AWS
The aws
auth method provides an automated mechanism to retrieve a Vault token for IAM principals and AWS EC2 instances. Unlike most Vault auth methods, this method does not require manual first-deploying, or provisioning security-sensitive credentials (tokens, username/password, client certificates, etc), by operators under many circumstances.
Authentication workflow
There are two authentication types present in the aws auth method: iam
and ec2
.
With the iam
method, a special AWS request signed with AWS IAM credentials is used for authentication. The IAM credentials are automatically supplied to AWS instances in IAM instance profiles, Lambda functions, and others, and it is this information already provided by AWS which Vault can use to authenticate clients.
With the ec2
method, AWS is treated as a Trusted Third Party and cryptographically signed dynamic metadata information that uniquely represents each EC2 instance is used for authentication. This metadata information is automatically supplied by AWS to all EC2 instances.
Based on how you attempt to authenticate, Vault will determine if you are attempting to use the iam
or ec2
type. Each has a different authentication workflow, and each can solve different use cases.
Note: The ec2
method was implemented before the primitives to implement the iam
method were supported by AWS. The iam
method is the recommended approach as it is more flexible and aligns with best practices to perform access control and authentication. See the section on comparing the two auth methods below for more information.
-> Usage: See the Authentication section for Vault CLI and API usage examples. The Code Example section provides a code snippet demonstrating the authentication with Vault using the AWS auth method.
IAM auth method
The AWS STS API includes a method, sts:GetCallerIdentity
, which allows you to validate the identity of a client. The client signs a GetCallerIdentity
query using the AWS Signature v4 algorithm and sends it to the Vault server. The credentials used to sign the GetCallerIdentity request can come from the EC2 instance metadata service for an EC2 instance, or from the AWS environment variables in an AWS Lambda function execution, which obviates the need for an operator to manually provision some sort of identity material first. However, the credentials can, in principle, come from anywhere, not just from the locations AWS has provided for you.
The GetCallerIdentity
query consists of four pieces of information: the request URL, the request body, the request headers, and the request method, as the AWS signature is computed over those fields. The Vault server reconstructs the query using this information and forwards it on to the AWS STS service. Depending on the response from the STS service, the server authenticates the client.
Notably, clients don't need network-level access themselves to talk to the AWS STS API endpoint; they merely need access to the credentials to sign the request. However, it means that the Vault server does need network-level access to send requests to the STS endpoint.
Each signed AWS request includes the current timestamp to mitigate the risk of replay attacks. In addition, Vault allows you to require an additional header, X-Vault-AWS-IAM-Server-ID
, to be present to mitigate against different types of replay attacks (such as a signed GetCallerIdentity
request stolen from a dev Vault instance and used to authenticate to a prod Vault instance). Vault further requires that this header be one of the headers included in the AWS signature and relies upon AWS to authenticate that signature.
While AWS API endpoints support both signed GET and POST requests, for simplicity, the aws auth method supports only POST requests. It also does not support presigned
requests, i.e., requests with X-Amz-Credential
, X-Amz-Signature
, and X-Amz-SignedHeaders
GET query parameters containing the authenticating information.
It's also important to note that Amazon does NOT appear to include any sort of authorization around calls to GetCallerIdentity
. For example, if you have an IAM policy on your credential that requires all access to be MFA authenticated, non-MFA authenticated credentials (i.e., raw credentials, not those retrieved by calling GetSessionToken
and supplying an MFA code) will still be able to authenticate to Vault using this method. It does not appear possible to enforce an IAM principal to be MFA authenticated while authenticating to Vault.
EC2 auth method
Amazon EC2 instances have access to metadata which describes the instance. The Vault EC2 auth method leverages the components of this metadata to authenticate and distribute an initial Vault token to an EC2 instance. The data flow (which is also represented in the graphic below) is as follows:
An AWS EC2 instance fetches its AWS Instance Identity Document from the EC2 Metadata Service. In addition to data itself, AWS also provides the PKCS#7 signature of the data, and publishes the public keys (by region) which can be used to verify the signature.
The AWS EC2 instance makes a request to Vault with the PKCS#7 signature. The PKCS#7 signature contains the Instance Identity Document.
Vault verifies the signature on the PKCS#7 document, ensuring the information is certified accurate by AWS. This process validates both the validity and integrity of the document data. As an added security measure, Vault verifies that the instance is currently running using the public EC2 API endpoint.
