Policies
Everything in Vault is path-based, and policies are no exception. Policies provide a declarative way to grant or forbid access to certain paths and operations in Vault. This section discusses policy workflows and syntaxes.
Policies are deny by default, so an empty policy grants no permission in the system.
Policy-Authorization workflow
Before a human or machine can gain access, an administrator must configure Vault with an auth method. Authentication is the process by which human or machine-supplied information is verified against an internal or external system.
Consider the following diagram, which illustrates the steps a security team would take to configure Vault to authenticate using a corporate LDAP or ActiveDirectory installation. Even though this example uses LDAP, the concept applies to all auth methods.
The security team configures Vault to connect to an auth method. This configuration varies by auth method. In the case of LDAP, Vault needs to know the address of the LDAP server and whether to connect using TLS. It is important to note that Vault does not store a copy of the LDAP database - Vault will delegate the authentication to the auth method.
The security team authors a policy (or uses an existing policy) which grants access to paths in Vault. Policies are written in HCL in your editor of preference and saved to disk.
The policy's contents are uploaded and stored in Vault and referenced by name. You can think of the policy's name as a pointer or symlink to its set of rules.
Most importantly, the security team maps data in the auth method to a policy. For example, the security team might create mappings like:
Members of the OU group "dev" map to the Vault policy named "readonly-dev".
or
Members of the OU group "ops" map to the Vault policies "admin" and "auditor".
Now Vault has an internal mapping between a backend authentication system and internal policy. When a user authenticates to Vault, the actual authentication is delegated to the auth method. As a user, the flow looks like:
A user attempts to authenticate to Vault using their LDAP credentials, providing Vault with their LDAP username and password.
Vault establishes a connection to LDAP and asks the LDAP server to verify the given credentials. Assuming this is successful, the LDAP server returns the information about the user, including the OU groups.
Vault maps the result from the LDAP server to policies inside Vault using the mapping configured by the security team in the previous section. Vault then generates a token and attaches the matching policies.
Vault returns the token to the user. This token has the correct policies assigned, as dictated by the mapping configuration that was setup by the security team in advance.
The user then uses this Vault token for future operations. If the user performs the authentication steps again, they will get a new token. The token will have the same permissions, but the actual token will be different. Authenticating a second time does not invalidate the original token.
Policy syntax
Policies are written in HCL or JSON and describe which paths in Vault a user or machine is allowed to access.
Here is a very simple policy which grants read capabilities to the KVv1 path
"secret/foo"
:
When this policy is assigned to a token, the token can read from "secret/foo"
.
However, the token cannot update or delete "secret/foo"
, since the
capabilities do not allow it. Because policies are deny by default, the
token would have no other access in Vault.
Here is a more detailed policy, and it is documented inline:
Policies use path-based matching to test the set of capabilities against a
request. A policy path
may specify an exact path to match, or it could specify
a glob pattern which instructs Vault to use a prefix match:
In addition, a +
can be used to denote any number of characters bounded
within a single path segment (this appeared in Vault 1.1):
Vault's architecture is similar to a filesystem. Every action in Vault has a
corresponding path and capability - even Vault's internal core configuration
endpoints live under the "sys/"
path. Policies define access to these paths and
capabilities, which controls a token's access to credentials in Vault.
Note: The policy rules that Vault applies are determined by the most-specific match available, using the priority rules described below. This may be an exact match or the longest-prefix match of a glob. If the same pattern appears in multiple policies, we take the union of the capabilities. If different patterns appear in the applicable policies, we take only the highest-priority match from those policies.
This means if you define a policy for "secret/foo*"
, the policy would
also match "secret/foobar"
. Specifically, when there are potentially multiple
matching policy paths, P1
and P2
, the following matching criteria is applied:
- If the first wildcard (
+
) or glob (*
) occurs earlier inP1
,P1
is lower priority - If
P1
ends in*
andP2
doesn't,P1
is lower priority - If
P1
has more+
(wildcard) segments,P1
is lower priority - If
P1
is shorter, it is lower priority - If
P1
is smaller lexicographically, it is lower priority
For example, given the two paths, "secret/*"
and "secret/+/+/foo/*"
, the first
wildcard appears in the same place, both end in *
and the latter has two wildcard
segments while the former has zero. So we end at rule (3), and give "secret/+/+/foo/*"
lower priority.
Informational:The glob character referred to in this documentation is the asterisk (*
).
It is not a regular expression and is only supported as the last character of the path!
When providing list
capability, it is important to note that since listing
always operates on a prefix, policies must operate on a prefix because Vault
will sanitize request paths to be prefixes.
Capabilities
Each path must define one or more capabilities which provide fine-grained control over permitted (or denied) operations. As shown in the examples above, capabilities are always specified as a list of strings, even if there is only one capability.
To determine the capabilities needed to perform a specific operation, the -output-policy
flag can be added to the CLI subcommand. For an example, refer to the Print Policy Requirements document section.
