cce32b5d16
In addition: moved decrypt-secret to type level to avoid duplication updated documentation Change-Id: I33511ce2db27304e18720ffba5342419a986929a
426 lines
25 KiB
Markdown
426 lines
25 KiB
Markdown
# Secrets generation and encryption how-to-guide
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## Overview of the current approach selected for secrets generation and encryption
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Airshipctl consumes site manifests in order to deploy k8s cluster or update its configuration. All manifests must be stored in the SCM system: e.g. git. For security reasons this data can’t be stored in plain-text form. There are several tools that may help to handle the complexity of dealing with encrypted manifests. One of them is [Mozilla SOPS](https://github.com/mozilla/sops), which was selected to encrypt/decrypt Airshipctl manifests.
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Airshipctl has a standard approach with introduction of VariableCatalogues as a configuration source and kustomize Replacement plugin which must be used to put the values to different yaml documents. Different secrets such as passwords, keys and certificates must be presented in VariableCatalogues as well. Some of them can be ‘externally provided’ - e.g. ldap credentials are typically created in some external system, e.g. Active Directory and k8s cluster just has to use them. Other secrets may be ‘internally generated’ - e.g. several Openstack-helm charts may want the same Keystone password and if not a single external system doesn’t need that password it can be generated by Airshipctl.
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This document is dedicated to the explanation of the technical details on how it’s currently done in Airshipctl and its manifests.
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## SOPS krm-function overview
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Airshipctl uses kustomize along with different krm-functions that extend its functionality:
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Replacement krm-function that is needed to avoid duplication of data in documents
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Templater krm-function that is needed to produce new yaml documents based on the provided parameters.
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There is a standard catalog of [krm-functions](https://github.com/GoogleContainerTools/kpt-functions-catalog).
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It includes the standard krm-function: `gcr.io/kpt-fn-contrib/sops` that can be used to perform decryption and encryption right in kustomize. Please refer to the example configurations that can be used to encrypt and decrypt the set of [existing yamls](https://github.com/GoogleContainerTools/kpt-functions-catalog/blob/master/examples/contrib/sops/function.yaml).
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Please note that to make that krm-function work it’s necessary to provide the following ENV variables:
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To encrypt:
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- `SOPS_IMPORT_PGP` must contain public or private key (set of keys)
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- `SOPS_PGP_FP` must contain a fingerprint of the public key from the list of provided keys in `SOPS_IMPORT_PGP` that will be used for encryption.
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To decrypt:
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- `SOPS_IMPORT_PGP` must contain a private key (set of keys) that will be used to decrypt. Function will fail if it can’t find the key with fingerprint that was used for encryption
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The gating scripts set that env variables [here](https://github.com/airshipit/airshipctl/blob/master/playbooks/airshipctl-gate-runner.yaml#L17).
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## Templater krm-function use-cases overview
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Templater krm-function allows users to call [Sprig functions](http://masterminds.github.io/sprig/). Sprig has a set of [functions that may generate random values, passwords, CAs, keys and certificates](http://masterminds.github.io/sprig/crypto.html). If it’s not possible to use the standard set of sprig functions for some important Airshipctl use-cases, it’s always possible to extend that set of functions: the latest version of templater krm-function introduces [extension library](https://github.com/airshipit/airshipctl/tree/master/pkg/document/plugin/templater/extlib) where this can be done. The set of already added functions can be found [here](https://github.com/airshipit/airshipctl/blob/master/pkg/document/plugin/templater/extlib/funcmap.go).
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The example on how to generate different types of secrets with templater krm-function may be found [here](https://github.com/airshipit/airshipctl/tree/master/manifests/function/generatesecrets-example).
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Essentially the set of steps that airshipctl must perform when it’s necessary to generate/regenerate/import new set of secrets is the following:
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1. Either:
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- Run templater that produces VariableCatalogue yaml with generated parameters
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- Just import the yaml document with the existing external credentials. If the document doesn’t have the required structure it’s possible to use replacement transformer to move the needed values to the right places of the required yaml
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2. Use Sops krm-function to encrypt the yaml
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3. Store the encrypted document in the document module of the site
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[This phase](https://github.com/airshipit/airshipctl/blob/master/manifests/phases/phases.yaml#L232) performs that steps.
