git-repo/manifest_xml.py

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2008-10-21 14:00:00 +00:00
# Copyright (C) 2008 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import collections
import itertools
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import os
import platform
import re
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import sys
import xml.dom.minidom
import urllib.parse
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import gitc_utils
from git_config import GitConfig, IsId
from git_refs import R_HEADS, HEAD
from git_superproject import Superproject
import platform_utils
from project import (Annotation, RemoteSpec, Project, RepoProject,
ManifestProject)
from error import (ManifestParseError, ManifestInvalidPathError,
ManifestInvalidRevisionError)
from wrapper import Wrapper
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MANIFEST_FILE_NAME = 'manifest.xml'
LOCAL_MANIFEST_NAME = 'local_manifest.xml'
LOCAL_MANIFESTS_DIR_NAME = 'local_manifests'
SUBMANIFEST_DIR = 'submanifests'
# Limit submanifests to an arbitrary depth for loop detection.
MAX_SUBMANIFEST_DEPTH = 8
# Add all projects from sub manifest into a group.
SUBMANIFEST_GROUP_PREFIX = 'submanifest:'
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# Add all projects from local manifest into a group.
LOCAL_MANIFEST_GROUP_PREFIX = 'local:'
# ContactInfo has the self-registered bug url, supplied by the manifest authors.
ContactInfo = collections.namedtuple('ContactInfo', 'bugurl')
# urljoin gets confused if the scheme is not known.
urllib.parse.uses_relative.extend([
'ssh',
'git',
'persistent-https',
'sso',
'rpc'])
urllib.parse.uses_netloc.extend([
'ssh',
'git',
'persistent-https',
'sso',
'rpc'])
def XmlBool(node, attr, default=None):
"""Determine boolean value of |node|'s |attr|.
Invalid values will issue a non-fatal warning.
Args:
node: XML node whose attributes we access.
attr: The attribute to access.
default: If the attribute is not set (value is empty), then use this.
Returns:
True if the attribute is a valid string representing true.
False if the attribute is a valid string representing false.
|default| otherwise.
"""
value = node.getAttribute(attr)
s = value.lower()
if s == '':
return default
elif s in {'yes', 'true', '1'}:
return True
elif s in {'no', 'false', '0'}:
return False
else:
print('warning: manifest: %s="%s": ignoring invalid XML boolean' %
(attr, value), file=sys.stderr)
return default
def XmlInt(node, attr, default=None):
"""Determine integer value of |node|'s |attr|.
Args:
node: XML node whose attributes we access.
attr: The attribute to access.
default: If the attribute is not set (value is empty), then use this.
Returns:
The number if the attribute is a valid number.
Raises:
ManifestParseError: The number is invalid.
"""
value = node.getAttribute(attr)
if not value:
return default
try:
return int(value)
except ValueError:
raise ManifestParseError('manifest: invalid %s="%s" integer' %
(attr, value))
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class _Default(object):
"""Project defaults within the manifest."""
revisionExpr = None
destBranchExpr = None
upstreamExpr = None
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remote = None
sync_j = None
sync_c = False
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
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sync_s = False
sync_tags = True
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def __eq__(self, other):
if not isinstance(other, _Default):
return False
return self.__dict__ == other.__dict__
def __ne__(self, other):
if not isinstance(other, _Default):
return True
return self.__dict__ != other.__dict__
class _XmlRemote(object):
def __init__(self,
name,
Add remote alias support in manifest The `alias` is an optional attribute in element `remote`. It can be used to override attibute `name` to be set as the remote name in each project's .git/config. Its value can be duplicated while attribute `name` has to be unique across the manifest file. This helps each project to be able to have same remote name which actually points to different remote url. It eases some automation scripts to be able to checkout/push to same remote name but actually different remote url, like: repo forall -c "git checkout -b work same_remote/work" repo forall -c "git push same_remote work:work" for example: The manifest with 'alias' will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <remote alias="same_alias" fetch="git://git.external1.org/" name="ext1" review="http://review.external1.org"/> <remote alias="same_alias" fetch="git://git.external2.org/" name="ext2" review="http://review.external2.org"/> <remote alias="same_alias" fetch="ssh://git.internal.com:29418" name="int" review="http://review.internal.com"/> <default remote="int" revision="int-branch" sync-j="2"/> <project name="path/to/project1" path="project1" remote="ext1"/> <project name="path/to/project2" path="project2" remote="ext2"/> <project name="path/to/project3" path="project3"/> ... </manifest> In each project, use command "git remote -v" project1: same_alias git://git.external1.org/project1 (fetch) same_alias git://git.external1.org/project1 (push) project2: same_alias git://git.external2.org/project2 (fetch) same_alias git://git.external2.org/project2 (push) project3: same_alias ssh://git.internal.com:29418/project3 (fetch) same_alias ssh://git.internal.com:29418/project3 (push) Change-Id: I2c48263097ff107f0c978f3e83966ae71d06cb90
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alias=None,
fetch=None,
pushUrl=None,
manifestUrl=None,
review=None,
revision=None):
self.name = name
self.fetchUrl = fetch
self.pushUrl = pushUrl
self.manifestUrl = manifestUrl
Add remote alias support in manifest The `alias` is an optional attribute in element `remote`. It can be used to override attibute `name` to be set as the remote name in each project's .git/config. Its value can be duplicated while attribute `name` has to be unique across the manifest file. This helps each project to be able to have same remote name which actually points to different remote url. It eases some automation scripts to be able to checkout/push to same remote name but actually different remote url, like: repo forall -c "git checkout -b work same_remote/work" repo forall -c "git push same_remote work:work" for example: The manifest with 'alias' will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <remote alias="same_alias" fetch="git://git.external1.org/" name="ext1" review="http://review.external1.org"/> <remote alias="same_alias" fetch="git://git.external2.org/" name="ext2" review="http://review.external2.org"/> <remote alias="same_alias" fetch="ssh://git.internal.com:29418" name="int" review="http://review.internal.com"/> <default remote="int" revision="int-branch" sync-j="2"/> <project name="path/to/project1" path="project1" remote="ext1"/> <project name="path/to/project2" path="project2" remote="ext2"/> <project name="path/to/project3" path="project3"/> ... </manifest> In each project, use command "git remote -v" project1: same_alias git://git.external1.org/project1 (fetch) same_alias git://git.external1.org/project1 (push) project2: same_alias git://git.external2.org/project2 (fetch) same_alias git://git.external2.org/project2 (push) project3: same_alias ssh://git.internal.com:29418/project3 (fetch) same_alias ssh://git.internal.com:29418/project3 (push) Change-Id: I2c48263097ff107f0c978f3e83966ae71d06cb90
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self.remoteAlias = alias
self.reviewUrl = review
self.revision = revision
self.resolvedFetchUrl = self._resolveFetchUrl()
self.annotations = []
def __eq__(self, other):
if not isinstance(other, _XmlRemote):
return False
return (sorted(self.annotations) == sorted(other.annotations) and
self.name == other.name and self.fetchUrl == other.fetchUrl and
self.pushUrl == other.pushUrl and self.remoteAlias == other.remoteAlias
and self.reviewUrl == other.reviewUrl and self.revision == other.revision)
def __ne__(self, other):
return not self.__eq__(other)
def _resolveFetchUrl(self):
if self.fetchUrl is None:
return ''
url = self.fetchUrl.rstrip('/')
manifestUrl = self.manifestUrl.rstrip('/')
# urljoin will gets confused over quite a few things. The ones we care
# about here are:
# * no scheme in the base url, like <hostname:port>
# We handle no scheme by replacing it with an obscure protocol, gopher
# and then replacing it with the original when we are done.
if manifestUrl.find(':') != manifestUrl.find('/') - 1:
url = urllib.parse.urljoin('gopher://' + manifestUrl, url)
url = re.sub(r'^gopher://', '', url)
else:
url = urllib.parse.urljoin(manifestUrl, url)
return url
def ToRemoteSpec(self, projectName):
fetchUrl = self.resolvedFetchUrl.rstrip('/')
url = fetchUrl + '/' + projectName
Add remote alias support in manifest The `alias` is an optional attribute in element `remote`. It can be used to override attibute `name` to be set as the remote name in each project's .git/config. Its value can be duplicated while attribute `name` has to be unique across the manifest file. This helps each project to be able to have same remote name which actually points to different remote url. It eases some automation scripts to be able to checkout/push to same remote name but actually different remote url, like: repo forall -c "git checkout -b work same_remote/work" repo forall -c "git push same_remote work:work" for example: The manifest with 'alias' will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <remote alias="same_alias" fetch="git://git.external1.org/" name="ext1" review="http://review.external1.org"/> <remote alias="same_alias" fetch="git://git.external2.org/" name="ext2" review="http://review.external2.org"/> <remote alias="same_alias" fetch="ssh://git.internal.com:29418" name="int" review="http://review.internal.com"/> <default remote="int" revision="int-branch" sync-j="2"/> <project name="path/to/project1" path="project1" remote="ext1"/> <project name="path/to/project2" path="project2" remote="ext2"/> <project name="path/to/project3" path="project3"/> ... </manifest> In each project, use command "git remote -v" project1: same_alias git://git.external1.org/project1 (fetch) same_alias git://git.external1.org/project1 (push) project2: same_alias git://git.external2.org/project2 (fetch) same_alias git://git.external2.org/project2 (push) project3: same_alias ssh://git.internal.com:29418/project3 (fetch) same_alias ssh://git.internal.com:29418/project3 (push) Change-Id: I2c48263097ff107f0c978f3e83966ae71d06cb90
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remoteName = self.name
if self.remoteAlias:
remoteName = self.remoteAlias
return RemoteSpec(remoteName,
url=url,
pushUrl=self.pushUrl,
review=self.reviewUrl,
orig_name=self.name,
fetchUrl=self.fetchUrl)
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def AddAnnotation(self, name, value, keep):
self.annotations.append(Annotation(name, value, keep))
class _XmlSubmanifest:
"""Manage the <submanifest> element specified in the manifest.
Attributes:
name: a string, the name for this submanifest.
remote: a string, the remote.name for this submanifest.
project: a string, the name of the manifest project.
revision: a string, the commitish.
manifestName: a string, the submanifest file name.
groups: a list of strings, the groups to add to all projects in the submanifest.
default_groups: a list of strings, the default groups to sync.
path: a string, the relative path for the submanifest checkout.
parent: an XmlManifest, the parent manifest.
annotations: (derived) a list of annotations.
present: (derived) a boolean, whether the sub manifest file is present.
"""
def __init__(self,
name,
remote=None,
project=None,
revision=None,
manifestName=None,
groups=None,
default_groups=None,
path=None,
parent=None):
self.name = name
self.remote = remote
self.project = project
self.revision = revision
self.manifestName = manifestName
self.groups = groups
self.default_groups = default_groups
self.path = path
self.parent = parent
self.annotations = []
outer_client = parent._outer_client or parent
if self.remote and not self.project:
raise ManifestParseError(
f'Submanifest {name}: must specify project when remote is given.')
