded as one item in the cache
bb.event.fire(bb.event.CacheLoadCompleted(cachesize,
len(self.depends_cache)),
self.data)
def parse(self, filename, appends):
"""Parse the specified filename, returning the recipe information"""
logger.debug(1, "Parsing %s", filename)
infos = []
datastores = self.load_bbfile(filename, appends)
depends = []
variants = []
# Process the "real" fn last so we can store variants list
for variant, data in sorted(datastores.items(),
key=lambda i: i[0],
reverse=True):
virtualfn = variant2virtual(filename, variant)
variants.append(variant)
depends = depends + (data.getVar("__depends", False) or [])
if depends and not variant:
data.setVar("__depends", depends)
if virtualfn == filename:
data.setVar("__VARIANTS", " ".join(variants))
info_array = []
for cache_class in self.caches_array:
info = cache_class(filename, data)
info_array.append(info)
infos.append((virtualfn, info_array))
return infos
def load(self, filename, appends):
"""Obtain the recipe information for the specified filename,
using cached values if available, otherwise parsing.
Note that if it does parse to obtain the info, it will not
automatically add the information to the cache or to your
CacheData. Use the add or add_info method to do so after
running this, or use loadData instead."""
cached = self.cacheValid(filename, appends)
if cached:
infos = []
# info_array item is a list of [CoreRecipeInfo, XXXRecipeInfo]
info_array = self.depends_cache[filename]
for variant in info_array[0].variants:
virtualfn = variant2virtual(filename, variant)
infos.append((virtualfn, self.depends_cache[virtualfn]))
else:
return self.parse(filename, appends, configdata, self.caches_array)
return cached, infos
def loadData(self, fn, appends, cacheData):
"""Load the recipe info for the specified filename,
parsing and adding to the cache if necessary, and adding
the recipe information to the supplied CacheData instance."""
skipped, virtuals = 0, 0
cached, infos = self.load(fn, appends)
for virtualfn, info_array in infos:
if info_array[0].skipped:
logger.debug(1, "Skipping %s: %s", virtualfn, info_array[0].skipreason)
skipped += 1
else:
self.add_info(virtualfn, info_array, cacheData, not cached)
virtuals += 1
return cached, skipped, virtuals
def cacheValid(self, fn, appends):
"""
Is the cache valid for fn?
Fast version, no timestamps checked.
"""
if fn not in self.checked:
self.cacheValidUpdate(fn, appends)
# Is cache enabled?
if not self.has_cache:
return False
if fn in self.clean:
return True
return False
def cacheValidUpdate(self, fn, appends):
"""
Is the cache valid for fn?
Make thorough (slower) checks including timestamps.
"""
# Is cache enabled?
if not self.has_cache:
return False
self.checked.add(fn)
# File isn't in depends_cache
if not fn in self.depends_cache:
logger.debug(2, "Cache: %s is not cached", fn)
return False
mtime = bb.parse.cached_mtime_noerror(fn)
# Check file still exists
if mtime == 0:
logger.debug(2, "Cache: %s no longer exists", fn)
self.remove(fn)
return False
info_array = self.depends_cache[fn]
# Check the file's timestamp
if mtime != info_array[0].timestamp:
logger.debug(2, "Cache: %s changed", fn)
self.remove(fn)
return False
# Check dependencies are still valid
depends = info_array[0].file_depends
if depends:
for f, old_mtime in depends:
fmtime = bb.parse.cached_mtime_noerror(f)
# Check if file still exists
if old_mtime != 0 and fmtime == 0:
logger.debug(2, "Cache: %s's dependency %s was removed",
fn, f)
self.remove(fn)
return False
if (fmtime != old_mtime):
logger.debug(2, "Cache: %s's dependency %s changed",
fn, f)
self.remove(fn)
return False
