def test_mark_used(self):
uris_to_sizes = {"a": 3, "b": 3, "big": 300}
def delete_fn(uri, logger):
return uris_to_sizes[uri]
cache = URICache(delete_fn, max_total_size_bytes=10, debug_mode=True)
cache.add("a", 3)
cache.add("b", 3)
cache.mark_unused("a")
cache.mark_unused("b")
assert "a" in cache and "b" in cache
assert cache.get_total_size_bytes() == 6
cache.mark_used("a")
cache.add("big", 300)
# We are over capacity and the only unused URI is "b", so we delete it
assert "a" in cache and "big" in cache and "b" not in cache
assert cache.get_total_size_bytes() == 303
cache.mark_unused("big")
assert "big" not in cache
assert cache.get_total_size_bytes() == 3
class RuntimeEnvAgent(
dashboard_utils.DashboardAgentModule,
runtime_env_agent_pb2_grpc.RuntimeEnvServiceServicer,
):
"""An RPC server to create and delete runtime envs.
Attributes:
dashboard_agent: The DashboardAgent object contains global config.
"""
def __init__(self, dashboard_agent):
super().__init__(dashboard_agent)
self._runtime_env_dir = dashboard_agent.runtime_env_dir
self._logging_params = dashboard_agent.logging_params
self._per_job_logger_cache = dict()
# Cache the results of creating envs to avoid repeatedly calling into
# conda and other slow calls.
self._env_cache: Dict[str, CreatedEnvResult] = dict()
# Maps a serialized runtime env to a lock that is used
# to prevent multiple concurrent installs of the same env.
self._env_locks: Dict[str, asyncio.Lock] = dict()
# Keeps track of the URIs contained within each env so we can
# invalidate the env cache when a URI is deleted.
# This is a temporary mechanism until we have per-URI caching.
self._uris_to_envs: Dict[str, Set[str]] = defaultdict(set)
# Initialize internal KV to be used by the working_dir setup code.
_initialize_internal_kv(self._dashboard_agent.gcs_client)
assert _internal_kv_initialized()
self._pip_manager = PipManager(self._runtime_env_dir)
self._conda_manager = CondaManager(self._runtime_env_dir)
self._py_modules_manager = PyModulesManager(self._runtime_env_dir)
self._working_dir_manager = WorkingDirManager(self._runtime_env_dir)
self._container_manager = ContainerManager(dashboard_agent.temp_dir)
self._working_dir_uri_cache = URICache(
self._working_dir_manager.delete_uri, WORKING_DIR_CACHE_SIZE_BYTES
)
self._py_modules_uri_cache = URICache(
self._py_modules_manager.delete_uri, PY_MODULES_CACHE_SIZE_BYTES
)
self._conda_uri_cache = URICache(
self._conda_manager.delete_uri, CONDA_CACHE_SIZE_BYTES
)
self._pip_uri_cache = URICache(
self._pip_manager.delete_uri, PIP_CACHE_SIZE_BYTES
)
self._logger = default_logger
def get_or_create_logger(self, job_id: bytes):
job_id = job_id.decode()
if job_id not in self._per_job_logger_cache:
params = self._logging_params.copy()
params["filename"] = f"runtime_env_setup-{job_id}.log"
params["logger_name"] = f"runtime_env_{job_id}"
per_job_logger = setup_component_logger(**params)
self._per_job_logger_cache[job_id] = per_job_logger
return self._per_job_logger_cache[job_id]
async def CreateRuntimeEnv(self, request, context):
async def _setup_runtime_env(
serialized_runtime_env, serialized_allocated_resource_instances
):
# This function will be ran inside a thread
def run_setup_with_logger():
runtime_env = RuntimeEnv(serialized_runtime_env=serialized_runtime_env)
allocated_resource: dict = json.loads(
serialized_allocated_resource_instances or "{}"
)
# Use a separate logger for each job.
per_job_logger = self.get_or_create_logger(request.job_id)
# TODO(chenk008): Add log about allocated_resource to
# avoid lint error. That will be moved to cgroup plugin.
per_job_logger.debug(f"Worker has resource :" f"{allocated_resource}")
context = RuntimeEnvContext(env_vars=runtime_env.env_vars())
self._container_manager.setup(
runtime_env, context, logger=per_job_logger
)
for (manager, uri_cache) in [
(self._working_dir_manager, self._working_dir_uri_cache),
(self._conda_manager, self._conda_uri_cache),
(self._pip_manager, self._pip_uri_cache),
]:
uri = manager.get_uri(runtime_env)
if uri is not None:
if uri not in uri_cache:
per_job_logger.debug(f"Cache miss for URI {uri}.")
size_bytes = manager.create(
uri, runtime_env, context, logger=per_job_logger
)
uri_cache.add(uri, size_bytes, logger=per_job_logger)
else:
per_job_logger.debug(f"Cache hit for URI {uri}.")
uri_cache.mark_used(uri, logger=per_job_logger)
manager.modify_context(uri, runtime_env, context)
# Set up py_modules. For now, py_modules uses multiple URIs so
# the logic is slightly different from working_dir, conda, and
# pip above.
py_modules_uris = self._py_modules_manager.get_uris(runtime_env)
if py_modules_uris is not None:
for uri in py_modules_uris:
if uri not in self._py_modules_uri_cache:
per_job_logger.debug(f"Cache miss for URI {uri}.")
size_bytes = self._py_modules_manager.create(
uri, runtime_env, context, logger=per_job_logger
)
self._py_modules_uri_cache.add(
uri, size_bytes, logger=per_job_logger
)
else:
per_job_logger.debug(f"Cache hit for URI {uri}.")
