~bzr-pqm/bzr/bzr.dev : contents of bzrlib/statcache.py at revision 429

~bzr-pqm/bzr/bzr.dev : (revision 429)

# (C) 2005 Canonical Ltd

# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.

# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.

# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

import stat, os, sha, time
from binascii import b2a_qp, a2b_qp

from trace import mutter
from errors import BzrError


"""File stat cache to speed up tree comparisons.

This module basically gives a quick way to find the SHA-1 and related
information of a file in the working directory, without actually
reading and hashing the whole file.

This is done by maintaining a cache indexed by a file fingerprint of
(path, size, mtime, ctime, ino, dev) pointing to the SHA-1.  If the
fingerprint has changed, we assume the file content has not changed
either and the SHA-1 is therefore the same.

If any of the fingerprint fields have changed then the file content
*may* have changed, or it may not have.  We need to reread the file
contents to make sure, but this is not visible to the user or
higher-level code (except as a delay of course).

The mtime and ctime are stored with nanosecond fields, but not all
filesystems give this level of precision.  There is therefore a
possible race: the file might be modified twice within a second
without changing the size or mtime, and a SHA-1 cached from the first
version would be wrong.  We handle this by not recording a cached hash
for any files which were modified in the current second and that
therefore have the chance to change again before the second is up.

The only known hole in this design is if the system clock jumps
backwards crossing invocations of bzr.  Please don't do that; use ntp
to gradually adjust your clock or don't use bzr over the step.

At the moment this is stored in a simple textfile; it might be nice
to use a tdb instead.
"""



def fingerprint(path, abspath):
    try:
        fs = os.lstat(abspath)
    except OSError:
        # might be missing, etc
        return None

    if stat.S_ISDIR(fs.st_mode):
        return None

    return (fs.st_size, fs.st_mtime,
            fs.st_ctime, fs.st_ino, fs.st_dev)


def write_cache(branch, entry_iter):
    from atomicfile import AtomicFile
    
    outf = AtomicFile(branch.controlfilename('work-cache.tmp'), 'wb')
    try:
        for entry in entry_iter:
            outf.write(entry[0] + ' ' + entry[1] + ' ')
            outf.write(b2a_qp(entry[2], True))
            outf.write(' %d %d %d %d %d\n' % entry[3:])

        outf.commit()
    finally:
        if not outf.closed:
            outf.abort()
        
        
def load_cache(branch):
    cache = {}

    try:
        cachefile = branch.controlfile('work-cache', 'rb')
    except IOError:
        return cache
    
    for l in cachefile:
        f = l.split(' ')
        file_id = f[0]
        if file_id in cache:
            raise BzrError("duplicated file_id in cache: {%s}" % file_id)
        cache[file_id] = (f[0], f[1], a2b_qp(f[2])) + tuple([long(x) for x in f[3:]])
    return cache




def _files_from_inventory(inv):
    for path, ie in inv.iter_entries():
        if ie.kind != 'file':
            continue
        yield ie.file_id, path
    

def build_cache(branch):
    inv = branch.read_working_inventory()

    cache = {}
    _update_cache_from_list(branch, cache, _files_from_inventory(inv))
    


def update_cache(branch, inv):
    # TODO: It's supposed to be faster to stat the files in order by inum.
    # We don't directly know the inum of the files of course but we do
    # know where they were last sighted, so we can sort by that.

    cache = load_cache(branch)
    return _update_cache_from_list(branch, cache, _files_from_inventory(inv))



def _update_cache_from_list(branch, cache, to_update):
    """Update the cache to have info on the named files.

    to_update is a sequence of (file_id, path) pairs.
    """
    hardcheck = dirty = 0
    for file_id, path in to_update:
        fap = branch.abspath(path)
        fp = fingerprint(fap, path)
        cacheentry = cache.get(file_id)

        if fp == None: # not here
            if cacheentry:
                del cache[file_id]
                dirty += 1
            continue

        if cacheentry and (cacheentry[3:] == fp):
            continue                    # all stat fields unchanged

        hardcheck += 1

        dig = sha.new(file(fap, 'rb').read()).hexdigest()

        if cacheentry == None or dig != cacheentry[1]: 
            # if there was no previous entry for this file, or if the
            # SHA has changed, then update the cache
            cacheentry = (file_id, dig, path) + fp
            cache[file_id] = cacheentry
            dirty += 1

    mutter('work cache: read %d files, %d changed' % (hardcheck, dirty))
        
    if dirty:
        write_cache(branch, cache.itervalues())

