# # SPDX-License-Identifier: GPL-2.0-only # import hashlib import logging import os import re import tempfile import pickle import bb.data import difflib import simplediff from bb.checksum import FileChecksumCache from bb import runqueue import hashserv logger = logging.getLogger('BitBake.SigGen') def init(d): siggens = [obj for obj in globals().values() if type(obj) is type and issubclass(obj, SignatureGenerator)] desired = d.getVar("BB_SIGNATURE_HANDLER") or "noop" for sg in siggens: if desired == sg.name: return sg(d) break else: logger.error("Invalid signature generator '%s', using default 'noop'\n" "Available generators: %s", desired, ', '.join(obj.name for obj in siggens)) return SignatureGenerator(d) class SignatureGenerator(object): """ """ name = "noop" def __init__(self, data): self.basehash = {} self.taskhash = {} self.unihash = {} self.runtaskdeps = {} self.file_checksum_values = {} self.taints = {} self.unitaskhashes = {} self.tidtopn = {} self.setscenetasks = set() def finalise(self, fn, d, varient): return def postparsing_clean_cache(self): return def get_unihash(self, tid): return self.taskhash[tid] def prep_taskhash(self, tid, deps, dataCache): return def get_taskhash(self, tid, deps, dataCache): self.taskhash[tid] = hashlib.sha256(tid.encode("utf-8")).hexdigest() return self.taskhash[tid] def writeout_file_checksum_cache(self): """Write/update the file checksum cache onto disk""" return def stampfile(self, stampbase, file_name, taskname, extrainfo): return ("%s.%s.%s" % (stampbase, taskname, extrainfo)).rstrip('.') def stampcleanmask(self, stampbase, file_name, taskname, extrainfo): return ("%s.%s.%s" % (stampbase, taskname, extrainfo)).rstrip('.') def dump_sigtask(self, fn, task, stampbase, runtime): return def invalidate_task(self, task, d, fn): bb.build.del_stamp(task, d, fn) def dump_sigs(self, dataCache, options): return def get_taskdata(self): return (self.runtaskdeps, self.taskhash, self.unihash, self.file_checksum_values, self.taints, self.basehash, self.unitaskhashes, self.tidtopn, self.setscenetasks) def set_taskdata(self, data): self.runtaskdeps, self.taskhash, self.unihash, self.file_checksum_values, self.taints, self.basehash, self.unitaskhashes, self.tidtopn, self.setscenetasks = data def reset(self, data): self.__init__(data) def get_taskhashes(self): return self.taskhash, self.unihash, self.unitaskhashes, self.tidtopn def set_taskhashes(self, hashes): self.taskhash, self.unihash, self.unitaskhashes, self.tidtopn = hashes def save_unitaskhashes(self): return def set_setscene_tasks(self, setscene_tasks): return class SignatureGeneratorBasic(SignatureGenerator): """ """ name = "basic" def __init__(self, data): self.basehash = {} self.taskhash = {} self.unihash = {} self.taskdeps = {} self.runtaskdeps = {} self.file_checksum_values = {} self.taints = {} self.gendeps = {} self.lookupcache = {} self.setscenetasks = set() self.basewhitelist = set((data.getVar("BB_HASHBASE_WHITELIST") or "").split()) self.taskwhitelist = None self.init_rundepcheck(data) checksum_cache_file = data.getVar("BB_HASH_CHECKSUM_CACHE_FILE") if checksum_cache_file: self.checksum_cache = FileChecksumCache() self.checksum_cache.init_cache(data, checksum_cache_file) else: self.checksum_cache = None self.unihash_cache = bb.cache.SimpleCache("3") self.unitaskhashes = self.unihash_cache.init_cache(data, "bb_unihashes.dat", {}) self.localdirsexclude = (data.getVar("BB_SIGNATURE_LOCAL_DIRS_EXCLUDE") or "CVS .bzr .git .hg .osc .p4 .repo .svn").split() self.tidtopn = {} def init_rundepcheck(self, data): self.taskwhitelist = data.getVar("BB_HASHTASK_WHITELIST") or None if self.taskwhitelist: self.twl = re.compile(self.taskwhitelist) else: self.twl = None def _build_data(self, fn, d): ignore_mismatch = ((d.getVar("BB_HASH_IGNORE_MISMATCH") or '') == '1') tasklist, gendeps, lookupcache = bb.data.generate_dependencies(d) taskdeps, basehash = bb.data.generate_dependency_hash(tasklist, gendeps, lookupcache, self.basewhitelist, fn) for task in tasklist: tid = fn + ":" + task if not