Vault Proxy caching overview
Vault Proxy caching allows client-side caching of responses containing newly
created tokens and responses containing leased secrets generated off of these
newly created tokens. The renewals of the cached tokens and leases are also
managed by the proxy. Additionally, with cache_static_secrets
set to true
,
Vault Proxy can be configured to cache KVv1 and KVv2 secrets.
Caching and renewals
Response caching and renewals for dynamic secrets are managed by Proxy only under these specific scenarios.
Token creation requests are made through the proxy. This means that any login operations performed using various auth methods and invoking the token creation endpoints of the token auth method via the proxy will result in the response getting cached by the proxy. Responses containing new tokens will be cached by the proxy only if the parent token is already being managed by the proxy or if the new token is an orphan token.
Leased secret creation requests are made through the proxy using tokens that are already managed by the proxy. This means that any dynamic credentials that are issued using the tokens managed by the proxy, will be cached and its renewals are taken care of.
Static secret caching
You can configure Vault Proxy to cache dynamic secrets and static (KVv1 and KVv2) secrets. When you enable caching for static secrets. Proxy keeps a cached entry of the secret but only provides the cached response to requests made with tokens that can access the secret. As a result, multiple requests to Vault Proxy for the same KV secret only require a single, initial request to be forwarded to Vault.
Static secret caching is disabled by default. To enable caching for static secrets you must configure auto-auth and ensure the auto-auth token has permission to subscribe to KV event updates.
Once configured, Proxy uses the auto-auth token to subscribe to KV events, and monitors the subscription feed to know when to update the secrets in its cache.
For more information on static secret caching, refer to the Vault Proxy static secret caching overview.
Persistent cache
Vault Proxy can restore secrets, such as, tokens, leases, and static secrets, from a persistent cache file created by a previous Vault Proxy process.
Refer to the Vault Proxy Persistent Caching page for more information on this functionality.
Cache evictions
The eviction of cache entries pertaining to dynamic secrets will occur when the proxy can no longer renew them. This can happen when the secrets hit their maximum TTL or if the renewals result in errors.
Vault Proxy does some best-effort cache evictions by observing specific request types and response codes. For example, if a token revocation request is made via the proxy and if the forwarded request to the Vault server succeeds, then proxy evicts all the cache entries associated with the revoked token. Similarly, any lease revocation operation will also be intercepted by the proxy and the respective cache entries will be evicted.
Note that while proxy evicts the cache entries upon secret expirations and upon
intercepting revocation requests, it is still possible for the proxy to be
completely unaware of the revocations that happen through direct client
interactions with the Vault server. This could potentially lead to stale cache
entries. For managing the stale entries in the cache, an endpoint
/proxy/v1/cache-clear
(see below) is made available to manually evict cache
entries based on some of the query criteria used for indexing the cache entries.
Request uniqueness
In order to detect repeat requests and return cached responses, Proxy needs to have a way to uniquely identify the requests. This computation as it stands today takes a simplistic approach (may change in future) of serializing and hashing the HTTP request along with all the headers and the request body. This hash value is then used as an index into the cache to check if the response is readily available. The consequence of this approach is that the hash value for any request will differ if any data in the request is modified. This has the side-effect of resulting in false negatives if say, the ordering of the request parameters are modified. As long as the requests come in without any change, caching behavior should be consistent. Identical requests with differently ordered request values will result in duplicated cache entries. A heuristic assumption that the clients will use consistent mechanisms to make requests, thereby resulting in consistent hash values per request is the idea upon which the caching functionality is built upon.
Renewal management
The tokens and leases are renewed by the proxy using the secret renewer that is made available via the Vault server's Go API. Proxy performs all operations in memory and does not persist anything to storage. This means that when the proxy is shut down, all the renewal operations are immediately terminated and there is no way for the proxy to resume renewals after the fact. Note that shutting down the proxy does not indicate revocations of the secrets, instead it only means that renewal responsibility for all the valid unrevoked secrets are no longer performed by the Vault proxy.
