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  • Committer: Martin Pool
  • Date: 2005-05-09 03:03:55 UTC
  • Revision ID: mbp@sourcefrog.net-20050509030355-ad6ab558d1362959
- Don't give an error if the trace file can't be opened

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1
 
# Copyright (C) 2005, 2006, 2007 Canonical Ltd
2
 
#
3
 
# This program is free software; you can redistribute it and/or modify
4
 
# it under the terms of the GNU General Public License as published by
5
 
# the Free Software Foundation; either version 2 of the License, or
6
 
# (at your option) any later version.
7
 
#
8
 
# This program is distributed in the hope that it will be useful,
9
 
# but WITHOUT ANY WARRANTY; without even the implied warranty of
10
 
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
11
 
# GNU General Public License for more details.
12
 
#
13
 
# You should have received a copy of the GNU General Public License
14
 
# along with this program; if not, write to the Free Software
15
 
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
16
 
 
17
 
 
18
 
"""Locking using OS file locks or file existence.
19
 
 
20
 
Note: This method of locking is generally deprecated in favour of LockDir, but
21
 
is used to lock local WorkingTrees, and by some old formats.  It's accessed
22
 
through Transport.lock_read(), etc.
23
 
 
24
 
This module causes two methods, lock() and unlock() to be defined in
25
 
any way that works on the current platform.
26
 
 
27
 
It is not specified whether these locks are reentrant (i.e. can be
28
 
taken repeatedly by a single process) or whether they exclude
29
 
different threads in a single process.  That reentrancy is provided by
30
 
LockableFiles.
31
 
 
32
 
This defines two classes: ReadLock and WriteLock, which can be
33
 
implemented in different ways on different platforms.  Both have an
34
 
unlock() method.
35
 
"""
36
 
 
37
 
import errno
38
 
import sys
39
 
 
40
 
from bzrlib import (
41
 
    errors,
42
 
    osutils,
43
 
    trace,
44
 
    )
45
 
 
46
 
 
47
 
class _base_Lock(object):
48
 
 
49
 
    def __init__(self):
50
 
        self.f = None
51
 
        self.filename = None
52
 
 
53
 
    def _open(self, filename, filemode):
54
 
        self.filename = osutils.realpath(filename)
55
 
        try:
56
 
            self.f = open(self.filename, filemode)
57
 
            return self.f
58
 
        except IOError, e:
59
 
            if e.errno in (errno.EACCES, errno.EPERM):
60
 
                raise errors.ReadOnlyLockError(self.filename, str(e))
61
 
            if e.errno != errno.ENOENT:
62
 
                raise
63
 
 
64
 
            # maybe this is an old branch (before may 2005)
65
 
            trace.mutter("trying to create missing lock %r", self.filename)
66
 
 
67
 
            self.f = open(self.filename, 'wb+')
68
 
            return self.f
69
 
 
70
 
    def _clear_f(self):
71
 
        """Clear the self.f attribute cleanly."""
72
 
        if self.f:
73
 
            self.f.close()
74
 
            self.f = None
75
 
 
76
 
    def __del__(self):
77
 
        if self.f:
78
 
            from warnings import warn
79
 
            warn("lock on %r not released" % self.f)
80
 
            self.unlock()
81
 
 
82
 
    def unlock(self):
83
 
        raise NotImplementedError()
84
 
 
85
 
 
86
 
try:
87
 
    import fcntl
88
 
    have_fcntl = True
89
 
except ImportError:
90
 
    have_fcntl = False
91
 
try:
92
 
    import win32con, win32file, pywintypes, winerror, msvcrt
93
 
    have_pywin32 = True
94
 
except ImportError:
95
 
    have_pywin32 = False
96
 
try:
97
 
    import ctypes, msvcrt
98
 
    have_ctypes = True
99
 
except ImportError:
100
 
    have_ctypes = False
101
 
 
102
 
 
103
 
_lock_classes = []
104
 
 
105
 
 
106
 
if have_fcntl:
107
 
    LOCK_SH = fcntl.LOCK_SH
108
 
    LOCK_NB = fcntl.LOCK_NB
109
 
    lock_EX = fcntl.LOCK_EX
110
 
 