ignore_mismatch and tid in self.basehash and self.basehash[tid] != basehash[tid]: bb.error("When reparsing %s, the basehash value changed from %s to %s. The metadata is not deterministic and this needs to be fixed." % (tid, self.basehash[tid], basehash[tid])) bb.error("The following commands may help:") cmd = "$ bitbake %s -c%s" % (d.getVar('PN'), task) # Make sure sigdata is dumped before run printdiff bb.error("%s -Snone" % cmd) bb.error("Then:") bb.error("%s -Sprintdiff\n" % cmd) self.basehash[tid] = basehash[tid] self.taskdeps[fn] = taskdeps self.gendeps[fn] = gendeps self.lookupcache[fn] = lookupcache return taskdeps def set_setscene_tasks(self, setscene_tasks): self.setscenetasks = set(setscene_tasks) def finalise(self, fn, d, variant): mc = d.getVar("__BBMULTICONFIG", False) or "" if variant or mc: fn = bb.cache.realfn2virtual(fn, variant, mc) try: taskdeps = self._build_data(fn, d) except bb.parse.SkipRecipe: raise except: bb.warn("Error during finalise of %s" % fn) raise #Slow but can be useful for debugging mismatched basehashes #for task in self.taskdeps[fn]: # self.dump_sigtask(fn, task, d.getVar("STAMP"), False) for task in taskdeps: d.setVar("BB_BASEHASH_task-%s" % task, self.basehash[fn + ":" + task]) def postparsing_clean_cache(self): # # After parsing we can remove some things from memory to reduce our memory footprint # self.gendeps = {} self.lookupcache = {} self.taskdeps = {} def rundep_check(self, fn, recipename, task, dep, depname, dataCache): # Return True if we should keep the dependency, False to drop it # We only manipulate the dependencies for packages not in the whitelist if self.twl and not self.twl.search(recipename): # then process the actual dependencies if self.twl.search(depname): return False return True def read_taint(self, fn, task, stampbase): taint = None try: with open(stampbase + '.' + task + '.taint', 'r') as taintf: taint = taintf.read() except IOError: pass return taint def prep_taskhash(self, tid, deps, dataCache): (mc, _, task, fn) = bb.runqueue.split_tid_mcfn(tid) self.basehash[tid] = dataCache.basetaskhash[tid] self.runtaskdeps[tid] = [] self.file_checksum_values[tid] = [] recipename = dataCache.pkg_fn[fn] self.tidtopn[tid] = recipename for dep in sorted(deps, key=clean_basepath): (depmc, _, deptaskname, depfn) = bb.runqueue.split_tid_mcfn(dep) if mc != depmc: continue depname = dataCache.pkg_fn[depfn] if not self.rundep_check(fn, recipename, task, dep, depname, dataCache): continue if dep not in self.taskhash: bb.fatal("%s is not in taskhash, caller isn't calling in dependency order?" % dep) self.runtaskdeps[tid].append(dep) if task in dataCache.file_checksums[fn]: if self.checksum_cache: checksums = self.checksum_cache.get_checksums(dataCache.file_checksums[fn][task], recipename, self.localdirsexclude) else: checksums = bb.fetch2.get_file_checksums(dataCache.file_checksums[fn][task], recipename, self.localdirsexclude) for (f,cs) in checksums: self.file_checksum_values[tid].append((f,cs)) taskdep = dataCache.task_deps[fn] if 'nostamp' in taskdep and task in taskdep['nostamp']: # Nostamp tasks need an implicit taint so that they force any dependent tasks to run if tid in self.taints and self.taints[tid].startswith("nostamp:"): # Don't reset taint value upon every call pass else: import uuid taint = str(uuid.uuid4()) self.taints[tid] = "nostamp:" + taint taint = self.read_taint(fn, task, dataCache.stamp[fn]) if taint: self.taints[tid] = taint logger.warning("%s is tainted from a forced run" % tid) return def get_taskhash(self, tid, deps, dataCache): data = self.basehash[tid] for dep in self.runtaskdeps[tid]: if dep in self.unihash: if self.unihash[dep] is None: data = data + self.taskhash[dep] else: data = data + self.unihash[dep] else: data = data + self.get_unihash(dep) for (f, cs) in self.file_checksum_values[tid]: if cs: data = data + cs if tid in self.taints: if self.taints[tid].startswith("nostamp:"): data = data + self.taints[tid][8:] else: data = data + self.taints[tid] h = hashlib.sha256(data.encode("utf-8")).hexdigest() self.taskhash[tid] = h #d.setVar("BB_TASKHASH_task-%s" % task, taskhash[task]) return h def writeout_file_checksum_cache(self): """Write/update the file checksum cache onto disk""" if self.checksum_cache: self.checksum_cache.save_extras() self.checksum_cache.save_merge() else: bb.fetch2.fetcher_parse_save() bb.fetch2.fetcher_parse_done() def save_unitaskhashes(self): self.unihash_cache.save(self.unitaskhashes) def dump_sigtask(self, fn, task, stampbase, runtime): tid = fn + ":" + task referencestamp = stampbase if isinstance(runtime, str) and runtime.startswith("customfile"): sigfile = stampbase referencestamp = runtime[11:] elif runtime and tid in self.taskhash: sigfile = stampbase + "." + task + ".sigdata" + "." + self.get_unihash(tid) else: sigfile = stampbase + "." + task + ".sigbasedata" + "." + self.basehash[tid] bb.utils.mkdirhier(os.path.dirname(sigfile)) data = {} data['task'] = task data['basewhitelist'] = self.basewhitelist data['taskwhitelist'] = self.taskwhitelist data['taskdeps'] = self.taskdeps[fn][task] data['basehash'] = self.basehash[tid] data['gendeps'] = {} data['varvals'] = {} data['varvals'][task] = self.lookupcache[fn][task] for dep in self.taskdeps[fn][task]: if dep in self.basewhitelist: continue data['gendeps'][dep] = self.gendeps[fn][dep] data['varvals'][dep] = self.lookupcache[fn][dep] if runtime and tid in self.taskhash: data['runtaskdeps'] = self.runtaskdeps[tid] data['file_checksum_values'] = [(os.path.basename(f), cs) for f,cs in self.file_checksum_values[tid]] data['runtaskhashes'] = {} for dep in data['runtaskdeps']: data['runtaskhashes'][dep] = self.get_unihash(dep) data['taskhash'] = self.taskhash[tid] data['unihash'] = self.get_unihash(tid) taint = self.read_taint(fn, task, referencestamp) if taint: data['taint'] = taint if runtime and tid in self.taints: if 'nostamp:' in self.taints[tid]: data['taint'] = self.taints[tid] computed_basehash = calc_basehash(data) if computed_basehash != self.basehash[tid]: bb.error("Basehash mismatch %s versus %s for %s" % (computed_basehash, self.basehash[tid], tid)) if runtime and tid in self.taskhash: computed_taskhash = calc_taskhash(data) if computed_taskhash != self.taskhash[tid]: bb.error("Taskhash mismatch %s versus %s for %s" % (computed_taskhash, self.taskhash[tid], tid)) sigfile = sigfile.replace(self.taskhash[tid], computed_taskhash) fd, tmpfile = tempfile.mkstemp(dir=os.path.dirname(sigfile), prefix="sigtask.") try: with os.fdopen(fd, "wb") as stream: p = pickle.dump(data, stream, -1) stream.flush() os.chmod(tmpfile, 0o664) os.rename(tmpfile, sigfile) except (OSError, IOError) as err: try: os.unlink(tmpfile) except OSError: pass raise err def dump_sigfn(self, fn, dataCaches, options): if fn in self.taskdeps: for task in self.taskdeps[fn]: tid = fn + ":" + task mc = bb.runqueue.mc_from_tid(tid) if tid not in self.taskhash: continue if dataCaches[mc].basetaskhash[tid] != self.basehash[tid]: bb.error("Bitbake's cached basehash does not match the one we just generated (%s)!" % tid) bb.error("The mismatched hashes were %s and %s" % (dataCaches[mc].basetaskhash[tid], self.basehash[tid])) self.dump_sigtask(fn, task, dataCaches[mc].stamp[fn], True) class SignatureGeneratorBasicHash(SignatureGeneratorBasic): name = "basichash" def get_stampfile_hash(self, tid): if tid in self.taskhash: return self.taskhash[tid] # If task is not in basehash, then error return self.basehash[tid] def stampfile(self, stampbase, fn, taskname, extrainfo, clean=False): if taskname != "do_setscene" and taskname.endswith("_setscene"): tid = fn + ":" + taskname[:-9] else: tid = fn + ":" + taskname if clean: h = "*" else: h = self.get_stampfile_hash(tid) return ("%s.%s.%s.%s" % (stampbase, taskname, h, extrainfo)).rstrip('.') def stampcleanmask(self, stampbase, fn, taskname, extrainfo): return self.stampfile(stampbase, fn, taskname, extrainfo, clean=True) def invalidate_task(self, task, d, fn): bb.note("Tainting hash to force rebuild of task %s, %s" % (fn, task)) bb.build.write_taint(task, d, fn) class SignatureGeneratorUniHashMixIn(object): def __init__(self, data): self.extramethod = {} super().