Provided all steps are successful, Vault returns the initial Vault token to the EC2 instance. This token is mapped to any configured policies based on the instance metadata.
There are various modifications to this workflow that provide more or less security, as detailed later in this documentation.
Authorization workflow
The basic mechanism of operation is per-role. Roles are registered in the method and associated with a specific authentication type that cannot be changed once the role has been created. Roles can also be associated with various optional restrictions, such as the set of allowed policies and max TTLs on the generated tokens. Each role can be specified with the constraints that are to be met during the login. Many of these constraints accept lists of required values. For any constraint which accepts a list of values, that constraint will be considered satisfied if any one of the values is matched during the login process. For example, one such constraint that is supported is to bind against a list of AMI IDs. A role which is bound to a specific list of AMIs can only be used for login by EC2 instances that are deployed to one of the AMIs that the role is bound to.
The iam auth method allows you to specify bound IAM principal ARNs. Clients authenticating to Vault must have an ARN that matches one of the ARNs bound to the role they are attempting to login to. The bound ARN allows specifying a wildcard at the end of the bound ARN. For example, if the bound ARN were arn:aws:iam::123456789012:*
it would allow any principal in AWS account 123456789012 to login to it. Similarly, if it were arn:aws:iam::123456789012:role/*
it would allow any IAM role in the AWS account to login to it. If you wish to specify a wildcard, you must give Vault iam:GetUser
and iam:GetRole
permissions to properly resolve the full user path.
In general, role bindings that are specific to an EC2 instance are only checked when the ec2 auth method is used to login, while bindings specific to IAM principals are only checked when the iam auth method is used to login. However, the iam method includes the ability for you to "infer" an EC2 instance ID from the authenticated client and apply many of the bindings that would otherwise only apply specifically to EC2 instances.
In many cases, an organization will use a "seed AMI" that is specialized after bootup by configuration management or similar processes. For this reason, a role entry in the method can also be associated with a "role tag" when using the ec2 auth type. These tags are generated by the method and are placed as the value of a tag with the given key on the EC2 instance. The role tag can be used to further restrict the parameters set on the role, but cannot be used to grant additional privileges. If a role with an AMI bind constraint has "role tag" enabled on the role, and the EC2 instance performing login does not have an expected tag on it, or if the tag on the instance is deleted for some reason, authentication fails.
The role tags can be generated at will by an operator with appropriate API access. They are HMAC-signed by a per-role key stored within the method, allowing the method to verify the authenticity of a found role tag and ensure that it has not been tampered with. There is also a mechanism to deny list role tags if one has been found to be distributed outside of its intended set of machines.
IAM authentication inferences
With the iam auth method, normally Vault will see the IAM principal that authenticated, either the IAM user or role. However, when you have an EC2 instance in an IAM instance profile, Vault can actually see the instance ID of the instance and can "infer" that it's an EC2 instance. However, there are important security caveats to be aware of before configuring Vault to make that inference.
Each AWS IAM role has a "trust policy" which specifies which entities are trusted to call sts:AssumeRole
on the role and retrieve credentials that can be used to authenticate with that role. When AssumeRole is called, a parameter called RoleSessionName is passed in, which is chosen arbitrarily by the entity which calls AssumeRole. If you have a role with an ARN arn:aws:iam::123456789012:role/MyRole
, then the credentials returned by calling AssumeRole on that role will be arn:aws:sts::123456789012:assumed-role/MyRole/RoleSessionName
where RoleSessionName is the session name in the AssumeRole API call. It is this latter value which Vault actually sees.
When you have an EC2 instance in an instance profile, the corresponding role's trust policy specifies that the principal "Service": "ec2.amazonaws.com"
is trusted to call AssumeRole. When this is configured, EC2 calls AssumeRole on behalf of your instance, with a RoleSessionName corresponding to the instance's instance ID. Thus, it is possible for Vault to extract the instance ID out of the value it sees when an EC2 instance in an instance profile authenticates to Vault with the iam auth method. This is known as "inferencing." Vault can be configured, on a role-by-role basis, to infer that a caller is an EC2 instance and, if so, apply further bindings that apply specifically to EC2 instances -- most of the bindings available to the ec2 auth method.
