"""SDK functions for cluster/job management."""
import getpass
import typing
from typing import Any, Dict, List, Optional, Union
import colorama
from sky import backends
from sky import clouds
from sky import dag
from sky import data
from sky import exceptions
from sky import global_user_state
from sky import sky_logging
from sky import status_lib
from sky import task
from sky.backends import backend_utils
from sky.skylet import constants
from sky.skylet import job_lib
from sky.usage import usage_lib
from sky.utils import controller_utils
from sky.utils import subprocess_utils
if typing.TYPE_CHECKING:
from sky import resources as resources_lib
logger = sky_logging.init_logger(__name__)
# ======================
# = Cluster Management =
# ======================
# pylint: disable=redefined-builtin
[docs]@usage_lib.entrypoint
def status(cluster_names: Optional[Union[str, List[str]]] = None,
refresh: bool = False) -> List[Dict[str, Any]]:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Get cluster statuses.
If cluster_names is given, return those clusters. Otherwise, return all
clusters.
Each returned value has the following fields:
.. code-block:: python
{
'name': (str) cluster name,
'launched_at': (int) timestamp of last launch on this cluster,
'handle': (ResourceHandle) an internal handle to the cluster,
'last_use': (str) the last command/entrypoint that affected this
cluster,
'status': (sky.ClusterStatus) cluster status,
'autostop': (int) idle time before autostop,
'to_down': (bool) whether autodown is used instead of autostop,
'metadata': (dict) metadata of the cluster,
}
Each cluster can have one of the following statuses:
- ``INIT``: The cluster may be live or down. It can happen in the following
cases:
- Ongoing provisioning or runtime setup. (A ``sky.launch()`` has started
but has not completed.)
- Or, the cluster is in an abnormal state, e.g., some cluster nodes are
down, or the SkyPilot runtime is unhealthy. (To recover the cluster,
try ``sky launch`` again on it.)
- ``UP``: Provisioning and runtime setup have succeeded and the cluster is
live. (The most recent ``sky.launch()`` has completed successfully.)
- ``STOPPED``: The cluster is stopped and the storage is persisted. Use
``sky.start()`` to restart the cluster.
Autostop column:
- The autostop column indicates how long the cluster will be autostopped
after minutes of idling (no jobs running). If ``to_down`` is True, the
cluster will be autodowned, rather than autostopped.
Getting up-to-date cluster statuses:
- In normal cases where clusters are entirely managed by SkyPilot (i.e., no
manual operations in cloud consoles) and no autostopping is used, the
table returned by this command will accurately reflect the cluster
statuses.
- In cases where the clusters are changed outside of SkyPilot (e.g., manual
operations in cloud consoles; unmanaged spot clusters getting preempted)
or for autostop-enabled clusters, use ``refresh=True`` to query the
latest cluster statuses from the cloud providers.
Args:
cluster_names: a list of cluster names to query. If not
provided, all clusters will be queried.
refresh: whether to query the latest cluster statuses from the cloud
provider(s).
Returns:
A list of dicts, with each dict containing the information of a
cluster. If a cluster is found to be terminated or not found, it will
be omitted from the returned list.
"""
return backend_utils.get_clusters(include_controller=True,
refresh=refresh,
cluster_names=cluster_names)
@usage_lib.entrypoint
def cost_report() -> List[Dict[str, Any]]:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Get all cluster cost reports, including those that have been downed.
Each returned value has the following fields:
.. code-block:: python
{
'name': (str) cluster name,
'launched_at': (int) timestamp of last launch on this cluster,
'duration': (int) total seconds that cluster was up and running,
'last_use': (str) the last command/entrypoint that affected this
'num_nodes': (int) number of nodes launched for cluster,
'resources': (resources.Resources) type of resource launched,
'cluster_hash': (str) unique hash identifying cluster,
'usage_intervals': (List[Tuple[int, int]]) cluster usage times,
'total_cost': (float) cost given resources and usage intervals,
}
The estimated cost column indicates price for the cluster based on the type
of resources being used and the duration of use up until the call to
status. This means if the cluster is UP, successive calls to report will
show increasing price. The estimated cost is calculated based on the local
cache of the cluster status, and may not be accurate for the cluster with
autostop/use_spot set or terminated/stopped on the cloud console.
