Note: In Tarantool 1.7.5+, a full-featured HTTP client is available aboard. For Tarantool 1.6.5+, both HTTP server and client are available here.
- Prerequisites
- Installation
- Usage
- Creating a server
- Using routes
- Contents of app_dir
- Route handlers
- Working with stashes
- Working with cookies
- Rendering a template
- Template helpers
- Hooks
- See also
- Tarantool 1.7.5+ with header files (
tarantool
&&tarantool-dev
packages)
You can:
-
clone the repository and build the
http
module using CMake:git clone https://github.com/tarantool/http.git cd http && cmake . -DCMAKE_BUILD_TYPE=RelWithDebugInfo make make install
-
install the
http
module usingtarantoolctl
:tarantoolctl rocks install http
-
install the
http
module using LuaRocks (see TarantoolRocks for LuaRocks configuration details):luarocks install https://raw.githubusercontent.com/tarantool/http/master/rockspecs/http-scm-1.rockspec --local
The server is an object which is configured with HTTP request handlers, routes (paths), templates, and a port to bind to. Unless Tarantool is running under a superuser, port numbers below 1024 may be unavailable.
The server can be started and stopped anytime. Multiple servers can be created.
To start a server:
- Create it with
httpd = require('http.server').new(...)
. - Configure routing with
httpd:route(...)
. - Start it with
httpd:start()
.
To stop the server, use httpd:stop()
.
httpd = require('http.server').new(host, port[, { options } ])
host
and port
must contain:
- For tcp socket: the host and port to bind to.
- For unix socket:
unix/
and path to socket (for example/tmp/http-server.sock
) to bind to.
options
may contain:
max_header_size
(default is 4096 bytes) - a limit for HTTP request header size.header_timeout
(default: 100 seconds) - a timeout until the server stops reading HTTP headers sent by the client. The server closes the client connection if the client doesn't send its headers within the given amount of time.app_dir
(default is '.', the server working directory) - a path to the directory with HTML templates and controllers.handler
- a Lua function to handle HTTP requests (this is a handler to use if the module "routing" functionality is not needed).charset
- the character set for server responses of typetext/html
,text/plain
andapplication/json
.display_errors
- return application errors and backtraces to the client (like PHP).log_errors
- log application errors usinglog.error()
.log_requests
- log incoming requests.
It is possible to automatically route requests between different handlers, depending on the request path. The routing API is inspired by Mojolicious API.
Routes can be defined using:
- an exact match (e.g. "index.php")
- simple regular expressions
- extended regular expressions
Route examples:
'/' -- a simple route
'/abc' -- a simple route
'/abc/:cde' -- a route using a simple regular expression
'/abc/:cde/:def' -- a route using a simple regular expression
'/ghi*path' -- a route using an extended regular expression
To configure a route, use the route()
method of the httpd
object:
httpd:route({ path = '/path/to' }, 'controller#action')
httpd:route({ path = '/', template = 'Hello <%= var %>' }, handle1)
httpd:route({ path = '/:abc/cde', file = 'users.html.el' }, handle2)
httpd:route({ path = '/objects', method = 'GET' }, handle3)
...
The first argument for route()
is a Lua table with one or more keys:
file
- a template file name (can be relative to.{app_dir}/templates
, whereapp_dir
is the path set when creating the server). If no template file name extension is provided, the extension is set to ".html.el", meaning HTML with embedded Lua.template
- template Lua variable name, in case the template is a Lua variable. Iftemplate
is a function, it's called on every request to get template body. This is useful if template body must be taken from a database.path
- route path, as described earlier.name
- route name.method
- method on the route likePOST
,GET
,PUT
,DELETE
The second argument is the route handler to be used to produce a response to the request.
The typical usage is to avoid passing file
and template
arguments,
since they take time to evaluate, but these arguments are useful
for writing tests or defining HTTP servers with just one "route".
The handler can also be passed as a string of the form 'filename#functionname'.
In that case, the handler body is taken from a file in the
{app_dir}/controllers
directory.
public
- a path to static content. Everything stored on this path defines a route which matches the file name, and the HTTP server serves this file automatically, as is. Notice that the server doesn't usesendfile()
, and it reads the entire content of the file into the memory before passing it to the client. ??? Caching is not used, unless turned on. So this is not suitable for large files, use nginx instead.templates
- a path to templates.controllers
- a path to *.lua files with Lua controllers. For example, the controller name 'module.submodule#foo' is mapped to{app_dir}/controllers/module.submodule.lua
.
