#! /usr/bin/env python """WALShipping manager. walmgr INI COMMAND [-n] Master commands: setup Configure PostgreSQL for WAL archiving sync Copies in-progress WALs to slave syncdaemon Daemon mode for regular syncing stop Stop archiving - de-configure PostgreSQL periodic Run periodic command if configured. synch-standby Manage synchronous streaming replication. Slave commands: boot Stop playback, accept queries pause Just wait, don't play WAL-s continue Start playing WAL-s again createslave Create streaming replication slave Common commands: init Create configuration files, set up ssh keys. listbackups List backups. backup Copies all master data to slave. Will keep backup history if slave keep_backups is set. EXPERIMENTAL: If run on slave, creates backup from in-recovery slave data. restore [set][dst] Stop postmaster, move new data dir to right location and start postmaster in playback mode. Optionally use [set] as the backupset name to restore. In this case the directory is copied, not moved. cleanup Cleanup any walmgr files after stop. Internal commands: xarchive archive one WAL file (master) xrestore restore one WAL file (slave) xlock Obtain backup lock (master) xrelease Release backup lock (master) xrotate Rotate backup sets, expire and archive oldest if necessary. xpurgewals Remove WAL files not needed for backup (slave) xpartialsync Append data to WAL file (slave) """ import os, sys, re, signal, time, traceback import errno, glob, ConfigParser, shutil, subprocess import pkgloader pkgloader.require('skytools', '3.0') import skytools DEFAULT_PG_VERSION = "8.3" XLOG_SEGMENT_SIZE = 16 * 1024**2 def usage(err): if err > 0: print >>sys.stderr, __doc__ else: print __doc__ sys.exit(err) def die(err,msg): print >> sys.stderr, msg sys.exit(err) def yesno(prompt): """Ask a Yes/No question""" while True: sys.stderr.write(prompt + " ") sys.stderr.flush() answer = sys.stdin.readline() if not answer: return False answer = answer.strip().lower() if answer in ('yes','y'): return True if answer in ('no','n'): return False sys.stderr.write("Please answer yes or no.\n") def copy_conf(src, dst): """Copy config file or symlink. Does _not_ overwrite target. """ if os.path.isdir(dst): dst = os.path.join(dst, os.path.basename(src)) if os.path.exists(dst): return False if os.path.islink(src): linkdst = os.readlink(src) os.symlink(linkdst, dst) elif os.path.isfile(src): shutil.copy2(src, dst) else: raise Exception("Unsupported file type: %s" % src) return True class WalChunk: """Represents a chunk of WAL used in record based shipping""" def __init__(self,filename,pos=0,bytes=0): self.filename = filename self.pos = pos self.bytes = bytes self.start_time = time.time() self.sync_count = 0 self.sync_time = 0.0 def __str__(self): return "%s @ %d +%d" % (self.filename, self.pos, self.bytes) class PgControlData: """Contents of pg_controldata""" def __init__(self, bin_dir, data_dir, findRestartPoint): """Collect last checkpoint information from pg_controldata output""" self.xlogid = None self.xrecoff = None self.timeline = None self.wal_size = None self.wal_name = None self.cluster_state = None self.is_shutdown = False self.pg_version = 0 self.is_valid = False try: pg_controldata = os.path.join(bin_dir, "pg_controldata") pipe = subprocess.Popen([ pg_controldata, data_dir ], stdout=subprocess.PIPE) except OSError: # don't complain if we cannot execute it return matches = 0 for line in pipe.stdout.readlines(): if findRestartPoint: m = re.match("^Latest checkpoint's REDO location:\s+([0-9A-F]+)/([0-9A-F]+)", line) else: m = re.match("^Latest checkpoint location:\s+([0-9A-F]+)/([0-9A-F]+)", line) if m: matches += 1 self.xlogid = int(m.group(1), 16) self.xrecoff = int(m.group(2), 16) m = re.match("^Latest checkpoint's TimeLineID:\s+(\d+)", line) if m: matches += 1 self.timeline = int(m.group(1)) m = re.match("^Bytes per WAL segment:\s+(\d+)", line) if m: matches += 1 self.wal_size = int(m.group(1)) m = re.match("^pg_control version number:\s+(\d+)", line) if m: matches += 1 self.pg_version = int(m.group(1)) m = re.match("^Database cluster state:\s+(.*$)", line) if m: matches += 1 self.cluster_state = m.group(1) self.is_shutdown = (self.cluster_state == "shut down") # ran successfully and we got our needed matches if pipe.wait() == 0 and matches == 5: self.wal_name = "%08X%08X%08X" % \ (self.timeline, self.xlogid, self.xrecoff / self.wal_size) self.is_valid = True class BackupLabel: """Backup label contents""" def __init__(self, backupdir): """Initialize a new BackupLabel from existing file""" filename = os.path.join(backupdir, "backup_label") self.first_wal = None self.start_time = None self.label_string = None if not os.path.exists(filename): return for line in open(filename): m = re.match('^START WAL LOCATION: [^\s]+ \(file ([0-9A-Z]+)\)$', line) if m: self.first_wal = m.group(1) m = re.match('^START TIME:\s(.*)$', line) if m: self.start_time = m.group(1) m = re.match('^LABEL: (.*)$', line) if m: self.label_string = m.group(1) class Pgpass: """Manipulate pgpass contents""" def __init__(self, passfile): """Load .pgpass contents""" self.passfile = os.path.expanduser(passfile) self.contents = [] if os.path.isfile(self.passfile): self.contents = open(self.passfile).readlines() def split_pgpass_line(selg, pgline): """Parses pgpass line, returns dict""" try: (host, port, db, user, pwd) = pgline.rstrip('\n\r').split(":") return {'host': host, 'port': port, 'db': db, 'user': user, 'pwd': pwd} except ValueError: return None def ensure_user(self, host, port, user, pwd): """Ensure that line for streaming replication exists in .pgpass""" self.remove_user(host, port, user) self.contents.insert(0, '%s:%s:%s:%s:%s\n' % (host, port, 'replication', user, pwd)) def remove_user(self, host, port, user): """Remove all matching lines from .pgpass""" new_contents = [] found = False for l in self.contents: p = self.split_pgpass_line(l) if p and p['host'] == host and p['port'] == port and p['user'] == user and p['db'] == 'replication': found = True continue new_contents.append(l) self.contents = new_contents return found def write(self): """Write contents back to file""" f = open(self.passfile,'w') os.chmod(self.passfile, 0600) f.writelines(self.contents) f.close() class PostgresConfiguration: """Postgres configuration manipulation""" def __init__(self, walmgr, cf_file): """load the configuration from master_config""" self.walmgr = walmgr self.log = walmgr.log self.cf_file = cf_file self.cf_buf = open(self.cf_file, "r").read() def archive_mode(self): """Return value for specified parameter""" # see if explicitly set m = re.search("^\s*archive_mode\s*=\s*'?([a-zA-Z01]+)'?\s*#?.*$", self.cf_buf, re.M | re.I) if m: return m.group(1) # also, it could be commented out as initdb leaves it # it'd probably be best to check from the database ... m = re.search("^#archive_mode\s*=.*$", self.cf_buf, re.M | re.I) if m: return "off" return None def synchronous_standby_names(self): """Return value for specified parameter""" # see if explicitly set m = re.search("^\s*synchronous_standby_names\s*=\s*'([^']*)'\s*#?.*$", self.cf_buf, re.M | re.I) if m: return m.group(1) # also, it could be commented out as initdb leaves it # it'd probably be best to check from the database ... m = re.search("^#synchronous_standby_names\s*=.*$", self.cf_buf, re.M | re.I) if m: return '' return None def wal_level(self): """Return value for specified parameter""" # see if explicitly set m = re.search("^\s*wal_level\s*=\s*'?([a-z_]+)'?\s*#?.*$", self.cf_buf, re.M | re.I) if m: return m.group(1) # also, it could be commented out as initdb leaves it # it'd probably be best to check from the database ... m = re.search("^#wal_level\s*=.*$", self.cf_buf, re.M | re.I) if m: return "minimal" return None def modify(self, cf_params): """Change the configuration parameters supplied in cf_params""" for (param, value) in cf_params.iteritems(): r_active = re.compile("^\s*%s\s*=\s*([^\s#]*).*$" % param, re.M) r_disabled = re.compile("^\s*#\s*%s\s*=.