Returns:
A list of dicts, with each dict containing the cost information of a
cluster.
"""
cluster_reports = global_user_state.get_clusters_from_history()
def get_total_cost(cluster_report: dict) -> float:
duration = cluster_report['duration']
launched_nodes = cluster_report['num_nodes']
launched_resources = cluster_report['resources']
cost = (launched_resources.get_cost(duration) * launched_nodes)
return cost
for cluster_report in cluster_reports:
cluster_report['total_cost'] = get_total_cost(cluster_report)
return cluster_reports
def _start(
cluster_name: str,
idle_minutes_to_autostop: Optional[int] = None,
retry_until_up: bool = False,
down: bool = False, # pylint: disable=redefined-outer-name
force: bool = False,
) -> backends.CloudVmRayResourceHandle:
cluster_status, handle = backend_utils.refresh_cluster_status_handle(
cluster_name)
if handle is None:
raise ValueError(f'Cluster {cluster_name!r} does not exist.')
if not force and cluster_status == status_lib.ClusterStatus.UP:
sky_logging.print(f'Cluster {cluster_name!r} is already up.')
return handle
assert force or cluster_status in (
status_lib.ClusterStatus.INIT,
status_lib.ClusterStatus.STOPPED), cluster_status
backend = backend_utils.get_backend_from_handle(handle)
if not isinstance(backend, backends.CloudVmRayBackend):
raise exceptions.NotSupportedError(
f'Starting cluster {cluster_name!r} with backend {backend.NAME} '
'is not supported.')
if controller_utils.Controllers.from_name(cluster_name) is not None:
if down:
raise ValueError('Using autodown (rather than autostop) is not '
'supported for SkyPilot controllers. Pass '
'`down=False` or omit it instead.')
if idle_minutes_to_autostop is not None:
raise ValueError(
'Passing a custom autostop setting is currently not '
'supported when starting SkyPilot controllers. To '
'fix: omit the `idle_minutes_to_autostop` argument to use the '
f'default autostop settings (got: {idle_minutes_to_autostop}).')
idle_minutes_to_autostop = (
constants.CONTROLLER_IDLE_MINUTES_TO_AUTOSTOP)
# NOTE: if spot_queue() calls _start() and hits here, that entrypoint
# would have a cluster name (the controller) filled in.
usage_lib.record_cluster_name_for_current_operation(cluster_name)
with dag.Dag():
dummy_task = task.Task().set_resources(handle.launched_resources)
dummy_task.num_nodes = handle.launched_nodes
handle = backend.provision(dummy_task,
to_provision=handle.launched_resources,
dryrun=False,
stream_logs=True,
cluster_name=cluster_name,
retry_until_up=retry_until_up)
storage_mounts = backend.get_storage_mounts_metadata(handle.cluster_name)
# Passing all_file_mounts as None ensures the local source set in Storage
# to not redundantly sync source to the bucket.
backend.sync_file_mounts(handle=handle,
all_file_mounts=None,
storage_mounts=storage_mounts)
if idle_minutes_to_autostop is not None:
backend.set_autostop(handle, idle_minutes_to_autostop, down=down)
return handle
[docs]@usage_lib.entrypoint
def start(
cluster_name: str,
idle_minutes_to_autostop: Optional[int] = None,
retry_until_up: bool = False,
down: bool = False, # pylint: disable=redefined-outer-name
force: bool = False,
) -> backends.CloudVmRayResourceHandle:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Restart a cluster.
If a cluster is previously stopped (status is STOPPED) or failed in
provisioning/runtime installation (status is INIT), this function will
attempt to start the cluster. In the latter case, provisioning and runtime
installation will be retried.