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The following steps are used during standard procedure or yaml rendering for other phases:
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Kustomize reads the encrypted VariableCatalogue
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Kustomize applies Sops transformer to decrypt the encrypted fields
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This decrypted VariableCatalogue in included into the list of all catalogues and may be referenced in replacement plugin
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That is done by all phases. And this set of steps is done basically this [line](https://github.com/airshipit/airshipctl/blob/master/manifests/site/test-site/target/catalogues/kustomization.yaml#L7).
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Let’s show how this feature works under the hood.
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## GenericContainer feature overview
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In order to implement all that functionality it was necessary to introduce a new feature called GenericContainer. It’s a type of Executor (see [this document](https://github.com/airshipit/airshipctl/blob/master/docs/source/phases.rst)) and it allows to run Container with a document bundle as input. Krm-function can be run by GenericContainer. It may be that we may add some other types of API with containers.
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Krm-functions accept a set of yamls and config as input and return a modified set of yamls.
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GenericContainer executor may just output it to stdout. Or it may store it as `kpt fn sink` does.
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In particular we’re using the second option to store our generated and encrypted yamls to the specific place from which other manifests will take [that file](manifests/site/test-site/target/encrypted/results/generated/secrets.yaml).
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There is a way to provide external secrets, that shouldn't be generated. That secrets must be stored in encrypted way in [another file](manifests/site/test-site/target/encrypted/results/imported/secrets.yaml).
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As it’s possible to see [encrypted kustomization](manifests/site/test-site/target/encrypted/results/kustomization.yaml) performs decryption using sops krm-function.
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# Step-by-step Operator instructions
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## Manual operations that are automated by Airshipctl related to generation and encryption
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### Password generation
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Airshipctl has variety of options to generate passwords:
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1. derivePassword from Sprig library
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2. [regexGen](https://github.com/airshipit/airshipctl/blob/master/pkg/document/plugin/templater/extlib/regexgen.go#L22)
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Without automation it would be necessary to generate passwords based on the polices manually (with some external tools).
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### Key/CA/Cert Generation
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K8s requires the user to have a key/cert in order to be able to authenticate. Without Airshipctl it would be necessary to use openssl tool and run several commands in right order to generate key/CA, and after that to generate user key, create CSR and get user certificate signed with this CA, e.g.
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``` sh
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# getting CA key/crt -> tls.key/tls.crt
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openssl req -x509 -subj "/CN=Kubernetes API" -new -newkey rsa:2048 -nodes -keyout tls.key -sha256 -days 3650 -out tls.crt
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# generating admin’s key and creating CSR
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openssl req -subj "/CN=admin/O=system:masters" -new -newkey rsa:2048 -nodes -out admin.csr -keyout admin.key -out admin.csr
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# signing CSR with CA and getting admin’s cert
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openssl x509 -req -in admin.csr -CA tls.crt -CAkey tls.key -CAcreateserial -out admin.crt -days 365 -sha256
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```
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After that it would be necessary to convert it to base64 form and put it in the right place in the model, which is very tiresome and error-prone operation especially along generation.
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Airshipctl allows to do the same with running one phase to generate and encrypt all secrets.
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### Secrets encryption with Mozilla SOPS
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SOPS is a very powerful tool for encryption of different documents. Check its site to get all possible ways to use it.
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In this document we’re going to describe only the way how it’s already used.
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If you have a VariableCatalogue that contains secrets and you want to encrypt it with SOPS using PGP, you’ll need to generate a pair of keys (public and private). Public will be used for encryption and Private for description.
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The easiest way to generate sops keys - to use gpg wizard:
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``` sh
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gpg --full-generate-key
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```
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If it should be done by automation there are some other command options that allow you to specify params instead of interactive mode. E.g. please refer to this [link](https://docs.github.com/en/github/authenticating-to-github/generating-a-new-gpg-key).
