import os import sys import time import stat import random import signal import json import logging import socket import string import errno from shutil import copyfileobj from errno import ENOENT, ENODATA, EPIPE, EEXIST, errorcode from threading import currentThread, Condition, Lock from datetime import datetime from libcxattr import Xattr from gconf import gconf from tempfile import mkdtemp, NamedTemporaryFile from syncdutils import FreeObject, Thread, GsyncdError, boolify, escape, \ unescape, select, gauxpfx, md5hex, selfkill, entry2pb, \ lstat, errno_wrap, update_file URXTIME = (-1, 0) # Utility functions to help us to get to closer proximity # of the DRY principle (no, don't look for elevated or # perspectivistic things here) def _xtime_now(): t = time.time() sec = int(t) nsec = int((t - sec) * 1000000) return (sec, nsec) def _volinfo_hook_relax_foreign(self): volinfo_sys = self.get_sys_volinfo() fgn_vi = volinfo_sys[self.KFGN] if fgn_vi: expiry = fgn_vi['timeout'] - int(time.time()) + 1 logging.info('foreign volume info found, waiting %d sec for expiry' % \ expiry) time.sleep(expiry) volinfo_sys = self.get_sys_volinfo() return volinfo_sys # The API! def gmaster_builder(excrawl=None): """produce the GMaster class variant corresponding to sync mode""" this = sys.modules[__name__] modemixin = gconf.special_sync_mode if not modemixin: modemixin = 'normal' changemixin = isinstance(excrawl, str) and excrawl or gconf.change_detector logging.info('setting up %s change detection mode' % changemixin) modemixin = getattr(this, modemixin.capitalize() + 'Mixin') crawlmixin = getattr(this, 'GMaster' + changemixin.capitalize() + 'Mixin') sendmarkmixin = boolify(gconf.use_rsync_xattrs) and SendmarkRsyncMixin or SendmarkNormalMixin purgemixin = boolify(gconf.ignore_deletes) and PurgeNoopMixin or PurgeNormalMixin syncengine = boolify(gconf.use_tarssh) and TarSSHEngine or RsyncEngine class _GMaster(crawlmixin, modemixin, sendmarkmixin, purgemixin, syncengine): pass return _GMaster # Mixin classes that implement the data format # and logic particularities of the certain # sync modes class NormalMixin(object): """normal geo-rep behavior""" minus_infinity = URXTIME # following staticmethods ideally would be # methods of an xtime object (in particular, # implementing the hooks needed for comparison # operators), but at this point we don't yet # have a dedicated xtime class @staticmethod def serialize_xtime(xt): return "%d.%d" % tuple(xt) @staticmethod def deserialize_xtime(xt): return tuple(int(x) for x in xt.split(".")) @staticmethod def native_xtime(xt): return xt @staticmethod def xtime_geq(xt0, xt1): return xt0 >= xt1 def make_xtime_opts(self, is_master, opts): if not 'create' in opts: opts['create'] = is_master if not 'default_xtime' in opts: opts['default_xtime'] = URXTIME def xtime_low(self, rsc, path, **opts): if rsc == self.master: xt = rsc.server.xtime(path, self.uuid) else: xt = rsc.server.stime(path, self.uuid) if isinstance(xt, int) and xt == ENODATA: xt = rsc.server.xtime(path, self.uuid) if not isinstance(xt, int): self.slave.server.set_stime(path, self.uuid, xt) if isinstance(xt, int) and xt != ENODATA: return xt if xt == ENODATA or xt < self.volmark: if opts['create']: xt = _xtime_now() rsc.server.aggregated.set_xtime(path, self.uuid, xt) else: xt = opts['default_xtime'] return xt def keepalive_payload_hook(self, timo, gap): # first grab a reference as self.volinfo # can be changed in main thread vi = self.volinfo if vi: # then have a private copy which we can mod vi = vi.copy() vi['timeout'] = int(time.time()) + timo else: # send keep-alives more frequently to # avoid a delay in announcing our volume info # to slave if it becomes established in the # meantime gap = min(10, gap) return (vi, gap) def volinfo_hook(self): return self.get_sys_volinfo() def xtime_reversion_hook(self, path, xtl, xtr): if xtr > xtl: raise GsyncdError("timestamp corruption for " + path) def need_sync(self, e, xte, xtrd): return xte > xtrd def set_slave_xtime(self, path, mark): self.slave.server.set_stime(path, self.uuid, mark) # self.slave.server.set_xtime_remote(path, self.uuid, mark) class PartialMixin(NormalMixin): """a variant tuned towards operation with a master that has partial info of the slave (brick typically)""" def xtime_reversion_hook(self, path, xtl, xtr): pass class RecoverMixin(NormalMixin): """a variant that differs from normal in terms of ignoring non-indexed files""" @staticmethod def make_xtime_opts(is_master, opts): if not 'create' in opts: opts['create'] = False if not 'default_xtime' in opts: opts['default_xtime'] = URXTIME def keepalive_payload_hook(self, timo, gap): return (None, gap) def volinfo_hook(self): return _volinfo_hook_relax_foreign(self) # Further mixins for certain tunable behaviors class SendmarkNormalMixin(object): def sendmark_regular(self, *a, **kw): return self.sendmark(*a, **kw) class SendmarkRsyncMixin(object): def