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|
"""
BitBake 'RunQueue' implementation
Handles preparation and execution of a queue of tasks
"""
# Copyright (C) 2006-2007 Richard Purdie
#
# SPDX-License-Identifier: GPL-2.0-only
#
import copy
import os
import sys
import stat
import errno
import logging
import re
import bb
from bb import msg, event
from bb import monitordisk
import subprocess
import pickle
from multiprocessing import Process
import shlex
import pprint
import time
bblogger = logging.getLogger("BitBake")
logger = logging.getLogger("BitBake.RunQueue")
hashequiv_logger = logging.getLogger("BitBake.RunQueue.HashEquiv")
__find_sha256__ = re.compile( r'(?i)(?<![a-z0-9])[a-f0-9]{64}(?![a-z0-9])' )
def fn_from_tid(tid):
return tid.rsplit(":", 1)[0]
def taskname_from_tid(tid):
return tid.rsplit(":", 1)[1]
def mc_from_tid(tid):
if tid.startswith('mc:') and tid.count(':') >= 2:
return tid.split(':')[1]
return ""
def split_tid(tid):
(mc, fn, taskname, _) = split_tid_mcfn(tid)
return (mc, fn, taskname)
def split_mc(n):
if n.startswith("mc:") and n.count(':') >= 2:
_, mc, n = n.split(":", 2)
return (mc, n)
return ('', n)
def split_tid_mcfn(tid):
if tid.startswith('mc:') and tid.count(':') >= 2:
elems = tid.split(':')
mc = elems[1]
fn = ":".join(elems[2:-1])
taskname = elems[-1]
mcfn = "mc:" + mc + ":" + fn
else:
tid = tid.rsplit(":", 1)
mc = ""
fn = tid[0]
taskname = tid[1]
mcfn = fn
return (mc, fn, taskname, mcfn)
def build_tid(mc, fn, taskname):
if mc:
return "mc:" + mc + ":" + fn + ":" + taskname
return fn + ":" + taskname
# Index used to pair up potentially matching multiconfig tasks
# We match on PN, taskname and hash being equal
def pending_hash_index(tid, rqdata):
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
pn = rqdata.dataCaches[mc].pkg_fn[taskfn]
h = rqdata.runtaskentries[tid].unihash
return pn + ":" + "taskname" + h
class RunQueueStats:
"""
Holds statistics on the tasks handled by the associated runQueue
"""
def __init__(self, total, setscene_total):
self.completed = 0
self.skipped = 0
self.failed = 0
self.active = 0
self.setscene_active = 0
self.setscene_covered = 0
self.setscene_notcovered = 0
self.setscene_total = setscene_total
self.total = total
def copy(self):
obj = self.__class__(self.total, self.setscene_total)
obj.__dict__.update(self.__dict__)
return obj
def taskFailed(self):
self.active = self.active - 1
self.failed = self.failed + 1
def taskCompleted(self):
self.active = self.active - 1
self.completed = self.completed + 1
def taskSkipped(self):
self.active = self.active + 1
self.skipped = self.skipped + 1
def taskActive(self):
self.active = self.active + 1
def updateCovered(self, covered, notcovered):
self.setscene_covered = covered
self.setscene_notcovered = notcovered
def updateActiveSetscene(self, active):
self.setscene_active = active
# These values indicate the next step due to be run in the
# runQueue state machine
runQueuePrepare = 2
runQueueSceneInit = 3
runQueueRunning = 6
runQueueFailed = 7
runQueueCleanUp = 8
runQueueComplete = 9
class RunQueueScheduler(object):
"""
Control the order tasks are scheduled in.
"""
name = "basic"
def __init__(self, runqueue, rqdata):
"""
The default scheduler just returns the first buildable task (the
priority map is sorted by task number)
"""
self.rq = runqueue
self.rqdata = rqdata
self.numTasks = len(self.rqdata.runtaskentries)
self.prio_map = [self.rqdata.runtaskentries.keys()]
self.buildable = set()
self.skip_maxthread = {}
self.stamps = {}
for tid in self.rqdata.runtaskentries:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
self.stamps[tid] = bb.parse.siggen.stampfile_mcfn(taskname, taskfn, extrainfo=False)
if tid in self.rq.runq_buildable:
self.buildable.append(tid)
self.rev_prio_map = None
self.is_pressure_usable()
def is_pressure_usable(self):
"""
If monitoring pressure, return True if pressure files can be open and read. For example
openSUSE /proc/pressure/* files have readable file permissions but when read the error EOPNOTSUPP (Operation not supported)
is returned.
"""
if self.rq.max_cpu_pressure or self.rq.max_io_pressure or self.rq.max_memory_pressure:
try:
with open("/proc/pressure/cpu") as cpu_pressure_fds, \
open("/proc/pressure/io") as io_pressure_fds, \
open("/proc/pressure/memory") as memory_pressure_fds:
self.prev_cpu_pressure = cpu_pressure_fds.readline().split()[4].split("=")[1]
self.prev_io_pressure = io_pressure_fds.readline().split()[4].split("=")[1]
self.prev_memory_pressure = memory_pressure_fds.readline().split()[4].split("=")[1]
self.prev_pressure_time = time.time()
self.check_pressure = True
except:
bb.note("The /proc/pressure files can't be read. Continuing build without monitoring pressure")
self.check_pressure = False
else:
self.check_pressure = False
def exceeds_max_pressure(self):
"""
Monitor the difference in total pressure at least once per second, if
BB_PRESSURE_MAX_{CPU|IO|MEMORY} are set, return True if above threshold.
"""
if self.check_pressure:
with open("/proc/pressure/cpu") as cpu_pressure_fds, \
open("/proc/pressure/io") as io_pressure_fds, \
open("/proc/pressure/memory") as memory_pressure_fds:
# extract "total" from /proc/pressure/{cpu|io}
curr_cpu_pressure = cpu_pressure_fds.readline().split()[4].split("=")[1]
curr_io_pressure = io_pressure_fds.readline().split()[4].split("=")[1]
curr_memory_pressure = memory_pressure_fds.readline().split()[4].split("=")[1]
now = time.time()
tdiff = now - self.prev_pressure_time
if tdiff > 1.0:
exceeds_cpu_pressure = self.rq.max_cpu_pressure and (float(curr_cpu_pressure) - float(self.prev_cpu_pressure)) / tdiff > self.rq.max_cpu_pressure
exceeds_io_pressure = self.rq.max_io_pressure and (float(curr_io_pressure) - float(self.prev_io_pressure)) / tdiff > self.rq.max_io_pressure
exceeds_memory_pressure = self.rq.max_memory_pressure and (float(curr_memory_pressure) - float(self.prev_memory_pressure)) / tdiff > self.rq.max_memory_pressure
self.prev_cpu_pressure = curr_cpu_pressure
self.prev_io_pressure = curr_io_pressure
self.prev_memory_pressure = curr_memory_pressure
self.prev_pressure_time = now
else:
exceeds_cpu_pressure = self.rq.max_cpu_pressure and (float(curr_cpu_pressure) - float(self.prev_cpu_pressure)) > self.rq.max_cpu_pressure
exceeds_io_pressure = self.rq.max_io_pressure and (float(curr_io_pressure) - float(self.prev_io_pressure)) > self.rq.max_io_pressure
exceeds_memory_pressure = self.rq.max_memory_pressure and (float(curr_memory_pressure) - float(self.prev_memory_pressure)) > self.rq.max_memory_pressure
return (exceeds_cpu_pressure or exceeds_io_pressure or exceeds_memory_pressure)
return False
def next_buildable_task(self):
"""
Return the id of the first task we find that is buildable
"""
# Once tasks are running we don't need to worry about them again
self.buildable.difference_update(self.rq.runq_running)
buildable = set(self.buildable)
buildable.difference_update(self.rq.holdoff_tasks)
buildable.intersection_update(self.rq.tasks_covered | self.rq.tasks_notcovered)
if not buildable:
return None
# Bitbake requires that at least one task be active. Only check for pressure if
# this is the case, otherwise the pressure limitation could result in no tasks
# being active and no new tasks started thereby, at times, breaking the scheduler.
if self.rq.stats.active and self.exceeds_max_pressure():
return None
# Filter out tasks that have a max number of threads that have been exceeded
skip_buildable = {}
for running in self.rq.runq_running.difference(self.rq.runq_complete):
rtaskname = taskname_from_tid(running)
if rtaskname not in self.skip_maxthread:
self.skip_maxthread[rtaskname] = self.rq.cfgData.getVarFlag(rtaskname, "number_threads")
if not self.skip_maxthread[rtaskname]:
continue
if rtaskname in skip_buildable:
skip_buildable[rtaskname] += 1
else:
skip_buildable[rtaskname] = 1
if len(buildable) == 1:
tid = buildable.pop()
taskname = taskname_from_tid(tid)
if taskname in skip_buildable and skip_buildable[taskname] >= int(self.skip_maxthread[taskname]):
return None
stamp = self.stamps[tid]
if stamp not in self.rq.build_stamps.values():
return tid
if not self.rev_prio_map:
self.rev_prio_map = {}
for tid in self.rqdata.runtaskentries:
self.rev_prio_map[tid] = self.prio_map.index(tid)
best = None
bestprio = None
for tid in buildable:
taskname = taskname_from_tid(tid)
if taskname in skip_buildable and skip_buildable[taskname] >= int(self.skip_maxthread[taskname]):
continue
prio = self.rev_prio_map[tid]
if bestprio is None or bestprio > prio:
stamp = self.stamps[tid]
if stamp in self.rq.build_stamps.values():
continue
bestprio = prio
best = tid
return best
def next(self):
"""
Return the id of the task we should build next
"""
if self.rq.can_start_task():
return self.next_buildable_task()
def newbuildable(self, task):
self.buildable.add(task)
def removebuildable(self, task):
self.buildable.remove(task)
def describe_task(self, taskid):
result = 'ID %s' % taskid
if self.rev_prio_map:
result = result + (' pri %d' % self.rev_prio_map[taskid])
return result
def dump_prio(self, comment):
bb.debug(3, '%s (most important first):\n%s' %
(comment,
'\n'.join(['%d. %s' % (index + 1, self.describe_task(taskid)) for
index, taskid in enumerate(self.prio_map)])))
class RunQueueSchedulerSpeed(RunQueueScheduler):
"""
A scheduler optimised for speed. The priority map is sorted by task weight,
heavier weighted tasks (tasks needed by the most other tasks) are run first.
"""
name = "speed"
def __init__(self, runqueue, rqdata):
"""
The priority map is sorted by task weight.
"""
RunQueueScheduler.__init__(self, runqueue, rqdata)
weights = {}
for tid in self.rqdata.runtaskentries:
weight = self.rqdata.runtaskentries[tid].weight
if not weight in weights:
weights[weight] = []
weights[weight].append(tid)
self.prio_map = []
for weight in sorted(weights):
for w in weights[weight]:
self.prio_map.append(w)
self.prio_map.reverse()
class RunQueueSchedulerCompletion(RunQueueSchedulerSpeed):
"""
A scheduler optimised to complete .bb files as quickly as possible. The
priority map is sorted by task weight, but then reordered so once a given
.bb file starts to build, it's completed as quickly as possible by
running all tasks related to the same .bb file one after the after.
This works well where disk space is at a premium and classes like OE's
rm_work are in force.
"""
name = "completion"
def __init__(self, runqueue, rqdata):
super(RunQueueSchedulerCompletion, self).__init__(runqueue, rqdata)
# Extract list of tasks for each recipe, with tasks sorted
# ascending from "must run first" (typically do_fetch) to
# "runs last" (do_build). The speed scheduler prioritizes
# tasks that must run first before the ones that run later;
# this is what we depend on here.
task_lists = {}
for taskid in self.prio_map:
fn, taskname = taskid.rsplit(':', 1)
task_lists.setdefault(fn, []).append(taskname)
# Now unify the different task lists. The strategy is that
# common tasks get skipped and new ones get inserted after the
# preceeding common one(s) as they are found. Because task
# lists should differ only by their number of tasks, but not
# the ordering of the common tasks, this should result in a
# deterministic result that is a superset of the individual
# task ordering.
all_tasks = []
for recipe, new_tasks in task_lists.items():
index = 0
old_task = all_tasks[index] if index < len(all_tasks) else None
for new_task in new_tasks:
if old_task == new_task:
# Common task, skip it. This is the fast-path which
# avoids a full search.
index += 1
old_task = all_tasks[index] if index < len(all_tasks) else None
else:
try:
index = all_tasks.index(new_task)
# Already present, just not at the current
# place. We re-synchronized by changing the
# index so that it matches again. Now
# move on to the next existing task.
index += 1
old_task = all_tasks[index] if index < len(all_tasks) else None
except ValueError:
# Not present. Insert before old_task, which
# remains the same (but gets shifted back).
all_tasks.insert(index, new_task)
index += 1
bb.debug(3, 'merged task list: %s' % all_tasks)
# Now reverse the order so that tasks that finish the work on one
# recipe are considered more imporant (= come first). The ordering
# is now so that do_build is most important.
all_tasks.reverse()
# Group tasks of the same kind before tasks of less important
# kinds at the head of the queue (because earlier = lower
# priority number = runs earlier), while preserving the
# ordering by recipe. If recipe foo is more important than
# bar, then the goal is to work on foo's do_populate_sysroot
# before bar's do_populate_sysroot and on the more important
# tasks of foo before any of the less important tasks in any
# other recipe (if those other recipes are more important than
# foo).
#
# All of this only applies when tasks are runable. Explicit
# dependencies still override this ordering by priority.
#
# Here's an example why this priority re-ordering helps with
# minimizing disk usage. Consider a recipe foo with a higher
# priority than bar where foo DEPENDS on bar. Then the
# implicit rule (from base.bbclass) is that foo's do_configure
# depends on bar's do_populate_sysroot. This ensures that
# bar's do_populate_sysroot gets done first. Normally the
# tasks from foo would continue to run once that is done, and
# bar only gets completed and cleaned up later. By ordering
# bar's task that depend on bar's do_populate_sysroot before foo's
# do_configure, that problem gets avoided.
task_index = 0
self.dump_prio('original priorities')
for task in all_tasks:
for index in range(task_index, self.numTasks):
taskid = self.prio_map[index]
taskname = taskid.rsplit(':', 1)[1]
if taskname == task:
del self.prio_map[index]
self.prio_map.insert(task_index, taskid)
task_index += 1
self.dump_prio('completion priorities')
class RunTaskEntry(object):
def __init__(self):
self.depends = set()
self.revdeps = set()
self.hash = None
self.unihash = None
self.task = None
self.weight = 1
class RunQueueData:
"""
BitBake Run Queue implementation
"""
def __init__(self, rq, cooker, cfgData, dataCaches, taskData, targets):
self.cooker = cooker
self.dataCaches = dataCaches
self.taskData = taskData
self.targets = targets
self.rq = rq
self.warn_multi_bb = False
self.multi_provider_allowed = (cfgData.getVar("BB_MULTI_PROVIDER_ALLOWED") or "").split()
self.setscene_ignore_tasks = get_setscene_enforce_ignore_tasks(cfgData, targets)
self.setscene_ignore_tasks_checked = False
self.setscene_enforce = (cfgData.getVar('BB_SETSCENE_ENFORCE') == "1")
self.init_progress_reporter = bb.progress.DummyMultiStageProcessProgressReporter()
self.reset()
def reset(self):
self.runtaskentries = {}
def runq_depends_names(self, ids):
import re
ret = []
for id in ids:
nam = os.path.basename(id)
nam = re.sub("_[^,]*,", ",", nam)
ret.extend([nam])
return ret
def get_task_hash(self, tid):
return self.runtaskentries[tid].hash
def get_task_unihash(self, tid):
return self.runtaskentries[tid].unihash
def get_user_idstring(self, tid, task_name_suffix = ""):
return tid + task_name_suffix
def get_short_user_idstring(self, task, task_name_suffix = ""):
(mc, fn, taskname, taskfn) = split_tid_mcfn(task)
pn = self.dataCaches[mc].pkg_fn[taskfn]
taskname = taskname_from_tid(task) + task_name_suffix
return "%s:%s" % (pn, taskname)
def circular_depchains_handler(self, tasks):
"""
Some tasks aren't buildable, likely due to circular dependency issues.