The list of capabilities include the following:
create
(POST/PUT
) - Allows creating data at the given path. Very few parts of Vault distinguish betweencreate
andupdate
, so most operations require bothcreate
andupdate
capabilities. Parts of Vault that provide such a distinction are noted in documentation.read
(GET
) - Allows reading the data at the given path.update
(POST/PUT
) - Allows changing the data at the given path. In most parts of Vault, this implicitly includes the ability to create the initial value at the path.patch
(PATCH
) - Allows partial updates to the data at a given path.delete
(DELETE
) - Allows deleting the data at the given path.list
(LIST
) - Allows listing values at the given path. Note that the keys returned by alist
operation are not filtered by policies. Do not encode sensitive information in key names. Not all backends support listing.
In the list above, the associated HTTP verbs are shown in parenthesis next to the capability. When authoring policy, it is usually helpful to look at the HTTP API documentation for the paths and HTTP verbs and map them back onto capabilities. While the mapping is not strictly 1:1, they are often very similarly matched.
In addition to the standard set, there are some capabilities that do not map to HTTP verbs.
sudo
- Allows access to paths that are root-protected. Tokens are not permitted to interact with these paths unless they have thesudo
capability (in addition to the other necessary capabilities for performing an operation against that path, such asread
ordelete
).For example, modifying the audit log backends requires a token with
sudo
privileges.deny
- Disallows access. This always takes precedence regardless of any other defined capabilities, includingsudo
.
Note: Capabilities usually map to the HTTP verb, and not the underlying
action taken. This can be a common source of confusion. Generating database
credentials creates database credentials, but the HTTP request is a GET which
corresponds to a read
capability. Thus, to grant access to generate database
credentials, the policy would grant read
access on the appropriate path.
Templated policies
The policy syntax allows for doing variable replacement in some policy strings
with values available to the token. Currently identity
information can be
injected, and currently the path
keys in policies allow injection.
Parameters
Name | Description |
---|---|
identity.entity.id | The entity's ID |
identity.entity.name | The entity's name |
identity.entity.metadata.<metadata key> | Metadata associated with the entity for the given key |
identity.entity.aliases.<mount accessor>.id | Entity alias ID for the given mount |
identity.entity.aliases.<mount accessor>.name | Entity alias name for the given mount |
identity.entity.aliases.<mount accessor>.metadata.<metadata key> | Metadata associated with the alias for the given mount and metadata key |
identity.entity.aliases.<mount accessor>.custom_metadata.<custom_metadata key> | Custom metadata associated with the alias for the given mount and custom metadata key |
identity.groups.ids.<group id>.name | The group name for the given group ID |
identity.groups.names.<group name>.id | The group ID for the given group name |
identity.groups.ids.<group id>.metadata.<metadata key> | Metadata associated with the group for the given key |
identity.groups.names.<group name>.metadata.<metadata key> | Metadata associated with the group for the given key |
Examples
The following policy creates a section of the KVv2 Secret Engine to a specific user
If you wanted to create a shared section of KV that is associated with entities that are in a group.
Note: When developing templated policies, use IDs wherever possible. Each ID is unique to the user, whereas names can change over time and can be reused. This ensures that if a given user or group name is changed, the policy will be mapped to the intended entity or group.
If you want to use the metadata associated with an authentication plugin in your
templates, you will need to get its mount accessor and access it via the
aliases
key.
You can get the mount accessor value using the following command:
The following templated policy allow to read the path associated with the Kubernetes service account namespace of the identity:
Fine-Grained control
In addition to the standard set of capabilities, Vault offers finer-grained control over permissions at a given path. The capabilities associated with a path take precedence over permissions on parameters.
Parameter constraints
Note: The allowed_parameters
, denied_parameters
, and required_parameters
fields are not supported for policies used with the version 2 kv secrets engine.
See the API Specification for more information.
Policies can take into account HTTP request parameters to further constrain requests, using the following options:
required_parameters
- A list of parameters that must be specified.allowed_parameters
- A list of keys and values that are permitted on the given path.Setting a parameter with a value of the empty list allows the parameter to contain any value.
Usage example: The ACL Policy Path Templating tutorial demonstrates the use of
allowed_parameters
to permit a user to update the user's password when using the userpass auth method to log in with Vault.Setting a parameter with a value of a populated list allows the parameter to contain only those values.
If any keys are specified, all non-specified parameters will be denied unless the parameter
"*"
is set to an empty array, which will allow all other parameters to be modified. Parameters with specific values will still be restricted to those values.It's important to note that the use of globbing may result in surprising or unexpected behavior.
denied_parameters
- Blacklists a list of parameter and values. Any values specified here take precedence overallowed_parameters
.Setting a parameter with a value of the empty list denies any changes to that parameter.
Setting a parameter with a value of a populated list denies any parameter containing those values.