111
 
 
112
 
    class _fcntl_FileLock(_base_Lock):
113
 
 
114
 
        def _unlock(self):
115
 
            fcntl.lockf(self.f, fcntl.LOCK_UN)
116
 
            self._clear_f()
117
 
 
118
 
 
119
 
    class _fcntl_WriteLock(_fcntl_FileLock):
120
 
 
121
 
        _open_locks = set()
122
 
 
123
 
        def __init__(self, filename):
124
 
            super(_fcntl_WriteLock, self).__init__()
125
 
            # Check we can grab a lock before we actually open the file.
126
 
            self.filename = osutils.realpath(filename)
127
 
            if self.filename in _fcntl_WriteLock._open_locks:
128
 
                self._clear_f()
129
 
                raise errors.LockContention(self.filename)
130
 
 
131
 
            self._open(self.filename, 'rb+')
132
 
            # reserve a slot for this lock - even if the lockf call fails,
133
 
            # at thisi point unlock() will be called, because self.f is set.
134
 
            # TODO: make this fully threadsafe, if we decide we care.
135
 
            _fcntl_WriteLock._open_locks.add(self.filename)
136
 
            try:
137
 
                # LOCK_NB will cause IOError to be raised if we can't grab a
138
 
                # lock right away.
139
 
                fcntl.lockf(self.f, fcntl.LOCK_EX | fcntl.LOCK_NB)
140
 
            except IOError, e:
141
 
                if e.errno in (errno.EAGAIN, errno.EACCES):
142
 
                    # We couldn't grab the lock
143
 
                    self.unlock()
144
 
                # we should be more precise about whats a locking
145
 
                # error and whats a random-other error
146
 
                raise errors.LockContention(e)
147
 
 
148
 
        def unlock(self):
149
 
            _fcntl_WriteLock._open_locks.remove(self.filename)
150
 
            self._unlock()
151
 
 
152
 
 
153
 
    class _fcntl_ReadLock(_fcntl_FileLock):
154
 
 
155
 
        _open_locks = {}
156
 
 
157
 
        def __init__(self, filename):
158
 
            super(_fcntl_ReadLock, self).__init__()
159
 
            self.filename = osutils.realpath(filename)
160
 
            _fcntl_ReadLock._open_locks.setdefault(self.filename, 0)
161
 
            _fcntl_ReadLock._open_locks[self.filename] += 1
162
 
            self._open(filename, 'rb')
163
 
            try:
164
 
                # LOCK_NB will cause IOError to be raised if we can't grab a
165
 
                # lock right away.
166
 
                fcntl.lockf(self.f, fcntl.LOCK_SH | fcntl.LOCK_NB)
167
 
            except IOError, e:
168
 
                # we should be more precise about whats a locking
169
 
                # error and whats a random-other error
170
 
                raise errors.LockContention(e)
171
 
 
172
 
        def unlock(self):
173
 
            count = _fcntl_ReadLock._open_locks[self.filename]
174
 
            if count == 1:
175
 
                del _fcntl_ReadLock._open_locks[self.filename]
176
 
            else:
177
 
                _fcntl_ReadLock._open_locks[self.filename] = count - 1
178
 
            self._unlock()
179
 
 
180
 
        def temporary_write_lock(self):
181
 
            """Try to grab a write lock on the file.
182
 
 
183
 
            On platforms that support it, this will upgrade to a write lock
184
 
            without unlocking the file.
185
 
            Otherwise, this will release the read lock, and try to acquire a
186
 
            write lock.
187
 
 
188
 
            :return: A token which can be used to switch back to a read lock.
189
 
            """
190
 
            assert self.filename not in _fcntl_WriteLock._open_locks
191
 
            try:
192
 
                wlock = _fcntl_TemporaryWriteLock(self)
193
 
            except errors.LockError:
194
 
                # We didn't unlock, so we can just return 'self'
195
 
                return False, self
196
 
            return True, wlock
197
 
 
198
 
 
199
 
