2
0
mirror of https://gitlab.com/ita1024/waf.git synced 2024-12-01 22:40:46 +01:00
waf/waflib/extras/fast_partial.py
2018-01-01 20:53:49 +01:00

519 lines
15 KiB
Python

#! /usr/bin/env python
# encoding: utf-8
# Thomas Nagy, 2017-2018 (ita)
"""
A system for fast partial rebuilds
Creating a large amount of task objects up front can take some time.
By making a few assumptions, it is possible to avoid posting creating
task objects for targets that are already up-to-date.
On a silly benchmark the gain observed for 1M tasks can be 5m->10s
for a single file change.
Usage::
def options(opt):
opt.load('fast_partial')
Assuptions:
* Mostly for C/C++/Fortran targets with link tasks (object-only targets are not handled)
* For full project builds: no --targets and no pruning from subfolders
* The installation phase is ignored
* `use=` dependencies are specified up front even across build groups
* Task generator source files are not obtained from globs
Implementation details:
* The first layer obtains file timestamps to recalculate file hashes only
when necessary (similar to md5_tstamp); the timestamps are then stored
in a dedicated pickle file
* A second layer associates each task generator to a file set to help
detecting changes. Task generators are to create their tasks only when
the related files have been modified. A specific db file is created
to store such data (5m -> 1m10)
* A third layer binds build context proxies onto task generators, replacing
the default context. While loading data for the full build uses more memory
(4GB -> 9GB), partial builds are then much faster (1m10 -> 13s)
* A fourth layer enables a 2-level cache on file signatures to
reduce the size of the main pickle file (13s -> 10s)
"""
import os
from waflib import Build, Context, Errors, Logs, Task, TaskGen, Utils
from waflib.TaskGen import feature, after_method, taskgen_method
import waflib.Node
DONE = 0
DIRTY = 1
NEEDED = 2
SKIPPABLE = ['cshlib', 'cxxshlib', 'cstlib', 'cxxstlib', 'cprogram', 'cxxprogram']
TSTAMP_DB = '.wafpickle_tstamp_db_file'
SAVED_ATTRS = 'root node_sigs task_sigs imp_sigs raw_deps node_deps'.split()
class bld_proxy(object):
def __init__(self, bld):
object.__setattr__(self, 'bld', bld)
object.__setattr__(self, 'node_class', type('Nod3', (waflib.Node.Node,), {}))
self.node_class.__module__ = 'waflib.Node'
self.node_class.ctx = self
object.__setattr__(self, 'root', self.node_class('', None))
for x in SAVED_ATTRS:
if x != 'root':
object.__setattr__(self, x, {})
self.fix_nodes()
def __setattr__(self, name, value):
bld = object.__getattribute__(self, 'bld')
setattr(bld, name, value)
def __delattr__(self, name):
bld = object.__getattribute__(self, 'bld')
delattr(bld, name)
def __getattribute__(self, name):
try:
return object.__getattribute__(self, name)
except AttributeError:
bld = object.__getattribute__(self, 'bld')
return getattr(bld, name)
def __call__(self, *k, **kw):
return self.bld(*k, **kw)
def fix_nodes(self):
for x in ('srcnode', 'path', 'bldnode'):
node = self.root.find_dir(getattr(self.bld, x).abspath())
object.__setattr__(self, x, node)
def set_key(self, store_key):
object.__setattr__(self, 'store_key', store_key)
def fix_tg_path(self, *tgs):
# changing Node objects on task generators is possible
# yet, all Node objects must belong to the same parent
for tg in tgs:
tg.path = self.root.make_node(tg.path.abspath())
def restore(self):
dbfn = os.path.join(self.variant_dir, Context.DBFILE + self.store_key)
Logs.debug('rev_use: reading %s', dbfn)
try:
data = Utils.readf(dbfn, 'rb')
except (EnvironmentError, EOFError):
# handle missing file/empty file
Logs.debug('rev_use: Could not load the build cache %s (missing)', dbfn)
else:
try:
waflib.Node.pickle_lock.acquire()
waflib.Node.Nod3 = self.node_class
try:
data = Build.cPickle.loads(data)
except Exception as e:
Logs.debug('rev_use: Could not pickle the build cache %s: %r', dbfn, e)
else:
for x in SAVED_ATTRS:
object.__setattr__(self, x, data.get(x, {}))
finally:
waflib.Node.pickle_lock.release()
self.fix_nodes()
def store(self):
data = {}
for x in Build.SAVED_ATTRS:
data[x] = getattr(self, x)
db = os.path.join(self.variant_dir, Context.DBFILE + self.store_key)
try:
waflib.Node.pickle_lock.acquire()
waflib.Node.Nod3 = self.node_class
x = Build.cPickle.dumps(data, Build.PROTOCOL)
finally:
waflib.Node.pickle_lock.release()
Logs.debug('rev_use: storing %s', db)
Utils.writef(db + '.tmp', x, m='wb')
try:
st = os.stat(db)
os.remove(db)
if not Utils.is_win32:
os.chown(db + '.tmp', st.st_uid, st.st_gid)
except (AttributeError, OSError):
pass
os.rename(db + '.tmp', db)
class bld(Build.BuildContext):
def __init__(self, **kw):
super(bld, self).__init__(**kw)
self.hashes_md5_tstamp = {}
def __call__(self, *k, **kw):
# this is one way of doing it, one could use a task generator method too
bld = kw['bld'] = bld_proxy(self)
ret = TaskGen.task_gen(*k, **kw)
self.task_gen_cache_names = {}
self.add_to_group(ret, group=kw.get('group'))
ret.bld = bld
bld.set_key(ret.path.abspath().replace(os.sep, '') + str(ret.idx))
return ret
def is_dirty(self):
return True
def store_tstamps(self):
# Called after a build is finished
# For each task generator, record all files involved in task objects
# optimization: done only if there was something built
do_store = False
try:
f_deps = self.f_deps
except AttributeError:
f_deps = self.f_deps = {}
self.f_tstamps = {}
allfiles = set()
for g in self.groups:
for tg in g:
try:
staleness = tg.staleness
except AttributeError:
staleness = DIRTY
if staleness != DIRTY:
# DONE case: there was nothing built
# NEEDED case: the tg was brought in because of 'use' propagation
# but nothing really changed for them, there may be incomplete
# tasks (object files) and in this case it is best to let the next build
# figure out if an input/output file changed
continue
do_cache = False
for tsk in tg.tasks:
if tsk.hasrun == Task.SUCCESS:
do_cache = True
pass
elif tsk.hasrun == Task.SKIPPED:
pass
else:
# one failed task, clear the cache for this tg
try:
del f_deps[(tg.path.abspath(), tg.idx)]
except KeyError:
pass
else:
# just store the new state because there is a change
do_store = True
# skip the rest because there is no valid cache possible
break
else:
if not do_cache:
# all skipped, but is there anything in cache?
try:
f_deps[(tg.path.abspath(), tg.idx)]
except KeyError:
# probably cleared because a wscript file changed
# store it
do_cache = True
if do_cache:
# there was a rebuild, store the data structure too
tg.bld.store()
# all tasks skipped but no cache
# or a successful task build
do_store = True
st = set()
for tsk in tg.tasks:
st.update(tsk.inputs)
st.update(self.node_deps.get(tsk.uid(), []))