# Construct the absolute path to the manifest file using the parent's
# method, so that we can correctly create our repo_client.
manifestFile = parent.SubmanifestInfoDir(
os.path.join(parent.path_prefix, self.relpath),
os.path.join('manifests', manifestName or 'default.xml'))
linkFile = parent.SubmanifestInfoDir(
os.path.join(parent.path_prefix, self.relpath), MANIFEST_FILE_NAME)
rc = self.repo_client = RepoClient(
parent.repodir, linkFile, parent_groups=','.join(groups) or '',
submanifest_path=self.relpath, outer_client=outer_client,
default_groups=default_groups)
self.present = os.path.exists(manifestFile)
def __eq__(self, other):
if not isinstance(other, _XmlSubmanifest):
return False
return (
self.name == other.name and
self.remote == other.remote and
self.project == other.project and
self.revision == other.revision and
self.manifestName == other.manifestName and
self.groups == other.groups and
self.default_groups == other.default_groups and
self.path == other.path and
sorted(self.annotations) == sorted(other.annotations))
def __ne__(self, other):
return not self.__eq__(other)
def ToSubmanifestSpec(self):
"""Return a SubmanifestSpec object, populating attributes"""
mp = self.parent.manifestProject
remote = self.parent.remotes[self.remote or self.parent.default.remote.name]
# If a project was given, generate the url from the remote and project.
# If not, use this manifestProject's url.
if self.project:
manifestUrl = remote.ToRemoteSpec(self.project).url
else:
manifestUrl = mp.GetRemote().url
manifestName = self.manifestName or 'default.xml'
revision = self.revision or self.name
path = self.path or revision.split('/')[-1]
groups = self.groups or []
default_groups = self.default_groups or []
return SubmanifestSpec(self.name, manifestUrl, manifestName, revision, path,
groups)
@property
def relpath(self):
"""The path of this submanifest relative to the parent manifest."""
revision = self.revision or self.name
return self.path or revision.split('/')[-1]
def GetGroupsStr(self):
"""Returns the `groups` given for this submanifest."""
if self.groups:
return ','.join(self.groups)
return ''
def GetDefaultGroupsStr(self):
"""Returns the `default-groups` given for this submanifest."""
return ','.join(self.default_groups or [])
def AddAnnotation(self, name, value, keep):
"""Add annotations to the submanifest."""
self.annotations.append(Annotation(name, value, keep))
class SubmanifestSpec:
"""The submanifest element, with all fields expanded."""
def __init__(self,
name,
manifestUrl,
manifestName,
revision,
path,
groups):
self.name = name
self.manifestUrl = manifestUrl
self.manifestName = manifestName
self.revision = revision
self.path = path
self.groups = groups or []
class XmlManifest(object):
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"""manages the repo configuration file"""
def __init__(self, repodir, manifest_file, local_manifests=None,
outer_client=None, parent_groups='', submanifest_path='',
default_groups=None):
"""Initialize.
Args:
repodir: Path to the .repo/ dir for holding all internal checkout state.
It must be in the top directory of the repo client checkout.
manifest_file: Full path to the manifest file to parse. This will usually
be |repodir|/|MANIFEST_FILE_NAME|.
local_manifests: Full path to the directory of local override manifests.
This will usually be |repodir|/|LOCAL_MANIFESTS_DIR_NAME|.
outer_client: RepoClient of the outer manifest.
parent_groups: a string, the groups to apply to this projects.
submanifest_path: The submanifest root relative to the repo root.
default_groups: a string, the default manifest groups to use.
"""
# TODO(vapier): Move this out of this class.
self.globalConfig = GitConfig.ForUser()
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self.repodir = os.path.abspath(repodir)
self._CheckLocalPath(submanifest_path)
self.topdir = os.path.join(os.path.dirname(self.repodir), submanifest_path)
if manifest_file != os.path.abspath(manifest_file):
raise ManifestParseError('manifest_file must be abspath')
self.manifestFile = manifest_file
if not outer_client or outer_client == self:
# manifestFileOverrides only exists in the outer_client's manifest, since
# that is the only instance left when Unload() is called on the outer
# manifest.
self.manifestFileOverrides = {}
self.local_manifests = local_manifests
self._load_local_manifests = True
self.parent_groups = parent_groups
self.default_groups = default_groups
if outer_client and self.isGitcClient:
raise ManifestParseError('Multi-manifest is incompatible with `gitc-init`')
if submanifest_path and not outer_client:
# If passing a submanifest_path, there must be an outer_client.
raise ManifestParseError(f'Bad call to {self.__class__.__name__}')
# If self._outer_client is None, this is not a checkout that supports
# multi-tree.
self._outer_client = outer_client or self
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self.repoProject = RepoProject(self, 'repo',
gitdir=os.path.join(repodir, 'repo/.git'),
worktree=os.path.join(repodir, 'repo'))
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mp = self.SubmanifestProject(self.path_prefix)
self.manifestProject = mp
# This is a bit hacky, but we're in a chicken & egg situation: all the
# normal repo settings live in the manifestProject which we just setup
# above, so we couldn't easily query before that. We assume Project()
# init doesn't care if this changes afterwards.
if os.path.exists(mp.gitdir) and mp.use_worktree:
mp.use_git_worktrees = True
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self.Unload()
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def Override(self, name, load_local_manifests=True):
"""Use a different manifest, just for the current instantiation.
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"""
path = None
# Look for a manifest by path in the filesystem (including the cwd).
if not load_local_manifests:
local_path = os.path.abspath(name)
if os.path.isfile(local_path):
path = local_path
# Look for manifests by name from the manifests repo.
if path is None:
path = os.path.join(self.manifestProject.worktree, name)
if not os.path.isfile(path):
raise ManifestParseError('manifest %s not found' % name)
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self._load_local_manifests = load_local_manifests
self._outer_client.manifestFileOverrides[self.path_prefix] = path
self.Unload()
self._Load()
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def Link(self, name):
"""Update the repo metadata to use a different manifest.
"""
self.Override(name)
# Old versions of repo would generate symlinks we need to clean up.
platform_utils.remove(self.manifestFile, missing_ok=True)
# This file is interpreted as if it existed inside the manifest repo.
# That allows us to use <include> with the relative file name.
with open(self.manifestFile, 'w') as fp:
fp.write("""<?xml version="1.0" encoding="UTF-8"?>
<!--
DO NOT EDIT THIS FILE! It is generated by repo and changes will be discarded.
If you want to use a different manifest, use `repo init -m <file>` instead.
If you want to customize your checkout by overriding manifest settings, use
the local_manifests/ directory instead.
For more information on repo manifests, check out:
https://gerrit.googlesource.com/git-repo/+/HEAD/docs/manifest-format.md
-->
<manifest>
<include name="%s" />
</manifest>
""" % (name,))
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def _RemoteToXml(self, r, doc, root):
e = doc.createElement('remote')
root.appendChild(e)
e.setAttribute('name', r.name)
e.setAttribute('fetch', r.fetchUrl)
if r.pushUrl is not None:
e.setAttribute('pushurl', r.pushUrl)
if r.remoteAlias is not None:
e.setAttribute('alias', r.remoteAlias)
if r.reviewUrl is not None:
e.setAttribute('review', r.reviewUrl)
if r.revision is not None:
e.setAttribute('revision', r.revision)
for a in r.annotations:
if a.keep == 'true':
ae = doc.createElement('annotation')
ae.setAttribute('name', a.name)
ae.setAttribute('value', a.value)
e.appendChild(ae)
def _SubmanifestToXml(self, r, doc, root):
"""Generate XML <submanifest/> node."""
e = doc.createElement('submanifest')
root.appendChild(e)
e.setAttribute('name', r.name)
if r.remote is not None:
e.setAttribute('remote', r.remote)
if r.project is not None:
e.setAttribute('project', r.project)
if r.manifestName is not None:
e.setAttribute('manifest-name', r.manifestName)
if r.revision is not None:
e.setAttribute('revision', r.revision)
if r.path is not None:
e.setAttribute('path', r.path)
if r.groups:
e.setAttribute('groups', r.GetGroupsStr())
if r.default_groups:
e.setAttribute('default-groups', r.GetDefaultGroupsStr())
for a in r.annotations:
if a.keep == 'true':
ae = doc.createElement('annotation')
ae.setAttribute('name', a.name)
ae.setAttribute('value', a.value)
e.appendChild(ae)
def _ParseList(self, field):
"""Parse fields that contain flattened lists.
These are whitespace & comma separated. Empty elements will be discarded.
"""
return [x for x in re.split(r'[,\s]+', field) if x]
def ToXml(self, peg_rev=False, peg_rev_upstream=True,
peg_rev_dest_branch=True, groups=None, omit_local=False):
"""Return the current manifest XML."""
mp = self.manifestProject
if groups is None:
groups = mp.manifest_groups
if groups:
groups = self._ParseList(groups)
doc = xml.dom.minidom.Document()
root = doc.createElement('manifest')
if self.is_submanifest:
root.setAttribute('path', self.path_prefix)
doc.appendChild(root)
# Save out the notice. There's a little bit of work here to give it the
# right whitespace, which assumes that the notice is automatically indented
# by 4 by minidom.
if self.notice:
notice_element = root.appendChild(doc.createElement('notice'))
notice_lines = self.notice.splitlines()
indented_notice = ('\n'.join(" " * 4 + line for line in notice_lines))[4:]
notice_element.appendChild(doc.createTextNode(indented_notice))
d = self.default
for r in sorted(self.remotes):
self._RemoteToXml(self.remotes[r], doc, root)
if self.remotes:
root.appendChild(doc.createTextNode(''))
have_default = False
e = doc.createElement('default')
if d.remote:
have_default = True
e.setAttribute('remote', d.remote.name)
if d.revisionExpr:
have_default = True
e.setAttribute('revision', d.revisionExpr)
if d.destBranchExpr:
have_default = True
e.setAttribute('dest-branch', d.destBranchExpr)
if d.upstreamExpr:
have_default = True
e.setAttribute('upstream', d.upstreamExpr)
if d.sync_j is not None:
have_default = True
e.setAttribute('sync-j', '%d' % d.sync_j)
if d.sync_c:
have_default = True
e.setAttribute('sync-c', 'true')
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
if d.sync_s:
have_default = True
e.setAttribute('sync-s', 'true')
if not d.sync_tags:
have_default = True
e.setAttribute('sync-tags', 'false')
if have_default:
root.appendChild(e)
root.appendChild(doc.createTextNode(''))
if self._manifest_server:
e = doc.createElement('manifest-server')
e.setAttribute('url', self._manifest_server)
root.appendChild(e)
root.appendChild(doc.createTextNode(''))
for r in sorted(self.submanifests):
self._SubmanifestToXml(self.submanifests[r], doc, root)
if self.submanifests:
root.appendChild(doc.createTextNode(''))
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
def output_projects(parent, parent_node, projects):
for project_name in projects:
for project in self._projects[project_name]:
output_project(parent, parent_node, project)
Represent git-submodule as nested projects We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I541e9e2ac1a70304272dbe09724572aa1004eb5c
2012-01-11 03:28:42 +00:00
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
def output_project(parent, parent_node, p):
if not p.MatchesGroups(groups):
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
return
if omit_local and self.IsFromLocalManifest(p):
return
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
name = p.name
relpath = p.relpath
if parent:
name = self._UnjoinName(parent.name, name)
relpath = self._UnjoinRelpath(parent.relpath, relpath)
e = doc.createElement('project')
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
parent_node.appendChild(e)
