pkictl
pkictl is a CLI tool for declaratively configuring and provisioning PKI secrets in HashiCorp Vault. Root and Intermediate Certificate Authorities (CAs) along with their associated roles and policies can be defined and created from a YAML file. It simplifies automating the provisioning of an internal PKI using Vault and strives to achieve idempotency.
pkictl is inspired by kubectl.
How It Works
pkictl uses the Vault HTTP API to mount PKI secrets engines for Root and Intermediate CAs. Intermediate CAs can be signed by a Root CA or other Intermediate CAs. Roles and Policies can be defined in the YAML file for Intermediate CAs.
The Key/Value secrets engine is also used to store the private keys of Intermediate CAs that are configured for export (ie. spec.type: exported).
Installation
pkictl can be installed via pip:
$ pip install pkictl
Compatibility
pkictl has been tested against versions 0.10.X, 0.11.X, and 1.0.X of Vault.
Usage
$ pkictl --help
declaratively configure PKI secrets in Hashicorp Vault
optional arguments:
-h, --help show this help message and exit
-d, --debug enable debug output
-v, --version show program's version number and exit
subcommands:
init Initializes the Hashicorp Vault server
apply Creates PKI secrets from a YAML file
Prerequisites
If you're unfamiliar with Vault's PKI secrets, read this guide: Build Your Own Certificate Authority (CA)
pkictl requires an unsealed Hashicorp Vault server and an authentication token with privileges to:
- mount PKI and KV secrets engines
- read and write PKI secrets
- write KV secrets
Initializing the Vault server
Initialize a new Vault server and unseal it:
$ pkictl init -u https://localhost:8200
The Vault server will be initialized with 5 key shares and a key threshold of 3.
- the root token is saved in
.vault-token - the master keys shares are saved in
vault.log
Initializing and unsealing the Vault server this way is only provided as a convenience for development/testing and is highly discouraged.
Declaratively provisioning PKI secrets
A YAML manifest file is used to define Root and Intermediate CAs, Key/Value engines, roles and policies.
Create a manifest file:
---
kind: RootCA
metadata:
name: demo-root-ca
description: pkictl demo Root CA
spec:
key_type: ec
key_bits: 384
ttl: 17532h
exclude_cn_from_sans: true
subject:
common_name: Demo Root CA
organization: pkictl
ou: README Demo
country: US
locality: San Francisco
province: California
---
kind: IntermediateCA
metadata:
name: demo-intermediate-ca
description: pkictl demo Intermediate CA
issuer: demo-root-ca
kv_backend: demo-kv-engine
spec:
type: exported
key_type: rsa
key_bits: 4096
ttl: 8766h
subject:
common_name: Demo Intermediate CA
organization: pkictl
ou: README Demo
country: US
locality: San Francisco
province: California
roles:
- name: server
config:
max_ttl: 8766h
ttl: 8766h
allow_subdomains: true
allowed_domains:
- demo.pkictl.com
client_flag: false
server_flag: true
- name: client
config:
max_ttl: 336h
ttl: 336h
allow_any_name: true
client_flag: true
server_flag: false
policies:
- name: demo-intermediate-ca-pkey
policy: |
path "demo-kv-engine" {
capabilities = ["list"]
}
path "demo-kv-engine/demo-intermediate-ca" {
capabilities = ["read"]
}
- name: demo-intermediate-ca-server
policy: |
path "demo-intermediate-ca/issue/server" {
capabilities = ["read", "update"]
}
path "demo-intermediate-ca/sign/server" {
capabilities = ["read", "update"]
}
- name: demo-intermediate-ca-client
policy: |
path "demo-intermediate-ca/issue/client" {
capabilities = ["read", "update"]
}
path "demo-intermediate-ca/sign/client" {
capabilities = ["read", "update"]
}
---
kind: KV
metadata:
name: demo-kv-engine
description: pkictl demo KV v1 engine
spec:
options:
version: 1
The above example will create:
- an ECDSA-based Root CA with a TTL of 2 years