Auto-failover provisioning is not used when restarting a stopped
cluster. It will be started on the same cloud, region, and zone that were
chosen before.
If a cluster is already in the UP status, this function has no effect.
Args:
cluster_name: name of the cluster to start.
idle_minutes_to_autostop: automatically stop the cluster after this
many minute of idleness, i.e., no running or pending jobs in the
cluster's job queue. Idleness gets reset whenever setting-up/
running/pending jobs are found in the job queue. Setting this
flag is equivalent to running
``sky.launch(..., detach_run=True, ...)`` and then
``sky.autostop(idle_minutes=<minutes>)``. If not set, the
cluster will not be autostopped.
retry_until_up: whether to retry launching the cluster until it is
up.
down: Autodown the cluster: tear down the cluster after specified
minutes of idle time after all jobs finish (successfully or
abnormally). Requires ``idle_minutes_to_autostop`` to be set.
force: whether to force start the cluster even if it is already up.
Useful for upgrading SkyPilot runtime.
Raises:
ValueError: argument values are invalid: (1) the specified cluster does
not exist; (2) if ``down`` is set to True but
``idle_minutes_to_autostop`` is None; (3) if the specified cluster is
the managed spot controller, and either ``idle_minutes_to_autostop``
is not None or ``down`` is True (omit them to use the default
autostop settings).
sky.exceptions.NotSupportedError: if the cluster to restart was
launched using a non-default backend that does not support this
operation.
sky.exceptions.ClusterOwnerIdentitiesMismatchError: if the cluster to
restart was launched by a different user.
"""
if down and idle_minutes_to_autostop is None:
raise ValueError(
'`idle_minutes_to_autostop` must be set if `down` is True.')
return _start(cluster_name,
idle_minutes_to_autostop,
retry_until_up,
down,
force=force)
def _stop_not_supported_message(resources: 'resources_lib.Resources') -> str:
if resources.use_spot:
message = ('Stopping spot instances is currently not supported on '
f'{resources.cloud}')
else:
message = f'Stopping is currently not supported for {resources}'
return message
[docs]@usage_lib.entrypoint
def stop(cluster_name: str, purge: bool = False) -> None:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Stop a cluster.
Data on attached disks is not lost when a cluster is stopped. Billing for
the instances will stop, while the disks will still be charged. Those
disks will be reattached when restarting the cluster.
Currently, spot instance clusters cannot be stopped (except for GCP, which
does allow disk contents to be preserved when stopping spot VMs).
Args:
cluster_name: name of the cluster to stop.
purge: (Advanced) Forcefully mark the cluster as stopped in SkyPilot's
cluster table, even if the actual cluster stop operation failed on
the cloud. WARNING: This flag should only be set sparingly in
certain manual troubleshooting scenarios; with it set, it is the
user's responsibility to ensure there are no leaked instances and
related resources.
Raises:
ValueError: the specified cluster does not exist.
RuntimeError: failed to stop the cluster.
sky.exceptions.NotSupportedError: if the specified cluster is a spot
cluster, or a TPU VM Pod cluster, or the managed spot controller.
"""
if controller_utils.Controllers.from_name(cluster_name) is not None:
raise exceptions.NotSupportedError(
f'Stopping SkyPilot controller {cluster_name!r} '
f'is not supported.')
handle = global_user_state.get_handle_from_cluster_name(cluster_name)
if handle is None:
raise ValueError(f'Cluster {cluster_name!r} does not exist.')