e.setAttribute('name', name)
if relpath != name:
e.setAttribute('path', relpath)
remoteName = None
if d.remote:
remoteName = d.remote.name
if not d.remote or p.remote.orig_name != remoteName:
remoteName = p.remote.orig_name
e.setAttribute('remote', remoteName)
if peg_rev:
if self.IsMirror:
value = p.bare_git.rev_parse(p.revisionExpr + '^0')
else:
value = p.work_git.rev_parse(HEAD + '^0')
e.setAttribute('revision', value)
if peg_rev_upstream:
if p.upstream:
e.setAttribute('upstream', p.upstream)
elif value != p.revisionExpr:
# Only save the origin if the origin is not a sha1, and the default
# isn't our value
e.setAttribute('upstream', p.revisionExpr)
if peg_rev_dest_branch:
if p.dest_branch:
e.setAttribute('dest-branch', p.dest_branch)
elif value != p.revisionExpr:
e.setAttribute('dest-branch', p.revisionExpr)
else:
revision = self.remotes[p.remote.orig_name].revision or d.revisionExpr
if not revision or revision != p.revisionExpr:
e.setAttribute('revision', p.revisionExpr)
elif p.revisionId:
e.setAttribute('revision', p.revisionId)
if (p.upstream and (p.upstream != p.revisionExpr or
p.upstream != d.upstreamExpr)):
e.setAttribute('upstream', p.upstream)
if p.dest_branch and p.dest_branch != d.destBranchExpr:
e.setAttribute('dest-branch', p.dest_branch)
for c in p.copyfiles:
ce = doc.createElement('copyfile')
ce.setAttribute('src', c.src)
ce.setAttribute('dest', c.dest)
e.appendChild(ce)
for l in p.linkfiles:
le = doc.createElement('linkfile')
le.setAttribute('src', l.src)
le.setAttribute('dest', l.dest)
e.appendChild(le)
default_groups = ['all', 'name:%s' % p.name, 'path:%s' % p.relpath]
egroups = [g for g in p.groups if g not in default_groups]
if egroups:
e.setAttribute('groups', ','.join(egroups))
for a in p.annotations:
if a.keep == "true":
ae = doc.createElement('annotation')
ae.setAttribute('name', a.name)
ae.setAttribute('value', a.value)
e.appendChild(ae)
if p.sync_c:
e.setAttribute('sync-c', 'true')
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
if p.sync_s:
e.setAttribute('sync-s', 'true')
if not p.sync_tags:
e.setAttribute('sync-tags', 'false')
if p.clone_depth:
e.setAttribute('clone-depth', str(p.clone_depth))
self._output_manifest_project_extras(p, e)
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
if p.subprojects:
subprojects = set(subp.name for subp in p.subprojects)
output_projects(p, e, list(sorted(subprojects)))
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
projects = set(p.name for p in self._paths.values() if not p.parent)
output_projects(None, root, list(sorted(projects)))
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
Support repo-level pre-upload hook and prep for future hooks. All repo-level hooks are expected to live in a single project at the top level of that project. The name of the hooks project is provided in the manifest.xml. The manifest also lists which hooks are enabled to make it obvious if a file somehow failed to sync down (or got deleted). Before running any hook, we will prompt the user to make sure that it is OK. A user can deny running the hook, allow once, or allow "forever" (until hooks change). This tries to keep with the git spirit of not automatically running anything on the user's computer that got synced down. Note that individual repo commands can add always options to avoid these prompts as they see fit (see below for the 'upload' options). When hooks are run, they are loaded into the current interpreter (the one running repo) and their main() function is run. This mechanism is used (instead of using subprocess) to make it easier to expand to a richer hook interface in the future. During loading, the interpreter's sys.path is updated to contain the directory containing the hooks so that hooks can be split into multiple files. The upload command has two options that control hook behavior: - no-verify=False, verify=False (DEFAULT): If stdout is a tty, can prompt about running upload hooks if needed. If user denies running hooks, the upload is cancelled. If stdout is not a tty and we would need to prompt about upload hooks, upload is cancelled. - no-verify=False, verify=True: Always run upload hooks with no prompt. - no-verify=True, verify=False: Never run upload hooks, but upload anyway (AKA bypass hooks). - no-verify=True, verify=True: Invalid Sample bit of manifest.xml code for enabling hooks (assumes you have a project named 'hooks' where hooks are stored): <repo-hooks in-project="hooks" enabled-list="pre-upload" /> Sample main() function in pre-upload.py in hooks directory: def main(project_list, **kwargs): print ('These projects will be uploaded: %s' % ', '.join(project_list)) print ('I am being a good boy and ignoring anything in kwargs\n' 'that I don\'t understand.') print 'I fail 50% of the time. How flaky.' if random.random() <= .5: raise Exception('Pre-upload hook failed. Have a nice day.') Change-Id: I5cefa2cd5865c72589263cf8e2f152a43c122f70
2011-03-04 19:54:18 +00:00
if self._repo_hooks_project:
root.appendChild(doc.createTextNode(''))
e = doc.createElement('repo-hooks')
e.setAttribute('in-project', self._repo_hooks_project.name)
e.setAttribute('enabled-list',
' '.join(self._repo_hooks_project.enabled_repo_hooks))
root.appendChild(e)
if self._superproject:
root.appendChild(doc.createTextNode(''))
e = doc.createElement('superproject')
e.setAttribute('name', self._superproject.name)
remoteName = None
if d.remote:
remoteName = d.remote.name
remote = self._superproject.remote
if not d.remote or remote.orig_name != remoteName:
remoteName = remote.orig_name
e.setAttribute('remote', remoteName)
revision = remote.revision or d.revisionExpr
if not revision or revision != self._superproject.revision:
e.setAttribute('revision', self._superproject.revision)
root.appendChild(e)
if self._contactinfo.bugurl != Wrapper().BUG_URL:
root.appendChild(doc.createTextNode(''))
e = doc.createElement('contactinfo')
e.setAttribute('bugurl', self._contactinfo.bugurl)
root.appendChild(e)
return doc
def ToDict(self, **kwargs):
"""Return the current manifest as a dictionary."""
# Elements that may only appear once.
SINGLE_ELEMENTS = {
'notice',
'default',
'manifest-server',
'repo-hooks',
'superproject',
'contactinfo',
}
# Elements that may be repeated.
MULTI_ELEMENTS = {
'remote',
'remove-project',
'project',
'extend-project',
'include',
'submanifest',
# These are children of 'project' nodes.
'annotation',
'project',
'copyfile',
'linkfile',
}
doc = self.ToXml(**kwargs)
ret = {}
def append_children(ret, node):
for child in node.childNodes:
if child.nodeType == xml.dom.Node.ELEMENT_NODE:
attrs = child.attributes
element = dict((attrs.item(i).localName, attrs.item(i).value)
for i in range(attrs.length))
if child.nodeName in SINGLE_ELEMENTS:
ret[child.nodeName] = element
elif child.nodeName in MULTI_ELEMENTS:
ret.setdefault(child.nodeName, []).append(element)
else:
raise ManifestParseError('Unhandled element "%s"' % (child.nodeName,))
append_children(element, child)
append_children(ret, doc.firstChild)
return ret
def Save(self, fd, **kwargs):
"""Write the current manifest out to the given file descriptor."""
doc = self.ToXml(**kwargs)
doc.writexml(fd, '', ' ', '\n', 'UTF-8')
def _output_manifest_project_extras(self, p, e):
"""Manifests can modify e if they support extra project attributes."""
@property
def is_multimanifest(self):
project: initial separation of shared project objects For now, this is opt-in via environment variables: - export REPO_USE_ALTERNATES=1 The shared project logic that shares the internal .git/objects/ dir directly between multiple projects via the project-objects/ tree has a lot of KI with random corruption. It all boils down to projects sharing objects/ but not refs/. Git operations that use refs to see what objects are reachable and discard the rest can easily discard objects that are used by other projects. Consider this project layout: <show fs layout> There are unique refs in each of these trees that are not visible in the others. This means it's not safe to run basic operations like git prune or git gc. Since we can't share refs (each project needs to have unique refs like HEAD in order to function), let's change how we share objects. The old way involved symlinking .git/objects/ to the project-objects tree. The new way shares objects using git's info/alternates. This means project-objects/ will only contain objects that exist in the remote project. Local per-project objects (like when creating branches and making changes) will never be shared. When running a prune or gc operation in the per-project state, it will only ever repack or discard those per-project objects. The common shared objects would only be cleaned up when running a common operation (i.e. by repo itself). One downside to this for users is if they try blending unrelated upstream projects. For example, in CrOS we have multiple kernel projects (for diff versions) checked out. If a dev fetched the upstream Linus tree into one of them, the objects & tags would not be shared with the others, so they would have to fetch the upstream state for each project. Annoying, but better than the current corruption situation we're in now. Also if the dev runs a manual `git fetch` in the per-project to sync it up to newer state than the last `repo sync` they ran, the objects would get duplicated. However, git operations later on should eventually dedupe this. Bug: https://crbug.com/gerrit/15553 Change-Id: I313a9b8962f9d439ef98ac0ed37ecfb9e0b3864e Reviewed-on: https://gerrit-review.googlesource.com/c/git-repo/+/328101 Reviewed-by: Mike Frysinger <vapier@google.com> Tested-by: LaMont Jones <lamontjones@google.com>
2021-12-21 05:40:31 +00:00
"""Whether this is a multimanifest checkout.
This is safe to use as long as the outermost manifest XML has been parsed.
"""
return bool(self._outer_client._submanifests)
@property
def is_submanifest(self):
"""Whether this manifest is a submanifest.
This is safe to use as long as the outermost manifest XML has been parsed.
"""
return self._outer_client and self._outer_client != self
@property
def outer_client(self):
"""The instance of the outermost manifest client."""
self._Load()
return self._outer_client
@property
def all_manifests(self):
"""Generator yielding all (sub)manifests, in depth-first order."""
self._Load()
outer = self._outer_client
yield outer
for tree in outer.all_children:
yield tree
@property
def all_children(self):
"""Generator yielding all (present) child submanifests."""
self._Load()
for child in self._submanifests.values():
if child.repo_client:
yield child.repo_client
for tree in child.repo_client.all_children:
yield tree
@property
def path_prefix(self):
"""The path of this submanifest, relative to the outermost manifest."""
if not self._outer_client or self == self._outer_client:
return ''
return os.path.relpath(self.topdir, self._outer_client.topdir)
@property
def all_paths(self):
"""All project paths for all (sub)manifests.
See also `paths`.
Returns:
A dictionary of {path: Project()}. `path` is relative to the outer
manifest.
"""
ret = {}
for tree in self.all_manifests:
prefix = tree.path_prefix
ret.update({os.path.join(prefix, k): v for k, v in tree.paths.items()})
return ret
@property
def all_projects(self):
"""All projects for all (sub)manifests. See `projects`."""
return list(itertools.chain.from_iterable(x._paths.values() for x in self.all_manifests))
@property
def paths(self):
"""Return all paths for this manifest.
Returns:
A dictionary of {path: Project()}. `path` is relative to this manifest.
"""
self._Load()
return self._paths
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@property
def projects(self):
"""Return a list of all Projects in this manifest."""
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self._Load()
return list(self._paths.values())
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@property
def remotes(self):
"""Return a list of remotes for this manifest."""
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self._Load()
return self._remotes
@property
def default(self):
"""Return default values for this manifest."""