    return cache

362 by Martin Pool - Import stat-cache code	1	# (C) 2005 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	import stat, os, sha, time
	18	from binascii import b2a_qp, a2b_qp
	19
	20	from trace import mutter
428 by Martin Pool - Use AtomicFile to update statcache.	21	from errors import BzrError
362 by Martin Pool - Import stat-cache code	22
362 by Martin Pool - Import stat-cache code	23
427 by Martin Pool - statcache docs	24	"""File stat cache to speed up tree comparisons.
	25
	26	This module basically gives a quick way to find the SHA-1 and related
	27	information of a file in the working directory, without actually
	28	reading and hashing the whole file.
	29
	30	This is done by maintaining a cache indexed by a file fingerprint of
	31	(path, size, mtime, ctime, ino, dev) pointing to the SHA-1. If the
	32	fingerprint has changed, we assume the file content has not changed
	33	either and the SHA-1 is therefore the same.
	34
	35	If any of the fingerprint fields have changed then the file content
	36	may have changed, or it may not have. We need to reread the file
	37	contents to make sure, but this is not visible to the user or
	38	higher-level code (except as a delay of course).
	39
	40	The mtime and ctime are stored with nanosecond fields, but not all
	41	filesystems give this level of precision. There is therefore a
	42	possible race: the file might be modified twice within a second
	43	without changing the size or mtime, and a SHA-1 cached from the first
	44	version would be wrong. We handle this by not recording a cached hash
	45	for any files which were modified in the current second and that
	46	therefore have the chance to change again before the second is up.
	47
	48	The only known hole in this design is if the system clock jumps
	49	backwards crossing invocations of bzr. Please don't do that; use ntp
	50	to gradually adjust your clock or don't use bzr over the step.
	51
	52	At the moment this is stored in a simple textfile; it might be nice
	53	to use a tdb instead.
	54	"""
362 by Martin Pool - Import stat-cache code	55
	56
	57
	58	def fingerprint(path, abspath):
	59	try:
	60	fs = os.lstat(abspath)
	61	except OSError:
	62	# might be missing, etc
	63	return None
	64
	65	if stat.S_ISDIR(fs.st_mode):
	66	return None
	67
	68	return (fs.st_size, fs.st_mtime,
	69	fs.st_ctime, fs.st_ino, fs.st_dev)
	70
	71
	72	def write_cache(branch, entry_iter):
428 by Martin Pool - Use AtomicFile to update statcache.	73	from atomicfile import AtomicFile
428 by Martin Pool - Use AtomicFile to update statcache.	74
429 by Martin Pool - New command update-stat-cache for testing	75	outf = AtomicFile(branch.controlfilename('work-cache.tmp'), 'wb')
428 by Martin Pool - Use AtomicFile to update statcache.	76	try:
	77	for entry in entry_iter:
	78	outf.write(entry[0] + ' ' + entry[1] + ' ')
	79	outf.write(b2a_qp(entry[2], True))
	80	outf.write(' %d %d %d %d %d\n' % entry[3:])
362 by Martin Pool - Import stat-cache code	81
428 by Martin Pool - Use AtomicFile to update statcache.	82	outf.commit()
	83	finally:
	84	if not outf.closed:
	85	outf.abort()
362 by Martin Pool - Import stat-cache code	86
	87
	88	def load_cache(branch):
	89	cache = {}
	90
	91	try:
429 by Martin Pool - New command update-stat-cache for testing	92	cachefile = branch.controlfile('work-cache', 'rb')
362 by Martin Pool - Import stat-cache code	93	except IOError:
	94	return cache
	95
	96	for l in cachefile:
	97	f = l.split(' ')
	98	file_id = f[0]
	99	if file_id in cache:
	100	raise BzrError("duplicated file_id in cache: {%s}" % file_id)
	101	cache[file_id] = (f[0], f[1], a2b_qp(f[2])) + tuple([long(x) for x in f[3:]])
	102	return cache
	103
	104
	105
	106
	107	def _files_from_inventory(inv):
	108	for path, ie in inv.iter_entries():
	109	if ie.kind != 'file':
	110	continue
	111	yield ie.file_id, path
	112
	113
	114	def build_cache(branch):
	115	inv = branch.read_working_inventory()
	116
	117	cache = {}
	118	_update_cache_from_list(branch, cache, _files_from_inventory(inv))
	119
	120
	121
	122	def update_cache(branch, inv):
	123	# TODO: It's supposed to be faster to stat the files in order by inum.
	124	# We don't directly know the inum of the files of course but we do
	125	# know where they were last sighted, so we can sort by that.
	126
	127	cache = load_cache(branch)
	128	return _update_cache_from_list(branch, cache, _files_from_inventory(inv))
	129
	130
	131
	132	def _update_cache_from_list(branch, cache, to_update):
	133	"""Update the cache to have info on the named files.
	134
	135	to_update is a sequence of (file_id, path) pairs.
	136	"""
	137	hardcheck = dirty = 0
	138	for file_id, path in to_update:
	139	fap = branch.abspath(path)
	140	fp = fingerprint(fap, path)
	141	cacheentry = cache.get(file_id)
	142
	143	if fp == None: # not here
	144	if cacheentry:
	145	del cache[file_id]
	146	dirty += 1
	147	continue
	148
	149	if cacheentry and (cacheentry[3:] == fp):
	150	continue # all stat fields unchanged
	151
	152	hardcheck += 1
	153
	154	dig = sha.new(file(fap, 'rb').read()).hexdigest()
	155
	156	if cacheentry == None or dig != cacheentry[1]:
157	# if there was no previous entry for this file, or if the
158	# SHA has changed, then update the cache
159	cacheentry = (file_id, dig, path) + fp
160	cache[file_id] = cacheentry
161	dirty += 1
162
163	mutter('work cache: read %d files, %d changed' % (hardcheck, dirty))
164
165	if dirty:
166	write_cache(branch, cache.itervalues())
167
168	return cache