Mercurial > hgsubversion
view hg_delta_editor.py @ 322:05cd4a5138bf
Move some .warn() calls to noisy levels instead.
author | Augie Fackler <durin42@gmail.com> |
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date | Fri, 08 May 2009 16:11:52 -0500 |
parents | b6c6d32c8ef1 |
children | 4f4db3d2fdbb 235022089da6 |
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import cStringIO import cPickle as pickle import os import sys import tempfile import traceback from mercurial import context from mercurial import hg from mercurial import ui from mercurial import util as hgutil from mercurial import revlog from mercurial import node from svn import delta from svn import core import svnexternals import util import maps def pickle_atomic(data, file_path, dir=None): """pickle some data to a path atomically. This is present because I kept corrupting my revmap by managing to hit ^C during the pickle of that file. """ try: f, path = tempfile.mkstemp(prefix='pickling', dir=dir) f = os.fdopen(f, 'w') pickle.dump(data, f) f.close() except: #pragma: no cover raise else: hgutil.rename(path, file_path) def stash_exception_on_self(fn): """Stash any exception raised in the method on self. This is required because the SWIG bindings just mutate any exception into a generic Subversion exception with no way of telling what the original was. This allows the editor object to notice when you try and commit and really got an exception in the replay process. """ def fun(self, *args, **kwargs): try: return fn(self, *args, **kwargs) except: #pragma: no cover if not hasattr(self, '_exception_info'): self._exception_info = sys.exc_info() raise return fun class HgChangeReceiver(delta.Editor): def add_to_revmap(self, revnum, branch, node_hash): f = open(self.revmap_file, 'a') f.write(str(revnum) + ' ' + node.hex(node_hash) + ' ' + (branch or '') + '\n') f.flush() f.close() self.revmap[revnum, branch] = node_hash def last_known_revision(self): """Obtain the highest numbered -- i.e. latest -- revision known. Currently, this function just iterates over the entire revision map using the max() builtin. This may be slow for extremely large repositories, but for now, it's fast enough. """ try: return max(k[0] for k in self.revmap.iterkeys()) except ValueError: return 0 def __init__(self, path=None, repo=None, ui_=None, subdir='', author_host='', tag_locations=['tags'], authors=None, filemap=None): """path is the path to the target hg repo. subdir is the subdirectory of the edits *on the svn server*. It is needed for stripping paths off in certain cases. """ if repo and repo.ui and not ui_: ui_ = repo.ui if not ui_: ui_ = ui.ui() self.ui = ui_ if repo: self.repo = repo self.path = os.path.normpath(os.path.join(self.repo.path, '..')) elif path: self.path = path self.__setup_repo(path) else: #pragma: no cover raise TypeError("Expected either path or repo argument") self.subdir = subdir if self.subdir and self.subdir[0] == '/': self.subdir = self.subdir[1:] self.revmap = {} if os.path.exists(self.revmap_file): self.revmap = util.parse_revmap(self.revmap_file) self.branches = {} if os.path.exists(self.branch_info_file): f = open(self.branch_info_file) self.branches = pickle.load(f) f.close() self.tags = {} if os.path.exists(self.tag_info_file): f = open(self.tag_info_file) self.tags = pickle.load(f) f.close() if os.path.exists(self.tag_locations_file): f = open(self.tag_locations_file) self.tag_locations = pickle.load(f) f.close() else: self.tag_locations = tag_locations pickle_atomic(self.tag_locations, self.tag_locations_file, self.meta_data_dir) # ensure nested paths are handled properly self.tag_locations.sort() self.tag_locations.reverse() self.clear_current_info() self.authors = maps.AuthorMap(self.ui, self.authors_file, defaulthost=author_host) if authors: self.authors.load(authors) self.lastdate = '1970-01-01 00:00:00 -0000' self.includepaths = {} self.excludepaths = {} if filemap and os.path.exists(filemap): self.readfilemap(filemap) def fixdate(self, date): if date is not None: date = date.replace('T', ' ').replace('Z', '').split('.')