@Generated(value="com.amazonaws:aws-java-sdk-code-generator") public interface AmazonGlacierAsync extends AmazonGlacier
AsyncHandler
can be used to receive
notification when an asynchronous operation completes.
Note: Do not directly implement this interface, new methods are added to it regularly. Extend from
AbstractAmazonGlacierAsync
instead.
Amazon Glacier is a storage solution for "cold data."
Amazon Glacier is an extremely low-cost storage service that provides secure, durable, and easy-to-use storage for data backup and archival. With Amazon Glacier, customers can store their data cost effectively for months, years, or decades. Amazon Glacier also enables customers to offload the administrative burdens of operating and scaling storage to AWS, so they don't have to worry about capacity planning, hardware provisioning, data replication, hardware failure and recovery, or time-consuming hardware migrations.
Amazon Glacier is a great storage choice when low storage cost is paramount, your data is rarely retrieved, and retrieval latency of several hours is acceptable. If your application requires fast or frequent access to your data, consider using Amazon S3. For more information, see Amazon Simple Storage Service (Amazon S3).
You can store any kind of data in any format. There is no maximum limit on the total amount of data you can store in Amazon Glacier.
If you are a first-time user of Amazon Glacier, we recommend that you begin by reading the following sections in the Amazon Glacier Developer Guide:
What is Amazon Glacier - This section of the Developer Guide describes the underlying data model, the operations it supports, and the AWS SDKs that you can use to interact with the service.
Getting Started with Amazon Glacier - The Getting Started section walks you through the process of creating a vault, uploading archives, creating jobs to download archives, retrieving the job output, and deleting archives.
ENDPOINT_PREFIX
Modifier and Type | Method and Description |
---|---|
Future<AbortMultipartUploadResult> |
abortMultipartUploadAsync(AbortMultipartUploadRequest abortMultipartUploadRequest)
This operation aborts a multipart upload identified by the upload ID.
|
Future<AbortMultipartUploadResult> |
abortMultipartUploadAsync(AbortMultipartUploadRequest abortMultipartUploadRequest,
AsyncHandler<AbortMultipartUploadRequest,AbortMultipartUploadResult> asyncHandler)
This operation aborts a multipart upload identified by the upload ID.
|
Future<AbortVaultLockResult> |
abortVaultLockAsync(AbortVaultLockRequest abortVaultLockRequest)
This operation aborts the vault locking process if the vault lock is not in the
Locked state. |
Future<AbortVaultLockResult> |
abortVaultLockAsync(AbortVaultLockRequest abortVaultLockRequest,
AsyncHandler<AbortVaultLockRequest,AbortVaultLockResult> asyncHandler)
This operation aborts the vault locking process if the vault lock is not in the
Locked state. |
Future<AddTagsToVaultResult> |
addTagsToVaultAsync(AddTagsToVaultRequest addTagsToVaultRequest)
This operation adds the specified tags to a vault.
|
Future<AddTagsToVaultResult> |
addTagsToVaultAsync(AddTagsToVaultRequest addTagsToVaultRequest,
AsyncHandler<AddTagsToVaultRequest,AddTagsToVaultResult> asyncHandler)
This operation adds the specified tags to a vault.
|
Future<CompleteMultipartUploadResult> |
completeMultipartUploadAsync(CompleteMultipartUploadRequest completeMultipartUploadRequest)
You call this operation to inform Amazon Glacier that all the archive parts have been uploaded and that Amazon
Glacier can now assemble the archive from the uploaded parts.
|
Future<CompleteMultipartUploadResult> |
completeMultipartUploadAsync(CompleteMultipartUploadRequest completeMultipartUploadRequest,
AsyncHandler<CompleteMultipartUploadRequest,CompleteMultipartUploadResult> asyncHandler)
You call this operation to inform Amazon Glacier that all the archive parts have been uploaded and that Amazon
Glacier can now assemble the archive from the uploaded parts.
|
Future<CompleteVaultLockResult> |
completeVaultLockAsync(CompleteVaultLockRequest completeVaultLockRequest)
This operation completes the vault locking process by transitioning the vault lock from the
InProgress state to the Locked state, which causes the vault lock policy to become
unchangeable. |
Future<CompleteVaultLockResult> |
completeVaultLockAsync(CompleteVaultLockRequest completeVaultLockRequest,
AsyncHandler<CompleteVaultLockRequest,CompleteVaultLockResult> asyncHandler)
This operation completes the vault locking process by transitioning the vault lock from the
InProgress state to the Locked state, which causes the vault lock policy to become
unchangeable. |
Future<CreateVaultResult> |
createVaultAsync(CreateVaultRequest createVaultRequest)
This operation creates a new vault with the specified name.
|
Future<CreateVaultResult> |
createVaultAsync(CreateVaultRequest createVaultRequest,
AsyncHandler<CreateVaultRequest,CreateVaultResult> asyncHandler)
This operation creates a new vault with the specified name.
|
Future<DeleteArchiveResult> |
deleteArchiveAsync(DeleteArchiveRequest deleteArchiveRequest)
This operation deletes an archive from a vault.
|
Future<DeleteArchiveResult> |
deleteArchiveAsync(DeleteArchiveRequest deleteArchiveRequest,
AsyncHandler<DeleteArchiveRequest,DeleteArchiveResult> asyncHandler)
This operation deletes an archive from a vault.
|
Future<DeleteVaultAccessPolicyResult> |
deleteVaultAccessPolicyAsync(DeleteVaultAccessPolicyRequest deleteVaultAccessPolicyRequest)
This operation deletes the access policy associated with the specified vault.
|
Future<DeleteVaultAccessPolicyResult> |
deleteVaultAccessPolicyAsync(DeleteVaultAccessPolicyRequest deleteVaultAccessPolicyRequest,
AsyncHandler<DeleteVaultAccessPolicyRequest,DeleteVaultAccessPolicyResult> asyncHandler)
This operation deletes the access policy associated with the specified vault.
|
Future<DeleteVaultResult> |
deleteVaultAsync(DeleteVaultRequest deleteVaultRequest)
This operation deletes a vault.
|
Future<DeleteVaultResult> |
deleteVaultAsync(DeleteVaultRequest deleteVaultRequest,
AsyncHandler<DeleteVaultRequest,DeleteVaultResult> asyncHandler)
This operation deletes a vault.
|
Future<DeleteVaultNotificationsResult> |
deleteVaultNotificationsAsync(DeleteVaultNotificationsRequest deleteVaultNotificationsRequest)
This operation deletes the notification configuration set for a vault.
|
Future<DeleteVaultNotificationsResult> |
deleteVaultNotificationsAsync(DeleteVaultNotificationsRequest deleteVaultNotificationsRequest,
AsyncHandler<DeleteVaultNotificationsRequest,DeleteVaultNotificationsResult> asyncHandler)
This operation deletes the notification configuration set for a vault.
|
Future<DescribeJobResult> |
describeJobAsync(DescribeJobRequest describeJobRequest)
This operation returns information about a job you previously initiated, including the job initiation date, the
user who initiated the job, the job status code/message and the Amazon SNS topic to notify after Amazon Glacier
completes the job.
|
Future<DescribeJobResult> |
describeJobAsync(DescribeJobRequest describeJobRequest,
AsyncHandler<DescribeJobRequest,DescribeJobResult> asyncHandler)
This operation returns information about a job you previously initiated, including the job initiation date, the
user who initiated the job, the job status code/message and the Amazon SNS topic to notify after Amazon Glacier
completes the job.
|
Future<DescribeVaultResult> |
describeVaultAsync(DescribeVaultRequest describeVaultRequest)
This operation returns information about a vault, including the vault's Amazon Resource Name (ARN), the date the
vault was created, the number of archives it contains, and the total size of all the archives in the vault.
|
Future<DescribeVaultResult> |
describeVaultAsync(DescribeVaultRequest describeVaultRequest,
AsyncHandler<DescribeVaultRequest,DescribeVaultResult> asyncHandler)
This operation returns information about a vault, including the vault's Amazon Resource Name (ARN), the date the
vault was created, the number of archives it contains, and the total size of all the archives in the vault.
|
Future<GetDataRetrievalPolicyResult> |
getDataRetrievalPolicyAsync(GetDataRetrievalPolicyRequest getDataRetrievalPolicyRequest)
This operation returns the current data retrieval policy for the account and region specified in the GET request.
|
Future<GetDataRetrievalPolicyResult> |
getDataRetrievalPolicyAsync(GetDataRetrievalPolicyRequest getDataRetrievalPolicyRequest,
AsyncHandler<GetDataRetrievalPolicyRequest,GetDataRetrievalPolicyResult> asyncHandler)
This operation returns the current data retrieval policy for the account and region specified in the GET request.
|
Future<GetJobOutputResult> |
getJobOutputAsync(GetJobOutputRequest getJobOutputRequest)
This operation downloads the output of the job you initiated using InitiateJob.
|
Future<GetJobOutputResult> |
getJobOutputAsync(GetJobOutputRequest getJobOutputRequest,
AsyncHandler<GetJobOutputRequest,GetJobOutputResult> asyncHandler)
This operation downloads the output of the job you initiated using InitiateJob.
|
Future<GetVaultAccessPolicyResult> |
getVaultAccessPolicyAsync(GetVaultAccessPolicyRequest getVaultAccessPolicyRequest)
This operation retrieves the
access-policy subresource set on the vault; for more information on
setting this subresource, see Set Vault Access Policy
(PUT access-policy). |
Future<GetVaultAccessPolicyResult> |
getVaultAccessPolicyAsync(GetVaultAccessPolicyRequest getVaultAccessPolicyRequest,
AsyncHandler<GetVaultAccessPolicyRequest,GetVaultAccessPolicyResult> asyncHandler)
This operation retrieves the
access-policy subresource set on the vault; for more information on
setting this subresource, see Set Vault Access Policy
(PUT access-policy). |
Future<GetVaultLockResult> |
getVaultLockAsync(GetVaultLockRequest getVaultLockRequest)
This operation retrieves the following attributes from the
lock-policy subresource set on the
specified vault: |
Future<GetVaultLockResult> |
getVaultLockAsync(GetVaultLockRequest getVaultLockRequest,
AsyncHandler<GetVaultLockRequest,GetVaultLockResult> asyncHandler)
This operation retrieves the following attributes from the
lock-policy subresource set on the
specified vault: |
Future<GetVaultNotificationsResult> |
getVaultNotificationsAsync(GetVaultNotificationsRequest getVaultNotificationsRequest)
This operation retrieves the
notification-configuration subresource of the specified vault. |
Future<GetVaultNotificationsResult> |
getVaultNotificationsAsync(GetVaultNotificationsRequest getVaultNotificationsRequest,
AsyncHandler<GetVaultNotificationsRequest,GetVaultNotificationsResult> asyncHandler)
This operation retrieves the
notification-configuration subresource of the specified vault. |
Future<InitiateJobResult> |
initiateJobAsync(InitiateJobRequest initiateJobRequest)
This operation initiates a job of the specified type.
|
Future<InitiateJobResult> |
initiateJobAsync(InitiateJobRequest initiateJobRequest,
AsyncHandler<InitiateJobRequest,InitiateJobResult> asyncHandler)
This operation initiates a job of the specified type.
|
Future<InitiateMultipartUploadResult> |
initiateMultipartUploadAsync(InitiateMultipartUploadRequest initiateMultipartUploadRequest)
This operation initiates a multipart upload.