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In the Airshipctl gate we’re using SOPs pre-generated keys from [here](https://github.com/mozilla/sops/blob/master/pgp/sops_functional_tests_key.asc). They can be imported as it’s demonstrated [here](https://github.com/mozilla/sops#test-with-the-dev-pgp-key).
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To encrypt file with 1 yaml it’s necessary to use the command:
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```
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SOPS_PGP_FP='FBC7B9E2A4F9289AC0C1D4843D16CEE4A27381B4' sops -e <file name>
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```
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`SOPS_PGP_FP` must contain a fingerprint of one of the public keys that gpg already has on the local machine.
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**Note:** Sops allows you to set several fingerprints. During decryption it’s possible to have only one of them.
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To decrypt file manually (the private key has to be present) just simply do:
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```
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sops -d <file name>
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```
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We hope that it won’t be necessary to do these actions manually, because airshipctl already has automation that does encryption of generated secrets and decryption of secrets that will be used by manifests right during phase execution.
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**But It’s good to know one very useful command (that requires private key to be imported to gpg)**
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```
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sops <file name>
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```
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This will decrypt the file and will open it in the editor. It will be possible to perform needed modifications. Once finished just close the editor and sops will encrypt the modified document and put it back. This may be a really-really useful command for some users and very simple at the same time. This approach may be used in order to modify [imported secrets](manifests/site/test-site/target/encrypted/results/imported/secrets.yaml).
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## Generation/Regeneration and encryption of secrets in manifests
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Now when we have all the information about what is going on under the hood, let’s see how Airshipctl automates generation and encryption.
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Note: This section will require the reader to understand how kustomize works in very good details.
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The good start will be the official documentation, but that may not be enough.
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Here are some documents that were created during design of airshipctl:
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1. [Reusable kustomize modules](https://docs.google.com/presentation/d/1gCAIsETGFYjVim0ChEQHmDwTtrJWbcFiBbFGDN7gQXA/edit#slide=id.g1f87997393_0_782)
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2. [Kustomize evolution](https://docs.google.com/presentation/d/1RnH41i-1sQRfE4G0c-xvN4Xl5dZgCL3SwM3BiWk42-o/edit)
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3. [Kustomize evolution - Video about krm-functions in Airshipctl](https://drive.google.com/file/d/16mk2JjnSYwmDhZSff77K_qJdv_zUK9fX/view?usp=sharing)
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4. [Documentation about Airshipctl Phases](https://github.com/airshipit/airshipctl/blob/master/docs/source/phases.rst)
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Now let’s refer to the way how the current version of manifests works for gating.
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Let’s start from the secrets generator.
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To run it it’s just necessary to run the phase:
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```
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airshipctl phase run secret-generate
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```
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And it’s done each time we run integration testing in CI in this [file](https://github.com/airshipit/airshipctl/blob/master/tools/deployment/23_generate_secrets.sh).
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This phase creates the bundle by running kustomize for `target/generator` inside the site directory. And that kustomization through a special directory that allows to override template values runs the following [templater](https://github.com/airshipit/airshipctl/blob/master/manifests/type/gating/target/generator/secret-template.yaml).
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This config file defines the following structure of VariableCatalogue:
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```
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apiVersion: airshipit.org/v1alpha1
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kind: VariableCatalogue
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metadata:
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labels:
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airshipit.org/deploy-k8s: "false"
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name: generated-secrets
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ephemeralClusterCa:...
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ephemeralKubeconfig:..
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targetClusterCa:...
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targetKubeconfig:...
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isoImage:...
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```
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Please pay attention to the annotation `config.kubernetes.io/path` - it defines the name of the file where this document will be stored by phase. It’s possible to define several VariableCatalogues with unique names of files (it even may contain directories).
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When this template is executed it generates keys/certs/passwords and renders them as a Variable catalog with the name `generated-secrets`.
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Please pay attention that the special annotation `config.kubernetes.io/path` is getting added in the fileplacement transformer - it defines the name of the file where this document will be stored by phase. It’s possible to define several VariableCatalogues with unique names of files (it even may contain directories).
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Now if we refer back to the Phase descritption we’ll see that it’s type is GenericContainer with the name `encrypter`.
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The definition of that executor is the following:
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```
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apiVersion: airshipit.org/v1alpha1
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kind: GenericContainer
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metadata:
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name: encrypter
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labels:
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airshipit.org/deploy-k8s: "false"
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spec:
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sinkOutputDir: "target/generator/results"
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image: gcr.io/kpt-fn-contrib/sops:v0.1.0
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envVars:
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- SOPS_IMPORT_PGP
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- SOPS_PGP_FP
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config: |
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apiVersion: v1
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kind: ConfigMap
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data:
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cmd: encrypt
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unencrypted-regex: '^(kind|apiVersion|group|metadata)$'
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```
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Basically this executor accepts the bundle, runs krm-function `gcr.io/kpt-fn-contrib/sops:v0.1.0` with configuration from `config` field and stores the result to the directory `target/generator/results` based on the filenames/hierarchy defined by annotation `config.kubernetes.io/path`. Sops krm-function in its turn encrypts documents and that means that `target/generator/results/` will contain encrypted yamls. To make that work the user will need just to specify 2 environment variables:
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- `SOPS_IMPORT_PGP`
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- `SOPS_PGP_FP`
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There is another a separate set of secrets that are provided externally and that shouldn't be generated. They're called `externally provided secrets`.
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For that set there is a separate folder in the target/encrypted/results, called `imported`.
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There is a speical phase called `secret-import` that may be used to update the set of externally provided secrets:
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just put a new unencrypted secrets.yaml to target/encrypted/results/imported/ instead of encrypted one and run that phase.
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This phase will encrypt that file using provided public key set by `SOPS_IMPORT_PGP` and `SOPS_PGP_FP`.
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Note: if you try to run this phase for already encrypted secrets.yaml this phase will return error saying that file is already encrypted.
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## Decryption of secrets and using them
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The current implementation of manifests doesn’t require explicit decryption of files. All secrets are decrypted on the spot. Here are the details of how it was achieved:
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All encrypted documents are listed in the [following kustomization file](https://github.com/airshipit/airshipctl/blob/master/manifests/site/test-site/target/encrypted/results/kustomization.yaml).
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This kustomization file performs decryption by invoking `decrypt-secrets` transformer, that is just a sops krm-function configuration that decrypts all encrypted documents.
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Note: we made a special kustomization for decrypt-secrets configuration just to be able to modify it a bit depending on the environment variable `TOLERATE_DECRYPTION_FAILURES` value. If it’s true we’re adding parameter `cmd-tolerate-failures: true` to sops configuration.
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Once decrypted that VariableCatalogues may be imported as well as other catalogues. E.g.:
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See [this line in the kustomization file](https://github.com/airshipit/airshipctl/blob/master/manifests/site/test-site/target/catalogues/kustomization.yaml#L7).
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And it’s possible to use their values as a source for replacement transformer. E.g. [this replacement plugin configuration](https://github.com/airshipit/airshipctl/blob/master/manifests/site/test-site/kubeconfig/update-target.yaml) updates fields of kubeconfig in order to put there generated keys/certs.
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To get even more familiar with that approach and understand all details please refer to the [following commit] (https://github.com/airshipit/airshipctl/commit/a252b248bcc9be2c8aca6f544f99541dce5012a3).
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## Decryption and printing the generated secrets to the screen
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In some cases it may be necessary to see what was generated by the templater in unencrypted form. For example, new SSH-keys were generated and it's necessary to get
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the private in order to be able to login to the node. Since in general it maybe very useful another phase called `secret-show` has been introduced.
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It decrypts and prints out the generated secrets.
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## Master key rotation
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This procedure may be done in many different ways depending on the organizational processes.
