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# Copyright (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 time
import tempfile
from binascii import hexlify
from bzrlib.osutils import (local_time_offset, username,
rand_bytes, compact_date, user_email,
kind_marker, is_inside_any, quotefn,
sha_string, isdir, isfile)
from bzrlib.branch import gen_file_id
from bzrlib.errors import BzrError, PointlessCommit
from bzrlib.revision import Revision, RevisionReference
from bzrlib.trace import mutter, note
from bzrlib.xml import serializer_v4
from bzrlib.inventory import Inventory
def commit(branch, message,
timestamp=None,
timezone=None,
committer=None,
verbose=True,
specific_files=None,
rev_id=None,
allow_pointless=True):
"""Commit working copy as a new revision.
The basic approach is to add all the file texts into the
store, then the inventory, then make a new revision pointing
to that inventory and store that.
This is not quite safe if the working copy changes during the
commit; for the moment that is simply not allowed. A better
approach is to make a temporary copy of the files before
computing their hashes, and then add those hashes in turn to
the inventory. This should mean at least that there are no
broken hash pointers. There is no way we can get a snapshot
of the whole directory at an instant. This would also have to
be robust against files disappearing, moving, etc. So the
whole thing is a bit hard.
This raises PointlessCommit if there are no changes, no new merges,
and allow_pointless is false.
timestamp -- if not None, seconds-since-epoch for a
postdated/predated commit.
specific_files
If true, commit only those files.
rev_id
If set, use this as the new revision id.
Useful for test or import commands that need to tightly
control what revisions are assigned. If you duplicate
a revision id that exists elsewhere it is your own fault.
If null (default), a time/random revision id is generated.
"""
branch.lock_write()
try:
# First walk over the working inventory; and both update that
# and also build a new revision inventory. The revision
# inventory needs to hold the text-id, sha1 and size of the
# actual file versions committed in the revision. (These are
# not present in the working inventory.) We also need to
# detect missing/deleted files, and remove them from the
# working inventory.
work_tree = branch.working_tree()
work_inv = work_tree.inventory
basis = branch.basis_tree()
basis_inv = basis.inventory
if verbose:
# note('looking for changes...')
# print 'looking for changes...'
# disabled; should be done at a higher level
pass
pending_merges = branch.pending_merges()
missing_ids, new_inv, any_changes = \
_gather_commit(branch,
work_tree,
work_inv,
basis_inv,
specific_files,
verbose)
if not (any_changes or allow_pointless or pending_merges):
raise PointlessCommit()
for file_id in missing_ids:
# Any files that have been deleted are now removed from the
# working inventory. Files that were not selected for commit
# are left as they were in the working inventory and ommitted
# from the revision inventory.
# have to do this later so we don't mess up the iterator.
# since parents may be removed before their children we
# have to test.
# FIXME: There's probably a better way to do this; perhaps
# the workingtree should know how to filter itbranch.
if work_inv.has_id(file_id):
del work_inv[file_id]
if rev_id is None:
rev_id = _gen_revision_id(branch, time.time())
inv_id = rev_id
inv_tmp = tempfile.TemporaryFile()
serializer_v4.write_inventory(new_inv, inv_tmp)
inv_tmp.seek(0)
branch.inventory_store.add(inv_tmp, inv_id)
mutter('new inventory_id is {%s}' % inv_id)
# We could also just sha hash the inv_tmp file
# however, in the case that branch.inventory_store.add()
# ever actually does anything special
inv_sha1 = branch.get_inventory_sha1(inv_id)
branch._write_inventory(work_inv)
if timestamp == None:
timestamp = time.time()
if committer == None:
committer = username(branch)
if timezone == None:
timezone = local_time_offset()
mutter("building commit log message")
rev = Revision(timestamp=timestamp,
timezone=timezone,
committer=committer,
message = message,
inventory_id=inv_id,
inventory_sha1=inv_sha1,
revision_id=rev_id)
rev.parents = []
precursor_id = branch.last_patch()
if precursor_id:
precursor_sha1 = branch.get_revision_sha1(precursor_id)
rev.parents.append(RevisionReference(precursor_id, precursor_sha1))
for merge_rev in pending_merges:
rev.parents.append(RevisionReference(merge_rev))
rev_tmp = tempfile.TemporaryFile()
serializer_v4.write_revision(rev, rev_tmp)
rev_tmp.seek(0)
branch.revision_store.add(rev_tmp, rev_id)
mutter("new revision_id is {%s}" % rev_id)