|
Future<InitiateMultipartUploadResult> |
initiateMultipartUploadAsync(InitiateMultipartUploadRequest initiateMultipartUploadRequest,
AsyncHandler<InitiateMultipartUploadRequest,InitiateMultipartUploadResult> asyncHandler)
This operation initiates a multipart upload.
|
Future<InitiateVaultLockResult> |
initiateVaultLockAsync(InitiateVaultLockRequest initiateVaultLockRequest)
This operation initiates the vault locking process by doing the following:
|
Future<InitiateVaultLockResult> |
initiateVaultLockAsync(InitiateVaultLockRequest initiateVaultLockRequest,
AsyncHandler<InitiateVaultLockRequest,InitiateVaultLockResult> asyncHandler)
This operation initiates the vault locking process by doing the following:
|
Future<ListJobsResult> |
listJobsAsync(ListJobsRequest listJobsRequest)
This operation lists jobs for a vault, including jobs that are in-progress and jobs that have recently finished.
|
Future<ListJobsResult> |
listJobsAsync(ListJobsRequest listJobsRequest,
AsyncHandler<ListJobsRequest,ListJobsResult> asyncHandler)
This operation lists jobs for a vault, including jobs that are in-progress and jobs that have recently finished.
|
Future<ListMultipartUploadsResult> |
listMultipartUploadsAsync(ListMultipartUploadsRequest listMultipartUploadsRequest)
This operation lists in-progress multipart uploads for the specified vault.
|
Future<ListMultipartUploadsResult> |
listMultipartUploadsAsync(ListMultipartUploadsRequest listMultipartUploadsRequest,
AsyncHandler<ListMultipartUploadsRequest,ListMultipartUploadsResult> asyncHandler)
This operation lists in-progress multipart uploads for the specified vault.
|
Future<ListPartsResult> |
listPartsAsync(ListPartsRequest listPartsRequest)
This operation lists the parts of an archive that have been uploaded in a specific multipart upload.
|
Future<ListPartsResult> |
listPartsAsync(ListPartsRequest listPartsRequest,
AsyncHandler<ListPartsRequest,ListPartsResult> asyncHandler)
This operation lists the parts of an archive that have been uploaded in a specific multipart upload.
|
Future<ListProvisionedCapacityResult> |
listProvisionedCapacityAsync(ListProvisionedCapacityRequest listProvisionedCapacityRequest)
This operation lists the provisioned capacity for the specified AWS account.
|
Future<ListProvisionedCapacityResult> |
listProvisionedCapacityAsync(ListProvisionedCapacityRequest listProvisionedCapacityRequest,
AsyncHandler<ListProvisionedCapacityRequest,ListProvisionedCapacityResult> asyncHandler)
This operation lists the provisioned capacity for the specified AWS account.
|
Future<ListTagsForVaultResult> |
listTagsForVaultAsync(ListTagsForVaultRequest listTagsForVaultRequest)
This operation lists all the tags attached to a vault.
|
Future<ListTagsForVaultResult> |
listTagsForVaultAsync(ListTagsForVaultRequest listTagsForVaultRequest,
AsyncHandler<ListTagsForVaultRequest,ListTagsForVaultResult> asyncHandler)
This operation lists all the tags attached to a vault.
|
Future<ListVaultsResult> |
listVaultsAsync(ListVaultsRequest listVaultsRequest)
This operation lists all vaults owned by the calling user's account.
|
Future<ListVaultsResult> |
listVaultsAsync(ListVaultsRequest listVaultsRequest,
AsyncHandler<ListVaultsRequest,ListVaultsResult> asyncHandler)
This operation lists all vaults owned by the calling user's account.
|
Future<PurchaseProvisionedCapacityResult> |
purchaseProvisionedCapacityAsync(PurchaseProvisionedCapacityRequest purchaseProvisionedCapacityRequest)
This operation purchases a provisioned capacity unit for an AWS account.
|
Future<PurchaseProvisionedCapacityResult> |
purchaseProvisionedCapacityAsync(PurchaseProvisionedCapacityRequest purchaseProvisionedCapacityRequest,
AsyncHandler<PurchaseProvisionedCapacityRequest,PurchaseProvisionedCapacityResult> asyncHandler)
This operation purchases a provisioned capacity unit for an AWS account.
|
Future<RemoveTagsFromVaultResult> |
removeTagsFromVaultAsync(RemoveTagsFromVaultRequest removeTagsFromVaultRequest)
This operation removes one or more tags from the set of tags attached to a vault.
|
Future<RemoveTagsFromVaultResult> |
removeTagsFromVaultAsync(RemoveTagsFromVaultRequest removeTagsFromVaultRequest,
AsyncHandler<RemoveTagsFromVaultRequest,RemoveTagsFromVaultResult> asyncHandler)
This operation removes one or more tags from the set of tags attached to a vault.
|
Future<SetDataRetrievalPolicyResult> |
setDataRetrievalPolicyAsync(SetDataRetrievalPolicyRequest setDataRetrievalPolicyRequest)
This operation sets and then enacts a data retrieval policy in the region specified in the PUT request.
|
Future<SetDataRetrievalPolicyResult> |
setDataRetrievalPolicyAsync(SetDataRetrievalPolicyRequest setDataRetrievalPolicyRequest,
AsyncHandler<SetDataRetrievalPolicyRequest,SetDataRetrievalPolicyResult> asyncHandler)
This operation sets and then enacts a data retrieval policy in the region specified in the PUT request.
|
Future<SetVaultAccessPolicyResult> |
setVaultAccessPolicyAsync(SetVaultAccessPolicyRequest setVaultAccessPolicyRequest)
This operation configures an access policy for a vault and will overwrite an existing policy.
|
Future<SetVaultAccessPolicyResult> |
setVaultAccessPolicyAsync(SetVaultAccessPolicyRequest setVaultAccessPolicyRequest,
AsyncHandler<SetVaultAccessPolicyRequest,SetVaultAccessPolicyResult> asyncHandler)
This operation configures an access policy for a vault and will overwrite an existing policy.
|
Future<SetVaultNotificationsResult> |
setVaultNotificationsAsync(SetVaultNotificationsRequest setVaultNotificationsRequest)
This operation configures notifications that will be sent when specific events happen to a vault.
|
Future<SetVaultNotificationsResult> |
setVaultNotificationsAsync(SetVaultNotificationsRequest setVaultNotificationsRequest,
AsyncHandler<SetVaultNotificationsRequest,SetVaultNotificationsResult> asyncHandler)
This operation configures notifications that will be sent when specific events happen to a vault.
|
Future<UploadArchiveResult> |
uploadArchiveAsync(UploadArchiveRequest uploadArchiveRequest)
This operation adds an archive to a vault.
|
Future<UploadArchiveResult> |
uploadArchiveAsync(UploadArchiveRequest uploadArchiveRequest,
AsyncHandler<UploadArchiveRequest,UploadArchiveResult> asyncHandler)
This operation adds an archive to a vault.
|
Future<UploadMultipartPartResult> |
uploadMultipartPartAsync(UploadMultipartPartRequest uploadMultipartPartRequest)
This operation uploads a part of an archive.
|
Future<UploadMultipartPartResult> |
uploadMultipartPartAsync(UploadMultipartPartRequest uploadMultipartPartRequest,
AsyncHandler<UploadMultipartPartRequest,UploadMultipartPartResult> asyncHandler)
This operation uploads a part of an archive.
|
abortMultipartUpload, abortVaultLock, addTagsToVault, completeMultipartUpload, completeVaultLock, createVault, deleteArchive, deleteVault, deleteVaultAccessPolicy, deleteVaultNotifications, describeJob, describeVault, getCachedResponseMetadata, getDataRetrievalPolicy, getJobOutput, getVaultAccessPolicy, getVaultLock, getVaultNotifications, initiateJob, initiateMultipartUpload, initiateVaultLock, listJobs, listMultipartUploads, listParts, listProvisionedCapacity, listTagsForVault, listVaults, purchaseProvisionedCapacity, removeTagsFromVault, setDataRetrievalPolicy, setEndpoint, setRegion, setVaultAccessPolicy, setVaultNotifications, shutdown, uploadArchive, uploadMultipartPart, waiters
Future<AbortMultipartUploadResult> abortMultipartUploadAsync(AbortMultipartUploadRequest abortMultipartUploadRequest)
This operation aborts a multipart upload identified by the upload ID.
After the Abort Multipart Upload request succeeds, you cannot upload any more parts to the multipart upload or complete the multipart upload. Aborting a completed upload fails. However, aborting an already-aborted upload will succeed, for a short time. For more information about uploading a part and completing a multipart upload, see UploadMultipartPart and CompleteMultipartUpload.
This operation is idempotent.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Working with Archives in Amazon Glacier and Abort Multipart Upload in the Amazon Glacier Developer Guide.
abortMultipartUploadRequest
- Provides options to abort a multipart upload identified by the upload ID.
For information about the underlying REST API, see Abort Multipart Upload. For conceptual information, see Working with Archives in Amazon Glacier.
Future<AbortMultipartUploadResult> abortMultipartUploadAsync(AbortMultipartUploadRequest abortMultipartUploadRequest, AsyncHandler<AbortMultipartUploadRequest,AbortMultipartUploadResult> asyncHandler)
This operation aborts a multipart upload identified by the upload ID.
After the Abort Multipart Upload request succeeds, you cannot upload any more parts to the multipart upload or complete the multipart upload. Aborting a completed upload fails. However, aborting an already-aborted upload will succeed, for a short time. For more information about uploading a part and completing a multipart upload, see UploadMultipartPart and CompleteMultipartUpload.
This operation is idempotent.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Working with Archives in Amazon Glacier and Abort Multipart Upload in the Amazon Glacier Developer Guide.
abortMultipartUploadRequest
- Provides options to abort a multipart upload identified by the upload ID.
For information about the underlying REST API, see Abort Multipart Upload. For conceptual information, see Working with Archives in Amazon Glacier.
asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<AbortVaultLockResult> abortVaultLockAsync(AbortVaultLockRequest abortVaultLockRequest)
This operation aborts the vault locking process if the vault lock is not in the Locked
state. If the
vault lock is in the Locked
state when this operation is requested, the operation returns an
AccessDeniedException
error. Aborting the vault locking process removes the vault lock policy from
the specified vault.
A vault lock is put into the InProgress
state by calling InitiateVaultLock. A vault lock is
put into the Locked
state by calling CompleteVaultLock. You can get the state of a vault lock
by calling GetVaultLock. For more information about the vault locking process, see Amazon Glacier Vault Lock. For
more information about vault lock policies, see Amazon Glacier Access Control
with Vault Lock Policies.
This operation is idempotent. You can successfully invoke this operation multiple times, if the vault lock is in
the InProgress
state or if there is no policy associated with the vault.
abortVaultLockRequest
- The input values for AbortVaultLock
.Future<AbortVaultLockResult> abortVaultLockAsync(AbortVaultLockRequest abortVaultLockRequest, AsyncHandler<AbortVaultLockRequest,AbortVaultLockResult> asyncHandler)
This operation aborts the vault locking process if the vault lock is not in the Locked
state. If the
vault lock is in the Locked
state when this operation is requested, the operation returns an
AccessDeniedException
error. Aborting the vault locking process removes the vault lock policy from
the specified vault.