Identify the circular dependencies and print them in a user readable format.
"""
from copy import deepcopy
valid_chains = []
explored_deps = {}
msgs = []
class TooManyLoops(Exception):
pass
def chain_reorder(chain):
"""
Reorder a dependency chain so the lowest task id is first
"""
lowest = 0
new_chain = []
for entry in range(len(chain)):
if chain[entry] < chain[lowest]:
lowest = entry
new_chain.extend(chain[lowest:])
new_chain.extend(chain[:lowest])
return new_chain
def chain_compare_equal(chain1, chain2):
"""
Compare two dependency chains and see if they're the same
"""
if len(chain1) != len(chain2):
return False
for index in range(len(chain1)):
if chain1[index] != chain2[index]:
return False
return True
def chain_array_contains(chain, chain_array):
"""
Return True if chain_array contains chain
"""
for ch in chain_array:
if chain_compare_equal(ch, chain):
return True
return False
def find_chains(tid, prev_chain):
prev_chain.append(tid)
total_deps = []
total_deps.extend(self.runtaskentries[tid].revdeps)
for revdep in self.runtaskentries[tid].revdeps:
if revdep in prev_chain:
idx = prev_chain.index(revdep)
# To prevent duplicates, reorder the chain to start with the lowest taskid
# and search through an array of those we've already printed
chain = prev_chain[idx:]
new_chain = chain_reorder(chain)
if not chain_array_contains(new_chain, valid_chains):
valid_chains.append(new_chain)
msgs.append("Dependency loop #%d found:\n" % len(valid_chains))
for dep in new_chain:
msgs.append(" Task %s (dependent Tasks %s)\n" % (dep, self.runq_depends_names(self.runtaskentries[dep].depends)))
msgs.append("\n")
if len(valid_chains) > 10:
msgs.append("Halted dependency loops search after 10 matches.\n")
raise TooManyLoops
continue
scan = False
if revdep not in explored_deps:
scan = True
elif revdep in explored_deps[revdep]:
scan = True
else:
for dep in prev_chain:
if dep in explored_deps[revdep]:
scan = True
if scan:
find_chains(revdep, copy.deepcopy(prev_chain))
for dep in explored_deps[revdep]:
if dep not in total_deps:
total_deps.append(dep)
explored_deps[tid] = total_deps
try:
for task in tasks:
find_chains(task, [])
except TooManyLoops:
pass
return msgs
def calculate_task_weights(self, endpoints):
"""
Calculate a number representing the "weight" of each task. Heavier weighted tasks
have more dependencies and hence should be executed sooner for maximum speed.
This function also sanity checks the task list finding tasks that are not
possible to execute due to circular dependencies.
"""
numTasks = len(self.runtaskentries)
weight = {}
deps_left = {}
task_done = {}
for tid in self.runtaskentries:
task_done[tid] = False
weight[tid] = 1
deps_left[tid] = len(self.runtaskentries[tid].revdeps)
for tid in endpoints:
weight[tid] = 10
task_done[tid] = True
while True:
next_points = []
for tid in endpoints:
for revdep in self.runtaskentries[tid].depends:
weight[revdep] = weight[revdep] + weight[tid]
deps_left[revdep] = deps_left[revdep] - 1
if deps_left[revdep] == 0:
next_points.append(revdep)
task_done[revdep] = True
endpoints = next_points
if not next_points:
break
# Circular dependency sanity check
problem_tasks = []
for tid in self.runtaskentries:
if task_done[tid] is False or deps_left[tid] != 0:
problem_tasks.append(tid)
logger.debug2("Task %s is not buildable", tid)
logger.debug2("(Complete marker was %s and the remaining dependency count was %s)\n", task_done[tid], deps_left[tid])
self.runtaskentries[tid].weight = weight[tid]
if problem_tasks:
message = "%s unbuildable tasks were found.\n" % len(problem_tasks)
message = message + "These are usually caused by circular dependencies and any circular dependency chains found will be printed below. Increase the debug level to see a list of unbuildable tasks.\n\n"
message = message + "Identifying dependency loops (this may take a short while)...\n"
logger.error(message)
msgs = self.circular_depchains_handler(problem_tasks)
message = "\n"
for msg in msgs:
message = message + msg
bb.msg.fatal("RunQueue", message)
return weight
def prepare(self):
"""
Turn a set of taskData into a RunQueue and compute data needed
to optimise the execution order.
"""
runq_build = {}
recursivetasks = {}
recursiveitasks = {}
recursivetasksselfref = set()
taskData = self.taskData
found = False
for mc in self.taskData:
if taskData[mc].taskentries:
found = True
break
if not found:
# Nothing to do
return 0
bb.parse.siggen.setup_datacache(self.dataCaches)
self.init_progress_reporter.start()
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Step A - Work out a list of tasks to run
#
# Taskdata gives us a list of possible providers for every build and run
# target ordered by priority. It also gives information on each of those
# providers.
#
# To create the actual list of tasks to execute we fix the list of
# providers and then resolve the dependencies into task IDs. This
# process is repeated for each type of dependency (tdepends, deptask,
# rdeptast, recrdeptask, idepends).
def add_build_dependencies(depids, tasknames, depends, mc):
for depname in depids:
# Won't be in build_targets if ASSUME_PROVIDED
if depname not in taskData[mc].build_targets or not taskData[mc].build_targets[depname]:
continue
depdata = taskData[mc].build_targets[depname][0]
if depdata is None:
continue
for taskname in tasknames:
t = depdata + ":" + taskname
if t in taskData[mc].taskentries:
depends.add(t)
def add_runtime_dependencies(depids, tasknames, depends, mc):
for depname in depids:
if depname not in taskData[mc].run_targets or not taskData[mc].run_targets[depname]:
continue
depdata = taskData[mc].run_targets[depname][0]
if depdata is None:
continue
for taskname in tasknames:
t = depdata + ":" + taskname
if t in taskData[mc].taskentries:
depends.add(t)
def add_mc_dependencies(mc, tid):
mcdeps = taskData[mc].get_mcdepends()
for dep in mcdeps:
mcdependency = dep.split(':')
pn = mcdependency[3]
frommc = mcdependency[1]
mcdep = mcdependency[2]
deptask = mcdependency[4]
if mcdep not in taskData:
bb.fatal("Multiconfig '%s' is referenced in multiconfig dependency '%s' but not enabled in BBMULTICONFIG?" % (mcdep, dep))
if mc == frommc:
fn = taskData[mcdep].build_targets[pn][0]
newdep = '%s:%s' % (fn,deptask)
taskData[mc].taskentries[tid].tdepends.append(newdep)
for mc in taskData:
for tid in taskData[mc].taskentries:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
#runtid = build_tid(mc, fn, taskname)
#logger.debug2("Processing %s,%s:%s", mc, fn, taskname)
depends = set()
task_deps = self.dataCaches[mc].task_deps[taskfn]
self.runtaskentries[tid] = RunTaskEntry()
if fn in taskData[mc].failed_fns:
continue
# We add multiconfig dependencies before processing internal task deps (tdepends)
if 'mcdepends' in task_deps and taskname in task_deps['mcdepends']:
add_mc_dependencies(mc, tid)
# Resolve task internal dependencies
#
# e.g. addtask before X after Y
for t in taskData[mc].taskentries[tid].tdepends:
(depmc, depfn, deptaskname, _) = split_tid_mcfn(t)
depends.add(build_tid(depmc, depfn, deptaskname))
# Resolve 'deptask' dependencies
#
# e.g. do_sometask[deptask] = "do_someothertask"
# (makes sure sometask runs after someothertask of all DEPENDS)
if 'deptask' in task_deps and taskname in task_deps['deptask']:
tasknames = task_deps['deptask'][taskname].split()
add_build_dependencies(taskData[mc].depids[taskfn], tasknames, depends, mc)
# Resolve 'rdeptask' dependencies
#
# e.g. do_sometask[rdeptask] = "do_someothertask"
# (makes sure sometask runs after someothertask of all RDEPENDS)
if 'rdeptask' in task_deps and taskname in task_deps['rdeptask']:
tasknames = task_deps['rdeptask'][taskname].split()
add_runtime_dependencies(taskData[mc].rdepids[taskfn], tasknames, depends, mc)
# Resolve inter-task dependencies
#
# e.g. do_sometask[depends] = "targetname:do_someothertask"
# (makes sure sometask runs after targetname's someothertask)
idepends = taskData[mc].taskentries[tid].idepends
for (depname, idependtask) in idepends:
if depname in taskData[mc].build_targets and taskData[mc].build_targets[depname] and not depname in taskData[mc].failed_deps:
# Won't be in build_targets if ASSUME_PROVIDED
depdata = taskData[mc].build_targets[depname][0]
if depdata is not None:
t = depdata + ":" + idependtask
depends.add(t)
if t not in taskData[mc].taskentries:
bb.msg.fatal("RunQueue", "Task %s in %s depends upon non-existent task %s in %s" % (taskname, fn, idependtask, depdata))
irdepends = taskData[mc].taskentries[tid].irdepends
for (depname, idependtask) in irdepends:
if depname in taskData[mc].run_targets:
# Won't be in run_targets if ASSUME_PROVIDED
if not taskData[mc].run_targets[depname]:
continue
depdata = taskData[mc].run_targets[depname][0]
if depdata is not None:
t = depdata + ":" + idependtask
depends.add(t)
if t not in taskData[mc].taskentries:
bb.msg.fatal("RunQueue", "Task %s in %s rdepends upon non-existent task %s in %s" % (taskname, fn, idependtask, depdata))
# Resolve recursive 'recrdeptask' dependencies (Part A)
#
# e.g. do_sometask[recrdeptask] = "do_someothertask"
# (makes sure sometask runs after someothertask of all DEPENDS, RDEPENDS and intertask dependencies, recursively)
# We cover the recursive part of the dependencies below
if 'recrdeptask' in task_deps and taskname in task_deps['recrdeptask']:
tasknames = task_deps['recrdeptask'][taskname].split()
recursivetasks[tid] = tasknames
add_build_dependencies(taskData[mc].depids[taskfn], tasknames, depends, mc)
add_runtime_dependencies(taskData[mc].rdepids[taskfn], tasknames, depends, mc)
if taskname in tasknames:
recursivetasksselfref.add(tid)
if 'recideptask' in task_deps and taskname in task_deps['recideptask']:
recursiveitasks[tid] = []
for t in task_deps['recideptask'][taskname].split():
newdep = build_tid(mc, fn, t)
recursiveitasks[tid].append(newdep)
self.runtaskentries[tid].depends = depends
# Remove all self references
self.runtaskentries[tid].depends.discard(tid)
#self.dump_data()
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Resolve recursive 'recrdeptask' dependencies (Part B)
#
# e.g. do_sometask[recrdeptask] = "do_someothertask"
# (makes sure sometask runs after someothertask of all DEPENDS, RDEPENDS and intertask dependencies, recursively)
# We need to do this separately since we need all of runtaskentries[*].depends to be complete before this is processed
# Generating/interating recursive lists of dependencies is painful and potentially slow
# Precompute recursive task dependencies here by:
# a) create a temp list of reverse dependencies (revdeps)
# b) walk up the ends of the chains (when a given task no longer has dependencies i.e. len(deps) == 0)
# c) combine the total list of dependencies in cumulativedeps
# d) optimise by pre-truncating 'task' off the items in cumulativedeps (keeps items in sets lower)
revdeps = {}
deps = {}
cumulativedeps = {}
for tid in self.runtaskentries:
deps[tid] = set(self.runtaskentries[tid].depends)
revdeps[tid] = set()
cumulativedeps[tid] = set()
# Generate a temp list of reverse dependencies
for tid in self.runtaskentries:
for dep in self.runtaskentries[tid].depends:
revdeps[dep].add(tid)
# Find the dependency chain endpoints
endpoints = set()
for tid in self.runtaskentries:
if not deps[tid]:
endpoints.add(tid)
# Iterate the chains collating dependencies
while endpoints:
next = set()
for tid in endpoints:
for dep in revdeps[tid]:
cumulativedeps[dep].add(fn_from_tid(tid))
cumulativedeps[dep].update(cumulativedeps[tid])
if tid in deps[dep]:
deps[dep].remove(tid)
if not deps[dep]:
next.add(dep)
endpoints = next
#for tid in deps:
# if deps[tid]:
# bb.warn("Sanity test failure, dependencies left for %s (%s)" % (tid, deps[tid]))
# Loop here since recrdeptasks can depend upon other recrdeptasks and we have to
# resolve these recursively until we aren't adding any further extra dependencies
extradeps = True
while extradeps:
extradeps = 0
for tid in recursivetasks:
tasknames = recursivetasks[tid]
totaldeps = set(self.runtaskentries[tid].depends)
if tid in recursiveitasks:
totaldeps.update(recursiveitasks[tid])
for dep in recursiveitasks[tid]:
if dep not in self.runtaskentries:
continue
totaldeps.update(self.runtaskentries[dep].depends)
deps = set()
for dep in totaldeps:
if dep in cumulativedeps:
deps.update(cumulativedeps[dep])
for t in deps:
for taskname in tasknames:
newtid = t + ":" + taskname
if newtid == tid:
continue
if newtid in self.runtaskentries and newtid not in self.runtaskentries[tid].depends:
extradeps += 1
self.runtaskentries[tid].depends.add(newtid)
# Handle recursive tasks which depend upon other recursive tasks
deps = set()
for dep in self.runtaskentries[tid].depends.intersection(recursivetasks):
deps.update(self.runtaskentries[dep].depends.difference(self.runtaskentries[tid].depends))
for newtid in deps:
for taskname in tasknames:
if not newtid.endswith(":" + taskname):
continue
if newtid in self.runtaskentries:
extradeps += 1
self.runtaskentries[tid].depends.add(newtid)
bb.debug(1, "Added %s recursive dependencies in this loop" % extradeps)
# Remove recrdeptask circular references so that do_a[recrdeptask] = "do_a do_b" can work
for tid in recursivetasksselfref:
self.runtaskentries[tid].depends.difference_update(recursivetasksselfref)
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
#self.dump_data()