However, it is very important to note that if any entity other than an AWS service is permitted to call AssumeRole on your role, then that entity can simply pass in your instance's instance ID and spoof your instance to Vault. This also means that anybody who is able to modify your role's trust policy (e.g., via iam:UpdateAssumeRolePolicy
, then that person could also spoof your instances. If this is a concern but you would like to take advantage of inferencing, then you should tightly restrict who is able to call AssumeRole on the role, tightly restrict who is able to call UpdateAssumeRolePolicy on the role, and monitor CloudTrail logs for calls to AssumeRole and UpdateAssumeRolePolicy. All of these caveats apply equally to using the iam auth method without inferencing; the point is merely that Vault cannot offer an iron-clad guarantee about the inference and it is up to operators to determine, based on their own AWS controls and use cases, whether or not it's appropriate to configure inferencing.
Mixing authentication types
Vault allows you to configure using either the ec2 auth method or the iam auth method, but not both auth methods. Further, assumed roles are not supported and Vault prevents you from enforcing restrictions that it cannot enforce given the chosen auth type for a role. Some examples of how this works in practice:
You configure a role with the ec2 auth type, with a bound AMI ID. A client would not be able to login using the iam auth type.
You configure a role with the iam auth type, with a bound IAM principal ARN. A client would not be able to login with the ec2 auth method.
You configure a role with the iam auth type and further configure inferencing. You have a bound AMI ID and a bound IAM principal ARN. A client must login using the iam method; the RoleSessionName must be a valid instance ID viewable by Vault, and the instance must have come from the bound AMI ID.
Comparison of the IAM and EC2 methods
The iam and ec2 auth methods serve similar and somewhat overlapping functionality, in that both authenticate some type of AWS entity to Vault. Here are some comparisons that illustrate why iam
method is preferred over ec2
.
What type of entity is authenticated:
The ec2 auth method authenticates only AWS EC2 instances and is specialized to handle EC2 instances, such as restricting access to EC2 instances from a particular AMI, EC2 instances in a particular instance profile, or EC2 instances with a specialized tag value (via the role_tag feature).
The iam auth method authenticates AWS IAM principals. This can include IAM users, IAM roles assumed from other accounts, AWS Lambdas that are launched in an IAM role, or even EC2 instances that are launched in an IAM instance profile. However, because it authenticates more generalized IAM principals, this method doesn't offer more granular controls beyond binding to a given IAM principal without the use of inferencing.
How the entities are authenticated
The ec2 auth method authenticates instances by making use of the EC2 instance identity document, which is a cryptographically signed document containing metadata about the instance. This document changes relatively infrequently, so Vault adds a number of other constructs to mitigate against replay attacks, such as client nonces, role tags, instance migrations, etc. Because the instance identity document is signed by AWS, you have a strong guarantee that it came from an EC2 instance.
The iam auth method authenticates by having clients provide a specially signed AWS API request which the method then passes on to AWS to validate the signature and tell Vault who created it. The actual secret (i.e., the AWS secret access key) is never transmitted over the wire, and the AWS signature algorithm automatically expires requests after 15 minutes, providing simple and robust protection against replay attacks. The use of inferencing, however, provides a weaker guarantee that the credentials came from an EC2 instance in an IAM instance profile compared to the ec2 authentication mechanism.
The instance identity document used in the ec2 auth method is more likely to be stolen given its relatively static nature, but it's harder to spoof. On the other hand, the credentials of an EC2 instance in an IAM instance profile are less likely to be stolen given their dynamic and short-lived nature, but it's easier to spoof credentials that might have come from an EC2 instance.
Specific use cases
If you have non-EC2 instance entities, such as IAM users, Lambdas in IAM roles, or developer laptops using AdRoll's Hologram then you would need to use the iam auth method.
If you have EC2 instances, then you could use either auth method. If you need more granular filtering beyond just the instance profile of given EC2 instances (such as filtering based off the AMI the instance was launched from), then you would need to use the ec2 auth method, change the instance profile associated with your EC2 instances so they have unique IAM roles for each different Vault role you would want them to authenticate to, or make use of inferencing. If you need to make use of role tags, then you will need to use the ec2 auth method.
Recommended Vault IAM policy
This specifies the recommended IAM policy needed by the AWS auth method. Note that if you are using the same credentials for the AWS auth and secret methods (e.g., if you're running Vault on an EC2 instance in an IAM instance profile), then you will need to add additional permissions as required by the AWS secret method.