A vault lock is put into the InProgress
state by calling InitiateVaultLock. A vault lock is
put into the Locked
state by calling CompleteVaultLock. You can get the state of a vault lock
by calling GetVaultLock. For more information about the vault locking process, see Amazon Glacier Vault Lock. For
more information about vault lock policies, see Amazon Glacier Access Control
with Vault Lock Policies.
This operation is idempotent. You can successfully invoke this operation multiple times, if the vault lock is in
the InProgress
state or if there is no policy associated with the vault.
abortVaultLockRequest
- The input values for AbortVaultLock
.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<AddTagsToVaultResult> addTagsToVaultAsync(AddTagsToVaultRequest addTagsToVaultRequest)
This operation adds the specified tags to a vault. Each tag is composed of a key and a value. Each vault can have
up to 10 tags. If your request would cause the tag limit for the vault to be exceeded, the operation throws the
LimitExceededException
error. If a tag already exists on the vault under a specified key, the
existing key value will be overwritten. For more information about tags, see Tagging Amazon Glacier Resources.
addTagsToVaultRequest
- The input values for AddTagsToVault
.Future<AddTagsToVaultResult> addTagsToVaultAsync(AddTagsToVaultRequest addTagsToVaultRequest, AsyncHandler<AddTagsToVaultRequest,AddTagsToVaultResult> asyncHandler)
This operation adds the specified tags to a vault. Each tag is composed of a key and a value. Each vault can have
up to 10 tags. If your request would cause the tag limit for the vault to be exceeded, the operation throws the
LimitExceededException
error. If a tag already exists on the vault under a specified key, the
existing key value will be overwritten. For more information about tags, see Tagging Amazon Glacier Resources.
addTagsToVaultRequest
- The input values for AddTagsToVault
.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<CompleteMultipartUploadResult> completeMultipartUploadAsync(CompleteMultipartUploadRequest completeMultipartUploadRequest)
You call this operation to inform Amazon Glacier that all the archive parts have been uploaded and that Amazon Glacier can now assemble the archive from the uploaded parts. After assembling and saving the archive to the vault, Amazon Glacier returns the URI path of the newly created archive resource. Using the URI path, you can then access the archive. After you upload an archive, you should save the archive ID returned to retrieve the archive at a later point. You can also get the vault inventory to obtain a list of archive IDs in a vault. For more information, see InitiateJob.
In the request, you must include the computed SHA256 tree hash of the entire archive you have uploaded. For information about computing a SHA256 tree hash, see Computing Checksums. On the server side, Amazon Glacier also constructs the SHA256 tree hash of the assembled archive. If the values match, Amazon Glacier saves the archive to the vault; otherwise, it returns an error, and the operation fails. The ListParts operation returns a list of parts uploaded for a specific multipart upload. It includes checksum information for each uploaded part that can be used to debug a bad checksum issue.
Additionally, Amazon Glacier also checks for any missing content ranges when assembling the archive, if missing content ranges are found, Amazon Glacier returns an error and the operation fails.
Complete Multipart Upload is an idempotent operation. After your first successful complete multipart upload, if you call the operation again within a short period, the operation will succeed and return the same archive ID. This is useful in the event you experience a network issue that causes an aborted connection or receive a 500 server error, in which case you can repeat your Complete Multipart Upload request and get the same archive ID without creating duplicate archives. Note, however, that after the multipart upload completes, you cannot call the List Parts operation and the multipart upload will not appear in List Multipart Uploads response, even if idempotent complete is possible.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading Large Archives in Parts (Multipart Upload) and Complete Multipart Upload in the Amazon Glacier Developer Guide.
completeMultipartUploadRequest
- Provides options to complete a multipart upload operation. This informs Amazon Glacier that all the
archive parts have been uploaded and Amazon Glacier can now assemble the archive from the uploaded parts.
After assembling and saving the archive to the vault, Amazon Glacier returns the URI path of the newly
created archive resource.Future<CompleteMultipartUploadResult> completeMultipartUploadAsync(CompleteMultipartUploadRequest completeMultipartUploadRequest, AsyncHandler<CompleteMultipartUploadRequest,CompleteMultipartUploadResult> asyncHandler)
You call this operation to inform Amazon Glacier that all the archive parts have been uploaded and that Amazon Glacier can now assemble the archive from the uploaded parts. After assembling and saving the archive to the vault, Amazon Glacier returns the URI path of the newly created archive resource. Using the URI path, you can then access the archive. After you upload an archive, you should save the archive ID returned to retrieve the archive at a later point. You can also get the vault inventory to obtain a list of archive IDs in a vault. For more information, see InitiateJob.
In the request, you must include the computed SHA256 tree hash of the entire archive you have uploaded. For information about computing a SHA256 tree hash, see Computing Checksums. On the server side, Amazon Glacier also constructs the SHA256 tree hash of the assembled archive. If the values match, Amazon Glacier saves the archive to the vault; otherwise, it returns an error, and the operation fails. The ListParts operation returns a list of parts uploaded for a specific multipart upload. It includes checksum information for each uploaded part that can be used to debug a bad checksum issue.
Additionally, Amazon Glacier also checks for any missing content ranges when assembling the archive, if missing content ranges are found, Amazon Glacier returns an error and the operation fails.
Complete Multipart Upload is an idempotent operation. After your first successful complete multipart upload, if you call the operation again within a short period, the operation will succeed and return the same archive ID. This is useful in the event you experience a network issue that causes an aborted connection or receive a 500 server error, in which case you can repeat your Complete Multipart Upload request and get the same archive ID without creating duplicate archives. Note, however, that after the multipart upload completes, you cannot call the List Parts operation and the multipart upload will not appear in List Multipart Uploads response, even if idempotent complete is possible.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading Large Archives in Parts (Multipart Upload) and Complete Multipart Upload in the Amazon Glacier Developer Guide.
completeMultipartUploadRequest
- Provides options to complete a multipart upload operation. This informs Amazon Glacier that all the
archive parts have been uploaded and Amazon Glacier can now assemble the archive from the uploaded parts.
After assembling and saving the archive to the vault, Amazon Glacier returns the URI path of the newly
created archive resource.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<CompleteVaultLockResult> completeVaultLockAsync(CompleteVaultLockRequest completeVaultLockRequest)
This operation completes the vault locking process by transitioning the vault lock from the
InProgress
state to the Locked
state, which causes the vault lock policy to become
unchangeable. A vault lock is put into the InProgress
state by calling InitiateVaultLock. You
can obtain the state of the vault lock by calling GetVaultLock. For more information about the vault
locking process, Amazon Glacier
Vault Lock.
This operation is idempotent. This request is always successful if the vault lock is in the Locked
state and the provided lock ID matches the lock ID originally used to lock the vault.
If an invalid lock ID is passed in the request when the vault lock is in the Locked
state, the
operation returns an AccessDeniedException
error. If an invalid lock ID is passed in the request
when the vault lock is in the InProgress
state, the operation throws an
InvalidParameter
error.
completeVaultLockRequest
- The input values for CompleteVaultLock
.Future<CompleteVaultLockResult> completeVaultLockAsync(CompleteVaultLockRequest completeVaultLockRequest, AsyncHandler<CompleteVaultLockRequest,CompleteVaultLockResult> asyncHandler)
This operation completes the vault locking process by transitioning the vault lock from the
InProgress
state to the Locked
state, which causes the vault lock policy to become
unchangeable. A vault lock is put into the InProgress
state by calling InitiateVaultLock. You
can obtain the state of the vault lock by calling GetVaultLock. For more information about the vault
locking process, Amazon Glacier
Vault Lock.
This operation is idempotent. This request is always successful if the vault lock is in the Locked
state and the provided lock ID matches the lock ID originally used to lock the vault.
If an invalid lock ID is passed in the request when the vault lock is in the Locked
state, the
operation returns an AccessDeniedException
error. If an invalid lock ID is passed in the request
when the vault lock is in the InProgress
state, the operation throws an
InvalidParameter
error.
completeVaultLockRequest
- The input values for CompleteVaultLock
.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<CreateVaultResult> createVaultAsync(CreateVaultRequest createVaultRequest)
This operation creates a new vault with the specified name. The name of the vault must be unique within a region for an AWS account. You can create up to 1,000 vaults per account. If you need to create more vaults, contact Amazon Glacier.
You must use the following guidelines when naming a vault.
Names can be between 1 and 255 characters long.
Allowed characters are a-z, A-Z, 0-9, '_' (underscore), '-' (hyphen), and '.' (period).
This operation is idempotent.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Creating a Vault in Amazon Glacier and Create Vault in the Amazon Glacier Developer Guide.
createVaultRequest
- Provides options to create a vault.Future<CreateVaultResult> createVaultAsync(CreateVaultRequest createVaultRequest, AsyncHandler<CreateVaultRequest,CreateVaultResult> asyncHandler)
This operation creates a new vault with the specified name. The name of the vault must be unique within a region for an AWS account. You can create up to 1,000 vaults per account. If you need to create more vaults, contact Amazon Glacier.
You must use the following guidelines when naming a vault.
Names can be between 1 and 255 characters long.
Allowed characters are a-z, A-Z, 0-9, '_' (underscore), '-' (hyphen), and '.' (period).
This operation is idempotent.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Creating a Vault in Amazon Glacier and Create Vault in the Amazon Glacier Developer Guide.
createVaultRequest
- Provides options to create a vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DeleteArchiveResult> deleteArchiveAsync(DeleteArchiveRequest deleteArchiveRequest)
This operation deletes an archive from a vault. Subsequent requests to initiate a retrieval of this archive will fail. Archive retrievals that are in progress for this archive ID may or may not succeed according to the following scenarios:
If the archive retrieval job is actively preparing the data for download when Amazon Glacier receives the delete archive request, the archival retrieval operation might fail.
If the archive retrieval job has successfully prepared the archive for download when Amazon Glacier receives the delete archive request, you will be able to download the output.
This operation is idempotent. Attempting to delete an already-deleted archive does not result in an error.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Deleting an Archive in Amazon Glacier and Delete Archive in the Amazon Glacier Developer Guide.
deleteArchiveRequest
- Provides options for deleting an archive from an Amazon Glacier vault.Future<DeleteArchiveResult> deleteArchiveAsync(DeleteArchiveRequest deleteArchiveRequest, AsyncHandler<DeleteArchiveRequest,DeleteArchiveResult> asyncHandler)
This operation deletes an archive from a vault. Subsequent requests to initiate a retrieval of this archive will fail. Archive retrievals that are in progress for this archive ID may or may not succeed according to the following scenarios:
If the archive retrieval job is actively preparing the data for download when Amazon Glacier receives the delete archive request, the archival retrieval operation might fail.
If the archive retrieval job has successfully prepared the archive for download when Amazon Glacier receives the delete archive request, you will be able to download the output.
This operation is idempotent. Attempting to delete an already-deleted archive does not result in an error.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Deleting an Archive in Amazon Glacier and Delete Archive in the Amazon Glacier Developer Guide.
deleteArchiveRequest
- Provides options for deleting an archive from an Amazon Glacier vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DeleteVaultResult> deleteVaultAsync(DeleteVaultRequest deleteVaultRequest)
This operation deletes a vault. Amazon Glacier will delete a vault only if there are no archives in the vault as of the last inventory and there have been no writes to the vault since the last inventory. If either of these conditions is not satisfied, the vault deletion fails (that is, the vault is not removed) and Amazon Glacier returns an error. You can use DescribeVault to return the number of archives in a vault, and you can use Initiate a Job (POST jobs) to initiate a new inventory retrieval for a vault. The inventory contains the archive IDs you use to delete archives using Delete Archive (DELETE archive).
