| #!/usr/bin/env python |
| """ |
| 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 signal |
| import stat |
| import fcntl |
| import errno |
| import logging |
| import re |
| import bb |
| from bb import msg, data, event |
| from bb import monitordisk |
| import subprocess |
| import pickle |
| from multiprocessing import Process |
| import shlex |
| |
| bblogger = logging.getLogger("BitBake") |
| logger = logging.getLogger("BitBake.RunQueue") |
| |
| __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:'): |
| return tid.split(':')[1] |
| return "" |
| |
| def split_tid(tid): |
| (mc, fn, taskname, _) = split_tid_mcfn(tid) |
| return (mc, fn, taskname) |
| |
| def split_tid_mcfn(tid): |
| if tid.startswith('mc:'): |
| 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 |
| |
| class RunQueueStats: |
| """ |
| Holds statistics on the tasks handled by the associated runQueue |
| """ |
| def __init__(self, total): |
| self.completed = 0 |
| self.skipped = 0 |
| self.failed = 0 |
| self.active = 0 |
| self.total = total |
| |
| def copy(self): |
| obj = self.__class__(self.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 |
| |
| # These values indicate the next step due to be run in the |
| # runQueue state machine |
| runQueuePrepare = 2 |
| runQueueSceneInit = 3 |
| runQueueSceneRun = 4 |
| runQueueRunInit = 5 |
| 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 = [] |
| self.skip_maxthread = {} |
| self.stamps = {} |
| for tid in self.rqdata.runtaskentries: |
| (mc, fn, taskname, taskfn) = split_tid_mcfn(tid) |
| self.stamps[tid] = bb.build.stampfile(taskname, self.rqdata.dataCaches[mc], taskfn, noextra=True) |
| if tid in self.rq.runq_buildable: |
| self.buildable.append(tid) |
| |
| self.rev_prio_map = None |
| |
| def next_buildable_task(self): |
| """ |
| Return the id of the first task we find that is buildable |
| """ |
| self.buildable = [x for x in self.buildable if x not in self.rq.runq_running] |
| if not self.buildable: |
| 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(self.buildable) == 1: |
| tid = self.buildable[0] |
| 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 self.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.append(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.stampwhitelist = cfgData.getVar("BB_STAMP_WHITELIST") or "" |
| self.multi_provider_whitelist = (cfgData.getVar("MULTI_PROVIDER_WHITELIST") or "").split() |
| self.setscenewhitelist = get_setscene_enforce_whitelist(cfgData) |
| self.setscenewhitelist_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("Aborted 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 len(next_points) == 0: |
| 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.debug(2, "Task %s is not buildable", tid) |
| logger.debug(2, "(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 len(taskData[mc].taskentries) > 0: |
| found = True |
| break |
| if not found: |
| # Nothing to do |
| return 0 |
| |
| self.init_progress_reporter.start() |
| self.init_progress_reporter.next_stage() |
| |
| # 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 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.debug(2, "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() |
| |
| # 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 len(deps[tid]) == 0: |
| 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 len(deps[dep]) == 0: |
| next.add(dep) |
| endpoints = next |
| #for tid in deps: |
| # if len(deps[tid]) != 0: |
| # 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() |
| |
| #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) |
| |
| 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() |
| |
| # Step C - Prune all inactive tasks |
| # |
| # Once all active tasks are marked, prune the ones we don't need. |
| |
| delcount = {} |
| for tid in list(self.runtaskentries.keys()): |
| if tid not in runq_build: |
| delcount[tid] = self.runtaskentries[tid] |
| del self.runtaskentries[tid] |
| |
| # Handle --runall |
| if self.cooker.configuration.runall: |
| # re-run the mark_active and then drop unused tasks from new list |
| runq_build = {} |
| |
| for task in self.cooker.configuration.runall: |
| runall_tids = set() |
| for tid in list(self.runtaskentries): |
| wanttid = fn_from_tid(tid) + ":do_%s" % task |
| if wanttid in delcount: |
| self.runtaskentries[wanttid] = delcount[wanttid] |
| if wanttid in self.runtaskentries: |
| runall_tids.add(wanttid) |
| |
| for tid in list(runall_tids): |
| mark_active(tid,1) |
| |
| for tid in list(self.runtaskentries.keys()): |
| if tid not in runq_build: |
| delcount[tid] = self.runtaskentries[tid] |
| del self.runtaskentries[tid] |
| |
| if len(self.runtaskentries) == 0: |
| 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() |
| |
| # 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: |
| runonly_tids = { k: v for k, v in self.runtaskentries.items() if taskname_from_tid(k) == "do_%s" % task } |
| |
| for tid in list(runonly_tids): |
| mark_active(tid,1) |
| |
| for tid in list(self.runtaskentries.keys()): |
| if tid not in runq_build: |
| delcount[tid] = self.runtaskentries[tid] |