*$" % param, re.M) cf_full = "%s = '%s'" % (param, value) m = r_active.search(self.cf_buf) if m: old_val = m.group(1) self.log.debug("found parameter %s with value %r", param, old_val) self.cf_buf = "%s%s%s" % (self.cf_buf[:m.start()], cf_full, self.cf_buf[m.end():]) else: m = r_disabled.search(self.cf_buf) if m: self.log.debug("found disabled parameter %s", param) self.cf_buf = "%s\n%s%s" % (self.cf_buf[:m.end()], cf_full, self.cf_buf[m.end():]) else: # not found, append to the end self.log.debug("found no value") self.cf_buf = "%s\n%s\n\n" % (self.cf_buf, cf_full) def write(self): """Write the configuration back to file""" cf_old = self.cf_file + ".old" cf_new = self.cf_file + ".new" if self.walmgr.not_really: cf_new = "/tmp/postgresql.conf.new" open(cf_new, "w").write(self.cf_buf) self.log.info("Showing diff") os.system("diff -u %s %s" % (self.cf_file, cf_new)) self.log.info("Done diff") os.remove(cf_new) return # polite method does not work, as usually not enough perms for it open(self.cf_file, "w").write(self.cf_buf) def set_synchronous_standby_names(self,param_value): """Helper function to change synchronous_standby_names and signal postmaster""" self.log.info("Changing synchronous_standby_names from %r to %r", self.synchronous_standby_names(), param_value) cf_params = dict() cf_params['synchronous_standby_names'] = param_value self.modify(cf_params) self.write() data_dir=self.walmgr.cf.getfile("master_data") self.log.info("Sending SIGHUP to postmaster") self.walmgr.signal_postmaster(data_dir, signal.SIGHUP) class WalMgr(skytools.DBScript): def init_optparse(self, parser=None): p = skytools.DBScript.init_optparse(self, parser) p.set_usage(__doc__.strip()) p.add_option("-n", "--not-really", action="store_true", dest="not_really", help = "Don't actually do anything.", default=False) p.add_option("", "--init-master", action="store_true", dest="init_master", help = "Initialize master walmgr.", default=False) p.add_option("", "--slave", action="store", type="string", dest="slave", help = "Slave host name.", default="") p.add_option("", "--pgdata", action="store", type="string", dest="pgdata", help = "Postgres data directory.", default="") p.add_option("", "--config-dir", action="store", type="string", dest="config_dir", help = "Configuration file location for --init-X commands.", default="~/conf") p.add_option("", "--ssh-keygen", action="store_true", dest="ssh_keygen", help = "master: generate SSH key pair if needed", default=False) p.add_option("", "--ssh-add-key", action="store", dest="ssh_add_key", help = "slave: add public key to authorized_hosts", default=False) p.add_option("", "--ssh-remove-key", action="store", dest="ssh_remove_key", help = "slave: remove master key from authorized_hosts", default=False) p.add_option("", "--add-password", action="store", dest="add_password", help = "slave: add password from file to .pgpass. Additional fields will be extracted from primary-conninfo", default=False) p.add_option("", "--remove-password", action="store_true", dest="remove_password", help = "slave: remove previously added line from .pgpass", default=False) p.add_option("", "--primary-conninfo", action="store", dest="primary_conninfo", default=None, help = "slave: connect string for streaming replication master") p.add_option("", "--init-slave", action="store_true", dest="init_slave", help = "Initialize slave walmgr.", default=False) p.add_option("", "--synch-standby", action="store", dest="synchronous_standby_names", default=None, help = "master: do the same thing as command synch-standby, but do not use INI file") return p def load_config(self): """override config load to allow operation without a config file""" if len(self.args) < 1: # no config file, generate default # guess the job name from cmdline options if self.options.init_master: job_name = 'wal-master' elif self.options.init_slave: job_name = 'wal-slave' else: job_name = 'walmgr' # common config settings opt_dict = { 'use_skylog': '0', 'job_name': job_name, } # master configuration settings master_opt_dict = { 'master_db': 'dbname=template1', 'completed_wals': '%%(slave)s:%%(walmgr_data)s/logs.complete', 'partial_wals': '%%(slave)s:%%(walmgr_data)s/logs.partial', 'full_backup': '%%(slave)s:%%(walmgr_data)s/data.master', 'config_backup': '%%(slave)s:%%(walmgr_data)s/config.backup', 'keep_symlinks': '1', 'compression': '0', 'walmgr_data': '~/walshipping', 'logfile': '~/log/%(job_name)s.log', 'pidfile': '~/pid/%(job_name)s.pid', 'use_skylog': '1', } # slave configuration settings slave_opt_dict = { 'completed_wals': '%%(walmgr_data)s/logs.complete', 'partial_wals': '%%(walmgr_data)s/logs.partial', 'full_backup': '%%(walmgr_data)s/data.master', 'config_backup': '%%(walmgr_data)s/config.backup', 'walmgr_data': '~/walshipping', 'logfile': '~/log/%(job_name)s.log', 'pidfile': '~/pid/%(job_name)s.pid', 'use_skylog': '1', } if self.options.init_master: opt_dict.update(master_opt_dict) elif self.options.init_slave: opt_dict.update(slave_opt_dict) self.is_master = self.options.init_master config = skytools.Config(self.service_name, None, user_defs = opt_dict, override = self.cf_override) else: # default to regular config handling config = skytools.DBScript.load_config(self) self.is_master = config.has_option('master_data') # create the log and pid files if needed for cfk in [ "logfile", "pidfile" ]: if config.has_option(cfk): dirname = os.path.dirname(config.getfile(cfk)) if not os.path.isdir(dirname): os.makedirs(dirname) return config def __init__(self, args): skytools.DBScript.__init__(self, 'walmgr', args) self.set_single_loop(1) self.not_really = self.options.not_really self.pg_backup = 0 self.walchunk = None self.script = os.path.abspath(sys.argv[0]) if len(self.args) > 1: # normal operations, cfgfile and command self.cfgfile = self.args[0] self.cmd = self.args[1] self.args = self.args[2:] else: if self.options.init_master: self.cmd = 'init_master' elif self.options.init_slave: self.cmd = 'init_slave' elif self.options.synchronous_standby_names is not None: self.cmd = "synch-standby" else: usage(1) self.cfgfile = None self.args = [] if self.cmd not in ('sync', 'syncdaemon'): # don't let pidfile interfere with normal operations, but # disallow concurrent syncing self.pidfile = None cmdtab = { 'init_master': self.walmgr_init_master, 'init_slave': self.walmgr_init_slave, 'setup': self.walmgr_setup, 'stop': self.master_stop, 'backup': self.run_backup, 'listbackups': self.list_backups, 'restore': self.restore_database, 'periodic': self.master_periodic, 'sync': self.master_sync, 'syncdaemon': self.master_syncdaemon, 'pause': self.slave_pause, 'continue': self.slave_continue, 'boot': self.slave_boot, 'createslave': self.slave_createslave, 'cleanup': self.walmgr_cleanup, 'synch-standby': self.master_synch_standby, 'xlock': self.slave_lock_backups_exit, 'xrelease': self.slave_resume_backups, 'xrotate': self.slave_rotate_backups, 'xpurgewals': self.slave_purge_wals, 'xarchive': self.master_xarchive, 'xrestore': self.xrestore, 'xpartialsync': self.slave_append_partial, } if not cmdtab.has_key(self.cmd): usage(1) self.work = cmdtab[self.cmd] def assert_is_master(self, master_required): if self.is_master != master_required: self.log.warning("Action not available on current node.") sys.exit(1) def pg_start_backup(self, code): q = "select pg_start_backup('FullBackup')" self.log.info("Execute SQL: %s; [%s]", q, self.cf.get("master_db")) if self.not_really: self.pg_backup = 1 return db = self.get_database("master_db") db.cursor().execute(q) db.commit() self.close_database("master_db") self.pg_backup = 1 def pg_stop_backup(self): if not self.pg_backup: return q = "select pg_stop_backup()" self.log.info("Execute SQL: %s; [%s]", q, self.cf.get("master_db")) if self.not_really: return db = self.get_database("master_db") db.cursor().execute(q) db.commit() self.close_database("master_db") def signal_postmaster(self, data_dir, sgn): pidfile = os.path.join(data_dir, "postmaster.pid") if not os.path.isfile(pidfile): self.log.info("postmaster is not running (pidfile not present)") return False buf = open(pidfile, "r").readline() pid = int(buf.strip()) self.log.debug("Signal %d to process %d", sgn, pid) if sgn == 0 or not self.not_really: try: os.kill(pid, sgn) except OSError, ex: if ex.errno == errno.ESRCH: self.log.info("postmaster is not running (no process at indicated PID)") return False else: raise return True def exec_rsync(self,args,die_on_error=False): cmdline = [ "rsync", "-a", "--quiet" ] if self.cf.getint("compression", 0) > 0: cmdline.append("-z") cmdline += args cmd = "' '".join(cmdline) self.log.debug("Execute rsync cmd: %r", cmd) if self.not_really: return 0 res = os.spawnvp(os.P_WAIT, cmdline[0], cmdline) if res == 24: self.log.info("Some files vanished, but thats OK") res = 0 elif res != 0: self.log.fatal("rsync exec failed, res=%d", res) if die_on_error: sys.exit(1) return res def exec_big_rsync(self, args): if self.exec_rsync(args) != 0: self.log.fatal("Big rsync failed") self.pg_stop_backup() sys.exit(1) def rsync_log_directory(self, source_dir, dst_loc): """rsync a pg_log or pg_xlog directory - ignore most of the directory contents, and pay attention to symlinks """ keep_symlinks = self.cf.getint("keep_symlinks", 1) subdir = os.path.basename(source_dir) if not os.path.exists(source_dir): self.log.info("%s does not exist, skipping", subdir) return cmdline = [] # if this is a symlink, copy it's target first if os.path.islink(source_dir) and keep_symlinks: self.log.info('%s is a symlink, attempting to create link target', subdir) # expand the link link = os.readlink(source_dir) if not link.startswith("/"): link = os.path.join(os.getcwd(), link) link_target = os.path.join(link, "") slave_host = self.cf.get("slave") remote_target = "%s:%s" % (slave_host, link_target) options = [ "--include=archive_status", "--exclude=/**" ] if self.exec_rsync( options + [ link_target, remote_target ]): # unable to create the link target, just convert the links # to directories in PGDATA self.log.warning('Unable to create symlinked %s on target, copying', subdir) cmdline += [ "--copy-unsafe-links" ] cmdline += [ "--exclude=pg_log/*" ] cmdline += [ "--exclude=pg_xlog/archive_status/*" ] cmdline += [ "--include=pg_xlog/archive_status" ] cmdline += [ "--exclude=pg_xlog/*" ] self.exec_big_rsync(cmdline + [ source_dir, dst_loc ]) def exec_cmd(self, cmdline, allow_error=False): cmd = "' '".join(cmdline) self.log.debug("Execute cmd: %r", cmd) if self.not_really: return process = subprocess.Popen(cmdline,stdout=subprocess.PIPE) output = process.communicate() res = process.returncode if res != 0 and not allow_error: self.log.fatal("exec failed, res=%d (%r)", res, cmdline) sys.exit(1) return (res,output[0]) def exec_system(self, cmdline): self.log.debug("Execute cmd: %r", cmdline) if self.not_really: return 0 return os.WEXITSTATUS(os.system(cmdline)) def chdir(self, loc): self.log.debug("chdir: %r", loc) if self.not_really: return try: os.chdir(loc) except os.error: self.log.fatal("CHDir failed") self.pg_stop_backup() sys.exit(1) def parse_conninfo(self,conninfo): """Extract host,user and port from primary-conninfo""" m = re.match("^.