__init__(data) def get_taskdata(self): return (self.server, self.method, self.extramethod) + super().get_taskdata() def set_taskdata(self, data): self.server, self.method, self.extramethod = data[:3] super().set_taskdata(data[3:]) def client(self): if getattr(self, '_client', None) is None: self._client = hashserv.create_client(self.server) return self._client def get_stampfile_hash(self, tid): if tid in self.taskhash: # If a unique hash is reported, use it as the stampfile hash. This # ensures that if a task won't be re-run if the taskhash changes, # but it would result in the same output hash unihash = self._get_unihash(tid) if unihash is not None: return unihash return super().get_stampfile_hash(tid) def set_unihash(self, tid, unihash): (mc, fn, taskname, taskfn) = bb.runqueue.split_tid_mcfn(tid) key = mc + ":" + self.tidtopn[tid] + ":" + taskname self.unitaskhashes[key] = (self.taskhash[tid], unihash) self.unihash[tid] = unihash def _get_unihash(self, tid, checkkey=None): if tid not in self.tidtopn: return None (mc, fn, taskname, taskfn) = bb.runqueue.split_tid_mcfn(tid) key = mc + ":" + self.tidtopn[tid] + ":" + taskname if key not in self.unitaskhashes: return None if not checkkey: checkkey = self.taskhash[tid] (key, unihash) = self.unitaskhashes[key] if key != checkkey: return None return unihash def get_unihash(self, tid): taskhash = self.taskhash[tid] # If its not a setscene task we can return if self.setscenetasks and tid not in self.setscenetasks: self.unihash[tid] = None return taskhash # TODO: This cache can grow unbounded. It probably only needs to keep # for each task unihash = self._get_unihash(tid) if unihash is not None: self.unihash[tid] = unihash return unihash # In the absence of being able to discover a unique hash from the # server, make it be equivalent to the taskhash. The unique "hash" only # really needs to be a unique string (not even necessarily a hash), but # making it match the taskhash has a few advantages: # # 1) All of the sstate code that assumes hashes can be the same # 2) It provides maximal compatibility with builders that don't use # an equivalency server # 3) The value is easy for multiple independent builders to derive the # same unique hash from the same input. This means that if the # independent builders find the same taskhash, but it isn't reported # to the server, there is a better chance that they will agree on # the unique hash. unihash = taskhash try: method = self.method if tid in self.extramethod: method = method + self.extramethod[tid] data = self.client().get_unihash(method, self.taskhash[tid]) if data: unihash = data # A unique hash equal to the taskhash is not very interesting, # so it is reported it at debug level 2. If they differ, that # is much more interesting, so it is reported at debug level 1 bb.debug((1, 2)[unihash == taskhash], 'Found unihash %s in place of %s for %s from %s' % (unihash, taskhash, tid, self.server)) else: bb.debug(2, 'No reported unihash for %s:%s from %s' % (tid, taskhash, self.server)) except hashserv.client.HashConnectionError as e: bb.warn('Error contacting Hash Equivalence Server %s: %s' % (self.server, str(e))) self.set_unihash(tid, unihash) self.unihash[tid] = unihash return unihash def report_unihash(self, path, task, d): import importlib taskhash = d.getVar('BB_TASKHASH') unihash = d.getVar('BB_UNIHASH') report_taskdata = d.getVar('SSTATE_HASHEQUIV_REPORT_TASKDATA') == '1' tempdir = d.getVar('T') fn = d.getVar('BB_FILENAME') tid = fn + ':do_' + task key = tid + ':' + taskhash if self.setscenetasks and tid not in self.setscenetasks: return # This can happen if locked sigs are in action. Detect and just abort if taskhash != self.taskhash[tid]: return # Sanity checks cache_unihash = self._get_unihash(tid, checkkey=taskhash) if cache_unihash is None: bb.fatal('%s not in unihash cache. Please report this error' % key) if cache_unihash != unihash: bb.fatal("Cache unihash %s doesn't match BB_UNIHASH %s" % (cache_unihash, unihash)) sigfile = None sigfile_name = "depsig.do_%s.