PNG  IHDR* pHYs+ IDATx]n#; cdLb Ǚ[at¤_:uP}>!Usă cag޿ ֵNu`ݼTâabO7uL&y^wFٝA"l[|ŲHLN밪4*sG3|Dv}?+y߉{OuOAt4Jj.u]Gz*҉sP'VQKbA1u\`& Af;HWj hsO;ogTu uj7S3/QzUr&wS`M$X_L7r2;aE+ώ%vikDA:dR+%KzƉo>eOth$z%: :{WwaQ:wz%4foɹE[9<]#ERINƻv溂E%P1i01 |Jvҗ&{b?9g=^wζXn/lK::90KwrюO\!ջ3uzuGv^;騢wq<Iatv09:tt~hEG`v;3@MNZD.1]L:{ծI3`L(÷ba")Y.iljCɄae#I"1 `3*Bdz>j<fU40⨬%O$3cGt]j%Fߠ_twJ;ABU8vP3uEԑwQ V:h%))LfraqX-ۿX]v-\9I gl8tzX ]ecm)-cgʒ#Uw=Wlێn(0hPP/ӨtQ“&J35 $=]r1{tLuǮ*i0_;NƝ8;-vݏr8+U-kruȕYr0RnC]*ެ(M:]gE;{]tg(#ZJ9y>utRDRMdr9㪩̞zֹb<ģ&wzJM"iI( .ꮅX)Qw:9,i좜\Ԛi7&N0:asϓc];=ΗOӣ APqz93 y $)A*kVHZwBƺnWNaby>XMN*45~ղM6Nvm;A=jֲ.~1}(9`KJ/V F9[=`~[;sRuk]rєT!)iQO)Y$V ی ۤmzWz5IM Zb )ˆC`6 rRa}qNmUfDsWuˤV{ Pݝ'=Kֳbg,UҘVz2ﴻnjNgBb{? ߮tcsͻQuxVCIY۠:(V뺕 ٥2;t`@Fo{Z9`;]wMzU~%UA蛚dI vGq\r82iu +St`cR.6U/M9IENDB`from __future__ import absolute_import, division import time import os try: unicode except NameError: unicode = str from . import LockBase, NotLocked, NotMyLock, LockTimeout, AlreadyLocked class SQLiteLockFile(LockBase): "Demonstrate SQL-based locking." testdb = None def __init__(self, path, threaded=True, timeout=None): """ >>> lock = SQLiteLockFile('somefile') >>> lock = SQLiteLockFile('somefile', threaded=False) """ LockBase.__init__(self, path, threaded, timeout) self.lock_file = unicode(self.lock_file) self.unique_name = unicode(self.unique_name) if SQLiteLockFile.testdb is None: import tempfile _fd, testdb = tempfile.mkstemp() os.close(_fd) os.unlink(testdb) del _fd, tempfile SQLiteLockFile.testdb = testdb import sqlite3 self.connection = sqlite3.connect(SQLiteLockFile.testdb) c = self.connection.cursor() try: c.execute("create table locks" "(" " lock_file varchar(32)," " unique_name varchar(32)" ")") except sqlite3.OperationalError: pass else: self.connection.commit() import atexit atexit.register(os.unlink, SQLiteLockFile.testdb) def acquire(self, timeout=None): timeout = timeout if timeout is not None else self.timeout end_time = time.time() if timeout is not None and timeout > 0: end_time += timeout if timeout is None: wait = 0.1 elif timeout <= 0: wait = 0 else: wait = timeout / 10 cursor = self.connection.cursor() while True: if not self.is_locked(): # Not locked. Try to lock it. cursor.execute("insert into locks" " (lock_file, unique_name)" " values" " (?, ?)", (self.lock_file, self.unique_name)) self.connection.commit() # Check to see if we are the only lock holder. cursor.execute("select * from locks" " where unique_name = ?", (self.unique_name,)) rows = cursor.fetchall() if len(rows) > 1: # Nope. Someone else got there. Remove our lock. cursor.execute("delete from locks" " where unique_name = ?", (self.unique_name,)) self.connection.commit() else: # Yup. We're done, so go home. return else: # Check to see if we are the only lock holder. cursor.execute("select * from locks" " where unique_name = ?", (self.unique_name,)) rows = cursor.fetchall() if len(rows) == 1: # We're the locker, so go home. return # Maybe we should wait a bit longer. if timeout is not None and time.time() > end_time: if timeout > 0: # No more waiting. raise LockTimeout("Timeout waiting to acquire" " lock for %s" % self.path) else: # Someone else has the lock and we are impatient.. raise AlreadyLocked("%s is already locked" % self.path) # Well, okay. We'll give it a bit longer. time.sleep(wait) def release(self): if not self.is_locked(): raise NotLocked("%s is not locked" % self.path) if not self.i_am_locking(): raise NotMyLock("%s is locked, but not by me (by %s)" % (self.unique_name, self._who_is_locking())) cursor = self.connection.cursor() cursor.execute("delete from locks" " where unique_name = ?", (self.unique_name,)) self.connection.commit() def _who_is_locking(self): cursor = self.connection.cursor() cursor.execute("select unique_name from locks" " where lock_file = ?", (self.lock_file,)) return cursor.fetchone()[0] def is_locked(self): cursor = self.connection.cursor() cursor.execute("select * from locks" " where lock_file = ?", (self.lock_file,)) rows = cursor.fetchall() return not not rows def i_am_locking(self): cursor = self.connection.cursor() cursor.execute("select * from locks" " where lock_file = ?" " and unique_name = ?", (self.lock_file, self.unique_name)) return not not cursor.fetchall() def break_lock(self): cursor = self.connection.cursor() cursor.execute("delete from locks" " where lock_file = ?", (self.lock_file,)) self.connection.commit()