# # BitBake 'Build' implementation # # Core code for function execution and task handling in the # BitBake build tools. # # Copyright (C) 2003, 2004 Chris Larson # # Based on Gentoo's portage.py. # # SPDX-License-Identifier: GPL-2.0-only # # Based on functions from the base bb module, Copyright 2003 Holger Schurig import os import sys import logging import glob import itertools import time import re import stat import bb import bb.msg import bb.process import bb.progress from bb import data, event, utils bblogger = logging.getLogger('BitBake') logger = logging.getLogger('BitBake.Build') verboseShellLogging = False verboseStdoutLogging = False __mtime_cache = {} def cached_mtime_noerror(f): if f not in __mtime_cache: try: __mtime_cache[f] = os.stat(f)[stat.ST_MTIME] except OSError: return 0 return __mtime_cache[f] def reset_cache(): global __mtime_cache __mtime_cache = {} # When we execute a Python function, we'd like certain things # in all namespaces, hence we add them to __builtins__. # If we do not do this and use the exec globals, they will # not be available to subfunctions. if hasattr(__builtins__, '__setitem__'): builtins = __builtins__ else: builtins = __builtins__.__dict__ builtins['bb'] = bb builtins['os'] = os class TaskBase(event.Event): """Base class for task events""" def __init__(self, t, fn, logfile, d): self._task = t self._fn = fn self._package = d.getVar("PF") self._mc = d.getVar("BB_CURRENT_MC") self.taskfile = d.getVar("FILE") self.taskname = self._task self.logfile = logfile self.time = time.time() self.pn = d.getVar("PN") self.pv = d.getVar("PV") event.Event.__init__(self) self._message = "recipe %s: task %s: %s" % (d.getVar("PF"), t, self.getDisplayName()) def getTask(self): return self._task def setTask(self, task): self._task = task def getDisplayName(self): return bb.event.getName(self)[4:] task = property(getTask, setTask, None, "task property") class TaskStarted(TaskBase): """Task execution started""" def __init__(self, t, fn, logfile, taskflags, d): super(TaskStarted, self).__init__(t, fn, logfile, d) self.taskflags = taskflags class TaskSucceeded(TaskBase): """Task execution completed""" class TaskFailed(TaskBase): """Task execution failed""" def __init__(self, task, fn, logfile, metadata, errprinted = False): self.errprinted = errprinted super(TaskFailed, self).__init__(task, fn, logfile, metadata) class TaskFailedSilent(TaskBase): """Task execution failed (silently)""" def getDisplayName(self): # Don't need to tell the user it was silent return "Failed" class TaskInvalid(TaskBase): def __init__(self, task, fn, metadata): super(TaskInvalid, self).__init__(task, fn, None, metadata) self._message = "No such task '%s'" % task class TaskProgress(event.Event): """ Task made some progress that could be reported to the user, usually in the form of a progress bar or similar. NOTE: this class does not inherit from TaskBase since it doesn't need to - it's fired within the task context itself, so we don't have any of the context information that you do in the case of the other events. The event PID can be used to determine which task it came from. The progress value is normally 0-100, but can also be negative indicating that progress has been made but we aren't able to determine how much. The rate is optional, this is simply an extra string to display to the user if specified. """ def __init__(self, progress, rate=None): self.progress = progress self.rate = rate event.Event.__init__(self) class LogTee(object): def __init__(self, logger, outfile): self.outfile = outfile self.logger = logger self.name = self.outfile.name def write(self, string): self.logger.plain(string) self.outfile.write(string) def __enter__(self): self.outfile.__enter__() return self def __exit__(self, *excinfo): self.outfile.