bitwarden-sdk-server

command module
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Published: Aug 27, 2024 License: Apache-2.0 Imports: 2 Imported by: 0

README

bitwarden-sdk-server

This repository contains a simple REST wrapper for the Bitwarden Rust SDK.

Purpose

The main purpose of this API is to accommodate the needs for External Secrets Operator to talk to Bitwarden Secrets Manager.

The API is slim and follows basic REST principles. The following endpoints are supported with sample requests:

GetSecret

/rest/api/1/secret

Method GET.

{
  "id": "f5847eef-2f89-43bc-885a-b18a01178e3e"
}

Response:

{
  "creationDate": "2024-04-04",
  "id": "f5847eef-2f89-43bc-885a-b18a01178e3e",
  "key": "test",
  "note": "note",
  "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
  "revisionDate": "2024-04-04",
  "value": "value"
}
GetSecretsByIds

/rest/api/1/secrets-by-ids

Method GET.

{
  "ids": [
    "f5847eef-2f89-43bc-885a-b18a01178e3e", "0cab75c4-ba26-4996-a8bf-517095857ce3"
  ]
}

Response:

{
  "data": [
    {
      "creationDate": "2024-04-04",
      "id": "f5847eef-2f89-43bc-885a-b18a01178e3e",
      "key": "test",
      "note": "note",
      "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
      "revisionDate": "2024-04-04",
      "value": "value"
    },
    {
      "creationDate": "2024-04-05",
      "id": "0cab75c4-ba26-4996-a8bf-517095857ce3",
      "key": "test2",
      "note": "note2",
      "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
      "revisionDate": "2024-04-05",
      "value": "value2"
    }
  ]
}
ListSecrets

/rest/api/1/secrets

Method GET.

{
  "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e"
}

Response:

{
  "data":[
    {
      "id": "1ba2f0c9-d73d-48bf-84a5-290ce5012258",
      "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
      "key": "this-is-the-name"
    }
  ]
}
UpdateSecret

rest/api/1/secret

Method PUT.

{
  "id": "1ba2f0c9-d73d-48bf-84a5-290ce5012258",
  "key": "name",
  "note": "new-note",
  "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
  "value": "new-value"
}

Response:

{
  "creationDate": "2024-04-04",
  "id": "1ba2f0c9-d73d-48bf-84a5-290ce5012258",
  "key": "test",
  "note": "note",
  "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
  "revisionDate": "2024-04-04",
  "value": "value"
}
CreateSecret

rest/api/1/secret

Method POST.

{
  "key": "name",
  "note": "note",
  "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
  "value": "value"
}

Response:

{
  "creationDate": "2024-04-04",
  "id": "f5847eef-2f89-43bc-885a-b18a01178e3e",
  "key": "name",
  "note": "note",
  "organizationId": "f5847eef-2f89-43bc-885a-b18a01178e3e",
  "revisionDate": "2024-04-04",
  "value": "value"
}

Authentication

The router is using a middleware called Warden that will create an authenticated client for all the requests. This client is created through the use of Headers. The following headers can be provided for each call:

Warden-Access-Token: <token> // mandatory
Warden-State-Path: <state-path>
Warden-Api-Url: <url>
Warden-Identity-Url: <url>

A sample call could look something like this:

curl --insecure -d '{"key": "test2", "value": "secret","note": "shit", "organizationId": "ac2b00ac-2ef7-4d86-8cbd-b18a011760cb", "projectIds":[
"f5847eef-2f89-43bc-885a-b18a01178e3e"]}' https://chart-bitwarden-sdk-server.default.svc.cluster.local:9998/rest/api/1/secret --header 'Warden-Acce
ss-Token:<token>' -X POST

Install

The server is a dependency to external-secrets' helm chart, therefor it can be installed together with ESO like this:

helm install external-secrets \
   external-secrets/external-secrets \
    -n external-secrets \
    --create-namespace \
    --set bitwarden-sdk-server.enabled=true

Or, it can also be installed in a standalone way using helm from this repository.

The server MUST run using HTTPS. A recommended way to generate a certificate is to use cert-manager. The certificate can be defined in a Kubernetes secret called bitwarden-tls-certs. This can be overwritten in the helm chart values file.

The certificate will then be required when using external-secrets' Bitwarden provider.