sendmark_regular(self, *a, **kw): pass class PurgeNormalMixin(object): def purge_missing(self, path, names): self.slave.server.purge(path, names) class PurgeNoopMixin(object): def purge_missing(self, path, names): pass class TarSSHEngine(object): """Sync engine that uses tar(1) piped over ssh(1) for data transfers. Good for lots of small files. """ def a_syncdata(self, files): logging.debug('files: %s' % (files)) for f in files: pb = self.syncer.add(f) def regjob(se, xte, pb): rv = pb.wait() if rv[0]: logging.debug('synced ' + se) return True else: # stat check for file presence st = lstat(se) if isinstance(st, int): return True logging.warn('tar+ssh: %s [errcode: %d]' % (se, rv[1])) self.add_job(self.FLAT_DIR_HIERARCHY, 'reg', regjob, f, None, pb) def syncdata_wait(self): if self.wait(self.FLAT_DIR_HIERARCHY, None): return True def syncdata(self, files): self.a_syncdata(files) self.syncdata_wait() class RsyncEngine(object): """Sync engine that uses rsync(1) for data transfers""" def a_syncdata(self, files): logging.debug('files: %s' % (files)) for f in files: logging.debug('candidate for syncing %s' % f) pb = self.syncer.add(f) def regjob(se, xte, pb): rv = pb.wait() if rv[0]: logging.debug('synced ' + se) return True else: if rv[1] in [23, 24]: # stat to check if the file exist st = lstat(se) if isinstance(st, int): # file got unlinked in the interim return True logging.warn('Rsync: %s [errcode: %d]' % (se, rv[1])) self.add_job(self.FLAT_DIR_HIERARCHY, 'reg', regjob, f, None, pb) def syncdata_wait(self): if self.wait(self.FLAT_DIR_HIERARCHY, None): return True def syncdata(self, files): self.a_syncdata(files) self.syncdata_wait() class GMasterCommon(object): """abstract class impementling master role""" KFGN = 0 KNAT = 1 def get_sys_volinfo(self): """query volume marks on fs root err out on multiple foreign masters """ fgn_vis, nat_vi = self.master.server.aggregated.foreign_volume_infos(), \ self.master.server.aggregated.native_volume_info() fgn_vi = None if fgn_vis: if len(fgn_vis) > 1: raise GsyncdError("cannot work with multiple foreign masters") fgn_vi = fgn_vis[0] return fgn_vi, nat_vi @property def uuid(self): if self.volinfo: return self.volinfo['uuid'] @property def volmark(self): if self.volinfo: return self.volinfo['volume_mark'] def xtime(self, path, *a, **opts): """get amended xtime as of amending, we can create missing xtime, or determine a valid value if what we get is expired (as of the volume mark expiry); way of amendig depends on @opts and on subject of query (master or slave). """ if a: rsc = a[0] else: rsc = self.master self.make_xtime_opts(rsc == self.master, opts) return self.xtime_low(rsc, path, **opts) def get_initial_crawl_data(self): # while persisting only 'files_syncd' is non-zero, rest of # the stats are nulls. lets keep it that way in case they # are needed to be used some day... default_data = {'files_syncd': 0, 'files_remaining': 0, 'bytes_remaining': 0, 'purges_remaining': 0, 'total_files_skipped': 0} if getattr(gconf, 'state_detail_file', None): try: with open(gconf.state_detail_file, 'r+') as f: loaded_data= json.load(f) diff_data = set(default_data) - set (loaded_data) if len(diff_data): for i in diff_data: loaded_data[i] = default_data[i] return loaded_data except (IOError): ex = sys.exc_info()[1] logging.warn ('Creating new gconf.state_detail_file.') # Create file with initial data try: with open(gconf.state_detail_file, 'wb') as f: json.dump(default_data, f) return default_data except: raise return default_data def update_crawl_data(self): if getattr(gconf, 'state_detail_file', None): try: same_dir = os.path.dirname(gconf.state_detail_file) with NamedTemporaryFile(dir=same_dir, delete=False) as tmp: json.dump(self.total_crawl_stats, tmp) tmp.flush() os.fsync(tmp.fileno()) os.rename(tmp.name, gconf.state_detail_file) except (IOError, OSError): raise def __init__(self, master, slave): self.master = master self.slave = slave self.jobtab = {} if boolify(gconf.use_tarssh): logging.info("using 'tar over ssh' as the sync engine") self.syncer = Syncer(slave, self.slave.tarssh) else: logging.info("using 'rsync' as the sync engine") # partial transfer (cf. rsync(1)), that's normal self.syncer = Syncer(slave, self.slave.rsync, [23, 24]) # crawls vs. turns: # - self.crawls is simply the number of crawl() invocations on root # - one turn is a maximal consecutive sequence of crawls so that each # crawl in it detects a change to be synced # - self.turns is the number of turns since start # - self.total_turns is a limit so that if self.turns reaches it, then # we exit (for diagnostic purposes) # so, eg., if the master fs changes unceasingly, self.turns will remain 0. self.crawls = 0 self.turns = 0 self.total_turns = int(gconf.turns) self.crawl_start = datetime.now() self.lastreport = {'crawls': 0, 'turns': 0, 'time': 0} self.total_crawl_stats = None self.start = None self.change_seen = None # the actual