HADOOP-18320. Fixes typos in Delegation Tokens documentation. (#4499)
Contributed By: Ahmar Suhail
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@ -20,7 +20,7 @@
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The S3A filesystem client supports `Hadoop Delegation Tokens`.
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This allows YARN application like MapReduce, Distcp, Apache Flink and Apache Spark to
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obtain credentials to access S3 buckets and pass them pass these credentials to
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obtain credentials to access S3 buckets and pass them to
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jobs/queries, so granting them access to the service with the same access
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permissions as the user.
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@ -37,9 +37,9 @@ the S3A client from the AWS STS service. They have a limited duration
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so restrict how long an application can access AWS on behalf of a user.
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Clients with this token have the full permissions of the user.
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*Role Delegation Tokens:* These contain an "STS Session Token" requested by by the
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STS "Assume Role" API, so grant the caller to interact with S3 as specific AWS
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role, *with permissions restricted to purely accessing that specific S3 bucket*.
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*Role Delegation Tokens:* These contain an "STS Session Token" requested by the
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STS "Assume Role" API, granting the caller permission to interact with S3 using a specific IAM
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role, *with permissions restricted to accessing a specific S3 bucket*.
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Role Delegation Tokens are the most powerful. By restricting the access rights
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of the granted STS token, no process receiving the token may perform
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@ -55,13 +55,13 @@ see [S3A Delegation Token Architecture](delegation_token_architecture.html).
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## <a name="background"></a> Background: Hadoop Delegation Tokens.
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A Hadoop Delegation Token are is a byte array of data which is submitted to
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a Hadoop services as proof that the caller has the permissions to perform
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A Hadoop Delegation Token is a byte array of data which is submitted to
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Hadoop services as proof that the caller has the permissions to perform
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the operation which it is requesting —
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and which can be passed between applications to *delegate* those permission.
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and which can be passed between applications to *delegate* those permissions.
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Tokens are opaque to clients, clients who simply get a byte array
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of data which they must to provide to a service when required.
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Tokens are opaque to clients. Clients simply get a byte array
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of data which they must provide to a service when required.
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This normally contains encrypted data for use by the service.
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The service, which holds the password to encrypt/decrypt this data,
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@ -79,7 +79,7 @@ After use, tokens may be revoked: this relies on services holding tables of
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valid tokens, either in memory or, for any HA service, in Apache Zookeeper or
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similar. Revoking tokens is used to clean up after jobs complete.
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Delegation support is tightly integrated with YARN: requests to launch
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Delegation Token support is tightly integrated with YARN: requests to launch
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containers and applications can include a list of delegation tokens to
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pass along. These tokens are serialized with the request, saved to a file
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on the node launching the container, and then loaded in to the credentials
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@ -103,12 +103,12 @@ S3A now supports delegation tokens, so allowing a caller to acquire tokens
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from a local S3A Filesystem connector instance and pass them on to
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applications to grant them equivalent or restricted access.
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These S3A Delegation Tokens are special in that they do not contain
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These S3A Delegation Tokens are special in a way that they do not contain
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password-protected data opaque to clients; they contain the secrets needed
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to access the relevant S3 buckets and associated services.
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They are obtained by requesting a delegation token from the S3A filesystem client.
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Issued token mey be included in job submissions, passed to running applications,
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Issued tokens may be included in job submissions, passed to running applications,
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etc. This token is specific to an individual bucket; all buckets which a client
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wishes to work with must have a separate delegation token issued.
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@ -117,7 +117,7 @@ class, which then supports multiple "bindings" behind it, so supporting
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different variants of S3A Delegation Tokens.
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Because applications only collect Delegation Tokens in secure clusters,
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It does mean that to be able to submit delegation tokens in transient
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it does mean that to be able to submit delegation tokens in transient
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cloud-hosted Hadoop clusters, _these clusters must also have Kerberos enabled_.
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*Tip*: you should only be deploying Hadoop in public clouds with Kerberos enabled.
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@ -141,10 +141,10 @@ for specifics details on the (current) token lifespan.
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### <a name="role-tokens"></a> S3A Role Delegation Tokens
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A Role Delegation Tokens is created by asking the AWS
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A Role Delegation Token is created by asking the AWS
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[Security Token Service](http://docs.aws.amazon.com/STS/latest/APIReference/Welcome.html)
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for set of "Assumed Role" credentials, with a AWS account specific role for a limited duration..
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This role is restricted to only grant access the S3 bucket and all KMS keys,
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for a set of "Assumed Role" session credentials with a limited lifetime, belonging to a given IAM Role.
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The resulting session credentials are restricted to grant access to all KMS keys, and to the specific S3 bucket.
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They are marshalled into the S3A Delegation Token.
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Other S3A connectors can extract these credentials and use them to
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@ -156,13 +156,13 @@ Issued tokens cannot be renewed or revoked.
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### <a name="full-credentials"></a> S3A Full-Credential Delegation Tokens
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Full Credential Delegation Tokens tokens contain the full AWS login details
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Full Credential Delegation Tokens contain the full AWS login details
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(access key and secret key) needed to access a bucket.
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They never expire, so are the equivalent of storing the AWS account credentials
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in a Hadoop, Hive, Spark configuration or similar.
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They differences are:
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The differences are:
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1. They are automatically passed from the client/user to the application.
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A remote application can use them to access data on behalf of the user.
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@ -181,21 +181,20 @@ Hadoop security enabled —which inevitably means with Kerberos.
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Even though S3A delegation tokens do not use Kerberos, the code in
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applications which fetch DTs is normally only executed when the cluster is
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running in secure mode; somewhere where the `core-site.xml` configuration
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sets `hadoop.security.authentication` to to `kerberos` or another valid
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sets `hadoop.security.authentication` to `kerberos` or another valid
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authentication mechanism.
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* Without enabling security at this level, delegation tokens will not
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*Without enabling security at this level, delegation tokens will not
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be collected.*
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Once Kerberos enabled, the process for acquiring tokens is as follows:
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Once Kerberos is enabled, the process for acquiring tokens is as follows:
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1. Enable Delegation token support by setting `fs.s3a.delegation.token.binding`
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to the classname of the token binding to use.
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to use.
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1. Add any other binding-specific settings (STS endpoint, IAM role, etc.)
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1. Make sure the settings are the same in the service as well as the client.
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1. In the client, switch to using a [Hadoop Credential Provider](hadoop-project-dist/hadoop-common/CredentialProviderAPI.html)
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for storing your local credentials, *with a local filesystem store
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for storing your local credentials, with a local filesystem store
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(`localjceks:` or `jcecks://file`), so as to keep the full secrets out of any
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job configurations.
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1. Execute the client from a Kerberos-authenticated account
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@ -215,7 +214,7 @@ application configured with the login credentials for an AWS account able to iss
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Hadoop MapReduce jobs copy their client-side configurations with the job.
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If your AWS login secrets are set in an XML file then they are picked up
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and passed in with the job, _even if delegation tokens are used to propagate
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session or role secrets.
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session or role secrets_.
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Spark-submit will take any credentials in the `spark-defaults.conf`file
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and again, spread them across the cluster.
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@ -261,7 +260,7 @@ the same STS endpoint.
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* In experiments, a few hundred requests per second are needed to trigger throttling,
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so this is very unlikely to surface in production systems.
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* The S3A filesystem connector retries all throttled requests to AWS services, including STS.
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* Other S3 clients with use the AWS SDK will, if configured, also retry throttled requests.
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* Other S3 clients which use the AWS SDK will, if configured, also retry throttled requests.
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Overall, the risk of triggering STS throttling appears low, and most applications
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will recover from what is generally an intermittently used AWS service.
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@ -303,7 +302,7 @@ relevant bucket, then a new session token will be issued.
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a session delegation token, then the existing token will be forwarded.
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The life of the token will not be extended.
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1. If the application requesting a token does not have either of these,
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the the tokens cannot be issued: the operation will fail with an error.
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the token cannot be issued: the operation will fail with an error.
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The endpoint for STS requests are set by the same configuration
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@ -353,10 +352,10 @@ it is authenticated with; the role token binding will fail.
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When the AWS credentials supplied to the Session Delegation Token binding
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through `fs.s3a.aws.credentials.provider` are themselves a set of
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session credentials, generated delegation tokens with simply contain these
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existing session credentials, a new set of credentials obtained from STS.
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session credentials, generated delegation tokens will simply contain these
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existing session credentials, not a new set of credentials obtained from STS.
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This is because the STS service does not let
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callers authenticated with session/role credentials from requesting new sessions.
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callers authenticated with session/role credentials request new sessions.
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This feature is useful when generating tokens from an EC2 VM instance in one IAM
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role and forwarding them over to VMs which are running in a different IAM role.