if hasattr(info_array[0], 'file_checksums'):
for _, fl in info_array[0].file_checksums.items():
fl = fl.strip()
while fl:
# A .split() would be simpler but means spaces or colons in filenames would break
a = fl.find(":True")
b = fl.find(":False")
if ((a < 0) and b) or ((b > 0) and (b < a)):
f = fl[:b+6]
fl = fl[b+7:]
elif ((b < 0) and a) or ((a > 0) and (a < b)):
f = fl[:a+5]
fl = fl[a+6:]
else:
break
fl = fl.strip()
if "*" in f:
continue
f, exist = f.split(":")
if (exist == "True" and not os.path.exists(f)) or (exist == "False" and os.path.exists(f)):
logger.debug(2, "Cache: %s's file checksum list file %s changed",
fn, f)
self.remove(fn)
return False
if appends != info_array[0].appends:
logger.debug(2, "Cache: appends for %s changed", fn)
logger.debug(2, "%s to %s" % (str(appends), str(info_array[0].appends)))
self.remove(fn)
return False
invalid = False
for cls in info_array[0].variants:
virtualfn = variant2virtual(fn, cls)
self.clean.add(virtualfn)
if virtualfn not in self.depends_cache:
logger.debug(2, "Cache: %s is not cached", virtualfn)
invalid = True
elif len(self.depends_cache[virtualfn]) != len(self.caches_array):
logger.debug(2, "Cache: Extra caches missing for %s?" % virtualfn)
invalid = True
# If any one of the variants is not present, mark as invalid for all
if invalid:
for cls in info_array[0].variants:
virtualfn = variant2virtual(fn, cls)
if virtualfn in self.clean:
logger.debug(2, "Cache: Removing %s from cache", virtualfn)
self.clean.remove(virtualfn)
if fn in self.clean:
logger.debug(2, "Cache: Marking %s as not clean", fn)
self.clean.remove(fn)
return False
self.clean.add(fn)
return True
def remove(self, fn):
"""
Remove a fn from the cache
Called from the parser in error cases
"""
if fn in self.depends_cache:
logger.debug(1, "Removing %s from cache", fn)
del self.depends_cache[fn]
if fn in self.clean:
logger.debug(1, "Marking %s as unclean", fn)
self.clean.remove(fn)
def sync(self):
"""
Save the cache
Called from the parser when complete (or exiting)
"""
if not self.has_cache:
return
if self.cacheclean:
logger.debug(2, "Cache is clean, not saving.")
return
for cache_class in self.caches_array:
cache_class_name = cache_class.__name__
cachefile = getCacheFile(self.cachedir, cache_class.cachefile, self.data_hash)
with open(cachefile, "wb") as f:
p = pickle.Pickler(f, pickle.HIGHEST_PROTOCOL)
p.dump(__cache_version__)
p.dump(bb.__version__)
for key, info_array in self.depends_cache.items():
for info in info_array:
if isinstance(info, RecipeInfoCommon) and info.__class__.__name__ == cache_class_name:
p.dump(key)
p.dump(info)
del self.depends_cache
@staticmethod
def mtime(cachefile):
return bb.parse.cached_mtime_noerror(cachefile)
def add_info(self, filename, info_array, cacheData, parsed=None, watcher=None):
if isinstance(info_array[0], CoreRecipeInfo) and (not info_array[0].skipped):
cacheData.add_from_recipeinfo(filename, info_array)
if watcher:
watcher(info_array[0].file_depends)
if not self.has_cache:
return
if (info_array[0].skipped or 'SRCREVINACTION' not in info_array[0].pv) and not info_array[0].nocache:
if parsed:
self.cacheclean = False
self.depends_cache[filename] = info_array
def add(self, file_name, data, cacheData, parsed=None):
"""
Save data we need into the cache
"""
realfn = virtualfn2realfn(file_name)[0]
info_array = []
for cache_class in self.caches_array:
info_array.append(cache_class(realfn, data))
self.add_info(file_name, info_array, cacheData, parsed)
def init(cooker):
"""
The Objective: Cache the minimum amount of data possible yet get to the
stage of building packages (i.e. tryBuild) without reparsing any .bb files.
