# Copyright 2013-2019 Lawrence Livermore National Security, LLC and other # Spack Project Developers. See the top-level COPYRIGHT file for details. # # SPDX-License-Identifier: (Apache-2.0 OR MIT) import os import fcntl import errno import time import socket import llnl.util.tty as tty __all__ = ['Lock', 'LockTransaction', 'WriteTransaction', 'ReadTransaction', 'LockError', 'LockTimeoutError', 'LockPermissionError', 'LockROFileError', 'CantCreateLockError'] class Lock(object): """This is an implementation of a filesystem lock using Python's lockf. In Python, ``lockf`` actually calls ``fcntl``, so this should work with any filesystem implementation that supports locking through the fcntl calls. This includes distributed filesystems like Lustre (when flock is enabled) and recent NFS versions. Note that this is for managing contention over resources *between* processes and not for managing contention between threads in a process: the functions of this object are not thread-safe. A process also must not maintain multiple locks on the same file. """ def __init__(self, path, start=0, length=0, debug=False, default_timeout=None): """Construct a new lock on the file at ``path``. By default, the lock applies to the whole file. Optionally, caller can specify a byte range beginning ``start`` bytes from the start of the file and extending ``length`` bytes from there. This exposes a subset of fcntl locking functionality. It does not currently expose the ``whence`` parameter -- ``whence`` is always ``os.SEEK_SET`` and ``start`` is always evaluated from the beginning of the file. """ self.path = path self._file = None self._reads = 0 self._writes = 0 # byte range parameters self._start = start self._length = length # enable debug mode self.debug = debug # If the user doesn't set a default timeout, or if they choose # None, 0, etc. then lock attempts will not time out (unless the # user sets a timeout for each attempt) self.default_timeout = default_timeout or None # PID and host of lock holder (only used in debug mode) self.pid = self.old_pid = None self.host = self.old_host = None @staticmethod def _poll_interval_generator(_wait_times=None): """This implements a backoff scheme for polling a contended resource by suggesting a succession of wait times between polls. It suggests a poll interval of .1s until 2 seconds have passed, then a poll interval of .2s until 10 seconds have passed, and finally (for all requests after 10s) suggests a poll interval of .5s. This doesn't actually track elapsed time, it estimates the waiting time as though the caller always waits for the full length of time suggested by this function. """ num_requests = 0 stage1, stage2, stage3 = _wait_times or (1e-1, 2e-1, 5e-1) wait_time = stage1 while True: if num_requests >= 60: # 40 * .2 = 8 wait_time = stage3 elif num_requests >= 20: # 20 * .1 = 2 wait_time = stage2 num_requests += 1 yield wait_time def _lock(self, op, timeout=None): """This takes a lock using POSIX locks (``fcntl.lockf``). The lock is implemented as a spin lock using a nonblocking call to ``lockf()``. On acquiring an exclusive lock, the lock writes this process's pid and host to the lock file, in case the holding process needs to be killed later. If the lock times out, it raises a ``LockError``. If the lock is successfully acquired, the total wait time and the number of attempts is returned. """ assert op in (fcntl.LOCK_SH, fcntl.LOCK_EX) timeout = timeout or self.default_timeout # Create file and parent directories if they don't exist. if self._file is None: parent = self._ensure_parent_directory() # Open writable files as 'r+' so we can upgrade to write later os_mode, fd_mode = (os.O_RDWR | os.O_CREAT), 'r+' if os.path.exists(self.path): if not os.access(self.path, os.W_OK): if op == fcntl.LOCK_SH: # can still lock read-only files if we open 'r' os_mode, fd_mode = os.O_RDONLY, 'r' else: raise LockROFileError(self.path) elif not os.access(parent, os.W_OK): raise CantCreateLockError(self.path) fd = os.open(self.path, os_mode) self._file = os.fdopen(fd, fd_mode) elif op == fcntl.LOCK_EX and self._file.mode == 'r': # Attempt to upgrade to write lock w/a read-only file. # If the file were writable, we'd have opened it 'r+' raise LockROFileError(self.path) poll_intervals = iter(Lock._poll_interval_generator()) start_time = time.time() num_attempts = 0 while (not timeout) or (time.time() - start_time) < timeout: num_attempts += 1 if self._poll_lock(op): total_wait_time = time.time() - start_time return total_wait_time, num_attempts time.sleep(next(poll_intervals)) num_attempts += 1 if self._poll_lock(op): total_wait_time = time.time() - start_time return total_wait_time, num_attempts raise LockTimeoutError("Timed out waiting for lock.") def _poll_lock(self, op): """Attempt to acquire the lock in a non-blocking manner. Return whether the locking attempt succeeds """ try: # Try to get the lock (will raise if not available.) fcntl.lockf(self._file, op | fcntl.LOCK_NB, self._length, self._start, os.SEEK_SET) # help for debugging distributed locking if self.debug: # All locks read the owner PID and host self._read_debug_data() # Exclusive locks write their PID/host if op == fcntl.LOCK_EX: self._write_debug_data() return True except IOError as e: if e.errno in (errno.EAGAIN, errno.EACCES): # EAGAIN and EACCES == locked by another process pass else: raise def _ensure_parent_directory(self): parent = os.path.dirname(self.path) # relative paths to lockfiles in the current directory have no parent if not parent: return '.' try: os.makedirs(parent) except OSError as e: # makedirs can fail when diretory already exists. if not (e.errno == errno.EEXIST and os.path.isdir(parent) or e.errno == errno.EISDIR): raise return parent def _read_debug_data(self): """Read PID and host data out of the file if it is there.""" self.old_pid = self.pid self.old_host = self.host line = self._file.read() if line: pid, host = line.strip().split(',') _, _, self.pid = pid.rpartition('=') _, _, self.host = host.rpartition('=') self.pid = int(self.pid) def _write_debug_data(self): """Write PID and host data to the file, recording old values.""" self.old_pid = self.pid self.old_host = self.host self.pid = os.getpid() self.host = socket.getfqdn() # write pid, host to disk to sync over FS self._file.seek(0) self._file.write("pid=%s,host=%s" % (self.pid, self.host)) self._file.truncate() self._file.flush() os.fsync(self._file.fileno()) def _unlock(self): """Releases a lock using POSIX locks (``fcntl.lockf``) Releases the lock regardless of mode. Note that read locks may be masquerading as write locks, but this removes either. """ fcntl.lockf(self._file, fcntl.LOCK_UN, self._length, self._start, os.SEEK_SET) self._file.close() self._file = None def acquire_read(self, timeout=None): """Acquires a recursive, shared lock for reading. Read and write locks can be acquired and released in arbitrary order, but the POSIX lock is held until all local read and write locks are released. Returns True if it is the first acquire and actually acquires the POSIX lock, False if it is a nested transaction. """ timeout = timeout or self.default_timeout if self._reads == 0 and self._writes == 0: self._debug( 'READ LOCK: {0.path}[{0._start}:{0._length}] [Acquiring]' .format(self)) # can raise LockError. wait_time, nattempts = self._lock(fcntl.LOCK_SH, timeout=timeout) self._acquired_debug('READ LOCK', wait_time, nattempts) self._reads += 1 return True else: self._reads += 1 return False def acquire_write(self, timeout=None): """Acquires a recursive, exclusive lock for writing. Read and write locks can be acquired and released in arbitrary order, but the POSIX lock is held until all local read and write locks are released. Returns True if it is the first acquire and actually acquires the POSIX lock, False if it is a nested transaction. """ timeout = timeout or self.default_timeout if self._writes == 0: self._debug( 'WRITE LOCK: {0.path}[{0._start}:{0._length}] [Acquiring]' .format(self)) # can raise LockError. wait_time, nattempts = self._lock(fcntl.LOCK_EX, timeout=timeout) self._acquired_debug('WRITE LOCK', wait_time, nattempts) self._writes += 1 return True else: self._writes += 1 return