volinfo we make use of self.volinfo = None self.terminate = False self.sleep_interval = 1 self.checkpoint_thread = None self.current_files_skipped_count = 0 self.skipped_gfid_list = [] def init_keep_alive(cls): """start the keep-alive thread """ timo = int(gconf.timeout or 0) if timo > 0: def keep_alive(): while True: vi, gap = cls.keepalive_payload_hook(timo, timo * 0.5) cls.slave.server.keep_alive(vi) time.sleep(gap) t = Thread(target=keep_alive) t.start() def should_crawl(cls): return (gconf.glusterd_uuid in cls.master.server.node_uuid()) def register(self): self.register() def crawlwrap(self, oneshot=False): if oneshot: # it's important to do this during the oneshot crawl as # for a passive gsyncd (ie. in a replicate scenario) # the keepalive thread would keep the connection alive. self.init_keep_alive() # no need to maintain volinfo state machine. # in a cascading setup, each geo-replication session is # independent (ie. 'volume-mark' and 'xtime' are not # propogated). This is beacuse the slave's xtime is now # stored on the master itself. 'volume-mark' just identifies # that we are in a cascading setup and need to enable # 'geo-replication.ignore-pid-check' option. volinfo_sys = self.volinfo_hook() self.volinfo = volinfo_sys[self.KNAT] inter_master = volinfo_sys[self.KFGN] logging.info("%s master with volume id %s ..." % \ (inter_master and "intermediate" or "primary", self.uuid)) gconf.configinterface.set('volume_id', self.uuid) if self.volinfo: if self.volinfo['retval']: logging.warn("master cluster's info may not be valid %d" % \ self.volinfo['retval']) self.start_checkpoint_thread() else: raise GsyncdError("master volinfo unavailable") self.total_crawl_stats = self.get_initial_crawl_data() self.lastreport['time'] = time.time() logging.info('crawl interval: %d seconds' % self.sleep_interval) t0 = time.time() crawl = self.should_crawl() while not self.terminate: if self.start: logging.debug("... crawl #%d done, took %.6f seconds" % \ (self.crawls, time.time() - self.start)) self.start = time.time() should_display_info = self.start - self.lastreport['time'] >= 60 if should_display_info: logging.info("%d crawls, %d turns", self.crawls - self.lastreport['crawls'], self.turns - self.lastreport['turns']) self.lastreport.update(crawls = self.crawls, turns = self.turns, time = self.start) t1 = time.time() if int(t1 - t0) >= 60: #lets hardcode this check to 60 seconds crawl = self.should_crawl() t0 = t1 self.update_worker_remote_node() if not crawl: self.update_worker_health("Passive") # bring up _this_ brick to the cluster stime # which is min of cluster (but max of the replicas) brick_stime = self.xtime('.', self.slave) cluster_stime = self.master.server.aggregated.stime_mnt('.', '.'.join([str(self.uuid), str(gconf.slave_id)])) logging.debug("Cluster stime: %s | Brick stime: %s" % (repr(cluster_stime), repr(brick_stime))) if not isinstance(cluster_stime, int): if brick_stime < cluster_stime: self.slave.server.set_stime(self.FLAT_DIR_HIERARCHY, self.uuid, cluster_stime) time.sleep(5) continue self.update_worker_health("Active") self.crawl() if oneshot: return time.sleep(self.sleep_interval) @classmethod def _checkpt_param(cls, chkpt, prm, xtimish=True): """use config backend to lookup a parameter belonging to checkpoint @chkpt""" cprm = gconf.configinterface.get_realtime('checkpoint_' + prm) if not cprm: return chkpt_mapped, val = cprm.split(':', 1) if unescape(chkpt_mapped) != chkpt: return if xtimish: val = cls.deserialize_xtime(val) return val @classmethod def _set_checkpt_param(cls, chkpt, prm, val, xtimish=True): """use config backend to store a parameter associated with checkpoint @chkpt""" if xtimish: val = cls.serialize_xtime(val) gconf.configinterface.set('checkpoint_' + prm, "%s:%s" % (escape(chkpt), val)) @staticmethod def humantime(*tpair): """format xtime-like (sec, nsec) pair to human readable format""" ts = datetime.fromtimestamp(float('.'.join(str(n) for n in tpair))).\ strftime("%Y-%m-%d %H:%M:%S") if len(tpair) > 1: ts += '.' + str(tpair[1]) return ts def _crawl_time_format(self, crawl_time): # Ex: 5 years, 4 days, 20:23:10 years, days = divmod(crawl_time.days, 365.25) years = int(years) days = int(days) date="" m, s = divmod(crawl_time.seconds, 60) h, m = divmod(m, 60) if years != 0: date += "%s %s " % (years, "year" if years == 1 else "years") if days != 0: date += "%s %s " % (days, "day" if days == 1 else "days") date += "%s:%s:%s" % (string.zfill(h, 2), string.zfill(m, 2), string.zfill(s, 2)) return date def checkpt_service(self, chan, chkpt): """checkpoint service loop monitor and verify checkpoint status for @chkpt, and listen for incoming requests for whom we serve a pretty-formatted status report""" while True: chkpt = gconf.configinterface.get_realtime("checkpoint") if not chkpt: gconf.configinterface.delete("checkpoint_completed") gconf.configinterface.delete("checkpoint_target") # dummy loop for the case