*\s*host\s*=\s*([^\s]+)\s*.*$", conninfo) if m: host = m.group(1) else: host = 'localhost' m = re.match("^.*\s*user\s*=\s*([^\s]+)\s*.*$", conninfo) if m: user = m.group(1) else: user = os.environ['USER'] m = re.match("^.*\s*port\s*=\s*([^\s]+)\s*.*$", conninfo) if m: port = m.group(1) else: port = '5432' m = re.match("^.*\s*sslmode\s*=\s*([^\s]+)\s*.*$", conninfo) if m: sslmode = m.group(1) else: sslmode = None return host,port,user,sslmode def get_last_complete(self): """Get the name of last xarchived segment.""" data_dir = self.cf.getfile("master_data") fn = os.path.join(data_dir, ".walshipping.last") try: last = open(fn, "r").read().strip() return last except: self.log.info("Failed to read %s", fn) return None def set_last_complete(self, last): """Set the name of last xarchived segment.""" data_dir = self.cf.getfile("master_data") fn = os.path.join(data_dir, ".walshipping.last") fn_tmp = fn + ".new" try: f = open(fn_tmp, "w") f.write(last) f.close() os.rename(fn_tmp, fn) except: self.log.fatal("Cannot write to %s", fn) def master_stop(self): """Deconfigure archiving, attempt to stop syncdaemon""" data_dir = self.cf.getfile("master_data") restart_cmd = self.cf.getfile("master_restart_cmd", "") self.assert_is_master(True) self.log.info("Disabling WAL archiving") self.master_configure_archiving(False, restart_cmd) # if we have a restart command, then use it, otherwise signal if restart_cmd: self.log.info("Restarting postmaster") self.exec_system(restart_cmd) else: self.log.info("Sending SIGHUP to postmaster") self.signal_postmaster(data_dir, signal.SIGHUP) # stop any running syncdaemons pidfile = self.cf.getfile("pidfile", "") if os.path.exists(pidfile): self.log.info('Pidfile %s exists, attempting to stop syncdaemon.', pidfile) self.exec_cmd([self.script, self.cfgfile, "syncdaemon", "-s"]) self.log.info("Done") def walmgr_cleanup(self): """ Clean up any walmgr files on slave and master. """ if not self.is_master: # remove walshipping directory dirname = self.cf.getfile("walmgr_data") self.log.info("Removing walmgr data directory: %s", dirname) if not self.not_really: shutil.rmtree(dirname) # remove backup 8.3/main.X directories backups = glob.glob(self.cf.getfile("slave_data") + ".[0-9]") for dirname in backups: self.log.info("Removing backup main directory: %s", dirname) if not self.not_really: shutil.rmtree(dirname) ssh_dir = os.path.expanduser("~/.ssh") auth_file = os.path.join(ssh_dir, "authorized_keys") if self.options.ssh_remove_key and os.path.isfile(auth_file): # remove master key from ssh authorized keys, simple substring match should do keys = "" for key in open(auth_file): if not self.options.ssh_remove_key in key: keys += key else: self.log.info("Removed %s from %s", self.options.ssh_remove_key, auth_file) self.log.info("Overwriting authorized_keys file") if not self.not_really: tmpfile = auth_file + ".walmgr.tmp" f = open(tmpfile, "w") f.write(keys) f.close() os.rename(tmpfile, auth_file) else: self.log.debug("authorized_keys:\n%s", keys) # remove password from .pgpass primary_conninfo = self.cf.get("primary_conninfo", "") if self.options.remove_password and primary_conninfo and not self.not_really: pg = Pgpass('~/.pgpass') host, port, user, _ = self.parse_conninfo(primary_conninfo) if pg.remove_user(host, port, user): self.log.info("Removing line from .pgpass") pg.write() # get rid of the configuration file, both master and slave self.log.info("Removing config file: %s", self.cfgfile) if not self.not_really: os.remove(self.cfgfile) def master_synch_standby(self): """Manage synchronous_standby_names parameter""" if self.options.synchronous_standby_names is None: if len(self.args) < 1: die(1, "usage: synch-standby SYNCHRONOUS_STANDBY_NAMES") names = self.args[0] self.assert_is_master(True) else: # as synchronous_standby_names is available since 9.1 # we can override DEFAULT_PG_VERSION global DEFAULT_PG_VERSION DEFAULT_PG_VERSION = "9.1" self.guess_locations() self.override_cf_option('master_config', self.postgres_conf) self.override_cf_option('master_data', self.pgdata) self.override_cf_option('master_db', 'dbname=template1') names = self.options.synchronous_standby_names cf = PostgresConfiguration(self, self.cf.getfile("master_config")) # list of slaves db = self.get_database("master_db") cur = db.cursor() cur.execute("select application_name from pg_stat_replication") slave_names = [slave[0] for slave in cur.fetchall()] self.close_database("master_db") if names.strip() == "": if not self.not_really: cf.set_synchronous_standby_names("") return if names.strip() == "*": if slave_names: if not self.not_really: cf.set_synchronous_standby_names(names) return else: die(1,"At least one slave must be available when enabling synchronous mode") # ensure that at least one slave is available from new parameter value slave_found = None for new_synch_slave in re.findall(r"[^\s,]+",names): if new_synch_slave not in slave_names: self.log.warning("No slave available with name %s", new_synch_slave) else: slave_found = True break if not slave_found: die(1,"At least one slave must be available from new list when enabling synchronous mode") elif not self.not_really: cf.set_synchronous_standby_names(names) def master_configure_archiving(self, enable_archiving, can_restart): """Turn the archiving on or off""" cf = PostgresConfiguration(self, self.cf.getfile("master_config")) curr_archive_mode = cf.archive_mode() curr_wal_level = cf.wal_level() need_restart_warning = False if enable_archiving: # enable archiving cf_file = os.path.abspath(self.cf.filename) xarchive = "%s %s %s" % (self.script, cf_file, "xarchive %p %f") cf_params = { "archive_command": xarchive } if curr_archive_mode is not None: # archive mode specified in config, turn it on self.log.debug("found 'archive_mode' in config -- enabling it") cf_params["archive_mode"] = "on" if curr_archive_mode.lower() not in ('1', 'on', 'true') and not can_restart: need_restart_warning = True if curr_wal_level is not None and curr_wal_level != 'hot_standby': # wal level set in config, enable it wal_level = self.cf.getboolean("hot_standby", False) and "hot_standby" or "archive" self.log.debug("found 'wal_level' in config -- setting to '%s'", wal_level) cf_params["wal_level"] = wal_level if curr_wal_level not in ("archive", "hot_standby") and not can_restart: need_restart_warning = True if need_restart_warning: self.log.warning("database must be restarted to enable archiving") else: # disable archiving cf_params = dict() if can_restart: # can restart, disable archive mode and set wal_level to minimal cf_params['archive_command'] = '' if curr_archive_mode: cf_params['archive_mode'] = 'off' if curr_wal_level: cf_params['wal_level'] = 'minimal' cf_params['max_wal_senders'] = '0' else: # not possible to change archive_mode or wal_level (requires restart), # so we just set the archive_command to /bin/true to avoid WAL pileup. self.log.info("database must be restarted to disable archiving") self.log.info("Setting archive_command to /bin/true to avoid WAL pileup") cf_params['archive_command'] = '/bin/true' # disable synchronous standbys, note that presently we don't care # if there is more than one standby. if cf.synchronous_standby_names(): cf_params['synchronous_standby_names'] = '' self.log.debug("modifying configuration: %s", cf_params) cf.modify(cf_params) cf.write() def slave_deconfigure_archiving(self, cf_file): """Disable archiving for the slave. This is done by setting archive_command to a trivial command, so that archiving can be re-enabled without restarting postgres. Needed when slave is booted with postgresql.conf from master.""" self.log.debug("Disable archiving in %s", cf_file) cf = PostgresConfiguration(self, cf_file) cf_params = { "archive_command": "/bin/true" } self.log.debug("modifying configuration: %s", cf_params) cf.modify(cf_params) cf.write() def remote_mkdir(self, remdir): tmp = remdir.split(":", 1) if len(tmp) < 1: raise Exception("cannot find pathname") elif len(tmp) < 2: self.exec_cmd([ "mkdir", "-p", tmp[0] ]) else: host, path = tmp cmdline = ["ssh", "-nT", host, "mkdir", "-p", path] self.exec_cmd(cmdline) def remote_walmgr(self, command, stdin_disabled = True, allow_error=False): """Pass a command to slave WalManager""" sshopt = "-T" if stdin_disabled: sshopt += "n" slave_config = self.cf.getfile("slave_config") if not slave_config: raise Exception("slave_config not specified