File: //home/ubuntu/neovim/runtime/lua/vim/lsp/rpc.lua
local uv = vim.uv
local log = require('vim.lsp.log')
local protocol = require('vim.lsp.protocol')
local validate, schedule, schedule_wrap = vim.validate, vim.schedule, vim.schedule_wrap
local is_win = uv.os_uname().version:find('Windows')
--- Checks whether a given path exists and is a directory.
---@param filename string path to check
---@return boolean
local function is_dir(filename)
local stat = uv.fs_stat(filename)
return stat and stat.type == 'directory' or false
end
--- Embeds the given string into a table and correctly computes `Content-Length`.
---
---@param message string
---@return string message with `Content-Length` attribute
local function format_message_with_content_length(message)
return table.concat({
'Content-Length: ',
tostring(#message),
'\r\n\r\n',
message,
})
end
---@class (private) vim.lsp.rpc.Headers: {string: any}
---@field content_length integer
--- Parses an LSP Message's header
---
---@param header string The header to parse.
---@return vim.lsp.rpc.Headers#parsed headers
local function parse_headers(header)
assert(type(header) == 'string', 'header must be a string')
--- @type vim.lsp.rpc.Headers
local headers = {}
for line in vim.gsplit(header, '\r\n', { plain = true }) do
if line == '' then
break
end
--- @type string?, string?
local key, value = line:match('^%s*(%S+)%s*:%s*(.+)%s*$')
if key then
key = key:lower():gsub('%-', '_') --- @type string
headers[key] = value
else
log.error('invalid header line %q', line)
error(string.format('invalid header line %q', line))
end
end
headers.content_length = tonumber(headers.content_length)
or error(string.format('Content-Length not found in headers. %q', header))
return headers
end
-- This is the start of any possible header patterns. The gsub converts it to a
-- case insensitive pattern.
local header_start_pattern = ('content'):gsub('%w', function(c)
return '[' .. c .. c:upper() .. ']'
end)
--- The actual workhorse.
local function request_parser_loop()
local buffer = '' -- only for header part
while true do
-- A message can only be complete if it has a double CRLF and also the full
-- payload, so first let's check for the CRLFs
local start, finish = buffer:find('\r\n\r\n', 1, true)
-- Start parsing the headers
if start then
-- This is a workaround for servers sending initial garbage before
-- sending headers, such as if a bash script sends stdout. It assumes
-- that we know all of the headers ahead of time. At this moment, the
-- only valid headers start with "Content-*", so that's the thing we will
-- be searching for.
-- TODO(ashkan) I'd like to remove this, but it seems permanent :(
local buffer_start = buffer:find(header_start_pattern)
if not buffer_start then
error(
string.format(
"Headers were expected, a different response was received. The server response was '%s'.",
buffer
)
)
end
local headers = parse_headers(buffer:sub(buffer_start, start - 1))
local content_length = headers.content_length
-- Use table instead of just string to buffer the message. It prevents
-- a ton of strings allocating.
-- ref. http://www.lua.org/pil/11.6.html
---@type string[]
local body_chunks = { buffer:sub(finish + 1) }
local body_length = #body_chunks[1]
-- Keep waiting for data until we have enough.
while body_length < content_length do
---@type string
local chunk = coroutine.yield()
or error('Expected more data for the body. The server may have died.') -- TODO hmm.
table.insert(body_chunks, chunk)
body_length = body_length + #chunk
end
local last_chunk = body_chunks[#body_chunks]
body_chunks[#body_chunks] = last_chunk:sub(1, content_length - body_length - 1)
local rest = ''
if body_length > content_length then
rest = last_chunk:sub(content_length - body_length)
end
local body = table.concat(body_chunks)
-- Yield our data.
--- @type string
local data = coroutine.yield(headers, body)
or error('Expected more data for the body. The server may have died.')
buffer = rest .. data
else
-- Get more data since we don't have enough.