when there is no checkpt set select([chan], [], []) conn, _ = chan.accept() conn.send('\0') conn.close() continue checkpt_tgt = self._checkpt_param(chkpt, 'target') if not checkpt_tgt: checkpt_tgt = self.xtime('.') if isinstance(checkpt_tgt, int): raise GsyncdError("master root directory is unaccessible (%s)", os.strerror(checkpt_tgt)) self._set_checkpt_param(chkpt, 'target', checkpt_tgt) logging.debug("checkpoint target %s has been determined for checkpoint %s" % \ (repr(checkpt_tgt), chkpt)) # check if the label is 'now' chkpt_lbl = chkpt try: x1,x2 = chkpt.split(':') if x1 == 'now': chkpt_lbl = "as of " + self.humantime(x2) except: pass completed = self._checkpt_param(chkpt, 'completed', xtimish=False) if completed: completed = tuple(int(x) for x in completed.split('.')) s,_,_ = select([chan], [], [], (not completed) and 5 or None) # either request made and we re-check to not # give back stale data, or we still hunting for completion if self.native_xtime(checkpt_tgt) and self.native_xtime(checkpt_tgt) < self.volmark: # indexing has been reset since setting the checkpoint status = "is invalid" else: xtr = self.xtime('.', self.slave) if isinstance(xtr, int): raise GsyncdError("slave root directory is unaccessible (%s)", os.strerror(xtr)) ncompleted = self.xtime_geq(xtr, checkpt_tgt) if completed and not ncompleted: # stale data logging.warn("completion time %s for checkpoint %s became stale" % \ (self.humantime(*completed), chkpt)) completed = None gconf.configinterface.delete('checkpoint_completed') if ncompleted and not completed: # just reaching completion completed = "%.6f" % time.time() self._set_checkpt_param(chkpt, 'completed', completed, xtimish=False) completed = tuple(int(x) for x in completed.split('.')) logging.info("checkpoint %s completed" % chkpt) status = completed and \ "completed at " + self.humantime(completed[0]) or \ "not reached yet" if s: conn = None try: conn, _ = chan.accept() try: conn.send("checkpoint %s is %s\0" % (chkpt_lbl, status)) except: exc = sys.exc_info()[1] if (isinstance(exc, OSError) or isinstance(exc, IOError)) and \ exc.errno == EPIPE: logging.debug('checkpoint client disconnected') else: raise finally: if conn: conn.close() def start_checkpoint_thread(self): """prepare and start checkpoint service""" if self.checkpoint_thread or not ( getattr(gconf, 'state_socket_unencoded', None) and getattr(gconf, 'socketdir', None) ): return chan = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) state_socket = os.path.join(gconf.socketdir, md5hex(gconf.state_socket_unencoded) + ".socket") try: os.unlink(state_socket) except: if sys.exc_info()[0] == OSError: pass chan.bind(state_socket) chan.listen(1) chkpt = gconf.configinterface.get_realtime("checkpoint") t = Thread(target=self.checkpt_service, args=(chan, chkpt)) t.start() self.checkpoint_thread = t def add_job(self, path, label, job, *a, **kw): """insert @job function to job table at @path with @label""" if self.jobtab.get(path) == None: self.jobtab[path] = [] self.jobtab[path].append((label, a, lambda : job(*a, **kw))) def add_failjob(self, path, label): """invoke .add_job with a job that does nothing just fails""" logging.debug('salvaged: ' + label) self.add_job(path, label, lambda: False) def wait(self, path, *args): """perform jobs registered for @path Reset jobtab entry for @path, determine success as the conjuction of success of all the jobs. In case of success, call .sendmark on @path """ jobs = self.jobtab.pop(path, []) succeed = True for j in jobs: ret = j[-1]() if not ret: succeed = False if succeed and not args[0] == None: self.sendmark(path, *args) return succeed def sendmark(self, path, mark, adct=None): """update slave side xtime for @path to master side xtime also can send a setattr payload (see Server.setattr). """ if adct: self.slave.server.setattr(path, adct) self.set_slave_xtime(path, mark) class GMasterChangelogMixin(GMasterCommon): """ changelog based change detection and syncing """ # index for change type and entry IDX_START = 0 IDX_END = 2 POS_GFID = 0 POS_TYPE = 1 POS_ENTRY1 = -1 TYPE_META = "M " TYPE_GFID = "D " TYPE_ENTRY = "E " # flat directory heirarchy for gfid based access FLAT_DIR_HIERARCHY = '.' # maximum retries per changelog before giving up MAX_RETRIES = 10 def fallback_xsync(self): logging.info('falling back to xsync mode') gconf.configinterface.set('change-detector', 'xsync') selfkill() def setup_working_dir(self): workdir = os.path.join(gconf.working_dir, md5hex(gconf.local_path)) logfile = os.path.join(workdir, 'changes.log') logging.debug('changelog working dir %s (log: %s)' % (workdir, logfile)) return (workdir, logfile) def process_change(self, change, done, retry): pfx = gauxpfx() clist = [] entries = [] meta_gfid = set() datas = set() # basic crawl stats: files and bytes files_pending = {'count': 0, 'purge': 0, 'bytes': 0, 'files': []} try: f = open(change, "r") clist = f.readlines() f.close() except