# Step B - Mark all active tasks
#
# Start with the tasks we were asked to run and mark all dependencies
# as active too. If the task is to be 'forced', clear its stamp. Once
# all active tasks are marked, prune the ones we don't need.
logger.verbose("Marking Active Tasks")
def mark_active(tid, depth):
"""
Mark an item as active along with its depends
(calls itself recursively)
"""
if tid in runq_build:
return
runq_build[tid] = 1
depends = self.runtaskentries[tid].depends
for depend in depends:
mark_active(depend, depth+1)
def invalidate_task(tid, error_nostamp):
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
taskdep = self.dataCaches[mc].task_deps[taskfn]
if fn + ":" + taskname not in taskData[mc].taskentries:
logger.warning("Task %s does not exist, invalidating this task will have no effect" % taskname)
if 'nostamp' in taskdep and taskname in taskdep['nostamp']:
if error_nostamp:
bb.fatal("Task %s is marked nostamp, cannot invalidate this task" % taskname)
else:
bb.debug(1, "Task %s is marked nostamp, cannot invalidate this task" % taskname)
else:
logger.verbose("Invalidate task %s, %s", taskname, fn)
bb.parse.siggen.invalidate_task(taskname, taskfn)
self.target_tids = []
for (mc, target, task, fn) in self.targets:
if target not in taskData[mc].build_targets or not taskData[mc].build_targets[target]:
continue
if target in taskData[mc].failed_deps:
continue
parents = False
if task.endswith('-'):
parents = True
task = task[:-1]
if fn in taskData[mc].failed_fns:
continue
# fn already has mc prefix
tid = fn + ":" + task
self.target_tids.append(tid)
if tid not in taskData[mc].taskentries:
import difflib
tasks = []
for x in taskData[mc].taskentries:
if x.startswith(fn + ":"):
tasks.append(taskname_from_tid(x))
close_matches = difflib.get_close_matches(task, tasks, cutoff=0.7)
if close_matches:
extra = ". Close matches:\n %s" % "\n ".join(close_matches)
else:
extra = ""
bb.msg.fatal("RunQueue", "Task %s does not exist for target %s (%s)%s" % (task, target, tid, extra))
# For tasks called "XXXX-", ony run their dependencies
if parents:
for i in self.runtaskentries[tid].depends:
mark_active(i, 1)
else:
mark_active(tid, 1)
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Step C - Prune all inactive tasks
#
# Once all active tasks are marked, prune the ones we don't need.
# Handle --runall
if self.cooker.configuration.runall:
# re-run the mark_active and then drop unused tasks from new list
reduced_tasklist = set(self.runtaskentries.keys())
for tid in list(self.runtaskentries.keys()):
if tid not in runq_build:
reduced_tasklist.remove(tid)
runq_build = {}
for task in self.cooker.configuration.runall:
if not task.startswith("do_"):
task = "do_{0}".format(task)
runall_tids = set()
for tid in reduced_tasklist:
wanttid = "{0}:{1}".format(fn_from_tid(tid), task)
if wanttid in self.runtaskentries:
runall_tids.add(wanttid)
for tid in list(runall_tids):
mark_active(tid, 1)
if self.cooker.configuration.force:
invalidate_task(tid, False)
delcount = set()
for tid in list(self.runtaskentries.keys()):
if tid not in runq_build:
delcount.add(tid)
del self.runtaskentries[tid]
if self.cooker.configuration.runall:
if not self.runtaskentries:
bb.msg.fatal("RunQueue", "Could not find any tasks with the tasknames %s to run within the recipes of the taskgraphs of the targets %s" % (str(self.cooker.configuration.runall), str(self.targets)))
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Handle runonly
if self.cooker.configuration.runonly:
# re-run the mark_active and then drop unused tasks from new list
runq_build = {}
for task in self.cooker.configuration.runonly:
if not task.startswith("do_"):
task = "do_{0}".format(task)
runonly_tids = [k for k in self.runtaskentries.keys() if taskname_from_tid(k) == task]
for tid in runonly_tids:
mark_active(tid, 1)
if self.cooker.configuration.force:
invalidate_task(tid, False)
for tid in list(self.runtaskentries.keys()):
if tid not in runq_build:
delcount.add(tid)
del self.runtaskentries[tid]
if not self.runtaskentries:
bb.msg.fatal("RunQueue", "Could not find any tasks with the tasknames %s to run within the taskgraphs of the targets %s" % (str(self.cooker.configuration.runonly), str(self.targets)))
#
# Step D - Sanity checks and computation
#
# Check to make sure we still have tasks to run
if not self.runtaskentries:
if not taskData[''].halt:
bb.msg.fatal("RunQueue", "All buildable tasks have been run but the build is incomplete (--continue mode). Errors for the tasks that failed will have been printed above.")
else:
bb.msg.fatal("RunQueue", "No active tasks and not in --continue mode?! Please report this bug.")
logger.verbose("Pruned %s inactive tasks, %s left", len(delcount), len(self.runtaskentries))
logger.verbose("Assign Weightings")
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Generate a list of reverse dependencies to ease future calculations
for tid in self.runtaskentries:
for dep in self.runtaskentries[tid].depends:
self.runtaskentries[dep].revdeps.add(tid)
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Identify tasks at the end of dependency chains
# Error on circular dependency loops (length two)
endpoints = []
for tid in self.runtaskentries:
revdeps = self.runtaskentries[tid].revdeps
if not revdeps:
endpoints.append(tid)
for dep in revdeps:
if dep in self.runtaskentries[tid].depends:
bb.msg.fatal("RunQueue", "Task %s has circular dependency on %s" % (tid, dep))
logger.verbose("Compute totals (have %s endpoint(s))", len(endpoints))
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Calculate task weights
# Check of higher length circular dependencies
self.runq_weight = self.calculate_task_weights(endpoints)
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Sanity Check - Check for multiple tasks building the same provider
for mc in self.dataCaches:
prov_list = {}
seen_fn = []
for tid in self.runtaskentries:
(tidmc, fn, taskname, taskfn) = split_tid_mcfn(tid)
if taskfn in seen_fn:
continue
if mc != tidmc:
continue
seen_fn.append(taskfn)
for prov in self.dataCaches[mc].fn_provides[taskfn]:
if prov not in prov_list:
prov_list[prov] = [taskfn]
elif taskfn not in prov_list[prov]:
prov_list[prov].append(taskfn)
for prov in prov_list:
if len(prov_list[prov]) < 2:
continue
if prov in self.multi_provider_allowed:
continue
seen_pn = []
# If two versions of the same PN are being built its fatal, we don't support it.
for fn in prov_list[prov]:
pn = self.dataCaches[mc].pkg_fn[fn]
if pn not in seen_pn:
seen_pn.append(pn)
else:
bb.fatal("Multiple versions of %s are due to be built (%s). Only one version of a given PN should be built in any given build. You likely need to set PREFERRED_VERSION_%s to select the correct version or don't depend on multiple versions." % (pn, " ".join(prov_list[prov]), pn))
msgs = ["Multiple .bb files are due to be built which each provide %s:\n %s" % (prov, "\n ".join(prov_list[prov]))]
#
# Construct a list of things which uniquely depend on each provider
# since this may help the user figure out which dependency is triggering this warning
#
msgs.append("\nA list of tasks depending on these providers is shown and may help explain where the dependency comes from.")
deplist = {}
commondeps = None
for provfn in prov_list[prov]:
deps = set()
for tid in self.runtaskentries:
fn = fn_from_tid(tid)
if fn != provfn:
continue
for dep in self.runtaskentries[tid].revdeps:
fn = fn_from_tid(dep)
if fn == provfn:
continue
deps.add(dep)
if not commondeps:
commondeps = set(deps)
else:
commondeps &= deps
deplist[provfn] = deps
for provfn in deplist:
msgs.append("\n%s has unique dependees:\n %s" % (provfn, "\n ".join(deplist[provfn] - commondeps)))
#
# Construct a list of provides and runtime providers for each recipe
# (rprovides has to cover RPROVIDES, PACKAGES, PACKAGES_DYNAMIC)
#
msgs.append("\nIt could be that one recipe provides something the other doesn't and should. The following provider and runtime provider differences may be helpful.")
provide_results = {}
rprovide_results = {}
commonprovs = None
commonrprovs = None
for provfn in prov_list[prov]:
provides = set(self.dataCaches[mc].fn_provides[provfn])
rprovides = set()
for rprovide in self.dataCaches[mc].rproviders:
if provfn in self.dataCaches[mc].rproviders[rprovide]:
rprovides.add(rprovide)
for package in self.dataCaches[mc].packages:
if provfn in self.dataCaches[mc].packages[package]:
rprovides.add(package)
for package in self.dataCaches[mc].packages_dynamic:
if provfn in self.dataCaches[mc].packages_dynamic[package]:
rprovides.add(package)
if not commonprovs:
commonprovs = set(provides)
else:
commonprovs &= provides
provide_results[provfn] = provides
if not commonrprovs:
commonrprovs = set(rprovides)
else:
commonrprovs &= rprovides
rprovide_results[provfn] = rprovides
#msgs.append("\nCommon provides:\n %s" % ("\n ".join(commonprovs)))
#msgs.append("\nCommon rprovides:\n %s" % ("\n ".join(commonrprovs)))
for provfn in prov_list[prov]:
msgs.append("\n%s has unique provides:\n %s" % (provfn, "\n ".join(provide_results[provfn] - commonprovs)))
msgs.append("\n%s has unique rprovides:\n %s" % (provfn, "\n ".join(rprovide_results[provfn] - commonrprovs)))
if self.warn_multi_bb:
logger.verbnote("".join(msgs))
else:
logger.error("".join(msgs))
self.init_progress_reporter.next_stage()
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Iterate over the task list looking for tasks with a 'setscene' function
self.runq_setscene_tids = set()
if not self.cooker.configuration.nosetscene:
for tid in self.runtaskentries:
(mc, fn, taskname, _) = split_tid_mcfn(tid)
setscenetid = tid + "_setscene"
if setscenetid not in taskData[mc].taskentries:
continue
self.runq_setscene_tids.add(tid)
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Invalidate task if force mode active
if self.cooker.configuration.force:
for tid in self.target_tids:
invalidate_task(tid, False)
# Invalidate task if invalidate mode active
if self.cooker.configuration.invalidate_stamp:
for tid in self.target_tids:
fn = fn_from_tid(tid)
for st in self.cooker.configuration.invalidate_stamp.split(','):
if not st.startswith("do_"):
st = "do_%s" % st
invalidate_task(fn + ":" + st, True)
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
# Create and print to the logs a virtual/xxxx -> PN (fn) table
for mc in taskData:
virtmap = taskData[mc].get_providermap(prefix="virtual/")
virtpnmap = {}
for v in virtmap:
virtpnmap[v] = self.dataCaches[mc].pkg_fn[virtmap[v]]
bb.debug(2, "%s resolved to: %s (%s)" % (v, virtpnmap[v], virtmap[v]))
if hasattr(bb.parse.siggen, "tasks_resolved"):
bb.parse.siggen.tasks_resolved(virtmap, virtpnmap, self.dataCaches[mc])
self.init_progress_reporter.next_stage()
bb.event.check_for_interrupts(self.cooker.data)
bb.parse.siggen.set_setscene_tasks(self.runq_setscene_tids)
# Iterate over the task list and call into the siggen code
dealtwith = set()
todeal = set(self.runtaskentries)
while todeal:
for tid in todeal.copy():
if not (self.runtaskentries[tid].depends - dealtwith):
dealtwith.add(tid)
todeal.remove(tid)
self.prepare_task_hash(tid)
bb.event.check_for_interrupts(self.cooker.data)
bb.parse.siggen.writeout_file_checksum_cache()
#self.dump_data()
return len(self.runtaskentries)
def prepare_task_hash(self, tid):
bb.parse.siggen.prep_taskhash(tid, self.runtaskentries[tid].depends, self.dataCaches)
self.runtaskentries[tid].hash = bb.parse.siggen.get_taskhash(tid, self.runtaskentries[tid].depends, self.dataCaches)
self.runtaskentries[tid].unihash = bb.parse.siggen.get_unihash(tid)
def dump_data(self):
"""
Dump some debug information on the internal data structures
"""
logger.debug3("run_tasks:")
for tid in self.runtaskentries:
logger.debug3(" %s: %s Deps %s RevDeps %s", tid,
self.runtaskentries[tid].weight,
self.runtaskentries[tid].depends,
self.runtaskentries[tid].revdeps)
class RunQueueWorker():
def __init__(self, process, pipe):
self.process = process
self.pipe = pipe
class RunQueue:
def __init__(self, cooker, cfgData, dataCaches, taskData, targets):
self.cooker = cooker
self.cfgData = cfgData
self.rqdata = RunQueueData(self, cooker, cfgData, dataCaches, taskData, targets)