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self._Load()
return self._default
@property
def submanifests(self):
"""All submanifests in this manifest."""
self._Load()
return self._submanifests
Support repo-level pre-upload hook and prep for future hooks. All repo-level hooks are expected to live in a single project at the top level of that project. The name of the hooks project is provided in the manifest.xml. The manifest also lists which hooks are enabled to make it obvious if a file somehow failed to sync down (or got deleted). Before running any hook, we will prompt the user to make sure that it is OK. A user can deny running the hook, allow once, or allow "forever" (until hooks change). This tries to keep with the git spirit of not automatically running anything on the user's computer that got synced down. Note that individual repo commands can add always options to avoid these prompts as they see fit (see below for the 'upload' options). When hooks are run, they are loaded into the current interpreter (the one running repo) and their main() function is run. This mechanism is used (instead of using subprocess) to make it easier to expand to a richer hook interface in the future. During loading, the interpreter's sys.path is updated to contain the directory containing the hooks so that hooks can be split into multiple files. The upload command has two options that control hook behavior: - no-verify=False, verify=False (DEFAULT): If stdout is a tty, can prompt about running upload hooks if needed. If user denies running hooks, the upload is cancelled. If stdout is not a tty and we would need to prompt about upload hooks, upload is cancelled. - no-verify=False, verify=True: Always run upload hooks with no prompt. - no-verify=True, verify=False: Never run upload hooks, but upload anyway (AKA bypass hooks). - no-verify=True, verify=True: Invalid Sample bit of manifest.xml code for enabling hooks (assumes you have a project named 'hooks' where hooks are stored): <repo-hooks in-project="hooks" enabled-list="pre-upload" /> Sample main() function in pre-upload.py in hooks directory: def main(project_list, **kwargs): print ('These projects will be uploaded: %s' % ', '.join(project_list)) print ('I am being a good boy and ignoring anything in kwargs\n' 'that I don\'t understand.') print 'I fail 50% of the time. How flaky.' if random.random() <= .5: raise Exception('Pre-upload hook failed. Have a nice day.') Change-Id: I5cefa2cd5865c72589263cf8e2f152a43c122f70
2011-03-04 19:54:18 +00:00
@property
def repo_hooks_project(self):
self._Load()
return self._repo_hooks_project
@property
def superproject(self):
self._Load()
return self._superproject
@property
def contactinfo(self):
self._Load()
return self._contactinfo
@property
def notice(self):
self._Load()
return self._notice
@property
def manifest_server(self):
self._Load()
return self._manifest_server
@property
def CloneBundle(self):
clone_bundle = self.manifestProject.clone_bundle
if clone_bundle is None:
return False if self.manifestProject.partial_clone else True
else:
return clone_bundle
@property
def CloneFilter(self):
if self.manifestProject.partial_clone:
return self.manifestProject.clone_filter
return None
init: Added --partial-clone-exclude option. partial-clone-exclude option excludes projects during partial clone. This is a comma-delimited project names (from manifest.xml). This option is persisted and it is used by the sync command. A project that has been unparital'ed will remain unpartial if that project's name is specified in the --partial-clone-exclude option. The project name should match exactly. Added $ ./run_tests -v Bug: [google internal] b/175712967 "I can't "unpartial" my androidx-main checkout" $ rm -rf androidx-main/ $ mkdir androidx-main/ $ cd androidx-main/ $ repo_dev init -u https://android.googlesource.com/platform/manifest -b androidx-main --partial-clone --clone-filter=blob:limit=10M -m default.xml $ repo_dev sync -c -j8 + Verify a project is partial $ cd frameworks/support/ $ git config -l | grep 'partial' + Unpartial a project. $ /google/bin/releases/android/git_repack/git_unpartial + Verify project is unpartial $ git config -l | grep 'partial' $ cd ../.. + Exclude the project from being unparial'ed after init and sync. $ repo_dev init -u https://android.googlesource.com/platform/manifest -b androidx-main --partial-clone --clone-filter=blob:limit=10M --partial-clone-exclude="platform/frameworks/support,platform/frameworks/support-golden" -m default.xml + Verify project is unpartial $ cd frameworks/support/ $ git config -l | grep 'partial' $ cd ../.. $ repo_dev sync -c -j8 $ cd frameworks/support/ $ git config -l | grep 'partial' $ cd ../.. + Remove the project from exclude list and verify that project is partially cloned. $ repo_dev init -u https://android.googlesource.com/platform/manifest -b androidx-main --partial-clone --clone-filter=blob:limit=10M --partial-clone-exclude= -m default.xml $ repo_dev sync -c -j8 $ cd frameworks/support/ $ git config -l | grep 'partial' Change-Id: Id5dba418eba1d3f54b54e826000406534c0ec196 Reviewed-on: https://gerrit-review.googlesource.com/c/git-repo/+/303162 Reviewed-by: Mike Frysinger <vapier@google.com> Tested-by: Raman Tenneti <rtenneti@google.com>
2021-04-13 03:57:25 +00:00
@property
def PartialCloneExclude(self):
exclude = self.manifest.manifestProject.partial_clone_exclude or ''
init: Added --partial-clone-exclude option. partial-clone-exclude option excludes projects during partial clone. This is a comma-delimited project names (from manifest.xml). This option is persisted and it is used by the sync command. A project that has been unparital'ed will remain unpartial if that project's name is specified in the --partial-clone-exclude option. The project name should match exactly. Added $ ./run_tests -v Bug: [google internal] b/175712967 "I can't "unpartial" my androidx-main checkout" $ rm -rf androidx-main/ $ mkdir androidx-main/ $ cd androidx-main/ $ repo_dev init -u https://android.googlesource.com/platform/manifest -b androidx-main --partial-clone --clone-filter=blob:limit=10M -m default.xml $ repo_dev sync -c -j8 + Verify a project is partial $ cd frameworks/support/ $ git config -l | grep 'partial' + Unpartial a project. $ /google/bin/releases/android/git_repack/git_unpartial + Verify project is unpartial $ git config -l | grep 'partial' $ cd ../.. + Exclude the project from being unparial'ed after init and sync. $ repo_dev init -u https://android.googlesource.com/platform/manifest -b androidx-main --partial-clone --clone-filter=blob:limit=10M --partial-clone-exclude="platform/frameworks/support,platform/frameworks/support-golden" -m default.xml + Verify project is unpartial $ cd frameworks/support/ $ git config -l | grep 'partial' $ cd ../.. $ repo_dev sync -c -j8 $ cd frameworks/support/ $ git config -l | grep 'partial' $ cd ../.. + Remove the project from exclude list and verify that project is partially cloned. $ repo_dev init -u https://android.googlesource.com/platform/manifest -b androidx-main --partial-clone --clone-filter=blob:limit=10M --partial-clone-exclude= -m default.xml $ repo_dev sync -c -j8 $ cd frameworks/support/ $ git config -l | grep 'partial' Change-Id: Id5dba418eba1d3f54b54e826000406534c0ec196 Reviewed-on: https://gerrit-review.googlesource.com/c/git-repo/+/303162 Reviewed-by: Mike Frysinger <vapier@google.com> Tested-by: Raman Tenneti <rtenneti@google.com>
2021-04-13 03:57:25 +00:00
return set(x.strip() for x in exclude.split(','))
def SetManifestOverride(self, path):
"""Override manifestFile. The caller must call Unload()"""
self._outer_client.manifest.manifestFileOverrides[self.path_prefix] = path
@property
def UseLocalManifests(self):
return self._load_local_manifests
def SetUseLocalManifests(self, value):
self._load_local_manifests = value
@property
def HasLocalManifests(self):
return self._load_local_manifests and self.local_manifests
def IsFromLocalManifest(self, project):
"""Is the project from a local manifest?"""
return any(x.startswith(LOCAL_MANIFEST_GROUP_PREFIX)
for x in project.groups)
@property
def IsMirror(self):
return self.manifestProject.mirror
@property
def UseGitWorktrees(self):
return self.manifestProject.use_worktree
@property
def IsArchive(self):
return self.manifestProject.archive
@property
def HasSubmodules(self):
return self.manifestProject.submodules
@property
def EnableGitLfs(self):
return self.manifestProject.git_lfs
def FindManifestByPath(self, path):
"""Returns the manifest containing path."""
path = os.path.abspath(path)
manifest = self._outer_client or self
old = None
while manifest._submanifests and manifest != old:
old = manifest
for name in manifest._submanifests:
tree = manifest._submanifests[name]
if path.startswith(tree.repo_client.manifest.topdir):
manifest = tree.repo_client
break
return manifest
@property
def subdir(self):
"""Returns the path for per-submanifest objects for this manifest."""
return self.SubmanifestInfoDir(self.path_prefix)
def SubmanifestInfoDir(self, submanifest_path, object_path=''):
"""Return the path to submanifest-specific info for a submanifest.
Return the full path of the directory in which to put per-manifest objects.
Args:
submanifest_path: a string, the path of the submanifest, relative to the
outermost topdir. If empty, then repodir is returned.
object_path: a string, relative path to append to the submanifest info
directory path.
"""
if submanifest_path:
return os.path.join(self.repodir, SUBMANIFEST_DIR, submanifest_path,
object_path)
else:
return os.path.join(self.repodir, object_path)
def SubmanifestProject(self, submanifest_path):
"""Return a manifestProject for a submanifest."""
subdir = self.SubmanifestInfoDir(submanifest_path)
mp = ManifestProject(self, 'manifests',
gitdir=os.path.join(subdir, 'manifests.git'),
worktree=os.path.join(subdir, 'manifests'))
return mp
def GetDefaultGroupsStr(self, with_platform=True):
"""Returns the default group string to use.
Args:
with_platform: a boolean, whether to include the group for the
underlying platform.
"""
groups = ','.join(self.default_groups or ['default'])
if with_platform:
groups += f',platform-{platform.system().lower()}'
return groups
def GetGroupsStr(self):
"""Returns the manifest group string that should be synced."""
return self.manifestProject.manifest_groups or self.GetDefaultGroupsStr()
def Unload(self):
"""Unload the manifest.
If the manifest files have been changed since Load() was called, this will
cause the new/updated manifest to be used.
"""
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self._loaded = False
self._projects = {}
self._paths = {}
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self._remotes = {}
self._default = None
self._submanifests = {}
Support repo-level pre-upload hook and prep for future hooks. All repo-level hooks are expected to live in a single project at the top level of that project. The name of the hooks project is provided in the manifest.xml. The manifest also lists which hooks are enabled to make it obvious if a file somehow failed to sync down (or got deleted). Before running any hook, we will prompt the user to make sure that it is OK. A user can deny running the hook, allow once, or allow "forever" (until hooks change). This tries to keep with the git spirit of not automatically running anything on the user's computer that got synced down. Note that individual repo commands can add always options to avoid these prompts as they see fit (see below for the 'upload' options). When hooks are run, they are loaded into the current interpreter (the one running repo) and their main() function is run. This mechanism is used (instead of using subprocess) to make it easier to expand to a richer hook interface in the future. During loading, the interpreter's sys.path is updated to contain the directory containing the hooks so that hooks can be split into multiple files. The upload command has two options that control hook behavior: - no-verify=False, verify=False (DEFAULT): If stdout is a tty, can prompt about running upload hooks if needed. If user denies running hooks, the upload is cancelled. If stdout is not a tty and we would need to prompt about upload hooks, upload is cancelled. - no-verify=False, verify=True: Always run upload hooks with no prompt. - no-verify=True, verify=False: Never run upload hooks, but upload anyway (AKA bypass hooks). - no-verify=True, verify=True: Invalid Sample bit of manifest.xml code for enabling hooks (assumes you have a project named 'hooks' where hooks are stored): <repo-hooks in-project="hooks" enabled-list="pre-upload" /> Sample main() function in pre-upload.py in hooks directory: def main(project_list, **kwargs): print ('These projects will be uploaded: %s' % ', '.join(project_list)) print ('I am being a good boy and ignoring anything in kwargs\n' 'that I don\'t understand.') print 'I fail 50% of the time. How flaky.' if random.random() <= .5: raise Exception('Pre-upload hook failed. Have a nice day.') Change-Id: I5cefa2cd5865c72589263cf8e2f152a43c122f70
2011-03-04 19:54:18 +00:00
self._repo_hooks_project = None
self._superproject = None
self._contactinfo = ContactInfo(Wrapper().BUG_URL)
self._notice = None
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self.branch = None
self._manifest_server = None
2008-10-21 14:00:00 +00:00
def Load(self):
"""Read the manifest into memory."""