IOError: raise def edct(op, **ed): dct = {} dct['op'] = op for k in ed: if k == 'stat': st = ed[k] dst = dct['stat'] = {} dst['uid'] = st.st_uid dst['gid'] = st.st_gid dst['mode'] = st.st_mode else: dct[k] = ed[k] return dct # entry counts (not purges) def entry_update(): files_pending['count'] += 1 # purge count def purge_update(): files_pending['purge'] += 1 for e in clist: e = e.strip() et = e[self.IDX_START:self.IDX_END] # entry type ec = e[self.IDX_END:].split(' ') # rest of the bits if et == self.TYPE_ENTRY: # extract information according to the type of # the entry operation. create(), mkdir() and mknod() # have mode, uid, gid information in the changelog # itself, so no need to stat()... ty = ec[self.POS_TYPE] # PARGFID/BNAME en = unescape(os.path.join(pfx, ec[self.POS_ENTRY1])) # GFID of the entry gfid = ec[self.POS_GFID] if ty in ['UNLINK', 'RMDIR']: purge_update() entries.append(edct(ty, gfid=gfid, entry=en)) elif ty in ['CREATE', 'MKDIR', 'MKNOD']: entry_update() # stat information present in the changelog itself entries.append(edct(ty, gfid=gfid, entry=en, mode=int(ec[2]),\ uid=int(ec[3]), gid=int(ec[4]))) else: # stat() to get mode and other information go = os.path.join(pfx, gfid) st = lstat(go) if isinstance(st, int): if ty == 'RENAME': # special hack for renames... entries.append(edct('UNLINK', gfid=gfid, entry=en)) else: logging.debug('file %s got purged in the interim' % go) continue if ty == 'LINK': entry_update() entries.append(edct(ty, stat=st, entry=en, gfid=gfid)) elif ty == 'SYMLINK': rl = errno_wrap(os.readlink, [en], [ENOENT]) if isinstance(rl, int): continue entry_update() entries.append(edct(ty, stat=st, entry=en, gfid=gfid, link=rl)) elif ty == 'RENAME': entry_update() e1 = unescape(os.path.join(pfx, ec[self.POS_ENTRY1 - 1])) entries.append(edct(ty, gfid=gfid, entry=e1, entry1=en, stat=st)) else: logging.warn('ignoring %s [op %s]' % (gfid, ty)) elif et == self.TYPE_GFID: datas.add(os.path.join(pfx, ec[0])) elif et == self.TYPE_META: if ec[1] == 'SETATTR': # only setattr's for now... meta_gfid.add(os.path.join(pfx, ec[0])) else: logging.warn('got invalid changelog type: %s' % (et)) logging.debug('entries: %s' % repr(entries)) if not retry: self.update_worker_cumilitive_status(files_pending) # sync namespace if (entries): self.slave.server.entry_ops(entries) # sync metadata if (meta_gfid): meta_entries = [] for go in meta_gfid: st = lstat(go) if isinstance(st, int): logging.debug('file %s got purged in the interim' % go) continue meta_entries.append(edct('META', go=go, stat=st)) if meta_entries: self.slave.server.meta_ops(meta_entries) # sync data if datas: self.a_syncdata(datas) def process(self, changes, done=1): tries = 0 retry = False while True: self.skipped_gfid_list = [] self.current_files_skipped_count = 0 # first, fire all changelog transfers in parallel. entry and metadata # are performed synchronously, therefore in serial. However at the end # of each changelog, data is synchronized with syncdata_async() - which # means it is serial w.r.t entries/metadata of that changelog but # happens in parallel with data of other changelogs. for change in changes: logging.debug('processing change %s' % change) self.process_change(change, done, retry) if not retry: self.turns += 1 # number of changelogs processed in the batch # Now we wait for all the data transfers fired off in the above step # to complete. Note that this is not ideal either. Ideally we want to # trigger the entry/meta-data transfer of the next batch while waiting # for the data transfer of the current batch to finish. # Note that the reason to wait for the data transfer (vs doing it # completely in the background and call the changelog_done() # asynchronously) is because this waiting acts as a "backpressure" # and prevents a spiraling increase of wait stubs from consuming # unbounded memory and resources. # update the slave's time with the timestamp of the _last_ changelog # file time suffix. Since, the changelog prefix time is the time when # the changelog was rolled over, introduce a tolerence of 1 second to # counter the small delta b/w the marker update and gettimeofday(). # NOTE: this is only for changelog mode, not xsync. # @change is the last changelog (therefore max time for this batch) if self.syncdata_wait(): if done: xtl = (int(change.split('.')[-1]) - 1, 0) self.upd_stime(xtl) map(self.master.server.changelog_done, changes) self.update_worker_files_syncd() break # We do not know which changelog transfer failed, retry everything. retry = True tries += 1 if tries == self.MAX_RETRIES: logging.warn('changelogs %s could not be processed - moving on...' % \ ' '.join(map(os.path.basename, changes))) self.update_worker_total_files_skipped(self.current_files_skipped_count) logging.warn('SKIPPED GFID = %s' % ','.join(self.skipped_gfid_list)) self.update_worker_files_syncd() if done: xtl = (int(change.split('.')