Here are some of the scenarios in which Vault would need to use each of these permissions. This isn't intended to be an exhaustive list of all the scenarios in which Vault might make an AWS API call, but rather illustrative of why these are needed.
ec2:DescribeInstances
is necessary when you are using theec2
auth method or when you are inferring anec2_instance
entity type to validate that the EC2 instance meets binding requirements of the roleiam:GetInstanceProfile
is used when you have abound_iam_role_arn
in theec2
auth method. Vault needs to determine which IAM role is attached to the instance profile.iam:GetUser
andiam:GetRole
are used when using the iam auth method and binding to an IAM user or role principal to determine the AWS IAM Unique Identifiers or when using a wildcard on the bound ARN to resolve the full ARN of the user or role.The
sts:AssumeRole
stanza is necessary when you are using Cross Account Access. TheResource
s specified should be a list of all the roles for which you have configured cross-account access, and each of those roles should have this IAM policy attached (except for thests:AssumeRole
statement).The
ManageOwnAccessKeys
stanza is necessary when you have configured Vault with static credentials, and wish to rotate these credentials with the Rotate Root Credentials API call.
Client nonce
Note: this only applies to the ec2 auth method.
If an unintended party gains access to the PKCS#7 signature of the identity document (which by default is available to every process and user that gains access to an EC2 instance), it can impersonate that instance and fetch a Vault token. The method addresses this problem by using a Trust On First Use (TOFU) mechanism that allows the first client to present the PKCS#7 signature of the document to be authenticated and denying the rest. An important property of this design is detection of unauthorized access: if an unintended party authenticates, the intended client will be unable to authenticate and can raise an alert for investigation.
During the first login, the method stores the instance ID that authenticated in a accesslist
. One method of operation of the method is to disallow any authentication attempt for an instance ID contained in the access list, using the disallow_reauthentication
option on the role, meaning that an instance is allowed to login only once. However, this has consequences for token rotation, as it means that once a token has expired, subsequent authentication attempts would fail. By default, reauthentication is enabled in this method, and can be turned off using disallow_reauthentication
parameter on the registered role.
In the default method of operation, the method will return a unique nonce during the first authentication attempt, as part of auth metadata
. Clients should present this nonce
for subsequent login attempts and it should match the nonce
cached at the identity-accesslist entry at the method. Since only the original client knows the nonce
, only the original client is allowed to reauthenticate. (This is the reason that this is a accesslist rather than a deny list; by default, it's keeping track of clients allowed to reauthenticate, rather than those that are not.). Clients can choose to provide a nonce
even for the first login attempt, in which case the provided nonce
will be tied to the cached identity-accesslist entry. It is recommended to use a strong nonce
value in this case.
It is up to the client to behave correctly with respect to the nonce; if the client stores the nonce on disk it can survive reboots, but could also give access to other users or applications on the instance. It is also up to the operator to ensure that client nonces are in fact unique; sharing nonces allows a compromise of the nonce value to enable an attacker that gains access to any EC2 instance to imitate the legitimate client on that instance. This is why nonces can be disabled on the method side in favor of only a single authentication per instance; in some cases, such as when using ASGs, instances are immutable and single-boot anyways, and in conjunction with a high max TTL, reauthentication may not be needed (and if it is, the instance can simply be shut down and allow ASG to start a new one).
In both cases, entries can be removed from the accesslist by instance ID, allowing reauthentication by a client if the nonce is lost (or not used) and an operator approves the process.
One other point: if available by the OS/distribution being used with the EC2 instance, it is not a bad idea to firewall access to the signed PKCS#7 metadata to ensure that it is accessible only to the matching user(s) that require access.
The client nonce which is generated by the backend and which gets returned along with the authentication response, will be audit logged in plaintext. If this is undesired, clients can supply a custom nonce to the login endpoint which will not be returned and hence will not be audit logged.
Advanced options and caveats
Dynamic management of policies via role tags
Note: This only applies to the ec2 auth method or the iam auth method when inferencing is used.
If the instance is required to have customized set of policies based on the role it plays, the role_tag
option can be used to provide a tag to set on instances, for a given role. When this option is set, during login, along with verification of PKCS#7 signature and instance health, the method will query for the value of a specific tag with the configured key that is attached to the instance. The tag holds information that represents a subset of privileges that are set on the role and are used to further restrict the set of the role's privileges for that particular instance.
A role_tag
can be created using auth/aws/role/<role>/tag
endpoint and is immutable. The information present in the tag is SHA256 hashed and HMAC protected. The per-role key to HMAC is only maintained in the method. This prevents an adversarial operator from modifying the tag when setting it on the EC2 instance in order to escalate privileges.