# TODO do last/when loading the tgs?
lst = []
for k in ('wscript', 'wscript_build'):
n = tg.path.find_node(k)
if n:
n.get_bld_sig()
lst.append(n.abspath())
lst.extend(sorted(x.abspath() for x in st))
allfiles.update(lst)
f_deps[(tg.path.abspath(), tg.idx)] = lst
for x in allfiles:
# f_tstamps has everything, while md5_tstamp can be relatively empty on partial builds
self.f_tstamps[x] = self.hashes_md5_tstamp[x][0]
if do_store:
dbfn = os.path.join(self.variant_dir, TSTAMP_DB)
Logs.debug('rev_use: storing %s', dbfn)
dbfn_tmp = dbfn + '.tmp'
x = Build.cPickle.dumps([self.f_tstamps, f_deps], Build.PROTOCOL)
Utils.writef(dbfn_tmp, x, m='wb')
os.rename(dbfn_tmp, dbfn)
Logs.debug('rev_use: stored %s', dbfn)
def store(self):
self.store_tstamps()
if self.producer.dirty:
Build.BuildContext.store(self)
def compute_needed_tgs(self):
# assume the 'use' keys are not modified during the build phase
dbfn = os.path.join(self.variant_dir, TSTAMP_DB)
Logs.debug('rev_use: Loading %s', dbfn)
try:
data = Utils.readf(dbfn, 'rb')
except (EnvironmentError, EOFError):
Logs.debug('rev_use: Could not load the build cache %s (missing)', dbfn)
self.f_deps = {}
self.f_tstamps = {}
else:
try:
self.f_tstamps, self.f_deps = Build.cPickle.loads(data)
except Exception as e:
Logs.debug('rev_use: Could not pickle the build cache %s: %r', dbfn, e)
self.f_deps = {}
self.f_tstamps = {}
else:
Logs.debug('rev_use: Loaded %s', dbfn)
# 1. obtain task generators that contain rebuilds
# 2. obtain the 'use' graph and its dual
stales = set()
reverse_use_map = Utils.defaultdict(list)
use_map = Utils.defaultdict(list)
for g in self.groups:
for tg in g:
if tg.is_stale():
stales.add(tg)
try:
lst = tg.use = Utils.to_list(tg.use)
except AttributeError:
pass
else:
for x in lst:
try:
xtg = self.get_tgen_by_name(x)
except Errors.WafError:
pass
else:
use_map[tg].append(xtg)
reverse_use_map[xtg].append(tg)
Logs.debug('rev_use: found %r stale tgs', len(stales))
# 3. dfs to post downstream tg as stale
visited = set()
def mark_down(tg):
if tg in visited:
return
visited.add(tg)
Logs.debug('rev_use: marking down %r as stale', tg.name)
tg.staleness = DIRTY
for x in reverse_use_map[tg]:
mark_down(x)
for tg in stales:
mark_down(tg)
# 4. dfs to find ancestors tg to mark as needed
self.needed_tgs = needed_tgs = set()
def mark_needed(tg):
if tg in needed_tgs:
return
needed_tgs.add(tg)
if tg.staleness == DONE:
Logs.debug('rev_use: marking up %r as needed', tg.name)
tg.staleness = NEEDED
for x in use_map[tg]:
mark_needed(x)
for xx in visited:
mark_needed(xx)
# so we have the whole tg trees to post in the set "needed"
# load their build trees
for tg in needed_tgs:
tg.bld.restore()
tg.bld.fix_tg_path(tg)
# the stale ones should be fully build, while the needed ones
# may skip a few tasks, see create_compiled_task and apply_link_after below
Logs.debug('rev_use: amount of needed task gens: %r', len(needed_tgs))
def post_group(self):
# assumption: we can ignore the folder/subfolders cuts
def tgpost(tg):
try:
f = tg.post
except AttributeError:
pass
else:
f()
if not self.targets or self.targets == '*':
for tg in self.groups[self.current_group]:
# this can cut quite a lot of tg objects
if tg in self.needed_tgs:
tgpost(tg)
else:
# default implementation
return Build.BuildContext.post_group()
def get_build_iterator(self):
if not self.targets or self.targets == '*':
self.compute_needed_tgs()
return Build.BuildContext.get_build_iterator(self)
@taskgen_method
def is_stale(self):
# assume no globs
self.staleness = DIRTY
# 1. the case of always stale targets
if getattr(self, 'always_stale', False):
return True
# 2. check if the db file exists
db = os.path.join(self.bld.variant_dir, Context.DBFILE)
try:
dbstat = os.stat(db).st_mtime
except OSError:
Logs.debug('rev_use: must post %r because this is a clean build')
return True
# 3. check if the configuration changed
if os.stat(self.bld.bldnode.find_node('c4che/build.config.py').abspath()).st_mtime > dbstat:
Logs.debug('rev_use: must post %r because the configuration has changed', self.name)