__exit__(*excinfo) def __repr__(self): return ''.format(self.name) def flush(self): self.outfile.flush() class StdoutNoopContextManager: """ This class acts like sys.stdout, but adds noop __enter__ and __exit__ methods. """ def __enter__(self): return sys.stdout def __exit__(self, *exc_info): pass def write(self, string): return sys.stdout.write(string) def flush(self): sys.stdout.flush() @property def name(self): return sys.stdout.name def exec_func(func, d, dirs = None): """Execute a BB 'function'""" try: oldcwd = os.getcwd() except: oldcwd = None flags = d.getVarFlags(func) cleandirs = flags.get('cleandirs') if flags else None if cleandirs: for cdir in d.expand(cleandirs).split(): bb.utils.remove(cdir, True) bb.utils.mkdirhier(cdir) if flags and dirs is None: dirs = flags.get('dirs') if dirs: dirs = d.expand(dirs).split() if dirs: for adir in dirs: bb.utils.mkdirhier(adir) adir = dirs[-1] else: adir = None body = d.getVar(func, False) if not body: if body is None: logger.warning("Function %s doesn't exist", func) return ispython = flags.get('python') lockflag = flags.get('lockfiles') if lockflag: lockfiles = [f for f in d.expand(lockflag).split()] else: lockfiles = None tempdir = d.getVar('T') # or func allows items to be executed outside of the normal # task set, such as buildhistory task = d.getVar('BB_RUNTASK') or func if task == func: taskfunc = task else: taskfunc = "%s.%s" % (task, func) runfmt = d.getVar('BB_RUNFMT') or "run.{func}.{pid}" runfn = runfmt.format(taskfunc=taskfunc, task=task, func=func, pid=os.getpid()) runfile = os.path.join(tempdir, runfn) bb.utils.mkdirhier(os.path.dirname(runfile)) # Setup the courtesy link to the runfn, only for tasks # we create the link 'just' before the run script is created # if we create it after, and if the run script fails, then the # link won't be created as an exception would be fired. if task == func: runlink = os.path.join(tempdir, 'run.{0}'.format(task)) if runlink: bb.utils.remove(runlink) try: os.symlink(runfn, runlink) except OSError: pass with bb.utils.fileslocked(lockfiles): if ispython: exec_func_python(func, d, runfile, cwd=adir) else: exec_func_shell(func, d, runfile, cwd=adir) try: curcwd = os.getcwd() except: curcwd = None if oldcwd and curcwd != oldcwd: try: bb.warn("Task %s changed cwd to %s" % (func, curcwd)) os.chdir(oldcwd) except: pass _functionfmt = """ {function}(d) """ logformatter = bb.msg.BBLogFormatter("%(levelname)s: %(message)s") def exec_func_python(func, d, runfile, cwd=None): """Execute a python BB 'function'""" code = _functionfmt.format(function=func) bb.utils.mkdirhier(os.path.dirname(runfile)) with open(runfile, 'w') as script: bb.data.emit_func_python(func, script, d) if cwd: try: olddir = os.getcwd() except OSError as e: bb.warn("%s: Cannot get cwd: %s" % (func, e)) olddir = None os.chdir(cwd) bb.debug(2, "Executing python function %s" % func) try: text = "def %s(d):\n%s" % (func, d.getVar(func, False)) fn = d.getVarFlag(func, "filename", False) lineno = int(d.getVarFlag(func, "lineno", False)) bb.methodpool.insert_method(func, text, fn, lineno - 1) comp = utils.better_compile(code, func, "exec_python_func() autogenerated") utils.better_exec(comp, {"d": d}, code, "exec_python_func() autogenerated") finally: bb.debug(2, "Python function %s finished" % func) if cwd and olddir: try: os.chdir(olddir) except OSError as e: bb.warn("%s: Cannot restore cwd %s: %s" % (func, olddir, e)) def shell_trap_code(): return '''#!/bin/sh\n __BITBAKE_LAST_LINE=0 # Emit a useful diagnostic if something fails: bb_sh_exit_handler() { ret=$? if [ "$ret" != 0 ]; then echo "WARNING: exit code $ret from a shell command." fi exit $ret } bb_bash_exit_handler() { ret=$? { set +x; } > /dev/null trap "" DEBUG if [ "$ret" != 0 ]; then echo "WARNING: ${BASH_SOURCE[0]}:${__BITBAKE_LAST_LINE} exit $ret from '$1'" echo "WARNING: Backtrace (BB generated script): " for i in $(seq 1 $((${#FUNCNAME[@]} - 1))); do if [ "$i" -eq 1 ]; then echo -e "\t#$((i)): ${FUNCNAME[$i]}, ${BASH_SOURCE[$((i-1))]}, line ${__BITBAKE_LAST_LINE}" else echo -e "\t#$((i)): ${FUNCNAME[$i]}, ${BASH_SOURCE[$((i-1))]}, line ${BASH_LINENO[$((i-1))]}" fi done fi exit $ret } bb_bash_debug_handler() { local line=${BASH_LINENO[0]} # For some reason the DEBUG trap trips with lineno=1 when scripts exit; ignore it if [ "$line" -eq 1 ]; then return fi # Track the line number of commands as they execute. This is so we can have access to the failing line number # in the EXIT trap. See http://gnu-bash.2382.n7.nabble.com/trap-echo-quot-trap-exit-on-LINENO-quot-EXIT-gt-wrong-linenumber-td3666.html if [ "${FUNCNAME[1]}" != "bb_bash_exit_handler" ]; then __BITBAKE_LAST_LINE=$line fi } case $BASH_VERSION in "") trap 'bb_sh_exit_handler' 0 set -e ;; *) trap 'bb_bash_exit_handler "$BASH_COMMAND"' 0 trap '{ bb_bash_debug_handler; } 2>/dev/null' DEBUG set -e shopt -s extdebug ;; esac ''' def create_progress_handler(func, progress, logfile, d): if progress == 'percent': # Use default regex return bb.progress.BasicProgressHandler(d, outfile=logfile) elif progress.startswith('percent:'): # Use specified regex return bb.progress.BasicProgressHandler(d, regex=progress.split(':', 1)[1], outfile=logfile) elif progress.startswith('outof:'): # Use specified regex return bb.progress.OutOfProgressHandler(d, regex=progress.split(':', 1)[1], outfile=logfile) elif progress.startswith("custom:"): # Use a custom progress handler that was injected via OE_EXTRA_IMPORTS or __builtins__ import functools from types import ModuleType parts = progress.split(":", 2) _, cls, otherargs = parts[0], parts[1], (parts[2] or None) if parts[2:] else None if cls: def resolve(x, y): if not x: return None if isinstance(x, ModuleType): return getattr(x, y, None) return x.get(y) cls_obj = functools.reduce(resolve, cls.split("."), bb.utils._context) if not cls_obj: # Fall-back on __builtins__ cls_obj = functools.reduce(resolve, cls.split("."), __builtins__) if cls_obj: return cls_obj(d, outfile=logfile, otherargs=otherargs) bb.warn('%s: unknown custom progress handler in task progress varflag value "%s", ignoring' % (func, cls)) else: bb.warn('%s: invalid task progress varflag value "%s", ignoring' % (func, progress)) return logfile def exec_func_shell(func, d, runfile, cwd=None): """Execute a shell function from the metadata Note on directory behavior. The 'dirs' varflag should contain a list of the directories you need created prior to execution. The last item in the list is where we will chdir/cd to. """ # Don't let the emitted shell script override PWD d.delVarFlag('PWD', 'export') with open(runfile, 'w') as script: script.write(shell_trap_code()) bb.data.emit_func(func, script, d) if verboseShellLogging or bb.utils.to_boolean(d.getVar("BB_VERBOSE_LOGS", False)): script.write("set -x\n") if cwd: script.write("cd '%s'\n" % cwd) script.write("%s\n" % func) script.write(''' # cleanup ret=$? trap '' 0 exit $ret ''') os.chmod(runfile, 0o775) cmd = runfile if d.getVarFlag(func, 'fakeroot', False): fakerootcmd = d.getVar('FAKEROOT') if fakerootcmd: cmd = [fakerootcmd, runfile] if verboseStdoutLogging: logfile = LogTee(logger, StdoutNoopContextManager()) else: logfile = StdoutNoopContextManager() progress = d.getVarFlag(func, 'progress') if progress: try: logfile = create_progress_handler(func, progress, logfile, d) except: from traceback import format_exc logger.error("Failed to create progress handler") logger.error(format_exc()) raise fifobuffer = bytearray() def readfifo(data): nonlocal fifobuffer fifobuffer.extend(data) while fifobuffer: message, token, nextmsg = fifobuffer.partition(b"\00") if token: splitval = message.split(b' ', 1) cmd = splitval[0].decode("utf-8") if len(splitval) > 1: value = splitval[1].decode("utf-8") else: value = '' if cmd == 'bbplain': bb.plain(value) elif cmd == 'bbnote': bb.note(value) elif cmd == 'bbverbnote': bb.verbnote(value) elif cmd == 'bbwarn': bb.warn(value) elif cmd == 'bberror': bb.error(value) elif cmd == 'bbfatal': # The caller will call exit themselves, so bb.error() is # what we want here rather than bb.fatal() bb.error(value) elif cmd == 'bbfatal_log': bb.error(value, forcelog=True) elif cmd == 'bbdebug': splitval = value.split(' ', 1) level = int(splitval[0]) value = splitval[1] bb.debug(level, value) else: bb.warn("Unrecognised command '%s' on FIFO" % cmd) fifobuffer = nextmsg else: break tempdir = d.getVar('T') fifopath = os.path.join(tempdir, 'fifo.