# Do not expose internal arguments.
self._Load()
def _Load(self, initial_client=None, submanifest_depth=0):
if submanifest_depth > MAX_SUBMANIFEST_DEPTH:
raise ManifestParseError('maximum submanifest depth %d exceeded.' %
MAX_SUBMANIFEST_DEPTH)
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if not self._loaded:
if self._outer_client and self._outer_client != self:
# This will load all clients.
self._outer_client._Load(initial_client=self)
savedManifestFile = self.manifestFile
override = self._outer_client.manifestFileOverrides.get(self.path_prefix)
if override:
self.manifestFile = override
try:
m = self.manifestProject
b = m.GetBranch(m.CurrentBranch).merge
if b is not None and b.startswith(R_HEADS):
b = b[len(R_HEADS):]
self.branch = b
parent_groups = self.parent_groups
if self.path_prefix:
parent_groups = f'{SUBMANIFEST_GROUP_PREFIX}:path:{self.path_prefix},{parent_groups}'
# The manifestFile was specified by the user which is why we allow include
# paths to point anywhere.
nodes = []
nodes.append(self._ParseManifestXml(
self.manifestFile, self.manifestProject.worktree,
parent_groups=parent_groups, restrict_includes=False))
if self._load_local_manifests and self.local_manifests:
try:
for local_file in sorted(platform_utils.listdir(self.local_manifests)):
if local_file.endswith('.xml'):
local = os.path.join(self.local_manifests, local_file)
# Since local manifests are entirely managed by the user, allow
# them to point anywhere the user wants.
local_group = f'{LOCAL_MANIFEST_GROUP_PREFIX}:{local_file[:-4]}'
nodes.append(self._ParseManifestXml(
local, self.subdir,
parent_groups=f'{local_group},{parent_groups}',
restrict_includes=False))
except OSError:
pass
try:
self._ParseManifest(nodes)
except ManifestParseError as e:
# There was a problem parsing, unload ourselves in case they catch
# this error and try again later, we will show the correct error
self.Unload()
raise e
if self.IsMirror:
self._AddMetaProjectMirror(self.repoProject)
self._AddMetaProjectMirror(self.manifestProject)
self._loaded = True
finally:
if override:
self.manifestFile = savedManifestFile
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# Now that we have loaded this manifest, load any submanifests as well.
# We need to do this after self._loaded is set to avoid looping.
for name in self._submanifests:
tree = self._submanifests[name]
spec = tree.ToSubmanifestSpec()
present = os.path.exists(os.path.join(self.subdir, MANIFEST_FILE_NAME))
if present and tree.present and not tree.repo_client:
if initial_client and initial_client.topdir == self.topdir:
tree.repo_client = self
tree.present = present
elif not os.path.exists(self.subdir):
tree.present = False
if present and tree.present:
tree.repo_client._Load(initial_client=initial_client,
submanifest_depth=submanifest_depth + 1)
def _ParseManifestXml(self, path, include_root, parent_groups='',
restrict_includes=True):
"""Parse a manifest XML and return the computed nodes.
Args:
path: The XML file to read & parse.
include_root: The path to interpret include "name"s relative to.
parent_groups: The groups to apply to this projects.
restrict_includes: Whether to constrain the "name" attribute of includes.
Returns:
List of XML nodes.
"""
try:
root = xml.dom.minidom.parse(path)
except (OSError, xml.parsers.expat.ExpatError) as e:
raise ManifestParseError("error parsing manifest %s: %s" % (path, e))
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if not root or not root.childNodes:
ManifestXml: add include support Having the ability to include other manifests is a very practical feature to ease the managment of manifest. It allows to divide a manifest into separate files, and create different environment depending on what we want to release You can have unlimited recursion of include, the manifest configs will simply be concatenated as if it was in a single file. command "repo manifest" will create a single manifest, and not recreate the manifest hierarchy for example: Our developement manifest will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="platform/android/main" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-priv.xml" /> <!-- The source of the BSP projects we release in binary form --> </manifest> Our release manifest will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="platform/android/release-ext" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-ext.xml" /> <!-- The PREBUILT version of the BSP projects we release in binary form --> </manifest> And it is also easy to create and maintain feature branch with a manifest that looks like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="feature_branch_foobar" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-priv.xml" /> <!-- The source of the BSP projects we release in binary form --> </manifest> Signed-off-by: Brian Harring <brian.harring@intel.com> Signed-off-by: Pierre Tardy <pierre.tardy@intel.com> Change-Id: I833a30d303039e485888768e6b81561b7665e89d
2011-04-28 12:04:41 +00:00
raise ManifestParseError("no root node in %s" % (path,))
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for manifest in root.childNodes:
if manifest.nodeName == 'manifest':
break
else:
ManifestXml: add include support Having the ability to include other manifests is a very practical feature to ease the managment of manifest. It allows to divide a manifest into separate files, and create different environment depending on what we want to release You can have unlimited recursion of include, the manifest configs will simply be concatenated as if it was in a single file. command "repo manifest" will create a single manifest, and not recreate the manifest hierarchy for example: Our developement manifest will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="platform/android/main" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-priv.xml" /> <!-- The source of the BSP projects we release in binary form --> </manifest> Our release manifest will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="platform/android/release-ext" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-ext.xml" /> <!-- The PREBUILT version of the BSP projects we release in binary form --> </manifest> And it is also easy to create and maintain feature branch with a manifest that looks like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="feature_branch_foobar" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-priv.xml" /> <!-- The source of the BSP projects we release in binary form --> </manifest> Signed-off-by: Brian Harring <brian.harring@intel.com> Signed-off-by: Pierre Tardy <pierre.tardy@intel.com> Change-Id: I833a30d303039e485888768e6b81561b7665e89d
2011-04-28 12:04:41 +00:00
raise ManifestParseError("no <manifest> in %s" % (path,))
nodes = []
for node in manifest.childNodes:
if node.nodeName == 'include':
name = self._reqatt(node, 'name')
if restrict_includes:
msg = self._CheckLocalPath(name)
if msg:
raise ManifestInvalidPathError(
'<include> invalid "name": %s: %s' % (name, msg))
include_groups = ''
if parent_groups:
include_groups = parent_groups
if node.hasAttribute('groups'):
include_groups = node.getAttribute('groups') + ',' + include_groups
fp = os.path.join(include_root, name)
if not os.path.isfile(fp):
raise ManifestParseError("include [%s/]%s doesn't exist or isn't a file"
% (include_root, name))
try:
nodes.extend(self._ParseManifestXml(fp, include_root, include_groups))
# should isolate this to the exact exception, but that's
# tricky. actual parsing implementation may vary.
except (KeyboardInterrupt, RuntimeError, SystemExit, ManifestParseError):
raise
except Exception as e:
raise ManifestParseError(
"failed parsing included manifest %s: %s" % (name, e))
else:
if parent_groups and node.nodeName == 'project':
nodeGroups = parent_groups
if node.hasAttribute('groups'):
nodeGroups = node.getAttribute('groups') + ',' + nodeGroups
node.setAttribute('groups', nodeGroups)
nodes.append(node)
return nodes
ManifestXml: add include support Having the ability to include other manifests is a very practical feature to ease the managment of manifest. It allows to divide a manifest into separate files, and create different environment depending on what we want to release You can have unlimited recursion of include, the manifest configs will simply be concatenated as if it was in a single file. command "repo manifest" will create a single manifest, and not recreate the manifest hierarchy for example: Our developement manifest will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="platform/android/main" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-priv.xml" /> <!-- The source of the BSP projects we release in binary form --> </manifest> Our release manifest will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="platform/android/release-ext" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-ext.xml" /> <!-- The PREBUILT version of the BSP projects we release in binary form --> </manifest> And it is also easy to create and maintain feature branch with a manifest that looks like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <default revision="feature_branch_foobar" remote="intel"/> <include name="server.xml"/> <!-- The Server configuration --> <include name="aosp.xml" /> <!-- All the AOSP projects --> <include name="bsp.xml" /> <!-- The BSP projects that we release in source form --> <include name="bsp-priv.xml" /> <!-- The source of the BSP projects we release in binary form --> </manifest> Signed-off-by: Brian Harring <brian.harring@intel.com> Signed-off-by: Pierre Tardy <pierre.tardy@intel.com> Change-Id: I833a30d303039e485888768e6b81561b7665e89d
2011-04-28 12:04:41 +00:00
def _ParseManifest(self, node_list):
for node in itertools.chain(*node_list):
2008-10-21 14:00:00 +00:00
if node.nodeName == 'remote':
remote = self._ParseRemote(node)
if remote:
if remote.name in self._remotes:
if remote != self._remotes[remote.name]:
raise ManifestParseError(
'remote %s already exists with different attributes' %
(remote.name))
else:
self._remotes[remote.name] = remote
2008-10-21 14:00:00 +00:00
for node in itertools.chain(*node_list):
2008-10-21 14:00:00 +00:00
if node.nodeName == 'default':
new_default = self._ParseDefault(node)
emptyDefault = not node.hasAttributes() and not node.hasChildNodes()
if self._default is None:
self._default = new_default
elif not emptyDefault and new_default != self._default:
raise ManifestParseError('duplicate default in %s' %
(self.manifestFile))
2008-10-21 14:00:00 +00:00
if self._default is None:
self._default = _Default()
submanifest_paths = set()
for node in itertools.chain(*node_list):
if node.nodeName == 'submanifest':
submanifest = self._ParseSubmanifest(node)
if submanifest:
if submanifest.name in self._submanifests:
if submanifest != self._submanifests[submanifest.name]:
raise ManifestParseError(
'submanifest %s already exists with different attributes' %
(submanifest.name))
else:
self._submanifests[submanifest.name] = submanifest
submanifest_paths.add(submanifest.relpath)
for node in itertools.chain(*node_list):
if node.nodeName == 'notice':
if self._notice is not None:
Support repo-level pre-upload hook and prep for future hooks. All repo-level hooks are expected to live in a single project at the top level of that project. The name of the hooks project is provided in the manifest.xml. The manifest also lists which hooks are enabled to make it obvious if a file somehow failed to sync down (or got deleted). Before running any hook, we will prompt the user to make sure that it is OK. A user can deny running the hook, allow once, or allow "forever" (until hooks change). This tries to keep with the git spirit of not automatically running anything on the user's computer that got synced down. Note that individual repo commands can add always options to avoid these prompts as they see fit (see below for the 'upload' options). When hooks are run, they are loaded into the current interpreter (the one running repo) and their main() function is run. This mechanism is used (instead of using subprocess) to make it easier to expand to a richer hook interface in the future. During loading, the interpreter's sys.path is updated to contain the directory containing the hooks so that hooks can be split into multiple files. The upload command has two options that control hook behavior: - no-verify=False, verify=False (DEFAULT): If stdout is a tty, can prompt about running upload hooks if needed. If user denies running hooks, the upload is cancelled. If stdout is not a tty and we would need to prompt about upload hooks, upload is cancelled. - no-verify=False, verify=True: Always run upload hooks with no prompt. - no-verify=True, verify=False: Never run upload hooks, but upload anyway (AKA bypass hooks). - no-verify=True, verify=True: Invalid Sample bit of manifest.xml code for enabling hooks (assumes you have a project named 'hooks' where hooks are stored): <repo-hooks in-project="hooks" enabled-list="pre-upload" /> Sample main() function in pre-upload.py in hooks directory: def main(project_list, **kwargs): print ('These projects will be uploaded: %s' % ', '.join(project_list)) print ('I am being a good boy and ignoring anything in kwargs\n' 'that I don\'t understand.') print 'I fail 50% of the time. How flaky.' if random.random() <= .5: raise Exception('Pre-upload hook failed. Have a nice day.') Change-Id: I5cefa2cd5865c72589263cf8e2f152a43c122f70
2011-03-04 19:54:18 +00:00
raise ManifestParseError(
'duplicate notice in %s' %
(self.manifestFile))
self._notice = self._ParseNotice(node)
for node in itertools.chain(*node_list):
if node.nodeName == 'manifest-server':
url = self._reqatt(node, 'url')
if self._manifest_server is not None:
raise ManifestParseError(
'duplicate manifest-server in %s' %
(self.manifestFile))
self._manifest_server = url