| del self.runtaskentries[tid] |
| |
| if len(self.runtaskentries) == 0: |
| 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 len(self.runtaskentries) == 0: |
| if not taskData[''].abort: |
| 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() |
| |
| # 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() |
| |
| # 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 len(revdeps) == 0: |
| 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() |
| |
| # Calculate task weights |
| # Check of higher length circular dependencies |
| self.runq_weight = self.calculate_task_weights(endpoints) |
| |
| self.init_progress_reporter.next_stage() |
| |
| # 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_whitelist: |
| 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)) |
| msg = "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 |
| # |
| msg += "\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: |
| msg += "\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) |
| # |
| msg += "\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 |
| #msg += "\nCommon provides:\n %s" % ("\n ".join(commonprovs)) |
| #msg += "\nCommon rprovides:\n %s" % ("\n ".join(commonrprovs)) |
| for provfn in prov_list[prov]: |
| msg += "\n%s has unique provides:\n %s" % (provfn, "\n ".join(provide_results[provfn] - commonprovs)) |
| msg += "\n%s has unique rprovides:\n %s" % (provfn, "\n ".join(rprovide_results[provfn] - commonrprovs)) |
| |
| if self.warn_multi_bb: |
| logger.verbnote(msg) |
| else: |
| logger.error(msg) |
| |
| self.init_progress_reporter.next_stage() |
| |
| # Create a whitelist usable by the stamp checks |
| self.stampfnwhitelist = {} |
| for mc in self.taskData: |
| self.stampfnwhitelist[mc] = [] |
| for entry in self.stampwhitelist.split(): |
| if entry not in self.taskData[mc].build_targets: |
| continue |
| fn = self.taskData.build_targets[entry][0] |
| self.stampfnwhitelist[mc].append(fn) |
| |
| self.init_progress_reporter.next_stage() |
| |
| # Iterate over the task list looking for tasks with a 'setscene' function |
| self.runq_setscene_tids = [] |
| 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.append(tid) |
| |
| 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, self.dataCaches[mc], taskfn) |
| |
| self.init_progress_reporter.next_stage() |
| |
| # 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() |
| |
| # 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() |
| |
| # Iterate over the task list and call into the siggen code |
| dealtwith = set() |
| todeal = set(self.runtaskentries) |
| while len(todeal) > 0: |
| for tid in todeal.copy(): |
| if len(self.runtaskentries[tid].depends - dealtwith) == 0: |
| dealtwith.add(tid) |
| todeal.remove(tid) |
| self.prepare_task_hash(tid) |
| |
| bb.parse.siggen.writeout_file_checksum_cache() |
| |
| #self.dump_data() |
| return len(self.runtaskentries) |
| |
| def prepare_task_hash(self, tid): |
| procdep = [] |
| for dep in self.runtaskentries[tid].depends: |
| procdep.append(fn_from_tid(dep) + "." + taskname_from_tid(dep)) |
| (mc, fn, taskname, taskfn) = split_tid_mcfn(tid) |
| self.runtaskentries[tid].hash = bb.parse.siggen.get_taskhash(taskfn, taskname, procdep, self.dataCaches[mc]) |
| self.runtaskentries[tid].unihash = bb.parse.siggen.get_unihash(taskfn + "." + taskname) |
| |
| def dump_data(self): |
| """ |
| Dump some debug information on the internal data structures |
| """ |
| logger.debug(3, "run_tasks:") |
| for tid in self.runtaskentries: |
| logger.debug(3, " %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.stamppolicy = cfgData.getVar("BB_STAMP_POLICY") or "perfile" |
| self.hashvalidate = cfgData.getVar("BB_HASHCHECK_FUNCTION") or None |
| self.setsceneverify = cfgData.getVar("BB_SETSCENE_VERIFY_FUNCTION2") 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 runQueueSceneRun, 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(1, "Starting bitbake-worker") |
| magic = "decafbad" |
| if self.cooker.configuration.profile: |
| magic = "decafbadbad" |
| 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) |
| 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) |
| |
| workerdata = { |
| "taskdeps" : self.rqdata.dataCaches[mc].task_deps, |
| "fakerootenv" : self.rqdata.dataCaches[mc].fakerootenv, |
| "fakerootdirs" : self.rqdata.dataCaches[mc].fakerootdirs, |
| "fakerootnoenv" : self.rqdata.dataCaches[mc].fakerootnoenv, |
| "sigdata" : bb.parse.siggen.get_taskdata(), |
| "logdefaultdebug" : bb.msg.loggerDefaultDebugLevel, |
| "logdefaultverbose" : bb.msg.loggerDefaultVerbose, |
| "logdefaultverboselogs" : bb.msg.loggerVerboseLogs, |
| "logdefaultdomain" : bb.msg.loggerDefaultDomains, |
| "prhost" : self.cooker.prhost, |
| "buildname" : self.cfgData.getVar("BUILDNAME"), |
| "date" : self.cfgData.getVar("DATE"), |
| "time" : self.cfgData.getVar("TIME"), |
| } |
| |
| 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(1, "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 |
| |
| if self.stamppolicy == "perfile": |
| fulldeptree = False |
| else: |
| fulldeptree = True |
| stampwhitelist = [] |
| if self.stamppolicy == "whitelist": |
| stampwhitelist = self.rqdata.stampfnwhitelist[mc] |
| |
| stampfile = bb.build.stampfile(taskname, self.rqdata.dataCaches[mc], taskfn) |
| |
| # If the stamp is missing, it's not current |
| if not os.access(stampfile, os.F_OK): |
| logger.debug(2, "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.debug(2, "%s.%s is nostamp\n", fn, taskname) |
| return False |
| |
| if taskname != "do_setscene" and 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.build.stampfile(taskname2, self.rqdata.dataCaches[mc2], taskfn2) |
| stampfile3 = bb.build.stampfile(taskname2 + "_setscene", self.rqdata.dataCaches[mc2], taskfn2) |
| t2 = get_timestamp(stampfile2) |
| t3 = get_timestamp(stampfile3) |
| if t3 and not t2: |
| continue |
| if t3 and t3 > t2: |
| continue |
| if fn == fn2 or (fulldeptree and fn2 not in stampwhitelist): |
| if not t2: |
| logger.debug(2, 'Stampfile %s does not exist', stampfile2) |
| iscurrent = False |
| break |
| if t1 < t2: |
| logger.debug(2, 'Stampfile %s < %s', stampfile, stampfile2) |
| iscurrent = False |
| break |
| if recurse and iscurrent: |
| if dep in cache: |
| iscurrent = cache[dep] |
| if not iscurrent: |
| logger.debug(2, '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_hash(self, *, sq_fn, sq_task, sq_hash, sq_hashfn, siginfo, sq_unihash, d): |
| locs = {"sq_fn" : sq_fn, "sq_task" : sq_task, "sq_hash" : sq_hash, "sq_hashfn" : sq_hashfn, |
| "sq_unihash" : sq_unihash, "siginfo" : siginfo, "d" : d} |
| |
| hashvalidate_args = ("(sq_fn, sq_task, sq_hash, sq_hashfn, d, siginfo=siginfo, sq_unihash=sq_unihash)", |
| "(sq_fn, sq_task, sq_hash, sq_hashfn, d, siginfo=siginfo)", |
| "(sq_fn, sq_task, sq_hash, sq_hashfn, d)") |
| |
| for args in hashvalidate_args[:-1]: |
| try: |
| call = self.hashvalidate + args |
| return bb.utils.better_eval(call, locs) |
| except TypeError: |
| continue |
| |
| # Call the last entry without a try...catch to propagate any thrown |
| # TypeError |
| call = self.hashvalidate + hashvalidate_args[-1] |
| 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 abort on failure configuration option isn't set) |
| """ |
| |
| retval = True |
| |
| if self.state is runQueuePrepare: |
| self.rqexe = RunQueueExecuteDummy(self) |
| # 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 |
| 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 self.state is runQueueSceneInit: |
| if not self.dm_event_handler_registered: |
| res = bb.event.register(self.dm_event_handler_name, |
| lambda x: self.dm.check(self) if self.state in [runQueueSceneRun, runQueueRunning, runQueueCleanUp] else False, |
| ('bb.event.HeartbeatEvent',)) |
| 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 |
| else: |
| self.rqdata.init_progress_reporter.next_stage() |
| self.start_worker() |
| self.rqdata.init_progress_reporter.next_stage() |
| self.rqexe = RunQueueExecuteScenequeue(self) |
| |
| if self.state is runQueueSceneRun: |
| retval = self.rqexe.execute() |
| |
| if self.state is runQueueRunInit: |
| if self.cooker.configuration.setsceneonly: |
| self.state = runQueueComplete |
| else: |
| # Just in case we didn't setscene |
| self.rqdata.init_progress_reporter.finish() |
| logger.info("Executing RunQueue Tasks") |
| self.rqexe = RunQueueExecuteTasks(self) |
| 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) |
| self.dm_event_handler_registered = False |
| |
| if build_done and self.rqexe: |
| self.teardown_workers() |
| 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_sigfn(self, fn, options): |
| bb_cache = bb.cache.NoCache(self.cooker.databuilder) |
| the_data = bb_cache.loadDataFull(fn, self.cooker.collection.get_file_appends(fn)) |
| siggen = bb.parse.siggen |
| dataCaches = self.rqdata.dataCaches |
| siggen.dump_sigfn(fn, dataCaches, options) |
| |
| def dump_signatures(self, options): |
| fns = set() |
| bb.note("Reparsing files to collect dependency data") |
| |
| for tid in self.rqdata.runtaskentries: |
| fn = fn_from_tid(tid) |
| fns.add(fn) |
| |
| max_process = int(self.cfgData.getVar("BB_NUMBER_PARSE_THREADS") or os.cpu_count() or 1) |
| # 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 fns: |
| if len(launched) < max_process: |
| p = Process(target=self.rq_dump_sigfn, args=(fns.pop(), options)) |
| 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): |
| |
| valid = [] |
| sq_hash = [] |
| sq_hashfn = [] |
| sq_unihash = [] |
| sq_fn = [] |
| sq_taskname = [] |
| sq_task = [] |
| noexec = [] |
| stamppresent = [] |
| valid_new = 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 |
| |
| sq_fn.append(fn) |
| sq_hashfn.append(self.rqdata.dataCaches[mc].hashfn[taskfn]) |
| sq_hash.append(self.rqdata.runtaskentries[tid].hash) |
| sq_unihash.append(self.rqdata.runtaskentries[tid].unihash) |
| sq_taskname.append(taskname) |
| sq_task.append(tid) |
| |
| valid = self.validate_hash(sq_fn=sq_fn, sq_task=sq_taskname, sq_hash=sq_hash, sq_hashfn=sq_hashfn, |
| siginfo=True, sq_unihash=sq_unihash, d=self.cooker.data) |
| |
| for v in valid: |
| valid_new.add(sq_task[v]) |
| |
| # 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.cfgData) |
| 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.runq_buildable = set() |
| self.runq_running = set() |
| self.runq_complete = set() |
| |
| self.build_stamps = {} |
| self.build_stamps2 = [] |
| self.failed_tids = [] |
| |
| self.stampcache = {} |
| |
| 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) |
| |
| def runqueue_process_waitpid(self, task, status): |
| |
| # 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 status != 0: |
| self.task_fail(task, status) |
| 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 len(self.failed_tids) != 0: |
| self.rq.state = runQueueFailed |
| return |
| |
| self.rq.state = runQueueComplete |
| return |
| |
| def finish(self): |
| self.rq.state = runQueueCleanUp |
| |
| if self.stats.active > 0: |
| bb.event.fire(runQueueExitWait(self.stats.active), self.cfgData) |
| self.rq.read_workers() |
| return self.rq.active_fds() |
| |
| if len(self.failed_tids) != 0: |
| self.rq.state = runQueueFailed |
| return True |
| |
| self.rq.state = runQueueComplete |
| return True |
| |
| def check_dependencies(self, task, taskdeps, setscene = False): |
| if not self.rq.depvalidate: |
| return False |
| |
| 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): |
| can_start = self.stats.active < self.number_tasks |
| return can_start |
| |
| class RunQueueExecuteDummy(RunQueueExecute): |
| def __init__(self, rq): |
| self.rq = rq |
| self.stats = RunQueueStats(0) |
| |
| def finish(self): |
| self.rq.state = runQueueComplete |
| return |
| |
| class RunQueueExecuteTasks(RunQueueExecute): |
| def __init__(self, rq): |
| RunQueueExecute.__init__(self, rq) |
| |
| self.stats = RunQueueStats(len(self.rqdata.runtaskentries)) |
| |
| self.stampcache = {} |
| |
| initial_covered = self.rq.scenequeue_covered.copy() |
| |
| # Mark initial buildable tasks |
| for tid in self.rqdata.runtaskentries: |
| if len(self.rqdata.runtaskentries[tid].depends) == 0: |
| self.runq_buildable.add(tid) |
| if len(self.rqdata.runtaskentries[tid].revdeps) > 0 and self.rqdata.runtaskentries[tid].revdeps.issubset(self.rq.scenequeue_covered): |
| self.rq.scenequeue_covered.add(tid) |
| |
| found = True |
| while found: |
| found = False |
| for tid in self.rqdata.runtaskentries: |
| if tid in self.rq.scenequeue_covered: |
| continue |
| logger.debug(1, 'Considering %s: %s' % (tid, str(self.rqdata.runtaskentries[tid].revdeps))) |
| |
| if len(self.rqdata.runtaskentries[tid].revdeps) > 0 and self.rqdata.runtaskentries[tid].revdeps.issubset(self.rq.scenequeue_covered): |
| if tid in self.rq.scenequeue_notcovered: |
| continue |
| found = True |
| self.rq.scenequeue_covered.add(tid) |
| |
| logger.debug(1, 'Skip list (pre setsceneverify) %s', sorted(self.rq.scenequeue_covered)) |
| |
| # Allow the metadata to elect for setscene tasks to run anyway |
| covered_remove = set() |
| if self.rq.setsceneverify: |
| invalidtasks = [] |
| tasknames = {} |
| fns = {} |
| for tid in self.rqdata.runtaskentries: |
| (mc, fn, taskname, taskfn) = split_tid_mcfn(tid) |
| taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn] |
| fns[tid] = taskfn |
| tasknames[tid] = taskname |
| if 'noexec' in taskdep and taskname in taskdep['noexec']: |
| continue |
| if self.rq.check_stamp_task(tid, taskname + "_setscene", cache=self.stampcache): |
| logger.debug(2, 'Setscene stamp current for task %s', tid) |
| continue |
| if self.rq.check_stamp_task(tid, taskname, recurse = True, cache=self.stampcache): |
| logger.debug(2, 'Normal stamp current for task %s', tid) |
| continue |
| invalidtasks.append(tid) |
| |
| call = self.rq.setsceneverify + "(covered, tasknames, fns, d, invalidtasks=invalidtasks)" |
| locs = { "covered" : self.rq.scenequeue_covered, "tasknames" : tasknames, "fns" : fns, "d" : self.cooker.data, "invalidtasks" : invalidtasks } |
| covered_remove = bb.utils.better_eval(call, locs) |
| |
| def removecoveredtask(tid): |
| (mc, fn, taskname, taskfn) = split_tid_mcfn(tid) |
| taskname = taskname + '_setscene' |
| bb.build.del_stamp(taskname, self.rqdata.dataCaches[mc], taskfn) |
| self.rq.scenequeue_covered.remove(tid) |
| |
| toremove = covered_remove | self.rq.scenequeue_notcovered |
| for task in toremove: |
| logger.debug(1, 'Not skipping task %s due to setsceneverify', task) |
| while toremove: |
| covered_remove = [] |
| for task in toremove: |
| if task in self.rq.scenequeue_covered: |
| removecoveredtask(task) |
| for deptask in self.rqdata.runtaskentries[task].depends: |
| if deptask not in self.rq.scenequeue_covered: |
| continue |
| if deptask in toremove or deptask in covered_remove or deptask in initial_covered: |
| continue |
| logger.debug(1, 'Task %s depends on task %s so not skipping' % (task, deptask)) |
| covered_remove.append(deptask) |
| toremove = covered_remove |
| |
| logger.debug(1, 'Full skip list %s', self.rq.scenequeue_covered) |
| |
| |
| for mc in self.rqdata.dataCaches: |
| target_pairs = [] |
| for tid in self.rqdata.target_tids: |
| (tidmc, fn, taskname, _) = split_tid_mcfn(tid) |
| if tidmc == mc: |
| target_pairs.append((fn, taskname)) |
| |
| event.fire(bb.event.StampUpdate(target_pairs, self.rqdata.dataCaches[mc].stamp), self.cfgData) |
| |
| schedulers = self.get_schedulers() |