This operation is idempotent.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Deleting a Vault in Amazon Glacier and Delete Vault in the Amazon Glacier Developer Guide.
deleteVaultRequest
- Provides options for deleting a vault from Amazon Glacier.Future<DeleteVaultResult> deleteVaultAsync(DeleteVaultRequest deleteVaultRequest, AsyncHandler<DeleteVaultRequest,DeleteVaultResult> asyncHandler)
This operation deletes a vault. Amazon Glacier will delete a vault only if there are no archives in the vault as of the last inventory and there have been no writes to the vault since the last inventory. If either of these conditions is not satisfied, the vault deletion fails (that is, the vault is not removed) and Amazon Glacier returns an error. You can use DescribeVault to return the number of archives in a vault, and you can use Initiate a Job (POST jobs) to initiate a new inventory retrieval for a vault. The inventory contains the archive IDs you use to delete archives using Delete Archive (DELETE archive).
This operation is idempotent.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Deleting a Vault in Amazon Glacier and Delete Vault in the Amazon Glacier Developer Guide.
deleteVaultRequest
- Provides options for deleting a vault from Amazon Glacier.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DeleteVaultAccessPolicyResult> deleteVaultAccessPolicyAsync(DeleteVaultAccessPolicyRequest deleteVaultAccessPolicyRequest)
This operation deletes the access policy associated with the specified vault. The operation is eventually consistent; that is, it might take some time for Amazon Glacier to completely remove the access policy, and you might still see the effect of the policy for a short time after you send the delete request.
This operation is idempotent. You can invoke delete multiple times, even if there is no policy associated with the vault. For more information about vault access policies, see Amazon Glacier Access Control with Vault Access Policies.
deleteVaultAccessPolicyRequest
- DeleteVaultAccessPolicy input.Future<DeleteVaultAccessPolicyResult> deleteVaultAccessPolicyAsync(DeleteVaultAccessPolicyRequest deleteVaultAccessPolicyRequest, AsyncHandler<DeleteVaultAccessPolicyRequest,DeleteVaultAccessPolicyResult> asyncHandler)
This operation deletes the access policy associated with the specified vault. The operation is eventually consistent; that is, it might take some time for Amazon Glacier to completely remove the access policy, and you might still see the effect of the policy for a short time after you send the delete request.
This operation is idempotent. You can invoke delete multiple times, even if there is no policy associated with the vault. For more information about vault access policies, see Amazon Glacier Access Control with Vault Access Policies.
deleteVaultAccessPolicyRequest
- DeleteVaultAccessPolicy input.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DeleteVaultNotificationsResult> deleteVaultNotificationsAsync(DeleteVaultNotificationsRequest deleteVaultNotificationsRequest)
This operation deletes the notification configuration set for a vault. The operation is eventually consistent; that is, it might take some time for Amazon Glacier to completely disable the notifications and you might still receive some notifications for a short time after you send the delete request.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Configuring Vault Notifications in Amazon Glacier and Delete Vault Notification Configuration in the Amazon Glacier Developer Guide.
deleteVaultNotificationsRequest
- Provides options for deleting a vault notification configuration from an Amazon Glacier vault.Future<DeleteVaultNotificationsResult> deleteVaultNotificationsAsync(DeleteVaultNotificationsRequest deleteVaultNotificationsRequest, AsyncHandler<DeleteVaultNotificationsRequest,DeleteVaultNotificationsResult> asyncHandler)
This operation deletes the notification configuration set for a vault. The operation is eventually consistent; that is, it might take some time for Amazon Glacier to completely disable the notifications and you might still receive some notifications for a short time after you send the delete request.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Configuring Vault Notifications in Amazon Glacier and Delete Vault Notification Configuration in the Amazon Glacier Developer Guide.
deleteVaultNotificationsRequest
- Provides options for deleting a vault notification configuration from an Amazon Glacier vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DescribeJobResult> describeJobAsync(DescribeJobRequest describeJobRequest)
This operation returns information about a job you previously initiated, including the job initiation date, the user who initiated the job, the job status code/message and the Amazon SNS topic to notify after Amazon Glacier completes the job. For more information about initiating a job, see InitiateJob.
This operation enables you to check the status of your job. However, it is strongly recommended that you set up an Amazon SNS topic and specify it in your initiate job request so that Amazon Glacier can notify the topic after it completes the job.
A job ID will not expire for at least 24 hours after Amazon Glacier completes the job.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For information about the underlying REST API, see Working with Archives in Amazon Glacier in the Amazon Glacier Developer Guide.
describeJobRequest
- Provides options for retrieving a job description.Future<DescribeJobResult> describeJobAsync(DescribeJobRequest describeJobRequest, AsyncHandler<DescribeJobRequest,DescribeJobResult> asyncHandler)
This operation returns information about a job you previously initiated, including the job initiation date, the user who initiated the job, the job status code/message and the Amazon SNS topic to notify after Amazon Glacier completes the job. For more information about initiating a job, see InitiateJob.
This operation enables you to check the status of your job. However, it is strongly recommended that you set up an Amazon SNS topic and specify it in your initiate job request so that Amazon Glacier can notify the topic after it completes the job.
A job ID will not expire for at least 24 hours after Amazon Glacier completes the job.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For information about the underlying REST API, see Working with Archives in Amazon Glacier in the Amazon Glacier Developer Guide.
describeJobRequest
- Provides options for retrieving a job description.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DescribeVaultResult> describeVaultAsync(DescribeVaultRequest describeVaultRequest)
This operation returns information about a vault, including the vault's Amazon Resource Name (ARN), the date the vault was created, the number of archives it contains, and the total size of all the archives in the vault. The number of archives and their total size are as of the last inventory generation. This means that if you add or remove an archive from a vault, and then immediately use Describe Vault, the change in contents will not be immediately reflected. If you want to retrieve the latest inventory of the vault, use InitiateJob. Amazon Glacier generates vault inventories approximately daily. For more information, see Downloading a Vault Inventory in Amazon Glacier.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Retrieving Vault Metadata in Amazon Glacier and Describe Vault in the Amazon Glacier Developer Guide.
describeVaultRequest
- Provides options for retrieving metadata for a specific vault in Amazon Glacier.Future<DescribeVaultResult> describeVaultAsync(DescribeVaultRequest describeVaultRequest, AsyncHandler<DescribeVaultRequest,DescribeVaultResult> asyncHandler)
This operation returns information about a vault, including the vault's Amazon Resource Name (ARN), the date the vault was created, the number of archives it contains, and the total size of all the archives in the vault. The number of archives and their total size are as of the last inventory generation. This means that if you add or remove an archive from a vault, and then immediately use Describe Vault, the change in contents will not be immediately reflected. If you want to retrieve the latest inventory of the vault, use InitiateJob. Amazon Glacier generates vault inventories approximately daily. For more information, see Downloading a Vault Inventory in Amazon Glacier.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Retrieving Vault Metadata in Amazon Glacier and Describe Vault in the Amazon Glacier Developer Guide.
describeVaultRequest
- Provides options for retrieving metadata for a specific vault in Amazon Glacier.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetDataRetrievalPolicyResult> getDataRetrievalPolicyAsync(GetDataRetrievalPolicyRequest getDataRetrievalPolicyRequest)
This operation returns the current data retrieval policy for the account and region specified in the GET request. For more information about data retrieval policies, see Amazon Glacier Data Retrieval Policies.
getDataRetrievalPolicyRequest
- Input for GetDataRetrievalPolicy.Future<GetDataRetrievalPolicyResult> getDataRetrievalPolicyAsync(GetDataRetrievalPolicyRequest getDataRetrievalPolicyRequest, AsyncHandler<GetDataRetrievalPolicyRequest,GetDataRetrievalPolicyResult> asyncHandler)
This operation returns the current data retrieval policy for the account and region specified in the GET request. For more information about data retrieval policies, see Amazon Glacier Data Retrieval Policies.
getDataRetrievalPolicyRequest
- Input for GetDataRetrievalPolicy.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetJobOutputResult> getJobOutputAsync(GetJobOutputRequest getJobOutputRequest)
This operation downloads the output of the job you initiated using InitiateJob. Depending on the job type you specified when you initiated the job, the output will be either the content of an archive or a vault inventory.
You can download all the job output or download a portion of the output by specifying a byte range. In the case of an archive retrieval job, depending on the byte range you specify, Amazon Glacier returns the checksum for the portion of the data. You can compute the checksum on the client and verify that the values match to ensure the portion you downloaded is the correct data.
A job ID will not expire for at least 24 hours after Amazon Glacier completes the job. That a byte range. For both archive and inventory retrieval jobs, you should verify the downloaded size against the size returned in the headers from the Get Job Output response.
For archive retrieval jobs, you should also verify that the size is what you expected. If you download a portion
of the output, the expected size is based on the range of bytes you specified. For example, if you specify a
range of bytes=0-1048575
, you should verify your download size is 1,048,576 bytes. If you download
an entire archive, the expected size is the size of the archive when you uploaded it to Amazon Glacier The
expected size is also returned in the headers from the Get Job Output response.
In the case of an archive retrieval job, depending on the byte range you specify, Amazon Glacier returns the checksum for the portion of the data. To ensure the portion you downloaded is the correct data, compute the checksum on the client, verify that the values match, and verify that the size is what you expected.
A job ID does not expire for at least 24 hours after Amazon Glacier completes the job. That is, you can download the job output within the 24 hours period after Amazon Glacier completes the job.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Downloading a Vault Inventory, Downloading an Archive, and Get Job Output
getJobOutputRequest
- Provides options for downloading output of an Amazon Glacier job.Future<GetJobOutputResult> getJobOutputAsync(GetJobOutputRequest getJobOutputRequest, AsyncHandler<GetJobOutputRequest,GetJobOutputResult> asyncHandler)
This operation downloads the output of the job you initiated using InitiateJob. Depending on the job type you specified when you initiated the job, the output will be either the content of an archive or a vault inventory.
You can download all the job output or download a portion of the output by specifying a byte range. In the case of an archive retrieval job, depending on the byte range you specify, Amazon Glacier returns the checksum for the portion of the data. You can compute the checksum on the client and verify that the values match to ensure the portion you downloaded is the correct data.
A job ID will not expire for at least 24 hours after Amazon Glacier completes the job. That a byte range. For both archive and inventory retrieval jobs, you should verify the downloaded size against the size returned in the headers from the Get Job Output response.
For archive retrieval jobs, you should also verify that the size is what you expected. If you download a portion
of the output, the expected size is based on the range of bytes you specified. For example, if you specify a
range of bytes=0-1048575
, you should verify your download size is 1,048,576 bytes. If you download
an entire archive, the expected size is the size of the archive when you uploaded it to Amazon Glacier The
expected size is also returned in the headers from the Get Job Output response.
In the case of an archive retrieval job, depending on the byte range you specify, Amazon Glacier returns the checksum for the portion of the data. To ensure the portion you downloaded is the correct data, compute the checksum on the client, verify that the values match, and verify that the size is what you expected.
