# Copyright 2014 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
"""Recipe module to ensure a checkout is consistant on a bot."""
from recipe_engine import recipe_api
# This is just for testing, to indicate if a master is using a Git scheduler
# or not.
SVN_MASTERS = (
'experimental.svn',
)
class BotUpdateApi(recipe_api.RecipeApi):
def __init__(self, mastername, buildername, slavename, issue, patchset,
patch_url, repository, gerrit_ref, rietveld, revision,
parent_got_revision, deps_revision_overrides, fail_patch,
*args, **kwargs):
self._mastername = mastername
self._buildername = buildername
self._slavename = slavename
self._issue = issue
self._patchset = patchset
self._patch_url = patch_url
self._repository = repository
self._gerrit_ref = gerrit_ref
self._rietveld = rietveld
self._revision = revision
self._parent_got_revision = parent_got_revision
self._deps_revision_overrides = deps_revision_overrides
self._fail_patch = fail_patch
self._last_returned_properties = {}
super(BotUpdateApi, self).__init__(*args, **kwargs)
def __call__(self, name, cmd, **kwargs):
"""Wrapper for easy calling of bot_update."""
assert isinstance(cmd, (list, tuple))
bot_update_path = self.resource('bot_update.py')
kwargs.setdefault('infra_step', True)
kwargs.setdefault('env', {})
kwargs['env'].setdefault('PATH', '%(PATH)s')
kwargs['env']['PATH'] = self.m.path.pathsep.join([
kwargs['env']['PATH'], str(self._module.PACKAGE_REPO_ROOT)])
return self.m.python(name, bot_update_path, cmd, **kwargs)
@property
def last_returned_properties(self):
return self._last_returned_properties
def ensure_checkout(self, gclient_config=None, suffix=None,
patch=True, update_presentation=True,
force=False, patch_root=None, no_shallow=False,
with_branch_heads=False, refs=None,
patch_project_roots=None, patch_oauth2=False,
output_manifest=True, clobber=False,
root_solution_revision=None, rietveld=None, issue=None,
patchset=None, gerrit_no_reset=False, **kwargs):
"""
Args:
gclient_config: The gclient configuration to use when running bot_update.
If omitted, the current gclient configuration is used.
rietveld: The rietveld server to use. If omitted, will infer from
the 'rietveld' property.
issue: The rietveld issue number to use. If omitted, will infer from
the 'issue' property.
patchset: The rietveld issue patchset to use. If omitted, will infer from
the 'patchset' property.
"""
refs = refs or []
# We can re-use the gclient spec from the gclient module, since all the
# data bot_update needs is already configured into the gclient spec.
cfg = gclient_config or self.m.gclient.c
# Used by bot_update to determine if we want to run or not.
master = self._mastername
builder = self._buildername
slave = self._slavename
# Construct our bot_update command. This basically be inclusive of
# everything required for bot_update to know:
root = patch_root
if root is None:
root = cfg.solutions[0].name
additional = self.m.rietveld.calculate_issue_root(patch_project_roots)
if additional:
root = self.m.path.join(root, additional)
if patch:
issue = issue or self._issue
patchset = patchset or self._patchset
patch_url = self._patch_url
gerrit_repo = self._repository
gerrit_ref = self._gerrit_ref
else:
# The trybot recipe sometimes wants to de-apply the patch. In which case
# we pretend the issue/patchset/patch_url never existed.
issue = patchset = patch_url = email_file = key_file = None
gerrit_repo = gerrit_ref = None
# Issue and patchset must come together.
if issue:
assert patchset
if patchset:
assert issue
if patch_url:
# If patch_url is present, bot_update will actually ignore issue/ps.
issue = patchset = None
# The gerrit_ref and gerrit_repo must be together or not at all. If one is
# missing, clear both of them.
if not gerrit_ref or not gerrit_repo:
gerrit_repo = gerrit_ref = None
assert (gerrit_ref != None) == (gerrit_repo != None)
# Point to the oauth2 auth files if specified.
# These paths are where the bots put their credential files.
if patch_oauth2:
email_file = self.m.path['build'].join(
'site_config', '.rietveld_client_email')
key_file = self.m.path['build'].join(
'site_config', '.rietveld_secret_key')
else:
email_file = key_file = None
rev_map = cfg.got_revision_mapping.as_jsonish()