--- @type string
local data = coroutine.yield()
or error('Expected more data for the header. The server may have died.')
buffer = buffer .. data
end
end
end
local M = {}
--- Mapping of error codes used by the client
--- @nodoc
local client_errors = {
INVALID_SERVER_MESSAGE = 1,
INVALID_SERVER_JSON = 2,
NO_RESULT_CALLBACK_FOUND = 3,
READ_ERROR = 4,
NOTIFICATION_HANDLER_ERROR = 5,
SERVER_REQUEST_HANDLER_ERROR = 6,
SERVER_RESULT_CALLBACK_ERROR = 7,
}
--- @type table<string,integer> | table<integer,string>
--- @nodoc
M.client_errors = vim.deepcopy(client_errors)
for k, v in pairs(client_errors) do
M.client_errors[v] = k
end
--- Constructs an error message from an LSP error object.
---
---@param err table The error object
---@return string error_message The formatted error message
function M.format_rpc_error(err)
validate({
err = { err, 't' },
})
-- There is ErrorCodes in the LSP specification,
-- but in ResponseError.code it is not used and the actual type is number.
local code --- @type string
if protocol.ErrorCodes[err.code] then
code = string.format('code_name = %s,', protocol.ErrorCodes[err.code])
else
code = string.format('code_name = unknown, code = %s,', err.code)
end
local message_parts = { 'RPC[Error]', code }
if err.message then
table.insert(message_parts, 'message =')
table.insert(message_parts, string.format('%q', err.message))
end
if err.data then
table.insert(message_parts, 'data =')
table.insert(message_parts, vim.inspect(err.data))
end
return table.concat(message_parts, ' ')
end
--- Creates an RPC response table `error` to be sent to the LSP response.
---
---@param code integer RPC error code defined, see `vim.lsp.protocol.ErrorCodes`
---@param message? string arbitrary message to send to server
---@param data? any arbitrary data to send to server
---
---@see lsp.ErrorCodes See `vim.lsp.protocol.ErrorCodes`
---@return lsp.ResponseError
function M.rpc_response_error(code, message, data)
-- TODO should this error or just pick a sane error (like InternalError)?
---@type string
local code_name = assert(protocol.ErrorCodes[code], 'Invalid RPC error code')
return setmetatable({
code = code,
message = message or code_name,
data = data,
}, {
__tostring = M.format_rpc_error,
})
end
--- Dispatchers for LSP message types.
--- @class vim.lsp.rpc.Dispatchers
--- @inlinedoc
--- @field notification fun(method: string, params: table)
--- @field server_request fun(method: string, params: table): any?, lsp.ResponseError?
--- @field on_exit fun(code: integer, signal: integer)
--- @field on_error fun(code: integer, err: any)
--- @type vim.lsp.rpc.Dispatchers
local default_dispatchers = {
--- Default dispatcher for notifications sent to an LSP server.
---
---@param method string The invoked LSP method
---@param params table Parameters for the invoked LSP method
notification = function(method, params)
log.debug('notification', method, params)
end,
--- Default dispatcher for requests sent to an LSP server.
---
---@param method string The invoked LSP method
---@param params table Parameters for the invoked LSP method
---@return any result (always nil for the default dispatchers)
---@return lsp.ResponseError error `vim.lsp.protocol.ErrorCodes.MethodNotFound`
server_request = function(method, params)
log.debug('server_request', method, params)
return nil, M.rpc_response_error(protocol.ErrorCodes.MethodNotFound)
end,
--- Default dispatcher for when a client exits.
---
---@param code integer Exit code
---@param signal integer Number describing the signal used to terminate (if any)
on_exit = function(code, signal)
log.info('client_exit', { code = code, signal = signal })
end,
--- Default dispatcher for client errors.