    class _fcntl_TemporaryWriteLock(_base_Lock):
200
 
        """A token used when grabbing a temporary_write_lock.
201
 
 
202
 
        Call restore_read_lock() when you are done with the write lock.
203
 
        """
204
 
 
205
 
        def __init__(self, read_lock):
206
 
            super(_fcntl_TemporaryWriteLock, self).__init__()
207
 
            self._read_lock = read_lock
208
 
            self.filename = read_lock.filename
209
 
 
210
 
            count = _fcntl_ReadLock._open_locks[self.filename]
211
 
            if count > 1:
212
 
                # Something else also has a read-lock, so we cannot grab a
213
 
                # write lock.
214
 
                raise errors.LockContention(self.filename)
215
 
 
216
 
            assert self.filename not in _fcntl_WriteLock._open_locks
217
 
 
218
 
            # See if we can open the file for writing. Another process might
219
 
            # have a read lock. We don't use self._open() because we don't want
220
 
            # to create the file if it exists. That would have already been
221
 
            # done by _fcntl_ReadLock
222
 
            try:
223
 
                new_f = open(self.filename, 'rb+')
224
 
            except IOError, e:
225
 
                if e.errno in (errno.EACCES, errno.EPERM):
226
 
                    raise errors.ReadOnlyLockError(self.filename, str(e))
227
 
                raise
228
 
            try:
229
 
                # LOCK_NB will cause IOError to be raised if we can't grab a
230
 
                # lock right away.
231
 
                fcntl.lockf(new_f, fcntl.LOCK_EX | fcntl.LOCK_NB)
232
 
            except IOError, e:
233
 
                # TODO: Raise a more specific error based on the type of error
234
 
                raise errors.LockContention(e)
235
 
            _fcntl_WriteLock._open_locks.add(self.filename)
236
 
 
237
 
            self.f = new_f
238
 
 
239
 
        def restore_read_lock(self):
240
 
            """Restore the original ReadLock."""
241
 
            # For fcntl, since we never released the read lock, just release the
242
 
            # write lock, and return the original lock.
243
 
            fcntl.lockf(self.f, fcntl.LOCK_UN)
244
 
            self._clear_f()
245
 
            _fcntl_WriteLock._open_locks.remove(self.filename)
246
 
            # Avoid reference cycles
247
 
            read_lock = self._read_lock
248
 
            self._read_lock = None
249
 
            return read_lock
250
 
 
251
 
 
252
 
    _lock_classes.append(('fcntl', _fcntl_WriteLock, _fcntl_ReadLock))
253
 
 
254
 
 
255
 
if have_pywin32 and sys.platform == 'win32':
256
 
    LOCK_SH = 0 # the default
257
 
    LOCK_EX = win32con.LOCKFILE_EXCLUSIVE_LOCK
258
 
    LOCK_NB = win32con.LOCKFILE_FAIL_IMMEDIATELY
259
 
 
260
 
 
261
 
    class _w32c_FileLock(_base_Lock):
262
 
 
263
 
        def _lock(self, filename, openmode, lockmode):
264
 
            self._open(filename, openmode)
265
 
 
266
 
            self.hfile = msvcrt.get_osfhandle(self.f.fileno())
267
 
            overlapped = pywintypes.OVERLAPPED()
268
 
            try:
269
 
                win32file.LockFileEx(self.hfile, lockmode, 0, 0x7fff0000,
270
 
                                     overlapped)
271
 
            except pywintypes.error, e:
272
 
                self._clear_f()
273
 
                if e.args[0] in (winerror.ERROR_LOCK_VIOLATION,):
274
 
                    raise errors.LockContention(filename)
275
 
                ## import pdb; pdb.set_trace()
276
 
                raise
277
 
            except Exception, e:
278
 
                self._clear_f()
279
 
                raise errors.LockContention(e)
280
 
 
281
 
        def unlock(self):
282
 
            overlapped = pywintypes.OVERLAPPED()
283
 
            try:
284
 
                win32file.UnlockFileEx(self.hfile, 0, 0x7fff0000, overlapped)
285
 
                self._clear_f()