A job ID does not expire for at least 24 hours after Amazon Glacier completes the job. That is, you can download the job output within the 24 hours period after Amazon Glacier completes the job.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Downloading a Vault Inventory, Downloading an Archive, and Get Job Output
getJobOutputRequest
- Provides options for downloading output of an Amazon Glacier job.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetVaultAccessPolicyResult> getVaultAccessPolicyAsync(GetVaultAccessPolicyRequest getVaultAccessPolicyRequest)
This operation retrieves the access-policy
subresource set on the vault; for more information on
setting this subresource, see Set Vault Access Policy
(PUT access-policy). If there is no access policy set on the vault, the operation returns a
404 Not found
error. For more information about vault access policies, see Amazon Glacier Access Control
with Vault Access Policies.
getVaultAccessPolicyRequest
- Input for GetVaultAccessPolicy.Future<GetVaultAccessPolicyResult> getVaultAccessPolicyAsync(GetVaultAccessPolicyRequest getVaultAccessPolicyRequest, AsyncHandler<GetVaultAccessPolicyRequest,GetVaultAccessPolicyResult> asyncHandler)
This operation retrieves the access-policy
subresource set on the vault; for more information on
setting this subresource, see Set Vault Access Policy
(PUT access-policy). If there is no access policy set on the vault, the operation returns a
404 Not found
error. For more information about vault access policies, see Amazon Glacier Access Control
with Vault Access Policies.
getVaultAccessPolicyRequest
- Input for GetVaultAccessPolicy.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetVaultLockResult> getVaultLockAsync(GetVaultLockRequest getVaultLockRequest)
This operation retrieves the following attributes from the lock-policy
subresource set on the
specified vault:
The vault lock policy set on the vault.
The state of the vault lock, which is either InProgess
or Locked
.
When the lock ID expires. The lock ID is used to complete the vault locking process.
When the vault lock was initiated and put into the InProgress
state.
A vault lock is put into the InProgress
state by calling InitiateVaultLock. A vault lock is
put into the Locked
state by calling CompleteVaultLock. You can abort the vault locking
process by calling AbortVaultLock. For more information about the vault locking process, Amazon Glacier Vault Lock.
If there is no vault lock policy set on the vault, the operation returns a 404 Not found
error. For
more information about vault lock policies, Amazon Glacier Access Control
with Vault Lock Policies.
getVaultLockRequest
- The input values for GetVaultLock
.Future<GetVaultLockResult> getVaultLockAsync(GetVaultLockRequest getVaultLockRequest, AsyncHandler<GetVaultLockRequest,GetVaultLockResult> asyncHandler)
This operation retrieves the following attributes from the lock-policy
subresource set on the
specified vault:
The vault lock policy set on the vault.
The state of the vault lock, which is either InProgess
or Locked
.
When the lock ID expires. The lock ID is used to complete the vault locking process.
When the vault lock was initiated and put into the InProgress
state.
A vault lock is put into the InProgress
state by calling InitiateVaultLock. A vault lock is
put into the Locked
state by calling CompleteVaultLock. You can abort the vault locking
process by calling AbortVaultLock. For more information about the vault locking process, Amazon Glacier Vault Lock.
If there is no vault lock policy set on the vault, the operation returns a 404 Not found
error. For
more information about vault lock policies, Amazon Glacier Access Control
with Vault Lock Policies.
getVaultLockRequest
- The input values for GetVaultLock
.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetVaultNotificationsResult> getVaultNotificationsAsync(GetVaultNotificationsRequest getVaultNotificationsRequest)
This operation retrieves the notification-configuration
subresource of the specified vault.
For information about setting a notification configuration on a vault, see SetVaultNotifications. If a
notification configuration for a vault is not set, the operation returns a 404 Not Found
error. For
more information about vault notifications, see Configuring Vault
Notifications in Amazon Glacier.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Configuring Vault Notifications in Amazon Glacier and Get Vault Notification Configuration in the Amazon Glacier Developer Guide.
getVaultNotificationsRequest
- Provides options for retrieving the notification configuration set on an Amazon Glacier vault.Future<GetVaultNotificationsResult> getVaultNotificationsAsync(GetVaultNotificationsRequest getVaultNotificationsRequest, AsyncHandler<GetVaultNotificationsRequest,GetVaultNotificationsResult> asyncHandler)
This operation retrieves the notification-configuration
subresource of the specified vault.
For information about setting a notification configuration on a vault, see SetVaultNotifications. If a
notification configuration for a vault is not set, the operation returns a 404 Not Found
error. For
more information about vault notifications, see Configuring Vault
Notifications in Amazon Glacier.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Configuring Vault Notifications in Amazon Glacier and Get Vault Notification Configuration in the Amazon Glacier Developer Guide.
getVaultNotificationsRequest
- Provides options for retrieving the notification configuration set on an Amazon Glacier vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<InitiateJobResult> initiateJobAsync(InitiateJobRequest initiateJobRequest)
This operation initiates a job of the specified type. In this release, you can initiate a job to retrieve either an archive or a vault inventory (a list of archives in a vault).
Retrieving data from Amazon Glacier is a two-step process:
Initiate a retrieval job.
A data retrieval policy can cause your initiate retrieval job request to fail with a PolicyEnforcedException exception. For more information about data retrieval policies, see Amazon Glacier Data Retrieval Policies. For more information about the PolicyEnforcedException exception, see Error Responses.
After the job completes, download the bytes.
The retrieval request is executed asynchronously. When you initiate a retrieval job, Amazon Glacier creates a job and returns a job ID in the response. When Amazon Glacier completes the job, you can get the job output (archive or inventory data). For information about getting job output, see GetJobOutput operation.
The job must complete before you can get its output. To determine when a job is complete, you have the following options:
Use Amazon SNS Notification You can specify an Amazon Simple Notification Service (Amazon SNS) topic to which Amazon Glacier can post a notification after the job is completed. You can specify an SNS topic per job request. The notification is sent only after Amazon Glacier completes the job. In addition to specifying an SNS topic per job request, you can configure vault notifications for a vault so that job notifications are always sent. For more information, see SetVaultNotifications.
Get job details You can make a DescribeJob request to obtain job status information while a job is in progress. However, it is more efficient to use an Amazon SNS notification to determine when a job is complete.
The information you get via notification is same that you get by calling DescribeJob.
If for a specific event, you add both the notification configuration on the vault and also specify an SNS topic in your initiate job request, Amazon Glacier sends both notifications. For more information, see SetVaultNotifications.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
About the Vault Inventory
Amazon Glacier prepares an inventory for each vault periodically, every 24 hours. When you initiate a job for a vault inventory, Amazon Glacier returns the last inventory for the vault. The inventory data you get might be up to a day or two days old. Also, the initiate inventory job might take some time to complete before you can download the vault inventory. So you do not want to retrieve a vault inventory for each vault operation. However, in some scenarios, you might find the vault inventory useful. For example, when you upload an archive, you can provide an archive description but not an archive name. Amazon Glacier provides you a unique archive ID, an opaque string of characters. So, you might maintain your own database that maps archive names to their corresponding Amazon Glacier assigned archive IDs. You might find the vault inventory useful in the event you need to reconcile information in your database with the actual vault inventory.
Range Inventory Retrieval
You can limit the number of inventory items retrieved by filtering on the archive creation date or by setting a limit.
Filtering by Archive Creation Date
You can retrieve inventory items for archives created between StartDate
and EndDate
by
specifying values for these parameters in the InitiateJob request. Archives created on or after the
StartDate
and before the EndDate
will be returned. If you only provide the
StartDate
without the EndDate
, you will retrieve the inventory for all archives created
on or after the StartDate
. If you only provide the EndDate
without the
StartDate
, you will get back the inventory for all archives created before the EndDate
.
Limiting Inventory Items per Retrieval
You can limit the number of inventory items returned by setting the Limit
parameter in the
InitiateJob request. The inventory job output will contain inventory items up to the specified
Limit
. If there are more inventory items available, the result is paginated. After a job is complete
you can use the DescribeJob operation to get a marker that you use in a subsequent InitiateJob
request. The marker will indicate the starting point to retrieve the next set of inventory items. You can page
through your entire inventory by repeatedly making InitiateJob requests with the marker from the previous
DescribeJob output, until you get a marker from DescribeJob that returns null, indicating that
there are no more inventory items available.
You can use the Limit
parameter together with the date range parameters.
About Ranged Archive Retrieval
You can initiate an archive retrieval for the whole archive or a range of the archive. In the case of ranged archive retrieval, you specify a byte range to return or the whole archive. The range specified must be megabyte (MB) aligned, that is the range start value must be divisible by 1 MB and range end value plus 1 must be divisible by 1 MB or equal the end of the archive. If the ranged archive retrieval is not megabyte aligned, this operation returns a 400 response. Furthermore, to ensure you get checksum values for data you download using Get Job Output API, the range must be tree hash aligned.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Initiate a Job and Downloading a Vault Inventory
Expedited and Bulk Archive Retrievals
When retrieving an archive, you can specify one of the following options in the Tier
field of the
request body:
Standard The default type of retrieval, which allows access to any of your archives within several hours. Standard retrievals typically complete within 3–5 hours.
Bulk Amazon Glacier’s lowest-cost retrieval option, which enables you to retrieve large amounts of data inexpensively in a day. Bulk retrieval requests typically complete within 5–12 hours.
Expedited Amazon Glacier’s option for the fastest retrievals. Archives requested using the expedited retrievals typically become accessible within 1–5 minutes.
For more information about expedited and bulk retrievals, see Retrieving Amazon Glacier Archives.
initiateJobRequest
- Provides options for initiating an Amazon Glacier job.Future<InitiateJobResult> initiateJobAsync(InitiateJobRequest initiateJobRequest, AsyncHandler<InitiateJobRequest,InitiateJobResult> asyncHandler)
This operation initiates a job of the specified type. In this release, you can initiate a job to retrieve either an archive or a vault inventory (a list of archives in a vault).
Retrieving data from Amazon Glacier is a two-step process:
Initiate a retrieval job.
A data retrieval policy can cause your initiate retrieval job request to fail with a PolicyEnforcedException exception. For more information about data retrieval policies, see Amazon Glacier Data Retrieval Policies. For more information about the PolicyEnforcedException exception, see Error Responses.
After the job completes, download the bytes.
The retrieval request is executed asynchronously. When you initiate a retrieval job, Amazon Glacier creates a job and returns a job ID in the response. When Amazon Glacier completes the job, you can get the job output (archive or inventory data). For information about getting job output, see GetJobOutput operation.
The job must complete before you can get its output. To determine when a job is complete, you have the following options:
Use Amazon SNS Notification You can specify an Amazon Simple Notification Service (Amazon SNS) topic to which Amazon Glacier can post a notification after the job is completed. You can specify an SNS topic per job request. The notification is sent only after Amazon Glacier completes the job. In addition to specifying an SNS topic per job request, you can configure vault notifications for a vault so that job notifications are always sent. For more information, see SetVaultNotifications.
Get job details You can make a DescribeJob request to obtain job status information while a job is in progress. However, it is more efficient to use an Amazon SNS notification to determine when a job is complete.
The information you get via notification is same that you get by calling DescribeJob.