self.hashvalidate = cfgData.getVar("BB_HASHCHECK_FUNCTION") or None
self.depvalidate = cfgData.getVar("BB_SETSCENE_DEPVALID") or None
self.state = runQueuePrepare
# For disk space monitor
# Invoked at regular time intervals via the bitbake heartbeat event
# while the build is running. We generate a unique name for the handler
# here, just in case that there ever is more than one RunQueue instance,
# start the handler when reaching runQueueSceneInit, and stop it when
# done with the build.
self.dm = monitordisk.diskMonitor(cfgData)
self.dm_event_handler_name = '_bb_diskmonitor_' + str(id(self))
self.dm_event_handler_registered = False
self.rqexe = None
self.worker = {}
self.fakeworker = {}
def _start_worker(self, mc, fakeroot = False, rqexec = None):
logger.debug("Starting bitbake-worker")
magic = "decafbad"
if self.cooker.configuration.profile:
magic = "decafbadbad"
fakerootlogs = None
if fakeroot:
magic = magic + "beef"
mcdata = self.cooker.databuilder.mcdata[mc]
fakerootcmd = shlex.split(mcdata.getVar("FAKEROOTCMD"))
fakerootenv = (mcdata.getVar("FAKEROOTBASEENV") or "").split()
env = os.environ.copy()
for key, value in (var.split('=') for var in fakerootenv):
env[key] = value
worker = subprocess.Popen(fakerootcmd + ["bitbake-worker", magic], stdout=subprocess.PIPE, stdin=subprocess.PIPE, env=env)
fakerootlogs = self.rqdata.dataCaches[mc].fakerootlogs
else:
worker = subprocess.Popen(["bitbake-worker", magic], stdout=subprocess.PIPE, stdin=subprocess.PIPE)
bb.utils.nonblockingfd(worker.stdout)
workerpipe = runQueuePipe(worker.stdout, None, self.cfgData, self, rqexec, fakerootlogs=fakerootlogs)
workerdata = {
"sigdata" : bb.parse.siggen.get_taskdata(),
"logdefaultlevel" : bb.msg.loggerDefaultLogLevel,
"build_verbose_shell" : self.cooker.configuration.build_verbose_shell,
"build_verbose_stdout" : self.cooker.configuration.build_verbose_stdout,
"logdefaultdomain" : bb.msg.loggerDefaultDomains,
"prhost" : self.cooker.prhost,
"buildname" : self.cfgData.getVar("BUILDNAME"),
"date" : self.cfgData.getVar("DATE"),
"time" : self.cfgData.getVar("TIME"),
"hashservaddr" : self.cooker.hashservaddr,
"umask" : self.cfgData.getVar("BB_DEFAULT_UMASK"),
}
worker.stdin.write(b"<cookerconfig>" + pickle.dumps(self.cooker.configuration) + b"</cookerconfig>")
worker.stdin.write(b"<extraconfigdata>" + pickle.dumps(self.cooker.extraconfigdata) + b"</extraconfigdata>")
worker.stdin.write(b"<workerdata>" + pickle.dumps(workerdata) + b"</workerdata>")
worker.stdin.flush()
return RunQueueWorker(worker, workerpipe)
def _teardown_worker(self, worker):
if not worker:
return
logger.debug("Teardown for bitbake-worker")
try:
worker.process.stdin.write(b"<quit></quit>")
worker.process.stdin.flush()
worker.process.stdin.close()
except IOError:
pass
while worker.process.returncode is None:
worker.pipe.read()
worker.process.poll()
while worker.pipe.read():
continue
worker.pipe.close()
def start_worker(self):
if self.worker:
self.teardown_workers()
self.teardown = False
for mc in self.rqdata.dataCaches:
self.worker[mc] = self._start_worker(mc)
def start_fakeworker(self, rqexec, mc):
if not mc in self.fakeworker:
self.fakeworker[mc] = self._start_worker(mc, True, rqexec)
def teardown_workers(self):
self.teardown = True
for mc in self.worker:
self._teardown_worker(self.worker[mc])
self.worker = {}
for mc in self.fakeworker:
self._teardown_worker(self.fakeworker[mc])
self.fakeworker = {}
def read_workers(self):
for mc in self.worker:
self.worker[mc].pipe.read()
for mc in self.fakeworker:
self.fakeworker[mc].pipe.read()
def active_fds(self):
fds = []
for mc in self.worker:
fds.append(self.worker[mc].pipe.input)
for mc in self.fakeworker:
fds.append(self.fakeworker[mc].pipe.input)
return fds
def check_stamp_task(self, tid, taskname = None, recurse = False, cache = None):
def get_timestamp(f):
try:
if not os.access(f, os.F_OK):
return None
return os.stat(f)[stat.ST_MTIME]
except:
return None
(mc, fn, tn, taskfn) = split_tid_mcfn(tid)
if taskname is None:
taskname = tn
stampfile = bb.parse.siggen.stampfile_mcfn(taskname, taskfn)
# If the stamp is missing, it's not current
if not os.access(stampfile, os.F_OK):
logger.debug2("Stampfile %s not available", stampfile)
return False
# If it's a 'nostamp' task, it's not current
taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn]
if 'nostamp' in taskdep and taskname in taskdep['nostamp']:
logger.debug2("%s.%s is nostamp\n", fn, taskname)
return False
if taskname.endswith("_setscene"):
return True
if cache is None:
cache = {}
iscurrent = True
t1 = get_timestamp(stampfile)
for dep in self.rqdata.runtaskentries[tid].depends:
if iscurrent:
(mc2, fn2, taskname2, taskfn2) = split_tid_mcfn(dep)
stampfile2 = bb.parse.siggen.stampfile_mcfn(taskname2, taskfn2)
stampfile3 = bb.parse.siggen.stampfile_mcfn(taskname2 + "_setscene", taskfn2)
t2 = get_timestamp(stampfile2)
t3 = get_timestamp(stampfile3)
if t3 and not t2:
continue
if t3 and t3 > t2:
continue
if fn == fn2:
if not t2:
logger.debug2('Stampfile %s does not exist', stampfile2)
iscurrent = False
break
if t1 < t2:
logger.debug2('Stampfile %s < %s', stampfile, stampfile2)
iscurrent = False
break
if recurse and iscurrent:
if dep in cache:
iscurrent = cache[dep]
if not iscurrent:
logger.debug2('Stampfile for dependency %s:%s invalid (cached)' % (fn2, taskname2))
else:
iscurrent = self.check_stamp_task(dep, recurse=True, cache=cache)
cache[dep] = iscurrent
if recurse:
cache[tid] = iscurrent
return iscurrent
def validate_hashes(self, tocheck, data, currentcount=0, siginfo=False, summary=True):
valid = set()
if self.hashvalidate:
sq_data = {}
sq_data['hash'] = {}
sq_data['hashfn'] = {}
sq_data['unihash'] = {}
for tid in tocheck:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
sq_data['hash'][tid] = self.rqdata.runtaskentries[tid].hash
sq_data['hashfn'][tid] = self.rqdata.dataCaches[mc].hashfn[taskfn]
sq_data['unihash'][tid] = self.rqdata.runtaskentries[tid].unihash
valid = self.validate_hash(sq_data, data, siginfo, currentcount, summary)
return valid
def validate_hash(self, sq_data, d, siginfo, currentcount, summary):
locs = {"sq_data" : sq_data, "d" : d, "siginfo" : siginfo, "currentcount" : currentcount, "summary" : summary}
# Metadata has **kwargs so args can be added, sq_data can also gain new fields
call = self.hashvalidate + "(sq_data, d, siginfo=siginfo, currentcount=currentcount, summary=summary)"
return bb.utils.better_eval(call, locs)
def _execute_runqueue(self):
"""
Run the tasks in a queue prepared by rqdata.prepare()
Upon failure, optionally try to recover the build using any alternate providers
(if the halt on failure configuration option isn't set)
"""
retval = True
bb.event.check_for_interrupts(self.cooker.data)
if self.state is runQueuePrepare:
# NOTE: if you add, remove or significantly refactor the stages of this
# process then you should recalculate the weightings here. This is quite
# easy to do - just change the next line temporarily to pass debug=True as
# the last parameter and you'll get a printout of the weightings as well
# as a map to the lines where next_stage() was called. Of course this isn't
# critical, but it helps to keep the progress reporting accurate.
self.rqdata.init_progress_reporter = bb.progress.MultiStageProcessProgressReporter(self.cooker.data,
"Initialising tasks",
[43, 967, 4, 3, 1, 5, 3, 7, 13, 1, 2, 1, 1, 246, 35, 1, 38, 1, 35, 2, 338, 204, 142, 3, 3, 37, 244])
if self.rqdata.prepare() == 0:
self.state = runQueueComplete
else:
self.state = runQueueSceneInit
bb.parse.siggen.save_unitaskhashes()
if self.state is runQueueSceneInit:
self.rqdata.init_progress_reporter.next_stage()
# we are ready to run, emit dependency info to any UI or class which
# needs it
depgraph = self.cooker.buildDependTree(self, self.rqdata.taskData)
self.rqdata.init_progress_reporter.next_stage()
bb.event.fire(bb.event.DepTreeGenerated(depgraph), self.cooker.data)
if not self.dm_event_handler_registered:
res = bb.event.register(self.dm_event_handler_name,
lambda x, y: self.dm.check(self) if self.state in [runQueueRunning, runQueueCleanUp] else False,
('bb.event.HeartbeatEvent',), data=self.cfgData)
self.dm_event_handler_registered = True
dump = self.cooker.configuration.dump_signatures
if dump:
self.rqdata.init_progress_reporter.finish()
if 'printdiff' in dump:
invalidtasks = self.print_diffscenetasks()
self.dump_signatures(dump)
if 'printdiff' in dump:
self.write_diffscenetasks(invalidtasks)
self.state = runQueueComplete
if self.state is runQueueSceneInit:
self.rqdata.init_progress_reporter.next_stage()
self.start_worker()
self.rqdata.init_progress_reporter.next_stage()
self.rqexe = RunQueueExecute(self)
# If we don't have any setscene functions, skip execution
if not self.rqdata.runq_setscene_tids:
logger.info('No setscene tasks')
for tid in self.rqdata.runtaskentries:
if not self.rqdata.runtaskentries[tid].depends:
self.rqexe.setbuildable(tid)
self.rqexe.tasks_notcovered.add(tid)
self.rqexe.sqdone = True
logger.info('Executing Tasks')
self.state = runQueueRunning
if self.state is runQueueRunning:
retval = self.rqexe.execute()
if self.state is runQueueCleanUp:
retval = self.rqexe.finish()
build_done = self.state is runQueueComplete or self.state is runQueueFailed
if build_done and self.dm_event_handler_registered:
bb.event.remove(self.dm_event_handler_name, None, data=self.cfgData)
self.dm_event_handler_registered = False
if build_done and self.rqexe:
bb.parse.siggen.save_unitaskhashes()
self.teardown_workers()
if self.rqexe:
if self.rqexe.stats.failed:
logger.info("Tasks Summary: Attempted %d tasks of which %d didn't need to be rerun and %d failed.", self.rqexe.stats.completed + self.rqexe.stats.failed, self.rqexe.stats.skipped, self.rqexe.stats.failed)
else:
# Let's avoid the word "failed" if nothing actually did
logger.info("Tasks Summary: Attempted %d tasks of which %d didn't need to be rerun and all succeeded.", self.rqexe.stats.completed, self.rqexe.stats.skipped)
if self.state is runQueueFailed:
raise bb.runqueue.TaskFailure(self.rqexe.failed_tids)
if self.state is runQueueComplete:
# All done
return False
# Loop
return retval
def execute_runqueue(self):
# Catch unexpected exceptions and ensure we exit when an error occurs, not loop.
try:
return self._execute_runqueue()
except bb.runqueue.TaskFailure:
raise
except SystemExit:
raise
except bb.BBHandledException:
try:
self.teardown_workers()
except:
pass
self.state = runQueueComplete
raise
except Exception as err:
logger.exception("An uncaught exception occurred in runqueue")
try:
self.teardown_workers()
except:
pass
self.state = runQueueComplete
raise
def finish_runqueue(self, now = False):
if not self.rqexe:
self.state = runQueueComplete
return
if now:
self.rqexe.finish_now()
else:
self.rqexe.finish()
def _rq_dump_sigtid(self, tids):
for tid in tids:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
dataCaches = self.rqdata.dataCaches
bb.parse.siggen.dump_sigtask(taskfn, taskname, dataCaches[mc].stamp[taskfn], True)
def dump_signatures(self, options):
if bb.cooker.CookerFeatures.RECIPE_SIGGEN_INFO not in self.cooker.featureset:
bb.fatal("The dump signatures functionality needs the RECIPE_SIGGEN_INFO feature enabled")
bb.note("Writing task signature files")
max_process = int(self.cfgData.getVar("BB_NUMBER_PARSE_THREADS") or os.cpu_count() or 1)
def chunkify(l, n):
return [l[i::n] for i in range(n)]
tids = chunkify(list(self.rqdata.runtaskentries), max_process)
# We cannot use the real multiprocessing.Pool easily due to some local data
# that can't be pickled. This is a cheap multi-process solution.
launched = []
while tids:
if len(launched) < max_process:
p = Process(target=self._rq_dump_sigtid, args=(tids.pop(), ))
p.start()
launched.append(p)
for q in launched:
# The finished processes are joined when calling is_alive()
if not q.is_alive():
launched.remove(q)
for p in launched:
p.join()
bb.parse.siggen.dump_sigs(self.rqdata.dataCaches, options)
return
def print_diffscenetasks(self):
noexec = []
tocheck = set()
for tid in self.rqdata.runtaskentries:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn]
if 'noexec' in taskdep and taskname in taskdep['noexec']:
noexec.append(tid)
continue
tocheck.add(tid)
valid_new = self.validate_hashes(tocheck, self.cooker.data, 0, True, summary=False)