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
def recursively_add_projects(project):
projects = self._projects.setdefault(project.name, [])
if project.relpath is None:
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
raise ManifestParseError(
'missing path for %s in %s' %
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
(project.name, self.manifestFile))
if project.relpath in self._paths:
raise ManifestParseError(
'duplicate path %s in %s' %
(project.relpath, self.manifestFile))
for tree in submanifest_paths:
if project.relpath.startswith(tree):
raise ManifestParseError(
'project %s conflicts with submanifest path %s' %
(project.relpath, tree))
self._paths[project.relpath] = project
projects.append(project)
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
for subproject in project.subprojects:
recursively_add_projects(subproject)
repo_hooks_project = None
enabled_repo_hooks = None
for node in itertools.chain(*node_list):
2008-10-21 14:00:00 +00:00
if node.nodeName == 'project':
project = self._ParseProject(node)
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
recursively_add_projects(project)
if node.nodeName == 'extend-project':
name = self._reqatt(node, 'name')
if name not in self._projects:
raise ManifestParseError('extend-project element specifies non-existent '
'project: %s' % name)
path = node.getAttribute('path')
dest_path = node.getAttribute('dest-path')
groups = node.getAttribute('groups')
if groups:
groups = self._ParseList(groups)
revision = node.getAttribute('revision')
remote_name = node.getAttribute('remote')
if not remote_name:
remote = self._default.remote
else:
remote = self._get_remote(node)
named_projects = self._projects[name]
if dest_path and not path and len(named_projects) > 1:
raise ManifestParseError('extend-project cannot use dest-path when '
'matching multiple projects: %s' % name)
for p in self._projects[name]:
if path and p.relpath != path:
continue
if groups:
p.groups.extend(groups)
if revision:
p.SetRevision(revision)
if remote_name:
p.remote = remote.ToRemoteSpec(name)
if dest_path:
del self._paths[p.relpath]
relpath, worktree, gitdir, objdir, _ = self.GetProjectPaths(
name, dest_path, remote.name)
p.UpdatePaths(relpath, worktree, gitdir, objdir)
self._paths[p.relpath] = p
Support repo-level pre-upload hook and prep for future hooks. All repo-level hooks are expected to live in a single project at the top level of that project. The name of the hooks project is provided in the manifest.xml. The manifest also lists which hooks are enabled to make it obvious if a file somehow failed to sync down (or got deleted). Before running any hook, we will prompt the user to make sure that it is OK. A user can deny running the hook, allow once, or allow "forever" (until hooks change). This tries to keep with the git spirit of not automatically running anything on the user's computer that got synced down. Note that individual repo commands can add always options to avoid these prompts as they see fit (see below for the 'upload' options). When hooks are run, they are loaded into the current interpreter (the one running repo) and their main() function is run. This mechanism is used (instead of using subprocess) to make it easier to expand to a richer hook interface in the future. During loading, the interpreter's sys.path is updated to contain the directory containing the hooks so that hooks can be split into multiple files. The upload command has two options that control hook behavior: - no-verify=False, verify=False (DEFAULT): If stdout is a tty, can prompt about running upload hooks if needed. If user denies running hooks, the upload is cancelled. If stdout is not a tty and we would need to prompt about upload hooks, upload is cancelled. - no-verify=False, verify=True: Always run upload hooks with no prompt. - no-verify=True, verify=False: Never run upload hooks, but upload anyway (AKA bypass hooks). - no-verify=True, verify=True: Invalid Sample bit of manifest.xml code for enabling hooks (assumes you have a project named 'hooks' where hooks are stored): <repo-hooks in-project="hooks" enabled-list="pre-upload" /> Sample main() function in pre-upload.py in hooks directory: def main(project_list, **kwargs): print ('These projects will be uploaded: %s' % ', '.join(project_list)) print ('I am being a good boy and ignoring anything in kwargs\n' 'that I don\'t understand.') print 'I fail 50% of the time. How flaky.' if random.random() <= .5: raise Exception('Pre-upload hook failed. Have a nice day.') Change-Id: I5cefa2cd5865c72589263cf8e2f152a43c122f70
2011-03-04 19:54:18 +00:00
if node.nodeName == 'repo-hooks':
# Only one project can be the hooks project
if repo_hooks_project is not None:
Support repo-level pre-upload hook and prep for future hooks. All repo-level hooks are expected to live in a single project at the top level of that project. The name of the hooks project is provided in the manifest.xml. The manifest also lists which hooks are enabled to make it obvious if a file somehow failed to sync down (or got deleted). Before running any hook, we will prompt the user to make sure that it is OK. A user can deny running the hook, allow once, or allow "forever" (until hooks change). This tries to keep with the git spirit of not automatically running anything on the user's computer that got synced down. Note that individual repo commands can add always options to avoid these prompts as they see fit (see below for the 'upload' options). When hooks are run, they are loaded into the current interpreter (the one running repo) and their main() function is run. This mechanism is used (instead of using subprocess) to make it easier to expand to a richer hook interface in the future. During loading, the interpreter's sys.path is updated to contain the directory containing the hooks so that hooks can be split into multiple files. The upload command has two options that control hook behavior: - no-verify=False, verify=False (DEFAULT): If stdout is a tty, can prompt about running upload hooks if needed. If user denies running hooks, the upload is cancelled. If stdout is not a tty and we would need to prompt about upload hooks, upload is cancelled. - no-verify=False, verify=True: Always run upload hooks with no prompt. - no-verify=True, verify=False: Never run upload hooks, but upload anyway (AKA bypass hooks). - no-verify=True, verify=True: Invalid Sample bit of manifest.xml code for enabling hooks (assumes you have a project named 'hooks' where hooks are stored): <repo-hooks in-project="hooks" enabled-list="pre-upload" /> Sample main() function in pre-upload.py in hooks directory: def main(project_list, **kwargs): print ('These projects will be uploaded: %s' % ', '.join(project_list)) print ('I am being a good boy and ignoring anything in kwargs\n' 'that I don\'t understand.') print 'I fail 50% of the time. How flaky.' if random.random() <= .5: raise Exception('Pre-upload hook failed. Have a nice day.') Change-Id: I5cefa2cd5865c72589263cf8e2f152a43c122f70
2011-03-04 19:54:18 +00:00
raise ManifestParseError(
'duplicate repo-hooks in %s' %
(self.manifestFile))
# Get the name of the project and the (space-separated) list of enabled.
repo_hooks_project = self._reqatt(node, 'in-project')
enabled_repo_hooks = self._ParseList(self._reqatt(node, 'enabled-list'))
if node.nodeName == 'superproject':
name = self._reqatt(node, 'name')
# There can only be one superproject.
if self._superproject:
raise ManifestParseError(
'duplicate superproject in %s' %
(self.manifestFile))
remote_name = node.getAttribute('remote')
if not remote_name:
remote = self._default.remote
else:
remote = self._get_remote(node)
if remote is None:
raise ManifestParseError("no remote for superproject %s within %s" %
(name, self.manifestFile))
revision = node.getAttribute('revision') or remote.revision
if not revision:
revision = self._default.revisionExpr
if not revision:
raise ManifestParseError('no revision for superproject %s within %s' %
(name, self.manifestFile))
self._superproject = Superproject(self,
name=name,
remote=remote.ToRemoteSpec(name),
revision=revision)
if node.nodeName == 'contactinfo':
bugurl = self._reqatt(node, 'bugurl')
# This element can be repeated, later entries will clobber earlier ones.
self._contactinfo = ContactInfo(bugurl)
if node.nodeName == 'remove-project':
name = self._reqatt(node, 'name')
if name in self._projects:
for p in self._projects[name]:
del self._paths[p.relpath]
del self._projects[name]
# If the manifest removes the hooks project, treat it as if it deleted
# the repo-hooks element too.
if repo_hooks_project == name:
repo_hooks_project = None
elif not XmlBool(node, 'optional', False):
raise ManifestParseError('remove-project element specifies non-existent '
'project: %s' % name)
# Store repo hooks project information.
if repo_hooks_project:
# Store a reference to the Project.
try:
repo_hooks_projects = self._projects[repo_hooks_project]
except KeyError:
raise ManifestParseError(
'project %s not found for repo-hooks' %
(repo_hooks_project))
if len(repo_hooks_projects) != 1:
raise ManifestParseError(
'internal error parsing repo-hooks in %s' %
(self.manifestFile))
self._repo_hooks_project = repo_hooks_projects[0]
# Store the enabled hooks in the Project object.
self._repo_hooks_project.enabled_repo_hooks = enabled_repo_hooks
def _AddMetaProjectMirror(self, m):
name = None
m_url = m.GetRemote().url
if m_url.endswith('/.git'):
raise ManifestParseError('refusing to mirror %s' % m_url)
if self._default and self._default.remote:
url = self._default.remote.resolvedFetchUrl
if not url.endswith('/'):
url += '/'
if m_url.startswith(url):
remote = self._default.remote
name = m_url[len(url):]
if name is None:
s = m_url.rindex('/') + 1
manifestUrl = self.manifestProject.config.GetString('remote.origin.url')
remote = _XmlRemote('origin', fetch=m_url[:s], manifestUrl=manifestUrl)
name = m_url[s:]
if name.endswith('.git'):
name = name[:-4]
if name not in self._projects:
m.PreSync()
gitdir = os.path.join(self.topdir, '%s.git' % name)
project = Project(manifest=self,
name=name,
remote=remote.ToRemoteSpec(name),
gitdir=gitdir,
objdir=gitdir,
worktree=None,
relpath=name or None,
revisionExpr=m.revisionExpr,
revisionId=None)
self._projects[project.name] = [project]
self._paths[project.relpath] = project
2008-10-21 14:00:00 +00:00
def _ParseRemote(self, node):
"""
reads a <remote> element from the manifest file
"""
name = self._reqatt(node, 'name')
Add remote alias support in manifest The `alias` is an optional attribute in element `remote`. It can be used to override attibute `name` to be set as the remote name in each project's .git/config. Its value can be duplicated while attribute `name` has to be unique across the manifest file. This helps each project to be able to have same remote name which actually points to different remote url. It eases some automation scripts to be able to checkout/push to same remote name but actually different remote url, like: repo forall -c "git checkout -b work same_remote/work" repo forall -c "git push same_remote work:work" for example: The manifest with 'alias' will look like: <?xml version='1.0' encoding='UTF-8'?> <manifest> <remote alias="same_alias" fetch="git://git.external1.org/" name="ext1" review="http://review.external1.org"/> <remote alias="same_alias" fetch="git://git.external2.org/" name="ext2" review="http://review.external2.org"/> <remote alias="same_alias" fetch="ssh://git.internal.com:29418" name="int" review="http://review.internal.com"/> <default remote="int" revision="int-branch" sync-j="2"/> <project name="path/to/project1" path="project1" remote="ext1"/> <project name="path/to/project2" path="project2" remote="ext2"/> <project name="path/to/project3" path="project3"/> ... </manifest> In each project, use command "git remote -v" project1: same_alias git://git.external1.org/project1 (fetch) same_alias git://git.external1.org/project1 (push) project2: same_alias git://git.external2.org/project2 (fetch) same_alias git://git.external2.org/project2 (push) project3: same_alias ssh://git.internal.com:29418/project3 (fetch) same_alias ssh://git.internal.com:29418/project3 (push) Change-Id: I2c48263097ff107f0c978f3e83966ae71d06cb90
2012-07-02 14:32:50 +00:00
alias = node.getAttribute('alias')
if alias == '':
alias = None
2008-10-21 14:00:00 +00:00
fetch = self._reqatt(node, 'fetch')
pushUrl = node.getAttribute('pushurl')
if pushUrl == '':
pushUrl = None
2008-10-21 14:00:00 +00:00
review = node.getAttribute('review')
if review == '':
review = None
revision = node.getAttribute('revision')
if revision == '':
revision = None
manifestUrl = self.manifestProject.config.GetString('remote.origin.url')
remote = _XmlRemote(name, alias, fetch, pushUrl, manifestUrl, review, revision)
for n in node.childNodes:
if n.nodeName == 'annotation':
self._ParseAnnotation(remote, n)
return remote
2008-10-21 14:00:00 +00:00
def _ParseDefault(self, node):
"""
reads a <default> element from the manifest file
"""
d = _Default()
d.remote = self._get_remote(node)
d.revisionExpr = node.getAttribute('revision')
if d.revisionExpr == '':
d.revisionExpr = None
d.destBranchExpr = node.getAttribute('dest-branch') or None
d.upstreamExpr = node.getAttribute('upstream') or None
d.sync_j = XmlInt(node, 'sync-j', None)
if d.sync_j is not None and d.sync_j <= 0:
raise ManifestParseError('%s: sync-j must be greater than 0, not "%s"' %
(self.manifestFile, d.sync_j))
d.sync_c = XmlBool(node, 'sync-c', False)
d.sync_s = XmlBool(node, 'sync-s', False)
d.sync_tags = XmlBool(node, 'sync-tags', True)
2008-10-21 14:00:00 +00:00
return d
def _ParseNotice(self, node):
"""
reads a <notice> element from the manifest file
The <notice> element is distinct from other tags in the XML in that the
data is conveyed between the start and end tag (it's not an empty-element
tag).