in %s" % self.cfgfile) slave_host = self.cf.get("slave") cmdline = [ "ssh", sshopt, "-o", "Batchmode=yes", "-o", "StrictHostKeyChecking=no", slave_host, self.script, slave_config, command ] if self.not_really: cmdline += ["--not-really"] return self.exec_cmd(cmdline, allow_error) def remote_xlock(self): """ Obtain the backup lock to ensure that several backups are not run in parralel. If someone already has the lock we check if this is from a previous (failed) backup. If that is the case, the lock is released and re-obtained. """ xlock_cmd = "xlock %d" % os.getpid() ret = self.remote_walmgr(xlock_cmd, allow_error=True) if ret[0] != 0: # lock failed. try: lock_pid = int(ret[1]) except ValueError: self.log.fatal("Invalid pid in backup lock") sys.exit(1) try: os.kill(lock_pid, 0) self.log.fatal("Backup lock already taken") sys.exit(1) except OSError: # no process, carry on self.remote_walmgr("xrelease") self.remote_walmgr(xlock_cmd) def override_cf_option(self, option, value): """Set a configuration option, if it is unset""" if not self.cf.has_option(option): self.cf.cf.set('walmgr', option, value) def guess_locations(self): """ Guess PGDATA and configuration file locations. """ # find the PGDATA directory if self.options.pgdata: self.pgdata = self.options.pgdata elif 'PGDATA' in os.environ: self.pgdata = os.environ['PGDATA'] else: self.pgdata = "~/%s/main" % DEFAULT_PG_VERSION self.pgdata = os.path.expanduser(self.pgdata) if not os.path.isdir(self.pgdata): die(1, 'Postgres data directory not found: %s' % self.pgdata) postmaster_opts = os.path.join(self.pgdata, 'postmaster.opts') self.postgres_bin = "" self.postgres_conf = "" if os.path.exists(postmaster_opts): # postmaster_opts exists, attempt to guess various paths # get unquoted args from opts file cmdline = [ k.strip('"') for k in open(postmaster_opts).read().split() ] if cmdline: self.postgres_bin = os.path.dirname(cmdline[0]) cmdline = cmdline[1:] for item in cmdline: if item.startswith("config_file="): self.postgres_conf = item.split("=")[1] if not self.postgres_conf: self.postgres_conf = os.path.join(self.pgdata, "postgresql.conf") else: # no postmaster opts, resort to guessing self.log.info('postmaster.opts not found, resorting to guesses') # use the directory of first postgres executable from path for path in os.environ['PATH'].split(os.pathsep): path = os.path.expanduser(path) exe = os.path.join(path, "postgres") if os.path.isfile(exe): self.postgres_bin = path break else: # not found, use Debian default self.postgres_bin = "/usr/lib/postgresql/%s/bin" % DEFAULT_PG_VERSION if os.path.exists(self.pgdata): self.postgres_conf = os.path.join(self.pgdata, "postgresql.conf") else: self.postgres_conf = "/etc/postgresql/%s/main/postgresql.conf" % DEFAULT_PG_VERSION if not os.path.isdir(self.postgres_bin): die(1, "Postgres bin directory not found.") if not os.path.isfile(self.postgres_conf): if not self.options.init_slave: # postgres_conf is required for master die(1, "Configuration file not found: %s" % self.postgres_conf) # Attempt to guess the init.d script name script_suffixes = [ "9.1", "9.0", "8.4", "8.3", "8.2", "8.1", "8.0" ] self.initd_script = "/etc/init.d/postgresql" if not os.path.exists(self.initd_script): for suffix in script_suffixes: try_file = "%s-%s" % (self.initd_script, suffix) if os.path.exists(try_file): self.initd_script = try_file break else: self.initd_script = "%s -m fast -D %s" % \ (os.path.join(self.postgres_bin, "pg_ctl"), os.path.abspath(self.pgdata)) def write_walmgr_config(self, config_data): cf_name = os.path.join(os.path.expanduser(self.options.config_dir), self.cf.get("job_name") + ".ini") dirname = os.path.dirname(cf_name) if not os.path.isdir(dirname): self.log.info('Creating config directory: %s', dirname) os.makedirs(dirname) self.log.info('Writing configuration file: %s', cf_name) self.log.debug("config data:\n%s", config_data) if not self.not_really: cf = open(cf_name, "w") cf.write(config_data) cf.close() def walmgr_init_master(self): """ Initialize configuration file, generate SSH key pair if needed. """ self.guess_locations() if not self.options.slave: die(1, 'Specify slave host name with "--slave" option.') self.override_cf_option('master_bin', self.postgres_bin) self.override_cf_option('master_config', self.postgres_conf) self.override_cf_option('master_data', self.pgdata) # assume that slave config is in the same location as master's # can override with --set slave_config= slave_walmgr_dir = os.path.abspath(os.path.expanduser(self.options.config_dir)) self.override_cf_option('slave_config', os.path.join(slave_walmgr_dir, "wal-slave.ini")) master_config = """[walmgr] job_name = %(job_name)s logfile = %(logfile)s pidfile = %(pidfile)s use_skylog = 1 master_db = %(master_db)s master_data = %(master_data)s master_config = %(master_config)s master_bin = %(master_bin)s slave = %(slave)s slave_config = %(slave_config)s walmgr_data = %(walmgr_data)s completed_wals = %(completed_wals)s partial_wals = %(partial_wals)s full_backup = %(full_backup)s config_backup = %(config_backup)s keep_symlinks = %(keep_symlinks)s compression = %(compression)s """ try: opt_dict = dict([(k, self.cf.get(k)) for k in self.cf.options()]) opt_dict['slave'] = self.options.slave master_config = master_config % opt_dict except KeyError, e: die(1, 'Required setting missing: %s' % e) self.write_walmgr_config(master_config) # generate SSH key pair if requested if self.options.ssh_keygen: keyfile = os.path.expanduser("~/.ssh/id_dsa") if os.path.isfile(keyfile): self.log.info("SSH key %s already exists, skipping", keyfile) else: self.log.info("Generating ssh key: %s", keyfile) cmdline = ["ssh-keygen", "-t", "dsa", "-N", "", "-q", "-f", keyfile ] self.log.debug(' '.join(cmdline)) if not self.not_really: subprocess.call(cmdline) key = open(keyfile + ".pub").read().strip() self.log.info("public key: %s", key) def walmgr_init_slave(self): """ Initialize configuration file, move SSH pubkey into place. """ self.guess_locations() self.override_cf_option('slave_bin', self.postgres_bin) self.override_cf_option('slave_data', self.pgdata) self.override_cf_option('slave_config_dir', os.path.dirname(self.postgres_conf)) if self.initd_script: self.override_cf_option('slave_start_cmd', "%s start" % self.initd_script) self.override_cf_option('slave_stop_cmd', "%s stop" % self.initd_script) slave_config = """[walmgr] job_name = %(job_name)s logfile = %(logfile)s use_skylog = %(use_skylog)s slave_data = %(slave_data)s slave_bin = %(slave_bin)s slave_stop_cmd = %(slave_stop_cmd)s slave_start_cmd = %(slave_start_cmd)s slave_config_dir = %(slave_config_dir)s walmgr_data = %(walmgr_data)s completed_wals = %(completed_wals)s partial_wals = %(partial_wals)s full_backup = %(full_backup)s config_backup = %(config_backup)s """ if self.options.primary_conninfo: self.override_cf_option('primary_conninfo', self.options.primary_conninfo) slave_config += """ primary_conninfo = %(primary_conninfo)s """ try: opt_dict = dict([(k, self.cf.get(k)) for k in self.cf.options()]) slave_config = slave_config % opt_dict except KeyError, e: die(1, 'Required setting missing: %s' % e) self.write_walmgr_config(slave_config) if self.options.ssh_add_key: # add the named public key to authorized hosts ssh_dir = os.path.expanduser("~/.ssh") auth_file = os.path.join(ssh_dir, "authorized_keys") if not os.path.isdir(ssh_dir): self.log.info("Creating directory: %s", ssh_dir) if not self.not_really: os.mkdir(ssh_dir) self.log.debug("Reading public key from %s", self.options.ssh_add_key) master_pubkey = open(self.options.ssh_add_key).read() key_present = False if os.path.isfile(auth_file): for key in open(auth_file): if key == master_pubkey: self.log.info("Key already present in %s, skipping", auth_file) key_present = True if not key_present: self.log.info("Adding %s to %s", self.options.ssh_add_key, auth_file) if not self.not_really: af = open(auth_file, "a") af.write(master_pubkey) af.close() if self.options.add_password and self.options.primary_conninfo: # add password to pgpass self.log.debug("Reading password from file %s", self.options.add_password) pwd = open(self.options.add_password).readline().rstrip('\n\r') pg = Pgpass('~/.pgpass') host, port, user, _ = self.parse_conninfo(self.options.primary_conninfo) pg.ensure_user(host, port, user, pwd) pg.write() self.log.info("Added password from %s to .pgpass", self.options.add_password) def walmgr_setup(self): if self.is_master: self.log.info("Configuring WAL archiving") data_dir = self.cf.getfile("master_data") restart_cmd = self.cf.getfile("master_restart_cmd", "") self.master_configure_archiving(True, restart_cmd) # if we have a restart command, then use it, otherwise signal if restart_cmd: self.log.info("Restarting postmaster") self.exec_system(restart_cmd) else: self.log.info("Sending SIGHUP to postmaster") self.signal_postmaster(data_dir, signal.SIGHUP) # ask slave to init self.remote_walmgr("setup") self.log.info("Done") else: # create slave directory structure def mkdirs(dir): if not os.path.exists(dir): self.log.debug("Creating directory %s", dir) if not self.not_really: os.makedirs(dir) mkdirs(self.cf.getfile("completed_wals")) mkdirs(self.cf.getfile("partial_wals")) mkdirs(self.cf.getfile("full_backup")) cf_backup = self.cf.getfile("config_backup", "") if cf_backup: mkdirs(cf_backup) def master_periodic(self): """ Run periodic command on master node. We keep time using .walshipping.last file, so this has to be run before set_last_complete() """ self.assert_is_master(True) try: command_interval = self.cf.getint("command_interval", 0) periodic_command = self.cf.get("periodic_command", "") if periodic_command: check_file = os.path.join(self.cf.getfile("master_data"), ".walshipping.periodic") elapsed = 0 if os.path.isfile(check_file): elapsed = time.time() - os.stat(check_file).st_mtime self.log.info("Running periodic command: %s", periodic_command) if not elapsed or elapsed > command_interval: if not self.not_really: rc = os.WEXITSTATUS(self.exec_system(periodic_command)) if rc != 0: self.log.error("Periodic command exited with status %d", rc) # dont update timestamp - try again next time else: open(check_file,"w").write("1") else: self.log.debug("%d seconds elapsed, not enough to run periodic.", elapsed) except Exception, det: self.log.error("Failed to run periodic command: %s", det) def master_backup(self): """ Copy master data directory to slave. 