%d" % (task, os.getpid()) sigfile_link = "depsig.do_%s" % task try: sigfile = open(os.path.join(tempdir, sigfile_name), 'w+b') locs = {'path': path, 'sigfile': sigfile, 'task': task, 'd': d} if "." in self.method: (module, method) = self.method.rsplit('.', 1) locs['method'] = getattr(importlib.import_module(module), method) outhash = bb.utils.better_eval('method(path, sigfile, task, d)', locs) else: outhash = bb.utils.better_eval(self.method + '(path, sigfile, task, d)', locs) try: extra_data = {} owner = d.getVar('SSTATE_HASHEQUIV_OWNER') if owner: extra_data['owner'] = owner if report_taskdata: sigfile.seek(0) extra_data['PN'] = d.getVar('PN') extra_data['PV'] = d.getVar('PV') extra_data['PR'] = d.getVar('PR') extra_data['task'] = task extra_data['outhash_siginfo'] = sigfile.read().decode('utf-8') method = self.method if tid in self.extramethod: method = method + self.extramethod[tid] data = self.client().report_unihash(taskhash, method, outhash, unihash, extra_data) new_unihash = data['unihash'] if new_unihash != unihash: bb.debug(1, 'Task %s unihash changed %s -> %s by server %s' % (taskhash, unihash, new_unihash, self.server)) bb.event.fire(bb.runqueue.taskUniHashUpdate(fn + ':do_' + task, new_unihash), d) self.set_unihash(tid, new_unihash) d.setVar('BB_UNIHASH', new_unihash) else: bb.debug(1, 'Reported task %s as unihash %s to %s' % (taskhash, unihash, self.server)) except hashserv.client.HashConnectionError as e: bb.warn('Error contacting Hash Equivalence Server %s: %s' % (self.server, str(e))) finally: if sigfile: sigfile.close() sigfile_link_path = os.path.join(tempdir, sigfile_link) bb.utils.remove(sigfile_link_path) try: os.symlink(sigfile_name, sigfile_link_path) except OSError: pass def report_unihash_equiv(self, tid, taskhash, wanted_unihash, current_unihash, datacaches): try: extra_data = {} method = self.method if tid in self.extramethod: method = method + self.extramethod[tid] data = self.client().report_unihash_equiv(taskhash, method, wanted_unihash, extra_data) bb.note('Reported task %s as unihash %s to %s (%s)' % (tid, wanted_unihash, self.server, str(data))) if data is None: bb.warn("Server unable to handle unihash report") return False finalunihash = data['unihash'] if finalunihash == current_unihash: bb.note('Task %s unihash %s unchanged by server' % (tid, finalunihash)) elif finalunihash == wanted_unihash: bb.note('Task %s unihash changed %s -> %s as wanted' % (tid, current_unihash, finalunihash)) self.set_unihash(tid, finalunihash) return True else: # TODO: What to do here? bb.note('Task %s unihash reported as unwanted hash %s' % (tid, finalunihash)) except hashserv.client.HashConnectionError as e: bb.warn('Error contacting Hash Equivalence Server %s: %s' % (self.server, str(e))) return False # # Dummy class used for bitbake-selftest # class SignatureGeneratorTestEquivHash(SignatureGeneratorUniHashMixIn, SignatureGeneratorBasicHash): name = "TestEquivHash" def init_rundepcheck(self, data): super().init_rundepcheck(data) self.server = data.getVar('BB_HASHSERVE') self.method = "sstate_output_hash" def dump_this_task(outfile, d): import bb.parse fn = d.getVar("BB_FILENAME") task = "do_" + d.getVar("BB_CURRENTTASK") referencestamp = bb.build.stamp_internal(task, d, None, True) bb.parse.siggen.dump_sigtask(fn, task, outfile, "customfile:" + referencestamp) def init_colors(enable_color): """Initialise colour dict for passing to compare_sigfiles()""" # First set up the colours colors = {'color_title': '\033[1m', 'color_default': '\033[0m', 'color_add': '\033[0;32m', 'color_remove': '\033[0;31m', } # Leave all keys present but clear the values if not enable_color: for k in colors.keys(): colors[k] = '' return colors def worddiff_str(oldstr, newstr, colors=None): if not colors: colors = init_colors(False) diff = simplediff.diff(oldstr.split(' '), newstr.split(' ')) ret = [] for change, value in diff: value = ' '.join(value) if change == '=': ret.append(value) elif change == '+': item = '{color_add}{{+{value}+}}{color_default}'.format(value=value, **colors) ret.append(item) elif change == '-': item = '{color_remove}[-{value}-]{color_default}'.format(value=value, **colors) ret.append(item) whitespace_note = '' if oldstr != newstr and ' '.join(oldstr.split()) == ' '.join(newstr.split()): whitespace_note = ' (whitespace changed)' return '"%s"%s' % (' '.join(ret), whitespace_note) def list_inline_diff(oldlist, newlist, colors=None): if not colors: colors = init_colors(False) diff = simplediff.diff(oldlist, newlist) ret = [] for change, value in diff: value = ' '.join(value) if change == '=': ret.append("'%s'" % value) elif change == '+': item = '{color_add}+{value}{color_default}'.format(value=value, **colors) ret.append(item) elif change == '-': item = '{color_remove}-{value}{color_default}'.format(value=value, **colors) ret.append(item) return '[%s]' % (', '.join(ret)) def clean_basepath(a): mc = None if a.startswith("mc:"): _, mc, a = a.split(":", 2) b = a.rsplit("/", 2)[1] + '/' + a.rsplit("/", 2)[2] if a.startswith("virtual:"): b = b + ":" + a.rsplit(":", 1)[0] if mc: b = b + ":mc:" + mc return b def clean_basepaths(a): b = {} for x in a: b[clean_basepath(x)] = a[x] return b def clean_basepaths_list(a): b = [] for x in a: b.append(clean_basepath(x)) return b def compare_sigfiles(a, b, recursecb=None, color=False, collapsed=False): output = [] colors = init_colors(color) def color_format(formatstr, **values): """ Return colour formatted string. NOTE: call with the format string, not an already formatted string containing values (otherwise you could have trouble with { and } characters) """ if not formatstr.endswith('{color_default}'): formatstr += '{color_default}' # In newer python 3 versions you can pass both of these directly, # but we only require 3.4 at the moment formatparams = {} formatparams.update(colors) formatparams.update(values) return formatstr.format(**formatparams) with open(a, 'rb') as f: p1 = pickle.Unpickler(f) a_data = p1.load() with open(b, 'rb') as f: p2 = pickle.Unpickler(f) b_data = p2.load() def dict_diff(a, b, whitelist=set()): sa = set(a.keys()) sb = set(b.keys()) common = sa & sb changed = set() for i in common: if a[i] != b[i] and i not in whitelist: changed.add(i) added = sb - sa removed = sa - sb return changed, added, removed def file_checksums_diff(a, b): from collections import Counter # Handle old siginfo format if isinstance(a, dict): a = [(os.path.basename(f), cs) for f, cs in a.items()] if isinstance(b, dict): b = [(os.path.basename(f), cs) for f, cs in b.items()] # Compare lists, ensuring we can handle duplicate filenames if they exist removedcount = Counter(a) removedcount.subtract(b) addedcount = Counter(b) addedcount.subtract(a) added = [] for x in b: if addedcount[x] > 0: addedcount[x] -= 1 added.append(x) removed = [] changed = [] for x in a: if removedcount[x] > 0: removedcount[x] -= 1 for y in added: if y[0] == x[0]: changed.append((x[0], x[1], y[1])) added.remove(y) break else: removed.append(x) added = [x[0] for x in added] removed = [x[0] for x in removed] return changed, added, removed if 'basewhitelist' in a_data and a_data['basewhitelist'] != b_data['basewhitelist']: output.append(color_format("{color_title}basewhitelist changed{color_default} from '%s' to '%s'") % (a_data['basewhitelist'], b_data['basewhitelist'])) if a_data['basewhitelist'] and b_data['basewhitelist']: output.append("changed items: %s" % a_data['basewhitelist'].symmetric_difference(b_data['basewhitelist'])) if 'taskwhitelist' in a_data and a_data['taskwhitelist'] != b_data['taskwhitelist']: output.append(color_format("{color_title}taskwhitelist changed{color_default} from '%s' to '%s'") % (a_data['taskwhitelist'], b_data['taskwhitelist'])) if a_data['taskwhitelist'] and b_data['taskwhitelist']: output.append("changed items: %s" % a_data['taskwhitelist'].symmetric_difference(b_data['taskwhitelist'])) if a_data['taskdeps'] != b_data['taskdeps']: output.append(color_format("{color_title}Task dependencies changed{color_default} from:\n%s\nto:\n%s") % (sorted(a_data['taskdeps']), sorted(b_data['taskdeps']))) if