The white space (carriage returns, indentation) for the notice element is
relevant and is parsed in a way that is based on how python docstrings work.
In fact, the code is remarkably similar to here:
http://www.python.org/dev/peps/pep-0257/
"""
# Get the data out of the node...
notice = node.childNodes[0].data
# Figure out minimum indentation, skipping the first line (the same line
# as the <notice> tag)...
minIndent = sys.maxsize
lines = notice.splitlines()
for line in lines[1:]:
lstrippedLine = line.lstrip()
if lstrippedLine:
indent = len(line) - len(lstrippedLine)
minIndent = min(indent, minIndent)
# Strip leading / trailing blank lines and also indentation.
cleanLines = [lines[0].strip()]
for line in lines[1:]:
cleanLines.append(line[minIndent:].rstrip())
# Clear completely blank lines from front and back...
while cleanLines and not cleanLines[0]:
del cleanLines[0]
while cleanLines and not cleanLines[-1]:
del cleanLines[-1]
return '\n'.join(cleanLines)
def _ParseSubmanifest(self, node):
"""Reads a <submanifest> element from the manifest file."""
name = self._reqatt(node, 'name')
remote = node.getAttribute('remote')
if remote == '':
remote = None
project = node.getAttribute('project')
if project == '':
project = None
revision = node.getAttribute('revision')
if revision == '':
revision = None
manifestName = node.getAttribute('manifest-name')
if manifestName == '':
manifestName = None
groups = ''
if node.hasAttribute('groups'):
groups = node.getAttribute('groups')
groups = self._ParseList(groups)
default_groups = self._ParseList(node.getAttribute('default-groups'))
path = node.getAttribute('path')
if path == '':
path = None
if revision:
msg = self._CheckLocalPath(revision.split('/')[-1])
if msg:
raise ManifestInvalidPathError(
'<submanifest> invalid "revision": %s: %s' % (revision, msg))
else:
msg = self._CheckLocalPath(name)
if msg:
raise ManifestInvalidPathError(
'<submanifest> invalid "name": %s: %s' % (name, msg))
else:
msg = self._CheckLocalPath(path)
if msg:
raise ManifestInvalidPathError(
'<submanifest> invalid "path": %s: %s' % (path, msg))
submanifest = _XmlSubmanifest(name, remote, project, revision, manifestName,
groups, default_groups, path, self)
for n in node.childNodes:
if n.nodeName == 'annotation':
self._ParseAnnotation(submanifest, n)
return submanifest
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
def _JoinName(self, parent_name, name):
return os.path.join(parent_name, name)
def _UnjoinName(self, parent_name, name):
return os.path.relpath(name, parent_name)
def _ParseProject(self, node, parent=None, **extra_proj_attrs):
2008-10-21 14:00:00 +00:00
"""
reads a <project> element from the manifest file
"""
2008-10-21 14:00:00 +00:00
name = self._reqatt(node, 'name')
msg = self._CheckLocalPath(name, dir_ok=True)
if msg:
raise ManifestInvalidPathError(
'<project> invalid "name": %s: %s' % (name, msg))
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
if parent:
name = self._JoinName(parent.name, name)
2008-10-21 14:00:00 +00:00
remote = self._get_remote(node)
if remote is None:
remote = self._default.remote
if remote is None:
raise ManifestParseError("no remote for project %s within %s" %
(name, self.manifestFile))
2008-10-21 14:00:00 +00:00
revisionExpr = node.getAttribute('revision') or remote.revision
if not revisionExpr:
revisionExpr = self._default.revisionExpr
if not revisionExpr:
raise ManifestParseError("no revision for project %s within %s" %
(name, self.manifestFile))
2008-10-21 14:00:00 +00:00
path = node.getAttribute('path')
if not path:
path = name
else:
# NB: The "." project is handled specially in Project.Sync_LocalHalf.
msg = self._CheckLocalPath(path, dir_ok=True, cwd_dot_ok=True)
if msg:
raise ManifestInvalidPathError(
'<project> invalid "path": %s: %s' % (path, msg))
2008-10-21 14:00:00 +00:00
rebase = XmlBool(node, 'rebase', True)
sync_c = XmlBool(node, 'sync-c', False)
sync_s = XmlBool(node, 'sync-s', self._default.sync_s)
sync_tags = XmlBool(node, 'sync-tags', self._default.sync_tags)
clone_depth = XmlInt(node, 'clone-depth')
if clone_depth is not None and clone_depth <= 0:
raise ManifestParseError('%s: clone-depth must be greater than 0, not "%s"' %
(self.manifestFile, clone_depth))
dest_branch = node.getAttribute('dest-branch') or self._default.destBranchExpr
upstream = node.getAttribute('upstream') or self._default.upstreamExpr
groups = ''
if node.hasAttribute('groups'):
groups = node.getAttribute('groups')
groups = self._ParseList(groups)
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
if parent is None:
relpath, worktree, gitdir, objdir, use_git_worktrees = \
self.GetProjectPaths(name, path, remote.name)
else:
use_git_worktrees = False
relpath, worktree, gitdir, objdir = \
self.GetSubprojectPaths(parent, name, path)
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
default_groups = ['all', 'name:%s' % name, 'path:%s' % relpath]
groups.extend(set(default_groups).difference(groups))
if self.IsMirror and node.hasAttribute('force-path'):
if XmlBool(node, 'force-path', False):
gitdir = os.path.join(self.topdir, '%s.git' % path)
project = Project(manifest=self,
name=name,
remote=remote.ToRemoteSpec(name),
gitdir=gitdir,
objdir=objdir,
worktree=worktree,
relpath=relpath,
revisionExpr=revisionExpr,
revisionId=None,
rebase=rebase,
groups=groups,
sync_c=sync_c,
sync_s=sync_s,
sync_tags=sync_tags,
clone_depth=clone_depth,
upstream=upstream,
parent=parent,
dest_branch=dest_branch,
use_git_worktrees=use_git_worktrees,
**extra_proj_attrs)
2008-10-21 14:00:00 +00:00
for n in node.childNodes:
if n.nodeName == 'copyfile':
2008-10-21 14:00:00 +00:00
self._ParseCopyFile(project, n)
if n.nodeName == 'linkfile':
self._ParseLinkFile(project, n)
if n.nodeName == 'annotation':
self._ParseAnnotation(project, n)
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
if n.nodeName == 'project':
project.subprojects.append(self._ParseProject(n, parent=project))
2008-10-21 14:00:00 +00:00
return project
def GetProjectPaths(self, name, path, remote):
"""Return the paths for a project.
Args:
name: a string, the name of the project.
path: a string, the path of the project.
remote: a string, the remote.name of the project.
Returns:
A tuple of (relpath, worktree, gitdir, objdir, use_git_worktrees) for the
project with |name| and |path|.
"""
# The manifest entries might have trailing slashes. Normalize them to avoid
# unexpected filesystem behavior since we do string concatenation below.
path = path.rstrip('/')
name = name.rstrip('/')
remote = remote.rstrip('/')
use_git_worktrees = False
use_remote_name = self.is_multimanifest
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
relpath = path
if self.IsMirror:
worktree = None
gitdir = os.path.join(self.topdir, '%s.git' % name)
objdir = gitdir
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
else:
if use_remote_name:
namepath = os.path.join(remote, f'{name}.git')
else:
namepath = f'{name}.git'
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
worktree = os.path.join(self.topdir, path).replace('\\', '/')
gitdir = os.path.join(self.subdir, 'projects', '%s.git' % path)
# We allow people to mix git worktrees & non-git worktrees for now.
# This allows for in situ migration of repo clients.
if os.path.exists(gitdir) or not self.UseGitWorktrees:
project: initial separation of shared project objects For now, this is opt-in via environment variables: - export REPO_USE_ALTERNATES=1 The shared project logic that shares the internal .git/objects/ dir directly between multiple projects via the project-objects/ tree has a lot of KI with random corruption. It all boils down to projects sharing objects/ but not refs/. Git operations that use refs to see what objects are reachable and discard the rest can easily discard objects that are used by other projects. Consider this project layout: <show fs layout> There are unique refs in each of these trees that are not visible in the others. This means it's not safe to run basic operations like git prune or git gc. Since we can't share refs (each project needs to have unique refs like HEAD in order to function), let's change how we share objects. The old way involved symlinking .git/objects/ to the project-objects tree. The new way shares objects using git's info/alternates. This means project-objects/ will only contain objects that exist in the remote project. Local per-project objects (like when creating branches and making changes) will never be shared. When running a prune or gc operation in the per-project state, it will only ever repack or discard those per-project objects. The common shared objects would only be cleaned up when running a common operation (i.e. by repo itself). One downside to this for users is if they try blending unrelated upstream projects. For example, in CrOS we have multiple kernel projects (for diff versions) checked out. If a dev fetched the upstream Linus tree into one of them, the objects & tags would not be shared with the others, so they would have to fetch the upstream state for each project. Annoying, but better than the current corruption situation we're in now. Also if the dev runs a manual `git fetch` in the per-project to sync it up to newer state than the last `repo sync` they ran, the objects would get duplicated. However, git operations later on should eventually dedupe this. Bug: https://crbug.com/gerrit/15553 Change-Id: I313a9b8962f9d439ef98ac0ed37ecfb9e0b3864e Reviewed-on: https://gerrit-review.googlesource.com/c/git-repo/+/328101 Reviewed-by: Mike Frysinger <vapier@google.com> Tested-by: LaMont Jones <lamontjones@google.com>
2021-12-21 05:40:31 +00:00
objdir = os.path.join(self.repodir, 'project-objects', namepath)
else:
use_git_worktrees = True
gitdir = os.path.join(self.repodir, 'worktrees', namepath)
objdir = gitdir
return relpath, worktree, gitdir, objdir, use_git_worktrees
def GetProjectsWithName(self, name, all_manifests=False):
"""All projects with |name|.
Args:
name: a string, the name of the project.
all_manifests: a boolean, if True, then all manifests are searched. If
False, then only this manifest is searched.
Returns:
A list of Project instances with name |name|.