1. Obtain backup lock on slave. 2. Rotate backups on slave 3. Perform backup as usual 4. Purge unneeded WAL-s from slave 5. Release backup lock """ self.remote_xlock() errors = False try: self.pg_start_backup("FullBackup") self.remote_walmgr("xrotate") data_dir = self.cf.getfile("master_data") dst_loc = self.cf.getfile("full_backup") if dst_loc[-1] != "/": dst_loc += "/" master_spc_dir = os.path.join(data_dir, "pg_tblspc") slave_spc_dir = dst_loc + "tmpspc" # copy data self.chdir(data_dir) cmdline = [ "--delete", "--exclude", ".*", "--exclude", "*.pid", "--exclude", "*.opts", "--exclude", "*.conf", "--exclude", "pg_xlog", "--exclude", "pg_tblspc", "--exclude", "pg_log", "--exclude", "base/pgsql_tmp", "--copy-unsafe-links", ".", dst_loc] self.exec_big_rsync(cmdline) # copy tblspc first, to test if os.path.isdir(master_spc_dir): self.log.info("Checking tablespaces") list = os.listdir(master_spc_dir) if len(list) > 0: self.remote_mkdir(slave_spc_dir) for tblspc in list: if tblspc[0] == ".": continue tfn = os.path.join(master_spc_dir, tblspc) if not os.path.islink(tfn): self.log.info("Suspicious pg_tblspc entry: %s", tblspc) continue spc_path = os.path.realpath(tfn) self.log.info("Got tablespace %s: %s", tblspc, spc_path) dstfn = slave_spc_dir + "/" + tblspc try: os.chdir(spc_path) except Exception, det: self.log.warning("Broken link: %s", det) continue cmdline = [ "--delete", "--exclude", ".*", "--copy-unsafe-links", ".", dstfn] self.exec_big_rsync(cmdline) # copy the pg_log and pg_xlog directories, these may be # symlinked to nonstandard location, so pay attention self.rsync_log_directory(os.path.join(data_dir, "pg_log"), dst_loc) self.rsync_log_directory(os.path.join(data_dir, "pg_xlog"), dst_loc) # copy config files conf_dst_loc = self.cf.getfile("config_backup", "") if conf_dst_loc: master_conf_dir = os.path.dirname(self.cf.getfile("master_config")) self.log.info("Backup conf files from %s", master_conf_dir) self.chdir(master_conf_dir) cmdline = [ "--include", "*.conf", "--exclude", "*", ".", conf_dst_loc] self.exec_big_rsync(cmdline) self.remote_walmgr("xpurgewals") except Exception, e: self.log.error(e) errors = True finally: try: self.pg_stop_backup() except: pass try: self.remote_walmgr("xrelease") except: pass if not errors: self.log.info("Full backup successful") else: self.log.error("Full backup failed.") def slave_backup(self): """ Create backup on slave host. 1. Obtain backup lock 2. Pause WAL apply 3. Wait for WAL apply to complete (look at PROGRESS file) 4. Rotate old backups 5. Copy data directory to data.master 6. Create backup label and history file. 7. Purge unneeded WAL-s 8. Resume WAL apply 9. Release backup lock """ self.assert_is_master(False) if self.slave_lock_backups() != 0: self.log.error("Cannot obtain backup lock.") sys.exit(1) try: self.slave_pause(waitcomplete=1) try: self.slave_rotate_backups() src = self.cf.getfile("slave_data") dst = self.cf.getfile("full_backup") start_time = time.localtime() cmdline = ["cp", "-a", src, dst ] self.log.info("Executing %s", " ".join(cmdline)) if not self.not_really: self.exec_cmd(cmdline) stop_time = time.localtime() # Obtain the last restart point information ctl = PgControlData(self.cf.getfile("slave_bin", ""), dst, True) # TODO: The newly created backup directory probably still contains # backup_label.old and recovery.conf files. Remove these. if not ctl.is_valid: self.log.warning("Unable to determine last restart point, backup_label not created.") else: # Write backup label and history file backup_label = \ """START WAL LOCATION: %(xlogid)X/%(xrecoff)X (file %(wal_name)s) CHECKPOINT LOCATION: %(xlogid)X/%(xrecoff)X START TIME: %(start_time)s LABEL: SlaveBackup" """ backup_history = \ """START WAL LOCATION: %(xlogid)X/%(xrecoff)X (file %(wal_name)s) STOP WAL LOCATION: %(xlogid)X/%(xrecoff)X (file %(wal_name)s) CHECKPOINT LOCATION: %(xlogid)X/%(xrecoff)X START TIME: %(start_time)s LABEL: SlaveBackup" STOP TIME: %(stop_time)s """ label_params = { "xlogid": ctl.xlogid, "xrecoff": ctl.xrecoff, "wal_name": ctl.wal_name, "start_time": time.strftime("%Y-%m-%d %H:%M:%S %Z", start_time), "stop_time": time.strftime("%Y-%m-%d %H:%M:%S %Z", stop_time), } # Write the label filename = os.path.join(dst, "backup_label") if self.not_really: self.log.info("Writing backup label to %s", filename) else: lf = open(filename, "w") lf.write(backup_label % label_params) lf.close() # Now the history histfile = "%s.%08X.backup" % (ctl.wal_name, ctl.xrecoff % ctl.wal_size) completed_wals = self.cf.getfile("completed_wals") filename = os.path.join(completed_wals, histfile) if os.path.exists(filename): self.log.warning("%s: already exists, refusing to overwrite.", filename) else: if self.not_really: self.log.info("Writing backup history to %s", filename) else: lf = open(filename, "w") lf.write(backup_history % label_params) lf.close() self.slave_purge_wals() finally: self.slave_continue() finally: self.slave_resume_backups() def run_backup(self): if self.is_master: self.master_backup() else: self.slave_backup() def master_xarchive(self): """Copy a complete WAL segment to slave.""" self.assert_is_master(True) if len(self.args) < 2: die(1, "usage: xarchive srcpath srcname") srcpath = self.args[0] srcname = self.args[1] start_time = time.time() self.log.debug("%s: start copy", srcname) self.master_periodic() dst_loc = self.cf.getfile("completed_wals") if dst_loc[-1] != "/": dst_loc += "/" # copy data self.exec_rsync([ srcpath, dst_loc ], True) # sync the buffers to disk - this is should reduce the chance # of WAL file corruption in case the slave crashes. slave = self.cf.get("slave") cmdline = ["ssh", "-nT", slave, "sync" ] self.exec_cmd(cmdline) # slave has the file now, set markers self.set_last_complete(srcname) self.log.debug("%s: done", srcname) end_time = time.time() self.stat_add('count', 1) self.stat_add('duration', end_time - start_time) self.send_stats() def slave_append_partial(self): """ Read 'bytes' worth of data from stdin, append to the partial log file starting from 'offset'. On error it is assumed that master restarts from zero. The resulting file is always padded to XLOG_SEGMENT_SIZE bytes to simplify recovery. """ def fail(message): self.log.error("Slave: %s: %s", filename, message) sys.exit(1) self.assert_is_master(False) if len(self.args) < 3: die(1, "usage: xpartialsync ") filename = self.args[0] offset = int(self.args[1]) bytes = int(self.args[2]) data = sys.stdin.read(bytes) if len(data) != bytes: fail("not enough data, expected %d, got %d" % (bytes, len(data))) chunk = WalChunk(filename, offset, bytes) self.log.debug("Slave: adding to %s", chunk) name = os.path.join(self.cf.getfile("partial_wals"), filename) if self.not_really: self.log.info("Adding to partial: %s", name) return try: xlog = open(name, (offset == 0) and "w+" or "r+") except: fail("unable to open partial WAL: %s" % name) xlog.seek(offset) xlog.write(data) # padd the file to 16MB boundary, use sparse files padsize = XLOG_SEGMENT_SIZE - xlog.tell() if padsize > 0: xlog.seek(XLOG_SEGMENT_SIZE-1) xlog.write('\0') xlog.close() def master_send_partial(self, xlog_dir, chunk, daemon_mode): """ Send the partial log chunk to slave. Use SSH with input redirection for the copy, consider other options if the overhead becomes visible. """ try: xlog = open(os.path.join(xlog_dir, chunk.filename)) except IOError, det: self.log.warning("Cannot access file %s", chunk.filename) return xlog.seek(chunk.pos) # Fork the sync process childpid = os.fork() syncstart = time.time() if childpid == 0: os.dup2(xlog.fileno(), sys.stdin.fileno()) try: self.remote_walmgr("xpartialsync %s %d %d" % (chunk.filename, chunk.pos, chunk.bytes), False) except: os._exit(1) os._exit(0) chunk.sync_time += (time.time() - syncstart) status = os.waitpid(childpid, 0) rc = os.WEXITSTATUS(status[1]) if rc == 0: log = daemon_mode and self.log.debug or self.log.info log("sent to slave: %s" % chunk) chunk.pos += chunk.bytes chunk.sync_count += 1 else: # Start from zero after an error chunk.pos = 0 self.log.error("xpartialsync exited with status %d, restarting from zero.", rc) time.sleep(5) def master_syncdaemon(self): self.assert_is_master(True) self.set_single_loop(0) self.master_sync(True) def master_sync(self, daemon_mode=False): """ Copy partial WAL segments to slave. On 8.2 set use_xlog_functions=1 in config file - this enables record based walshipping. On 8.0 the only option is to sync files. If daemon_mode is specified it never switches from record based shipping to file based shipping. """ self.assert_is_master(True) use_xlog_functions = self.cf.getint("use_xlog_functions", False) data_dir = self.cf.getfile("master_data") xlog_dir = os.path.join(data_dir, "pg_xlog") master_bin = self.cf.getfile("master_bin", "") dst_loc = os.path.join(self.cf.getfile("partial_wals"), "") db = None if use_xlog_functions: try: db = self.get_database("master_db", autocommit=1) except: self.log.warning("Database unavailable, record based log shipping not possible.") if daemon_mode: return if db: cur = db.cursor() cur.execute("select file_name, file_offset from pg_xlogfile_name_offset(pg_current_xlog_location())") (file_name, file_offs) = cur.fetchone() if not self.walchunk or self.walchunk.filename != file_name: # Switched to new WAL segment. Don't bother to copy the last bits - it # will be obsoleted by the archive_command. if self.walchunk and self.walchunk.sync_count > 0: self.log.info("Switched in %d seconds, %f sec in %d interim syncs, avg %f", time.time() - self.walchunk.start_time, self.walchunk.sync_time, self.walchunk.sync_count, self.walchunk.sync_time / self.walchunk.sync_count) self.walchunk = WalChunk(file_name, 0, file_offs) else: self.walchunk.bytes = file_offs - self.walchunk.pos if self.walchunk.bytes > 0: self.master_send_partial(xlog_dir, self.walchunk, daemon_mode) else: files = os.listdir(xlog_dir) files.sort() last = self.get_last_complete() if last: self.log.info("%s: last complete", last) else: self.log.info("last complete not found, copying all") # obtain the last checkpoint wal name, this can be used for # limiting the amount of WAL files to copy if the database # has been cleanly shut down ctl = PgControlData(master_bin, data_dir, False) checkpoint_wal = None if ctl.is_valid: if not ctl.is_shutdown: # cannot rely on the checkpoint wal, should use some other method self.log.info("Database state is not 'shut down', copying all") else: # ok, the database is shut down, we can use last checkpoint wal checkpoint_wal = ctl.wal_name self.log.info("last checkpoint wal: %s", checkpoint_wal) else: self.log.info("Unable to obtain control file information, copying all") for fn in files: # check if interesting file if len(fn) < 10: continue if fn[0] < "0" or fn[0] > '9': continue if fn.find(".") > 0: continue # check if too old if last: dot = last.find(".") if dot > 0: xlast = last[:dot] if fn < xlast: continue else: if fn <= last: continue # check if too new if checkpoint_wal and fn > checkpoint_wal: continue # got interesting WAL xlog = os.path.join(xlog_dir, fn) # copy data self.log.info('Syncing %s', xlog) if self.exec_rsync([xlog, dst_loc], not daemon_mode) != 0: self.log.error('Cannot sync %s', xlog) break else: self.log.info("Partial copy done") def xrestore(self): if len(self.args) < 2: die(1, "usage: xrestore srcname dstpath [last restartpoint wal]") srcname = self.args[0] dstpath = self.args[1] lstname = None if len(self.args) > 2: lstname = self.args[2] if self.is_master: self.master_xrestore(srcname, dstpath) else: self.slave_xrestore_unsafe(srcname, dstpath, os.getppid(), lstname) def slave_xrestore(self, srcname, dstpath): loop = 1 ppid = os.getppid() while loop: try: self.slave_xrestore_unsafe(srcname, dstpath, ppid) loop = 0 except SystemExit, d: sys.exit(1) except Exception, d: exc, msg, tb = sys.exc_info() self.log.fatal("xrestore %s crashed: %s: '%s' (%s: %r)", srcname, exc, str(msg).rstrip(), tb, traceback.format_tb(tb)) del tb time.sleep(10) self.log.info("Re-exec: %r", sys.argv) os.execv(sys.argv[0], sys.argv) def master_xrestore(self, srcname, dstpath): """ Restore the xlog file from slave. """ paths = [ self.cf.getfile("completed_wals"), self.cf.getfile("partial_wals") ] self.log.info("Restore %s to %s", srcname, dstpath) for src in paths: self.log.debug("Looking in %s", src) srcfile = os.path.join(src, srcname) if self.exec_rsync([srcfile, dstpath]) == 0: return self.log.warning("Could not restore file %s", srcname) def is_parent_alive(self, parent_pid): if os.getppid() != parent_pid or parent_pid <= 1: return False return True def slave_xrestore_unsafe(self, srcname, dstpath, parent_pid, lstname = None): srcdir = self.cf.getfile("completed_wals") partdir = self.cf.getfile("partial_wals") pausefile = os.path.join(srcdir, "PAUSE") stopfile = os.path.join(srcdir, "STOP") prgrfile = os.path.join(srcdir, "PROGRESS") prxlogfile = os.path.join(srcdir,"PG_RECEIVEXLOG") srcfile = os.path.join(srcdir, srcname) partfile = os.path.join(partdir, srcname) # if we are using streaming replication, exit immediately # if the srcfile is not here yet primary_conninfo = self.cf.get("primary_conninfo", "") if primary_conninfo and not os.path.isfile(srcfile): self.log.info("%s: not found (ignored)", srcname) # remove PG_RECEIVEXLOG file if it's present if os.path.isfile(prxlogfile) and not srcname.endswith('.history'): os.remove(prxlogfile) sys.exit(1) # assume that postgres has processed the WAL file and is # asking for next - hence work not in progress anymore if os.path.isfile(prgrfile): os.remove(prgrfile) # loop until srcfile or stopfile appears while 1: if os.path.isfile(pausefile): self.log.info("pause requested, sleeping") time.sleep(20) continue if os.path.isfile(srcfile): self.log.info("%s: Found", srcname) break # ignore .history files unused, ext = os.path.splitext(srcname) if ext == ".history": self.log.info("%s: not found, ignoring", srcname) sys.exit(1) # if stopping, include also partial wals if os.path.isfile(stopfile): if os.path.isfile(partfile): self.log.info("%s: found partial", srcname) srcfile = partfile break else: self.log.info("%s: not found, stopping", srcname) sys.exit(1) # nothing to do, just in case check if parent is alive if not self.is_parent_alive(parent_pid): self.log.warning("Parent dead, quitting") sys.exit(1) # nothing to do, sleep self.log.debug("%s: not found, sleeping", srcname) time.sleep(1) # got one, copy it cmdline = ["cp", srcfile, dstpath] self.exec_cmd(cmdline) if self.cf.getint("keep_backups", 0) == 0: # cleanup only if we don't keep backup history, keep the files needed # to roll forward from last restart point. If the restart point is not # handed to us (i.e 8.3 or later), then calculate it ourselves. # Note that historic WAL files are removed during backup rotation if lstname == None: lstname = self.last_restart_point(srcname) self.log.debug("calculated restart point: %s", lstname) else: self.log.debug("using supplied restart point: %s", lstname) self.log.debug("%s: copy done, cleanup", srcname) self.slave_cleanup(lstname) # create a PROGRESS file to notify that postgres is processing the WAL open(prgrfile, "w").write("1") # it would be nice to have apply time too self.stat_add('count', 1) self.send_stats() def restore_database(self, restore_config=True): """Restore the database from backup If setname is specified, the contents of that backup set directory are restored instead of "full_backup". Also copy is used instead of rename to restore the directory (unless a pg_xlog directory has been specified). Restore to altdst if specified. Complain if it exists. """ setname = len(self.args) > 0 and self.args[0] or None altdst = len(self.args) > 1 and self.args[1] or None if not self.is_master: data_dir = self.cf.getfile("slave_data") stop_cmd = self.cf.getfile("slave_stop_cmd", "") start_cmd = self.cf.getfile("slave_start_cmd") pidfile = os.path.join(data_dir, "postmaster.pid") else: if not setname or not altdst: die(1, "Source and target directories must be specified if running on master node.") data_dir = altdst stop_cmd = None pidfile = None if setname: full_dir = os.path.join(self.cf.getfile("walmgr_data"), setname) else: full_dir = self.cf.getfile("full_backup") # stop postmaster if ordered if stop_cmd and os.path.isfile(pidfile): self.log.info("Stopping postmaster: %s", stop_cmd) self.exec_system(stop_cmd) time.sleep(3) # is it dead? if pidfile and os.path.isfile(pidfile): self.log.info("Pidfile exists, checking if process is running.") if self.signal_postmaster(data_dir, 0): self.log.fatal("Postmaster still running. Cannot continue.") sys.exit(1) # find name for data backup i = 0 while 1: bak = "%s.