286
 
            except Exception, e:
287
 
                raise errors.LockContention(e)
288
 
 
289
 
 
290
 
    class _w32c_ReadLock(_w32c_FileLock):
291
 
        def __init__(self, filename):
292
 
            super(_w32c_ReadLock, self).__init__()
293
 
            self._lock(filename, 'rb', LOCK_SH + LOCK_NB)
294
 
 
295
 
        def temporary_write_lock(self):
296
 
            """Try to grab a write lock on the file.
297
 
 
298
 
            On platforms that support it, this will upgrade to a write lock
299
 
            without unlocking the file.
300
 
            Otherwise, this will release the read lock, and try to acquire a
301
 
            write lock.
302
 
 
303
 
            :return: A token which can be used to switch back to a read lock.
304
 
            """
305
 
            # I can't find a way to upgrade a read lock to a write lock without
306
 
            # unlocking first. So here, we do just that.
307
 
            self.unlock()
308
 
            try:
309
 
                wlock = _w32c_WriteLock(self.filename)
310
 
            except errors.LockError:
311
 
                return False, _w32c_ReadLock(self.filename)
312
 
            return True, wlock
313
 
 
314
 
 
315
 
    class _w32c_WriteLock(_w32c_FileLock):
316
 
        def __init__(self, filename):
317
 
            super(_w32c_WriteLock, self).__init__()
318
 
            self._lock(filename, 'rb+', LOCK_EX + LOCK_NB)
319
 
 
320
 
        def restore_read_lock(self):
321
 
            """Restore the original ReadLock."""
322
 
            # For win32 we had to completely let go of the original lock, so we
323
 
            # just unlock and create a new read lock.
324
 
            self.unlock()
325
 
            return _w32c_ReadLock(self.filename)
326
 
 
327
 
 
328
 
    _lock_classes.append(('pywin32', _w32c_WriteLock, _w32c_ReadLock))
329
 
 
330
 
 
331
 
if have_ctypes and sys.platform == 'win32':
332
 
    # These constants were copied from the win32con.py module.
333
 
    LOCKFILE_FAIL_IMMEDIATELY = 1
334
 
    LOCKFILE_EXCLUSIVE_LOCK = 2
335
 
    # Constant taken from winerror.py module
336
 
    ERROR_LOCK_VIOLATION = 33
337
 
 
338
 
    LOCK_SH = 0
339
 
    LOCK_EX = LOCKFILE_EXCLUSIVE_LOCK
340
 
    LOCK_NB = LOCKFILE_FAIL_IMMEDIATELY
341
 
    _LockFileEx = ctypes.windll.kernel32.LockFileEx
342
 
    _UnlockFileEx = ctypes.windll.kernel32.UnlockFileEx
343
 
    _GetLastError = ctypes.windll.kernel32.GetLastError
344
 
 
345
 
    ### Define the OVERLAPPED structure.
346
 
    #   http://msdn2.microsoft.com/en-us/library/ms684342.aspx
347
 
    # typedef struct _OVERLAPPED {
348
 
    #   ULONG_PTR Internal;
349
 
    #   ULONG_PTR InternalHigh;
350
 
    #   union {
351
 
    #     struct {
352
 
    #       DWORD Offset;
353
 
    #       DWORD OffsetHigh;
354
 
    #     };
355
 
    #     PVOID Pointer;
356
 
    #   };
357
 
    #   HANDLE hEvent;
358
 
    # } OVERLAPPED,
359
 
 
360
 
    class _inner_struct(ctypes.Structure):
361
 
        _fields_ = [('Offset', ctypes.c_uint), # DWORD
362
 
                    ('OffsetHigh', ctypes.c_uint), # DWORD
363
 
                   ]
364
 
 
365
 
    class _inner_union(ctypes.Union):
366
 
        _fields_  = [('anon_struct', _inner_struct), # struct
367
 
                     ('Pointer', ctypes.c_void_p), # PVOID
368
 
                    ]
369
 
 
370
 
    class OVERLAPPED(ctypes.Structure):
371
 
        _fields_ = [('Internal', ctypes.c_void_p), # ULONG_PTR
372
 
                    ('InternalHigh', ctypes.c_void_p), # ULONG_PTR
373
 
                    ('_inner_union', _inner_union),
374
 
                    ('hEvent', ctypes.c_void_p), # HANDLE
375
 
                   ]
376
 
 
377
 
    class _ctypes_FileLock(_base_Lock):
378
 
 
379
 
        def _lock(self, filename, openmode, lockmode):
380
 
            self._open(filename, openmode)
381
 
 
382
 