# Tasks which are both setscene and noexec never care about dependencies
# We therefore find tasks which are setscene and noexec and mark their
# unique dependencies as valid.
for tid in noexec:
if tid not in self.rqdata.runq_setscene_tids:
continue
for dep in self.rqdata.runtaskentries[tid].depends:
hasnoexecparents = True
for dep2 in self.rqdata.runtaskentries[dep].revdeps:
if dep2 in self.rqdata.runq_setscene_tids and dep2 in noexec:
continue
hasnoexecparents = False
break
if hasnoexecparents:
valid_new.add(dep)
invalidtasks = set()
for tid in self.rqdata.runtaskentries:
if tid not in valid_new and tid not in noexec:
invalidtasks.add(tid)
found = set()
processed = set()
for tid in invalidtasks:
toprocess = set([tid])
while toprocess:
next = set()
for t in toprocess:
for dep in self.rqdata.runtaskentries[t].depends:
if dep in invalidtasks:
found.add(tid)
if dep not in processed:
processed.add(dep)
next.add(dep)
toprocess = next
if tid in found:
toprocess = set()
tasklist = []
for tid in invalidtasks.difference(found):
tasklist.append(tid)
if tasklist:
bb.plain("The differences between the current build and any cached tasks start at the following tasks:\n" + "\n".join(tasklist))
return invalidtasks.difference(found)
def write_diffscenetasks(self, invalidtasks):
# Define recursion callback
def recursecb(key, hash1, hash2):
hashes = [hash1, hash2]
hashfiles = bb.siggen.find_siginfo(key, None, hashes, self.cfgData)
recout = []
if len(hashfiles) == 2:
out2 = bb.siggen.compare_sigfiles(hashfiles[hash1], hashfiles[hash2], recursecb)
recout.extend(list(' ' + l for l in out2))
else:
recout.append("Unable to find matching sigdata for %s with hashes %s or %s" % (key, hash1, hash2))
return recout
for tid in invalidtasks:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
pn = self.rqdata.dataCaches[mc].pkg_fn[taskfn]
h = self.rqdata.runtaskentries[tid].hash
matches = bb.siggen.find_siginfo(pn, taskname, [], self.cooker.databuilder.mcdata[mc])
match = None
for m in matches:
if h in m:
match = m
if match is None:
bb.fatal("Can't find a task we're supposed to have written out? (hash: %s)?" % h)
matches = {k : v for k, v in iter(matches.items()) if h not in k}
if matches:
latestmatch = sorted(matches.keys(), key=lambda f: matches[f])[-1]
prevh = __find_sha256__.search(latestmatch).group(0)
output = bb.siggen.compare_sigfiles(latestmatch, match, recursecb)
bb.plain("\nTask %s:%s couldn't be used from the cache because:\n We need hash %s, closest matching task was %s\n " % (pn, taskname, h, prevh) + '\n '.join(output))
class RunQueueExecute:
def __init__(self, rq):
self.rq = rq
self.cooker = rq.cooker
self.cfgData = rq.cfgData
self.rqdata = rq.rqdata
self.number_tasks = int(self.cfgData.getVar("BB_NUMBER_THREADS") or 1)
self.scheduler = self.cfgData.getVar("BB_SCHEDULER") or "speed"
self.max_cpu_pressure = self.cfgData.getVar("BB_PRESSURE_MAX_CPU")
self.max_io_pressure = self.cfgData.getVar("BB_PRESSURE_MAX_IO")
self.max_memory_pressure = self.cfgData.getVar("BB_PRESSURE_MAX_MEMORY")
self.sq_buildable = set()
self.sq_running = set()
self.sq_live = set()
self.updated_taskhash_queue = []
self.pending_migrations = set()
self.runq_buildable = set()
self.runq_running = set()
self.runq_complete = set()
self.runq_tasksrun = set()
self.build_stamps = {}
self.build_stamps2 = []
self.failed_tids = []
self.sq_deferred = {}
self.stampcache = {}
self.holdoff_tasks = set()
self.holdoff_need_update = True
self.sqdone = False
self.stats = RunQueueStats(len(self.rqdata.runtaskentries), len(self.rqdata.runq_setscene_tids))
for mc in rq.worker:
rq.worker[mc].pipe.setrunqueueexec(self)
for mc in rq.fakeworker:
rq.fakeworker[mc].pipe.setrunqueueexec(self)
if self.number_tasks <= 0:
bb.fatal("Invalid BB_NUMBER_THREADS %s" % self.number_tasks)
lower_limit = 1.0
upper_limit = 1000000.0
if self.max_cpu_pressure:
self.max_cpu_pressure = float(self.max_cpu_pressure)
if self.max_cpu_pressure < lower_limit:
bb.fatal("Invalid BB_PRESSURE_MAX_CPU %s, minimum value is %s." % (self.max_cpu_pressure, lower_limit))
if self.max_cpu_pressure > upper_limit:
bb.warn("Your build will be largely unregulated since BB_PRESSURE_MAX_CPU is set to %s. It is very unlikely that such high pressure will be experienced." % (self.max_cpu_pressure))
if self.max_io_pressure:
self.max_io_pressure = float(self.max_io_pressure)
if self.max_io_pressure < lower_limit:
bb.fatal("Invalid BB_PRESSURE_MAX_IO %s, minimum value is %s." % (self.max_io_pressure, lower_limit))
if self.max_io_pressure > upper_limit:
bb.warn("Your build will be largely unregulated since BB_PRESSURE_MAX_IO is set to %s. It is very unlikely that such high pressure will be experienced." % (self.max_io_pressure))
if self.max_memory_pressure:
self.max_memory_pressure = float(self.max_memory_pressure)
if self.max_memory_pressure < lower_limit:
bb.fatal("Invalid BB_PRESSURE_MAX_MEMORY %s, minimum value is %s." % (self.max_memory_pressure, lower_limit))
if self.max_memory_pressure > upper_limit:
bb.warn("Your build will be largely unregulated since BB_PRESSURE_MAX_MEMORY is set to %s. It is very unlikely that such high pressure will be experienced." % (self.max_io_pressure))
# List of setscene tasks which we've covered
self.scenequeue_covered = set()
# List of tasks which are covered (including setscene ones)
self.tasks_covered = set()
self.tasks_scenequeue_done = set()
self.scenequeue_notcovered = set()
self.tasks_notcovered = set()
self.scenequeue_notneeded = set()
# We can't skip specified target tasks which aren't setscene tasks
self.cantskip = set(self.rqdata.target_tids)
self.cantskip.difference_update(self.rqdata.runq_setscene_tids)
self.cantskip.intersection_update(self.rqdata.runtaskentries)
schedulers = self.get_schedulers()
for scheduler in schedulers:
if self.scheduler == scheduler.name:
self.sched = scheduler(self, self.rqdata)
logger.debug("Using runqueue scheduler '%s'", scheduler.name)
break
else:
bb.fatal("Invalid scheduler '%s'. Available schedulers: %s" %
(self.scheduler, ", ".join(obj.name for obj in schedulers)))
#if self.rqdata.runq_setscene_tids:
self.sqdata = SQData()
build_scenequeue_data(self.sqdata, self.rqdata, self.rq, self.cooker, self.stampcache, self)
def runqueue_process_waitpid(self, task, status, fakerootlog=None):
# self.build_stamps[pid] may not exist when use shared work directory.
if task in self.build_stamps:
self.build_stamps2.remove(self.build_stamps[task])
del self.build_stamps[task]
if task in self.sq_live:
if status != 0:
self.sq_task_fail(task, status)
else:
self.sq_task_complete(task)
self.sq_live.remove(task)
self.stats.updateActiveSetscene(len(self.sq_live))
else:
if status != 0:
self.task_fail(task, status, fakerootlog=fakerootlog)
else:
self.task_complete(task)
return True
def finish_now(self):
for mc in self.rq.worker:
try:
self.rq.worker[mc].process.stdin.write(b"<finishnow></finishnow>")
self.rq.worker[mc].process.stdin.flush()
except IOError:
# worker must have died?
pass
for mc in self.rq.fakeworker:
try:
self.rq.fakeworker[mc].process.stdin.write(b"<finishnow></finishnow>")
self.rq.fakeworker[mc].process.stdin.flush()
except IOError:
# worker must have died?
pass
if self.failed_tids:
self.rq.state = runQueueFailed
return
self.rq.state = runQueueComplete
return
def finish(self):
self.rq.state = runQueueCleanUp
active = self.stats.active + len(self.sq_live)
if active > 0:
bb.event.fire(runQueueExitWait(active), self.cfgData)
self.rq.read_workers()
return self.rq.active_fds()
if self.failed_tids:
self.rq.state = runQueueFailed
return True
self.rq.state = runQueueComplete
return True
# Used by setscene only
def check_dependencies(self, task, taskdeps):
if not self.rq.depvalidate:
return False
# Must not edit parent data
taskdeps = set(taskdeps)
taskdata = {}
taskdeps.add(task)
for dep in taskdeps:
(mc, fn, taskname, taskfn) = split_tid_mcfn(dep)
pn = self.rqdata.dataCaches[mc].pkg_fn[taskfn]
taskdata[dep] = [pn, taskname, fn]
call = self.rq.depvalidate + "(task, taskdata, notneeded, d)"
locs = { "task" : task, "taskdata" : taskdata, "notneeded" : self.scenequeue_notneeded, "d" : self.cooker.data }
valid = bb.utils.better_eval(call, locs)
return valid
def can_start_task(self):
active = self.stats.active + len(self.sq_live)
can_start = active < self.number_tasks
return can_start
def get_schedulers(self):
schedulers = set(obj for obj in globals().values()
if type(obj) is type and
issubclass(obj, RunQueueScheduler))
user_schedulers = self.cfgData.getVar("BB_SCHEDULERS")
if user_schedulers:
for sched in user_schedulers.split():
if not "." in sched:
bb.note("Ignoring scheduler '%s' from BB_SCHEDULERS: not an import" % sched)
continue
modname, name = sched.rsplit(".", 1)
try:
module = __import__(modname, fromlist=(name,))
except ImportError as exc:
bb.fatal("Unable to import scheduler '%s' from '%s': %s" % (name, modname, exc))
else:
schedulers.add(getattr(module, name))
return schedulers
def setbuildable(self, task):
self.runq_buildable.add(task)
self.sched.newbuildable(task)
def task_completeoutright(self, task):
"""
Mark a task as completed
Look at the reverse dependencies and mark any task with
completed dependencies as buildable
"""
self.runq_complete.add(task)
for revdep in self.rqdata.runtaskentries[task].revdeps:
if revdep in self.runq_running:
continue
if revdep in self.runq_buildable:
continue
alldeps = True
for dep in self.rqdata.runtaskentries[revdep].depends:
if dep not in self.runq_complete:
alldeps = False
break
if alldeps:
self.setbuildable(revdep)
logger.debug("Marking task %s as buildable", revdep)
found = None
for t in sorted(self.sq_deferred.copy()):
if self.sq_deferred[t] == task:
# Allow the next deferred task to run. Any other deferred tasks should be deferred after that task.
# We shouldn't allow all to run at once as it is prone to races.
if not found:
bb.note("Deferred task %s now buildable" % t)
del self.sq_deferred[t]
update_scenequeue_data([t], self.sqdata, self.rqdata, self.rq, self.cooker, self.stampcache, self, summary=False)
found = t
else:
bb.note("Deferring %s after %s" % (t, found))
self.sq_deferred[t] = found
def task_complete(self, task):
self.stats.taskCompleted()
bb.event.fire(runQueueTaskCompleted(task, self.stats, self.rq), self.cfgData)
self.task_completeoutright(task)
self.runq_tasksrun.add(task)
def task_fail(self, task, exitcode, fakerootlog=None):
"""
Called when a task has failed
Updates the state engine with the failure
"""
self.stats.taskFailed()
self.failed_tids.append(task)
fakeroot_log = []
if fakerootlog and os.path.exists(fakerootlog):
with open(fakerootlog) as fakeroot_log_file:
fakeroot_failed = False
for line in reversed(fakeroot_log_file.readlines()):
for fakeroot_error in ['mismatch', 'error', 'fatal']:
if fakeroot_error in line.lower():
fakeroot_failed = True
if 'doing new pid setup and server start' in line:
break
fakeroot_log.append(line)
if not fakeroot_failed:
fakeroot_log = []
bb.event.fire(runQueueTaskFailed(task, self.stats, exitcode, self.rq, fakeroot_log=("".join(fakeroot_log) or None)), self.cfgData)
if self.rqdata.taskData[''].halt:
self.rq.state = runQueueCleanUp
def task_skip(self, task, reason):
self.runq_running.add(task)
self.setbuildable(task)
bb.event.fire(runQueueTaskSkipped(task, self.stats, self.rq, reason), self.cfgData)
self.task_completeoutright(task)
self.stats.taskSkipped()
self.stats.taskCompleted()
def summarise_scenequeue_errors(self):
err = False
if not self.sqdone:
logger.debug('We could skip tasks %s', "\n".join(sorted(self.scenequeue_covered)))
completeevent = sceneQueueComplete(self.stats, self.rq)
bb.event.fire(completeevent, self.cfgData)
if self.sq_deferred:
logger.error("Scenequeue had deferred entries: %s" % pprint.pformat(self.sq_deferred))
err = True
if self.updated_taskhash_queue:
logger.error("Scenequeue had unprocessed changed taskhash entries: %s" % pprint.pformat(self.updated_taskhash_queue))
err = True
if self.holdoff_tasks:
logger.error("Scenequeue had holdoff tasks: %s" % pprint.pformat(self.holdoff_tasks))
err = True
for tid in self.scenequeue_covered.intersection(self.scenequeue_notcovered):