| for scheduler in schedulers: |
| if self.scheduler == scheduler.name: |
| self.sched = scheduler(self, self.rqdata) |
| logger.debug(1, "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))) |
| |
| 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: |
| logger.critical("Unable to import scheduler '%s' from '%s': %s" % (name, modname, exc)) |
| raise SystemExit(1) |
| 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(1, "Marking task %s as buildable", revdep) |
| |
| def task_complete(self, task): |
| self.stats.taskCompleted() |
| bb.event.fire(runQueueTaskCompleted(task, self.stats, self.rq), self.cfgData) |
| self.task_completeoutright(task) |
| |
| def task_fail(self, task, exitcode): |
| """ |
| Called when a task has failed |
| Updates the state engine with the failure |
| """ |
| self.stats.taskFailed() |
| self.failed_tids.append(task) |
| bb.event.fire(runQueueTaskFailed(task, self.stats, exitcode, self.rq), self.cfgData) |
| if self.rqdata.taskData[''].abort: |
| 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 execute(self): |
| """ |
| Run the tasks in a queue prepared by rqdata.prepare() |
| """ |
| |
| if self.rqdata.setscenewhitelist is not None and not self.rqdata.setscenewhitelist_checked: |
| self.rqdata.setscenewhitelist_checked = True |
| |
| # Check tasks that are going to run against the whitelist |
| def check_norun_task(tid, showerror=False): |
| (mc, fn, taskname, taskfn) = split_tid_mcfn(tid) |
| # Ignore covered tasks |
| if tid in self.rq.scenequeue_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_whitelist(pn, taskname, self.rqdata.setscenewhitelist): |
| if showerror: |
| if tid in self.rqdata.runq_setscene_tids: |
| logger.error('Task %s.%s attempted to execute unexpectedly and should have been setscened' % (pn, taskname)) |
| else: |
| logger.error('Task %s.%s attempted to execute unexpectedly' % (pn, taskname)) |
| return True |
| return False |
| # Look to see if any tasks that we think shouldn't run are going to |
| unexpected = False |
| for tid in self.rqdata.runtaskentries: |
| if check_norun_task(tid): |
| unexpected = True |
| break |
| if unexpected: |
| # Run through the tasks in the rough order they'd have executed and print errors |
| # (since the order can be useful - usually missing sstate for the last few tasks |
| # is the cause of the problem) |
| task = self.sched.next() |
| while task is not None: |
| check_norun_task(task, showerror=True) |
| self.task_skip(task, 'Setscene enforcement check') |
| task = self.sched.next() |
| |
| self.rq.state = runQueueCleanUp |
| return True |
| |
| self.rq.read_workers() |
| |
| if self.stats.total == 0: |
| # nothing to do |
| self.rq.state = runQueueCleanUp |
| |
| task = self.sched.next() |
| if task is not None: |
| (mc, fn, taskname, taskfn) = split_tid_mcfn(task) |
| |
| if task in self.rq.scenequeue_covered: |
| logger.debug(2, "Setscene covered task %s", task) |
| self.task_skip(task, "covered") |
| return True |
| |
| if self.rq.check_stamp_task(task, taskname, cache=self.stampcache): |
| logger.debug(2, "Stamp current task %s", task) |
| |
| self.task_skip(task, "existing") |
| 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(taskname, self.rqdata.dataCaches[mc], taskfn) |
| self.task_complete(task) |
| return True |
| else: |
| startevent = runQueueTaskStarted(task, self.stats, self.rq) |
| bb.event.fire(startevent, self.cfgData) |
| |
| taskdepdata = self.build_taskdepdata(task) |
| |
| taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn] |
| taskhash = self.rqdata.get_task_hash(task) |
| unihash = self.rqdata.get_task_unihash(task) |
| 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((taskfn, task, taskname, taskhash, unihash, False, self.cooker.collection.get_file_appends(taskfn), taskdepdata, self.rqdata.setscene_enforce)) + b"</runtask>") |
| self.rq.fakeworker[mc].process.stdin.flush() |
| else: |
| self.rq.worker[mc].process.stdin.write(b"<runtask>" + pickle.dumps((taskfn, task, taskname, taskhash, unihash, False, self.cooker.collection.get_file_appends(taskfn), taskdepdata, self.rqdata.setscene_enforce)) + b"</runtask>") |
| self.rq.worker[mc].process.stdin.flush() |
| |
| self.build_stamps[task] = bb.build.stampfile(taskname, self.rqdata.dataCaches[mc], taskfn, noextra=True) |
| 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: |
| self.rq.read_workers() |
| return self.rq.active_fds() |
| |
| if len(self.failed_tids) != 0: |
| self.rq.state = runQueueFailed |
| return True |
| |
| # Sanity Checks |
| for task in self.rqdata.runtaskentries: |
| if task not in self.runq_buildable: |
| logger.error("Task %s never buildable!", task) |
| if task not in self.runq_running: |
| logger.error("Task %s never ran!", task) |
| if task not in self.runq_complete: |
| logger.error("Task %s never completed!", task) |
| self.rq.state = runQueueComplete |
| |
| return True |
| |
| def filtermcdeps(self, task, deps): |
| ret = set() |
| mainmc = mc_from_tid(task) |
| for dep in deps: |
| mc = mc_from_tid(dep) |
| if mc != mainmc: |
| 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 = {} |
| next = self.rqdata.runtaskentries[task].depends |