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There are 2 different approaches that may be used:
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1. when we create a new key - all secrets are getting re-encrypted with that new key
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2. when we create a new key - we're using it for generation/encryption of new secrets, but the old one stays valid till the last secret encrypted with it is getting regenerated and encrypted with new one. That means that old and new keys are used for decryption in parallel during some 'overlap' period. This is be similar to the approach that [Sealed secrets project](https://github.com/bitnami-labs/sealed-secrets) selected.
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Both approaches are possible taking into account that fact that SOPS allows you to have several private keys to decrypt data and it selects the needed one automatically.
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Nevertheless for the sake of simplicity we're currently implemented the first approach in our manifests. There is a phase called `secret-reecnrypt` that allows to perform master key rotation.
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In order to do so please follow the following steps:
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1. generate new master key pair using, e.g. using gpg wizard:
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``` sh
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gpg --full-generate-key
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```
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Note: please make sure you know the fingerprint of the newly generated key.
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2. append the env variable `SOPS_IMPORT_PGP` with the new keypair (don't delete the prvious one at this step, because it's needed for decryption).
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3. set the env variable `SOPS_PGP_FP` to the value of the NEW private key fingerprint. That means that the new key will be used for encryption.
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4. run `airshipctl phase run secret-reecnrypt`. make sure it runs successfully.
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5. check that all encrypted files were updated and that pgp.fp field for all of them equal to the value you specified in `SOPS_PGP_FP`.
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6. now it's possible to delete the old master key from `SOPS_IMPORT_PGP`. Once done it's possible to run `airshipctl phase run secret-show` to ensure that the keys will be decrypted properly.
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8. commit the changes to the site manifests.
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# Troubleshooting typical cases
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Note: In order to make troubleshotting possible please set env variable `DEBUG_SOPS_GPG=true` to see all debug output.
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## Validate keys fingerprints
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Sops function fails with the following typical output:
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```
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gpg: keybox '/tmp/pubring.kbx' created
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gpg: /tmp/trustdb.gpg: trustdb created
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gpg: key D8720D957C3D3074: public key "SOPS Functional Tests Key 2 (https://github.com/mozilla/sops/) <secops@mozilla.com>" imported
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gpg: key D8720D957C3D3074: secret key imported
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gpg: key 3D16CEE4A27381B4: public key "SOPS Functional Tests Key 1 (https://github.com/mozilla/sops/) <secops@mozilla.com>" imported
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gpg: key D8720D957C3D3074: "SOPS Functional Tests Key 2 (https://github.com/mozilla/sops/) <secops@mozilla.com>" not changed
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gpg: key 19F9B5DAEA91FF86: public key "SOPS Functional Tests Key 3 (https://github.com/mozilla/sops/) <secops@mozilla.com>" imported
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gpg: Total number processed: 4
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gpg: imported: 3
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gpg: unchanged: 1