API
Cache clear
This endpoint clears the cache based on given criteria. To use this
API, some information on how the proxy caches values should be known
beforehand. Each response that is cached in the proxy will be indexed on some
factors depending on the type of request. Those factors can be the token
that
is belonging to the cached response, the token_accessor
of the token
belonging to the cached response, the request_path
that resulted in the
cached response, the lease
that is attached to the cached response, the
namespace
to which the cached response belongs to, and a few more. This API
exposes some factors through which associated cache entries are fetched and
evicted. For listeners without caching enabled, this API will still be available,
but will do nothing (there is no cache to clear) and will return a 200
response.
Method | Path | Produces |
---|---|---|
POST | /proxy/v1/cache-clear | 200 application/json |
Parameters
type
(strings: required)
- The type of cache entries to evict. Valid values arerequest_path
,lease
,token
,token_accessor
, andall
. If thetype
is set toall
, the entire cache is cleared.value
(string: required)
- An exact value or the prefix of the value for thetype
selected. This parameter is optional when thetype
is set toall
.namespace
(string: optional)
- This is only applicable when thetype
is set torequest_path
. The namespace of which the cache entries to be evicted for the given request path.
Sample payload
Sample request
Configuration (cache
)
The presence of the top level cache
block in any way (including an empty cache
block) will enable the cache.
Note that either cache_static_secrets
must be true
and/or disable_caching_dynamic_secrets
must
be false
, otherwise the cache does nothing. The top level cache
block has the following configuration entries:
persist
(object: optional)
- Configuration for the persistent cache.cache_static_secrets
(bool: false)
- Enables static secret caching whentrue
.disable_caching_dynamic_secrets
(bool: false)
- Disables dynamic secret caching whentrue
.
Note: When the cache
block is defined, a listener must also be defined
in the config, otherwise there is no way to utilize the cache.
Configuration (Persist)
These are common configuration values that live within the persist
block:
type
(string: required)
- The type of the persistent cache to use, e.g.kubernetes
. Note: when using HCL this can be used as the key for the block, e.g.persist "kubernetes" {...}
. Currently, onlykubernetes
is supported.path
(string: required)
- The path on disk where the persistent cache file should be created or restored from.keep_after_import
(bool: optional)
- When set to true, a restored cache file is not deleted. Defaults tofalse
.exit_on_err
(bool: optional)
- When set to true, if any errors occur during a persistent cache restore, Vault Proxy will exit with an error. Defaults totrue
.service_account_token_file
(string: optional)
- Whentype
is set tokubernetes
, this configures the path on disk where the Kubernetes service account token can be found. Defaults to/var/run/secrets/kubernetes.io/serviceaccount/token
.
Configuration (listener
)
listener
(array of objects: required)
- Configuration for the listeners.
There can be one or more listener
blocks at the top level. Adding a listener enables
the API Proxy and enables the API proxy to use the cache, if configured.
These configuration values are common to both tcp
and unix
listener blocks. Blocks of type
tcp
support the standard tcp
listener
options. Additionally, the role
string option is available as part of the top level
of the listener
block, which can be configured to metrics_only
to serve only metrics,
or the default role, default
, which serves everything (including metrics).
type
(string: required)
- The type of the listener to use. Valid values aretcp
andunix
. Note: when using HCL this can be used as the key for the block, e.g.listener "tcp" {...}
.address
(string: required)
- The address for the listener to listen to. This can either be a URL path when usingtcp
or a file path when usingunix
. For example,127.0.0.1:8200
or/path/to/socket
. Defaults to127.0.0.1:8200
.tls_disable
(bool: false)
- Specifies if TLS will be disabled.tls_key_file
(string: optional)
- Specifies the path to the private key for the certificate.tls_cert_file
(string: optional)
- Specifies the path to the certificate for TLS.
Example configuration
Here is an example of a cache configuration with the optional persist
block,
alongside a regular listener, and a listener that only serves metrics.