If for a specific event, you add both the notification configuration on the vault and also specify an SNS topic in your initiate job request, Amazon Glacier sends both notifications. For more information, see SetVaultNotifications.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
About the Vault Inventory
Amazon Glacier prepares an inventory for each vault periodically, every 24 hours. When you initiate a job for a vault inventory, Amazon Glacier returns the last inventory for the vault. The inventory data you get might be up to a day or two days old. Also, the initiate inventory job might take some time to complete before you can download the vault inventory. So you do not want to retrieve a vault inventory for each vault operation. However, in some scenarios, you might find the vault inventory useful. For example, when you upload an archive, you can provide an archive description but not an archive name. Amazon Glacier provides you a unique archive ID, an opaque string of characters. So, you might maintain your own database that maps archive names to their corresponding Amazon Glacier assigned archive IDs. You might find the vault inventory useful in the event you need to reconcile information in your database with the actual vault inventory.
Range Inventory Retrieval
You can limit the number of inventory items retrieved by filtering on the archive creation date or by setting a limit.
Filtering by Archive Creation Date
You can retrieve inventory items for archives created between StartDate
and EndDate
by
specifying values for these parameters in the InitiateJob request. Archives created on or after the
StartDate
and before the EndDate
will be returned. If you only provide the
StartDate
without the EndDate
, you will retrieve the inventory for all archives created
on or after the StartDate
. If you only provide the EndDate
without the
StartDate
, you will get back the inventory for all archives created before the EndDate
.
Limiting Inventory Items per Retrieval
You can limit the number of inventory items returned by setting the Limit
parameter in the
InitiateJob request. The inventory job output will contain inventory items up to the specified
Limit
. If there are more inventory items available, the result is paginated. After a job is complete
you can use the DescribeJob operation to get a marker that you use in a subsequent InitiateJob
request. The marker will indicate the starting point to retrieve the next set of inventory items. You can page
through your entire inventory by repeatedly making InitiateJob requests with the marker from the previous
DescribeJob output, until you get a marker from DescribeJob that returns null, indicating that
there are no more inventory items available.
You can use the Limit
parameter together with the date range parameters.
About Ranged Archive Retrieval
You can initiate an archive retrieval for the whole archive or a range of the archive. In the case of ranged archive retrieval, you specify a byte range to return or the whole archive. The range specified must be megabyte (MB) aligned, that is the range start value must be divisible by 1 MB and range end value plus 1 must be divisible by 1 MB or equal the end of the archive. If the ranged archive retrieval is not megabyte aligned, this operation returns a 400 response. Furthermore, to ensure you get checksum values for data you download using Get Job Output API, the range must be tree hash aligned.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Initiate a Job and Downloading a Vault Inventory
Expedited and Bulk Archive Retrievals
When retrieving an archive, you can specify one of the following options in the Tier
field of the
request body:
Standard The default type of retrieval, which allows access to any of your archives within several hours. Standard retrievals typically complete within 3–5 hours.
Bulk Amazon Glacier’s lowest-cost retrieval option, which enables you to retrieve large amounts of data inexpensively in a day. Bulk retrieval requests typically complete within 5–12 hours.
Expedited Amazon Glacier’s option for the fastest retrievals. Archives requested using the expedited retrievals typically become accessible within 1–5 minutes.
For more information about expedited and bulk retrievals, see Retrieving Amazon Glacier Archives.
initiateJobRequest
- Provides options for initiating an Amazon Glacier job.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<InitiateMultipartUploadResult> initiateMultipartUploadAsync(InitiateMultipartUploadRequest initiateMultipartUploadRequest)
This operation initiates a multipart upload. Amazon Glacier creates a multipart upload resource and returns its ID in the response. The multipart upload ID is used in subsequent requests to upload parts of an archive (see UploadMultipartPart).
When you initiate a multipart upload, you specify the part size in number of bytes. The part size must be a megabyte (1024 KB) multiplied by a power of 2-for example, 1048576 (1 MB), 2097152 (2 MB), 4194304 (4 MB), 8388608 (8 MB), and so on. The minimum allowable part size is 1 MB, and the maximum is 4 GB.
Every part you upload to this resource (see UploadMultipartPart), except the last one, must have the same size. The last one can be the same size or smaller. For example, suppose you want to upload a 16.2 MB file. If you initiate the multipart upload with a part size of 4 MB, you will upload four parts of 4 MB each and one part of 0.2 MB.
You don't need to know the size of the archive when you start a multipart upload because Amazon Glacier does not require you to specify the overall archive size.
After you complete the multipart upload, Amazon Glacier removes the multipart upload resource referenced by the ID. Amazon Glacier also removes the multipart upload resource if you cancel the multipart upload or it may be removed if there is no activity for a period of 24 hours.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading Large Archives in Parts (Multipart Upload) and Initiate Multipart Upload in the Amazon Glacier Developer Guide.
initiateMultipartUploadRequest
- Provides options for initiating a multipart upload to an Amazon Glacier vault.Future<InitiateMultipartUploadResult> initiateMultipartUploadAsync(InitiateMultipartUploadRequest initiateMultipartUploadRequest, AsyncHandler<InitiateMultipartUploadRequest,InitiateMultipartUploadResult> asyncHandler)
This operation initiates a multipart upload. Amazon Glacier creates a multipart upload resource and returns its ID in the response. The multipart upload ID is used in subsequent requests to upload parts of an archive (see UploadMultipartPart).
When you initiate a multipart upload, you specify the part size in number of bytes. The part size must be a megabyte (1024 KB) multiplied by a power of 2-for example, 1048576 (1 MB), 2097152 (2 MB), 4194304 (4 MB), 8388608 (8 MB), and so on. The minimum allowable part size is 1 MB, and the maximum is 4 GB.
Every part you upload to this resource (see UploadMultipartPart), except the last one, must have the same size. The last one can be the same size or smaller. For example, suppose you want to upload a 16.2 MB file. If you initiate the multipart upload with a part size of 4 MB, you will upload four parts of 4 MB each and one part of 0.2 MB.
You don't need to know the size of the archive when you start a multipart upload because Amazon Glacier does not require you to specify the overall archive size.
After you complete the multipart upload, Amazon Glacier removes the multipart upload resource referenced by the ID. Amazon Glacier also removes the multipart upload resource if you cancel the multipart upload or it may be removed if there is no activity for a period of 24 hours.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading Large Archives in Parts (Multipart Upload) and Initiate Multipart Upload in the Amazon Glacier Developer Guide.
initiateMultipartUploadRequest
- Provides options for initiating a multipart upload to an Amazon Glacier vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<InitiateVaultLockResult> initiateVaultLockAsync(InitiateVaultLockRequest initiateVaultLockRequest)
This operation initiates the vault locking process by doing the following:
Installing a vault lock policy on the specified vault.
Setting the lock state of vault lock to InProgress
.
Returning a lock ID, which is used to complete the vault locking process.
You can set one vault lock policy for each vault and this policy can be up to 20 KB in size. For more information about vault lock policies, see Amazon Glacier Access Control with Vault Lock Policies.
You must complete the vault locking process within 24 hours after the vault lock enters the
InProgress
state. After the 24 hour window ends, the lock ID expires, the vault automatically exits
the InProgress
state, and the vault lock policy is removed from the vault. You call
CompleteVaultLock to complete the vault locking process by setting the state of the vault lock to
Locked
.
After a vault lock is in the Locked
state, you cannot initiate a new vault lock for the vault.
You can abort the vault locking process by calling AbortVaultLock. You can get the state of the vault lock by calling GetVaultLock. For more information about the vault locking process, Amazon Glacier Vault Lock.
If this operation is called when the vault lock is in the InProgress
state, the operation returns an
AccessDeniedException
error. When the vault lock is in the InProgress
state you must
call AbortVaultLock before you can initiate a new vault lock policy.
initiateVaultLockRequest
- The input values for InitiateVaultLock
.Future<InitiateVaultLockResult> initiateVaultLockAsync(InitiateVaultLockRequest initiateVaultLockRequest, AsyncHandler<InitiateVaultLockRequest,InitiateVaultLockResult> asyncHandler)
This operation initiates the vault locking process by doing the following:
Installing a vault lock policy on the specified vault.
Setting the lock state of vault lock to InProgress
.
Returning a lock ID, which is used to complete the vault locking process.
You can set one vault lock policy for each vault and this policy can be up to 20 KB in size. For more information about vault lock policies, see Amazon Glacier Access Control with Vault Lock Policies.
You must complete the vault locking process within 24 hours after the vault lock enters the
InProgress
state. After the 24 hour window ends, the lock ID expires, the vault automatically exits
the InProgress
state, and the vault lock policy is removed from the vault. You call
CompleteVaultLock to complete the vault locking process by setting the state of the vault lock to
Locked
.
After a vault lock is in the Locked
state, you cannot initiate a new vault lock for the vault.
You can abort the vault locking process by calling AbortVaultLock. You can get the state of the vault lock by calling GetVaultLock. For more information about the vault locking process, Amazon Glacier Vault Lock.
If this operation is called when the vault lock is in the InProgress
state, the operation returns an
AccessDeniedException
error. When the vault lock is in the InProgress
state you must
call AbortVaultLock before you can initiate a new vault lock policy.
initiateVaultLockRequest
- The input values for InitiateVaultLock
.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListJobsResult> listJobsAsync(ListJobsRequest listJobsRequest)
This operation lists jobs for a vault, including jobs that are in-progress and jobs that have recently finished.
Amazon Glacier retains recently completed jobs for a period before deleting them; however, it eventually removes completed jobs. The output of completed jobs can be retrieved. Retaining completed jobs for a period of time after they have completed enables you to get a job output in the event you miss the job completion notification or your first attempt to download it fails. For example, suppose you start an archive retrieval job to download an archive. After the job completes, you start to download the archive but encounter a network error. In this scenario, you can retry and download the archive while the job exists.
To retrieve an archive or retrieve a vault inventory from Amazon Glacier, you first initiate a job, and after the job completes, you download the data. For an archive retrieval, the output is the archive data. For an inventory retrieval, it is the inventory list. The List Job operation returns a list of these jobs sorted by job initiation time.
The List Jobs operation supports pagination. You should always check the response Marker
field. If
there are no more jobs to list, the Marker
field is set to null
. If there are more jobs
to list, the Marker
field is set to a non-null value, which you can use to continue the pagination
of the list. To return a list of jobs that begins at a specific job, set the marker request parameter to the
Marker
value for that job that you obtained from a previous List Jobs request.
You can set a maximum limit for the number of jobs returned in the response by specifying the limit
parameter in the request. The default limit is 1000. The number of jobs returned might be fewer than the limit,
but the number of returned jobs never exceeds the limit.
Additionally, you can filter the jobs list returned by specifying the optional statuscode
parameter
or completed
parameter, or both. Using the statuscode
parameter, you can specify to
return only jobs that match either the InProgress
, Succeeded
, or Failed
status. Using the completed
parameter, you can specify to return only jobs that were completed (
true
) or jobs that were not completed (false
).
For the underlying REST API, see List Jobs.
listJobsRequest
- Provides options for retrieving a job list for an Amazon Glacier vault.Future<ListJobsResult> listJobsAsync(ListJobsRequest listJobsRequest, AsyncHandler<ListJobsRequest,ListJobsResult> asyncHandler)
This operation lists jobs for a vault, including jobs that are in-progress and jobs that have recently finished.