| next.add(task) |
| next = self.filtermcdeps(task, 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, deps) |
| taskdepdata[revdep] = [pn, taskname, fn, deps, provides, taskhash, unihash] |
| 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 |
| |
| class RunQueueExecuteScenequeue(RunQueueExecute): |
| def __init__(self, rq): |
| RunQueueExecute.__init__(self, rq) |
| |
| self.scenequeue_covered = set() |
| self.scenequeue_notcovered = set() |
| self.scenequeue_notneeded = set() |
| |
| # If we don't have any setscene functions, skip this step |
| if len(self.rqdata.runq_setscene_tids) == 0: |
| rq.scenequeue_covered = set() |
| rq.scenequeue_notcovered = set() |
| rq.state = runQueueRunInit |
| return |
| |
| self.stats = RunQueueStats(len(self.rqdata.runq_setscene_tids)) |
| |
| sq_revdeps = {} |
| sq_revdeps_new = {} |
| sq_revdeps_squash = {} |
| self.sq_harddeps = {} |
| self.stamps = {} |
| |
| # 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. |
| |
| self.rqdata.init_progress_reporter.next_stage() |
| |
| # First process the chains up to the first setscene task. |
| endpoints = {} |
| for tid in self.rqdata.runtaskentries: |
| sq_revdeps[tid] = copy.copy(self.rqdata.runtaskentries[tid].revdeps) |
| sq_revdeps_new[tid] = set() |
| if (len(sq_revdeps[tid]) == 0) and tid not in self.rqdata.runq_setscene_tids: |
| #bb.warn("Added endpoint %s" % (tid)) |
| endpoints[tid] = set() |
| |
| self.rqdata.init_progress_reporter.next_stage() |
| |
| # Secondly process the chains between setscene tasks. |
| for tid in self.rqdata.runq_setscene_tids: |
| #bb.warn("Added endpoint 2 %s" % (tid)) |
| for dep in self.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) |
| |
| self.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_new[point]: |
| tasks |= sq_revdeps_new[point] |
| sq_revdeps_new[point] = set() |
| if point in self.rqdata.runq_setscene_tids: |
| sq_revdeps_new[point] = tasks |
| tasks = set() |
| continue |
| for dep in self.rqdata.runtaskentries[point].depends: |
| if point in sq_revdeps[dep]: |
| sq_revdeps[dep].remove(point) |
| if tasks: |
| sq_revdeps_new[dep] |= tasks |
| if len(sq_revdeps[dep]) == 0 and dep not in self.rqdata.runq_setscene_tids: |
| newendpoints[dep] = task |
| if len(newendpoints) != 0: |
| process_endpoints(newendpoints) |
| |
| process_endpoints(endpoints) |
| |
| self.rqdata.init_progress_reporter.next_stage() |
| |
| # Build a list of setscene tasks which are "unskippable" |
| # These are direct endpoints referenced by the build |
| endpoints2 = {} |
| sq_revdeps2 = {} |
| sq_revdeps_new2 = {} |
| def process_endpoints2(endpoints): |
| newendpoints = {} |
| for point, task in endpoints.items(): |
| tasks = set([point]) |
| if task: |
| tasks |= task |
| if sq_revdeps_new2[point]: |
| tasks |= sq_revdeps_new2[point] |
| sq_revdeps_new2[point] = set() |
| if point in self.rqdata.runq_setscene_tids: |
| sq_revdeps_new2[point] = tasks |
| for dep in self.rqdata.runtaskentries[point].depends: |
| if point in sq_revdeps2[dep]: |
| sq_revdeps2[dep].remove(point) |
| if tasks: |
| sq_revdeps_new2[dep] |= tasks |
| if (len(sq_revdeps2[dep]) == 0 or len(sq_revdeps_new2[dep]) != 0) and dep not in self.rqdata.runq_setscene_tids: |
| newendpoints[dep] = tasks |
| if len(newendpoints) != 0: |
| process_endpoints2(newendpoints) |
| for tid in self.rqdata.runtaskentries: |
| sq_revdeps2[tid] = copy.copy(self.rqdata.runtaskentries[tid].revdeps) |
| sq_revdeps_new2[tid] = set() |
| if (len(sq_revdeps2[tid]) == 0) and tid not in self.rqdata.runq_setscene_tids: |
| endpoints2[tid] = set() |
| process_endpoints2(endpoints2) |
| self.unskippable = [] |
| for tid in self.rqdata.runq_setscene_tids: |
| if sq_revdeps_new2[tid]: |
| self.unskippable.append(tid) |
| |
| self.rqdata.init_progress_reporter.next_stage(len(self.rqdata.runtaskentries)) |
| |
| for taskcounter, tid in enumerate(self.rqdata.runtaskentries): |
| if tid in self.rqdata.runq_setscene_tids: |
| deps = set() |
| for dep in sq_revdeps_new[tid]: |
| deps.add(dep) |
| sq_revdeps_squash[tid] = deps |
| elif len(sq_revdeps_new[tid]) != 0: |
| bb.msg.fatal("RunQueue", "Something went badly wrong during scenequeue generation, aborting. Please report this problem.") |
| self.rqdata.init_progress_reporter.update(taskcounter) |
| |
| self.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 self.rqdata.runq_setscene_tids: |
| (mc, fn, taskname, taskfn) = split_tid_mcfn(tid) |
| realtid = tid + "_setscene" |
| idepends = self.rqdata.taskData[mc].taskentries[realtid].idepends |
| self.stamps[tid] = bb.build.stampfile(taskname + "_setscene", self.rqdata.dataCaches[mc], taskfn, noextra=True) |
| 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", "") |
| if deptid not in self.rqdata.runtaskentries: |
| bb.msg.fatal("RunQueue", "Task %s depends upon non-existent task %s:%s" % (realtid, depfn, idependtask)) |
| |
| if not deptid in self.sq_harddeps: |
| self.sq_harddeps[deptid] = set() |
| self.sq_harddeps[deptid].add(tid) |
| |
| sq_revdeps_squash[tid].add(deptid) |
| # Have to zero this to avoid circular dependencies |
| sq_revdeps_squash[deptid] = set() |
