-import metadata, os, stat, struct, tempfile
-from bup import xstat
-from bup.helpers import *
-EMPTY_SHA = '\0'*20
-FAKE_SHA = '\x01'*20
+from __future__ import absolute_import, print_function
+import errno, os, stat, struct, tempfile
-INDEX_HDR = 'BUPI\0\0\0\5'
+from bup import metadata, xstat
+from bup._helpers import UINT_MAX, bytescmp
+from bup.compat import pending_raise, range
+from bup.helpers import (add_error, log, merge_iter, mmap_readwrite,
+ progress, qprogress, resolve_parent, slashappend)
+
+EMPTY_SHA = b'\0' * 20
+FAKE_SHA = b'\x01' * 20
+
+INDEX_HDR = b'BUPI\0\0\0\7'
# Time values are handled as integer nanoseconds since the epoch in
# memory, but are written as xstat/metadata timespecs. This behavior
# Record times (mtime, ctime, atime) as xstat/metadata timespecs, and
# store all of the times in the index so they won't interfere with the
# forthcoming metadata cache.
-INDEX_SIG = '!QQQqQqQqQIIQII20sHIIQ'
+INDEX_SIG = ('!'
+ 'Q' # dev
+ 'Q' # ino
+ 'Q' # nlink
+ 'qQ' # ctime_s, ctime_ns
+ 'qQ' # mtime_s, mtime_ns
+ 'qQ' # atime_s, atime_ns
+ 'Q' # size
+ 'I' # mode
+ 'I' # gitmode
+ '20s' # sha
+ 'H' # flags
+ 'Q' # children_ofs
+ 'I' # children_n
+ 'Q') # meta_ofs
ENTLEN = struct.calcsize(INDEX_SIG)
FOOTER_SIG = '!Q'
self._file.close()
self._file = None
- def __del__(self):
- self.close()
+ def __enter__(self):
+ return self
+
+ def __exit__(self, type, value, traceback):
+ with pending_raise(value, rethrow=True):
+ self.close()
def metadata_at(self, ofs):
self._file.seek(ofs)
except EOFError:
pass
except:
- log('index metadata in %r appears to be corrupt' % filename)
+ log('index metadata in %r appears to be corrupt\n' % filename)
raise
finally:
m_file.close()
self._file.close()
self._file = None
- def __del__(self):
- # Be optimistic.
- self.close()
+ def __enter__(self):
+ return self
+
+ def __exit__(self, type, value, traceback):
+ with pending_raise(value, rethrow=False):
+ self.close()
def store(self, metadata):
meta_encoded = metadata.encode(include_path=False)
(ofs,n) = (f.tell(), len(self.list))
if self.list:
count = len(self.list)
- #log('popping %r with %d entries\n'
+ #log('popping %r with %d entries\n'
# % (''.join(self.ename), count))
for e in self.list:
e.write(f)
class Entry:
def __init__(self, basename, name, meta_ofs, tmax):
- self.basename = str(basename)
- self.name = str(name)
+ assert basename is None or isinstance(basename, bytes)
+ assert name is None or isinstance(name, bytes)
+ self.basename = basename
+ self.name = name
self.meta_ofs = meta_ofs
self.tmax = tmax
self.children_ofs = 0
self.children_n = 0
def __repr__(self):
- return ("(%s,0x%04x,%d,%d,%d,%d,%d,%d,%d,%d,%s/%s,0x%04x,%d,0x%08x/%d)"
+ return ("(%r,0x%04x,%d,%d,%d,%d,%d,%d,%s/%s,0x%04x,%d,0x%08x/%d)"
% (self.name, self.dev, self.ino, self.nlink,
- self.ctime, self.mtime, self.atime, self.uid, self.gid,
+ self.ctime, self.mtime, self.atime,
self.size, self.mode, self.gitmode,
self.flags, self.meta_ofs,
self.children_ofs, self.children_n))
ctime[0], ctime[1],
mtime[0], mtime[1],
atime[0], atime[1],
- self.uid, self.gid, self.size, self.mode,
+ self.size, self.mode,
self.gitmode, self.sha, self.flags,
self.children_ofs, self.children_n,
self.meta_ofs)
- except (DeprecationWarning, struct.error), e:
+ except (DeprecationWarning, struct.error) as e:
log('pack error: %s (%r)\n' % (e, self))
raise
- def from_stat(self, st, meta_ofs, tstart, check_device=True):
- old = (self.dev if check_device else 0,
- self.ino, self.nlink, self.ctime, self.mtime,
- self.uid, self.gid, self.size, self.flags & IX_EXISTS)
- new = (st.st_dev if check_device else 0,
- st.st_ino, st.st_nlink, st.st_ctime, st.st_mtime,
- st.st_uid, st.st_gid, st.st_size, IX_EXISTS)
+ def stale(self, st, check_device=True):
+ if self.size != st.st_size:
+ return True
+ if self.mtime != st.st_mtime:
+ return True
+ if self.sha == EMPTY_SHA:
+ return True
+ if not self.gitmode:
+ return True
+ if self.ctime != st.st_ctime:
+ return True
+ if self.ino != st.st_ino:
+ return True
+ if self.nlink != st.st_nlink:
+ return True
+ if not (self.flags & IX_EXISTS):
+ return True
+ if check_device and (self.dev != st.st_dev):
+ return True
+ return False
+
+ def update_from_stat(self, st, meta_ofs):
+ # Should only be called when the entry is stale(), and
+ # invalidate() should almost certainly be called afterward.