Amazon Glacier retains recently completed jobs for a period before deleting them; however, it eventually removes completed jobs. The output of completed jobs can be retrieved. Retaining completed jobs for a period of time after they have completed enables you to get a job output in the event you miss the job completion notification or your first attempt to download it fails. For example, suppose you start an archive retrieval job to download an archive. After the job completes, you start to download the archive but encounter a network error. In this scenario, you can retry and download the archive while the job exists.
To retrieve an archive or retrieve a vault inventory from Amazon Glacier, you first initiate a job, and after the job completes, you download the data. For an archive retrieval, the output is the archive data. For an inventory retrieval, it is the inventory list. The List Job operation returns a list of these jobs sorted by job initiation time.
The List Jobs operation supports pagination. You should always check the response Marker
field. If
there are no more jobs to list, the Marker
field is set to null
. If there are more jobs
to list, the Marker
field is set to a non-null value, which you can use to continue the pagination
of the list. To return a list of jobs that begins at a specific job, set the marker request parameter to the
Marker
value for that job that you obtained from a previous List Jobs request.
You can set a maximum limit for the number of jobs returned in the response by specifying the limit
parameter in the request. The default limit is 1000. The number of jobs returned might be fewer than the limit,
but the number of returned jobs never exceeds the limit.
Additionally, you can filter the jobs list returned by specifying the optional statuscode
parameter
or completed
parameter, or both. Using the statuscode
parameter, you can specify to
return only jobs that match either the InProgress
, Succeeded
, or Failed
status. Using the completed
parameter, you can specify to return only jobs that were completed (
true
) or jobs that were not completed (false
).
For the underlying REST API, see List Jobs.
listJobsRequest
- Provides options for retrieving a job list for an Amazon Glacier vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListMultipartUploadsResult> listMultipartUploadsAsync(ListMultipartUploadsRequest listMultipartUploadsRequest)
This operation lists in-progress multipart uploads for the specified vault. An in-progress multipart upload is a multipart upload that has been initiated by an InitiateMultipartUpload request, but has not yet been completed or aborted. The list returned in the List Multipart Upload response has no guaranteed order.
The List Multipart Uploads operation supports pagination. By default, this operation returns up to 1,000
multipart uploads in the response. You should always check the response for a marker
at which to
continue the list; if there are no more items the marker
is null
. To return a list of
multipart uploads that begins at a specific upload, set the marker
request parameter to the value
you obtained from a previous List Multipart Upload request. You can also limit the number of uploads returned in
the response by specifying the limit
parameter in the request.
Note the difference between this operation and listing parts (ListParts). The List Multipart Uploads operation lists all multipart uploads for a vault and does not require a multipart upload ID. The List Parts operation requires a multipart upload ID since parts are associated with a single upload.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Working with Archives in Amazon Glacier and List Multipart Uploads in the Amazon Glacier Developer Guide.
listMultipartUploadsRequest
- Provides options for retrieving list of in-progress multipart uploads for an Amazon Glacier vault.Future<ListMultipartUploadsResult> listMultipartUploadsAsync(ListMultipartUploadsRequest listMultipartUploadsRequest, AsyncHandler<ListMultipartUploadsRequest,ListMultipartUploadsResult> asyncHandler)
This operation lists in-progress multipart uploads for the specified vault. An in-progress multipart upload is a multipart upload that has been initiated by an InitiateMultipartUpload request, but has not yet been completed or aborted. The list returned in the List Multipart Upload response has no guaranteed order.
The List Multipart Uploads operation supports pagination. By default, this operation returns up to 1,000
multipart uploads in the response. You should always check the response for a marker
at which to
continue the list; if there are no more items the marker
is null
. To return a list of
multipart uploads that begins at a specific upload, set the marker
request parameter to the value
you obtained from a previous List Multipart Upload request. You can also limit the number of uploads returned in
the response by specifying the limit
parameter in the request.
Note the difference between this operation and listing parts (ListParts). The List Multipart Uploads operation lists all multipart uploads for a vault and does not require a multipart upload ID. The List Parts operation requires a multipart upload ID since parts are associated with a single upload.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Working with Archives in Amazon Glacier and List Multipart Uploads in the Amazon Glacier Developer Guide.
listMultipartUploadsRequest
- Provides options for retrieving list of in-progress multipart uploads for an Amazon Glacier vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListPartsResult> listPartsAsync(ListPartsRequest listPartsRequest)
This operation lists the parts of an archive that have been uploaded in a specific multipart upload. You can make this request at any time during an in-progress multipart upload before you complete the upload (see CompleteMultipartUpload. List Parts returns an error for completed uploads. The list returned in the List Parts response is sorted by part range.
The List Parts operation supports pagination. By default, this operation returns up to 1,000 uploaded parts in
the response. You should always check the response for a marker
at which to continue the list; if
there are no more items the marker
is null
. To return a list of parts that begins at a
specific part, set the marker
request parameter to the value you obtained from a previous List Parts
request. You can also limit the number of parts returned in the response by specifying the limit
parameter in the request.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Working with Archives in Amazon Glacier and List Parts in the Amazon Glacier Developer Guide.
listPartsRequest
- Provides options for retrieving a list of parts of an archive that have been uploaded in a specific
multipart upload.Future<ListPartsResult> listPartsAsync(ListPartsRequest listPartsRequest, AsyncHandler<ListPartsRequest,ListPartsResult> asyncHandler)
This operation lists the parts of an archive that have been uploaded in a specific multipart upload. You can make this request at any time during an in-progress multipart upload before you complete the upload (see CompleteMultipartUpload. List Parts returns an error for completed uploads. The list returned in the List Parts response is sorted by part range.
The List Parts operation supports pagination. By default, this operation returns up to 1,000 uploaded parts in
the response. You should always check the response for a marker
at which to continue the list; if
there are no more items the marker
is null
. To return a list of parts that begins at a
specific part, set the marker
request parameter to the value you obtained from a previous List Parts
request. You can also limit the number of parts returned in the response by specifying the limit
parameter in the request.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and the underlying REST API, see Working with Archives in Amazon Glacier and List Parts in the Amazon Glacier Developer Guide.
listPartsRequest
- Provides options for retrieving a list of parts of an archive that have been uploaded in a specific
multipart upload.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListProvisionedCapacityResult> listProvisionedCapacityAsync(ListProvisionedCapacityRequest listProvisionedCapacityRequest)
This operation lists the provisioned capacity for the specified AWS account.
listProvisionedCapacityRequest
- Future<ListProvisionedCapacityResult> listProvisionedCapacityAsync(ListProvisionedCapacityRequest listProvisionedCapacityRequest, AsyncHandler<ListProvisionedCapacityRequest,ListProvisionedCapacityResult> asyncHandler)
This operation lists the provisioned capacity for the specified AWS account.
listProvisionedCapacityRequest
- asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListTagsForVaultResult> listTagsForVaultAsync(ListTagsForVaultRequest listTagsForVaultRequest)
This operation lists all the tags attached to a vault. The operation returns an empty map if there are no tags. For more information about tags, see Tagging Amazon Glacier Resources.
listTagsForVaultRequest
- The input value for ListTagsForVaultInput
.Future<ListTagsForVaultResult> listTagsForVaultAsync(ListTagsForVaultRequest listTagsForVaultRequest, AsyncHandler<ListTagsForVaultRequest,ListTagsForVaultResult> asyncHandler)
This operation lists all the tags attached to a vault. The operation returns an empty map if there are no tags. For more information about tags, see Tagging Amazon Glacier Resources.
listTagsForVaultRequest
- The input value for ListTagsForVaultInput
.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListVaultsResult> listVaultsAsync(ListVaultsRequest listVaultsRequest)
This operation lists all vaults owned by the calling user's account. The list returned in the response is ASCII-sorted by vault name.
By default, this operation returns up to 1,000 items. If there are more vaults to list, the response
marker
field contains the vault Amazon Resource Name (ARN) at which to continue the list with a new
List Vaults request; otherwise, the marker
field is null
. To return a list of vaults
that begins at a specific vault, set the marker
request parameter to the vault ARN you obtained from
a previous List Vaults request. You can also limit the number of vaults returned in the response by specifying
the limit
parameter in the request.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Retrieving Vault Metadata in Amazon Glacier and List Vaults in the Amazon Glacier Developer Guide.
listVaultsRequest
- Provides options to retrieve the vault list owned by the calling user's account. The list provides
metadata information for each vault.Future<ListVaultsResult> listVaultsAsync(ListVaultsRequest listVaultsRequest, AsyncHandler<ListVaultsRequest,ListVaultsResult> asyncHandler)
This operation lists all vaults owned by the calling user's account. The list returned in the response is ASCII-sorted by vault name.
By default, this operation returns up to 1,000 items. If there are more vaults to list, the response
marker
field contains the vault Amazon Resource Name (ARN) at which to continue the list with a new
List Vaults request; otherwise, the marker
field is null
. To return a list of vaults
that begins at a specific vault, set the marker
request parameter to the vault ARN you obtained from
a previous List Vaults request. You can also limit the number of vaults returned in the response by specifying
the limit
parameter in the request.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Retrieving Vault Metadata in Amazon Glacier and List Vaults in the Amazon Glacier Developer Guide.
listVaultsRequest
- Provides options to retrieve the vault list owned by the calling user's account. The list provides
metadata information for each vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<PurchaseProvisionedCapacityResult> purchaseProvisionedCapacityAsync(PurchaseProvisionedCapacityRequest purchaseProvisionedCapacityRequest)
This operation purchases a provisioned capacity unit for an AWS account.
purchaseProvisionedCapacityRequest
- Future<PurchaseProvisionedCapacityResult> purchaseProvisionedCapacityAsync(PurchaseProvisionedCapacityRequest purchaseProvisionedCapacityRequest, AsyncHandler<PurchaseProvisionedCapacityRequest,PurchaseProvisionedCapacityResult> asyncHandler)
This operation purchases a provisioned capacity unit for an AWS account.
purchaseProvisionedCapacityRequest
- asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<RemoveTagsFromVaultResult> removeTagsFromVaultAsync(RemoveTagsFromVaultRequest removeTagsFromVaultRequest)
This operation removes one or more tags from the set of tags attached to a vault. For more information about tags, see Tagging Amazon Glacier Resources. This operation is idempotent. The operation will be successful, even if there are no tags attached to the vault.
removeTagsFromVaultRequest
- The input value for RemoveTagsFromVaultInput
.Future<RemoveTagsFromVaultResult> removeTagsFromVaultAsync(RemoveTagsFromVaultRequest removeTagsFromVaultRequest, AsyncHandler<RemoveTagsFromVaultRequest,RemoveTagsFromVaultResult> asyncHandler)
This operation removes one or more tags from the set of tags attached to a vault. For more information about tags, see Tagging Amazon Glacier Resources. This operation is idempotent. The operation will be successful, even if there are no tags attached to the vault.
removeTagsFromVaultRequest
- The input value for RemoveTagsFromVaultInput
.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<SetDataRetrievalPolicyResult> setDataRetrievalPolicyAsync(SetDataRetrievalPolicyRequest setDataRetrievalPolicyRequest)
This operation sets and then enacts a data retrieval policy in the region specified in the PUT request. You can set one policy per region for an AWS account. The policy is enacted within a few minutes of a successful PUT operation.