| |
| self.rqdata.init_progress_reporter.next_stage() |
| |
| for task in self.sq_harddeps: |
| for dep in self.sq_harddeps[task]: |
| sq_revdeps_squash[dep].add(task) |
| |
| self.rqdata.init_progress_reporter.next_stage() |
| |
| #for tid in sq_revdeps_squash: |
| # for dep in sq_revdeps_squash[tid]: |
| # data = data + "\n %s" % dep |
| # bb.warn("Task %s_setscene: is %s " % (tid, data |
| |
| self.sq_deps = {} |
| self.sq_revdeps = sq_revdeps_squash |
| self.sq_revdeps2 = copy.deepcopy(self.sq_revdeps) |
| |
| for tid in self.sq_revdeps: |
| self.sq_deps[tid] = set() |
| for tid in self.sq_revdeps: |
| for dep in self.sq_revdeps[tid]: |
| self.sq_deps[dep].add(tid) |
| |
| self.rqdata.init_progress_reporter.next_stage() |
| |
| for tid in self.sq_revdeps: |
| if len(self.sq_revdeps[tid]) == 0: |
| self.runq_buildable.add(tid) |
| |
| self.rqdata.init_progress_reporter.finish() |
| |
| self.outrightfail = [] |
| if self.rq.hashvalidate: |
| sq_hash = [] |
| sq_hashfn = [] |
| sq_unihash = [] |
| sq_fn = [] |
| sq_taskname = [] |
| sq_task = [] |
| noexec = [] |
| stamppresent = [] |
| for tid in self.sq_revdeps: |
| (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) |
| self.task_skip(tid) |
| bb.build.make_stamp(taskname + "_setscene", self.rqdata.dataCaches[mc], taskfn) |
| continue |
| |
| if self.rq.check_stamp_task(tid, taskname + "_setscene", cache=self.stampcache): |
| logger.debug(2, 'Setscene stamp current for task %s', tid) |
| stamppresent.append(tid) |
| self.task_skip(tid) |
| continue |
| |
| if self.rq.check_stamp_task(tid, taskname, recurse = True, cache=self.stampcache): |
| logger.debug(2, 'Normal stamp current for task %s', tid) |
| stamppresent.append(tid) |
| self.task_skip(tid) |
| continue |
| |
| sq_fn.append(fn) |
| sq_hashfn.append(self.rqdata.dataCaches[mc].hashfn[taskfn]) |
| sq_hash.append(self.rqdata.runtaskentries[tid].hash) |
| sq_unihash.append(self.rqdata.runtaskentries[tid].unihash) |
| sq_taskname.append(taskname) |
| sq_task.append(tid) |
| |
| self.cooker.data.setVar("BB_SETSCENE_STAMPCURRENT_COUNT", len(stamppresent)) |
| |
| valid = self.rq.validate_hash(sq_fn=sq_fn, sq_task=sq_taskname, sq_hash=sq_hash, sq_hashfn=sq_hashfn, |
| siginfo=False, sq_unihash=sq_unihash, d=self.cooker.data) |
| |
| self.cooker.data.delVar("BB_SETSCENE_STAMPCURRENT_COUNT") |
| |
| valid_new = stamppresent |
| for v in valid: |
| valid_new.append(sq_task[v]) |
| |
| for tid in self.sq_revdeps: |
| if tid not in valid_new and tid not in noexec: |
| logger.debug(2, 'No package found, so skipping setscene task %s', tid) |
| self.outrightfail.append(tid) |
| |
| logger.info('Executing SetScene Tasks') |
| |
| self.rq.state = runQueueSceneRun |
| |
| def scenequeue_updatecounters(self, task, fail = False): |
| for dep in self.sq_deps[task]: |
| if fail and task in self.sq_harddeps and dep in self.sq_harddeps[task]: |
| logger.debug(2, "%s was unavailable and is a hard dependency of %s so skipping" % (task, dep)) |
| self.scenequeue_updatecounters(dep, fail) |
| continue |
| if task not in self.sq_revdeps2[dep]: |
| # May already have been removed by the fail case above |
| continue |
| self.sq_revdeps2[dep].remove(task) |
| if len(self.sq_revdeps2[dep]) == 0: |
| self.runq_buildable.add(dep) |
| |
| def 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(1, 'Found task %s which could be accelerated', task) |
| self.scenequeue_covered.add(task) |
| self.scenequeue_updatecounters(task) |
| |
| def check_taskfail(self, task): |
| if self.rqdata.setscenewhitelist 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_whitelist(pn, taskname, self.rqdata.setscenewhitelist): |
| logger.error('Task %s.%s failed' % (pn, taskname + "_setscene")) |
| self.rq.state = runQueueCleanUp |
| |
| def task_complete(self, task): |
| self.stats.taskCompleted() |
| bb.event.fire(sceneQueueTaskCompleted(task, self.stats, self.rq), self.cfgData) |
| self.task_completeoutright(task) |
| |
| def task_fail(self, task, result): |
| self.stats.taskFailed() |
| bb.event.fire(sceneQueueTaskFailed(task, self.stats, result, self), self.cfgData) |
| self.scenequeue_notcovered.add(task) |
| self.scenequeue_updatecounters(task, True) |
| self.check_taskfail(task) |
| |
| def task_failoutright(self, task): |
| self.runq_running.add(task) |
| self.runq_buildable.add(task) |
| self.stats.taskSkipped() |
| self.stats.taskCompleted() |
| self.scenequeue_notcovered.add(task) |
| self.scenequeue_updatecounters(task, True) |
| |
| def task_skip(self, task): |
| self.runq_running.add(task) |
| self.runq_buildable.add(task) |
| self.task_completeoutright(task) |
| self.stats.taskSkipped() |
| self.stats.taskCompleted() |
| |
| def execute(self): |
| """ |
| Run the tasks in a queue prepared by prepare_runqueue |
| """ |
| |
| self.rq.read_workers() |
| |
| task = None |
| if self.can_start_task(): |
| # Find the next setscene to run |
| for nexttask in self.rqdata.runq_setscene_tids: |
| if nexttask in self.runq_buildable and nexttask not in self.runq_running and self.stamps[nexttask] not in self.build_stamps.values(): |
| if nexttask in self.unskippable: |