return True
# 3.a any tstamp data?
try:
f_deps = self.bld.f_deps
except AttributeError:
Logs.debug('rev_use: must post %r because there is no f_deps', self.name)
return True
# 4. check if this is the first build (no cache)
try:
lst = f_deps[(self.path.abspath(), self.idx)]
except KeyError:
Logs.debug('rev_use: must post %r because there it has no cached data', self.name)
return True
try:
cache = self.bld.cache_tstamp_rev_use
except AttributeError:
cache = self.bld.cache_tstamp_rev_use = {}
# 5. check the timestamp of each dependency files listed is unchanged
f_tstamps = self.bld.f_tstamps
for x in lst:
try:
old_ts = f_tstamps[x]
except KeyError:
Logs.debug('rev_use: must post %r because %r is not in cache', self.name, x)
return True
try:
try:
ts = cache[x]
except KeyError:
ts = cache[x] = os.stat(x).st_mtime
except OSError:
del f_deps[(self.path.abspath(), self.idx)]
Logs.debug('rev_use: must post %r because %r does not exist anymore', self.name, x)
return True
else:
if ts != old_ts:
Logs.debug('rev_use: must post %r because the timestamp on %r changed %r %r', self.name, x, old_ts, ts)
return True
self.staleness = DONE
return False
@taskgen_method
def create_compiled_task(self, name, node):
# skip the creation of object files
# assumption: object-only targets are not skippable
if self.staleness == NEEDED:
# only libraries/programs can skip object files
for x in SKIPPABLE:
if x in self.features:
return None
out = '%s.%d.o' % (node.name, self.idx)
task = self.create_task(name, node, node.parent.find_or_declare(out))
try:
self.compiled_tasks.append(task)
except AttributeError:
self.compiled_tasks = [task]
return task
@feature(*SKIPPABLE)
@after_method('apply_link')
def apply_link_after(self):
# cprogram/cxxprogram might be unnecessary
if self.staleness != NEEDED:
return
for tsk in self.tasks:
tsk.hasrun = Task.SKIPPED
def path_from(self, node):
# handle nodes of distinct types
if node.ctx is not self.ctx:
node = self.ctx.root.make_node(node.abspath())
return self.default_path_from(node)
waflib.Node.Node.default_path_from = waflib.Node.Node.path_from
waflib.Node.Node.path_from = path_from
def h_file(self):
# similar to md5_tstamp.py, but with 2-layer cache
# global_cache for the build context common for all task generators
# local_cache for the build context proxy (one by task generator)
#
# the global cache is not persistent
# the local cache is persistent and meant for partial builds
#
# assume all calls are made from a single thread
#
filename = self.abspath()
st = os.stat(filename)
global_cache = self.ctx.bld.hashes_md5_tstamp
local_cache = self.ctx.hashes_md5_tstamp
if filename in global_cache:
# value already calculated in this build
cval = global_cache[filename]
# the value in global cache is assumed to be calculated once
# reverifying it could cause task generators
# to get distinct tstamp values, thus missing rebuilds
local_cache[filename] = cval
return cval[1]
if filename in local_cache:
cval = local_cache[filename]
if cval[0] == st.st_mtime:
# correct value from a previous build
# put it in the global cache
global_cache[filename] = cval
return cval[1]
ret = Utils.h_file(filename)
local_cache[filename] = global_cache[filename] = (st.st_mtime, ret)
return ret
waflib.Node.Node.h_file = h_file