# No task should end up in both covered and uncovered, that is a bug.
logger.error("Setscene task %s in both covered and notcovered." % tid)
for tid in self.rqdata.runq_setscene_tids:
if tid not in self.scenequeue_covered and tid not in self.scenequeue_notcovered:
err = True
logger.error("Setscene Task %s was never marked as covered or not covered" % tid)
if tid not in self.sq_buildable:
err = True
logger.error("Setscene Task %s was never marked as buildable" % tid)
if tid not in self.sq_running:
err = True
logger.error("Setscene Task %s was never marked as running" % tid)
for x in self.rqdata.runtaskentries:
if x not in self.tasks_covered and x not in self.tasks_notcovered:
logger.error("Task %s was never moved from the setscene queue" % x)
err = True
if x not in self.tasks_scenequeue_done:
logger.error("Task %s was never processed by the setscene code" % x)
err = True
if not self.rqdata.runtaskentries[x].depends and x not in self.runq_buildable:
logger.error("Task %s was never marked as buildable by the setscene code" % x)
err = True
return err
def execute(self):
"""
Run the tasks in a queue prepared by prepare_runqueue
"""
self.rq.read_workers()
if self.updated_taskhash_queue or self.pending_migrations:
self.process_possible_migrations()
if not hasattr(self, "sorted_setscene_tids"):
# Don't want to sort this set every execution
self.sorted_setscene_tids = sorted(self.rqdata.runq_setscene_tids)
task = None
if not self.sqdone and self.can_start_task():
# Find the next setscene to run
for nexttask in self.sorted_setscene_tids:
if nexttask in self.sq_buildable and nexttask not in self.sq_running and self.sqdata.stamps[nexttask] not in self.build_stamps.values():
if nexttask not in self.sqdata.unskippable and self.sqdata.sq_revdeps[nexttask] and self.sqdata.sq_revdeps[nexttask].issubset(self.scenequeue_covered) and self.check_dependencies(nexttask, self.sqdata.sq_revdeps[nexttask]):
if nexttask not in self.rqdata.target_tids:
logger.debug2("Skipping setscene for task %s" % nexttask)
self.sq_task_skip(nexttask)
self.scenequeue_notneeded.add(nexttask)
if nexttask in self.sq_deferred:
del self.sq_deferred[nexttask]
return True
# If covered tasks are running, need to wait for them to complete
for t in self.sqdata.sq_covered_tasks[nexttask]:
if t in self.runq_running and t not in self.runq_complete:
continue
if nexttask in self.sq_deferred:
if self.sq_deferred[nexttask] not in self.runq_complete:
continue
logger.debug("Task %s no longer deferred" % nexttask)
del self.sq_deferred[nexttask]
valid = self.rq.validate_hashes(set([nexttask]), self.cooker.data, 0, False, summary=False)
if not valid:
logger.debug("%s didn't become valid, skipping setscene" % nexttask)
self.sq_task_failoutright(nexttask)
return True
if nexttask in self.sqdata.outrightfail:
logger.debug2('No package found, so skipping setscene task %s', nexttask)
self.sq_task_failoutright(nexttask)
return True
if nexttask in self.sqdata.unskippable:
logger.debug2("Setscene task %s is unskippable" % nexttask)
task = nexttask
break
if task is not None:
(mc, fn, taskname, taskfn) = split_tid_mcfn(task)
taskname = taskname + "_setscene"
if self.rq.check_stamp_task(task, taskname_from_tid(task), recurse = True, cache=self.stampcache):
logger.debug2('Stamp for underlying task %s is current, so skipping setscene variant', task)
self.sq_task_failoutright(task)
return True
if self.cooker.configuration.force:
if task in self.rqdata.target_tids:
self.sq_task_failoutright(task)
return True
if self.rq.check_stamp_task(task, taskname, cache=self.stampcache):
logger.debug2('Setscene stamp current task %s, so skip it and its dependencies', task)
self.sq_task_skip(task)
return True
if self.cooker.configuration.skipsetscene:
logger.debug2('No setscene tasks should be executed. Skipping %s', task)
self.sq_task_failoutright(task)
return True
startevent = sceneQueueTaskStarted(task, self.stats, self.rq)
bb.event.fire(startevent, self.cfgData)
taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn]
realfn = bb.cache.virtualfn2realfn(taskfn)[0]
runtask = {
'fn' : taskfn,
'task' : task,
'taskname' : taskname,
'taskhash' : self.rqdata.get_task_hash(task),
'unihash' : self.rqdata.get_task_unihash(task),
'quieterrors' : True,
'appends' : self.cooker.collections[mc].get_file_appends(taskfn),
'layername' : self.cooker.collections[mc].calc_bbfile_priority(realfn)[2],
'taskdepdata' : self.sq_build_taskdepdata(task),
'dry_run' : False,
'taskdep': taskdep,
'fakerootenv' : self.rqdata.dataCaches[mc].fakerootenv[taskfn],
'fakerootdirs' : self.rqdata.dataCaches[mc].fakerootdirs[taskfn],
'fakerootnoenv' : self.rqdata.dataCaches[mc].fakerootnoenv[taskfn]
}
if 'fakeroot' in taskdep and taskname in taskdep['fakeroot'] and not self.cooker.configuration.dry_run:
if not mc in self.rq.fakeworker:
self.rq.start_fakeworker(self, mc)
self.rq.fakeworker[mc].process.stdin.write(b"<runtask>" + pickle.dumps(runtask) + b"</runtask>")
self.rq.fakeworker[mc].process.stdin.flush()
else:
self.rq.worker[mc].process.stdin.write(b"<runtask>" + pickle.dumps(runtask) + b"</runtask>")
self.rq.worker[mc].process.stdin.flush()
self.build_stamps[task] = bb.parse.siggen.stampfile_mcfn(taskname, taskfn, extrainfo=False)
self.build_stamps2.append(self.build_stamps[task])
self.sq_running.add(task)
self.sq_live.add(task)
self.stats.updateActiveSetscene(len(self.sq_live))
if self.can_start_task():
return True
self.update_holdofftasks()
if not self.sq_live and not self.sqdone and not self.sq_deferred and not self.updated_taskhash_queue and not self.holdoff_tasks:
hashequiv_logger.verbose("Setscene tasks completed")
err = self.summarise_scenequeue_errors()
if err:
self.rq.state = runQueueFailed
return True
if self.cooker.configuration.setsceneonly:
self.rq.state = runQueueComplete
return True
self.sqdone = True
if self.stats.total == 0:
# nothing to do
self.rq.state = runQueueComplete
return True
if self.cooker.configuration.setsceneonly:
task = None
else:
task = self.sched.next()
if task is not None:
(mc, fn, taskname, taskfn) = split_tid_mcfn(task)
if self.rqdata.setscene_ignore_tasks is not None:
if self.check_setscene_ignore_tasks(task):
self.task_fail(task, "setscene ignore_tasks")
return True
if task in self.tasks_covered:
logger.debug2("Setscene covered task %s", task)
self.task_skip(task, "covered")
return True
if self.rq.check_stamp_task(task, taskname, cache=self.stampcache):
logger.debug2("Stamp current task %s", task)
self.task_skip(task, "existing")
self.runq_tasksrun.add(task)
return True
taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn]
if 'noexec' in taskdep and taskname in taskdep['noexec']:
startevent = runQueueTaskStarted(task, self.stats, self.rq,
noexec=True)
bb.event.fire(startevent, self.cfgData)
self.runq_running.add(task)
self.stats.taskActive()
if not (self.cooker.configuration.dry_run or self.rqdata.setscene_enforce):
bb.build.make_stamp_mcfn(taskname, taskfn)
self.task_complete(task)
return True
else:
startevent = runQueueTaskStarted(task, self.stats, self.rq)
bb.event.fire(startevent, self.cfgData)
taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn]
realfn = bb.cache.virtualfn2realfn(taskfn)[0]
runtask = {
'fn' : taskfn,
'task' : task,
'taskname' : taskname,
'taskhash' : self.rqdata.get_task_hash(task),
'unihash' : self.rqdata.get_task_unihash(task),
'quieterrors' : False,
'appends' : self.cooker.collections[mc].get_file_appends(taskfn),
'layername' : self.cooker.collections[mc].calc_bbfile_priority(realfn)[2],
'taskdepdata' : self.build_taskdepdata(task),
'dry_run' : self.rqdata.setscene_enforce,
'taskdep': taskdep,
'fakerootenv' : self.rqdata.dataCaches[mc].fakerootenv[taskfn],
'fakerootdirs' : self.rqdata.dataCaches[mc].fakerootdirs[taskfn],
'fakerootnoenv' : self.rqdata.dataCaches[mc].fakerootnoenv[taskfn]
}
if 'fakeroot' in taskdep and taskname in taskdep['fakeroot'] and not (self.cooker.configuration.dry_run or self.rqdata.setscene_enforce):
if not mc in self.rq.fakeworker:
try:
self.rq.start_fakeworker(self, mc)
except OSError as exc:
logger.critical("Failed to spawn fakeroot worker to run %s: %s" % (task, str(exc)))
self.rq.state = runQueueFailed
self.stats.taskFailed()
return True
self.rq.fakeworker[mc].process.stdin.write(b"<runtask>" + pickle.dumps(runtask) + b"</runtask>")
self.rq.fakeworker[mc].process.stdin.flush()
else:
self.rq.worker[mc].process.stdin.write(b"<runtask>" + pickle.dumps(runtask) + b"</runtask>")
self.rq.worker[mc].process.stdin.flush()
self.build_stamps[task] = bb.parse.siggen.stampfile_mcfn(taskname, taskfn, extrainfo=False)
self.build_stamps2.append(self.build_stamps[task])
self.runq_running.add(task)
self.stats.taskActive()
if self.can_start_task():
return True
if self.stats.active > 0 or self.sq_live:
self.rq.read_workers()
return self.rq.active_fds()
# No more tasks can be run. If we have deferred setscene tasks we should run them.
if self.sq_deferred:
deferred_tid = list(self.sq_deferred.keys())[0]
blocking_tid = self.sq_deferred.pop(deferred_tid)
logger.warning("Runqueue deadlocked on deferred tasks, forcing task %s blocked by %s" % (deferred_tid, blocking_tid))
return True
if self.failed_tids:
self.rq.state = runQueueFailed
return True
# Sanity Checks
err = self.summarise_scenequeue_errors()
for task in self.rqdata.runtaskentries:
if task not in self.runq_buildable:
logger.error("Task %s never buildable!", task)
err = True
elif task not in self.runq_running:
logger.error("Task %s never ran!", task)
err = True
elif task not in self.runq_complete:
logger.error("Task %s never completed!", task)
err = True
if err:
self.rq.state = runQueueFailed
else:
self.rq.state = runQueueComplete
return True
def filtermcdeps(self, task, mc, deps):
ret = set()
for dep in deps:
thismc = mc_from_tid(dep)
if thismc != mc:
continue
ret.add(dep)
return ret
# We filter out multiconfig dependencies from taskdepdata we pass to the tasks
# as most code can't handle them
def build_taskdepdata(self, task):
taskdepdata = {}
mc = mc_from_tid(task)
next = self.rqdata.runtaskentries[task].depends.copy()
next.add(task)
next = self.filtermcdeps(task, mc, next)
while next:
additional = []
for revdep in next:
(mc, fn, taskname, taskfn) = split_tid_mcfn(revdep)
pn = self.rqdata.dataCaches[mc].pkg_fn[taskfn]
deps = self.rqdata.runtaskentries[revdep].depends
provides = self.rqdata.dataCaches[mc].fn_provides[taskfn]
taskhash = self.rqdata.runtaskentries[revdep].hash
unihash = self.rqdata.runtaskentries[revdep].unihash
deps = self.filtermcdeps(task, mc, deps)
hashfn = self.rqdata.dataCaches[mc].hashfn[taskfn]
taskdepdata[revdep] = [pn, taskname, fn, deps, provides, taskhash, unihash, hashfn]
for revdep2 in deps:
if revdep2 not in taskdepdata:
additional.append(revdep2)
next = additional
#bb.note("Task %s: " % task + str(taskdepdata).replace("], ", "],\n"))
return taskdepdata
def update_holdofftasks(self):
if not self.holdoff_need_update:
return
notcovered = set(self.scenequeue_notcovered)
notcovered |= self.cantskip
for tid in self.scenequeue_notcovered:
notcovered |= self.sqdata.sq_covered_tasks[tid]
notcovered |= self.sqdata.unskippable.difference(self.rqdata.runq_setscene_tids)
notcovered.intersection_update(self.tasks_scenequeue_done)
covered = set(self.scenequeue_covered)
for tid in self.scenequeue_covered:
covered |= self.sqdata.sq_covered_tasks[tid]
covered.difference_update(notcovered)
covered.intersection_update(self.tasks_scenequeue_done)
for tid in notcovered | covered:
if not self.rqdata.runtaskentries[tid].depends:
self.setbuildable(tid)
elif self.rqdata.runtaskentries[tid].depends.issubset(self.runq_complete):
self.setbuildable(tid)
self.tasks_covered = covered
self.tasks_notcovered = notcovered
self.holdoff_tasks = set()
for tid in self.rqdata.runq_setscene_tids:
if tid not in self.scenequeue_covered and tid not in self.scenequeue_notcovered:
self.holdoff_tasks.add(tid)
for tid in self.holdoff_tasks.copy():
for dep in self.sqdata.sq_covered_tasks[tid]:
if dep not in self.runq_complete:
self.holdoff_tasks.add(dep)
self.holdoff_need_update = False
def process_possible_migrations(self):
changed = set()
toprocess = set()
for tid, unihash in self.updated_taskhash_queue.copy():
if tid in self.runq_running and tid not in self.runq_complete:
continue
self.updated_taskhash_queue.remove((tid, unihash))
if unihash != self.rqdata.runtaskentries[tid].unihash:
# Make sure we rehash any other tasks with the same task hash that we're deferred against.
torehash = [tid]
for deftid in self.sq_deferred:
if self.sq_deferred[deftid] == tid:
torehash.append(deftid)
for hashtid in torehash:
hashequiv_logger.verbose("Task %s unihash changed to %s" % (hashtid, unihash))
self.rqdata.runtaskentries[hashtid].unihash = unihash
bb.parse.siggen.set_unihash(hashtid, unihash)
toprocess.add(hashtid)
if torehash:
# Need to save after set_unihash above
bb.parse.siggen.save_unitaskhashes()
# Work out all tasks which depend upon these
total = set()
next = set()
for p in toprocess:
next |= self.rqdata.runtaskentries[p].revdeps
while next:
current = next.copy()
total = total | next
next = set()
for ntid in current:
next |= self.rqdata.runtaskentries[ntid].revdeps
next.difference_update(total)
# Now iterate those tasks in dependency order to regenerate their taskhash/unihash
next = set()
for p in total:
if not self.rqdata.runtaskentries[p].depends:
next.add(p)
elif self.rqdata.runtaskentries[p].depends.isdisjoint(total):
next.add(p)
# When an item doesn't have dependencies in total, we can process it. Drop items from total when handled
while next:
current = next.copy()
next = set()
for tid in current:
if self.rqdata.runtaskentries[p].depends and not self.rqdata.runtaskentries[tid].depends.isdisjoint(total):
continue
orighash = self.rqdata.runtaskentries[tid].hash
newhash = bb.parse.siggen.get_taskhash(tid, self.rqdata.runtaskentries[tid].depends, self.rqdata.dataCaches)
origuni = self.rqdata.runtaskentries[tid].unihash
newuni = bb.parse.siggen.get_unihash(tid)