self.dev = st.st_dev
self.ino = st.st_ino
self.nlink = st.st_nlink
self.ctime = st.st_ctime
self.mtime = st.st_mtime
self.atime = st.st_atime
- self.uid = st.st_uid
- self.gid = st.st_gid
self.size = st.st_size
self.mode = st.st_mode
self.flags |= IX_EXISTS
self.meta_ofs = meta_ofs
- # Check that the ctime's "second" is at or after tstart's.
- ctime_sec_in_ns = xstat.fstime_floor_secs(st.st_ctime) * 10**9
- if ctime_sec_in_ns >= tstart or old != new \
- or self.sha == EMPTY_SHA or not self.gitmode:
- self.invalidate()
self._fixup()
-
+
def _fixup(self):
- if self.uid < 0:
- self.uid += 0x100000000
- if self.gid < 0:
- self.gid += 0x100000000
- assert(self.uid >= 0)
- assert(self.gid >= 0)
self.mtime = self._fixup_time(self.mtime)
self.ctime = self._fixup_time(self.ctime)
def is_fake(self):
return not self.ctime
- def __cmp__(a, b):
- return (cmp(b.name, a.name)
- or cmp(a.is_valid(), b.is_valid())
- or cmp(a.is_fake(), b.is_fake()))
+ def _cmp(self, other):
+ # Note reversed name ordering
+ bc = bytescmp(other.name, self.name)
+ if bc != 0:
+ return bc
+ vc = self.is_valid() - other.is_valid()
+ if vc != 0:
+ return vc
+ fc = self.is_fake() - other.is_fake()
+ if fc != 0:
+ return fc
+ return 0
+
+ def __eq__(self, other):
+ return self._cmp(other) == 0
+
+ def __ne__(self, other):
+ return self._cmp(other) != 0
+
+ def __lt__(self, other):
+ return self._cmp(other) < 0
+
+ def __gt__(self, other):
+ return self._cmp(other) > 0
+
+ def __le__(self, other):
+ return self._cmp(other) <= 0
+
+ def __ge__(self, other):
+ return self._cmp(other) >= 0
def write(self, f):
- f.write(self.basename + '\0' + self.packed())
+ f.write(self.basename + b'\0' + self.packed())
class NewEntry(Entry):
def __init__(self, basename, name, tmax, dev, ino, nlink,
ctime, mtime, atime,
- uid, gid, size, mode, gitmode, sha, flags, meta_ofs,
+ size, mode, gitmode, sha, flags, meta_ofs,
children_ofs, children_n):
Entry.__init__(self, basename, name, meta_ofs, tmax)
(self.dev, self.ino, self.nlink, self.ctime, self.mtime, self.atime,
- self.uid, self.gid, self.size, self.mode, self.gitmode, self.sha,
+ self.size, self.mode, self.gitmode, self.sha,
self.flags, self.children_ofs, self.children_n
- ) = (dev, ino, nlink, ctime, mtime, atime, uid, gid,
+ ) = (dev, ino, nlink, ctime, mtime, atime,
size, mode, gitmode, sha, flags, children_ofs, children_n)
self._fixup()
class BlankNewEntry(NewEntry):
def __init__(self, basename, meta_ofs, tmax):
NewEntry.__init__(self, basename, basename, tmax,
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+ 0, 0, 0, 0, 0, 0, 0, 0,
0, EMPTY_SHA, 0, meta_ofs, 0, 0)
self._ofs = ofs
(self.dev, self.ino, self.nlink,
self.ctime, ctime_ns, self.mtime, mtime_ns, self.atime, atime_ns,
- self.uid, self.gid, self.size, self.mode, self.gitmode, self.sha,
+ self.size, self.mode, self.gitmode, self.sha,
self.flags, self.children_ofs, self.children_n, self.meta_ofs
- ) = struct.unpack(INDEX_SIG, str(buffer(m, ofs, ENTLEN)))
+ ) = struct.unpack(INDEX_SIG, m[ofs : ofs + ENTLEN])