%s' % os.getpid()) if os.path.exists(fifopath): os.unlink(fifopath) os.mkfifo(fifopath) with open(fifopath, 'r+b', buffering=0) as fifo: try: bb.debug(2, "Executing shell function %s" % func) with open(os.devnull, 'r+') as stdin, logfile: bb.process.run(cmd, shell=False, stdin=stdin, log=logfile, extrafiles=[(fifo,readfifo)]) except bb.process.ExecutionError as exe: # Find the backtrace that the shell trap generated backtrace_marker_regex = re.compile(r"WARNING: Backtrace \(BB generated script\)") stdout_lines = (exe.stdout or "").split("\n") backtrace_start_line = None for i, line in enumerate(reversed(stdout_lines)): if backtrace_marker_regex.search(line): backtrace_start_line = len(stdout_lines) - i break # Read the backtrace frames, starting at the location we just found backtrace_entry_regex = re.compile(r"#(?P\d+): (?P[^\s]+), (?P.+?), line (" r"?P\d+)") backtrace_frames = [] if backtrace_start_line: for line in itertools.islice(stdout_lines, backtrace_start_line, None): match = backtrace_entry_regex.search(line) if match: backtrace_frames.append(match.groupdict()) with open(runfile, "r") as script: script_lines = [line.rstrip() for line in script.readlines()] # For each backtrace frame, search backwards in the script (from the line number called out by the frame), # to find the comment that emit_vars injected when it wrote the script. This will give us the metadata # filename (e.g. .bb or .bbclass) and line number where the shell function was originally defined. script_metadata_comment_regex = re.compile(r"# line: (?P\d+), file: (?P.+)") better_frames = [] # Skip the very last frame since it's just the call to the shell task in the body of the script for frame in backtrace_frames[:-1]: # Check whether the frame corresponds to a function defined in the script vs external script. if os.path.samefile(frame["file"], runfile): # Search backwards from the frame lineno to locate the comment that BB injected i = int(frame["lineno"]) - 1 while i >= 0: match = script_metadata_comment_regex.match(script_lines[i]) if match: # Calculate the relative line in the function itself relative_line_in_function = int(frame["lineno"]) - i - 2 # Calculate line in the function as declared in the metadata metadata_function_line = relative_line_in_function + int(match["lineno"]) better_frames.append("#{frameno}: {funcname}, {file}, line {lineno}".format( frameno=frame["frameno"], funcname=frame["funcname"], file=match["file"], lineno=metadata_function_line )) break i -= 1 else: better_frames.append("#{frameno}: {funcname}, {file}, line {lineno}".format(**frame)) if better_frames: better_frames = ("\t{0}".format(frame) for frame in better_frames) exe.extra_message = "\nBacktrace (metadata-relative locations):\n{0}".format("\n".join(better_frames)) raise finally: os.unlink(fifopath) bb.debug(2, "Shell function %s finished" % func) def _task_data(fn, task, d): localdata = bb.data.createCopy(d) localdata.setVar('BB_FILENAME', fn) localdata.setVar('BB_CURRENTTASK', task[3:]) localdata.setVar('OVERRIDES', 'task-%s:%s' % (task[3:].replace('_', '-'), d.getVar('OVERRIDES', False))) localdata.finalize() bb.data.expandKeys(localdata) return localdata def _exec_task(fn, task, d, quieterr): """Execute a BB 'task' Execution of a task involves a bit more setup than executing a function, running it with its own local metadata, and with some useful variables set. """ if not d.getVarFlag(task, 'task', False): event.fire(TaskInvalid(task, d), d) logger.error("No such task: %s" % task) return 1 logger.debug(1, "Executing task %s", task) localdata = _task_data(fn, task, d) tempdir = localdata.getVar('T') if not tempdir: bb.fatal("T variable not set, unable to build") # Change nice level if we're asked to nice = localdata.getVar("BB_TASK_NICE_LEVEL") if nice: curnice = os.nice(0) nice = int(nice) - curnice newnice = os.nice(nice) logger.debug(1, "Renice to %s " % newnice) ionice = localdata.getVar("BB_TASK_IONICE_LEVEL") if ionice: try: cls, prio = ionice.split(".", 1) bb.utils.ioprio_set(os.getpid(), int(cls), int(prio)) except: bb.warn("Invalid ionice level %s" % ionice) bb.utils.mkdirhier(tempdir) # Determine the logfile to generate logfmt = localdata.getVar('BB_LOGFMT') or 'log.