When 'role_tag' option is enabled on a role, the instances are required to have a role tag. If the tag is not found on the EC2 instance, authentication will fail. This is to ensure that privileges of an instance are never escalated for not having the tag on it or for getting the tag removed. If the role tag creation does not specify the policy component, the client will inherit the allowed policies set on the role. If the role tag creation specifies the policy component but it contains no policies, the token will contain only the default
policy; by default, this policy allows only manipulation (revocation, renewal, lookup) of the existing token, plus access to its cubbyhole. This can be useful to allow instances access to a secure "scratch space" for storing data (via the token's cubbyhole) but without granting any access to other resources provided by or resident in Vault.
Handling lost client nonces
Note: This only applies to the ec2 auth method.
If an EC2 instance loses its client nonce (due to a reboot, a stop/start of the client, etc.), subsequent login attempts will not succeed. If the client nonce is lost, normally the only option is to delete the entry corresponding to the instance ID from the identity accesslist
in the method. This can be done via the auth/aws/identity-accesslist/<instance_id>
endpoint. This allows a new client nonce to be accepted by the method during the next login request.
Under certain circumstances there is another useful setting. When the instance is placed onto a host upon creation, it is given a pendingTime
value in the instance identity document (documentation from AWS does not cover this option, unfortunately). If an instance is stopped and started, the pendingTime
value is updated (this does not apply to reboots, however).
The method can take advantage of this via the allow_instance_migration
option, which is set per-role. When this option is enabled, if the client nonce does not match the saved nonce, the pendingTime
value in the instance identity document will be checked; if it is newer than the stored pendingTime
value, the method assumes that the client was stopped/started and allows the client to log in successfully, storing the new nonce as the valid nonce for that client. This essentially re-starts the TOFU mechanism any time the instance is stopped and started, so should be used with caution. Just like with initial authentication, the legitimate client should have a way to alert (or an alert should trigger based on its logs) if it is denied authentication.
Unfortunately, the allow_instance_migration
only helps during stop/start actions; the current metadata does not provide for a way to allow this automatic behavior during reboots. The method will be updated if this needed metadata becomes available.
The allow_instance_migration
option is set per-role, and can also be specified in a role tag. Since role tags can only restrict behavior, if the option is set to false
on the role, a value of true
in the role tag takes effect; however, if the option is set to true
on the role, a value set in the role tag has no effect.
Disabling reauthentication
Note: this only applies to the ec2 auth method.
If in a given organization's architecture, a client fetches a long-lived Vault token and has no need to rotate the token, all future logins for that instance ID can be disabled. If the option disallow_reauthentication
is set, only one login will be allowed per instance. If the intended client successfully retrieves a token during login, it can be sure that its token will not be hijacked by another entity.
When disallow_reauthentication
option is enabled, the client can choose not to supply a nonce during login, although it is not an error to do so (the nonce is simply ignored). Note that reauthentication is enabled by default. If only a single login is desired, disallow_reauthentication
should be set explicitly on the role or on the role tag.
The disallow_reauthentication
option is set per-role, and can also be specified in a role tag. Since role tags can only restrict behavior, if the option is set to false
on the role, a value of true
in the role tag takes effect; however, if the option is set to true
on the role, a value set in the role tag has no effect.
Deny listing role tags
Note: this only applies to the ec2 auth method or the iam auth method when inferencing is used.
Role tags are tied to a specific role, but the method has no control over, which instances using that role, should have any particular role tag; that is purely up to the operator. Although role tags are only restrictive (a tag cannot escalate privileges above what is set on its role), if a role tag is found to have been used incorrectly, and the administrator wants to ensure that the role tag has no further effect, the role tag can be placed on a deny list
via the endpoint auth/aws/roletag-denylist/<role_tag>
. Note that this will not invalidate the tokens that were already issued; this only blocks any further login requests from those instances that have the deny listed tag attached to them.
Expiration times and tidying of denylist
and accesslist
entries
denylist
and accesslist
entriesThe expired entries in both identity accesslist
and role tag denylist
are deleted automatically. The entries in both of these lists contain an expiration time which is dynamically determined by three factors: max_ttl
set on the role, max_ttl
set on the role tag, and max_ttl
value of the method mount. The least of these three dictates the maximum TTL of the issued token, and correspondingly will be set as the expiration times of these entries.