Setting to
"*"
will deny any parameter.If any parameters are specified, all non-specified parameters are allowed, unless
allowed_parameters
is also set, in which case normal rules apply.
Parameter values also support prefix/suffix globbing. Globbing is enabled by
prepending or appending or prepending a splat (*
) to the value:
Note: the only value that can be used with the *
parameter is []
.
Required response wrapping TTLs
These parameters can be used to set minimums/maximums on TTLs set by clients
when requesting that a response be
wrapped, with a granularity of a
second. These can either be specified as a number of seconds or a string with a
s
, m
, or h
suffix indicating seconds, minutes, and hours respectively.
In practice, setting a minimum TTL of one second effectively makes response wrapping mandatory for a particular path.
min_wrapping_ttl
- The minimum allowed TTL that clients can specify for a wrapped response. In practice, setting a minimum TTL of one second effectively makes response wrapping mandatory for a particular path. It can also be used to ensure that the TTL is not too low, leading to end targets being unable to unwrap before the token expires.max_wrapping_ttl
- The maximum allowed TTL that clients can specify for a wrapped response.
If both are specified, the minimum value must be less than the maximum. In addition, if paths are merged from different stanzas, the lowest value specified for each is the value that will result, in line with the idea of keeping token lifetimes as short as possible.
Built-in policies
Vault has two built-in policies: default
and root
. This section describes
the two built-in policies.
Default policy
The default
policy is a built-in Vault policy that cannot be removed. By
default, it is attached to all tokens, but may be explicitly excluded at token
creation time by supporting authentication methods.
The policy contains basic functionality such as the ability for the token to
look up data about itself and to use its cubbyhole data. However, Vault is not
prescriptive about its contents. It can be modified to suit your needs; Vault
will never overwrite your modifications. If you want to stay up-to-date with
the latest upstream version of the default
policy, simply read the contents
of the policy from an up-to-date dev
server, and write those contents into
your Vault's default
policy.
To view all permissions granted by the default policy on your Vault installation, run:
To disable attachment of the default policy:
or via the API:
Root policy
The root
policy is a built-in Vault policy that cannot be modified or removed.
Any user associated with this policy becomes a root user. A root user can do
anything within Vault. As such, it is highly recommended that you revoke
any root tokens before running Vault in production.
When a Vault server is first initialized, there always exists one root user. This user is used to do the initial configuration and setup of Vault. After configured, the initial root token should be revoked and more strictly controlled users and authentication should be used.
To revoke a root token, run:
or via the API:
For more information, please read:
Managing policies
Policies are authored (written) in your editor of choice. They can be authored in HCL or JSON, and the syntax is described in detail above. Once saved, policies must be uploaded to Vault before they can be used.
Listing policies
To list all registered policies in Vault:
or via the API:
Note: You may also see the CLI command vault policies
. This is a convenience
wrapper around reading the sys endpoint directly. It provides the same
functionality but formats the output in a special manner.
Creating policies
Policies may be created (uploaded) via the CLI or via the API. To create a new policy in Vault:
or via the API:
In both examples, the name of the policy is "policy-name". You can think of this name as a pointer or symlink to the policy ACLs. Tokens are attached policies by name, which are then mapped to the set of rules corresponding to that name.
Updating policies
Existing policies may be updated to change permissions via the CLI or via the API. To update an existing policy in Vault, follow the same steps as creating a policy, but use an existing policy name:
or via the API:
Deleting policies
Existing policies may be deleted via the CLI or API. To delete a policy:
or via the API:
This is an idempotent operation. Vault will not return an error when deleting a policy that does not exist.
Associating policies
Vault can automatically associate a set of policies to a token based on an authorization. This configuration varies significantly between authentication backends. For simplicity, this example will use Vault's built-in userpass auth method.
A Vault administrator or someone from the security team would create the user in Vault with a list of associated policies:
This creates an authentication mapping to the policy such that, when the user authenticates successfully to Vault, they will be given a token which has the list of policies attached.
The user wishing to authenticate would run
If the provided information is correct, Vault will generate a token, assign the list of configured policies to the token, and return that token to the authenticated user.
Tokens
Tokens have two sets of policies: identity policies, which are computed based on the entity and its groups, and token policies, which are either defined based on the login method or, in the case of explicit token creates via the API, are an input to the token creation. What follows concerns token policies exclusively: a token's identity policies cannot be controlled except by modifying the underlying entities, groups, and group memberships.
Tokens are associated with their policies at creation time. For example:
Normally the only policies that may be specified are those which are present in the current token's (i.e. the new token's parent's) token policies. However, root users can assign any policies.
There is no way to modify the policies associated with a token once the token has been issued. The token must be revoked and a new one acquired to receive a new set of policies.
However, the contents of policies are parsed in real-time whenever the token is used. As a result, if a policy is modified, the modified rules will be in force the next time a token, with that policy attached, is used to make a call to Vault.
Tutorial
Refer to the following tutorials for further learning: