Vault lambda extension
AWS Lambda lets you run code without provisioning and managing servers. The Vault Lambda Extension utilizes the AWS Lambda Extensions API to help your Lambda function read secrets from your Vault deployment. You can use the quick-start directory which has an end-to-end example if you would like to try out the extension from scratch.
Note: If you decide to create one from scratch, be aware that this will create real infrastructure with an associated cost as per AWS' pricing.
Usage
To use the extension, include one of the following ARNs as a layer in your Lambda function, depending on your desired architecture.
amd64 (x86_64):
arm64:
Where region may be any of af-south-1
, ap-east-1
, ap-northeast-1
,
ap-northeast-2
, ap-northeast-3
, ap-south-1
, ap-south-2
, ap-southeast-1
,
ap-southeast-2
, ca-central-1
, eu-central-1
, eu-north-1
, eu-south-1
,
eu-west-1
, eu-west-2
, eu-west-3
, me-south-1
, sa-east-1
, us-east-1
,
us-east-2
, us-west-1
, us-west-2
.
The extension authenticates with Vault using AWS IAM auth, and all configuration is supplied via environment variables. There are two methods to read secrets, which can both be used side-by-side:
- Recommended: Make unauthenticated requests to the extension's local proxy
server at
http://127.0.0.1:8200
, which will add an authentication header and proxy to the configuredVAULT_ADDR
. Responses from Vault are returned without modification. - Configure environment variables such as
VAULT_SECRET_PATH
for the extension to read a secret and write it to disk.
Adding the extension to your existing lambda and Vault infrastructure
Requirements
- ARN of the role your Lambda runs as
- An instance of Vault accessible from AWS Lambda
- An authenticated
vault
client - A secret in Vault that you want your Lambda to access, and a policy giving read access to it
- Your Lambda function must use one of the supported runtimes for extensions
Step 1. configure Vault
Enable the aws auth method.
Configure the AWS client to use the default options.
Create a role prefixed with the AWS environment name.
Step 2. option a) install the extension for lambda functions packaged in zip archives
If you deploy your Lambda function as a zip file, you can add the extension to your Lambda layers using the console or cli:
Step 2. option b) install the extension for lambda functions packaged in container images
Alternatively, if you deploy your Lambda function as a container image, simply
place the built binary in the /opt/extensions
directory of your image.
Fetch the binary from releases.hashicorp.com. The following command requires cURL.
Unzip the downloaded binary.
Optionally, you can verify the integrity of the downloaded zip using the release archive checksum verification instructions here.
Or to build the binary from source. This requires Golang installed. Run from the root of this repository.
Step 3. configure vault-lambda-extension
Configure the extension using Lambda environment variables:
Set the Vault API address.
Set the AWS IAM auth mount point (i.e. the path segment after auth/
from above).
Set the Vault role to authenticate as. Must be configured for the ARN of your Lambda's role.
The path to a secret in Vault. Can be static or dynamic. Unless
VAULT_SECRET_FILE is specified, JSON response will be written to
/tmp/vault/secret.json
.
If everything is correctly set up, your Lambda function can then read secret
material from /tmp/vault/secret.json
. The exact contents of the JSON object
will depend on the secret read, but its schema is the Secret struct
from the Vault API module.
Alternatively, you can send normal Vault API requests over HTTP to the local
proxy at http://127.0.0.1:8200
, and the extension will add authentication
before forwarding the request. Vault responses will be returned unmodified.
Although local communication is over plain HTTP, the proxy server will use TLS
to communicate with Vault if configured to do so as detailed below.
Configuration
The extension is configured via Lambda environment variables. Most of the Vault CLI client's environment variables are available, as well as some additional variables to configure auth, which secret(s) to read and where to write secrets.
Environment variable | Description | Required | Example value |
---|---|---|---|
VLE_VAULT_ADDR | Vault address to connect to. Takes precedence over VAULT_ADDR so that clients of the proxy server can be configured using the standard VAULT_ADDR | No | https://x.x.x.x:8200 |
VAULT_ADDR | Vault address to connect to if VLE_VAULT_ADDR is not set. Required if VLE_VAULT_ADDR is not set | No | https://x.x.x.x:8200 |
VAULT_AUTH_PROVIDER | Name of the configured AWS IAM auth route on Vault | Yes | aws |
VAULT_AUTH_ROLE | Vault role to authenticate as | Yes | lambda-app |
VAULT_IAM_SERVER_ID | Value to pass to the Vault server via the X-Vault-AWS-IAM-Server-ID HTTP Header for AWS Authentication | No | vault.example.com |
VAULT_SECRET_PATH | Secret path to read, written to /tmp/vault/secret.json unless VAULT_SECRET_FILE is specified | No | database/creds/lambda-app |
VAULT_SECRET_FILE | Path to write the JSON response for VAULT_SECRET_PATH | No | /tmp/db.json |
VAULT_SECRET_PATH_FOO | Additional secret path to read, where FOO can be any name, as long as a matching VAULT_SECRET_FILE_FOO is specified | No | secret/lambda-app/token |
VAULT_SECRET_FILE_FOO | Must exist for any correspondingly named VAULT_SECRET_PATH_FOO . Name has no further effect beyond matching to the correct path variable | No | /tmp/token |
VAULT_RUN_MODE | Available options are default , proxy , and file . Proxy mode makes requests to the extension's local proxy server. File mode configures the extension to read and write secrets to disk. Default mode uses both file and proxy mode. The default is default . | No | default |
VAULT_TOKEN_EXPIRY_GRACE_PERIOD | Period at the end of the proxy server's auth token TTL where it will consider the token expired and attempt to re-authenticate to Vault. Must have a unit and be parseable by time.Duration . Defaults to 10s. | No | 1m |
VAULT_STS_ENDPOINT_REGION | The region of the STS regional endpoint to authenticate with. If the AWS IAM auth mount specified uses a regional STS endpoint, then this needs to match the region of that endpoint. Defaults to using the global endpoint, or the region the Lambda resides in if AWS_STS_REGIONAL_ENDPOINTS is set to regional | No | eu-west-1 |
The remaining environment variables are not required, and function exactly as
described in the Vault Commands (CLI) documentation. However,
note that VAULT_CLIENT_TIMEOUT
cannot extend the timeout beyond the 10s
initialization timeout imposed by the Extensions API when writing files to disk.
Environment variable | Description | Required | Example value |
---|---|---|---|
VAULT_CACERT | Path to a PEM-encoded CA certificate file on the local disk | No | /tmp/ca.crt |
VAULT_CAPATH | Path to a directory of PEM-encoded CA certificate files on the local disk | No | /tmp/certs |
VAULT_CLIENT_CERT | Path to a PEM-encoded client certificate on the local disk | No | /tmp/client.crt |
VAULT_CLIENT_KEY | Path to an unencrypted, PEM-encoded private key on disk which corresponds to the matching client certificate | No | /tmp/client.key |
VAULT_CLIENT_TIMEOUT | Timeout for Vault requests. Default value is 60s. Ignored by proxy server. Any value over 10s will exceed the Extensions API timeout and therefore have no effect | No | 5s |
VAULT_MAX_RETRIES | Maximum number of retries on 5xx error codes. Defaults to 2. Ignored by proxy server | No | 2 |
VAULT_SKIP_VERIFY | Do not verify Vault's presented certificate before communicating with it. Setting this variable is not recommended and voids Vault's security model | No | true |
VAULT_TLS_SERVER_NAME | Name to use as the SNI host when connecting via TLS | No | vault.example.com |
VAULT_RATE_LIMIT | Only applies to a single invocation of the extension. See Vault Commands (CLI) documentation for details. Ignored by proxy server | No | 10 |
VAULT_NAMESPACE | The namespace to use for pre-configured secrets. Ignored by proxy server | No | education |
VAULT_DEFAULT_CACHE_TTL | The time to live configuration (aka, TTL) of the cache used by proxy server. Must have a unit and be parsable as a time.Duration. Required for caching to be enabled. | No | 15m |
VAULT_DEFAULT_CACHE_ENABLED | Enable caching for all requests, without needing to set the X-Vault-Cache-Control header for each request. Must be set to a boolean value. | No | true |
VAULT_ASSUMED_ROLE_ARN | Valid ARN of an IAM role that can be assumed by the execution role assigned to your Lambda function. | No | arn:aws:iam::123456789012:role/xaccounts3access |
VAULT_LOG_LEVEL | Log verbosity level, one of TRACE, DEBUG, INFO, WARN, ERROR, OFF. Defaults to INFO. | No | DEBUG |
AWS STS client configuration
In addition to Vault configuration, you can configure certain aspects of the STS client the extension uses through the usual AWS environment variables. For example, if your Vault instance's IAM auth is configured to use regional STS endpoints:
Then you may need to configure the extension's STS client to also use the regional
STS endpoint by setting AWS_STS_REGIONAL_ENDPOINTS=regional
, because both the AWS Golang
SDK and Vault IAM auth method default to using the global endpoint in many regions.