The set policy operation does not affect retrieval jobs that were in progress before the policy was enacted. For more information about data retrieval policies, see Amazon Glacier Data Retrieval Policies.
setDataRetrievalPolicyRequest
- SetDataRetrievalPolicy input.Future<SetDataRetrievalPolicyResult> setDataRetrievalPolicyAsync(SetDataRetrievalPolicyRequest setDataRetrievalPolicyRequest, AsyncHandler<SetDataRetrievalPolicyRequest,SetDataRetrievalPolicyResult> asyncHandler)
This operation sets and then enacts a data retrieval policy in the region specified in the PUT request. You can set one policy per region for an AWS account. The policy is enacted within a few minutes of a successful PUT operation.
The set policy operation does not affect retrieval jobs that were in progress before the policy was enacted. For more information about data retrieval policies, see Amazon Glacier Data Retrieval Policies.
setDataRetrievalPolicyRequest
- SetDataRetrievalPolicy input.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<SetVaultAccessPolicyResult> setVaultAccessPolicyAsync(SetVaultAccessPolicyRequest setVaultAccessPolicyRequest)
This operation configures an access policy for a vault and will overwrite an existing policy. To configure a
vault access policy, send a PUT request to the access-policy
subresource of the vault. An access
policy is specific to a vault and is also called a vault subresource. You can set one access policy per vault and
the policy can be up to 20 KB in size. For more information about vault access policies, see Amazon Glacier Access Control
with Vault Access Policies.
setVaultAccessPolicyRequest
- SetVaultAccessPolicy input.Future<SetVaultAccessPolicyResult> setVaultAccessPolicyAsync(SetVaultAccessPolicyRequest setVaultAccessPolicyRequest, AsyncHandler<SetVaultAccessPolicyRequest,SetVaultAccessPolicyResult> asyncHandler)
This operation configures an access policy for a vault and will overwrite an existing policy. To configure a
vault access policy, send a PUT request to the access-policy
subresource of the vault. An access
policy is specific to a vault and is also called a vault subresource. You can set one access policy per vault and
the policy can be up to 20 KB in size. For more information about vault access policies, see Amazon Glacier Access Control
with Vault Access Policies.
setVaultAccessPolicyRequest
- SetVaultAccessPolicy input.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<SetVaultNotificationsResult> setVaultNotificationsAsync(SetVaultNotificationsRequest setVaultNotificationsRequest)
This operation configures notifications that will be sent when specific events happen to a vault. By default, you don't get any notifications.
To configure vault notifications, send a PUT request to the notification-configuration
subresource
of the vault. The request should include a JSON document that provides an Amazon SNS topic and specific events
for which you want Amazon Glacier to send notifications to the topic.
Amazon SNS topics must grant permission to the vault to be allowed to publish notifications to the topic. You can configure a vault to publish a notification for the following vault events:
ArchiveRetrievalCompleted This event occurs when a job that was initiated for an archive retrieval is completed (InitiateJob). The status of the completed job can be "Succeeded" or "Failed". The notification sent to the SNS topic is the same output as returned from DescribeJob.
InventoryRetrievalCompleted This event occurs when a job that was initiated for an inventory retrieval is completed (InitiateJob). The status of the completed job can be "Succeeded" or "Failed". The notification sent to the SNS topic is the same output as returned from DescribeJob.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Configuring Vault Notifications in Amazon Glacier and Set Vault Notification Configuration in the Amazon Glacier Developer Guide.
setVaultNotificationsRequest
- Provides options to configure notifications that will be sent when specific events happen to a vault.Future<SetVaultNotificationsResult> setVaultNotificationsAsync(SetVaultNotificationsRequest setVaultNotificationsRequest, AsyncHandler<SetVaultNotificationsRequest,SetVaultNotificationsResult> asyncHandler)
This operation configures notifications that will be sent when specific events happen to a vault. By default, you don't get any notifications.
To configure vault notifications, send a PUT request to the notification-configuration
subresource
of the vault. The request should include a JSON document that provides an Amazon SNS topic and specific events
for which you want Amazon Glacier to send notifications to the topic.
Amazon SNS topics must grant permission to the vault to be allowed to publish notifications to the topic. You can configure a vault to publish a notification for the following vault events:
ArchiveRetrievalCompleted This event occurs when a job that was initiated for an archive retrieval is completed (InitiateJob). The status of the completed job can be "Succeeded" or "Failed". The notification sent to the SNS topic is the same output as returned from DescribeJob.
InventoryRetrievalCompleted This event occurs when a job that was initiated for an inventory retrieval is completed (InitiateJob). The status of the completed job can be "Succeeded" or "Failed". The notification sent to the SNS topic is the same output as returned from DescribeJob.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Configuring Vault Notifications in Amazon Glacier and Set Vault Notification Configuration in the Amazon Glacier Developer Guide.
setVaultNotificationsRequest
- Provides options to configure notifications that will be sent when specific events happen to a vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<UploadArchiveResult> uploadArchiveAsync(UploadArchiveRequest uploadArchiveRequest)
This operation adds an archive to a vault. This is a synchronous operation, and for a successful upload, your
data is durably persisted. Amazon Glacier returns the archive ID in the x-amz-archive-id
header of
the response.
You must use the archive ID to access your data in Amazon Glacier. After you upload an archive, you should save the archive ID returned so that you can retrieve or delete the archive later. Besides saving the archive ID, you can also index it and give it a friendly name to allow for better searching. You can also use the optional archive description field to specify how the archive is referred to in an external index of archives, such as you might create in Amazon DynamoDB. You can also get the vault inventory to obtain a list of archive IDs in a vault. For more information, see InitiateJob.
You must provide a SHA256 tree hash of the data you are uploading. For information about computing a SHA256 tree hash, see Computing Checksums.
You can optionally specify an archive description of up to 1,024 printable ASCII characters. You can get the archive description when you either retrieve the archive or get the vault inventory. For more information, see InitiateJob. Amazon Glacier does not interpret the description in any way. An archive description does not need to be unique. You cannot use the description to retrieve or sort the archive list.
Archives are immutable. After you upload an archive, you cannot edit the archive or its description.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading an Archive in Amazon Glacier and Upload Archive in the Amazon Glacier Developer Guide.
uploadArchiveRequest
- Provides options to add an archive to a vault.Future<UploadArchiveResult> uploadArchiveAsync(UploadArchiveRequest uploadArchiveRequest, AsyncHandler<UploadArchiveRequest,UploadArchiveResult> asyncHandler)
This operation adds an archive to a vault. This is a synchronous operation, and for a successful upload, your
data is durably persisted. Amazon Glacier returns the archive ID in the x-amz-archive-id
header of
the response.
You must use the archive ID to access your data in Amazon Glacier. After you upload an archive, you should save the archive ID returned so that you can retrieve or delete the archive later. Besides saving the archive ID, you can also index it and give it a friendly name to allow for better searching. You can also use the optional archive description field to specify how the archive is referred to in an external index of archives, such as you might create in Amazon DynamoDB. You can also get the vault inventory to obtain a list of archive IDs in a vault. For more information, see InitiateJob.
You must provide a SHA256 tree hash of the data you are uploading. For information about computing a SHA256 tree hash, see Computing Checksums.
You can optionally specify an archive description of up to 1,024 printable ASCII characters. You can get the archive description when you either retrieve the archive or get the vault inventory. For more information, see InitiateJob. Amazon Glacier does not interpret the description in any way. An archive description does not need to be unique. You cannot use the description to retrieve or sort the archive list.
Archives are immutable. After you upload an archive, you cannot edit the archive or its description.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading an Archive in Amazon Glacier and Upload Archive in the Amazon Glacier Developer Guide.
uploadArchiveRequest
- Provides options to add an archive to a vault.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<UploadMultipartPartResult> uploadMultipartPartAsync(UploadMultipartPartRequest uploadMultipartPartRequest)
This operation uploads a part of an archive. You can upload archive parts in any order. You can also upload them in parallel. You can upload up to 10,000 parts for a multipart upload.
Amazon Glacier rejects your upload part request if any of the following conditions is true:
SHA256 tree hash does not matchTo ensure that part data is not corrupted in transmission, you compute a SHA256 tree hash of the part and include it in your request. Upon receiving the part data, Amazon Glacier also computes a SHA256 tree hash. If these hash values don't match, the operation fails. For information about computing a SHA256 tree hash, see Computing Checksums.
Part size does not matchThe size of each part except the last must match the size specified in the corresponding InitiateMultipartUpload request. The size of the last part must be the same size as, or smaller than, the specified size.
If you upload a part whose size is smaller than the part size you specified in your initiate multipart upload request and that part is not the last part, then the upload part request will succeed. However, the subsequent Complete Multipart Upload request will fail.
Range does not alignThe byte range value in the request does not align with the part size specified in the corresponding initiate request. For example, if you specify a part size of 4194304 bytes (4 MB), then 0 to 4194303 bytes (4 MB - 1) and 4194304 (4 MB) to 8388607 (8 MB - 1) are valid part ranges. However, if you set a range value of 2 MB to 6 MB, the range does not align with the part size and the upload will fail.
This operation is idempotent. If you upload the same part multiple times, the data included in the most recent request overwrites the previously uploaded data.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading Large Archives in Parts (Multipart Upload) and Upload Part in the Amazon Glacier Developer Guide.
uploadMultipartPartRequest
- Provides options to upload a part of an archive in a multipart upload operation.Future<UploadMultipartPartResult> uploadMultipartPartAsync(UploadMultipartPartRequest uploadMultipartPartRequest, AsyncHandler<UploadMultipartPartRequest,UploadMultipartPartResult> asyncHandler)
This operation uploads a part of an archive. You can upload archive parts in any order. You can also upload them in parallel. You can upload up to 10,000 parts for a multipart upload.
Amazon Glacier rejects your upload part request if any of the following conditions is true:
SHA256 tree hash does not matchTo ensure that part data is not corrupted in transmission, you compute a SHA256 tree hash of the part and include it in your request. Upon receiving the part data, Amazon Glacier also computes a SHA256 tree hash. If these hash values don't match, the operation fails. For information about computing a SHA256 tree hash, see Computing Checksums.
Part size does not matchThe size of each part except the last must match the size specified in the corresponding InitiateMultipartUpload request. The size of the last part must be the same size as, or smaller than, the specified size.
If you upload a part whose size is smaller than the part size you specified in your initiate multipart upload request and that part is not the last part, then the upload part request will succeed. However, the subsequent Complete Multipart Upload request will fail.
Range does not alignThe byte range value in the request does not align with the part size specified in the corresponding initiate request. For example, if you specify a part size of 4194304 bytes (4 MB), then 0 to 4194303 bytes (4 MB - 1) and 4194304 (4 MB) to 8388607 (8 MB - 1) are valid part ranges. However, if you set a range value of 2 MB to 6 MB, the range does not align with the part size and the upload will fail.
This operation is idempotent. If you upload the same part multiple times, the data included in the most recent request overwrites the previously uploaded data.
An AWS account has full permission to perform all operations (actions). However, AWS Identity and Access Management (IAM) users don't have any permissions by default. You must grant them explicit permission to perform specific actions. For more information, see Access Control Using AWS Identity and Access Management (IAM).
For conceptual information and underlying REST API, see Uploading Large Archives in Parts (Multipart Upload) and Upload Part in the Amazon Glacier Developer Guide.
uploadMultipartPartRequest
- Provides options to upload a part of an archive in a multipart upload operation.asyncHandler
- Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Copyright © 2013 Amazon Web Services, Inc. All Rights Reserved.