ngx_stream_lua_module - Embed the power of Lua into Nginx stream/TCP Servers.
This module is a core component of OpenResty. If you are using this module, then you are essentially using OpenResty.
This module is not distributed with the Nginx source. See the installation instructions.
- Name
- Status
- Version
- Synopsis
- Description
- TODO
- Nginx Compatibility
- Installation
- Community
- Code Repository
- Bugs and Patches
- Acknowledgments
- Copyright and License
- See Also
Production ready.
This document describes ngx_stream_lua v0.0.8, which was released on 2 July, 2020.
events {
worker_connections 1024;
}
stream {
# define a TCP server listening on the port 1234:
server {
listen 1234;
content_by_lua_block {
ngx.say("Hello, Lua!")
}
}
}
Set up as an SSL TCP server:
stream {
server {
listen 4343 ssl;
ssl_protocols TLSv1 TLSv1.1 TLSv1.2;
ssl_ciphers AES128-SHA:AES256-SHA:RC4-SHA:DES-CBC3-SHA:RC4-MD5;
ssl_certificate /path/to/cert.pem;
ssl_certificate_key /path/to/cert.key;
ssl_session_cache shared:SSL:10m;
ssl_session_timeout 10m;
content_by_lua_block {
local sock = assert(ngx.req.socket(true))
local data = sock:receive() -- read a line from downstream
if data == "thunder!" then
ngx.say("flash!") -- output data
else
ngx.say("boom!")
end
ngx.say("the end...")
}
}
}
Listening on a UNIX domain socket is also supported:
stream {
server {
listen unix:/tmp/nginx.sock;
content_by_lua_block {
ngx.say("What's up?")
ngx.flush(true) -- flush any pending output and wait
ngx.sleep(3) -- sleeping for 3 sec
ngx.say("Bye bye...")
}
}
}
This is a port of the ngx_http_lua_module to the Nginx "stream" subsystem so as to support generic stream/TCP clients.
The available Lua APIs and Nginx directives remain the same as those of the ngx_http_lua module.
The following directives are ported directly from ngx_http_lua. Please check the documentation of ngx_http_lua for more details about their usage and behavior.
- lua_load_resty_core
- lua_code_cache
- lua_regex_cache_max_entries
- lua_package_path
- lua_package_cpath
- init_by_lua_block
- init_by_lua_file
- init_worker_by_lua_block
- init_worker_by_lua_file
- preread_by_lua_block
- preread_by_lua_file
- content_by_lua_block
- content_by_lua_file
- balancer_by_lua_block
- balancer_by_lua_file
- log_by_lua_block
- log_by_lua_file
- ssl_client_hello_by_lua_block
- ssl_client_hello_by_lua_file
- ssl_certificate_by_lua_block
- ssl_certificate_by_lua_file
- lua_shared_dict
- lua_socket_connect_timeout
- lua_socket_buffer_size
- lua_socket_pool_size
- lua_socket_keepalive_timeout
- lua_socket_log_errors
- lua_ssl_ciphers
- lua_ssl_crl
- lua_ssl_protocols
- lua_ssl_trusted_certificate
- lua_ssl_verify_depth
- lua_ssl_conf_command
- lua_check_client_abort
- lua_max_pending_timers
- lua_max_running_timers
- lua_sa_restart
- lua_add_variable
- lua_capture_error_log
- preread_by_lua_no_postpone
The send_timeout directive in the Nginx
"http" subsystem is missing in the "stream" subsystem. As such,
ngx_stream_lua_module uses the lua_socket_send_timeout
directive for this
purpose instead.
Note: the lingering close directive that used to exist in older version of
stream_lua_nginx_module
has been removed and can now be simulated with the
newly added tcpsock:shutdown API if necessary.
syntax: preread_by_lua_block { lua-script }
context: stream, server
phase: preread
Acts as a preread
phase handler and executes Lua code string specified in lua-script
for every connection
(or packet in datagram mode).
The Lua code may make API calls and is executed as a new spawned coroutine in an independent global environment (i.e. a sandbox).
It is possible to acquire the raw request socket using ngx.req.socket
and receive data from or send data to the client. However, keep in mind that calling the receive()
method
of the request socket will consume the data from the buffer and such consumed data will not be seen by handlers
further down the chain.
The preread_by_lua_block
code will always run at the end of the preread
processing phase unless
preread_by_lua_no_postpone is turned on.
This directive was first introduced in the v0.0.3
release.
syntax: preread_by_lua_file <path-to-lua-script-file>
context: stream, server
phase: preread
Equivalent to preread_by_lua_block, except that the file specified by <path-to-lua-script-file>
contains the Lua code
or LuaJIT bytecode to be executed.
Nginx variables can be used in the <path-to-lua-script-file>
string to provide flexibility. This however carries some risks and is not ordinarily recommended.