See documentation on sts_regional_endpoints
for more information.
Caching
Caching can be configured for the extension's local proxy server so that it does
not forward every HTTP request to Vault. The main consideration behind caching
design is to make caching an explicit opt-in at the request level, so that it is
only enabled for scenarios where caching makes sense without negative impact in
others. To turn on caching, set the environment variable
VAULT_DEFAULT_CACHE_TTL
to a valid value that is parsable as a time.Duration
in Go, for example, "15m", "1h", "2m3s" or "1h2m3s", depending on application
needs. An invalid or negative value will be treated the same as a missing value,
in which case, caching will not be set up and enabled.
Then requests with HTTP method of "GET", and the HTTP header
X-Vault-Cache-Control: cache
will be returned directly from the cache if
there's a cache hit. On a cache miss the request will be forwarded to Vault and
the response returned and cached. If the header is set to
X-Vault-Cache-Control: recache
, the cache lookup will be skipped, and the
request will be forwarded to Vault and the response returned and cached.
Currently, the cache key is a hash of the request URL path, headers, body, and
token.
Caching may also be enabled for all requests by setting the environment variable
VAULT_DEFAULT_CACHE_ENABLED
to true
. Then all requests will be fetched and/or
cached as though the header X-Vault-Cache-Control: cache
was present. Setting
the header to nocache
on a request will opt-out of caching entirely in this
configuration. Setting the header to recache
will skip the cache lookup and
return and cache the response from Vault as described previously.
Warning! The Vault Lambda Extension's cache is only in-memory and will not be persisted when the Lambda execution environment shuts down. In order words, the cache TTL is capped to the duration of the Lambda execution environment.
Limitations
Secrets written to disk or returned from the proxy server will not be automatically refreshed when they expire. This is particularly important if you configure the extension to write secrets to disk, because the extension will only write to disk once per execution environment, rather than once per function invocation. If you use provisioned concurrency or if your Lambda is invoked often enough that execution contexts live beyond the lifetime of the secret, then secrets on disk are likely to become invalid.
In line with Lambda best practices, we recommend avoiding writing secrets to disk where possible, and exclusively consuming secrets via the proxy server. However, the proxy server will still not perform any additional processing with returned secrets such as automatic lease renewal. The proxy server's own Vault auth token is the only thing that gets automatically refreshed. It will synchronously refresh its own token before proxying requests if the token is expired (including a grace window), and it will attempt to renew its token if the token is nearly expired but renewable.
Performance impact
AWS Lambda pricing is based on number of invocations, time of execution and memory used. The following table details some approximate performance related statistics to help assess the cost impact of this extension. Note that AWS Lambda allocates CPU power in proportion to memory so results will vary widely. These benchmarks were run with the minimum 128MB of memory allocated so aim to give an approximate baseline.
Metric | Value | Description | Derivation |
---|---|---|---|
Layer size | 8.5MB | The size of the unpacked extension binary | ls -la |
Init latency | 8.5ms (standard deviation 2.4ms) + one network round trip to authenticate to Vault | Extension initialization time in a new execution environment. Authentication round trip time will be highly deployment-dependent | Instrumented in code |
Invoke latency | <1ms | The base processing time for each function invocation, assuming no calls to the proxy server | Instrumented in code |
Memory impact | 12MB | The marginal impact on "Max Memory Used" when running the extension | As reported by Lambda when running Hello World function with and without extension |
Uploading to your own AWS account and region
If you would like to upload the extension as a Lambda layer in your own AWS account and region, you can do the following:
Set your target AWS region.
Upload the extension as a Lambda layer.
Tutorial
For step-by-step instructions, refer to the Vault AWS Lambda Extension tutorial for details on how to create an AWS Lambda function and use the Vault Lambda Extension to authenticate with Vault.