a_data['basehash'] != b_data['basehash'] and not collapsed: output.append(color_format("{color_title}basehash changed{color_default} from %s to %s") % (a_data['basehash'], b_data['basehash'])) changed, added, removed = dict_diff(a_data['gendeps'], b_data['gendeps'], a_data['basewhitelist'] & b_data['basewhitelist']) if changed: for dep in changed: output.append(color_format("{color_title}List of dependencies for variable %s changed from '{color_default}%s{color_title}' to '{color_default}%s{color_title}'") % (dep, a_data['gendeps'][dep], b_data['gendeps'][dep])) if a_data['gendeps'][dep] and b_data['gendeps'][dep]: output.append("changed items: %s" % a_data['gendeps'][dep].symmetric_difference(b_data['gendeps'][dep])) if added: for dep in added: output.append(color_format("{color_title}Dependency on variable %s was added") % (dep)) if removed: for dep in removed: output.append(color_format("{color_title}Dependency on Variable %s was removed") % (dep)) changed, added, removed = dict_diff(a_data['varvals'], b_data['varvals']) if changed: for dep in changed: oldval = a_data['varvals'][dep] newval = b_data['varvals'][dep] if newval and oldval and ('\n' in oldval or '\n' in newval): diff = difflib.unified_diff(oldval.splitlines(), newval.splitlines(), lineterm='') # Cut off the first two lines, since we aren't interested in # the old/new filename (they are blank anyway in this case) difflines = list(diff)[2:] if color: # Add colour to diff output for i, line in enumerate(difflines): if line.startswith('+'): line = color_format('{color_add}{line}', line=line) difflines[i] = line elif line.startswith('-'): line = color_format('{color_remove}{line}', line=line) difflines[i] = line output.append(color_format("{color_title}Variable {var} value changed:{color_default}\n{diff}", var=dep, diff='\n'.join(difflines))) elif newval and oldval and (' ' in oldval or ' ' in newval): output.append(color_format("{color_title}Variable {var} value changed:{color_default}\n{diff}", var=dep, diff=worddiff_str(oldval, newval, colors))) else: output.append(color_format("{color_title}Variable {var} value changed from '{color_default}{oldval}{color_title}' to '{color_default}{newval}{color_title}'{color_default}", var=dep, oldval=oldval, newval=newval)) if not 'file_checksum_values' in a_data: a_data['file_checksum_values'] = {} if not 'file_checksum_values' in b_data: b_data['file_checksum_values'] = {} changed, added, removed = file_checksums_diff(a_data['file_checksum_values'], b_data['file_checksum_values']) if changed: for f, old, new in changed: output.append(color_format("{color_title}Checksum for file %s changed{color_default} from %s to %s") % (f, old, new)) if added: for f in added: output.append(color_format("{color_title}Dependency on checksum of file %s was added") % (f)) if removed: for f in removed: output.append(color_format("{color_title}Dependency on checksum of file %s was removed") % (f)) if not 'runtaskdeps' in a_data: a_data['runtaskdeps'] = {} if not 'runtaskdeps' in b_data: b_data['runtaskdeps'] = {} if not collapsed: if len(a_data['runtaskdeps']) != len(b_data['runtaskdeps']): changed = ["Number of task dependencies changed"] else: changed = [] for idx, task in enumerate(a_data['runtaskdeps']): a = a_data['runtaskdeps'][idx] b = b_data['runtaskdeps'][idx] if a_data['runtaskhashes'][a] != b_data['runtaskhashes'][b] and not collapsed: changed.append("%s with hash %s\n changed to\n%s with hash %s" % (clean_basepath(a), a_data['runtaskhashes'][a], clean_basepath(b), b_data['runtaskhashes'][b])) if changed: clean_a = clean_basepaths_list(a_data['runtaskdeps']) clean_b = clean_basepaths_list(b_data['runtaskdeps']) if clean_a != clean_b: output.append(color_format("{color_title}runtaskdeps changed:{color_default}\n%s") % list_inline_diff(clean_a, clean_b, colors)) else: output.append(color_format("{color_title}runtaskdeps changed:")) output.append("\n".join(changed)) if 'runtaskhashes' in a_data and 'runtaskhashes' in b_data: a = a_data['runtaskhashes'] b = b_data['runtaskhashes'] changed, added, removed = dict_diff(a, b) if added: for dep in added: bdep_found = False if removed: for bdep in removed: if b[dep] == a[bdep]: #output.append("Dependency on task %s was replaced by %s with same hash" % (dep, bdep)) bdep_found = True if not bdep_found: output.append(color_format("{color_title}Dependency on task %s was added{color_default} with hash %s") % (clean_basepath(dep), b[dep])) if removed: for dep in removed: adep_found = False if added: for adep in added: if b[adep] == a[dep]: #output.append("Dependency on task %s was replaced by %s with same hash" % (adep, dep)) adep_found = True if not adep_found: output.append(color_format("{color_title}Dependency on task %s was removed{color_default} with hash %s") % (clean_basepath(dep), a[dep])) if changed: for dep in changed: if not collapsed: output.append(color_format("{color_title}Hash for dependent task %s changed{color_default} from %s to %s") % (clean_basepath(dep), a[dep], b[dep])) if callable(recursecb): recout = recursecb(dep, a[dep], b[dep]) if recout: if collapsed: output.extend(recout) else: # If a dependent hash changed, might as well print the line above and then defer to the changes in # that hash since in all likelyhood, they're the same changes this task also saw. output = [output[-1]] + recout a_taint = a_data.get('taint', None) b_taint = b_data.get('taint', None) if a_taint != b_taint: if a_taint and a_taint.startswith('nostamp:'): a_taint = a_taint.replace('nostamp:', 'nostamp(uuid4):') if b_taint and b_taint.startswith('nostamp:'): b_taint = b_taint.replace('nostamp:', 'nostamp(uuid4):') output.append(color_format("{color_title}Taint (by forced/invalidated task) changed{color_default} from %s to %s") % (a_taint, b_taint)) return output def calc_basehash(sigdata): task = sigdata['task'] basedata = sigdata['varvals'][task] if basedata is None: basedata = '' alldeps = sigdata['taskdeps'] for dep in alldeps: basedata = basedata + dep val = sigdata['varvals'][dep] if val is not None: basedata = basedata + str(val) return hashlib.sha256(basedata.encode("utf-8")).hexdigest() def calc_taskhash(sigdata): data = sigdata['basehash'] for dep in sigdata['runtaskdeps']: data = data + sigdata['runtaskhashes'][dep] for c in sigdata['file_checksum_values']: if c[1]: data = data + c[1] if 'taint' in sigdata: if 'nostamp:' in sigdata['taint']: data = data + sigdata['taint'][8:] else: data = data + sigdata['taint'] return hashlib.sha256(data.encode("utf-8")).hexdigest() def dump_sigfile(a): output = [] with open(a, 'rb') as f: p1 = pickle.Unpickler(f) a_data = p1.load() output.append("basewhitelist: %s" % (a_data['basewhitelist'])) output.append("taskwhitelist: %s" % (a_data['taskwhitelist'])) output.append("Task dependencies: %s" % (sorted(a_data['taskdeps']))) output.append("basehash: %s" % (a_data['basehash'])) for dep in a_data['gendeps']: output.append("List of dependencies for variable %s is %s" % (dep, a_data['gendeps'][dep])) for dep in a_data['varvals']: output.append("Variable %s value is %s" % (dep, a_data['varvals'][dep])) if 'runtaskdeps' in a_data: output.append("Tasks this task depends on: %s" % (a_data['runtaskdeps'])) if 'file_checksum_values' in a_data: output.append("This task depends on the checksums of files: %s" % (a_data['file_checksum_values'])) if 'runtaskhashes' in a_data: for dep in a_data['runtaskhashes']: output.append("Hash for dependent task %s is %s" % (dep, a_data['runtaskhashes'][dep])) if 'taint' in a_data: if a_data['taint'].startswith('nostamp:'): msg = a_data['taint'].replace('nostamp:', 'nostamp(uuid4):') else: msg = a_data['taint'] output.append("Tainted (by forced/invalidated task): %s" % msg) if 'task' in a_data: computed_basehash = calc_basehash(a_data) output.append("Computed base hash is %s and from file %s" % (computed_basehash, a_data['basehash'])) else: output.append("Unable to compute base hash") computed_taskhash = calc_taskhash(a_data) output.append("Computed task hash is %s" % computed_taskhash) return output