[-1]) - 1, 0) self.upd_stime(xtl) map(self.master.server.changelog_done, changes) break # it's either entry_ops() or Rsync that failed to do it's # job. Mostly it's entry_ops() [which currently has a problem # of failing to create an entry but failing to return an errno] # Therefore we do not know if it's either Rsync or the freaking # entry_ops() that failed... so we retry the _whole_ changelog # again. # TODO: remove entry retries when it's gets fixed. logging.warn('incomplete sync, retrying changelogs: %s' % \ ' '.join(map(os.path.basename, changes))) time.sleep(0.5) def upd_stime(self, stime, path=None): if not path: path = self.FLAT_DIR_HIERARCHY if not stime == URXTIME: self.sendmark(path, stime) def get_worker_status_file(self): file_name = gconf.local_path+'.status' file_name = file_name.replace("/", "_") worker_status_file = gconf.georep_session_working_dir+file_name return worker_status_file def update_worker_status(self, key, value): default_data = {"remote_node":"N/A", "worker status":"Not Started", "crawl status":"N/A", "files_syncd": 0, "files_remaining": 0, "bytes_remaining": 0, "purges_remaining": 0, "total_files_skipped": 0} worker_status_file = self.get_worker_status_file() try: with open(worker_status_file, 'r+') as f: loaded_data = json.load(f) loaded_data[key] = value os.ftruncate(f.fileno(), 0) os.lseek(f.fileno(), 0, os.SEEK_SET) json.dump(loaded_data, f) f.flush() os.fsync(f.fileno()) except (IOError, OSError, ValueError): logging.info ('Creating new %s' % worker_status_file) try: with open(worker_status_file, 'wb') as f: default_data[key] = value json.dump(default_data, f) f.flush() os.fsync(f.fileno()) except: raise def update_worker_cumilitive_status(self, files_pending): default_data = {"remote_node":"N/A", "worker status":"Not Started", "crawl status":"N/A", "files_syncd": 0, "files_remaining": 0, "bytes_remaining": 0, "purges_remaining": 0, "total_files_skipped": 0} worker_status_file = self.get_worker_status_file() try: with open(worker_status_file, 'r+') as f: loaded_data = json.load(f) loaded_data['files_remaining'] = files_pending['count'] loaded_data['bytes_remaining'] = files_pending['bytes'] loaded_data['purges_remaining'] = files_pending['purge'] os.ftruncate(f.fileno(), 0) os.lseek(f.fileno(), 0, os.SEEK_SET) json.dump(loaded_data, f) f.flush() os.fsync(f.fileno()) except (IOError, OSError, ValueError): logging.info ('Creating new %s' % worker_status_file) try: with open(worker_status_file, 'wb') as f: default_data['files_remaining'] = files_pending['count'] default_data['bytes_remaining'] = files_pending['bytes'] default_data['purges_remaining'] = files_pending['purge'] json.dump(default_data, f) f.flush() os.fsync(f.fileno()) except: raise def update_worker_remote_node (self): node = sys.argv[-1] node = node.split("@")[-1] remote_node_ip = node.split(":")[0] remote_node_vol = node.split(":")[3] remote_node = remote_node_ip + '::' + remote_node_vol self.update_worker_status ('remote_node', remote_node) def update_worker_health (self, state): self.update_worker_status ('worker status', state) def update_worker_crawl_status (self, state): self.update_worker_status ('crawl status', state) def update_worker_files_syncd (self): default_data = {"remote_node":"N/A", "worker status":"Not Started", "crawl status":"N/A", "files_syncd": 0, "files_remaining": 0, "bytes_remaining": 0, "purges_remaining": 0, "total_files_skipped": 0} worker_status_file = self.get_worker_status_file() try: with open(worker_status_file, 'r+') as f: loaded_data = json.load(f) loaded_data['files_syncd'] += loaded_data['files_remaining'] loaded_data['files_remaining'] = 0 loaded_data['bytes_remaining'] = 0 loaded_data['purges_remaining'] = 0 os.ftruncate(f.fileno(), 0) os.lseek(f.fileno(), 0, os.SEEK_SET) json.dump(loaded_data, f) f.flush() os.fsync(f.fileno()) except (IOError, OSError, ValueError): logging.info ('Creating new %s' % worker_status_file) try: with open(worker_status_file, 'wb') as f: json.dump(default_data, f) f.flush() os.fsync(f.fileno()) except: raise def update_worker_files_remaining (self, state): self.update_worker_status ('files_remaining', state) def update_worker_bytes_remaining (self, state): self.update_worker_status ('bytes_remaining', state) def update_worker_purges_remaining (self, state): self.update_worker_status ('purges_remaining', state) def update_worker_total_files_skipped (self, value): default_data = {"remote_node":"N/A", "worker status":"Not Started", "crawl status":"N/A", "files_syncd": 0, "files_remaining": 0, "bytes_remaining": 0, "purges_remaining": 0, "total_files_skipped": 0} worker_status_file = self.get_worker_status_file() try: with open(worker_status_file, 'r+') as f: loaded_data = json.load(f) loaded_data['total_files_skipped'] = value loaded_data['files_remaining'] -= value os.ftruncate(f.fileno(), 0) os.lseek(f.fileno(), 0, os.SEEK_SET) json.dump(loaded_data, f) f.flush() os.fsync(f.fileno()) except (IOError, OSError, ValueError): logging.info ('Creating new %s' % worker_status_file) try: with open(worker_status_file, 'wb') as f: default_data['total_files_skipped'] = value json.dump(default_data, f) f.flush() os.fsync(f.fileno()) except: raise def crawl(self): self.update_worker_crawl_status("Changelog Crawl") changes = [] # get stime (from the brick) and purge changelogs # that are _historical_ to that time. purge_time = self.xtime('.', self.slave) if isinstance(purge_time, int): purge_time = None try: self.master.server.changelog_scan() self.crawls += 1 except OSError: self.fallback_xsync() self.update_worker_crawl_status("Hybrid Crawl") changes = self.master.server.changelog_getchanges() if changes: if purge_time: logging.info("slave's time: %s" % repr(purge_time)) processed = [x for x in changes if int(x.split('.')[-1]) < purge_time[0]] for pr in processed: logging.info('skipping already processed change: %s...' % os.path.basename(pr)) self.master.server.changelog_done(pr) changes.remove(pr) logging.debug('processing changes %s' % repr(changes)) if changes: self.process(changes) def register(self): (workdir, logfile) = self.setup_working_dir() self.sleep_interval = int(gconf.change_interval) # register with the changelog library try: # 9 == log level (DEBUG) # 5 == connection retries self.master.server.changelog_register(gconf.local_path, workdir, logfile, 9, 5) except OSError: self.fallback_xsync() # control should not reach here raise class GMasterXsyncMixin(GMasterChangelogMixin): """ This crawl needs to be xtime based (as of now it's not. this is beacuse we generate CHANGELOG file during each crawl which is then processed by process_change()). For now it's used as a one-shot initial sync mechanism and only syncs directories, regular files, hardlinks and symlinks. """ XSYNC_MAX_ENTRIES = 1<<13 def register(self): self.counter = 0 self.comlist = [] self.stimes = [] self.sleep_interval = 60 self.tempdir = self.setup_working_dir()[0] self.tempdir = os.path.join(self.tempdir, 'xsync') logging.info('xsync temp directory: %s' % self.tempdir) try: os.makedirs(self.tempdir) except OSError: ex = sys.exc_info()[1] if ex.errno == EEXIST and os.path.isdir(self.tempdir): pass else: raise def crawl(self): """ event dispatcher thread this thread dispatches either changelog or synchronizes stime. additionally terminates itself on recieving a 'finale' event """ def Xsyncer(): self.Xcrawl() t = Thread(target=Xsyncer) t.start() logging.info('starting hybrid crawl...') self.update_worker_crawl_status("Hybrid Crawl") while True: try: item = self.comlist.pop(0) if item[0] == 'finale': logging.info('finished hybrid crawl syncing') break elif item[0] == 'xsync': logging.info('processing xsync changelog %s' % (item[1])) self.process([item[1]], 0) elif item[0] == 'stime': logging.debug('setting slave time: %s' % repr(item[1])) self.upd_stime(item[1][1], item[1][0]) else: logging.warn('unknown tuple in comlist (%s)' % repr(item)) except IndexError: time.sleep(1) def write_entry_change(self, prefix, data=[]): self.fh.write("%s %s\n" % (prefix, ' '.join(data))) def open(self): try: self.xsync_change = os.path.join(self.tempdir, 'XSYNC-CHANGELOG.' + str(int(time.time()))) self.fh = open(self.xsync_change, 'w') except IOError: raise def close(self): self.fh.close() def fname(self): return self.xsync_change def put(self, mark, item): self.comlist.append((mark, item)) def sync_xsync(self, last): """schedule a processing of changelog""" self.close() self.put('xsync', self.fname()) self.counter = 0 if not last: time.sleep(1) # make sure changelogs are 1 second apart self.open() def sync_stime(self, stime=None, last=False): """schedule a stime synchronization""" if stime: self.put('stime', stime) if last: self.put('finale', None) def sync_done(self, stime=[], last=False): self.sync_xsync(last) if stime: # Send last as True only for last stime entry for st in stime[:-1]: self.sync_stime(st, False) if stime and stime[-1]: self.sync_stime(stime[-1], last) def is_sticky(self, path, mo): """check for DHTs linkto sticky bit file""" sticky = False if mo & 01000: sticky = self.master.server.linkto_check(path) return sticky def Xcrawl(self, path='.', xtr_root=None): """ generate a CHANGELOG file consumable by process_change. slave's xtime (stime) is _cached_ for comparisons across the filesystem tree, but set after directory synchronization. """ if path == '.': self.open() self.crawls += 1 if not xtr_root: # get the root stime and use it for all comparisons xtr_root = self.xtime('.', self.slave) if isinstance(xtr_root, int): if xtr_root != ENOENT: logging.warn("slave cluster not returning the " \ "correct xtime for root (%d)" % xtr_root) xtr_root = self.minus_infinity xtl = self.xtime(path) if isinstance(xtl, int): logging.warn("master cluster's xtime not found") xtr = self.xtime(path, self.slave) if isinstance(xtr, int): if xtr != ENOENT: logging.warn("slave cluster