## XXX: Everything up to here can simply be orphaned if we abort
## the commit; it will leave junk files behind but that doesn't
## matter.
## TODO: Read back the just-generated changeset, and make sure it
## applies and recreates the right state.
## TODO: Also calculate and store the inventory SHA1
mutter("committing patch r%d" % (branch.revno() + 1))
branch.append_revision(rev_id)
branch.set_pending_merges([])
if verbose:
# disabled; should go through logging
# note("commited r%d" % branch.revno())
# print ("commited r%d" % branch.revno())
pass
finally:
branch.unlock()
def _gen_revision_id(branch, when):
"""Return new revision-id."""
s = '%s-%s-' % (user_email(branch), compact_date(when))
s += hexlify(rand_bytes(8))
return s
def _gather_commit(branch, work_tree, work_inv, basis_inv, specific_files,
verbose):
"""Build inventory preparatory to commit.
Returns missing_ids, new_inv, any_changes.
This adds any changed files into the text store, and sets their
test-id, sha and size in the returned inventory appropriately.
missing_ids
Modified to hold a list of files that have been deleted from
the working directory; these should be removed from the
working inventory.
"""
any_changes = False
inv = Inventory(work_inv.root.file_id)
missing_ids = []
for path, entry in work_inv.iter_entries():
## TODO: Check that the file kind has not changed from the previous
## revision of this file (if any).
p = branch.abspath(path)
file_id = entry.file_id
mutter('commit prep file %s, id %r ' % (p, file_id))
if specific_files and not is_inside_any(specific_files, path):
mutter(' skipping file excluded from commit')
if basis_inv.has_id(file_id):
# carry over with previous state
inv.add(basis_inv[file_id].copy())
else:
# omit this from committed inventory
pass
continue
if not work_tree.has_id(file_id):
if verbose:
print('deleted %s%s' % (path, kind_marker(entry.kind)))
any_changes = True
mutter(" file is missing, removing from inventory")
missing_ids.append(file_id)
continue
# this is present in the new inventory; may be new, modified or
# unchanged.
old_ie = basis_inv.has_id(file_id) and basis_inv[file_id]
entry = entry.copy()
inv.add(entry)
if old_ie:
old_kind = old_ie.kind
if old_kind != entry.kind:
raise BzrError("entry %r changed kind from %r to %r"
% (file_id, old_kind, entry.kind))
if entry.kind == 'directory':
if not isdir(p):
raise BzrError("%s is entered as directory but not a directory"
% quotefn(p))
elif entry.kind == 'file':
if not isfile(p):
raise BzrError("%s is entered as file but is not a file" % quotefn(p))
new_sha1 = work_tree.get_file_sha1(file_id)
if (old_ie
and old_ie.text_sha1 == new_sha1):
## assert content == basis.get_file(file_id).read()
entry.text_id = old_ie.text_id
entry.text_sha1 = new_sha1
entry.text_size = old_ie.text_size
mutter(' unchanged from previous text_id {%s}' %
entry.text_id)
else:
content = file(p, 'rb').read()
# calculate the sha again, just in case the file contents
# changed since we updated the cache
entry.text_sha1 = sha_string(content)
entry.text_size = len(content)
entry.text_id = gen_file_id(entry.name)
branch.text_store.add(content, entry.text_id)
mutter(' stored with text_id {%s}' % entry.text_id)
if verbose:
marked = path + kind_marker(entry.kind)
if not old_ie:
print 'added', marked
any_changes = True
elif old_ie == entry:
pass # unchanged
elif (old_ie.name == entry.name
and old_ie.parent_id == entry.parent_id):
print 'modified', marked
any_changes = True
else:
print 'renamed', marked
any_changes = True
return missing_ids, inv, any_changes
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