False def release_read(self): """Releases a read lock. Returns True if the last recursive lock was released, False if there are still outstanding locks. Does limited correctness checking: if a read lock is released when none are held, this will raise an assertion error. """ assert self._reads > 0 if self._reads == 1 and self._writes == 0: self._debug( 'READ LOCK: {0.path}[{0._start}:{0._length}] [Released]' .format(self)) self._unlock() # can raise LockError. self._reads -= 1 return True else: self._reads -= 1 return False def release_write(self): """Releases a write lock. Returns True if the last recursive lock was released, False if there are still outstanding locks. Does limited correctness checking: if a read lock is released when none are held, this will raise an assertion error. """ assert self._writes > 0 if self._writes == 1 and self._reads == 0: self._debug( 'WRITE LOCK: {0.path}[{0._start}:{0._length}] [Released]' .format(self)) self._unlock() # can raise LockError. self._writes -= 1 return True else: self._writes -= 1 return False def _debug(self, *args): tty.debug(*args) def _acquired_debug(self, lock_type, wait_time, nattempts): attempts_format = 'attempt' if nattempts == 1 else 'attempt' if nattempts > 1: acquired_attempts_format = ' after {0:0.2f}s and {1:d} {2}'.format( wait_time, nattempts, attempts_format) else: # Dont print anything if we succeeded immediately acquired_attempts_format = '' self._debug( '{0}: {1.path}[{1._start}:{1._length}] [Acquired{2}]' .format(lock_type, self, acquired_attempts_format)) class LockTransaction(object): """Simple nested transaction context manager that uses a file lock. This class can trigger actions when the lock is acquired for the first time and released for the last. If the ``acquire_fn`` returns a value, it is used as the return value for ``__enter__``, allowing it to be passed as the ``as`` argument of a ``with`` statement. If ``acquire_fn`` returns a context manager, *its* ``__enter__`` function will be called in ``__enter__`` after ``acquire_fn``, and its ``__exit__`` funciton will be called before ``release_fn`` in ``__exit__``, allowing you to nest a context manager to be used along with the lock. Timeout for lock is customizable. """ def __init__(self, lock, acquire_fn=None, release_fn=None, timeout=None): self._lock = lock self._timeout = timeout self._acquire_fn = acquire_fn self._release_fn = release_fn self._as = None def __enter__(self): if self._enter() and self._acquire_fn: self._as = self._acquire_fn() if hasattr(self._as, '__enter__'): return self._as.__enter__() else: return self._as def __exit__(self, type, value, traceback): suppress = False if self._exit(): if self._as and hasattr(self._as, '__exit__'): if self._as.__exit__(type, value, traceback): suppress = True if self._release_fn: if self._release_fn(type, value, traceback): suppress = True return suppress class ReadTransaction(LockTransaction): """LockTransaction context manager that does a read and releases it.""" def _enter(self): return self._lock.acquire_read(self._timeout) def _exit(self): return self._lock.release_read() class WriteTransaction(LockTransaction): """LockTransaction context manager that does a write and releases it.""" def _enter(self): return self._lock.acquire_write(self._timeout) def _exit(self): return self._lock.release_write() class LockError(Exception): """Raised for any errors related to locks.""" class LockTimeoutError(LockError): """Raised when an attempt to acquire a lock times out.""" class LockPermissionError(LockError): """Raised when there are permission issues with a lock.""" class LockROFileError(LockPermissionError): """Tried to take an exclusive lock on a read-only file.""" def __init__(self, path): msg = "Can't take write lock on read-only file: %s" % path super(LockROFileError, self).__init__(msg) class CantCreateLockError(LockPermissionError): """Attempt to create a lock in an unwritable location.""" def __init__(self, path): msg = "cannot create lock '%s': " % path msg += "file does not exist and location is not writable" super(LockError, self).__init__(msg)