not returning the " \ "correct xtime for %s (%d)" % (path, xtr)) xtr = self.minus_infinity xtr = max(xtr, xtr_root) if not self.need_sync(path, xtl, xtr): if path == '.': self.sync_done([(path, xtl)], True) return self.xtime_reversion_hook(path, xtl, xtr) logging.debug("entering " + path) dem = self.master.server.entries(path) pargfid = self.master.server.gfid(path) if isinstance(pargfid, int): logging.warn('skipping directory %s' % (path)) for e in dem: bname = e e = os.path.join(path, e) xte = self.xtime(e) if isinstance(xte, int): logging.warn("irregular xtime for %s: %s" % (e, errno.errorcode[xte])) continue if not self.need_sync(e, xte, xtr): continue st = self.master.server.lstat(e) if isinstance(st, int): logging.warn('%s got purged in the interim ...' % e) continue if self.is_sticky(e, st.st_mode): logging.debug('ignoring sticky bit file %s' % e) continue gfid = self.master.server.gfid(e) if isinstance(gfid, int): logging.warn('skipping entry %s..' % e) continue mo = st.st_mode self.counter += 1 if self.counter == self.XSYNC_MAX_ENTRIES: self.sync_done(self.stimes, False) self.stimes = [] if stat.S_ISDIR(mo): self.write_entry_change("E", [gfid, 'MKDIR', str(mo), str(st.st_uid), str(st.st_gid), escape(os.path.join(pargfid, bname))]) self.Xcrawl(e, xtr_root) self.stimes.append((e, xte)) elif stat.S_ISLNK(mo): self.write_entry_change("E", [gfid, 'SYMLINK', escape(os.path.join(pargfid, bname))]) elif stat.S_ISREG(mo): nlink = st.st_nlink nlink -= 1 # fixup backend stat link count # if a file has a hardlink, create a Changelog entry as 'LINK' so the slave # side will decide if to create the new entry, or to create link. if nlink == 1: self.write_entry_change("E", [gfid, 'MKNOD', str(mo), str(st.st_uid), str(st.st_gid), escape(os.path.join(pargfid, bname))]) else: self.write_entry_change("E", [gfid, 'LINK', escape(os.path.join(pargfid, bname))]) self.write_entry_change("D", [gfid]) if path == '.': self.stimes.append((path, xtl)) self.sync_done(self.stimes, True) class BoxClosedErr(Exception): pass class PostBox(list): """synchronized collection for storing things thought of as "requests" """ def __init__(self, *a): list.__init__(self, *a) # too bad Python stdlib does not have read/write locks... # it would suffivce to grab the lock in .append as reader, in .close as writer self.lever = Condition() self.open = True self.done = False def wait(self): """wait on requests to be processed""" self.lever.acquire() if not self.done: self.lever.wait() self.lever.release() return self.result def wakeup(self, data): """wake up requestors with the result""" self.result = data self.lever.acquire() self.done = True self.lever.notifyAll() self.lever.release() def append(self, e): """post a request""" self.lever.acquire() if not self.open: raise BoxClosedErr list.append(self, e) self.lever.release() def close(self): """prohibit the posting of further requests""" self.lever.acquire() self.open = False self.lever.release() class Syncer(object): """a staged queue to relay rsync requests to rsync workers By "staged queue" its meant that when a consumer comes to the queue, it takes _all_ entries, leaving the queue empty. (I don't know if there is an official term for this pattern.) The queue uses a PostBox to accumulate incoming items. When a consumer (rsync worker) comes, a new PostBox is set up and the old one is passed on to the consumer. Instead of the simplistic scheme of having one big lock which synchronizes both the addition of new items and PostBox exchanges, use a separate lock to arbitrate consumers, and rely on PostBox's synchronization mechanisms take care about additions. There is a corner case racy situation, producers vs. consumers, which is not handled by this scheme: namely, when the PostBox exchange occurs in between being passed to the producer for posting and the post placement. But that's what Postbox.close is for: such a posting will find the PostBox closed, in which case the producer can re-try posting against the actual PostBox of the queue. To aid accumlation of items in the PostBoxen before grabbed by an rsync worker, the worker goes to sleep a bit after each completed syncjob. """ def __init__(self, slave, sync_engine, resilient_errnos=[]): """spawn worker threads""" self.slave = slave self.lock = Lock() self.pb = PostBox() self.sync_engine = sync_engine self.errnos_ok = resilient_errnos for i in range(int(gconf.sync_jobs)): t = Thread(target=self.syncjob) t.start() def syncjob(self): """the life of a worker""" while True: pb = None while True: self.lock.acquire() if self.pb: pb, self.pb = self.pb, PostBox() self.lock.release() if pb: break time.sleep(0.5) pb.close() po = self.sync_engine(pb) if po.returncode == 0: ret = (True, 0) elif po.returncode in self.errnos_ok: ret = (False, po.returncode) else: po.errfail() pb.wakeup(ret) def add(self, e): while True: pb = self.pb try: pb.append(e) return pb except BoxClosedErr: pass