{task}.{pid}' logbase = logfmt.format(task=task, pid=os.getpid()) # Document the order of the tasks... logorder = os.path.join(tempdir, 'log.task_order') try: with open(logorder, 'a') as logorderfile: logorderfile.write('{0} ({1}): {2}\n'.format(task, os.getpid(), logbase)) except OSError: logger.exception("Opening log file '%s'", logorder) pass # Setup the courtesy link to the logfn loglink = os.path.join(tempdir, 'log.{0}'.format(task)) logfn = os.path.join(tempdir, logbase) if loglink: bb.utils.remove(loglink) try: os.symlink(logbase, loglink) except OSError: pass prefuncs = localdata.getVarFlag(task, 'prefuncs', expand=True) postfuncs = localdata.getVarFlag(task, 'postfuncs', expand=True) class ErrorCheckHandler(logging.Handler): def __init__(self): self.triggered = False logging.Handler.__init__(self, logging.ERROR) def emit(self, record): if getattr(record, 'forcelog', False): self.triggered = False else: self.triggered = True # Handle logfiles try: bb.utils.mkdirhier(os.path.dirname(logfn)) logfile = open(logfn, 'w') except OSError: logger.exception("Opening log file '%s'", logfn) pass # Dup the existing fds so we dont lose them osi = [os.dup(sys.stdin.fileno()), sys.stdin.fileno()] oso = [os.dup(sys.stdout.fileno()), sys.stdout.fileno()] ose = [os.dup(sys.stderr.fileno()), sys.stderr.fileno()] # Replace those fds with our own with open('/dev/null', 'r') as si: os.dup2(si.fileno(), osi[1]) os.dup2(logfile.fileno(), oso[1]) os.dup2(logfile.fileno(), ose[1]) # Ensure Python logging goes to the logfile handler = logging.StreamHandler(logfile) handler.setFormatter(logformatter) # Always enable full debug output into task logfiles handler.setLevel(logging.DEBUG - 2) bblogger.addHandler(handler) errchk = ErrorCheckHandler() bblogger.addHandler(errchk) localdata.setVar('BB_LOGFILE', logfn) localdata.setVar('BB_RUNTASK', task) localdata.setVar('BB_TASK_LOGGER', bblogger) flags = localdata.getVarFlags(task) try: try: event.fire(TaskStarted(task, fn, logfn, flags, localdata), localdata) except (bb.BBHandledException, SystemExit): return 1 try: for func in (prefuncs or '').split(): exec_func(func, localdata) exec_func(task, localdata) for func in (postfuncs or '').split(): exec_func(func, localdata) except bb.BBHandledException: event.fire(TaskFailed(task, fn, logfn, localdata, True), localdata) return 1 except Exception as exc: if quieterr: event.fire(TaskFailedSilent(task, fn, logfn, localdata), localdata) else: errprinted = errchk.triggered logger.error(str(exc)) event.fire(TaskFailed(task, fn, logfn, localdata, errprinted), localdata) return 1 finally: sys.stdout.flush() sys.stderr.flush() bblogger.removeHandler(handler) # Restore the backup fds os.dup2(osi[0], osi[1]) os.dup2(oso[0], oso[1]) os.dup2(ose[0], ose[1]) # Close the backup fds os.close(osi[0]) os.close(oso[0]) os.close(ose[0]) logfile.close() if os.path.exists(logfn) and os.path.getsize(logfn) == 0: logger.debug(2, "Zero size logfn %s, removing", logfn) bb.utils.remove(logfn) bb.utils.remove(loglink) event.fire(TaskSucceeded(task, fn, logfn, localdata), localdata) if not localdata.getVarFlag(task, 'nostamp', False) and not localdata.getVarFlag(task, 'selfstamp', False): make_stamp(task, localdata) return 0 def exec_task(fn, task, d, profile = False): try: quieterr = False if d.getVarFlag(task, "quieterrors", False) is not None: quieterr = True if profile: profname = "profile-%s.log" % (d.getVar("PN") + "-" + task) try: import cProfile as profile except: import profile prof = profile.Profile() ret = profile.Profile.runcall(prof, _exec_task, fn, task, d, quieterr) prof.dump_stats(profname) bb.utils.process_profilelog(profname) return ret else: return _exec_task(fn, task, d, quieterr) except Exception: from traceback import format_exc if not quieterr: logger.error("Build of %s failed" % (task)) logger.error(format_exc()) failedevent = TaskFailed(task, None, d, True) event.fire(failedevent, d) return 1 def stamp_internal(taskname, d, file_name, baseonly=False, noextra=False): """ Internal stamp helper function Makes sure the stamp directory exists Returns the stamp path+filename In the bitbake core, d can be a CacheData and file_name will be set. When called in task context, d will be a data store, file_name will not be set """ taskflagname = taskname if taskname.endswith("_setscene") and taskname != "do_setscene": taskflagname = taskname.replace("_setscene", "") if file_name: stamp = d.stamp[file_name] extrainfo = d.stamp_extrainfo[file_name].get(taskflagname) or "" else: stamp = d.getVar('STAMP') file_name = d.getVar('BB_FILENAME') extrainfo = d.getVarFlag(taskflagname, 'stamp-extra-info') or "" if baseonly: return stamp if noextra: extrainfo = "" if not stamp: return stamp = bb.parse.siggen.stampfile(stamp, file_name, taskname, extrainfo) stampdir = os.path.dirname(stamp) if cached_mtime_noerror(stampdir) == 0: bb.utils.mkdirhier(stampdir) return stamp def stamp_cleanmask_internal(taskname, d, file_name): """ Internal stamp helper function to generate stamp cleaning mask Returns the stamp path+filename In the bitbake core, d can be a CacheData and file_name will be set. When called in task context, d will be a data store, file_name will not be set """ taskflagname = taskname if taskname.endswith("_setscene") and taskname != "do_setscene": taskflagname = taskname.replace("_setscene", "") if file_name: stamp = d.stampclean[file_name] extrainfo = d.stamp_extrainfo[file_name].get(taskflagname) or "" else: stamp = d.getVar('STAMPCLEAN') file_name = d.getVar('BB_FILENAME') extrainfo = d.getVarFlag(taskflagname, 'stamp-extra-info') or "" if not stamp: return [] cleanmask = bb.parse.siggen.stampcleanmask(stamp, file_name, taskname, extrainfo) return [cleanmask, cleanmask.replace(taskflagname, taskflagname + "_setscene")] def make_stamp(task, d, file_name = None): """ Creates/updates a stamp for a given task (d can be a data dict or dataCache) """ cleanmask = stamp_cleanmask_internal(task, d, file_name) for mask in cleanmask: for name in glob.glob(mask): # Preserve sigdata files in the stamps directory if "sigdata" in name or "sigbasedata" in name: continue # Preserve taint files in the stamps directory if name.endswith('.taint'): continue os.unlink(name) stamp = stamp_internal(task, d, file_name) # Remove the file and recreate to force timestamp # change on broken NFS filesystems if stamp: bb.utils.remove(stamp) open(stamp, "w").close() # If we're in task context, write out a signature file for each task # as it completes if not task.endswith("_setscene") and task != "do_setscene" and not file_name: stampbase = stamp_internal(task, d, None, True) file_name = d.getVar('BB_FILENAME') bb.parse.siggen.dump_sigtask(file_name, task, stampbase, True) def del_stamp(task, d, file_name = None): """ Removes a stamp for a given task (d can be a data dict or dataCache) """ stamp = stamp_internal(task, d, file_name) bb.utils.remove(stamp) def write_taint(task, d, file_name = None): """ Creates a "taint" file which will force the specified task and its dependents to be re-run the next time by influencing the value of its taskhash. (d can be a data dict or dataCache) """ import uuid if file_name: taintfn = d.stamp[file_name] + '.' + task + '.taint' else: taintfn = d.getVar('STAMP') + '.' + task + '.taint' bb.utils.mkdirhier(os.path.dirname(taintfn)) # The specific content of the taint