| logger.debug(2, "Setscene task %s is unskippable" % nexttask) |
| if nexttask not in self.unskippable and len(self.sq_revdeps[nexttask]) > 0 and self.sq_revdeps[nexttask].issubset(self.scenequeue_covered) and self.check_dependencies(nexttask, self.sq_revdeps[nexttask], True): |
| fn = fn_from_tid(nexttask) |
| foundtarget = False |
| |
| if nexttask in self.rqdata.target_tids: |
| foundtarget = True |
| if not foundtarget: |
| logger.debug(2, "Skipping setscene for task %s" % nexttask) |
| self.task_skip(nexttask) |
| self.scenequeue_notneeded.add(nexttask) |
| return True |
| if nexttask in self.outrightfail: |
| self.task_failoutright(nexttask) |
| return True |
| 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.debug(2, 'Stamp for underlying task %s is current, so skipping setscene variant', task) |
| self.task_failoutright(task) |
| return True |
| |
| if self.cooker.configuration.force: |
| if task in self.rqdata.target_tids: |
| self.task_failoutright(task) |
| return True |
| |
| if self.rq.check_stamp_task(task, taskname, cache=self.stampcache): |
| logger.debug(2, 'Setscene stamp current task %s, so skip it and its dependencies', task) |
| self.task_skip(task) |
| return True |
| |
| startevent = sceneQueueTaskStarted(task, self.stats, self.rq) |
| bb.event.fire(startevent, self.cfgData) |
| |
| taskdepdata = self.build_taskdepdata(task) |
| |
| taskdep = self.rqdata.dataCaches[mc].task_deps[taskfn] |
| taskhash = self.rqdata.get_task_hash(task) |
| unihash = self.rqdata.get_task_unihash(task) |
| 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((taskfn, task, taskname, taskhash, unihash, True, self.cooker.collection.get_file_appends(taskfn), taskdepdata, False)) + b"</runtask>") |
| self.rq.fakeworker[mc].process.stdin.flush() |
| else: |
| self.rq.worker[mc].process.stdin.write(b"<runtask>" + pickle.dumps((taskfn, task, taskname, taskhash, unihash, True, self.cooker.collection.get_file_appends(taskfn), taskdepdata, False)) + b"</runtask>") |
| self.rq.worker[mc].process.stdin.flush() |
| |
| self.build_stamps[task] = bb.build.stampfile(taskname, self.rqdata.dataCaches[mc], taskfn, noextra=True) |
| 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: |
| self.rq.read_workers() |
| return self.rq.active_fds() |
| |
| #for tid in self.sq_revdeps: |
| # if tid not in self.runq_running: |
| # buildable = tid in self.runq_buildable |
| # revdeps = self.sq_revdeps[tid] |
| # bb.warn("Found we didn't run %s %s %s" % (tid, buildable, str(revdeps))) |
| |
| self.rq.scenequeue_covered = self.scenequeue_covered |
| self.rq.scenequeue_notcovered = self.scenequeue_notcovered |
| |
| logger.debug(1, 'We can skip tasks %s', "\n".join(sorted(self.rq.scenequeue_covered))) |
| |
| self.rq.state = runQueueRunInit |
| |
| completeevent = sceneQueueComplete(self.stats, self.rq) |
| bb.event.fire(completeevent, self.cfgData) |
| |
| return True |
| |
| def runqueue_process_waitpid(self, task, status): |
| RunQueueExecute.runqueue_process_waitpid(self, task, status) |
| |
| |
| def 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 |
| taskdepdata[revdep] = [pn, taskname, fn, deps, provides, taskhash, unihash] |
| 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 |
| |
| 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): |
| runQueueEvent.__init__(self, task, stats, rq) |
| self.exitcode = exitcode |
| |
| def __str__(self): |
| 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 runQueuePipe(): |
| """ |
| Abstraction for a pipe between a worker thread and the server |
| """ |
| def __init__(self, pipein, pipeout, d, rq, rqexec): |
| self.input = pipein |
| if pipeout: |
| pipeout.close() |
| bb.utils.nonblockingfd(self.input) |
| self.queue = b"" |
| self.d = d |
| self.rq = rq |
| self.rqexec = rqexec |
| |
| 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 len(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 as e: |
| bb.msg.fatal("RunQueue", "failed load pickle '%s': '%s'" % (e, self.queue[7:index])) |
| bb.event.fire_from_worker(event, self.d) |
| 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 as e: |
| bb.msg.fatal("RunQueue", "failed load pickle '%s': '%s'" % (e, self.queue[10:index])) |
| self.rqexec.runqueue_process_waitpid(task, status) |
| 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 len(self.queue) > 0: |
| print("Warning, worker left partial message: %s" % self.queue) |
| self.input.close() |
| |
| def get_setscene_enforce_whitelist(d): |
| if d.getVar('BB_SETSCENE_ENFORCE') != '1': |
| return None |
| whitelist = (d.getVar("BB_SETSCENE_ENFORCE_WHITELIST") or "").split() |
| outlist = [] |
| for item in whitelist[:]: |
| if item.startswith('%:'): |
| for target in sys.argv[1:]: |
| if not target.startswith('-'): |
| outlist.append(target.split(':')[0] + ':' + item.split(':')[1]) |
| else: |
| outlist.append(item) |
| return outlist |
| |
| def check_setscene_enforce_whitelist(pn, taskname, whitelist): |
| import fnmatch |
| if whitelist is not None: |
| item = '%s:%s' % (pn, taskname) |
| for whitelist_item in whitelist: |
| if fnmatch.fnmatch(item, whitelist_item): |
| return True |
| return False |
| return True |