backend = backend_utils.get_backend_from_handle(handle)
if isinstance(backend, backends.CloudVmRayBackend):
assert isinstance(handle, backends.CloudVmRayResourceHandle), handle
# Check cloud supports stopping instances
cloud = handle.launched_resources.cloud
assert cloud is not None, handle
try:
cloud.check_features_are_supported(
handle.launched_resources,
{clouds.CloudImplementationFeatures.STOP})
except exceptions.NotSupportedError as e:
raise exceptions.NotSupportedError(
f'{colorama.Fore.YELLOW}Stopping cluster '
f'{cluster_name!r}... skipped.{colorama.Style.RESET_ALL}\n'
f' {_stop_not_supported_message(handle.launched_resources)}.\n'
' To terminate the cluster instead, run: '
f'{colorama.Style.BRIGHT}sky down {cluster_name}') from e
usage_lib.record_cluster_name_for_current_operation(cluster_name)
backend.teardown(handle, terminate=False, purge=purge)
[docs]@usage_lib.entrypoint
def down(cluster_name: str, purge: bool = False) -> None:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Tear down a cluster.
Tearing down a cluster will delete all associated resources (all billing
stops), and any data on the attached disks will be lost. Accelerators
(e.g., TPUs) that are part of the cluster will be deleted too.
Args:
cluster_name: name of the cluster to down.
purge: (Advanced) Forcefully remove the cluster from SkyPilot's cluster
table, even if the actual cluster termination failed on the cloud.
WARNING: This flag should only be set sparingly in certain manual
troubleshooting scenarios; with it set, it is the user's
responsibility to ensure there are no leaked instances and related
resources.
Raises:
ValueError: the specified cluster does not exist.
RuntimeError: failed to tear down the cluster.
sky.exceptions.NotSupportedError: the specified cluster is the managed
spot controller.
"""
handle = global_user_state.get_handle_from_cluster_name(cluster_name)
if handle is None:
raise ValueError(f'Cluster {cluster_name!r} does not exist.')
usage_lib.record_cluster_name_for_current_operation(cluster_name)
backend = backend_utils.get_backend_from_handle(handle)
backend.teardown(handle, terminate=True, purge=purge)
[docs]@usage_lib.entrypoint
def autostop(
cluster_name: str,
idle_minutes: int,
down: bool = False, # pylint: disable=redefined-outer-name
) -> None:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Schedule an autostop/autodown for a cluster.
Autostop/autodown will automatically stop or teardown a cluster when it
becomes idle for a specified duration. Idleness means there are no
in-progress (pending/running) jobs in a cluster's job queue.
Idleness time of a cluster is reset to zero, whenever:
- A job is submitted (``sky.launch()`` or ``sky.exec()``).
- The cluster has restarted.
- An autostop is set when there is no active setting. (Namely, either
there's never any autostop setting set, or the previous autostop setting
was canceled.) This is useful for restarting the autostop timer.
Example: say a cluster without any autostop set has been idle for 1 hour,
then an autostop of 30 minutes is set. The cluster will not be immediately
autostopped. Instead, the idleness timer only starts counting after the
autostop setting was set.
When multiple autostop settings are specified for the same cluster, the
last setting takes precedence.
Args:
cluster_name: name of the cluster.
idle_minutes: the number of minutes of idleness (no pending/running
jobs) after which the cluster will be stopped automatically. Setting
to a negative number cancels any autostop/autodown setting.
down: if true, use autodown (tear down the cluster; non-restartable),
rather than autostop (restartable).
Raises:
ValueError: if the cluster does not exist.
sky.exceptions.ClusterNotUpError: if the cluster is not UP.
sky.exceptions.NotSupportedError: if the cluster is not based on
CloudVmRayBackend or the cluster is TPU VM Pod.
sky.exceptions.ClusterOwnerIdentityMismatchError: if the current user is
not the same as the user who created the cluster.
sky.exceptions.CloudUserIdentityError: if we fail to get the current
user identity.