%d" % (data_dir.rstrip("/"), i) if not os.path.isdir(bak): break i += 1 if self.is_master: print >>sys.stderr, "About to restore to directory %s. The postgres cluster should be shut down." % data_dir if not yesno("Is postgres shut down on %s ?" % data_dir): die(1, "Shut it down and try again.") if not self.is_master: createbackup = True elif os.path.isdir(data_dir): createbackup = yesno("Create backup of %s?" % data_dir) else: # nothing to back up createbackup = False # see if we have to make a backup of the data directory backup_datadir = self.cf.getboolean('backup_datadir', True) if os.path.isdir(data_dir) and not backup_datadir: self.log.warning('backup_datadir is disabled, deleting old data dir') shutil.rmtree(data_dir) if not setname and os.path.isdir(data_dir) and backup_datadir: # compatibility mode - restore without a set name and data directory exists self.log.info("Data directory already exists, moving it out of the way.") createbackup = True # move old data away if createbackup and os.path.isdir(data_dir): self.log.info("Move %s to %s", data_dir, bak) if not self.not_really: os.rename(data_dir, bak) # move new data, copy if setname specified self.log.info("%s %s to %s", setname and "Copy" or "Move", full_dir, data_dir) if self.cf.getfile('slave_pg_xlog', ''): link_xlog_dir = True exclude_pg_xlog = '--exclude=pg_xlog' else: link_xlog_dir = False exclude_pg_xlog = '' if not self.not_really: if not setname and not link_xlog_dir: os.rename(full_dir, data_dir) else: rsync_args=["--delete", "--no-relative", "--exclude=pg_xlog/*"] if exclude_pg_xlog: rsync_args.append(exclude_pg_xlog) rsync_args += [os.path.join(full_dir, ""), data_dir] self.exec_rsync(rsync_args, True) if link_xlog_dir: os.symlink(self.cf.getfile('slave_pg_xlog'), "%s/pg_xlog" % data_dir) if (self.is_master and createbackup and os.path.isdir(bak)): # restore original xlog files to data_dir/pg_xlog # symlinked directories are dereferenced self.exec_cmd(["cp", "-rL", "%s/pg_xlog/" % full_dir, "%s/pg_xlog" % data_dir ]) else: # create an archive_status directory xlog_dir = os.path.join(data_dir, "pg_xlog") archive_path = os.path.join(xlog_dir, "archive_status") if not os.path.exists(archive_path): os.mkdir(archive_path, 0700) else: data_dir = full_dir # copy configuration files to rotated backup directory if createbackup and os.path.isdir(bak): for cf in ('postgresql.conf', 'pg_hba.conf', 'pg_ident.conf'): cfsrc = os.path.join(bak, cf) cfdst = os.path.join(data_dir, cf) if os.path.exists(cfdst): self.log.info("Already exists: %s", cfdst) elif os.path.exists(cfsrc): self.log.debug("Copy %s to %s", cfsrc, cfdst) if not self.not_really: copy_conf(cfsrc, cfdst) # re-link tablespaces spc_dir = os.path.join(data_dir, "pg_tblspc") tmp_dir = os.path.join(data_dir, "tmpspc") if not os.path.isdir(spc_dir): # 8.3 requires its existence os.mkdir(spc_dir) if os.path.isdir(tmp_dir): self.log.info("Linking tablespaces to temporary location") # don't look into spc_dir, thus allowing # user to move them before. re-link only those # that are still in tmp_dir list = os.listdir(tmp_dir) list.sort() for d in list: if d[0] == ".": continue link_loc = os.path.abspath(os.path.join(spc_dir, d)) link_dst = os.path.abspath(os.path.join(tmp_dir, d)) self.log.info("Linking tablespace %s to %s", d, link_dst) if not self.not_really: if os.path.islink(link_loc): os.remove(link_loc) os.symlink(link_dst, link_loc) # write recovery.conf rconf = os.path.join(data_dir, "recovery.conf") cf_file = os.path.abspath(self.cf.filename) # determine if we can use %r in restore_command ctl = PgControlData(self.cf.getfile("slave_bin", ""), data_dir, True) if ctl.pg_version > 830: self.log.debug('pg_version is %s, adding %%r to restore command', ctl.pg_version) restore_command = 'xrestore %f "%p" %r' else: if not ctl.is_valid: self.log.warning('unable to run pg_controldata, assuming pre 8.3 environment') else: self.log.debug('using pg_controldata to determine restart points') restore_command = 'xrestore %f "%p"' conf = "restore_command = '%s %s %s'\n" % (self.script, cf_file, restore_command) # do we have streaming replication (hot standby) primary_conninfo = self.cf.get("primary_conninfo", "") if primary_conninfo: conf += "standby_mode = 'on'\n" conf += "trigger_file = '%s'\n" % os.path.join(self.cf.getfile("completed_wals"), "STOP") conf += "primary_conninfo = '%s'\n" % primary_conninfo conf += "archive_cleanup_command = '%s %s %%r'\n" % \ (os.path.join(self.cf.getfile("slave_bin"), "pg_archivecleanup"), self.cf.getfile("completed_wals")) self.log.info("Write %s", rconf) if self.not_really: print conf else: f = open(rconf, "w") f.write(conf) f.close() # remove stopfile on slave if not self.is_master: stopfile = os.path.join(self.cf.getfile("completed_wals"), "STOP") if os.path.isfile(stopfile): self.log.info("Removing stopfile: %s", stopfile) if not self.not_really: os.remove(stopfile) # attempt to restore configuration. Note that we cannot # postpone this to boot time, as the configuration is needed # to start postmaster. if restore_config: self.slave_restore_config() # run database in recovery mode self.log.info("Starting postmaster: %s", start_cmd) self.exec_system(start_cmd) else: self.log.info("Data files restored, recovery.conf created.") self.log.info("postgresql.conf and additional WAL files may need to be restored manually.") def slave_restore_config(self): """Restore the configuration files if target directory specified.""" self.assert_is_master(False) cf_source_dir = self.cf.getfile("config_backup", "") cf_target_dir = self.cf.getfile("slave_config_dir", "") if not cf_source_dir: self.log.info("Configuration backup location not specified.") return if not cf_target_dir: self.log.info("Configuration directory not specified, config files not restored.") return if not os.path.exists(cf_target_dir): self.log.warning("Configuration directory does not exist: %s", cf_target_dir) return self.log.info("Restoring configuration files") for cf in ('postgresql.conf', 'pg_hba.conf', 'pg_ident.conf'): cfsrc = os.path.join(cf_source_dir, cf) cfdst = os.path.join(cf_target_dir, cf) if not os.path.isfile(cfsrc): self.log.warning("Missing configuration file backup: %s", cf) continue self.log.debug("Copy %s to %s", cfsrc, cfdst) if not self.not_really: copy_conf(cfsrc, cfdst) if cf == 'postgresql.conf': self.slave_deconfigure_archiving(cfdst) def slave_boot(self): self.assert_is_master(False) srcdir = self.cf.getfile("completed_wals") datadir = self.cf.getfile("slave_data") stopfile = os.path.join(srcdir, "STOP") if self.not_really: self.log.info("Writing STOP file: %s", stopfile) else: open(stopfile, "w").write("1") self.log.info("Stopping recovery mode") def slave_createslave(self): self.assert_is_master(False) errors = False xlog_dir = self.cf.getfile("completed_wals") full_dir = self.cf.getfile("full_backup") prxloglock = os.path.join(xlog_dir,"PG_RECEIVEXLOG") pg_receivexlog = os.path.join(self.cf.getfile("slave_bin"), "pg_receivexlog") pg_basebackup = os.path.join(self.cf.getfile("slave_bin"), "pg_basebackup") # check if pg_receivexlog is available if not os.access(pg_receivexlog, os.X_OK): die(1, "pg_receivexlog not available") # check if pg_receivexlog is already running if os.path.isfile(prxloglock): pidstring = open(prxloglock,"r").read() try: pid =int(pidstring) try: os.kill(pid, 0) except OSError, e: if e.errno == errno.EPERM: self.log.fatal("Found pg_receivexlog lock file %s, pid %d in use", prxloglock, pid) sys.exit(1) elif e.errno == errno.ESRCH: self.log.info("Ignoring stale pg_receivexlog lock file") if not self.not_really: os.remove(prxloglock) else: self.log.fatal("pg_receivexlog is already running in %s, pid %d", xlog_dir, pid) sys.exit(1) except ValueError: self.log.fatal("pg_receivexlog lock file %s does not contain a pid: %s", prxloglock, pidstring) sys.exit(1) # create directories self.walmgr_setup() # ensure that backup destination is 0700 if not self.not_really: os.chmod(full_dir,0700) self.args = [str(os.getpid())] if self.slave_lock_backups() != 0: self.log.fatal("Cannot obtain backup lock.") sys.exit(1) # get host and user from primary_conninfo primary_conninfo = self.cf.get("primary_conninfo", "") if not primary_conninfo: die(1, "primary_conninfo missing") host, port, user, sslmode = self.parse_conninfo(primary_conninfo) # change sslmode for pg_receivexlog and pg_basebackup envssl=None if sslmode: envssl={"PGSSLMODE": sslmode} try: # determine postgres version, we cannot use pg_control version number since # 9.0 and 9.1 are using the same number in controlfile pg_ver = "" try: cmdline = [os.path.join(self.cf.getfile("slave_bin"), "postgres"),'-V'] process = subprocess.Popen(cmdline, stdout=subprocess.PIPE) output = process.communicate() pg_ver = output[0].split()[2] self.log.debug("PostgreSQL version: %s" % pg_ver) except: pass # create pg_receivexlog process cmdline = [pg_receivexlog,'-D', xlog_dir, '-h', host, '-U', user, '-p', port, '-w'] self.log.info("Starting pg_receivexlog") if not self.not_really: p_rxlog = subprocess.Popen(cmdline,env=envssl) # create pg_receivexlog lock file open(prxloglock, "w").write(str(p_rxlog.pid)) # leave error checking for pg_basebackup # if pg_basebackup command fails then pg_receivexlog is not working either # start backup self.log.info("Starting pg_basebackup") cmdline = [pg_basebackup, '-D', full_dir, '-h', host, '-U', user, '-p', port, '-w'] if not self.not_really: p_basebackup = subprocess.Popen(cmdline, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=envssl) output = p_basebackup.communicate() res = p_basebackup.returncode if res != 0: raise Exception("exec failed, res=%d (%r), %s" % (res, cmdline, output[1])) # fix skipped ssl symlinks (only relevant for 9.1) if pg_ver.startswith('9.1.'): for line in output[1].splitlines(): m = re.match('WARNING: skipping special file "\./server\.