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import multiprocessing
import os
import signal
import pytest
from buildstream import _yaml, _signals, utils
from buildstream._context import Context
from buildstream._project import Project
from buildstream._protos.build.bazel.remote.execution.v2 import remote_execution_pb2
from buildstream.storage._casbaseddirectory import CasBasedDirectory
from buildstream.plugintestutils import cli
from tests.testutils import create_artifact_share
# Project directory
DATA_DIR = os.path.join(
os.path.dirname(os.path.realpath(__file__)),
"project",
)
# Handle messages from the pipeline
def message_handler(message, context):
pass
# Since parent processes wait for queue events, we need
# to put something on it if the called process raises an
# exception.
def _queue_wrapper(target, queue, *args):
try:
target(*args, queue=queue)
except Exception as e:
queue.put(str(e))
raise
@pytest.mark.datafiles(DATA_DIR)
def test_push(cli, tmpdir, datafiles):
project_dir = str(datafiles)
# First build the project without the artifact cache configured
result = cli.run(project=project_dir, args=['build', 'target.bst'])
result.assert_success()
# Assert that we are now cached locally
assert cli.get_element_state(project_dir, 'target.bst') == 'cached'
# Set up an artifact cache.
with create_artifact_share(os.path.join(str(tmpdir), 'artifactshare')) as share:
# Configure artifact share
rootcache_dir = os.path.join(str(tmpdir), 'cache')
user_config_file = str(tmpdir.join('buildstream.conf'))
user_config = {
'scheduler': {
'pushers': 1
},
'artifacts': {
'url': share.repo,
'push': True,
},
'cachedir': rootcache_dir
}
# Write down the user configuration file
_yaml.dump(_yaml.node_sanitize(user_config), filename=user_config_file)
# Fake minimal context
context = Context()
context.load(config=user_config_file)
context.set_message_handler(message_handler)
# Load the project manually
project = Project(project_dir, context)
project.ensure_fully_loaded()
# Create a local CAS cache handle
cas = context.artifactcache
# Assert that the element's artifact is cached
element = project.load_elements(['target.bst'])[0]
element_key = cli.get_element_key(project_dir, 'target.bst')
assert cas.contains(element, element_key)
queue = multiprocessing.Queue()
# Use subprocess to avoid creation of gRPC threads in main BuildStream process
# See https://github.com/grpc/grpc/blob/master/doc/fork_support.md for details
process = multiprocessing.Process(target=_queue_wrapper,
args=(_test_push, queue, user_config_file, project_dir,
'target.bst', element_key))
try:
# Keep SIGINT blocked in the child process
with _signals.blocked([signal.SIGINT], ignore=False):
process.start()
error = queue.get()
process.join()
except KeyboardInterrupt:
utils._kill_process_tree(process.pid)
raise
assert not error
assert share.has_artifact('test', 'target.bst', element_key)
def _test_push(user_config_file, project_dir, element_name, element_key, queue):
# Fake minimal context
context = Context()
context.load(config=user_config_file)
context.set_message_handler(message_handler)
# Load the project manually
project = Project(project_dir, context)
project.ensure_fully_loaded()
# Create a local CAS cache handle
cas = context.artifactcache
# Load the target element
element = project.load_elements([element_name])[0]
# Manually setup the CAS remote
cas.setup_remotes(use_config=True)
cas.initialize_remotes()
if cas.has_push_remotes(plugin=element):
# Push the element's artifact
if not cas.push(element, [element_key]):
queue.put("Push operation failed")
else:
queue.put(None)
else:
queue.put("No remote configured for element {}".format(element_name))
@pytest.mark.datafiles(DATA_DIR)
def test_push_message(tmpdir, datafiles):
project_dir = str(datafiles)
# Set up an artifact cache.
with create_artifact_share(os.path.join(str(tmpdir), 'artifactshare')) as share:
# Configure artifact share
rootcache_dir = os.path.join(str(tmpdir), 'cache')
user_config_file = str(tmpdir.join('buildstream.conf'))
user_config = {
'scheduler': {
'pushers': 1
},
'artifacts': {
'url': share.repo,
'push': True,
},
'cachedir': rootcache_dir
}
# Write down the user configuration file
_yaml.dump(_yaml.node_sanitize(user_config), filename=user_config_file)
queue = multiprocessing.Queue()
# Use subprocess to avoid creation of gRPC threads in main BuildStream process
# See https://github.com/grpc/grpc/blob/master/doc/fork_support.md for details
process = multiprocessing.Process(target=_queue_wrapper,
args=(_test_push_message, queue, user_config_file,
project_dir))
try:
# Keep SIGINT blocked in the child process
with _signals.blocked([signal.SIGINT], ignore=False):
process.start()
message_hash, message_size = queue.get()
process.join()
except KeyboardInterrupt:
utils._kill_process_tree(process.pid)
raise
assert message_hash and message_size
message_digest = remote_execution_pb2.Digest(hash=message_hash,
size_bytes=message_size)
assert share.has_object(message_digest)
def _test_push_message(user_config_file, project_dir, queue):
# Fake minimal context
context = Context()
context.load(config=user_config_file)
context.set_message_handler(message_handler)
# Load the project manually
project = Project(project_dir, context)
project.ensure_fully_loaded()
# Create a local CAS cache handle
cas = context.artifactcache
# Manually setup the CAS remote
cas.setup_remotes(use_config=True)
cas.initialize_remotes()
if cas.has_push_remotes():
# Create an example message object
command = remote_execution_pb2.Command(arguments=['/usr/bin/gcc', '--help'],
working_directory='/buildstream-build',
output_directories=['/buildstream-install'])
# Push the message object
command_digest = cas.push_message(project, command)
queue.put((command_digest.hash, command_digest.size_bytes))
else:
queue.put("No remote configured")
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