"""
if all_manifests:
return list(itertools.chain.from_iterable(
x._projects.get(name, []) for x in self.all_manifests))
return self._projects.get(name, [])
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
def GetSubprojectName(self, parent, submodule_path):
return os.path.join(parent.name, submodule_path)
def _JoinRelpath(self, parent_relpath, relpath):
return os.path.join(parent_relpath, relpath)
def _UnjoinRelpath(self, parent_relpath, relpath):
return os.path.relpath(relpath, parent_relpath)
def GetSubprojectPaths(self, parent, name, path):
# The manifest entries might have trailing slashes. Normalize them to avoid
# unexpected filesystem behavior since we do string concatenation below.
path = path.rstrip('/')
name = name.rstrip('/')
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
relpath = self._JoinRelpath(parent.relpath, path)
gitdir = os.path.join(parent.gitdir, 'subprojects', '%s.git' % path)
objdir = os.path.join(parent.gitdir, 'subproject-objects', '%s.git' % name)
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
if self.IsMirror:
worktree = None
else:
worktree = os.path.join(parent.worktree, path).replace('\\', '/')
return relpath, worktree, gitdir, objdir
Represent git-submodule as nested projects, take 2 (Previous submission of this change broke Android buildbot due to incorrect regular expression for parsing git-config output. During investigation, we also found that Android, which pulls Chromium, has a workaround for Chromium's submodules; its manifest includes Chromium's submodules. This new change, in addition to fixing the regex, also take this type of workarounds into consideration; it adds a new attribute that makes repo not fetch submodules unless submodules have a project element defined in the manifest, or this attribute is overridden by a parent project element or by the default element.) We need a representation of git-submodule in repo; otherwise repo will not sync submodules, and leave workspace in a broken state. Of course this will not be a problem if all projects are owned by the owner of the manifest file, who may simply choose not to use git-submodule in all projects. However, this is not possible in practice because manifest file owner is unlikely to own all upstream projects. As git submodules are simply git repositories, it is natural to treat them as plain repo projects that live inside a repo project. That is, we could use recursively declared projects to denote the is-submodule relation of git repositories. The behavior of repo remains the same to projects that do not have a sub-project within. As for parent projects, repo fetches them and their sub-projects as normal projects, and then checks out subprojects at the commit specified in parent's commit object. The sub-project is fetched at a path relative to parent project's working directory; so the path specified in manifest file should match that of .gitmodules file. If a submodule is not registered in repo manifest, repo will derive its properties from itself and its parent project, which might not always be correct. In such cases, the subproject is called a derived subproject. To a user, a sub-project is merely a git-submodule; so all tips of working with a git-submodule apply here, too. For example, you should not run `repo sync` in a parent repository if its submodule is dirty. Change-Id: I4b8344c1b9ccad2f58ad304573133e5d52e1faef
2012-01-11 03:28:42 +00:00
@staticmethod
def _CheckLocalPath(path, dir_ok=False, cwd_dot_ok=False):
"""Verify |path| is reasonable for use in filesystem paths.
Used with <copyfile> & <linkfile> & <project> elements.
This only validates the |path| in isolation: it does not check against the
current filesystem state. Thus it is suitable as a first-past in a parser.
It enforces a number of constraints:
* No empty paths.
* No "~" in paths.
* No Unicode codepoints that filesystems might elide when normalizing.
* No relative path components like "." or "..".
* No absolute paths.
* No ".git" or ".repo*" path components.
Args:
path: The path name to validate.
dir_ok: Whether |path| may force a directory (e.g. end in a /).
cwd_dot_ok: Whether |path| may be just ".".
Returns:
None if |path| is OK, a failure message otherwise.
"""
if not path:
return 'empty paths not allowed'
if '~' in path:
return '~ not allowed (due to 8.3 filenames on Windows filesystems)'
path_codepoints = set(path)
# Some filesystems (like Apple's HFS+) try to normalize Unicode codepoints
# which means there are alternative names for ".git". Reject paths with
# these in it as there shouldn't be any reasonable need for them here.
# The set of codepoints here was cribbed from jgit's implementation:
# https://eclipse.googlesource.com/jgit/jgit/+/9110037e3e9461ff4dac22fee84ef3694ed57648/org.eclipse.jgit/src/org/eclipse/jgit/lib/ObjectChecker.java#884
BAD_CODEPOINTS = {
u'\u200C', # ZERO WIDTH NON-JOINER
u'\u200D', # ZERO WIDTH JOINER
u'\u200E', # LEFT-TO-RIGHT MARK
u'\u200F', # RIGHT-TO-LEFT MARK
u'\u202A', # LEFT-TO-RIGHT EMBEDDING
u'\u202B', # RIGHT-TO-LEFT EMBEDDING
u'\u202C', # POP DIRECTIONAL FORMATTING
u'\u202D', # LEFT-TO-RIGHT OVERRIDE
u'\u202E', # RIGHT-TO-LEFT OVERRIDE
u'\u206A', # INHIBIT SYMMETRIC SWAPPING
u'\u206B', # ACTIVATE SYMMETRIC SWAPPING
u'\u206C', # INHIBIT ARABIC FORM SHAPING
u'\u206D', # ACTIVATE ARABIC FORM SHAPING
u'\u206E', # NATIONAL DIGIT SHAPES
u'\u206F', # NOMINAL DIGIT SHAPES
u'\uFEFF', # ZERO WIDTH NO-BREAK SPACE
}
if BAD_CODEPOINTS & path_codepoints:
# This message is more expansive than reality, but should be fine.
return 'Unicode combining characters not allowed'
# Reject newlines as there shouldn't be any legitmate use for them, they'll
# be confusing to users, and they can easily break tools that expect to be
# able to iterate over newline delimited lists. This even applies to our
# own code like .repo/project.list.
if {'\r', '\n'} & path_codepoints:
return 'Newlines not allowed'
# Assume paths might be used on case-insensitive filesystems.
path = path.lower()
# Split up the path by its components. We can't use os.path.sep exclusively
# as some platforms (like Windows) will convert / to \ and that bypasses all
# our constructed logic here. Especially since manifest authors only use
# / in their paths.
resep = re.compile(r'[/%s]' % re.escape(os.path.sep))
# Strip off trailing slashes as those only produce '' elements, and we use
# parts to look for individual bad components.
parts = resep.split(path.rstrip('/'))
# Some people use src="." to create stable links to projects. Lets allow
# that but reject all other uses of "." to keep things simple.
if not cwd_dot_ok or parts != ['.']:
for part in set(parts):
if part in {'.', '..', '.git'} or part.startswith('.repo'):
return 'bad component: %s' % (part,)
if not dir_ok and resep.match(path[-1]):
return 'dirs not allowed'
# NB: The two abspath checks here are to handle platforms with multiple
# filesystem path styles (e.g. Windows).
norm = os.path.normpath(path)
if (norm == '..' or
(len(norm) >= 3 and norm.startswith('..') and resep.match(norm[0])) or
os.path.isabs(norm) or
norm.startswith('/')):
return 'path cannot be outside'
@classmethod
def _ValidateFilePaths(cls, element, src, dest):
"""Verify |src| & |dest| are reasonable for <copyfile> & <linkfile>.
We verify the path independent of any filesystem state as we won't have a
checkout available to compare to. i.e. This is for parsing validation
purposes only.
We'll do full/live sanity checking before we do the actual filesystem
modifications in _CopyFile/_LinkFile/etc...
"""
# |dest| is the file we write to or symlink we create.
# It is relative to the top of the repo client checkout.
msg = cls._CheckLocalPath(dest)
if msg:
raise ManifestInvalidPathError(
'<%s> invalid "dest": %s: %s' % (element, dest, msg))
# |src| is the file we read from or path we point to for symlinks.
# It is relative to the top of the git project checkout.
is_linkfile = element == 'linkfile'
msg = cls._CheckLocalPath(src, dir_ok=is_linkfile, cwd_dot_ok=is_linkfile)
if msg:
raise ManifestInvalidPathError(
'<%s> invalid "src": %s: %s' % (element, src, msg))
2008-10-21 14:00:00 +00:00
def _ParseCopyFile(self, project, node):
src = self._reqatt(node, 'src')
dest = self._reqatt(node, 'dest')
if not self.IsMirror:
# src is project relative;
# dest is relative to the top of the tree.
# We only validate paths if we actually plan to process them.
self._ValidateFilePaths('copyfile', src, dest)
project.AddCopyFile(src, dest, self.topdir)
2008-10-21 14:00:00 +00:00
def _ParseLinkFile(self, project, node):
src = self._reqatt(node, 'src')
dest = self._reqatt(node, 'dest')
if not self.IsMirror:
# src is project relative;
# dest is relative to the top of the tree.
# We only validate paths if we actually plan to process them.
self._ValidateFilePaths('linkfile', src, dest)
project.AddLinkFile(src, dest, self.topdir)
def _ParseAnnotation(self, element, node):
name = self._reqatt(node, 'name')
value = self._reqatt(node, 'value')
try:
keep = self._reqatt(node, 'keep').lower()
except ManifestParseError:
keep = "true"
if keep != "true" and keep != "false":
raise ManifestParseError('optional "keep" attribute must be '
'"true" or "false"')
element.AddAnnotation(name, value, keep)
2008-10-21 14:00:00 +00:00
def _get_remote(self, node):
name = node.getAttribute('remote')
if not name:
return None
v = self._remotes.get(name)
if not v:
raise ManifestParseError("remote %s not defined in %s" %
(name, self.manifestFile))
2008-10-21 14:00:00 +00:00
return v
def _reqatt(self, node, attname):
"""
reads a required attribute from the node.
"""
v = node.getAttribute(attname)
if not v:
raise ManifestParseError("no %s in <%s> within %s" %
(attname, node.nodeName, self.manifestFile))
2008-10-21 14:00:00 +00:00
return v
def projectsDiff(self, manifest):
"""return the projects differences between two manifests.
The diff will be from self to given manifest.
"""
fromProjects = self.paths
toProjects = manifest.paths
fromKeys = sorted(fromProjects.keys())
toKeys = sorted(toProjects.keys())
diff = {'added': [], 'removed': [], 'changed': [], 'unreachable': []}
for proj in fromKeys:
if proj not in toKeys:
diff['removed'].append(fromProjects[proj])
else:
fromProj = fromProjects[proj]
toProj = toProjects[proj]
try:
fromRevId = fromProj.GetCommitRevisionId()
toRevId = toProj.GetCommitRevisionId()
except ManifestInvalidRevisionError:
diff['unreachable'].append((fromProj, toProj))
else:
if fromRevId != toRevId:
diff['changed'].append((fromProj, toProj))
toKeys.remove(proj)
for proj in toKeys:
diff['added'].append(toProjects[proj])
return diff
class GitcManifest(XmlManifest):
"""Parser for GitC (git-in-the-cloud) manifests."""
def _ParseProject(self, node, parent=None):
"""Override _ParseProject and add support for GITC specific attributes."""
return super()._ParseProject(
node, parent=parent, old_revision=node.getAttribute('old-revision'))
def _output_manifest_project_extras(self, p, e):
"""Output GITC Specific Project attributes"""
if p.old_revision:
e.setAttribute('old-revision', str(p.old_revision))
class RepoClient(XmlManifest):
"""Manages a repo client checkout."""
def __init__(self, repodir, manifest_file=None, submanifest_path='', **kwargs):
"""Initialize.
Args:
repodir: Path to the .repo/ dir for holding all internal checkout state.
It must be in the top directory of the repo client checkout.
manifest_file: Full path to the manifest file to parse. This will usually
be |repodir|/|MANIFEST_FILE_NAME|.
submanifest_path: The submanifest root relative to the repo root.
**kwargs: Additional keyword arguments, passed to XmlManifest.
"""
self.isGitcClient = False
submanifest_path = submanifest_path or ''
if submanifest_path:
self._CheckLocalPath(submanifest_path)
prefix = os.path.join(repodir, SUBMANIFEST_DIR, submanifest_path)
else:
prefix = repodir
if os.path.exists(os.path.join(prefix, LOCAL_MANIFEST_NAME)):
print('error: %s is not supported; put local manifests in `%s` instead' %
(LOCAL_MANIFEST_NAME, os.path.join(prefix, LOCAL_MANIFESTS_DIR_NAME)),
file=sys.stderr)
sys.exit(1)
if manifest_file is None:
manifest_file = os.path.join(prefix, MANIFEST_FILE_NAME)
local_manifests = os.path.abspath(os.path.join(prefix, LOCAL_MANIFESTS_DIR_NAME))
super().__init__(repodir, manifest_file, local_manifests,
submanifest_path=submanifest_path, **kwargs)
# TODO: Completely separate manifest logic out of the client.
self.manifest = self
class GitcClient(RepoClient, GitcManifest):
"""Manages a GitC client checkout."""
def __init__(self, repodir, gitc_client_name):
"""Initialize the GitcManifest object."""
self.gitc_client_name = gitc_client_name
self.gitc_client_dir = os.path.join(gitc_utils.get_gitc_manifest_dir(),
gitc_client_name)
super().__init__(repodir, os.path.join(self.gitc_client_dir, '.manifest'))
self.isGitcClient = True