---
---@param code integer Error code
---@param err any Details about the error
on_error = function(code, err)
log.error('client_error:', M.client_errors[code], err)
end,
}
---@private
function M.create_read_loop(handle_body, on_no_chunk, on_error)
local parse_chunk = coroutine.wrap(request_parser_loop) --[[@as fun(chunk: string?): vim.lsp.rpc.Headers?, string?]]
parse_chunk()
return function(err, chunk)
if err then
on_error(err)
return
end
if not chunk then
if on_no_chunk then
on_no_chunk()
end
return
end
while true do
local headers, body = parse_chunk(chunk)
if headers then
handle_body(body)
chunk = ''
else
break
end
end
end
end
---@class (private) vim.lsp.rpc.Client
---@field message_index integer
---@field message_callbacks table<integer, function> dict of message_id to callback
---@field notify_reply_callbacks table<integer, function> dict of message_id to callback
---@field transport vim.lsp.rpc.Transport
---@field dispatchers vim.lsp.rpc.Dispatchers
local Client = {}
---@private
function Client:encode_and_send(payload)
log.debug('rpc.send', payload)
if self.transport.is_closing() then
return false
end
local jsonstr = assert(
vim.json.encode(payload),
string.format("Couldn't encode payload '%s'", vim.inspect(payload))
)
self.transport.write(format_message_with_content_length(jsonstr))
return true
end
---@package
--- Sends a notification to the LSP server.
---@param method string The invoked LSP method
---@param params any Parameters for the invoked LSP method
---@return boolean `true` if notification could be sent, `false` if not
function Client:notify(method, params)
return self:encode_and_send({
jsonrpc = '2.0',
method = method,
params = params,
})
end
---@private
--- sends an error object to the remote LSP process.
function Client:send_response(request_id, err, result)
return self:encode_and_send({
id = request_id,
jsonrpc = '2.0',
error = err,
result = result,
})
end
---@package
--- Sends a request to the LSP server and runs {callback} upon response. |vim.lsp.rpc.request()|
---
---@param method string The invoked LSP method
---@param params table? Parameters for the invoked LSP method
---@param callback fun(err?: lsp.ResponseError, result: any) Callback to invoke
---@param notify_reply_callback fun(message_id: integer)|nil Callback to invoke as soon as a request is no longer pending
---@return boolean success `true` if request could be sent, `false` if not
---@return integer? message_id if request could be sent, `nil` if not
function Client:request(method, params, callback, notify_reply_callback)
validate({
callback = { callback, 'f' },
notify_reply_callback = { notify_reply_callback, 'f', true },
})
self.message_index = self.message_index + 1
local message_id = self.message_index
local result = self:encode_and_send({
id = message_id,
jsonrpc = '2.0',
method = method,
params = params,
})
local message_callbacks = self.message_callbacks
local notify_reply_callbacks = self.notify_reply_callbacks
if result then
if message_callbacks then
message_callbacks[message_id] = schedule_wrap(callback)
else
return false, nil
end
if notify_reply_callback and notify_reply_callbacks then
notify_reply_callbacks[message_id] = schedule_wrap(notify_reply_callback)
end
return result, message_id
else
return false, nil
end
end
---@package
---@param errkind integer
---@param ... any
function Client:on_error(errkind, ...)
assert(M.client_errors[errkind])
-- TODO what to do if this fails?
pcall(self.dispatchers.on_error, errkind, ...)
end
---@private
---@param errkind integer
---@param status boolean
---@param head any
---@param ... any
---@return boolean status
---@return any head
---@return any|nil ...
function Client:pcall_handler(errkind, status, head, ...)
if not status then
self:on_error(errkind, head, ...)
return status, head
end
return status, head, ...
end
---@private
---@param errkind integer
---@param fn function
---@param ... any
---@return boolean status
---@return any head
---@return any|nil ...
function Client:try_call(errkind, fn, ...)
return self:pcall_handler(errkind, pcall(fn, ...))
end
-- TODO periodically check message_callbacks for old requests past a certain
-- time and log them. This would require storing the timestamp. I could call
-- them with an error then, perhaps.