[0] date += ' -0000' self.lastdate = date else: date = self.lastdate return date def __setup_repo(self, repo_path): """Verify the repo is going to work out for us. This method will fail an assertion if the repo exists but doesn't have the Subversion metadata. """ if os.path.isdir(repo_path) and len(os.listdir(repo_path)): self.repo = hg.repository(self.ui, repo_path) assert os.path.isfile(self.revmap_file) assert os.path.isfile(self.svn_url_file) assert os.path.isfile(self.uuid_file) else: self.repo = hg.repository(self.ui, repo_path, create=True) os.makedirs(os.path.dirname(self.uuid_file)) f = open(self.revmap_file, 'w') f.write('%s\n' % util.REVMAP_FILE_VERSION) f.flush() f.close() def clear_current_info(self): '''Clear the info relevant to a replayed revision so that the next revision can be replayed. ''' # Map files to raw svn data (symlink prefix is preserved) self.current_files = {} self.deleted_files = {} self.current_rev = None self.current_files_exec = {} self.current_files_symlink = {} self.dir_batons = {} # Map fully qualified destination file paths to module source path self.copies = {} self.missing_plaintexts = set() self.commit_branches_empty = {} self.base_revision = None self.branches_to_delete = set() self.externals = {} def _save_metadata(self): '''Save the Subversion metadata. This should really be called after every revision is created. ''' pickle_atomic(self.branches, self.branch_info_file, self.meta_data_dir) pickle_atomic(self.tags, self.tag_info_file, self.meta_data_dir) def branches_in_paths(self, paths, revnum, checkpath, listdir): '''Given a list of paths, return mapping of all branches touched to their branch path. ''' branches = {} paths_need_discovery = [] for p in paths: relpath, branch, branchpath = self._split_branch_path(p) if relpath is not None: branches[branch] = branchpath elif paths[p].action == 'D' and not self._is_path_tag(p): ln = self._localname(p) # must check in branches_to_delete as well, because this runs after we # already updated the branch map if ln in self.branches or ln in self.branches_to_delete: branches[self._localname(p)] = p else: paths_need_discovery.append(p) if paths_need_discovery: paths_need_discovery = [(len(p), p) for p in paths_need_discovery] paths_need_discovery.sort() paths_need_discovery = [p[1] for p in paths_need_discovery] actually_files = [] while paths_need_discovery: p = paths_need_discovery.pop(0) path_could_be_file = True ind = 0 while ind < len(paths_need_discovery) and not paths_need_discovery: if op.startswith(p): path_could_be_file = False ind += 1 if path_could_be_file: if checkpath(p, revnum) == 'f': actually_files.append(p) # if there's a copyfrom_path and there were files inside that copyfrom, # we need to detect those branches. It's a little thorny and slow, but # seems to be the best option. elif paths[p].copyfrom_path and not p.startswith('tags/'): paths_need_discovery.extend(['%s/%s' % (p,x[0]) for x in listdir(p, revnum) if x[1] == 'f']) if actually_files: filepaths = [p.split('/') for p in actually_files] filepaths = [(len(p), p) for p in filepaths] filepaths.sort() filepaths = [p[1] for p in filepaths] while filepaths: path = filepaths.pop(0) parentdir = '/'.join(path[:-1]) filepaths = [p for p in filepaths if not '/'.join(p).startswith(parentdir)] branchpath = self._normalize_path(parentdir) if branchpath.startswith('tags/'): continue branchname = self._localname(branchpath) if branchpath.startswith('trunk/'): branches[self._localname('trunk')] = 'trunk' continue if branchname and branchname.startswith('../'): continue branches[branchname] = branchpath return branches def _path_and_branch_for_path(self, path, existing=True): return self._split_branch_path(path, existing=existing)[:2] def _branch_for_path(self, path, existing=True): return self._path_and_branch_for_path(path, existing=existing)[1] def _localname(self, path): """Compute the local name for a branch located at path. """ assert not path.startswith('tags/') if path == 'trunk': return None elif path.startswith('branches/'): return path[len('branches/'):] return '../%s' % path def _remotename(self, branch): if branch == 'default' or branch is None: return 'trunk' elif branch.startswith('../'): return branch[3:] return 'branches/%s' % branch def _split_branch_path(self, path, existing=True): """Figure out which branch inside our repo this path represents, and also figure out which path inside that branch it is. Returns a tuple of (path within branch, local branch name, server-side branch path). If existing=True, will return None, None, None if the file isn't on some known branch. If existing=False, then it will guess what the branch would be if it were known. """ path = self._normalize_path(path) if path.startswith('tags/'): return None, None, None test = '' path_comps = path.split('/') while self._localname(test) not in self.branches and len(path_comps): if not test: test = path_comps.pop(0) else: test += '/%s' % path_comps.pop(0) if self._localname(test) in self.branches: return path[len(test)+1:], self._localname(test), test if existing: return None, None, None if path == 'trunk' or path.startswith('trunk/'): path = path.split('/')[1:] test = 'trunk' elif path.startswith('branches/'): elts = path.split('/') test = '/'.join(elts[:2]) path = '/'.join(elts[2:]) else: path = test.split('/')[-1] test = '/'.join(test.split('/')[:-1]) ln = self._localname(test) if ln and ln.startswith('../'): return None, None, None return path, ln, test def set_current_rev(self, rev): """Set the revision we're currently converting. """ self.current_rev = rev def set_file(self, path, data, isexec=False, islink=False): if islink: data = 'link ' + data self.current_files[path] = data self.current_files_exec[path] = isexec self.current_files_symlink[path] = islink if path in self.deleted_files: del self.deleted_files[path] if path in self.missing_plaintexts: self.missing_plaintexts.remove(path) def delete_file(self, path): self.deleted_files[path] = True if path in self.current_files: del self.current_files[path] self.current_files_exec[path] = False self.current_files_symlink[path] = False self.ui.note('D %s\n' % path) def _normalize_path(self, path): '''Normalize a path to strip of leading slashes and our subdir if we have one. ''' if path and path[0] == '/': path = path[1:] if path and path.startswith(self.subdir): path = path[len(self.subdir):] if path and path[0] == '/': path = path[1:] return path def _is_file_included(self, subpath): def checkpathinmap(path, mapping): def rpairs(name): yield '.', name e = len(name) while e != -1: yield name[:e], name[e+1:] e = name.rfind('/', 0, e) for pre, suf in rpairs(path): try: return mapping[pre] except KeyError, err: pass return None if len(self.includepaths) and len(subpath): inc = checkpathinmap(subpath, self.includepaths) else: inc = subpath if len(self.excludepaths) and len(subpath): exc = checkpathinmap(subpath, self.excludepaths) else: exc = None if inc is None or exc is not None: return False return True def _is_path_valid(self, path): if path is None: return False subpath = self._split_branch_path(path)[0] if subpath is None: return False return self._is_file_included(subpath) def _is_path_tag(self, path): """If path could represent the path to a tag, returns the potential tag name. Note that it's only a tag if it was copied from the path '' in a branch (or tag) we have, for our purposes. Otherwise, returns False. """ return self._split_tag_path(path)[1] or False def _split_tag_path(self, path): """Figure out which tag inside our repo this path represents, and also figure out which path inside that tag it is. Returns a tuple of (path within tag, tag name, server-side tag path). """ path = self._normalize_path(path) for tags_path in self.tag_locations: if path and (path.startswith(tags_path) and len(path) > len('%s/' % tags_path)): tag, _, subpath = path[len(tags_path)+1:].partition('/') return (subpath, tag, '%s/%s' % (tags_path, tag)) return (None, None, None) def get_parent_svn_branch_and_rev(self, number, branch): number -= 1 if (number, branch) in self.revmap: return number, branch real_num = 0 for num, br in self.revmap.iterkeys(): if br != branch: continue if num <= number and num > real_num: real_num = num if branch in self.branches: parent_branch = self.branches[branch][0] parent_branch_rev = self.branches[branch][1] # check to see if this branch already existed and is the same if parent_branch_rev < real_num: return real_num, branch # if that wasn't true, then this is the a new branch with the # same name as some old deleted branch if parent_branch_rev <= 0 and real_num == 0: return None, None branch_created_rev = self.branches[branch][2] if parent_branch == 'trunk': parent_branch = None if branch_created_rev <= number+1 and branch != parent_branch: return self.get_parent_svn_branch_and_rev( parent_branch_rev+1, parent_branch) if real_num != 0: return real_num, branch return None, None def get_parent_revision(self, number, branch): '''Get the parent revision hash for a commit on a specific branch. ''' r, br = self.get_parent_svn_branch_and_rev(number, branch) if r is not None: return self.revmap[r, br] return revlog.nullid def _svnpath(self, branch): """Return the relative path in svn of branch. """ if branch == None or branch == 'default': return 'trunk' elif branch.startswith('../'): return branch[3:] return 'branches/%s' % branch def _determine_parent_branch(self, p, src_path, src_rev, revnum): if src_path is not None: src_file, src_branch = self._path_and_branch_for_path(src_path) src_tag = self._is_path_tag(src_path) if src_tag != False: # also case 2 src_branch, src_rev = self.tags[src_tag] return {self._localname(p): (src_branch, src_rev, revnum )} if src_file == '': # case 2 return {self._localname(p): (src_branch, src_rev, revnum )} return {} def update_branch_tag_map_for_rev(self, revision): paths = revision.paths added_branches = {} added_tags = {} self.branches_to_delete = set() tags_to_delete = set() for p in sorted(paths): t_name = self._is_path_tag(p) if t_name != False: src_p, src_rev = paths[p].copyfrom_path, paths[p].copyfrom_rev # if you commit to a tag, I'm calling you stupid and ignoring # you. if src_p is not None and src_rev is not None: file, branch = self._path_and_branch_for_path(src_p) if file is None: # some crazy people make tags from other tags file = '' from_tag = self._is_path_tag(src_p) if not from_tag: continue branch, src_rev = self.tags[from_tag] if t_name not in added_tags: added_tags[t_name] = branch, src_rev elif file and src_rev > added_tags[t_name][1]: added_tags[t_name] = branch, src_rev elif (paths[p].action == 'D' and p.endswith(t_name) and t_name in self.tags): tags_to_delete.add(t_name) continue # At this point we know the path is not a tag. In that # case, we only care if it is the root of a new branch (in # this function). This is determined by the following # checks: # 1. Is the file located inside any currently known # branch? If yes, then we're done with it, this isn't # interesting. # 2. Does the file have copyfrom information? If yes, then # we're done: this is a new branch, and we record the # copyfrom in added_branches if it comes from the root # of another branch, or create it from scratch. # 3. Neither of the above. This could be a branch, but it # might never work out for us. It's only ever a branch # (as far as we're concerned) if it gets committed to, # which we have to detect at file-write time anyway. So # we do nothing here. # 4. It's the root of an already-known branch, with an # action of 'D'. We mark the branch as deleted. # 5. It's the parent directory of one or more # already-known branches, so we mark them as deleted. # 6. It's a branch being replaced by another branch - the # action will be 'R'. fi, br = self._path_and_branch_for_path(p) if fi is not None: if fi == '': if paths[p].action == 'D': self.branches_to_delete.add(br) # case 4 elif paths[p].action == 'R': parent = self._determine_parent_branch( p, paths[p].copyfrom_path, paths[p].copyfrom_rev, revision.revnum) added_branches.update(parent) continue # case 1 if paths[p].action == 'D': for known in self.branches: if self._svnpath(known).startswith(p): self.branches_to_delete.add(known) # case 5 parent = self._determine_parent_branch( p, paths[p].copyfrom_path, paths[p].copyfrom_rev, revision.revnum) if