flags = [
# 1. Do we want to run? (master/builder/slave).
['--master', master],
['--builder', builder],
['--slave', slave],
# 2. What do we want to check out (spec/root/rev/rev_map).
['--spec', self.m.gclient.config_to_pythonish(cfg)],
['--root', root],
['--revision_mapping_file', self.m.json.input(rev_map)],
['--git-cache-dir', cfg.cache_dir],
# 3. How to find the patch, if any (issue/patchset/patch_url).
['--issue', issue],
['--patchset', patchset],
['--patch_url', patch_url],
['--rietveld_server', rietveld or self._rietveld],
['--gerrit_repo', gerrit_repo],
['--gerrit_ref', gerrit_ref],
['--apply_issue_email_file', email_file],
['--apply_issue_key_file', key_file],
# 4. Hookups to JSON output back into recipes.
['--output_json', self.m.json.output()],]
# Collect all fixed revisions to simulate them in the json output.
# Fixed revision are the explicit input revisions of bot_update.py, i.e.
# every command line parameter "--revision name@value".
fixed_revisions = {}
revisions = {}
for solution in cfg.solutions:
if solution.revision:
revisions[solution.name] = solution.revision
elif solution == cfg.solutions[0]:
revisions[solution.name] = (
self._parent_got_revision or
self._revision or
'HEAD')
if self.m.gclient.c and self.m.gclient.c.revisions:
revisions.update(self.m.gclient.c.revisions)
if cfg.solutions and root_solution_revision:
revisions[cfg.solutions[0].name] = root_solution_revision
# Allow for overrides required to bisect into rolls.
revisions.update(self._deps_revision_overrides)
for name, revision in sorted(revisions.items()):
fixed_revision = self.m.gclient.resolve_revision(revision)
if fixed_revision:
fixed_revisions[name] = fixed_revision
flags.append(['--revision', '%s@%s' % (name, fixed_revision)])
# Add extra fetch refspecs.
for ref in refs:
flags.append(['--refs', ref])
# Filter out flags that are None.
cmd = [item for flag_set in flags
for item in flag_set if flag_set[1] is not None]
if clobber:
cmd.append('--clobber')
if force:
cmd.append('--force')
if no_shallow:
cmd.append('--no_shallow')
if output_manifest:
cmd.append('--output_manifest')
if with_branch_heads or cfg.with_branch_heads:
cmd.append('--with_branch_heads')
if gerrit_no_reset:
cmd.append('--gerrit_no_reset')
# Inject Json output for testing.
git_mode = self._mastername not in SVN_MASTERS
first_sln = cfg.solutions[0].name
step_test_data = lambda: self.test_api.output_json(
master, builder, slave, root, first_sln, rev_map, git_mode, force,
self._fail_patch,
output_manifest=output_manifest, fixed_revisions=fixed_revisions)
# Add suffixes to the step name, if specified.
name = 'bot_update'
if not patch:
name += ' (without patch)'
if suffix:
name += ' - %s' % suffix
# Ah hah! Now that everything is in place, lets run bot_update!
try:
# 87 and 88 are the 'patch failure' codes for patch download and patch
# apply, respectively. We don't actually use the error codes, and instead
# rely on emitted json to determine cause of failure.
self(name, cmd, step_test_data=step_test_data,
ok_ret=(0, 87, 88), **kwargs)
finally:
step_result = self.m.step.active_result
self._last_returned_properties = step_result.json.output.get(
'properties', {})
if update_presentation:
# Set properties such as got_revision.
for prop_name, prop_value in self.last_returned_properties.iteritems():
step_result.presentation.properties[prop_name] = prop_value
# Add helpful step description in the step UI.
if 'step_text' in step_result.json.output:
step_text = step_result.json.output['step_text']
step_result.presentation.step_text = step_text
# Add log line output.
if 'log_lines' in step_result.json.output:
for log_name, log_lines in step_result.json.output['log_lines']:
step_result.presentation.logs[log_name] = log_lines.splitlines()
# Set the "checkout" path for the main solution.
# This is used by the Chromium module to figure out where to look for
# the checkout.
# If there is a patch failure, emit another step that said things failed.
if step_result.json.output.get('patch_failure'):
return_code = step_result.json.output.get('patch_apply_return_code')
if return_code == 3:
# This is download failure, hence an infra failure.
# Sadly, python.failing_step doesn't support kwargs.
self.m.python.inline(
'Patch failure',
('import sys;'
'print "Patch download failed. See bot_update step for details";'
'sys.exit(1)'),
infra_step=True,
step_test_data=lambda: self.m.raw_io.test_api.output(
'Patch download failed. See bot_update step for details',
retcode=1)
)
else:
# This is actual patch failure.
self.m.tryserver.set_patch_failure_tryjob_result()
self.m.python.failing_step(
'Patch failure', 'Check the bot_update step for details')
# bot_update actually just sets root to be the folder name of the
# first solution.
if step_result.json.output['did_run']:
co_root = step_result.json.output['root']
cwd = kwargs.get('cwd', self.m.path['slave_build'])
if 'checkout' not in self.m.path:
self.m.path['checkout'] = cwd.join(*co_root.split(self.m.path.sep))
return step_result