The endpoints auth/aws/tidy/identity-accesslist
and auth/aws/tidy/roletag-denylist
are provided to clean up the entries present in these lists. These endpoints allow defining a safety buffer, such that an entry must not only be expired, but be past expiration by the amount of time dictated by the safety buffer in order to actually remove the entry.
Automatic deletion of expired entries is performed by the periodic function of the method. This function does the tidying of both access list role tags and access list identities. Periodic tidying is activated by default and will have a safety buffer of 72 hours, meaning only those entries are deleted which were expired before 72 hours from when the tidy operation is being performed. This can be configured via config/tidy/roletag-denylist
and config/tidy/identity-accesslist
endpoints.
Varying public certificates
Note: this only applies to the ec2 auth method.
The AWS public certificate, which contains the public key used to verify the PKCS#7 signature, varies for different AWS regions. The primary AWS public certificate, which covers most AWS regions, is already included in Vault and does not need to be added. Instances whose PKCS#7 signatures cannot be verified by the default public certificate included in Vault can register a different public certificate which can be found here, via the auth/aws/config/certificate/<cert_name>
endpoint.
Dangling tokens
An EC2 instance, after authenticating itself with the method, gets a Vault token. After that, if the instance terminates or goes down for any reason, the method will not be aware of such events. The token issued will still be valid, until it expires. The token will likely be expired sooner than its lifetime when the instance fails to renew the token on time.
Cross account access
To allow Vault to authenticate IAM principals and EC2 instances in other accounts, Vault supports using AWS STS (Security Token Service) to assume AWS IAM Roles in other accounts. For each target AWS account ID, you configure the IAM Role for Vault to assume using the auth/aws/config/sts/<account_id>
and Vault will use credentials from assuming that role to validate IAM principals and EC2 instances in the target account.
The account in which Vault is running (i.e. the master account) must be listed as a trusted entity in the IAM Role being assumed on the remote account. The Role itself should allow the permissions specified in the Recommended Vault IAM Policy except it doesn't need any further sts:AssumeRole
permissions.
Furthermore, in the master account, Vault must be granted the action sts:AssumeRole
for the IAM Role to be assumed.
AWS instance metadata timeout
@include 'aws-imds-timeout.mdx'
Authentication
Via the CLI
Enable AWS EC2 authentication in Vault.
Configure the credentials required to make AWS API calls
If not specified, Vault will attempt to use standard environment variables (AWS_ACCESS_KEY_ID
and AWS_SECRET_ACCESS_KEY
) or IAM EC2 instance role credentials if available.
The IAM account or role to which the credentials map must allow the ec2:DescribeInstances
action. In addition, if IAM Role binding is used (see bound_iam_role_arn
below), iam:GetInstanceProfile
must also be allowed.
Configure the policies on the role.
Configure a required X-Vault-AWS-IAM-Server-ID header (recommended)
Perform the login operation
For the ec2 auth method, first fetch the PKCS#7 signature on the AWS instance:
then set the signature on the login endpoint:
For the iam auth method, generating the signed request is a non-standard operation. The Vault cli supports generating this for you:
This assumes you have AWS credentials configured in the standard locations AWS SDKs search for credentials (environment variables, ~/.aws/credentials, IAM instance profile, or ECS task role, in that order). If you do not have IAM credentials available at any of these locations, you can explicitly pass them in on the command line (though this is not recommended), omitting aws_security_token
if not applicable.
The region used defaults to us-east-1
, but you can specify a custom region like so:
If the region is specified as auto
, the Vault CLI will determine the region based on standard AWS credentials precedence as described earlier. Whichever method is used, be sure the designated region corresponds to that of the STS endpoint you're using.
~> Note: If you are making use of AWS GovCloud and setting the sts_endpoint
and sts_region
role parameters to us-gov-west-1
/ us-gov-east-1
then you must include the region
argument in your login request with a matching value, i.e. region=us-gov-west-1
.
An example of how to generate the required request values for the login
method can be found found in the vault cli source code. Using an approach such as this, the request parameters can be generated and passed to the login
method:
Via the API
Enable AWS authentication in Vault.
Configure the credentials required to make AWS API calls.
Configure the policies on the role.
Perform the login operation
The response will be in JSON. For example:
API
The AWS auth method has a full HTTP API. Please see the AWS Auth API for more details.
Code example
The following example demonstrates the AWS (IAM) auth method to authenticate with Vault.
Last updated