# FIXME, need to check it can come from sstate at all for determinism?
remapped = False
if newuni == origuni:
# Nothing to do, we match, skip code below
remapped = True
elif tid in self.scenequeue_covered or tid in self.sq_live:
# Already ran this setscene task or it running. Report the new taskhash
bb.parse.siggen.report_unihash_equiv(tid, newhash, origuni, newuni, self.rqdata.dataCaches)
hashequiv_logger.verbose("Already covered setscene for %s so ignoring rehash (remap)" % (tid))
remapped = True
if not remapped:
#logger.debug("Task %s hash changes: %s->%s %s->%s" % (tid, orighash, newhash, origuni, newuni))
self.rqdata.runtaskentries[tid].hash = newhash
self.rqdata.runtaskentries[tid].unihash = newuni
changed.add(tid)
next |= self.rqdata.runtaskentries[tid].revdeps
total.remove(tid)
next.intersection_update(total)
if changed:
for mc in self.rq.worker:
self.rq.worker[mc].process.stdin.write(b"<newtaskhashes>" + pickle.dumps(bb.parse.siggen.get_taskhashes()) + b"</newtaskhashes>")
for mc in self.rq.fakeworker:
self.rq.fakeworker[mc].process.stdin.write(b"<newtaskhashes>" + pickle.dumps(bb.parse.siggen.get_taskhashes()) + b"</newtaskhashes>")
hashequiv_logger.debug(pprint.pformat("Tasks changed:\n%s" % (changed)))
for tid in changed:
if tid not in self.rqdata.runq_setscene_tids:
continue
if tid not in self.pending_migrations:
self.pending_migrations.add(tid)
update_tasks = []
for tid in self.pending_migrations.copy():
if tid in self.runq_running or tid in self.sq_live:
# Too late, task already running, not much we can do now
self.pending_migrations.remove(tid)
continue
valid = True
# Check no tasks this covers are running
for dep in self.sqdata.sq_covered_tasks[tid]:
if dep in self.runq_running and dep not in self.runq_complete:
hashequiv_logger.debug2("Task %s is running which blocks setscene for %s from running" % (dep, tid))
valid = False
break
if not valid:
continue
self.pending_migrations.remove(tid)
changed = True
if tid in self.tasks_scenequeue_done:
self.tasks_scenequeue_done.remove(tid)
for dep in self.sqdata.sq_covered_tasks[tid]:
if dep in self.runq_complete and dep not in self.runq_tasksrun:
bb.error("Task %s marked as completed but now needing to rerun? Halting build." % dep)
self.failed_tids.append(tid)
self.rq.state = runQueueCleanUp
return
if dep not in self.runq_complete:
if dep in self.tasks_scenequeue_done and dep not in self.sqdata.unskippable:
self.tasks_scenequeue_done.remove(dep)
if tid in self.sq_buildable:
self.sq_buildable.remove(tid)
if tid in self.sq_running:
self.sq_running.remove(tid)
if tid in self.sqdata.outrightfail:
self.sqdata.outrightfail.remove(tid)
if tid in self.scenequeue_notcovered:
self.scenequeue_notcovered.remove(tid)
if tid in self.scenequeue_covered:
self.scenequeue_covered.remove(tid)
if tid in self.scenequeue_notneeded:
self.scenequeue_notneeded.remove(tid)
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
self.sqdata.stamps[tid] = bb.parse.siggen.stampfile_mcfn(taskname, taskfn, extrainfo=False)
if tid in self.stampcache:
del self.stampcache[tid]
if tid in self.build_stamps:
del self.build_stamps[tid]
update_tasks.append(tid)
update_tasks2 = []
for tid in update_tasks:
harddepfail = False
for t in self.sqdata.sq_harddeps:
if tid in self.sqdata.sq_harddeps[t] and t in self.scenequeue_notcovered:
harddepfail = True
break
if not harddepfail and self.sqdata.sq_revdeps[tid].issubset(self.scenequeue_covered | self.scenequeue_notcovered):
if tid not in self.sq_buildable:
self.sq_buildable.add(tid)
if not self.sqdata.sq_revdeps[tid]:
self.sq_buildable.add(tid)
update_tasks2.append((tid, harddepfail, tid in self.sqdata.valid))
if update_tasks2:
self.sqdone = False
for mc in sorted(self.sqdata.multiconfigs):
for tid in sorted([t[0] for t in update_tasks2]):
if mc_from_tid(tid) != mc:
continue
h = pending_hash_index(tid, self.rqdata)
if h in self.sqdata.hashes and tid != self.sqdata.hashes[h]:
self.sq_deferred[tid] = self.sqdata.hashes[h]
bb.note("Deferring %s after %s" % (tid, self.sqdata.hashes[h]))
update_scenequeue_data([t[0] for t in update_tasks2], self.sqdata, self.rqdata, self.rq, self.cooker, self.stampcache, self, summary=False)
for (tid, harddepfail, origvalid) in update_tasks2:
if tid in self.sqdata.valid and not origvalid:
hashequiv_logger.verbose("Setscene task %s became valid" % tid)
if harddepfail:
logger.debug2("%s has an unavailable hard dependency so skipping" % (tid))
self.sq_task_failoutright(tid)
if changed:
self.stats.updateCovered(len(self.scenequeue_covered), len(self.scenequeue_notcovered))
self.holdoff_need_update = True
def scenequeue_updatecounters(self, task, fail=False):
for dep in sorted(self.sqdata.sq_deps[task]):
if fail and task in self.sqdata.sq_harddeps and dep in self.sqdata.sq_harddeps[task]:
if dep in self.scenequeue_covered or dep in self.scenequeue_notcovered:
# dependency could be already processed, e.g. noexec setscene task
continue
noexec, stamppresent = check_setscene_stamps(dep, self.rqdata, self.rq, self.stampcache)
if noexec or stamppresent:
continue
logger.debug2("%s was unavailable and is a hard dependency of %s so skipping" % (task, dep))
self.sq_task_failoutright(dep)
continue
if self.sqdata.sq_revdeps[dep].issubset(self.scenequeue_covered | self.scenequeue_notcovered):
if dep not in self.sq_buildable:
self.sq_buildable.add(dep)
next = set([task])
while next:
new = set()
for t in sorted(next):
self.tasks_scenequeue_done.add(t)
# Look down the dependency chain for non-setscene things which this task depends on
# and mark as 'done'
for dep in self.rqdata.runtaskentries[t].depends:
if dep in self.rqdata.runq_setscene_tids or dep in self.tasks_scenequeue_done:
continue
if self.rqdata.runtaskentries[dep].revdeps.issubset(self.tasks_scenequeue_done):
new.add(dep)
next = new
self.stats.updateCovered(len(self.scenequeue_covered), len(self.scenequeue_notcovered))
self.holdoff_need_update = True
def sq_task_completeoutright(self, task):
"""
Mark a task as completed
Look at the reverse dependencies and mark any task with
completed dependencies as buildable
"""
logger.debug('Found task %s which could be accelerated', task)
self.scenequeue_covered.add(task)
self.scenequeue_updatecounters(task)
def sq_check_taskfail(self, task):
if self.rqdata.setscene_ignore_tasks is not None:
realtask = task.split('_setscene')[0]
(mc, fn, taskname, taskfn) = split_tid_mcfn(realtask)
pn = self.rqdata.dataCaches[mc].pkg_fn[taskfn]
if not check_setscene_enforce_ignore_tasks(pn, taskname, self.rqdata.setscene_ignore_tasks):
logger.error('Task %s.%s failed' % (pn, taskname + "_setscene"))
self.rq.state = runQueueCleanUp
def sq_task_complete(self, task):
bb.event.fire(sceneQueueTaskCompleted(task, self.stats, self.rq), self.cfgData)
self.sq_task_completeoutright(task)
def sq_task_fail(self, task, result):
bb.event.fire(sceneQueueTaskFailed(task, self.stats, result, self), self.cfgData)
self.scenequeue_notcovered.add(task)
self.scenequeue_updatecounters(task, True)
self.sq_check_taskfail(task)
def sq_task_failoutright(self, task):
self.sq_running.add(task)
self.sq_buildable.add(task)
self.scenequeue_notcovered.add(task)
self.scenequeue_updatecounters(task, True)
def sq_task_skip(self, task):
self.sq_running.add(task)
self.sq_buildable.add(task)
self.sq_task_completeoutright(task)
def sq_build_taskdepdata(self, task):
def getsetscenedeps(tid):
deps = set()
(mc, fn, taskname, _) = split_tid_mcfn(tid)
realtid = tid + "_setscene"
idepends = self.rqdata.taskData[mc].taskentries[realtid].idepends
for (depname, idependtask) in idepends:
if depname not in self.rqdata.taskData[mc].build_targets:
continue
depfn = self.rqdata.taskData[mc].build_targets[depname][0]
if depfn is None:
continue
deptid = depfn + ":" + idependtask.replace("_setscene", "")
deps.add(deptid)
return deps
taskdepdata = {}
next = getsetscenedeps(task)
next.add(task)
while next:
additional = []
for revdep in next:
(mc, fn, taskname, taskfn) = split_tid_mcfn(revdep)
pn = self.rqdata.dataCaches[mc].pkg_fn[taskfn]
deps = getsetscenedeps(revdep)
provides = self.rqdata.dataCaches[mc].fn_provides[taskfn]
taskhash = self.rqdata.runtaskentries[revdep].hash
unihash = self.rqdata.runtaskentries[revdep].unihash
hashfn = self.rqdata.dataCaches[mc].hashfn[taskfn]
taskdepdata[revdep] = [pn, taskname, fn, deps, provides, taskhash, unihash, hashfn]
for revdep2 in deps:
if revdep2 not in taskdepdata:
additional.append(revdep2)
next = additional
#bb.note("Task %s: " % task + str(taskdepdata).replace("], ", "],\n"))
return taskdepdata
def check_setscene_ignore_tasks(self, tid):
# Check task that is going to run against the ignore tasks list
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
# Ignore covered tasks
if tid in self.tasks_covered:
return False
# Ignore stamped tasks
if self.rq.check_stamp_task(tid, taskname, cache=self.stampcache):
return False
# Ignore noexec tasks
taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn]
if 'noexec' in taskdep and taskname in taskdep['noexec']:
return False
pn = self.rqdata.dataCaches[mc].pkg_fn[taskfn]
if not check_setscene_enforce_ignore_tasks(pn, taskname, self.rqdata.setscene_ignore_tasks):
if tid in self.rqdata.runq_setscene_tids:
msg = ['Task %s.%s attempted to execute unexpectedly and should have been setscened' % (pn, taskname)]
else:
msg = ['Task %s.%s attempted to execute unexpectedly' % (pn, taskname)]
for t in self.scenequeue_notcovered:
msg.append("\nTask %s, unihash %s, taskhash %s" % (t, self.rqdata.runtaskentries[t].unihash, self.rqdata.runtaskentries[t].hash))
msg.append('\nThis is usually due to missing setscene tasks. Those missing in this build were: %s' % pprint.pformat(self.scenequeue_notcovered))
logger.error("".join(msg))
return True
return False
class SQData(object):
def __init__(self):
# SceneQueue dependencies
self.sq_deps = {}
# SceneQueue reverse dependencies
self.sq_revdeps = {}
# Injected inter-setscene task dependencies
self.sq_harddeps = {}
# Cache of stamp files so duplicates can't run in parallel
self.stamps = {}
# Setscene tasks directly depended upon by the build
self.unskippable = set()
# List of setscene tasks which aren't present
self.outrightfail = set()
# A list of normal tasks a setscene task covers
self.sq_covered_tasks = {}
def build_scenequeue_data(sqdata, rqdata, rq, cooker, stampcache, sqrq):
sq_revdeps = {}
sq_revdeps_squash = {}
sq_collated_deps = {}
# We need to construct a dependency graph for the setscene functions. Intermediate
# dependencies between the setscene tasks only complicate the code. This code
# therefore aims to collapse the huge runqueue dependency tree into a smaller one
# only containing the setscene functions.
rqdata.init_progress_reporter.next_stage()
# First process the chains up to the first setscene task.
endpoints = {}
for tid in rqdata.runtaskentries:
sq_revdeps[tid] = copy.copy(rqdata.runtaskentries[tid].revdeps)
sq_revdeps_squash[tid] = set()
if not sq_revdeps[tid] and tid not in rqdata.runq_setscene_tids:
#bb.warn("Added endpoint %s" % (tid))
endpoints[tid] = set()
rqdata.init_progress_reporter.next_stage()
# Secondly process the chains between setscene tasks.
for tid in rqdata.runq_setscene_tids:
sq_collated_deps[tid] = set()
#bb.warn("Added endpoint 2 %s" % (tid))
for dep in rqdata.runtaskentries[tid].depends:
if tid in sq_revdeps[dep]:
sq_revdeps[dep].remove(tid)
if dep not in endpoints:
endpoints[dep] = set()
#bb.warn(" Added endpoint 3 %s" % (dep))
endpoints[dep].add(tid)
rqdata.init_progress_reporter.next_stage()
def process_endpoints(endpoints):
newendpoints = {}
for point, task in endpoints.items():
tasks = set()
if task:
tasks |= task
if sq_revdeps_squash[point]:
tasks |= sq_revdeps_squash[point]
if point not in rqdata.runq_setscene_tids:
for t in tasks:
sq_collated_deps[t].add(point)
sq_revdeps_squash[point] = set()
if point in rqdata.runq_setscene_tids:
sq_revdeps_squash[point] = tasks
continue
for dep in rqdata.runtaskentries[point].depends:
if point in sq_revdeps[dep]:
sq_revdeps[dep].remove(point)
if tasks:
sq_revdeps_squash[dep] |= tasks
if not sq_revdeps[dep] and dep not in rqdata.runq_setscene_tids:
newendpoints[dep] = task
if newendpoints:
process_endpoints(newendpoints)
process_endpoints(endpoints)
rqdata.init_progress_reporter.next_stage()
# Build a list of tasks which are "unskippable"
# These are direct endpoints referenced by the build upto and including setscene tasks
# Take the build endpoints (no revdeps) and find the sstate tasks they depend upon
new = True
for tid in rqdata.runtaskentries:
if not rqdata.runtaskentries[tid].revdeps:
sqdata.unskippable.add(tid)
sqdata.unskippable |= sqrq.cantskip
while new:
new = False
orig = sqdata.unskippable.copy()
for tid in sorted(orig, reverse=True):
if tid in rqdata.runq_setscene_tids:
continue
if not rqdata.runtaskentries[tid].depends:
# These are tasks which have no setscene tasks in their chain, need to mark as directly buildable
sqrq.setbuildable(tid)
sqdata.unskippable |= rqdata.runtaskentries[tid].depends
if sqdata.unskippable != orig:
new = True
sqrq.tasks_scenequeue_done |= sqdata.unskippable.difference(rqdata.runq_setscene_tids)
rqdata.init_progress_reporter.next_stage(len(rqdata.runtaskentries))
# Sanity check all dependencies could be changed to setscene task references
for taskcounter, tid in enumerate(rqdata.runtaskentries):
if tid in rqdata.runq_setscene_tids:
pass
elif sq_revdeps_squash[tid]:
bb.msg.fatal("RunQueue", "Something went badly wrong during scenequeue generation, halting. Please report this problem.")
