135 lines
6 KiB
Markdown
135 lines
6 KiB
Markdown
---
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layout: "docs"
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page_title: "Plugin System"
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sidebar_current: "docs-internals-plugins"
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description: |-
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Learn about Vault's plugin system.
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---
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# Plugin System
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Certain Vault backends utilize plugins to extend their functionality outside of
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what is available in the core vault code. Often times these backends will
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provide both builtin plugins and a mechanism for executing external plugins.
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Builtin plugins are shipped with vault, often for commonly used implementations,
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and require no additional operator intervention to run. Builtin plugins are
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just like any other backend code inside vault. External plugins, on the other
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hand, are not shipped with the vault binary and must be registered to vault by
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a privileged vault user. This section of the documentation will describe the
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architecture and security of external plugins.
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# Plugin Architecture
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Vault's plugins are completely separate, standalone applications that Vault
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executes and communicates with over RPC. This means the plugin process does not
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share the same memory space as Vault and therefore can only access the
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interfaces and arguments given to it. This also means a crash in a plugin can not
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crash the entirety of Vault.
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## Plugin Communication
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Vault creates a mutually authenticated TLS connection for communication with the
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plugin's RPC server. While invoking the plugin process, Vault passes a [wrapping
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token](https://www.vaultproject.io/docs/concepts/response-wrapping.html) to the
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plugin process' environment. This token is single use and has a short TTL. Once
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unwrapped, it provides the plugin with a uniquely generated TLS certificate and
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private key for it to use to talk to the original vault process.
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The [`api_addr`][api_addr] must be set in order for the plugin process establish
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communication with the Vault server during mount time. If the storage backend
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has HA enabled and supports automatic host address detection (e.g. Consul),
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Vault will automatically attempt to determine the `api_addr` as well.
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~> Note: Reading the original connection's TLS connection state is not supported
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in plugins.
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## Plugin Registration
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An important consideration of Vault's plugin system is to ensure the plugin
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invoked by vault is authentic and maintains integrity. There are two components
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that a Vault operator needs to configure before external plugins can be run, the
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plugin directory and the plugin catalog entry.
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### Plugin Directory
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The plugin directory is a configuration option of Vault, and can be specified in
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the [configuration file](https://www.vaultproject.io/docs/configuration/index.html).
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This setting specifies a directory that all plugin binaries must live. A plugin
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can not be added to vault unless it exists in the plugin directory. There is no
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default for this configuration option, and if it is not set plugins can not be
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added to vault.
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~> Warning: A vault operator should take care to lock down the permissions on
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this directory to ensure a plugin can not be modified by an unauthorized user
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between the time of the SHA check and the time of plugin execution.
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### Plugin Catalog
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The plugin catalog is Vault's list of approved plugins. The catalog is stored in
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Vault's barrier and can only be updated by a vault user with sudo permissions.
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Upon adding a new plugin, the plugin name, SHA256 sum of the executable, and the
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command that should be used to run the plugin must be provided. The catalog will
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make sure the executable referenced in the command exists in the plugin
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directory. When added to the catalog the plugin is not automatically executed,
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it instead becomes visible to backends and can be executed by them. For more
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information on the plugin catalog please see the [Plugin Catalog API
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docs](/api/system/plugins-catalog.html).
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An example plugin submission looks like:
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```
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$ vault write sys/plugins/catalog/myplugin-database-plugin \
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sha_256=<expected SHA256 Hex value of the plugin binary> \
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command="myplugin"
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Success! Data written to: sys/plugins/catalog/myplugin-database-plugin
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```
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### Plugin Execution
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When a backend wants to run a plugin, it first looks up the plugin, by name, in
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the catalog. It then checks the executable's SHA256 sum against the one
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configured in the plugin catalog. Finally vault runs the command configured in
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the catalog, sending along the JWT formatted response wrapping token and mlock
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settings (like Vault, plugins support [the use of mlock when available](https://www.vaultproject.io/docs/configuration/index.html#disable_mlock)).
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# Plugin Development
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~> Advanced topic! Plugin development is a highly advanced topic in Vault, and
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is not required knowledge for day-to-day usage. If you don't plan on writing any
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plugins, we recommend not reading this section of the documentation.
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Because Vault communicates to plugins over a RPC interface, you can build and
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distribute a plugin for Vault without having to rebuild Vault itself. This makes
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it easy for you to build a Vault plugin for your organization's internal use,
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for a proprietary API that you don't want to open source, or to prototype
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something before contributing it back to the main project.
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In theory, because the plugin interface is HTTP, you could even develop a plugin
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using a completely different programming language! (Disclaimer, you would also
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have to re-implement the plugin API which is not a trivial amount of work.)
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Developing a plugin is simple. The only knowledge necessary to write
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a plugin is basic command-line skills and basic knowledge of the
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[Go programming language](http://golang.org).
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Your plugin implementation needs to satisfy the interface for the plugin
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type you want to build. You can find these definitions in the docs for the
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backend running the plugin.
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```go
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package main
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import (
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"os"
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"github.com/hashicorp/vault/helper/pluginutil"
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"github.com/hashicorp/vault/plugins"
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)
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func main() {
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apiClientMeta := &pluginutil.APIClientMeta{}
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flags := apiClientMeta.FlagSet()
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flags.Parse(os.Args)
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plugins.Serve(New().(MyPlugin), apiClientMeta.GetTLSConfig())
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}
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```
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And that's basically it! You would just need to change MyPlugin to your actual
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plugin.
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[api_addr]: /docs/configuration/index.html#api_addr
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