"""
is_cancel = idle_minutes < 0
verb = 'Cancelling' if is_cancel else 'Scheduling'
option_str = 'down' if down else 'stop'
if is_cancel:
option_str = '{stop,down}'
operation = f'{verb} auto{option_str}'
if controller_utils.Controllers.from_name(cluster_name) is not None:
raise exceptions.NotSupportedError(
f'{operation} SkyPilot controller {cluster_name!r} '
f'is not supported.')
handle = backend_utils.check_cluster_available(
cluster_name,
operation=operation,
)
backend = backend_utils.get_backend_from_handle(handle)
# Check cloud supports stopping spot instances
cloud = handle.launched_resources.cloud
assert cloud is not None, handle
if not isinstance(backend, backends.CloudVmRayBackend):
raise exceptions.NotSupportedError(
f'{operation} cluster {cluster_name!r} with backend '
f'{backend.__class__.__name__!r} is not supported.')
# Check autostop is implemented for cloud
cloud = handle.launched_resources.cloud
if not down and not is_cancel:
try:
cloud.check_features_are_supported(
handle.launched_resources,
{clouds.CloudImplementationFeatures.STOP})
except exceptions.NotSupportedError as e:
raise exceptions.NotSupportedError(
f'{colorama.Fore.YELLOW}Scheduling autostop on cluster '
f'{cluster_name!r}...skipped.{colorama.Style.RESET_ALL}\n'
f' {_stop_not_supported_message(handle.launched_resources)}.'
) from e
usage_lib.record_cluster_name_for_current_operation(cluster_name)
backend.set_autostop(handle, idle_minutes, down)
# ==================
# = Job Management =
# ==================
@usage_lib.entrypoint
def queue(cluster_name: str,
skip_finished: bool = False,
all_users: bool = False) -> List[dict]:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Get the job queue of a cluster.
Please refer to the sky.cli.queue for the document.
Returns:
List[dict]:
[
{
'job_id': (int) job id,
'job_name': (str) job name,
'username': (str) username,
'submitted_at': (int) timestamp of submitted,
'start_at': (int) timestamp of started,
'end_at': (int) timestamp of ended,
'resources': (str) resources,
'status': (job_lib.JobStatus) job status,
'log_path': (str) log path,
}
]
raises:
ValueError: if the cluster does not exist.
sky.exceptions.ClusterNotUpError: if the cluster is not UP.
sky.exceptions.NotSupportedError: if the cluster is not based on
CloudVmRayBackend.
sky.exceptions.ClusterOwnerIdentityMismatchError: if the current user is
not the same as the user who created the cluster.
sky.exceptions.CloudUserIdentityError: if we fail to get the current
user identity.
exceptions.CommandError: if failed to get the job queue with ssh.
"""
all_jobs = not skip_finished
username: Optional[str] = getpass.getuser()
if all_users:
username = None
code = job_lib.JobLibCodeGen.get_job_queue(username, all_jobs)
handle = backend_utils.check_cluster_available(
cluster_name,
operation='getting the job queue',
)
backend = backend_utils.get_backend_from_handle(handle)
returncode, jobs_payload, stderr = backend.run_on_head(handle,
code,
require_outputs=True,
separate_stderr=True)
subprocess_utils.handle_returncode(
returncode,
command=code,
error_msg=f'Failed to get job queue on cluster {cluster_name}.',
stderr=f'{jobs_payload + stderr}',
stream_logs=True)
jobs = job_lib.load_job_queue(jobs_payload)
return jobs
@usage_lib.entrypoint
# pylint: disable=redefined-builtin
def cancel(
cluster_name: str,
all: bool = False,
job_ids: Optional[List[int]] = None,
# pylint: disable=invalid-name
_try_cancel_if_cluster_is_init: bool = False,
) -> None:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Cancel jobs on a cluster.
Please refer to the sky.cli.cancel for the document.
When `all` is False and `job_ids` is None, cancel the latest running job.
Additional arguments:
_try_cancel_if_cluster_is_init: (bool) whether to try cancelling the job
even if the cluster is not UP, but the head node is still alive.
This is used by the spot controller to cancel the job when the
worker node is preempted in the spot cluster.