else:
del sq_revdeps_squash[tid]
rqdata.init_progress_reporter.update(taskcounter)
rqdata.init_progress_reporter.next_stage()
# Resolve setscene inter-task dependencies
# e.g. do_sometask_setscene[depends] = "targetname:do_someothertask_setscene"
# Note that anything explicitly depended upon will have its reverse dependencies removed to avoid circular dependencies
for tid in rqdata.runq_setscene_tids:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
realtid = tid + "_setscene"
idepends = rqdata.taskData[mc].taskentries[realtid].idepends
sqdata.stamps[tid] = bb.parse.siggen.stampfile_mcfn(taskname, taskfn, extrainfo=False)
for (depname, idependtask) in idepends:
if depname not in rqdata.taskData[mc].build_targets:
continue
depfn = rqdata.taskData[mc].build_targets[depname][0]
if depfn is None:
continue
deptid = depfn + ":" + idependtask.replace("_setscene", "")
if deptid not in rqdata.runtaskentries:
bb.msg.fatal("RunQueue", "Task %s depends upon non-existent task %s:%s" % (realtid, depfn, idependtask))
if not deptid in sqdata.sq_harddeps:
sqdata.sq_harddeps[deptid] = set()
sqdata.sq_harddeps[deptid].add(tid)
sq_revdeps_squash[tid].add(deptid)
# Have to zero this to avoid circular dependencies
sq_revdeps_squash[deptid] = set()
rqdata.init_progress_reporter.next_stage()
for task in sqdata.sq_harddeps:
for dep in sqdata.sq_harddeps[task]:
sq_revdeps_squash[dep].add(task)
rqdata.init_progress_reporter.next_stage()
#for tid in sq_revdeps_squash:
# data = ""
# for dep in sq_revdeps_squash[tid]:
# data = data + "\n %s" % dep
# bb.warn("Task %s_setscene: is %s " % (tid, data))
sqdata.sq_revdeps = sq_revdeps_squash
sqdata.sq_covered_tasks = sq_collated_deps
# Build reverse version of revdeps to populate deps structure
for tid in sqdata.sq_revdeps:
sqdata.sq_deps[tid] = set()
for tid in sqdata.sq_revdeps:
for dep in sqdata.sq_revdeps[tid]:
sqdata.sq_deps[dep].add(tid)
rqdata.init_progress_reporter.next_stage()
sqdata.multiconfigs = set()
for tid in sqdata.sq_revdeps:
sqdata.multiconfigs.add(mc_from_tid(tid))
if not sqdata.sq_revdeps[tid]:
sqrq.sq_buildable.add(tid)
rqdata.init_progress_reporter.finish()
sqdata.noexec = set()
sqdata.stamppresent = set()
sqdata.valid = set()
sqdata.hashes = {}
sqrq.sq_deferred = {}
for mc in sorted(sqdata.multiconfigs):
for tid in sorted(sqdata.sq_revdeps):
if mc_from_tid(tid) != mc:
continue
h = pending_hash_index(tid, rqdata)
if h not in sqdata.hashes:
sqdata.hashes[h] = tid
else:
sqrq.sq_deferred[tid] = sqdata.hashes[h]
bb.note("Deferring %s after %s" % (tid, sqdata.hashes[h]))
update_scenequeue_data(sqdata.sq_revdeps, sqdata, rqdata, rq, cooker, stampcache, sqrq, summary=True)
# Compute a list of 'stale' sstate tasks where the current hash does not match the one
# in any stamp files. Pass the list out to metadata as an event.
found = {}
for tid in rqdata.runq_setscene_tids:
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
stamps = bb.build.find_stale_stamps(taskname, taskfn)
if stamps:
if mc not in found:
found[mc] = {}
found[mc][tid] = stamps
for mc in found:
event = bb.event.StaleSetSceneTasks(found[mc])
bb.event.fire(event, cooker.databuilder.mcdata[mc])
def check_setscene_stamps(tid, rqdata, rq, stampcache, noexecstamp=False):
(mc, fn, taskname, taskfn) = split_tid_mcfn(tid)
taskdep = rqdata.dataCaches[mc].task_deps[taskfn]
if 'noexec' in taskdep and taskname in taskdep['noexec']:
bb.build.make_stamp_mcfn(taskname + "_setscene", taskfn)
return True, False
if rq.check_stamp_task(tid, taskname + "_setscene", cache=stampcache):
logger.debug2('Setscene stamp current for task %s', tid)
return False, True
if rq.check_stamp_task(tid, taskname, recurse = True, cache=stampcache):
logger.debug2('Normal stamp current for task %s', tid)
return False, True
return False, False
def update_scenequeue_data(tids, sqdata, rqdata, rq, cooker, stampcache, sqrq, summary=True):
tocheck = set()
for tid in sorted(tids):
if tid in sqdata.stamppresent:
sqdata.stamppresent.remove(tid)
if tid in sqdata.valid:
sqdata.valid.remove(tid)
if tid in sqdata.outrightfail:
sqdata.outrightfail.remove(tid)
noexec, stamppresent = check_setscene_stamps(tid, rqdata, rq, stampcache, noexecstamp=True)
if noexec:
sqdata.noexec.add(tid)
sqrq.sq_task_skip(tid)
logger.debug2("%s is noexec so skipping setscene" % (tid))
continue
if stamppresent:
sqdata.stamppresent.add(tid)
sqrq.sq_task_skip(tid)
logger.debug2("%s has a valid stamp, skipping" % (tid))
continue
tocheck.add(tid)
sqdata.valid |= rq.validate_hashes(tocheck, cooker.data, len(sqdata.stamppresent), False, summary=summary)
for tid in tids:
if tid in sqdata.stamppresent:
continue
if tid in sqdata.valid:
continue
if tid in sqdata.noexec:
continue
if tid in sqrq.scenequeue_covered:
continue
if tid in sqrq.scenequeue_notcovered:
continue
if tid in sqrq.sq_deferred:
continue
sqdata.outrightfail.add(tid)
logger.debug2("%s already handled (fallthrough), skipping" % (tid))
class TaskFailure(Exception):
"""
Exception raised when a task in a runqueue fails
"""
def __init__(self, x):
self.args = x
class runQueueExitWait(bb.event.Event):
"""
Event when waiting for task processes to exit
"""
def __init__(self, remain):
self.remain = remain
self.message = "Waiting for %s active tasks to finish" % remain
bb.event.Event.__init__(self)
class runQueueEvent(bb.event.Event):
"""
Base runQueue event class
"""
def __init__(self, task, stats, rq):
self.taskid = task
self.taskstring = task
self.taskname = taskname_from_tid(task)
self.taskfile = fn_from_tid(task)
self.taskhash = rq.rqdata.get_task_hash(task)
self.stats = stats.copy()
bb.event.Event.__init__(self)
class sceneQueueEvent(runQueueEvent):
"""
Base sceneQueue event class
"""
def __init__(self, task, stats, rq, noexec=False):
runQueueEvent.__init__(self, task, stats, rq)
self.taskstring = task + "_setscene"
self.taskname = taskname_from_tid(task) + "_setscene"
self.taskfile = fn_from_tid(task)
self.taskhash = rq.rqdata.get_task_hash(task)
class runQueueTaskStarted(runQueueEvent):
"""
Event notifying a task was started
"""
def __init__(self, task, stats, rq, noexec=False):
runQueueEvent.__init__(self, task, stats, rq)
self.noexec = noexec
class sceneQueueTaskStarted(sceneQueueEvent):
"""
Event notifying a setscene task was started
"""
def __init__(self, task, stats, rq, noexec=False):
sceneQueueEvent.__init__(self, task, stats, rq)
self.noexec = noexec
class runQueueTaskFailed(runQueueEvent):
"""
Event notifying a task failed
"""
def __init__(self, task, stats, exitcode, rq, fakeroot_log=None):
runQueueEvent.__init__(self, task, stats, rq)
self.exitcode = exitcode
self.fakeroot_log = fakeroot_log
def __str__(self):
if self.fakeroot_log:
return "Task (%s) failed with exit code '%s' \nPseudo log:\n%s" % (self.taskstring, self.exitcode, self.fakeroot_log)
else:
return "Task (%s) failed with exit code '%s'" % (self.taskstring, self.exitcode)
class sceneQueueTaskFailed(sceneQueueEvent):
"""
Event notifying a setscene task failed
"""
def __init__(self, task, stats, exitcode, rq):
sceneQueueEvent.__init__(self, task, stats, rq)
self.exitcode = exitcode
def __str__(self):
return "Setscene task (%s) failed with exit code '%s' - real task will be run instead" % (self.taskstring, self.exitcode)
class sceneQueueComplete(sceneQueueEvent):
"""
Event when all the sceneQueue tasks are complete
"""
def __init__(self, stats, rq):
self.stats = stats.copy()
bb.event.Event.__init__(self)
class runQueueTaskCompleted(runQueueEvent):
"""
Event notifying a task completed
"""
class sceneQueueTaskCompleted(sceneQueueEvent):
"""
Event notifying a setscene task completed
"""
class runQueueTaskSkipped(runQueueEvent):
"""
Event notifying a task was skipped
"""
def __init__(self, task, stats, rq, reason):
runQueueEvent.__init__(self, task, stats, rq)
self.reason = reason
class taskUniHashUpdate(bb.event.Event):
"""
Base runQueue event class
"""
def __init__(self, task, unihash):
self.taskid = task
self.unihash = unihash
bb.event.Event.__init__(self)
class runQueuePipe():
"""
Abstraction for a pipe between a worker thread and the server
"""
def __init__(self, pipein, pipeout, d, rq, rqexec, fakerootlogs=None):
self.input = pipein
if pipeout:
pipeout.close()
bb.utils.nonblockingfd(self.input)
self.queue = b""
self.d = d
self.rq = rq
self.rqexec = rqexec
self.fakerootlogs = fakerootlogs
def setrunqueueexec(self, rqexec):
self.rqexec = rqexec
def read(self):
for workers, name in [(self.rq.worker, "Worker"), (self.rq.fakeworker, "Fakeroot")]:
for worker in workers.values():
worker.process.poll()
if worker.process.returncode is not None and not self.rq.teardown:
bb.error("%s process (%s) exited unexpectedly (%s), shutting down..." % (name, worker.process.pid, str(worker.process.returncode)))
self.rq.finish_runqueue(True)
start = len(self.queue)
try:
self.queue = self.queue + (self.input.read(102400) or b"")
except (OSError, IOError) as e:
if e.errno != errno.EAGAIN:
raise
end = len(self.queue)
found = True
while found and self.queue:
found = False
index = self.queue.find(b"</event>")
while index != -1 and self.queue.startswith(b"<event>"):
try:
event = pickle.loads(self.queue[7:index])
except (ValueError, pickle.UnpicklingError, AttributeError, IndexError) as e:
if isinstance(e, pickle.UnpicklingError) and "truncated" in str(e):
# The pickled data could contain "</event>" so search for the next occurance
# unpickling again, this should be the only way an unpickle error could occur
index = self.queue.find(b"</event>", index + 1)
continue
bb.msg.fatal("RunQueue", "failed load pickle '%s': '%s'" % (e, self.queue[7:index]))
bb.event.fire_from_worker(event, self.d)
if isinstance(event, taskUniHashUpdate):
self.rqexec.updated_taskhash_queue.append((event.taskid, event.unihash))
found = True
self.queue = self.queue[index+8:]
index = self.queue.find(b"</event>")
index = self.queue.find(b"</exitcode>")
while index != -1 and self.queue.startswith(b"<exitcode>"):
try:
task, status = pickle.loads(self.queue[10:index])
except (ValueError, pickle.UnpicklingError, AttributeError, IndexError) as e:
bb.msg.fatal("RunQueue", "failed load pickle '%s': '%s'" % (e, self.queue[10:index]))
(_, _, _, taskfn) = split_tid_mcfn(task)
fakerootlog = None
if self.fakerootlogs and taskfn and taskfn in self.fakerootlogs:
fakerootlog = self.fakerootlogs[taskfn]
self.rqexec.runqueue_process_waitpid(task, status, fakerootlog=fakerootlog)
found = True
self.queue = self.queue[index+11:]
index = self.queue.find(b"</exitcode>")
return (end > start)
def close(self):
while self.read():
continue
if self.queue:
print("Warning, worker left partial message: %s" % self.queue)
self.input.close()
def get_setscene_enforce_ignore_tasks(d, targets):
if d.getVar('BB_SETSCENE_ENFORCE') != '1':
return None
ignore_tasks = (d.getVar("BB_SETSCENE_ENFORCE_IGNORE_TASKS") or "").split()
outlist = []
for item in ignore_tasks[:]:
if item.startswith('%:'):
for (mc, target, task, fn) in targets:
outlist.append(target + ':' + item.split(':')[1])
else:
outlist.append(item)
return outlist
def check_setscene_enforce_ignore_tasks(pn, taskname, ignore_tasks):
import fnmatch
if ignore_tasks is not None:
item = '%s:%s' % (pn, taskname)
for ignore_tasks in ignore_tasks:
if fnmatch.fnmatch(item, ignore_tasks):
return True
return False
return True
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