---@package
function Client:handle_body(body)
local ok, decoded = pcall(vim.json.decode, body, { luanil = { object = true } })
if not ok then
self:on_error(M.client_errors.INVALID_SERVER_JSON, decoded)
return
end
log.debug('rpc.receive', decoded)
if type(decoded) ~= 'table' then
self:on_error(M.client_errors.INVALID_SERVER_MESSAGE, decoded)
elseif type(decoded.method) == 'string' and decoded.id then
local err --- @type lsp.ResponseError|nil
-- Schedule here so that the users functions don't trigger an error and
-- we can still use the result.
schedule(function()
coroutine.wrap(function()
local status, result
status, result, err = self:try_call(
M.client_errors.SERVER_REQUEST_HANDLER_ERROR,
self.dispatchers.server_request,
decoded.method,
decoded.params
)
log.debug(
'server_request: callback result',
{ status = status, result = result, err = err }
)
if status then
if result == nil and err == nil then
error(
string.format(
'method %q: either a result or an error must be sent to the server in response',
decoded.method
)
)
end
if err then
---@cast err lsp.ResponseError
assert(
type(err) == 'table',
'err must be a table. Use rpc_response_error to help format errors.'
)
---@type string
local code_name = assert(
protocol.ErrorCodes[err.code],
'Errors must use protocol.ErrorCodes. Use rpc_response_error to help format errors.'
)
err.message = err.message or code_name
end
else
-- On an exception, result will contain the error message.
err = M.rpc_response_error(protocol.ErrorCodes.InternalError, result)
result = nil
end
self:send_response(decoded.id, err, result)
end)()
end)
-- This works because we are expecting vim.NIL here
elseif decoded.id and (decoded.result ~= vim.NIL or decoded.error ~= vim.NIL) then
-- We sent a number, so we expect a number.
local result_id = assert(tonumber(decoded.id), 'response id must be a number')
-- Notify the user that a response was received for the request
local notify_reply_callbacks = self.notify_reply_callbacks
local notify_reply_callback = notify_reply_callbacks and notify_reply_callbacks[result_id]
if notify_reply_callback then
validate({
notify_reply_callback = { notify_reply_callback, 'f' },
})
notify_reply_callback(result_id)
notify_reply_callbacks[result_id] = nil
end
local message_callbacks = self.message_callbacks
-- Do not surface RequestCancelled to users, it is RPC-internal.
if decoded.error then
local mute_error = false
if decoded.error.code == protocol.ErrorCodes.RequestCancelled then
log.debug('Received cancellation ack', decoded)
mute_error = true
end
if mute_error then
-- Clear any callback since this is cancelled now.
-- This is safe to do assuming that these conditions hold:
-- - The server will not send a result callback after this cancellation.
-- - If the server sent this cancellation ACK after sending the result, the user of this RPC
-- client will ignore the result themselves.
if result_id and message_callbacks then
message_callbacks[result_id] = nil
end
return
end
end
local callback = message_callbacks and message_callbacks[result_id]
if callback then
message_callbacks[result_id] = nil
validate({
callback = { callback, 'f' },
})
if decoded.error then
decoded.error = setmetatable(decoded.error, {
__tostring = M.format_rpc_error,
})
end
self:try_call(
M.client_errors.SERVER_RESULT_CALLBACK_ERROR,
callback,
decoded.error,
decoded.result
)
else
self:on_error(M.client_errors.NO_RESULT_CALLBACK_FOUND, decoded)
log.error('No callback found for server response id ' .. result_id)
end
elseif type(decoded.method) == 'string' then
-- Notification
self:try_call(
M.client_errors.NOTIFICATION_HANDLER_ERROR,
self.dispatchers.notification,
decoded.method,
decoded.params
)
else
-- Invalid server message
self:on_error(M.client_errors.INVALID_SERVER_MESSAGE, decoded)
end
end
---@class (private) vim.lsp.rpc.Transport
---@field write fun(msg: string)
---@field is_closing fun(): boolean
---@field terminate fun()
---@param dispatchers vim.lsp.rpc.Dispatchers
---@param transport vim.lsp.rpc.Transport
---@return vim.lsp.rpc.Client
local function new_client(dispatchers, transport)
local state = {
message_index = 0,
message_callbacks = {},
notify_reply_callbacks = {},
transport = transport,
dispatchers = dispatchers,
}
return setmetatable(state, { __index = Client })
end
---@class vim.lsp.rpc.PublicClient
---@field request fun(method: string, params: table?, callback: fun(err: lsp.ResponseError|nil, result: any), notify_reply_callback: fun(integer)|nil):boolean,integer? see |vim.lsp.rpc.request()|
---@field notify fun(method: string, params: any):boolean see |vim.lsp.rpc.notify()|
---@field is_closing fun(): boolean
---@field terminate fun()
---@param client vim.lsp.rpc.Client
---@return vim.lsp.rpc.PublicClient
local function public_client(client)
---@type vim.lsp.rpc.PublicClient
---@diagnostic disable-next-line: missing-fields
local result = {}
---@private
function result.is_closing()
return client.transport.is_closing()
end
---@private
function result.terminate()
client.transport.terminate()
end
--- Sends a request to the LSP server and runs {callback} upon response.