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gpg: secret keys read: 1
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gpg: secret keys imported: 1
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[ERROR] Sops command results in error for
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apiVersion: airshipit.org/v1alpha1
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kind: VariableCatalogue
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metadata:
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labels:
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airshipit.org/deploy-k8s: 'false'
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name: password-secret
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passwordRandom1: 'ENC[AES256_GCM,data:o1xUrKiOPaucB+U2JSg=,iv:vJkmHG5B9/xiQA+qfRHyYwQFKIG1P0S0k8qwFCEyICk=,tag:MqLeMZ3BXhNKaUKvZoLStw==,type:str]'
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sops:
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azure_kv: []
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gcp_kms: []
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hc_vault: []
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kms: []
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lastmodified: '2021-01-14T11:23:10Z'
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mac: 'ENC[AES256_GCM,data:7aMFeEfn5MXU9M7U+rQ7fIcWG6A6BZILsvgVyEl+esa8EhEsOL6dRfITq2x+1t6ft+H5nRqbO5GyXJ3mhu7n/x5FBVVqBcZrvydojrqBWizXA4HQAc3t8OS3D1I2WLLx+S7mI5AiKDERGZX4ImiahSebqL/bNfpYdDQP+gX8+vQ=,iv:zchumZaGhTpyEEsJMMlW/e1vieqjVKT32Kiv0LuLPlk=,tag:q0vWzGZ8D4HYHTvdRymG0g==,type:str]'
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pgp:
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- created_at: '2021-01-14T11:23:10Z'
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enc: |
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-----BEGIN PGP MESSAGE-----
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hQEMAyUpShfNkFB/AQf+IIXYumKkSmzMHCoJVXculVowkez4aUI/OpdNw2CPWNDd
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3Kzea6kTv64ef+kll9DhczP0gVlgUZ0p0MenBfmkI4qt3wr5fyRUVjUpfF/R8Gmc
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9GZf4myDD5T2wDJVCkNmO2wogbZ7IZaGdx0HV3DihvSGg0xcGBUaFp/zeR9vXTQs
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a+CecTBm4+7uLnDvHf4Rathy3gnlLrLLdsJXRgEOJ2Fqp/JjoqFqsWOol9lFwALM
|
||
yRkxbWjeL7ePddXBZ8QmOB/AB0RKSRQ2Yd9RXpp1gSFKn5NOfWIZsaVgdds2zOw5
|
||
R5syWHhfzVylAxNrKJYIgr9hLje48W/Y6GSezkGvG9JcAebQzVP53UtXkwJSIjda
|
||
86WAFwpgpZ0sEG7zpSpxS8p4g3XsXjOdD2b0y/dwXGYK5oeOjb/wGYFf1EX0p0xk
|
||
BqGQ8JHxikqW8oEuyEgeg96uEMZb1Vy7u657zPw=
|
||
=VfIN
|
||
-----END PGP MESSAGE-----
|
||
fp: FBC7B9E2A4F9289AC0C1D4843D16CEE4A27381B4
|
||
unencrypted_regex: ^(kind|apiVersion|group|metadata)$
|
||
version: 3.6.1
|
||
|
||
Failed to get the data key required to decrypt the SOPS file.
|
||
|
||
Group 0: FAILED
|
||
FBC7B9E2A4F9289AC0C1D4843D16CEE4A27381B4: FAILED
|
||
- | could not decrypt data key with PGP key:
|
||
| golang.org/x/crypto/openpgp error: Could not load secring:
|
||
| open /tmp/secring.gpg: no such file or directory; GPG binary
|
||
| error: exit status 2
|
||
|
||
Recovery failed because no master key was able to decrypt the file. In
|
||
order for SOPS to recover the file, at least one key has to be successful,
|
||
but none were.
|
||
```
|
||
|
||
It’s necessary to pay attention to the first part of the message - where gpg performs key import and compares it with the fingerprint of the key in the encrypted document itself. The fingerprint that was used is (from sops.pgp.fp):
|
||
|
||
```
|
||
fp: FBC7B9E2A4F9289AC0C1D4843D16CEE4A27381B4
|
||
```
|
||
|
||
In the sops krm function logs it’s possible to see that the following public keys are imported:
|
||
D8720D957C3D3074
|
||
3D16CEE4A27381B4
|
||
D8720D957C3D3074 (second time :) )
|
||
19F9B5DAEA91FF86
|
||
And only 1 private key is imported:
|
||
D8720D957C3D3074
|
||
|
||
Pgp shows only last 16 symbols of fingerprint. Our fingerprint's last 16 symbols are: `3D16CEE4A27381B4`.
|
||
It’s clear that the imported bundle with public and private key didn’t have a private key with this fingerprint. That was the reason why sops wasn’t able to decrypt the document. The solution is - to make sure that all needed keys are imported.
|
||
|
||
## Validate format of the encrypted message
|
||
|
||
UPD:
|
||
the root-cause of that behavior was identified [here](https://github.com/airshipit/airshipctl/issues/471).
|
||
|
||
Here is another typical output:
|
||
|
||
```
|
||
...