file is not really important, # we just need it to be random, so a random UUID is used with open(taintfn, 'w') as taintf: taintf.write(str(uuid.uuid4())) def stampfile(taskname, d, file_name = None, noextra=False): """ Return the stamp for a given task (d can be a data dict or dataCache) """ return stamp_internal(taskname, d, file_name, noextra=noextra) def add_tasks(tasklist, d): task_deps = d.getVar('_task_deps', False) if not task_deps: task_deps = {} if not 'tasks' in task_deps: task_deps['tasks'] = [] if not 'parents' in task_deps: task_deps['parents'] = {} for task in tasklist: task = d.expand(task) d.setVarFlag(task, 'task', 1) if not task in task_deps['tasks']: task_deps['tasks'].append(task) flags = d.getVarFlags(task) def getTask(name): if not name in task_deps: task_deps[name] = {} if name in flags: deptask = d.expand(flags[name]) task_deps[name][task] = deptask getTask('mcdepends') getTask('depends') getTask('rdepends') getTask('deptask') getTask('rdeptask') getTask('recrdeptask') getTask('recideptask') getTask('nostamp') getTask('fakeroot') getTask('noexec') getTask('umask') task_deps['parents'][task] = [] if 'deps' in flags: for dep in flags['deps']: # Check and warn for "addtask task after foo" while foo does not exist #if not dep in tasklist: # bb.warn('%s: dependent task %s for %s does not exist' % (d.getVar('PN'), dep, task)) dep = d.expand(dep) task_deps['parents'][task].append(dep) # don't assume holding a reference d.setVar('_task_deps', task_deps) def addtask(task, before, after, d): if task[:3] != "do_": task = "do_" + task d.setVarFlag(task, "task", 1) bbtasks = d.getVar('__BBTASKS', False) or [] if task not in bbtasks: bbtasks.append(task) d.setVar('__BBTASKS', bbtasks) existing = d.getVarFlag(task, "deps", False) or [] if after is not None: # set up deps for function for entry in after.split(): if entry not in existing: existing.append(entry) d.setVarFlag(task, "deps", existing) if before is not None: # set up things that depend on this func for entry in before.split(): existing = d.getVarFlag(entry, "deps", False) or [] if task not in existing: d.setVarFlag(entry, "deps", [task] + existing) def deltask(task, d): if task[:3] != "do_": task = "do_" + task bbtasks = d.getVar('__BBTASKS', False) or [] if task in bbtasks: bbtasks.remove(task) d.delVarFlag(task, 'task') d.setVar('__BBTASKS', bbtasks) d.delVarFlag(task, 'deps') for bbtask in d.getVar('__BBTASKS', False) or []: deps = d.getVarFlag(bbtask, 'deps', False) or [] if task in deps: deps.remove(task) d.setVarFlag(bbtask, 'deps', deps) def preceedtask(task, with_recrdeptasks, d): """ Returns a set of tasks in the current recipe which were specified as precondition by the task itself ("after") or which listed themselves as precondition ("before"). Preceeding tasks specified via the "recrdeptask" are included in the result only if requested. Beware that this may lead to the task itself being listed. """ preceed = set() # Ignore tasks which don't exist tasks = d.getVar('__BBTASKS', False) if task not in tasks: return preceed preceed.update(d.getVarFlag(task, 'deps') or []) if with_recrdeptasks: recrdeptask = d.getVarFlag(task, 'recrdeptask') if recrdeptask: preceed.update(recrdeptask.split()) return preceed def tasksbetween(task_start, task_end, d): """ Return the list of tasks between two tasks in the current recipe, where task_start is to start at and task_end is the task to end at (and task_end has a dependency chain back to task_start). """ outtasks = [] tasks = list(filter(lambda k: d.getVarFlag(k, "task"), d.keys())) def follow_chain(task, endtask, chain=None): if not chain: chain = [] chain.append(task) for othertask in tasks: if othertask == task: continue if task == endtask: for ctask in chain: if ctask not in outtasks: outtasks.append(ctask) else: deps = d.getVarFlag(othertask, 'deps', False) if task in deps: follow_chain(othertask, endtask, chain) chain.pop() follow_chain(task_start, task_end) return outtasks