---
---@param method (string) The invoked LSP method
---@param params (table?) Parameters for the invoked LSP method
---@param callback fun(err: lsp.ResponseError|nil, result: any) Callback to invoke
---@param notify_reply_callback fun(message_id: integer)|nil Callback to invoke as soon as a request is no longer pending
---@return boolean success `true` if request could be sent, `false` if not
---@return integer? message_id if request could be sent, `nil` if not
function result.request(method, params, callback, notify_reply_callback)
return client:request(method, params, callback, notify_reply_callback)
end
--- Sends a notification to the LSP server.
---@param method (string) The invoked LSP method
---@param params (table?) Parameters for the invoked LSP method
---@return boolean `true` if notification could be sent, `false` if not
function result.notify(method, params)
return client:notify(method, params)
end
return result
end
---@param dispatchers vim.lsp.rpc.Dispatchers?
---@return vim.lsp.rpc.Dispatchers
local function merge_dispatchers(dispatchers)
if not dispatchers then
return default_dispatchers
end
---@diagnostic disable-next-line: no-unknown
for name, fn in pairs(dispatchers) do
if type(fn) ~= 'function' then
error(string.format('dispatcher.%s must be a function', name))
end
end
---@type vim.lsp.rpc.Dispatchers
local merged = {
notification = (
dispatchers.notification and vim.schedule_wrap(dispatchers.notification)
or default_dispatchers.notification
),
on_error = (
dispatchers.on_error and vim.schedule_wrap(dispatchers.on_error)
or default_dispatchers.on_error
),
on_exit = dispatchers.on_exit or default_dispatchers.on_exit,
server_request = dispatchers.server_request or default_dispatchers.server_request,
}
return merged
end
--- Create a LSP RPC client factory that connects to either:
---
--- - a named pipe (windows)
--- - a domain socket (unix)
--- - a host and port via TCP
---
--- Return a function that can be passed to the `cmd` field for
--- |vim.lsp.start_client()| or |vim.lsp.start()|.
---
---@param host_or_path string host to connect to or path to a pipe/domain socket
---@param port integer? TCP port to connect to. If absent the first argument must be a pipe
---@return fun(dispatchers: vim.lsp.rpc.Dispatchers): vim.lsp.rpc.PublicClient
function M.connect(host_or_path, port)
return function(dispatchers)
dispatchers = merge_dispatchers(dispatchers)
local handle = (
port == nil
and assert(
uv.new_pipe(false),
string.format('Pipe with name %s could not be opened.', host_or_path)
)
or assert(uv.new_tcp(), 'Could not create new TCP socket')
)
local closing = false
-- Connect returns a PublicClient synchronously so the caller
-- can immediately send messages before the connection is established
-- -> Need to buffer them until that happens
local connected = false
-- size should be enough because the client can't really do anything until initialization is done
-- which required a response from the server - implying the connection got established
local msgbuf = vim.ringbuf(10)
local transport = {
write = function(msg)
if connected then
local _, err = handle:write(msg)
if err and not closing then
log.error('Error on handle:write: %q', err)
end
else
msgbuf:push(msg)
end
end,
is_closing = function()
return closing
end,
terminate = function()
if not closing then
closing = true
handle:shutdown()
handle:close()
dispatchers.on_exit(0, 0)
end
end,
}
local client = new_client(dispatchers, transport)
local function on_connect(err)
if err then
local address = port == nil and host_or_path or (host_or_path .. ':' .. port)
vim.schedule(function()
vim.notify(
string.format('Could not connect to %s, reason: %s', address, vim.inspect(err)),
vim.log.levels.WARN
)
end)
return
end
local handle_body = function(body)
client:handle_body(body)
end
handle:read_start(M.create_read_loop(handle_body, transport.terminate, function(read_err)
client:on_error(M.client_errors.READ_ERROR, read_err)
end))
connected = true
for msg in msgbuf do
handle:write(msg)
end
end
if port == nil then
handle:connect(host_or_path, on_connect)
else
handle:connect(host_or_path, port, on_connect)
end
return public_client(client)
end
end
--- Additional context for the LSP server process.