            self.hfile = msvcrt.get_osfhandle(self.f.fileno())
383
 
            overlapped = OVERLAPPED()
384
 
            result = _LockFileEx(self.hfile, # HANDLE hFile
385
 
                                 lockmode,   # DWORD dwFlags
386
 
                                 0,          # DWORD dwReserved
387
 
                                 0x7fffffff, # DWORD nNumberOfBytesToLockLow
388
 
                                 0x00000000, # DWORD nNumberOfBytesToLockHigh
389
 
                                 ctypes.byref(overlapped), # lpOverlapped
390
 
                                )
391
 
            if result == 0:
392
 
                self._clear_f()
393
 
                last_err = _GetLastError()
394
 
                if last_err in (ERROR_LOCK_VIOLATION,):
395
 
                    raise errors.LockContention(filename)
396
 
                raise errors.LockContention('Unknown locking error: %s'
397
 
                                            % (last_err,))
398
 
 
399
 
        def unlock(self):
400
 
            overlapped = OVERLAPPED()
401
 
            result = _UnlockFileEx(self.hfile, # HANDLE hFile
402
 
                                   0,          # DWORD dwReserved
403
 
                                   0x7fffffff, # DWORD nNumberOfBytesToLockLow
404
 
                                   0x00000000, # DWORD nNumberOfBytesToLockHigh
405
 
                                   ctypes.byref(overlapped), # lpOverlapped
406
 
                                  )
407
 
            self._clear_f()
408
 
            if result == 0:
409
 
                self._clear_f()
410
 
                last_err = _GetLastError()
411
 
                raise errors.LockContention('Unknown unlocking error: %s'
412
 
                                            % (last_err,))
413
 
 
414
 
 
415
 
    class _ctypes_ReadLock(_ctypes_FileLock):
416
 
        def __init__(self, filename):
417
 
            super(_ctypes_ReadLock, self).__init__()
418
 
            self._lock(filename, 'rb', LOCK_SH + LOCK_NB)
419
 
 
420
 
        def temporary_write_lock(self):
421
 
            """Try to grab a write lock on the file.
422
 
 
423
 
            On platforms that support it, this will upgrade to a write lock
424
 
            without unlocking the file.
425
 
            Otherwise, this will release the read lock, and try to acquire a
426
 
            write lock.
427
 
 
428
 
            :return: A token which can be used to switch back to a read lock.
429
 
            """
430
 
            # I can't find a way to upgrade a read lock to a write lock without
431
 
            # unlocking first. So here, we do just that.
432
 
            self.unlock()
433
 
            try:
434
 
                wlock = _ctypes_WriteLock(self.filename)
435
 
            except errors.LockError:
436
 
                return False, _ctypes_ReadLock(self.filename)
437
 
            return True, wlock
438
 
 
439
 
    class _ctypes_WriteLock(_ctypes_FileLock):
440
 
        def __init__(self, filename):
441
 
            super(_ctypes_WriteLock, self).__init__()
442
 
            self._lock(filename, 'rb+', LOCK_EX + LOCK_NB)
443
 
 
444
 
        def restore_read_lock(self):
445
 
            """Restore the original ReadLock."""
446
 
            # For win32 we had to completely let go of the original lock, so we
447
 
            # just unlock and create a new read lock.
448
 
            self.unlock()
449
 
            return _ctypes_ReadLock(self.filename)
450
 
 
451
 
 
452
 
    _lock_classes.append(('ctypes', _ctypes_WriteLock, _ctypes_ReadLock))
453
 
 
454
 
 
455
 
if len(_lock_classes) == 0:
456
 
    raise NotImplementedError(
457
 
        "We must have one of fcntl, pywin32, or ctypes available"
458
 
        " to support OS locking."
459
 
        )
460
 
 
461
 
 
462
 
# We default to using the first available lock class.
463
 
_lock_type, WriteLock, ReadLock = _lock_classes[0]
464