Certificates

There are many ways to generate secrets for an HTTP server. One of which could be through cert-manager.

That process can be found under the hack folder. But using an existing certificate is also possible through helm values. These are mounted inside the container and used further by the client with keys defined by the following command line arguments:

	flag.StringVar(&rootArgs.server.KeyFile, "key-file", "/certs/key.pem", "--key-file /certs/key.pem")
	flag.StringVar(&rootArgs.server.CertFile, "cert-file", "/certs/cert.pem", "--cert-file /certs/cert.pem")

The certificate mount target and values are defined under image section in the values file as such:

image:
  repository: ghcr.io/external-secrets/bitwarden-sdk-server
  pullPolicy: IfNotPresent
  # Overrides the image tag whose default is the chart appVersion.
  tag: ""
  tls:
    enabled: true
    volumeMounts:
      - mountPath: "/certs"
        name: "bitwarden-tls-certs"
    volumes:
      - name: "bitwarden-tls-certs"
        secret:
          secretName: "bitwarden-tls-certs"
          items:
            - key: "tls.crt"
              path: "cert.pem"
            - key: "tls.key"
              path: "key.pem"
            - key: "ca.crt"
              path: "ca.pem"

To use cert-manager the hack folder sets up the following certificate issuer:

apiVersion: cert-manager.io/v1
kind: ClusterIssuer
metadata:
  name: bitwarden-bootstrap-issuer
spec:
  selfSigned: {}
---
apiVersion: cert-manager.io/v1
kind: Certificate
metadata:
  name: bitwarden-bootstrap-certificate
  namespace: cert-manager
spec:
  # this is discouraged but required by ios
  commonName: cert-manager-bitwarden-tls
  isCA: true
  secretName: bitwarden-tls-certs
  subject:
    organizations:
      - external-secrets.io
  dnsNames:
    - external-secrets-bitwarden-sdk-server.default.svc.cluster.local
    - bitwarden-sdk-server.default.svc.cluster.local
    - localhost
  ipAddresses:
    - 127.0.0.1
    - ::1
  privateKey:
    algorithm: RSA
    encoding: PKCS8
    size: 2048
  issuerRef:
    name: bitwarden-bootstrap-issuer
    kind: ClusterIssuer
    group: cert-manager.io
---
apiVersion: cert-manager.io/v1
kind: ClusterIssuer
metadata:
  name: bitwarden-certificate-issuer
spec:
  ca:
    secretName: bitwarden-tls-certs

The important bits are the dnsNames. The first one is with the external-secrets helm release name, and the second one is a plain install. But also, external-secrets pins the release name of bitwarden, so that should work too. This will create a self-signed certificate for us to use internally. This certificate will later be provided to external-secrets so it can talk to the service.

Next, we create a Certificate for bitwarden with the following request:

apiVersion: cert-manager.io/v1
kind: Certificate
metadata:
  name: bitwarden-tls-certs
  namespace: default
spec:
  secretName: bitwarden-tls-certs
  dnsNames:
    - bitwarden-sdk-server.default.svc.cluster.local
    - external-secrets-bitwarden-sdk-server.default.svc.cluster.local
    - localhost
  ipAddresses:
    - 127.0.0.1
    - ::1
  privateKey:
    algorithm: RSA
    encoding: PKCS8
    size: 2048
  issuerRef:
    name: bitwarden-certificate-issuer
    kind: ClusterIssuer
    group: cert-manager.io

This is provided to bitwarden to initialize an HTTPS server.

External-secrets

On external-secrets side, there are two options to provide the certificate.

One is through caBundle which accepts the plain root certificate as a base64 encoded value.

Second is through caProvider that uses either a secret or a configmap and looks for the right key.

WARNING: DO NOT provide the same secret as the server. For more detail read cert-manager Trust Post.

Insecure

For testing purposes, or if you trust your network that much, an --insecure flag has been provided that runs this server as plain HTTP.

Testing

Run make prime-test-cluster to launch a cluster and generate a certificate for the service. One done, simply run tilt to create the service. Note OSX users must install https://github.com/FiloSottile/homebrew-musl-cross in order to build the CGO library.

External-secrets documentation

Usage on the external-secrets side is documented under Bitwarden Secrets Manager Provider.

License

FOSSA Status

Documentation

The Go Gopher

There is no documentation for this package.

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