When a relative path like foo/bar.lua
is given, it will be turned into the absolute path relative to the server prefix
path determined by the -p PATH
command-line option given when starting the Nginx server.
When the Lua code cache is turned on (by default), the user code is loaded once at the first connection and cached. The Nginx config must be reloaded each time the Lua source file is modified. The Lua code cache can be temporarily disabled during development by switching lua_code_cache off
in nginx.conf
to avoid having to reload Nginx.
This directive was first introduced in the v0.0.3
release.
syntax: log_by_lua_block { lua-script }
context: stream, server
phase: log
Runs the Lua source code specified as <lua-script>
during the log
request processing phase. This does not replace the current access logs, but runs before.
Yielding APIs such as ngx.req.socket
, ngx.socket.*
, ngx.sleep
, or ngx.say
are not available in this phase.
This directive was first introduced in the v0.0.3
release.
syntax: log_by_lua_file <path-to-lua-script-file>
context: stream, server
phase: log
Equivalent to log_by_lua_block, except that the file specified by <path-to-lua-script-file>
contains the Lua code
or LuaJIT bytecode to be executed.
Nginx variables can be used in the <path-to-lua-script-file>
string to provide flexibility. This however carries some risks and is not ordinarily recommended.
When a relative path like foo/bar.lua
is given, it will be turned into the absolute path relative to the server prefix
path determined by the -p PATH
command-line option given when starting the Nginx server.
When the Lua code cache is turned on (by default), the user code is loaded once at the first connection and cached. The Nginx config must be reloaded each time the Lua source file is modified. The Lua code cache can be temporarily disabled during development by switching lua_code_cache off
in nginx.conf
to avoid having to reload Nginx.
This directive was first introduced in the v0.0.3
release.
syntax: lua_add_variable $var
context: stream
Add the variable $var
to the "stream" subsystem and makes it changeable. If $var
already exists,
this directive will do nothing.
By default, variables added using this directive are considered "not found" and reading them
using ngx.var
will return nil
. However, they could be re-assigned via the ngx.var.VARIABLE
API at any time.
This directive was first introduced in the v0.0.4
release.
syntax: preread_by_lua_no_postpone on|off
context: stream
Controls whether or not to disable postponing preread_by_lua* directives
to run at the end of the preread
processing phase. By default, this directive is turned off
and the Lua code is postponed to run at the end of the preread
phase.
This directive was first introduced in the v0.0.4
release.
Many Lua API functions are ported from ngx_http_lua. Check out the official manual of ngx_http_lua for more details on these Lua API functions.
This module fully supports the new variable subsystem inside the Nginx stream core. You may access any built-in variables provided by the stream core or other stream modules.
-
ngx.OK
,ngx.ERROR
, and etc. -
ngx.ERR
,ngx.WARN
, and etc.
Only raw request sockets are supported, for obvious reasons. The raw
argument value
is ignored and the raw request socket is always returned. Unlike ngx_http_lua,
you can still call output API functions like ngx.say
, ngx.print
, and ngx.flush
after acquiring the raw request socket via this function.
When the stream server is in UDP mode, reading from the downstream socket returned by the
ngx.req.socket
call will only return the content of a single packet. Therefore
the reading call will never block and will return nil, "no more data"
when all the
data from the datagram has been consumed. However, you may choose to send multiple UDP
packets back to the client using the downstream socket.
The raw TCP sockets returned by this module will contain the following extra method:
syntax: data, err = reqsock:receiveany(max)
context: content_by_lua*, ngx.timer.*, ssl_certificate_by_lua*
This method is similar to tcpsock:receiveany method
This method was introduced into stream-lua-nginx-module
since v0.0.8
.
syntax: ok, err = tcpsock:shutdown("send")
context: content_by_lua*
Shuts down the write part of the request socket, prevents all further writing to the client and sends TCP FIN, while keeping the reading half open.
Currently only the "send"
direction is supported. Using any parameters other than "send" will return
an error.
If you called any output functions (like ngx.say)
before calling this method, consider use ngx.flush(true)
to make sure all busy buffers are complely
flushed before shutting down the socket. If any busy buffers were detected, this method will return nil
will error message "socket busy writing"
.
This feature is particularly useful for protocols that generate a response before actually finishing consuming all incoming data. Normally, the kernel will send RST to the client when tcpsock:close is called without emptying the receiving buffer first. Calling this method will allow you to keep reading from the receiving buffer and prevents RST from being sent.
You can also use this method to simulate lingering close similar to that provided by the ngx_http_core_module for protocols in need of such behavior. Here is an example:
local LINGERING_TIME = 30 -- 30 seconds
local LINGERING_TIMEOUT = 5000 -- 5 seconds
local ok, err = sock:shutdown("send")
if not ok then
ngx.log(ngx.ERR, "failed to shutdown: ", err)
return
end
local deadline = ngx.time() + LINGERING_TIME
sock:settimeouts(nil, nil, LINGERING_TIMEOUT)
repeat
local data, _, partial = sock:receive(1024)
until (not data and not partial) or ngx.time() >= deadline
syntax: ok, err = reqsock:peek(size)
context: preread_by_lua*
Peeks into the preread buffer that contains downstream data sent by the client without consuming them. That is, data returned by this API will still be forwarded upstream in later phases.