A route handler is a function which accepts one argument (Request) and returns one value (Response).
function my_handler(req)
-- req is a Request object
-- resp is a Response object
local resp = req:render({text = req.method..' '..req.path })
resp.headers['x-test-header'] = 'test';
resp.status = 201
return resp
end
req.method
- HTTP request type (GET
,POST
etc).req.path
- request path.req.query
- request arguments.req.proto
- HTTP version (for example,{ 1, 1 }
isHTTP/1.1
).req.headers
- normalized request headers. A normalized header is in the lower case, all headers joined together into a single string.req.peer
- a Lua table with information about the remote peer (likesocket:peer()
).tostring(req)
- returns a string representation of the request.req:request_line()
- returns the request body.req:read(delimiter|chunk|{delimiter = x, chunk = x}, timeout)
- reads the raw request body as a stream (seesocket:read()
).req:json()
- returns a Lua table from a JSON request.req:post_param(name)
- returns a single POST request a parameter value. Ifname
isnil
, returns all parameters as a Lua table.req:query_param(name)
- returns a single GET request parameter value. Ifname
isnil
, returns a Lua table with all arguments.req:param(name)
- any request parameter, either GET or POST.req:cookie(name)
- to get a cookie in the request.req:stash(name[, value])
- get or set a variable "stashed" when dispatching a route.req:url_for(name, args, query)
- returns the route's exact URL.req:render({})
- create a Response object with a rendered template.req:redirect_to
- create a Response object with an HTTP redirect.
resp.status
- HTTP response code.resp.headers
- a Lua table with normalized headers.resp.body
- response body (string|table|wrapped_iterator).resp:setcookie({ name = 'name', value = 'value', path = '/', expires = '+1y', domain = 'example.com'))
- addsSet-Cookie
headers toresp.headers
.
function my_handler(req)
return {
status = 200,
headers = { ['content-type'] = 'text/html; charset=utf8' },
body = [[
<html>
<body>Hello, world!</body>
</html>
]]
}
end
function hello(self)
local id = self:stash('id') -- here is :id value
local user = box.space.users:select(id)
if user == nil then
return self:redirect_to('/users_not_found')
end
return self:render({ user = user })
end
httpd = box.httpd.new('127.0.0.1', 8080)
httpd:route(
{ path = '/:id/view', template = 'Hello, <%= user.name %>' }, hello)
httpd:start()
controller
- the controller name.action
- the handler name in the controller.format
- the current output format (e.g.html
,txt
). Is detected automatically based on the request'spath
(for example,/abc.js
setsformat
tojs
). When producing a response,format
is used to serve the response's 'Content-type:'.
To get a cookie, use:
function show_user(self)
local uid = self:cookie('id')
if uid ~= nil and string.match(uid, '^%d$') ~= nil then
local user = box.select(users, 0, uid)
return self:render({ user = user })
end
return self:redirect_to('/login')
end
To set a cookie, use the setcookie()
method of a response object and pass to
it a Lua table defining the cookie to be set:
function user_login(self)
local login = self:param('login')
local password = self:param('password')
local user = box.select(users, 1, login, password)
if user ~= nil then
local resp = self:redirect_to('/')
resp:setcookie({ name = 'uid', value = user[0], expires = '+1y' })
return resp
end
-- to login again and again and again
return self:redirect_to('/login')
end
The table must contain the following fields:
-
name
-
value
-
path
(optional; if not set, the current request path is used) -
domain
(optional) -
expires
- cookie expire date, or expire offset, for example:1d
- 1 day+1d
- the same23d
- 23 days+1m
- 1 month (30 days)+1y
- 1 year (365 days)
Lua can be used inside a response template, for example:
<html>
<head>
<title><%= title %></title>
</head>
<body>
<ul>
% for i = 1, 10 do
<li><%= item[i].key %>: <%= item[i].value %></li>
% end
</ul>
</body>
</html>
To embed Lua code into a template, use:
<% lua-here %>
- insert any Lua code, including multi-line. Can be used anywhere in the template.% lua-here
- a single-line Lua substitution. Can only be present at the beginning of a line (with optional preceding spaces and tabs, which are ignored).
A few control characters may follow %
:
=
(e.g.,<%= value + 1 %>
) - runs the embedded Lua code and inserts the result into HTML. Special HTML characters, such as<
,>
,&
,"
, are escaped.==
(e.g.,<%== value + 10 %>
) - the same, but without escaping.
A Lua statement inside the template has access to the following environment:
- Lua variables defined in the template,
- stashed variables,
- variables standing for keys in the
render
table.
Helpers are special functions that are available in all HTML
templates. These functions must be defined when creating an httpd
object.
Setting or deleting a helper:
-- setting a helper
httpd:helper('time', function(self, ...) return box.time() end)
-- deleting a helper
httpd:helper('some_name', nil)
Using a helper inside an HTML template:
<div>
Current timestamp: <%= time() %>
</div>
A helper function can receive arguments. The first argument is always the current controller. The rest is whatever is passed to the helper from the template.
It is possible to define additional functions invoked at various stages of request processing.
If handler
is present in httpd
options, it gets
involved on every HTTP request, and the built-in routing
mechanism is unused (no other hooks are called in this case).
Is invoked before a request is routed to a handler. The first argument of the hook is the HTTP request to be handled. The return value of the hook is ignored.
This hook could be used to log a request, or modify request headers.
Is invoked after a handler for a route is executed.
The arguments of the hook are the request passed into the handler, and the response produced by the handler.
This hook can be used to modify the response. The return value of the hook is ignored.
- Tarantool project on GitHub
- Tests for the
http
module