lsp-mode
uses lsp-docker
to run language servers using in containers
- Preconfigured language servers
- Usage
- emacslsp/lsp-docker-langservers
- emacslsp/lsp-docker-full
- Custom language server containers
- Docker over TRAMP (TBD)
- See also
- Maintainers
emacslsp/lsp-docker-langservers
has the following content:
- Language servers:
Language Language Server Bash bash-language-server C++ ccls CSS/LessCSS/SASS/SCSS css Dockerfile dockerfile-language-server-nodejs Go gopls HTML html JavaScript/TypeScript typescript-language-server Python pylsp
There are two ways of working with containerized language servers:
- 2 containers provided by
lsp-docker
: - Custom language server containers
This container is used by lsp-docker
to run Language Servers
for lsp-mode
over local sources.
You must pull the container before lsp-docker can use it
- Clone the repo
git clone https://github.com/emacs-lsp/lsp-docker
- Pull the container
docker pull emacslsp/lsp-docker-langservers
- Add repo to load path and register the docker clients in your
~/.emacs
file;; Uncomment the next line if you are using this from source ;; (add-to-list 'load-path "<path-to-lsp-docker-dir>") (require 'lsp-docker) (defvar lsp-docker-client-packages '(lsp-css lsp-clients lsp-bash lsp-go lsp-pylsp lsp-html lsp-typescript lsp-terraform lsp-clangd)) (setq lsp-docker-client-configs '((:server-id bash-ls :docker-server-id bashls-docker :server-command "bash-language-server start") (:server-id clangd :docker-server-id clangd-docker :server-command "clangd") (:server-id css-ls :docker-server-id cssls-docker :server-command "css-languageserver --stdio") (:server-id dockerfile-ls :docker-server-id dockerfilels-docker :server-command "docker-langserver --stdio") (:server-id gopls :docker-server-id gopls-docker :server-command "gopls") (:server-id html-ls :docker-server-id htmls-docker :server-command "html-languageserver --stdio") (:server-id pylsp :docker-server-id pyls-docker :server-command "pylsp") (:server-id ts-ls :docker-server-id tsls-docker :server-command "typescript-language-server --stdio"))) (require 'lsp-docker) (lsp-docker-init-clients :path-mappings '(("path-to-projects-you-want-to-use" . "/projects")) :client-packages lsp-docker-client-packages :client-configs lsp-docker-client-configs)
lsp-mode
starts the image passed as :docker-image-id
and mounts :path-mappings
in the container. Then when the process is started lsp-mode
translates the local paths to docker
path and vice versa using the :path-mappings
specified when calling lsp-docker-init-default-clients
. You may use lsp-enabled-clients
and lsp-disabled-clients
to control what language server will be used to run for a particular project(refer to lsp-mode
FAQ on how to configure .dir-locals).
The container emacslsp/lsp-docker-full
contains:
- The above language servers
Emacs28
compiled with native JSON support for better performance.
Flag | Purpose | Default |
---|---|---|
EMACS_D_VOLUME | Emacs folder to use for /root/.emacs | Emacs: $(pwd)/emacs.d Spacemacs: $(pwd)/spacemacs |
PROJECTS_VOLUME | Directory to mount at /Projects | $(pwd)/demo-projects/ |
TZ | Timezone to user in container | Europe/Minsk |
DOCKER_FLAGS | Any additional docker flags | N/A |
- Clone
lsp-docker
.git clone https://github.com/emacs-lsp/lsp-docker cd lsp-docker
- Run
bash start-emacs.sh
- Clone
lsp-docker
.git clone https://github.com/emacs-lsp/lsp-docker cd lsp-docker
- Clone spacemacs repo
# Clone spacemacs develop git clone -b develop https://github.com/syl20bnr/spacemacs spacemacs
- Run
EMACS_D_VOLUME=/path/to/spacemacs bash start-spacemacs.sh
You can use manually built language containers or images hosting language server(s), just follow a few simple rules (shown below). The docker images may feature an optional tag, if omitted latest will be assumed.
You have 2 constraints:
- A language server must be launched in
stdio
mode (other types of communication are yet to be supported) - A docker container (only
container
subtype, see the configuration below) must have your language server as an entrypoint (basically you have to be able to launch it withdocker start -i <container_name>
as it is launched this way withlsp-docker
)
When you have sucessfully built a language server, you have to register it with either a configuration file or a .dir-locals
file.
A configuration file is a yaml file that can be located at:
<PROJECT_ROOT>/.lsp-docker.yml <PROJECT_ROOT>/.lsp-docker.yaml <PROJECT_ROOT>/.lsp-docker/.lsp-docker.yml <PROJECT_ROOT>/.lsp-docker/.lsp-docker.yaml <PROJECT_ROOT>/.lsp-docker/lsp-docker.yml <PROJECT_ROOT>/.lsp-docker/lsp-docker.yaml <PROJECT_ROOT>/.lsp-docker/config.yml <PROJECT_ROOT>/.lsp-docker/config.yaml
It is structured in the following way:
lsp:
server:
type: docker
# subtype:
# - "container": attach to an already running container
# - "image": when image does not exist, try to build it based on the dockerfile found in the project-scope
# (see Automatic image building). An image might feature an optional tag, i.e. '<image>:<tag>'. If a
# tagless image is indicated 'latest' will be assumed.
subtype: container
# image/container name to use for this language server
name: image-container-name
# server id of a registered LSP server. You can find the list of registered servers evaluating:
#
# `(let ((keys ())) (maphash (lambda (k v) (push k keys)) lsp-clients) keys)`
#
# source:
# https://stackoverflow.com/questions/17066169/retrieve-keys-from-hash-table-sorted-by-the-values-efficiently
server: server-id-of-the-base-server
# command to launch the language server in stdio mode
# NOTE: 'launch_command' is not used with 'container' subtype servers as a command is embedded in a
# container itself and serves as entrypoint
launch_command: "launch command with arguments"
mappings:
# NOTE: the paths must be within the project this server is being build for
- source: "/your/host/source/path"
destination: "/your/path/inside/the/container"
Just refer to the source code and general conventions of using .dir-locals
. The variable you need is lsp-docker-persistent-default-config
, its content is merged with the lsp
section from a configuration file (if present).
You can also build an image automatically (currently supported only for image
subtype): just drop the corresponding Dockerfile
into the .lsp-docker
folder in the project root (Dockerfile
may be named as Dockerfile
or Dockerfile.lsp
). Building process is triggered by the lsp-docker-register
call (you will be prompted whether you want to build the image). Image building takes place in the project root (not in the .lsp-docker
subfolder)! In case of an automatic build the image will be registered automatically (based on the values from the config or .dir-locals
file).
You can also troubleshoot any issues with supplemental docker calls (checking whether the required image already exists, building a new image) using the supplemental logging functionality: there are 2 variables: first you have to set lsp-docker-log-docker-supplemental-calls
to true-like value (by default it is nil
) and then specify the log buffer in the lsp-docker-log-docker-supplemental-calls-buffer-name
variable (by default it is set to *lsp-docker-supplemental-calls*
)
Docker running the language servers and hosting the sources, Emacs running on the desktop machine and connecting to docker instance over TRAMP.
- docker - package for managing
docker
images/containers.