--- @class vim.lsp.rpc.ExtraSpawnParams
--- @inlinedoc
--- @field cwd? string Working directory for the LSP server process
--- @field detached? boolean Detach the LSP server process from the current process
--- @field env? table<string,string> Additional environment variables for LSP server process. See |vim.system()|
--- Starts an LSP server process and create an LSP RPC client object to
--- interact with it. Communication with the spawned process happens via stdio. For
--- communication via TCP, spawn a process manually and use |vim.lsp.rpc.connect()|
---
--- @param cmd string[] Command to start the LSP server.
--- @param dispatchers? vim.lsp.rpc.Dispatchers
--- @param extra_spawn_params? vim.lsp.rpc.ExtraSpawnParams
--- @return vim.lsp.rpc.PublicClient : Client RPC object, with these methods:
--- - `notify()` |vim.lsp.rpc.notify()|
--- - `request()` |vim.lsp.rpc.request()|
--- - `is_closing()` returns a boolean indicating if the RPC is closing.
--- - `terminate()` terminates the RPC client.
function M.start(cmd, dispatchers, extra_spawn_params)
log.info('Starting RPC client', { cmd = cmd, extra = extra_spawn_params })
validate({
cmd = { cmd, 't' },
dispatchers = { dispatchers, 't', true },
})
extra_spawn_params = extra_spawn_params or {}
if extra_spawn_params.cwd then
assert(is_dir(extra_spawn_params.cwd), 'cwd must be a directory')
end
dispatchers = merge_dispatchers(dispatchers)
local sysobj ---@type vim.SystemObj
local client = new_client(dispatchers, {
write = function(msg)
sysobj:write(msg)
end,
is_closing = function()
return sysobj == nil or sysobj:is_closing()
end,
terminate = function()
sysobj:kill(15)
end,
})
local handle_body = function(body)
client:handle_body(body)
end
local stdout_handler = M.create_read_loop(handle_body, nil, function(err)
client:on_error(M.client_errors.READ_ERROR, err)
end)
local stderr_handler = function(_, chunk)
if chunk then
log.error('rpc', cmd[1], 'stderr', chunk)
end
end
local detached = not is_win
if extra_spawn_params.detached ~= nil then
detached = extra_spawn_params.detached
end
local ok, sysobj_or_err = pcall(vim.system, cmd, {
stdin = true,
stdout = stdout_handler,
stderr = stderr_handler,
cwd = extra_spawn_params.cwd,
env = extra_spawn_params.env,
detach = detached,
}, function(obj)
dispatchers.on_exit(obj.code, obj.signal)
end)
if not ok then
local err = sysobj_or_err --[[@as string]]
local sfx --- @type string
if string.match(err, 'ENOENT') then
sfx = '. The language server is either not installed, missing from PATH, or not executable.'
else
sfx = string.format(' with error message: %s', err)
end
local msg =
string.format('Spawning language server with cmd: `%s` failed%s', vim.inspect(cmd), sfx)
error(msg)
end
sysobj = sysobj_or_err --[[@as vim.SystemObj]]
return public_client(client)
end
return M