Raises:
ValueError: if arguments are invalid, or the cluster does not exist.
sky.exceptions.ClusterNotUpError: if the cluster is not UP.
sky.exceptions.NotSupportedError: if the specified cluster is a
controller that does not support this operation.
sky.exceptions.ClusterOwnerIdentityMismatchError: if the current user is
not the same as the user who created the cluster.
sky.exceptions.CloudUserIdentityError: if we fail to get the current
user identity.
"""
controller_utils.check_cluster_name_not_controller(
cluster_name, operation_str='Cancelling jobs')
if all and job_ids:
raise ValueError('Cannot specify both `all` and `job_ids`. To cancel '
'all jobs, set `job_ids` to None.')
# Check the status of the cluster.
handle = None
try:
handle = backend_utils.check_cluster_available(
cluster_name,
operation='cancelling jobs',
)
except exceptions.ClusterNotUpError as e:
if not _try_cancel_if_cluster_is_init:
raise
assert (e.handle is None or
isinstance(e.handle, backends.CloudVmRayResourceHandle)), e
if (e.handle is None or e.handle.head_ip is None):
raise
handle = e.handle
# Even if the cluster is not UP, we can still try to cancel the job if
# the head node is still alive. This is useful when a spot cluster's
# worker node is preempted, but we can still cancel the job on the head
# node.
assert handle is not None, (
f'handle for cluster {cluster_name!r} should not be None')
backend = backend_utils.get_backend_from_handle(handle)
if all:
sky_logging.print(f'{colorama.Fore.YELLOW}'
f'Cancelling all jobs on cluster {cluster_name!r}...'
f'{colorama.Style.RESET_ALL}')
elif job_ids is None:
# all = False, job_ids is None => cancel the latest running job.
sky_logging.print(
f'{colorama.Fore.YELLOW}'
f'Cancelling latest running job on cluster {cluster_name!r}...'
f'{colorama.Style.RESET_ALL}')
elif len(job_ids):
# all = False, len(job_ids) > 0 => cancel the specified jobs.
jobs_str = ', '.join(map(str, job_ids))
sky_logging.print(
f'{colorama.Fore.YELLOW}'
f'Cancelling jobs ({jobs_str}) on cluster {cluster_name!r}...'
f'{colorama.Style.RESET_ALL}')
else:
# all = False, len(job_ids) == 0 => no jobs to cancel.
return
backend.cancel_jobs(handle, job_ids, all)
@usage_lib.entrypoint
def tail_logs(cluster_name: str,
job_id: Optional[int],
follow: bool = True) -> None:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Tail the logs of a job.
Please refer to the sky.cli.tail_logs for the document.
Raises:
ValueError: arguments are invalid or the cluster is not supported or
the cluster does not exist.
sky.exceptions.ClusterNotUpError: if the cluster is not UP.
sky.exceptions.NotSupportedError: if the cluster is not based on
CloudVmRayBackend.
sky.exceptions.ClusterOwnerIdentityMismatchError: if the current user is
not the same as the user who created the cluster.
sky.exceptions.CloudUserIdentityError: if we fail to get the current
user identity.
"""
# Check the status of the cluster.
handle = backend_utils.check_cluster_available(
cluster_name,
operation='tailing logs',
)
backend = backend_utils.get_backend_from_handle(handle)
job_str = f'job {job_id}'
if job_id is None:
job_str = 'the last job'
sky_logging.print(
f'{colorama.Fore.YELLOW}'
f'Tailing logs of {job_str} on cluster {cluster_name!r}...'
f'{colorama.Style.RESET_ALL}')
usage_lib.record_cluster_name_for_current_operation(cluster_name)
backend.tail_logs(handle, job_id, follow=follow)
@usage_lib.entrypoint
def download_logs(
cluster_name: str,
job_ids: Optional[List[str]],
local_dir: str = constants.SKY_LOGS_DIRECTORY) -> Dict[str, str]:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Download the logs of jobs.
Args:
cluster_name: (str) name of the cluster.
job_ids: (List[str]) job ids.
Returns:
Dict[str, str]: a mapping of job_id to local log path.
Raises:
ValueError: if the cluster does not exist.
sky.exceptions.ClusterNotUpError: if the cluster is not UP.
sky.exceptions.NotSupportedError: if the cluster is not based on
CloudVmRayBackend.
sky.exceptions.ClusterOwnerIdentityMismatchError: if the current user is
not the same as the user who created the cluster.
sky.exceptions.CloudUserIdentityError: if we fail to get the current
user identity.
"""
# Check the status of the cluster.
handle = backend_utils.check_cluster_available(
cluster_name,
operation='downloading logs',
)
backend = backend_utils.get_backend_from_handle(handle)
assert isinstance(backend, backends.CloudVmRayBackend), backend
if job_ids is not None and len(job_ids) == 0:
return {}
usage_lib.record_cluster_name_for_current_operation(cluster_name)
sky_logging.print(f'{colorama.Fore.YELLOW}'
'Syncing down logs to local...'
f'{colorama.Style.RESET_ALL}')
local_log_dirs = backend.sync_down_logs(handle, job_ids, local_dir)
return local_log_dirs
@usage_lib.entrypoint
def job_status(cluster_name: str,
job_ids: Optional[List[int]],
stream_logs: bool = False
) -> Dict[Optional[int], Optional[job_lib.JobStatus]]:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Get the status of jobs.
Args:
cluster_name: (str) name of the cluster.
job_ids: (List[str]) job ids. If None, get the status of the last job.
Returns:
Dict[Optional[str], Optional[job_lib.JobStatus]]: A mapping of job_id to
job statuses. The status will be None if the job does not exist.
If job_ids is None and there is no job on the cluster, it will return
{None: None}.
Raises:
ValueError: if the cluster does not exist.
sky.exceptions.ClusterNotUpError: if the cluster is not UP.
sky.exceptions.NotSupportedError: if the cluster is not based on
CloudVmRayBackend.
sky.exceptions.ClusterOwnerIdentityMismatchError: if the current user is
not the same as the user who created the cluster.
sky.exceptions.CloudUserIdentityError: if we fail to get the current
user identity.
"""
# Check the status of the cluster.
handle = backend_utils.check_cluster_available(
cluster_name,
operation='getting job status',
)
backend = backend_utils.get_backend_from_handle(handle)
if not isinstance(backend, backends.CloudVmRayBackend):
raise exceptions.NotSupportedError(
f'Getting job status is not supported for cluster {cluster_name!r} '
f'of type {backend.__class__.__name__!r}.')
assert isinstance(handle, backends.CloudVmRayResourceHandle), handle
if job_ids is not None and len(job_ids) == 0:
return {}
sky_logging.print(f'{colorama.Fore.YELLOW}'
'Getting job status...'
f'{colorama.Style.RESET_ALL}')
usage_lib.record_cluster_name_for_current_operation(cluster_name)
statuses = backend.get_job_status(handle, job_ids, stream_logs=stream_logs)
return statuses
# ======================
# = Storage Management =
# ======================
@usage_lib.entrypoint
def storage_ls() -> List[Dict[str, Any]]:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Get the storages.
Returns:
[
{
'name': str,
'launched_at': int timestamp of creation,
'store': List[sky.StoreType],
'last_use': int timestamp of last use,
'status': sky.StorageStatus,
}
]
"""
storages = global_user_state.get_storage()
for storage in storages:
storage['store'] = list(storage.pop('handle').sky_stores.keys())
return storages
@usage_lib.entrypoint
def storage_delete(name: str) -> None:
# NOTE(dev): Keep the docstring consistent between the Python API and CLI.
"""Delete a storage.
Raises:
ValueError: If the storage does not exist.
"""
# TODO(zhwu): check the storage owner matches the current user
handle = global_user_state.get_handle_from_storage_name(name)
if handle is None:
raise ValueError(f'Storage name {name!r} not found.')
else:
store_object = data.Storage(name=handle.storage_name,
source=handle.source,
sync_on_reconstruction=False)
store_object.delete()