self._py_modules_uri_cache.mark_used(
uri, logger=per_job_logger
)
self._py_modules_manager.modify_context(
py_modules_uris, runtime_env, context
)
# Add the mapping of URIs -> the serialized environment to be
# used for cache invalidation.
if runtime_env.working_dir_uri():
uri = runtime_env.working_dir_uri()
self._uris_to_envs[uri].add(serialized_runtime_env)
if runtime_env.py_modules_uris():
for uri in runtime_env.py_modules_uris():
self._uris_to_envs[uri].add(serialized_runtime_env)
if runtime_env.conda_uri():
uri = runtime_env.conda_uri()
self._uris_to_envs[uri].add(serialized_runtime_env)
if runtime_env.pip_uri():
uri = runtime_env.pip_uri()
self._uris_to_envs[uri].add(serialized_runtime_env)
if runtime_env.plugin_uris():
for uri in runtime_env.plugin_uris():
self._uris_to_envs[uri].add(serialized_runtime_env)
# Run setup function from all the plugins
for plugin_class_path, config in runtime_env.plugins():
per_job_logger.debug(
f"Setting up runtime env plugin {plugin_class_path}"
)
plugin_class = import_attr(plugin_class_path)
# TODO(simon): implement uri support
plugin_class.create(
"uri not implemented", json.loads(config), context
)
plugin_class.modify_context(
"uri not implemented", json.loads(config), context
)
return context
loop = asyncio.get_event_loop()
return await loop.run_in_executor(None, run_setup_with_logger)
serialized_env = request.serialized_runtime_env
if serialized_env not in self._env_locks:
# async lock to prevent the same env being concurrently installed
self._env_locks[serialized_env] = asyncio.Lock()
async with self._env_locks[serialized_env]:
if serialized_env in self._env_cache:
serialized_context = self._env_cache[serialized_env]
result = self._env_cache[serialized_env]
if result.success:
context = result.result
self._logger.info(
"Runtime env already created "
f"successfully. Env: {serialized_env}, "
f"context: {context}"
)
return runtime_env_agent_pb2.CreateRuntimeEnvReply(
status=agent_manager_pb2.AGENT_RPC_STATUS_OK,
serialized_runtime_env_context=context,
)
else:
error_message = result.result
self._logger.info(
"Runtime env already failed. "
f"Env: {serialized_env}, err: {error_message}"
)
return runtime_env_agent_pb2.CreateRuntimeEnvReply(
status=agent_manager_pb2.AGENT_RPC_STATUS_FAILED,
error_message=error_message,
)
if SLEEP_FOR_TESTING_S:
self._logger.info(f"Sleeping for {SLEEP_FOR_TESTING_S}s.")
time.sleep(int(SLEEP_FOR_TESTING_S))
self._logger.info(f"Creating runtime env: {serialized_env}")
runtime_env_context: RuntimeEnvContext = None
error_message = None
for _ in range(runtime_env_consts.RUNTIME_ENV_RETRY_TIMES):
try:
runtime_env_context = await _setup_runtime_env(
serialized_env, request.serialized_allocated_resource_instances
)
break
except Exception:
err_msg = f"Failed to create runtime env {serialized_env}."
self._logger.exception(err_msg)
error_message = f"{err_msg}\n{traceback.format_exc()}"
await asyncio.sleep(
runtime_env_consts.RUNTIME_ENV_RETRY_INTERVAL_MS / 1000
)
if error_message:
self._logger.error(
"Runtime env creation failed for %d times, "
"don't retry any more.",
runtime_env_consts.RUNTIME_ENV_RETRY_TIMES,
)
self._env_cache[serialized_env] = CreatedEnvResult(False, error_message)
return runtime_env_agent_pb2.CreateRuntimeEnvReply(
status=agent_manager_pb2.AGENT_RPC_STATUS_FAILED,
error_message=error_message,
)
serialized_context = runtime_env_context.serialize()
self._env_cache[serialized_env] = CreatedEnvResult(True, serialized_context)
self._logger.info(
"Successfully created runtime env: %s, the context: %s",
serialized_env,
serialized_context,
)
return runtime_env_agent_pb2.CreateRuntimeEnvReply(
status=agent_manager_pb2.AGENT_RPC_STATUS_OK,
serialized_runtime_env_context=serialized_context,
)
async def DeleteURIs(self, request, context):
self._logger.info(f"Got request to mark URIs unused: {request.uris}.")
for plugin_uri in request.uris:
plugin, uri = decode_plugin_uri(plugin_uri)
# Invalidate the env cache for any envs that contain this URI.
for env in self._uris_to_envs.get(uri, []):
if env in self._env_cache:
del self._env_cache[env]
if plugin == "working_dir":
self._working_dir_uri_cache.mark_unused(uri)
elif plugin == "py_modules":
self._py_modules_uri_cache.mark_unused(uri)
elif plugin == "conda":
self._conda_uri_cache.mark_unused(uri)
elif plugin == "pip":
self._pip_uri_cache.mark_unused(uri)
else:
raise ValueError(
"RuntimeEnvAgent received DeleteURI request "
f"for unsupported plugin {plugin}. URI: {uri}"
)
return runtime_env_agent_pb2.DeleteURIsReply(
status=agent_manager_pb2.AGENT_RPC_STATUS_OK
)
async def run(self, server):
runtime_env_agent_pb2_grpc.add_RuntimeEnvServiceServicer_to_server(self, server)
@staticmethod
def is_minimal_module():
return True
def test_mark_used_nonadded_uri_error(self):
cache = URICache(debug_mode=True)
with pytest.raises(ValueError):
cache.mark_used("nonadded_uri")