self.atime = xstat.timespec_to_nsecs((self.atime, atime_ns))
self.mtime = xstat.timespec_to_nsecs((self.mtime, mtime_ns))
self.ctime = xstat.timespec_to_nsecs((self.ctime, ctime_ns))
def iter(self, name=None, wantrecurse=None):
dname = name
- if dname and not dname.endswith('/'):
- dname += '/'
+ if dname and not dname.endswith(b'/'):
+ dname += b'/'
ofs = self.children_ofs
assert(ofs <= len(self._m))
- assert(self.children_n < 1000000)
- for i in xrange(self.children_n):
- eon = self._m.find('\0', ofs)
+ assert(self.children_n <= UINT_MAX) # i.e. python struct 'I'
+ for i in range(self.children_n):
+ eon = self._m.find(b'\0', ofs)
assert(eon >= 0)
assert(eon >= ofs)
assert(eon > ofs)
- basename = str(buffer(self._m, ofs, eon-ofs))
+ basename = self._m[ofs : ofs + (eon - ofs)]
child = ExistingEntry(self, basename, self.name + basename,
self._m, eon+1)
if (not dname
or child.name.startswith(dname)
- or child.name.endswith('/') and dname.startswith(child.name)):
+ or child.name.endswith(b'/') and dname.startswith(child.name)):
if not wantrecurse or wantrecurse(child):
for e in child.iter(name=name, wantrecurse=wantrecurse):
yield e
def __iter__(self):
return self.iter()
-
+
class Reader:
def __init__(self, filename):
self.filename = filename
- self.m = ''
+ self.m = b''
self.writable = False
self.count = 0
f = None
try:
- f = open(filename, 'r+')
- except IOError, e:
+ f = open(filename, 'rb+')
+ except IOError as e:
if e.errno == errno.ENOENT:
pass
else:
self.m = mmap_readwrite(f)
self.writable = True
self.count = struct.unpack(FOOTER_SIG,
- str(buffer(self.m, st.st_size-FOOTLEN, FOOTLEN)))[0]
+ self.m[st.st_size - FOOTLEN
+ : st.st_size])[0]
def __del__(self):
self.close()
def forward_iter(self):
ofs = len(INDEX_HDR)
while ofs+ENTLEN <= len(self.m)-FOOTLEN:
- eon = self.m.find('\0', ofs)
+ eon = self.m.find(b'\0', ofs)
assert(eon >= 0)
assert(eon >= ofs)
assert(eon > ofs)
- basename = str(buffer(self.m, ofs, eon-ofs))
+ basename = self.m[ofs : ofs + (eon - ofs)]
yield ExistingEntry(None, basename, basename, self.m, eon+1)
ofs = eon + 1 + ENTLEN
def iter(self, name=None, wantrecurse=None):
if len(self.m) > len(INDEX_HDR)+ENTLEN:
dname = name
- if dname and not dname.endswith('/'):
- dname += '/'
- root = ExistingEntry(None, '/', '/',
+ if dname and not dname.endswith(b'/'):
+ dname += b'/'
+ root = ExistingEntry(None, b'/', b'/',
self.m, len(self.m)-FOOTLEN-ENTLEN)
for sub in root.iter(name=name, wantrecurse=wantrecurse):
yield sub
def __iter__(self):
return self.iter()
+ def find(self, name):
+ return next((e for e in self.iter(name, wantrecurse=lambda x : True)
+ if e.name == name),
+ None)
+
def exists(self):
return self.m
def filter(self, prefixes, wantrecurse=None):
for (rp, path) in reduce_paths(prefixes):
+ any_entries = False
for e in self.iter(rp, wantrecurse=wantrecurse):
+ any_entries = True
assert(e.name.startswith(rp))
name = path + e.name[len(rp):]
yield (name, e)
-
+ if not any_entries:
+ # Always return at least the top for each prefix.