|
||
sops:
|
||
azure_kv: []
|
||
gcp_kms: []
|
||
hc_vault: []
|
||
kms: []
|
||
lastmodified: '2021-02-12T17:01:46Z'
|
||
mac: 'ENC[AES256_GCM,data:JeDU6fOEC1Yz5vIWS5A9TJfqC3SpVds+96F27fH7UXOLxLzSEQjCbQFXdZzW3FEJvFPrPz8KcnWsm1VZQJRZIpyJCNhJfpq302CadUsohs4kLVbgoSHkXWtTVYLSQn6BmjfSaMeghJAQ6LgqE7AtgpSnc5d+F8kuRDr/AQE0Nv0=,iv:T4dzbWQFSzPAZjEevch79MTjKmsd1Ia4t5xiY5+ZAVw=,tag:Zf5XM4OieHGXx4s/3UO2Tw==,type:str]'
|
||
pgp:
|
||
- created_at: '2021-02-12T17:01:44Z'
|
||
enc: |-
|
||
-----BEGIN PGP MESSAGE-----
|
||
wcBMAyUpShfNkFB/AQgAibVYA6Cu3LcZ0/Q//4DRpUnVQ8iRUfTBAzDihvE36hFt
|
||
haKwbA/zwdivwNpVCdyw0qoAGwMrXlaSFhsrpdXDNV1dPqVoOzRd5EBIl13xbQGP
|
||
hqR4c4BKIkJM4hGO3LpNNLi6cR9lMmUi06TGVp2GkO8aCVmbTK6Q8RdHRtKisxfb
|
||
pEpiMl9vpequ2IgnWhd+XSy6rCMWpldLzqT1dBMSjSON0TBtLOXB2gqWaszGNhDs
|
||
pfuYo1F0xO86HblgOURTLJ+lr0rhPMn55iiNL1JG5hQcj0to4UKTCKCpOZZrAk0n
|
||
MbfrwIRDC9Nd5xVjl/TNA1IQN9DAapHYWMMHsl3LOdLgAeR0uJnuZ5rwHEokMits
|
||
zhxV4RHG4BfgjOHP5uBw4ubrJxjgHeXL4YBiGY+oPNtaLRI+xzXtw7uT27pwa0ww
|
||
7PFJ3SGcZeCV5ImYQXqdwF70smk47EMHNUbijA5WNeEpkQA=
|
||
=Zv9X
|
||
-----END PGP MESSAGE-----
|
||
fp: FBC7B9E2A4F9289AC0C1D4843D16CEE4A27381B4
|
||
unencrypted_regex: ^(kind|apiVersion|group|metadata)$
|
||
version: 3.6.1
|
||
…
|
||
|
||
Failed to get the data key required to decrypt the SOPS file.
|
||
|
||
Group 0: FAILED
|
||
FBC7B9E2A4F9289AC0C1D4843D16CEE4A27381B4: FAILED
|
||
- | could not decrypt data key with PGP key:
|
||
| golang.org/x/crypto/openpgp error: Could not load secring:
|
||
| open /tmp/secring.gpg: no such file or directory; GPG binary
|
||
| error: exit status 2
|
||
|
||
Recovery failed because no master key was able to decrypt the file. In
|
||
order for SOPS to recover the file, at least one key has to be successful,
|
||
but none were.
|
||
```
|
||
|
||
In fact this is a pretty rare issue, but still I saw that once.
|
||
The problem is the following part
|
||
|
||
```
|
||
|
||
enc: |-
|
||
-----BEGIN PGP MESSAGE-----
|
||
wcBMAyUpShfNkFB/AQgAibVYA6Cu3LcZ0/Q//4DRpUnVQ8iRUfTBAzDihvE36hFt
|
||
```
|
||
|
||
should have one empty line after `-----BEGIN PGP MESSAGE-----`. It should look like this:
|
||
|
||
```
|
||
enc: |-
|
||
-----BEGIN PGP MESSAGE-----
|
||
|
||
wcBMAyUpShfNkFB/AQgAibVYA6Cu3LcZ0/Q//4DRpUnVQ8iRUfTBAzDihvE36hFt
|
||
```
|
||
Sops typically starts working after that correction.
|