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@ -384,7 +383,7 @@ There are some further configuration options:
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| **Key** | **Meaning** | **Default** |
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| --- | --- | --- |
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| `fs.s3a.assumed.role.session.duration"` | Duration of delegation tokens | `1h` |
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| `fs.s3a.assumed.role.session.duration` | Duration of delegation tokens | `1h` |
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| `fs.s3a.assumed.role.arn` | ARN for role to request | (undefined) |
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| `fs.s3a.assumed.role.sts.endpoint.region` | region for issued tokens | (undefined) |
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@ -413,7 +412,8 @@ The XML settings needed to enable session tokens are:
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```
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A JSON role policy for the role/session will automatically be generated which will
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consist of
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consist of:
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1. Full access to the S3 bucket for all operations used by the S3A client
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(read, write, list, multipart operations, get bucket location, etc).
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1. Full user access to KMS keys. This is to be able to decrypt any data
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@ -449,7 +449,7 @@ relevant bucket, then a full credential token will be issued.
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a session delegation token, then the existing token will be forwarded.
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The life of the token will not be extended.
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1. If the application requesting a token does not have either of these,
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the the tokens cannot be issued: the operation will fail with an error.
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the tokens cannot be issued: the operation will fail with an error.
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## <a name="managing_token_duration"></a> Managing the Delegation Tokens Duration
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@ -465,7 +465,7 @@ that of the role itself: 1h by default, though this can be changed to
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12h [In the IAM Console](https://console.aws.amazon.com/iam/home#/roles),
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or from the AWS CLI.
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*Without increasing the duration of role, one hour is the maximum value;
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Without increasing the duration of the role, one hour is the maximum value;
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the error message `The requested DurationSeconds exceeds the MaxSessionDuration set for this role`
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is returned if the requested duration of a Role Delegation Token is greater
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than that available for the role.
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@ -545,7 +545,7 @@ Consult [troubleshooting Assumed Roles](assumed_roles.html#troubleshooting)
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for details on AWS error messages related to AWS IAM roles.
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The [cloudstore](https://github.com/steveloughran/cloudstore) module's StoreDiag
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utility can also be used to explore delegation token support
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utility can also be used to explore delegation token support.
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### Submitted job cannot authenticate
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@ -557,7 +557,7 @@ There are many causes for this; delegation tokens add some more.
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* This user is not `kinit`-ed in to Kerberos. Use `klist` and
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`hadoop kdiag` to see the Kerberos authentication state of the logged in user.
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* The filesystem instance on the client has not had a token binding set in
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* The filesystem instance on the client does not have a token binding set in
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`fs.s3a.delegation.token.binding`, so does not attempt to issue any.
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* The job submission is not aware that access to the specific S3 buckets
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are required. Review the application's submission mechanism to determine
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@ -717,7 +717,7 @@ In the initial results of these tests:
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* A few hundred requests a second can be made before STS block the caller.
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* The throttling does not last very long (seconds)
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* Tt does not appear to affect any other STS endpoints.
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* It does not appear to affect any other STS endpoints.
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If developers wish to experiment with these tests and provide more detailed
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analysis, we would welcome this. Do bear in mind that all users of the
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@ -749,7 +749,7 @@ Look at the other examples to see what to do; `SessionTokenIdentifier` does
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most of the work.
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Having a `toString()` method which is informative is ideal for the `hdfs creds`
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command as well as debugging: *but do not print secrets*
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command as well as debugging: *but do not print secrets*.
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*Important*: Add no references to any AWS SDK class, to
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ensure it can be safely deserialized whenever the relevant token
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@ -835,13 +835,13 @@ Tests the lifecycle of session tokens.
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#### Integration Test `ITestSessionDelegationInFileystem`.
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This collects DTs from one filesystem, and uses that to create a new FS instance and
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then perform filesystem operations. A miniKDC is instantiated
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then perform filesystem operations. A miniKDC is instantiated.
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* Take care to remove all login secrets from the environment, so as to make sure that
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the second instance is picking up the DT information.
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* `UserGroupInformation.reset()` can be used to reset user secrets after every test
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case (e.g. teardown), so that issued DTs from one test case do not contaminate the next.
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* its subclass, `ITestRoleDelegationInFileystem` adds a check that the current credentials
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* It's subclass, `ITestRoleDelegationInFileystem` adds a check that the current credentials
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in the DT cannot be used to access data on other buckets —that is, the active
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session really is restricted to the target bucket.
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@ -851,7 +851,7 @@ session really is restricted to the target bucket.
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It's not easy to bring up a YARN cluster with a secure HDFS and miniKDC controller in
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test cases —this test, the closest there is to an end-to-end test,
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uses mocking to mock the RPC calls to the YARN AM, and then verifies that the tokens
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have been collected in the job context,
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have been collected in the job context.
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#### Load Test `ILoadTestSessionCredentials`
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