+ # Otherwise something like "save x/y" will produce
+ # nothing if x is up to date.
+ pe = self.find(rp)
+ assert(pe)
+ name = path + pe.name[len(rp):]
+ yield (name, pe)
# FIXME: this function isn't very generic, because it splits the filename
# in an odd way and depends on a terminating '/' to indicate directories.
def pathsplit(p):
"""Split a path into a list of elements of the file system hierarchy."""
- l = p.split('/')
- l = [i+'/' for i in l[:-1]] + l[-1:]
- if l[-1] == '':
+ l = p.split(b'/')
+ l = [i + b'/' for i in l[:-1]] + l[-1:]
+ if l[-1] == b'':
l.pop() # extra blank caused by terminating '/'
return l
self.count = 0
self.lastfile = None
self.filename = None
- self.filename = filename = realpath(filename)
+ self.filename = filename = resolve_parent(filename)
self.metastore = metastore
self.tmax = tmax
(dir,name) = os.path.split(filename)
- (ffd,self.tmpname) = tempfile.mkstemp('.tmp', filename, dir)
+ ffd, self.tmpname = tempfile.mkstemp(b'.tmp', filename, dir)
self.f = os.fdopen(ffd, 'wb', 65536)
self.f.write(INDEX_HDR)
def _add(self, ename, entry):
if self.lastfile and self.lastfile <= ename:
- raise Error('%r must come before %r'
+ raise Error('%r must come before %r'
% (''.join(ename), ''.join(self.lastfile)))
self.lastfile = ename
self.level = _golevel(self.level, self.f, ename, entry,
self.metastore, self.tmax)
def add(self, name, st, meta_ofs, hashgen = None):
- endswith = name.endswith('/')
+ endswith = name.endswith(b'/')
ename = pathsplit(name)
basename = ename[-1]
#log('add: %r %r\n' % (basename, name))
e = NewEntry(basename, name, self.tmax,
st.st_dev, st.st_ino, st.st_nlink,
st.st_ctime, st.st_mtime, st.st_atime,
- st.st_uid, st.st_gid,
st.st_size, st.st_mode, gitmode, sha, flags,
meta_ofs, 0, 0)
else:
return Reader(self.tmpname)
+def _slashappend_or_add_error(p, caller):
+ """Return p, after ensuring it has a single trailing slash if it names
+ a directory, unless there's an OSError, in which case, call
+ add_error() and return None."""
+ try:
+ st = os.lstat(p)
+ except OSError as e:
+ add_error('%s: %s' % (caller, e))
+ return None
+ else:
+ if stat.S_ISDIR(st.st_mode):
+ return slashappend(p)
+ return p
+
+
+def unique_resolved_paths(paths):
+ "Return a collection of unique resolved paths."
+ rps = (_slashappend_or_add_error(resolve_parent(p), 'unique_resolved_paths')
+ for p in paths)
+ return frozenset((x for x in rps if x is not None))
+
+
def reduce_paths(paths):
xpaths = []
for p in paths:
- rp = realpath(p)
- try:
- st = os.lstat(rp)
- if stat.S_ISDIR(st.st_mode):
- rp = slashappend(rp)
- p = slashappend(p)
- xpaths.append((rp, p))
- except OSError, e:
- add_error('reduce_paths: %s' % e)
+ rp = _slashappend_or_add_error(resolve_parent(p), 'reduce_paths')
+ if rp:
+ xpaths.append((rp, slashappend(p) if rp.endswith(b'/') else p))
xpaths.sort()
paths = []
prev = None
for (rp, p) in xpaths:
- if prev and (prev == rp
- or (prev.endswith('/') and rp.startswith(prev))):
+ if prev and (prev == rp
+ or (prev.endswith(b'/') and rp.startswith(prev))):
continue # already superceded by previous path
paths.append((rp, p))
prev = rp
paths.sort(reverse=True)
return paths
+
def merge(*iters):
def pfunc(count, total):
qprogress('bup: merging indexes (%d/%d)\r' % (count, total))