To do this, we intercept getVar calls and only cache the variables we see
being accessed. We rely on the cache getVar calls being made for all
variables bitbake might need to use to reach this stage. For each cached
file we need to track:
* Its mtime
* The mtimes of all its dependencies
* Whether it caused a parse.SkipRecipe exception
Files causing parsing errors are evicted from the cache.
"""
return Cache(cooker.configuration.data, cooker.configuration.data_hash)
class CacheData(object):
"""
The data structures we compile from the cached data
"""
def __init__(self, caches_array):
self.caches_array = caches_array
for cache_class in self.caches_array:
if not issubclass(cache_class, RecipeInfoCommon):
bb.error("Extra cache data class %s should subclass RecipeInfoCommon class" % cache_class)
cache_class.init_cacheData(self)
# Direct cache variables
self.task_queues = {}
self.preferred = {}
self.tasks = {}
# Indirect Cache variables (set elsewhere)
self.ignored_dependencies = []
self.world_target = set()
self.bbfile_priority = {}
def add_from_recipeinfo(self, fn, info_array):
for info in info_array:
info.add_cacheData(self, fn)
class MultiProcessCache(object):
"""
BitBake multi-process cache implementation
Used by the codeparser & file checksum caches
"""
def __init__(self):
self.cachefile = None
self.cachedata = self.create_cachedata()
self.cachedata_extras = self.create_cachedata()
def init_cache(self, d, cache_file_name=None):
cachedir = (d.getVar("PERSISTENT_DIR") or
d.getVar("CACHE"))
if cachedir in [None, '']:
return
bb.utils.mkdirhier(cachedir)
self.cachefile = os.path.join(cachedir,
cache_file_name or self.__class__.cache_file_name)
logger.debug(1, "Using cache in '%s'", self.cachefile)
glf = bb.utils.lockfile(self.cachefile + ".lock")
try:
with open(self.cachefile, "rb") as f:
p = pickle.Unpickler(f)
data, version = p.load()
except:
bb.utils.unlockfile(glf)
return
bb.utils.unlockfile(glf)
if version != self.__class__.CACHE_VERSION:
return
self.cachedata = data
def create_cachedata(self):
data = [{}]
return data
def save_extras(self):
if not self.cachefile:
return
glf = bb.utils.lockfile(self.cachefile + ".lock", shared=True)
i = os.getpid()
lf = None
while not lf:
lf = bb.utils.lockfile(self.cachefile + ".lock." + str(i), retry=False)
if not lf or os.path.exists(self.cachefile + "-" + str(i)):
if lf:
bb.utils.unlockfile(lf)
lf = None
i = i + 1
continue
with open(self.cachefile + "-" + str(i), "wb") as f:
p = pickle.Pickler(f, -1)
p.dump([self.cachedata_extras, self.__class__.CACHE_VERSION])
bb.utils.unlockfile(lf)
bb.utils.unlockfile(glf)
def merge_data(self, source, dest):
for j in range(0,len(dest)):
for h in source[j]:
if h not in dest[j]:
dest[j][h] = source[j][h]
def save_merge(self):
if not self.cachefile:
return
glf = bb.utils.lockfile(self.cachefile + ".lock")
data = self.cachedata
for f in [y for y in os.listdir(os.path.dirname(self.cachefile)) if y.startswith(os.path.basename(self.cachefile) + '-')]:
f = os.path.join(os.path.dirname(self.cachefile), f)
try:
with open(f, "rb") as fd:
p = pickle.Unpickler(fd)
extradata, version = p.load()
except (IOError, EOFError):
os.unlink(f)
continue
if version != self.__class__.CACHE_VERSION:
os.unlink(f)
continue
self.merge_data(extradata, data)
os.unlink(f)
with open(self.cachefile, "wb") as f:
p = pickle.Pickler(f, -1)
p.dump([data, self.__class__.CACHE_VERSION])
bb.utils.unlockfile(glf)