- a RSA-based Intermediate CA with a TTL of 1 year signed by the Root CA
- a Role named
serverpermitting the Intermediate CA to issue or sign TLS server certificates for any subdomains on demo.pkictl.com - a Role named
clientpermitting the Intermediate CA to issue or sign TLS client certificates - a Policy mapped to the
serverrole - a Policy mapped to the
clientrole - a Key/Value engine to store the exported private key of the Intermediate CA
- a Policy permitting retrieval of the exported private key from the KV engine
Create PKI secrets from the YAML manifest file:
$ pkictl apply -u https://localhost:8200 -f manifest.yaml
[*] pkictl - the Vault server has been initialized and is not sealed
[*] pkictl - Enabled KV backend: demo-kv-engine
[*] pkictl - Enabled PKI backend: demo-root-ca
[*] pkictl - Generated Root CA: demo-root-ca
[*] pkictl - Enabled PKI backend: demo-intermediate-ca
[*] pkictl - Created intermediate CA: demo-intermediate-ca
[*] pkictl - Signed intermediate CA 'demo-intermediate-ca' with issuing CA: demo-root-ca
[*] pkictl - Set signed certificate for intermediate CA: demo-intermediate-ca
[*] pkictl - Configured URLs for CA: demo-intermediate-ca
[*] pkictl - Set CRL configuration for CA: demo-intermediate-ca
[*] pkictl - Stored private key for 'demo-intermediate-ca' in KV backend: demo-kv-engine
[*] pkictl - Configured role 'server' for intermediate CA: demo-intermediate-ca
[*] pkictl - Configured role 'client' for intermediate CA: demo-intermediate-ca
[*] pkictl - Configured policy 'demo-intermediate-ca-pkey' for intermediate CA: demo-intermediate-ca
[*] pkictl - Configured policy 'demo-intermediate-ca-server' for intermediate CA: demo-intermediate-ca
[*] pkictl - Configured policy 'demo-intermediate-ca-client' for intermediate CA: demo-intermediate-ca
Obtain a Vault token attached to the demo-intermediate-ca-server Policy:
$ VAULT_TOKEN=$(vault token create -policy=demo-intermediate-ca-client -ttl=1h -format json | jq -r .auth.client_token)
Use this token to obtain a TLS server certificate and private key for web.demo.pkictl.com from the Intermediate CA:
$ vault write demo-intermediate-ca/issue/server common_name=web.demo.pkictl.com ttl=2160h
Alternatively, you can generate a certificate signing request (CSR) and private key locally and have the CSR signed by the Intermediate CA:
$ openssl req -batch -nodes -sha256 -new -newkey rsa:2048 \
-keyout web.demo.pkictl.com.key -out web.demo.pkictl.com.csr -subj '/CN=web.demo.pkictl.com/'
$ vault write demo-intermediate-ca/sign/server csr=@web.demo.pkictl.com.csr ttl=2160h
Vault will return the signed TLS server certificate along with the full chain (the certificates for the Root and Intermediate CA).
Obtain a Vault token attached to the demo-intermediate-ca-client Policy:
$ VAULT_TOKEN=$(vault token create -policy=demo-intermediate-ca-client -ttl=1h -format json | jq -r .auth.client_token)
Use this token to obtain a TLS client certificate and private key from the Intermediate CA:
$ vault write demo-intermediate-ca/issue/client common_name="example@demo.pkictl.com" ttl=24h
Since spec.type: exported, the private key of this CA has been saved in the KV engine demo-kv-engine. A Vault token attached to the demo-intermediate-ca-pkey Policy is required to retrieve it:
$ VAULT_TOKEN=$(vault token create -policy=demo-intermediate-ca-pkey -ttl=1m -format json | jq -r .auth.client_token)
$ vault kv get -version=1 demo-kv-engine/demo-intermediate-ca
Documentation
For documentation and additional examples, see the docs directory.
Testing
nose2 is used for testing. Tests are located in pkictl/tests.
To run the unit tests:
$ make test
End to end tests requires Vault running locally. To build and run the Vault container:
$ make build-vault-container
$ make run-vault-container
Run the end-to-end tests:
$ make e2e-test