(crt|key)"', line) if m: # create symlinks if m.group(1) == 'crt': os.symlink('/etc/ssl/certs/ssl-cert-snakeoil.pem', os.path.join(full_dir,'server.crt')) elif m.group(1) == 'key': os.symlink('/etc/ssl/private/ssl-cert-snakeoil.key', os.path.join(full_dir,'server.key')) self.log.info("pg_basebackup finished successfully") # restore self.args = [] self.restore_database(False) # wait for recovery while os.path.isfile(prxloglock) and not self.not_really: time.sleep(5) except Exception, e: self.log.error(e) errors = True finally: # stop pg_receivexlog try: if not self.not_really: os.kill(p_rxlog.pid, signal.SIGTERM) self.log.info("pg_receivelog stopped") except Exception, det: self.log.warning("Failed to stop pg_receivexlog: %s", det) # cleanup if os.path.isfile(prxloglock): os.remove(prxloglock) if not self.not_really: for f in os.listdir(xlog_dir): if f.endswith('.partial'): self.log.debug("Removing %s", os.path.join(xlog_dir,f)) os.remove(os.path.join(xlog_dir,f)) if not self.not_really and os.path.isdir(full_dir): shutil.rmtree(full_dir) self.slave_resume_backups() if not errors: self.log.info("Streaming replication standby created successfully") else: self.log.error("Failed to create streaming replication standby") sys.exit(1) def slave_pause(self, waitcomplete=0): """Pause the WAL apply, wait until last file applied if needed""" self.assert_is_master(False) srcdir = self.cf.getfile("completed_wals") pausefile = os.path.join(srcdir, "PAUSE") if not self.not_really: open(pausefile, "w").write("1") else: self.log.info("Writing PAUSE file: %s", pausefile) self.log.info("Pausing recovery mode") # wait for log apply to complete if waitcomplete: prgrfile = os.path.join(srcdir, "PROGRESS") stopfile = os.path.join(srcdir, "STOP") if os.path.isfile(stopfile): self.log.warning("Recovery is stopped, backup is invalid if the database is open.") return while os.path.isfile(prgrfile): self.log.info("Waiting for WAL processing to complete ...") if self.not_really: return time.sleep(1) def slave_continue(self): self.assert_is_master(False) srcdir = self.cf.getfile("completed_wals") pausefile = os.path.join(srcdir, "PAUSE") if os.path.isfile(pausefile): if not self.not_really: os.remove(pausefile) self.log.info("Continuing with recovery") else: self.log.info("Recovery not paused?") def slave_lock_backups_exit(self): """Exit with lock acquired status""" self.assert_is_master(False) sys.exit(self.slave_lock_backups()) def slave_lock_backups(self): """Create lock file to deny other concurrent backups""" srcdir = self.cf.getfile("completed_wals") lockfile = os.path.join(srcdir, "BACKUPLOCK") if os.path.isfile(lockfile): self.log.warning("Somebody already has the backup lock.") lockfilehandle = open(lockfile,"r") pidstring = lockfilehandle.read(); try: pid = int(pidstring) print("%d" % pid) except ValueError: self.log.error("lock file does not contain a pid: %s", pidstring) return 1 if not self.not_really: f = open(lockfile, "w") if len(self.args) > 0: f.write(self.args[0]) f.close() self.log.info("Backup lock obtained.") return 0 def slave_resume_backups(self): """Remove backup lock file, allow other backups to run""" self.assert_is_master(False) srcdir = self.cf.getfile("completed_wals") lockfile = os.path.join(srcdir, "BACKUPLOCK") if os.path.isfile(lockfile): if not self.not_really: os.remove(lockfile) self.log.info("Backup lock released.") else: self.log.info("Backup lock not held.") def list_backups(self): """List available backups. On master this just calls slave listbackups via SSH""" if self.is_master: self.remote_walmgr("listbackups") else: backups = self.get_backup_list(self.cf.getfile("full_backup")) if backups: print "\nList of backups:\n" print "%-15s %-24s %-11s %-24s" % \ ("Backup set", "Timestamp", "Label", "First WAL") print "%s %s %s %s" % (15*'-', 24*'-', 11*'-',24*'-') for backup in backups: lbl = BackupLabel(backup) print "%-15s %-24.24s %-11.11s %-24s" % \ (os.path.basename(backup), lbl.start_time, lbl.label_string, lbl.first_wal) print else: print "\nNo backups found.\n" def get_first_walname(self,backupdir): """Returns the name of the first needed WAL segment for backupset""" label = BackupLabel(backupdir) if not label.first_wal: self.log.error("WAL name not found at %s", backupdir) return None return label.first_wal def last_restart_point(self,walname): """ Determine the WAL file of the last restart point (recovery checkpoint). For 8.3 this could be done with %r parameter to restore_command, for 8.2 we need to consult control file (parse pg_controldata output). """ slave_data = self.cf.getfile("slave_data") backup_label = os.path.join(slave_data, "backup_label") if os.path.exists(backup_label): # Label file still exists, use it for determining the restart point lbl = BackupLabel(slave_data) self.log.debug("Last restart point from backup_label: %s", lbl.first_wal) return lbl.first_wal ctl = PgControlData(self.cf.getfile("slave_bin", ""), ".", True) if not ctl.is_valid: # No restart point information, use the given wal name self.log.warning("Unable to determine last restart point") return walname self.log.debug("Last restart point: %s", ctl.wal_name) return ctl.wal_name def order_backupdirs(self,prefix,a,b): """Compare the backup directory indexes numerically""" prefix = os.path.abspath(prefix) a_indx = a[len(prefix)+1:] if not a_indx: a_indx = -1 b_indx = b[len(prefix)+1:] if not b_indx: b_indx = -1 return cmp(int(a_indx), int(b_indx)) def get_backup_list(self,dst_loc): """Return the list of backup directories""" dirlist = glob.glob(os.path.abspath(dst_loc) + "*") dirlist.sort(lambda x,y: self.order_backupdirs(dst_loc, x,y)) backupdirs = [ dir for dir in dirlist if os.path.isdir(dir) and os.path.isfile(os.path.join(dir, "backup_label")) or os.path.isfile(os.path.join(dir, "backup_label.old"))] return backupdirs def slave_purge_wals(self): """ Remove WAL files not needed for recovery """ self.assert_is_master(False) backups = self.get_backup_list(self.cf.getfile("full_backup")) if backups: lastwal = self.get_first_walname(backups[-1]) if lastwal: self.log.info("First useful WAL file is: %s", lastwal) self.slave_cleanup(lastwal) else: self.log.debug("No WAL-s to clean up.") def slave_rotate_backups(self): """ Rotate backups by increasing backup directory suffixes. Note that since we also have to make room for next backup, we actually have keep_backups - 1 backups available after this. Unneeded WAL files are not removed here, handled by xpurgewals command instead. """ self.assert_is_master(False) dst_loc = self.cf.getfile("full_backup") maxbackups = self.cf.getint("keep_backups", 0) archive_command = self.cf.get("archive_command", "") backupdirs = self.get_backup_list(dst_loc) if not backupdirs or maxbackups < 1: self.log.debug("Nothing to rotate") # remove expired backups while len(backupdirs) >= maxbackups and len(backupdirs) > 0: last = backupdirs.pop() # if archive_command is set, run it before removing the directory # Resume only if archive command succeeds. if archive_command: cmdline = archive_command.replace("$BACKUPDIR", last) self.log.info("Executing archive_command: %s", cmdline) rc = self.exec_system(cmdline) if rc != 0: self.log.error("Backup archiving returned %d, exiting!", rc) sys.exit(1) self.log.info("Removing expired backup directory: %s", last) if self.not_really: continue cmdline = [ "rm", "-r", last ] self.exec_cmd(cmdline) # bump the suffixes if base directory exists if os.path.isdir(dst_loc): backupdirs.sort(lambda x,y: self.order_backupdirs(dst_loc, y,x)) for dir in backupdirs: (name, index) = os.path.splitext(dir) if not re.match('\.[0-9]+$', index): name = name + index index = 0 else: index = int(index[1:])+1 self.log.debug("Rename %s to %s.%s", dir, name, index) if self.not_really: continue os.rename(dir, "%s.%s" % (name,index)) def slave_cleanup(self, last_applied): completed_wals = self.cf.getfile("completed_wals") partial_wals = self.cf.getfile("partial_wals") self.log.debug("cleaning completed wals before %s", last_applied) self.del_wals(completed_wals, last_applied) if os.path.isdir(partial_wals): self.log.debug("cleaning partial wals before %s", last_applied) self.del_wals(partial_wals, last_applied) else: self.log.warning("partial_wals dir does not exist: %s", partial_wals) self.log.debug("cleaning done") def del_wals(self, path, last): dot = last.find(".") if dot > 0: last = last[:dot] list = os.listdir(path) list.sort() cur_last = None n = len(list) for i in range(n): fname = list[i] full = os.path.join(path, fname) if fname[0] < "0" or fname[0] > "9": continue if not fname.startswith(last[0:8]): # only look at WAL segments in a same timeline continue ok_del = 0 if fname < last: self.log.debug("deleting %s", full) if not self.not_really: try: os.remove(full) except: # don't report the errors if the file has been already removed # happens due to conflicts with pg_archivecleanup for instance. pass cur_last = fname return cur_last if __name__ == "__main__": script = WalMgr(sys.argv[1:]) script.start()