not parent and paths[p].copyfrom_path: bpath, branch = self._path_and_branch_for_path(p, False) if bpath is not None and branch not in self.branches: parent = {branch: (None, 0, revision.revnum)} added_branches.update(parent) for t in tags_to_delete: del self.tags[t] for br in self.branches_to_delete: del self.branches[br] for t, info in added_tags.items(): self.ui.status('Tagged %s@%s as %s\n' % (info[0] or 'trunk', info[1], t)) self.tags.update(added_tags) self.branches.update(added_branches) self._save_metadata() def _updateexternals(self): if not self.externals: return # Accumulate externals records for all branches revnum = self.current_rev.revnum branches = {} for path, entry in self.externals.iteritems(): if not self._is_path_valid(path): self.ui.warn('WARNING: Invalid path %s in externals\n' % path) continue p, b, bp = self._split_branch_path(path) if bp not in branches: external = svnexternals.externalsfile() parent = self.get_parent_revision(revnum, b) pctx = self.repo[parent] if '.hgsvnexternals' in pctx: external.read(pctx['.hgsvnexternals'].data()) branches[bp] = external else: external = branches[bp] external[p] = entry # Register the file changes for bp, external in branches.iteritems(): path = bp + '/.hgsvnexternals' if external: self.set_file(path, external.write(), False, False) else: self.delete_file(path) def commit_current_delta(self): if hasattr(self, '_exception_info'): #pragma: no cover traceback.print_exception(*self._exception_info) raise ReplayException() if self.missing_plaintexts: raise MissingPlainTextError() self._updateexternals() # paranoidly generate the list of files to commit files_to_commit = set(self.current_files.keys()) files_to_commit.update(self.current_files_symlink.keys()) files_to_commit.update(self.current_files_exec.keys()) files_to_commit.update(self.deleted_files.keys()) # back to a list and sort so we get sane behavior files_to_commit = list(files_to_commit) files_to_commit.sort() branch_batches = {} rev = self.current_rev date = self.fixdate(rev.date) # build up the branches that have files on them for f in files_to_commit: if not self._is_path_valid(f): continue p, b = self._path_and_branch_for_path(f) if b not in branch_batches: branch_batches[b] = [] branch_batches[b].append((p, f)) # close any branches that need it closed_revs = set() for branch in self.branches_to_delete: closed = revlog.nullid if 'closed-branches' in self.repo.branchtags(): closed = self.repo['closed-branches'].node() branchedits = sorted(filter(lambda x: x[0][1] == branch and x[0][0] < rev.revnum, self.revmap.iteritems()), reverse=True) if len(branchedits) < 1: # can't close a branch that never existed continue ha = branchedits[0][1] closed_revs.add(ha) # self.get_parent_revision(rev.revnum, branch) parentctx = self.repo.changectx(ha) parents = (ha, closed) def del_all_files(*args): raise IOError files = parentctx.manifest().keys() extra = {} if not self.opts.get('svn_no_branchnames', False): extra['branch'] = 'closed-branches' current_ctx = context.memctx(self.repo, parents, rev.message or ' ', files, del_all_files, self.authors[rev.author], date, extra) new_hash = self.repo.commitctx(current_ctx) self.ui.status('Marked branch %s as closed.\n' % (branch or 'default')) for branch, files in branch_batches.iteritems(): if branch in self.commit_branches_empty and files: del self.commit_branches_empty[branch] files = dict(files) parents = (self.get_parent_revision(rev.revnum, branch), revlog.nullid) if parents[0] in closed_revs and branch in self.branches_to_delete: continue extra = util.build_extra(rev.revnum, branch, open(self.uuid_file).read(), self.subdir) if branch is not None: if (branch not in self.branches and branch not in self.repo.branchtags()): continue parent_ctx = self.repo.changectx(parents[0]) if '.hgsvnexternals' not in parent_ctx and '.hgsvnexternals' in files: # Do not register empty externals files if (files['.hgsvnexternals'] in self.current_files and not self.current_files[files['.hgsvnexternals']]): del files['.hgsvnexternals'] def filectxfn(repo, memctx, path): current_file = files[path] if current_file in self.deleted_files: raise IOError() copied = self.copies.get(current_file) flags = parent_ctx.flags(path) is_exec = self.current_files_exec.get(current_file, 'x' in flags) is_link = self.current_files_symlink.get(current_file, 'l' in flags) if current_file in self.current_files: data = self.current_files[current_file] if is_link: assert data.startswith('link ') data = data[len('link '):] else: data = parent_ctx.filectx(path).data() return context.memfilectx(path=path, data=data, islink=is_link, isexec=is_exec, copied=copied) if self.opts.get('svn_no_branchnames', False): extra.pop('branch', None) current_ctx = context.memctx(self.repo, parents, rev.message or '...', files.keys(), filectxfn, self.authors[rev.author], date, extra) new_hash = self.repo.commitctx(current_ctx) util.describe_commit(self.ui, new_hash, branch) if (rev.revnum, branch) not in self.revmap: self.add_to_revmap(rev.revnum, branch, new_hash) # now we handle branches that need to be committed without any files for branch in self.commit_branches_empty: ha = self.get_parent_revision(rev.revnum, branch) if ha == node.nullid: continue parent_ctx = self.repo.changectx(ha) def del_all_files(*args): raise IOError # True here meant nuke all files, shouldn't happen with branch closing if self.commit_branches_empty[branch]: #pragma: no cover raise hgutil.Abort('Empty commit to an open branch attempted. ' 'Please report this issue.') extra = util.build_extra(rev.revnum, branch, open(self.uuid_file).read(), self.subdir) if self.opts.get('svn_no_branchnames', False): extra.pop('branch', None) current_ctx = context.memctx(self.repo, (ha, node.nullid), rev.message or ' ', [], del_all_files, self.authors[rev.author], date, extra) new_hash = self.repo.commitctx(current_ctx) util.describe_commit(self.ui, new_hash, branch) if (rev.revnum, branch) not in self.revmap: self.add_to_revmap(rev.revnum, branch, new_hash) self._save_metadata() self.clear_current_info() def readfilemap(self, filemapfile): self.ui.note( ('Reading file map from %s\n') % filemapfile) def addpathtomap(path, mapping, mapname): if path in mapping: self.ui.warn(('Duplicate %s entry in %s: "%d"\n') % (mapname, filemapfile, path)) else: self.ui.debug(('%sing %s\n') % (mapname.capitalize().strip('e'), path)) mapping[path] = path f = open(filemapfile, 'r') for line in f: if line.strip() == '' or line.strip()[0] == '#': continue try: cmd, path = line.split(' ', 1) cmd = cmd.strip() path = path.strip() if cmd == 'include': addpathtomap(path, self.includepaths, 'include') elif cmd == 'exclude': addpathtomap(path, self.excludepaths, 'exclude') else: self.ui.warn( ('Unknown filemap command %s\n') % cmd) except IndexError: self.ui.warn( ('Ignoring bad line in filemap %s: %s\n') % (filemapfile, line.rstrip())) f.close() def meta_data_dir(self): return os.path.join(self.path, '.hg', 'svn') meta_data_dir = property(meta_data_dir) def meta_file_named(self, name): return os.path.join(self.meta_data_dir, name) def revmap_file(self): return self.meta_file_named('rev_map') revmap_file = property(revmap_file) def svn_url_file(self): return self.meta_file_named('url') svn_url_file = property(svn_url_file) def uuid_file(self): return self.meta_file_named('uuid') uuid_file = property(uuid_file) def branch_info_file(self): return self.meta_file_named('branch_info') branch_info_file = property(branch_info_file) def tag_info_file(self): return self.meta_file_named('tag_info') tag_info_file = property(tag_info_file) def tag_locations_file(self): return self.meta_file_named('tag_locations') tag_locations_file = property(tag_locations_file) def url(self): return open(self.svn_url_file).read() url = property(url) def authors_file(self): return self.meta_file_named('authors') authors_file = property(authors_file) def load_base_from_ctx(self, svnpath, path, ctx): if not self._is_path_valid(svnpath): return if path in ctx: fctx = ctx.filectx(path) base = fctx.data() if 'l' in fctx.flags(): base = 'link ' + base self.set_file(svnpath, base, 'x' in fctx.flags(), 'l' in fctx.flags()) else: self.missing_plaintexts.add(svnpath) def delete_entry(self, path, revision_bogus, parent_baton, pool=None): br_path, branch = self._path_and_branch_for_path(path) if br_path == '': self.branches_to_delete.add(branch) if br_path is not None: ha = self.get_parent_revision(self.current_rev.revnum, branch) if ha == revlog.nullid: return ctx = self.repo.changectx(ha) if br_path not in ctx: br_path2 = '' if br_path != '': br_path2 = br_path + '/' # assuming it is a directory self.externals[path] = None map(self.delete_file, [pat for pat in self.current_files.iterkeys() if pat.startswith(path+'/')]) for f in ctx.walk(util.PrefixMatch(br_path2)): f_p = '%s/%s' % (path, f[len(br_path2):]) if f_p not in self.current_files: self.delete_file(f_p) self.delete_file(path) delete_entry = stash_exception_on_self(delete_entry) def open_file(self, path, parent_baton, base_revision, p=None): self.current_file = None fpath, branch = self._path_and_branch_for_path(path) if fpath: self.current_file = path self.ui.note('M %s\n' % path) if base_revision != -1: self.base_revision = base_revision else: self.base_revision = None if self.current_file not in self.current_files: baserev = base_revision if baserev is None or baserev == -1: baserev = self.current_rev.revnum - 1 parent = self.get_parent_revision(baserev + 1, branch) self.load_base_from_ctx(path, fpath, self.repo.changectx(parent)) else: self.ui.debug('WARNING: Opening non-existant file %s\n' % path) open_file = stash_exception_on_self(open_file) def aresamefiles(self, parentctx, childctx, files): """Assuming all files exist in childctx and parentctx, return True if none of them was changed in-between. """ if parentctx == childctx: return True if parentctx.rev() > childctx.rev(): parentctx, childctx = childctx, parentctx def selfandancestors(selfctx): yield selfctx for ctx in selfctx.ancestors(): yield ctx files = dict.fromkeys(files) for pctx in selfandancestors(childctx): if pctx.rev() <= parentctx.rev(): return True for f in pctx.files(): if f in files: return False # parentctx is not an ancestor of childctx, files are unrelated return False def add_file(self, path, parent_baton=None, copyfrom_path=None, copyfrom_revision=None, file_pool=None): self.current_file = None self.base_revision = None if path in self.deleted_files: del self.deleted_files[path] fpath, branch = self._path_and_branch_for_path(path, existing=False) if not fpath: return if branch not in self.branches: # we know this branch will exist now, because it has at least one file. Rock. self.branches[branch] = None, 0, self.current_rev.revnum self.current_file = path if not copyfrom_path: self.ui.note('A %s\n' % path) self.set_file(path, '', False, False) return self.ui.note('A+ %s\n' % path) (from_file, from_branch) = self._path_and_branch_for_path(copyfrom_path) if not from_file: self.missing_plaintexts.add(path) return ha = self.get_parent_revision(copyfrom_revision + 1, from_branch) ctx = self.repo.changectx(ha) if from_file in ctx: fctx = ctx.filectx(from_file) flags = fctx.flags() self.set_file(path, fctx.data(), 'x' in flags, 'l' in flags) if from_branch == branch: parentid = self.get_parent_revision(self.current_rev.revnum, branch) if parentid != revlog.nullid: parentctx = self.repo.changectx(parentid) if self.aresamefiles(parentctx, ctx, [from_file]): self.copies[path] = from_file add_file = stash_exception_on_self(add_file) def add_directory(self, path, parent_baton, copyfrom_path, copyfrom_revision, dir_pool=None): self.dir_batons[path] = path br_path, branch = self._path_and_branch_for_path(path) if br_path is not None: if not copyfrom_path and not br_path: self.commit_branches_empty[branch] = True else: self.commit_branches_empty[branch] = False if br_path is None or not copyfrom_path: return path if copyfrom_path: tag = self._is_path_tag(copyfrom_path) if tag not in self.tags: tag = None if not self._is_path_valid(copyfrom_path) and not tag: self.missing_plaintexts.add('%s/' % path) return path if tag: source_branch, source_rev = self.tags[tag] cp_f = '' else: source_rev = copyfrom_revision cp_f, source_branch = self._path_and_branch_for_path(copyfrom_path) if cp_f == '' and br_path == '': assert br_path is not None self.branches[branch] = source_branch, source_rev, self.current_rev.revnum new_hash = self.get_parent_revision(source_rev + 1, source_branch) if new_hash == node.nullid: self.missing_plaintexts.add('%s/' % path) return path cp_f_ctx = self.repo.changectx(new_hash) if cp_f != '/' and cp_f != '': cp_f = '%s/' % cp_f else: cp_f = '' copies = {} for f in cp_f_ctx: if not f.startswith(cp_f): continue f2 = f[len(cp_f):] fctx = cp_f_ctx.filectx(f) fp_c = path + '/' + f2 self.set_file(fp_c, fctx.data(), 'x' in fctx.flags(), 'l' in fctx.flags()) if fp_c in self.deleted_files: del self.deleted_files[fp_c] if branch == source_branch: copies[fp_c] = f if copies: # Preserve the directory copy records if no file was changed between # the source and destination revisions, or discard it completely. parentid = self.get_parent_revision(self.current_rev.revnum, branch) if parentid != revlog.nullid: parentctx = self.repo.changectx(parentid) if self.aresamefiles(parentctx, cp_f_ctx, copies.values()): self.copies.update(copies) return path add_directory = stash_exception_on_self(add_directory) def change_file_prop(self, file_baton, name, value, pool=None): if name == 'svn:executable': self.current_files_exec[self.current_file] = bool(value is not None) elif name == 'svn:special': self.current_files_symlink[self.current_file] = bool(value is not None) change_file_prop = stash_exception_on_self(change_file_prop) def change_dir_prop(self, dir_baton, name, value, pool=None): if dir_baton is None: return path = self.dir_batons[dir_baton] if name == 'svn:externals': self.externals[path] = value change_dir_prop = stash_exception_on_self(change_dir_prop) def open_directory(self, path, parent_baton, base_revision, dir_pool=None): self.dir_batons[path] = path p_, branch = self._path_and_branch_for_path(path) if p_ == '': self.commit_branches_empty[branch] = False return path open_directory = stash_exception_on_self(open_directory) def close_directory(self, dir_baton, dir_pool=None): if dir_baton is not None: del self.dir_batons[dir_baton] close_directory = stash_exception_on_self(close_directory) def apply_textdelta(self, file_baton, base_checksum, pool=None): # We know coming in here the file must be one of the following options: # 1) Deleted (invalid, fail an assertion) # 2) Missing a base text (bail quick since we have to fetch a full plaintext) # 3) Has a base text in self.current_files, apply deltas base = '' if not self._is_path_valid(self.current_file): return lambda x: None assert self.current_file not in self.deleted_files, ( 'Cannot apply_textdelta to a deleted file: %s' % self.current_file) assert (self.current_file in self.current_files or self.current_file in self.missing_plaintexts), '%s not found' % self.current_file if self.current_file in self.missing_plaintexts: return lambda x: None base = self.current_files[self.current_file] source = cStringIO.StringIO(base) target = cStringIO.StringIO() self.stream = target handler, baton = delta.svn_txdelta_apply(source, target, None) if not callable(handler): #pragma: no cover raise hgutil.Abort('Error in Subversion bindings: ' 'cannot call handler!') def txdelt_window(window): try: if not self._is_path_valid(self.current_file): return handler(window, baton) # window being None means commit this file if not window: self.current_files[self.current_file] = target.getvalue() except core.SubversionException, e: #pragma: no cover if e.apr_err == core.SVN_ERR_INCOMPLETE_DATA: self.missing_plaintexts.add(self.current_file) else: #pragma: no cover raise hgutil.Abort(*e.args) except: #pragma: no cover print len(base), self.current_file self._exception_info = sys.exc_info() raise return txdelt_window apply_textdelta = stash_exception_on_self(apply_textdelta) class MissingPlainTextError(Exception): """Exception raised when the repo lacks a source file required for replaying a txdelta. """ class ReplayException(Exception): """Exception raised when you try and commit but the replay encountered an exception. """