This function takes a single required argument, size
, which is the number of bytes to be peeked.
Repeated calls to this function always returns data from the beginning of the preread buffer.
Note that preread phase happens after the TLS handshake. If the stream server was configured with TLS enabled, the returned data will be in clear text.
If preread buffer does not have the requested amount of data, then the current Lua thread will
be yielded until more data is available, preread_buffer_size
has been exceeded, or preread_timeout
has elapsed. Successful calls always return the requested amounts of data, that is, no partial
data will be returned.
When preread_buffer_size
has been exceeded, the current stream session will be terminated with the
session status code 400
immediately by the stream core module, with error message "preread buffer full"
that will be printed to the error log.
When preread_timeout
has been exceeded,
the current stream session will be terminated with the
session status code 200
immediately by the stream core module.
In both cases, no further processing on the session is possible (except log_by_lua*
). The connection will be closed by the
stream core module automatically.
Note that this API cannot be used if consumption of client data has occurred. For example, after calling
reqsock:receive
. If such an attempt was made, the Lua error "attempt to peek on a consumed socket"
will
be thrown. Consuming client data after calling this API is allowed and safe.
Here is an example of using this API:
local sock = assert(ngx.req.socket())
local data = assert(sock:peek(1)) -- peek the first 1 byte that contains the length
data = string.byte(data)
data = assert(sock:peek(data + 1)) -- peek the length + the size byte
local payload = data:sub(2) -- trim the length byte to get actual payload
ngx.log(ngx.INFO, "payload is: ", payload)
This API was first introduced in the v0.0.6
release.
-
This call currently ignores the
wait
argument and always wait for all the pending output to be completely flushed out (to the system socket send buffers). -
Always takes the Lua string value
"stream"
in this module.
- Add new directives
access_by_lua_block
andaccess_by_lua_file
. - Add
lua_postpone_output
to emulate the postpone_output directive.
The latest version of this module is compatible with the following versions of Nginx:
- 1.19.x (last tested: 1.19.3)
- 1.17.x (last tested: 1.17.8)
- 1.15.x (last tested: 1.15.8)
- 1.13.x (last tested: 1.13.6)
Nginx cores older than 1.13.6 (exclusive) are not tested and may or may not work. Use at your own risk!
It is highly recommended to use OpenResty releases which bundle Nginx, ngx_http_lua, ngx_stream_lua, (this module), LuaJIT, as well as other powerful companion Nginx modules and Lua libraries.
It is discouraged to build this module with Nginx yourself since it is tricky to set up exactly right.
Note that Nginx, LuaJIT, and OpenSSL official releases have various limitations and long standing bugs that can cause some of this module's features to be disabled, not work properly, or run slower. Official OpenResty releases are recommended because they bundle OpenResty's optimized LuaJIT 2.1 fork and Nginx/OpenSSL patches.
Alternatively, ngx_stream_lua can be manually compiled into Nginx:
- LuaJIT can be downloaded from the latest release of OpenResty's LuaJIT fork. The official LuaJIT 2.x releases are also supported, although performance will be significantly lower for reasons elaborated above
- Download the latest version of ngx_stream_lua HERE
- Download the latest supported version of Nginx HERE (See Nginx Compatibility)
Build the source with this module:
wget 'https://nginx.org/download/nginx-1.13.6.tar.gz'
tar -xzvf nginx-1.13.6.tar.gz
cd nginx-1.13.6/
# tell nginx's build system where to find LuaJIT 2.1:
export LUAJIT_LIB=/path/to/luajit/lib
export LUAJIT_INC=/path/to/luajit/include/luajit-2.1
# Here we assume Nginx is to be installed under /opt/nginx/.
./configure --prefix=/opt/nginx \
--with-ld-opt="-Wl,-rpath,/path/to/luajit-or-lua/lib" \
--with-stream \
--with-stream_ssl_module \
--add-module=/path/to/stream-lua-nginx-module
# Build and install
make -j4
make install
You may use --without-http
if you do not wish to use this module with the
"http" subsystem. ngx_stream_lua will work perfectly fine without the "http"
subsystem.
The openresty-en mailing list is for English speakers.
The openresty mailing list is for Chinese speakers.
The code repository of this project is hosted on GitHub at openresty/stream-lua-nginx-module.
Please submit bug reports, wishlists, or patches by
- creating a ticket on the GitHub Issue Tracker,
- or posting to the OpenResty community.
We appreciate Kong Inc. for kindly sponsoring OpenResty Inc. on the following work:
- Compatibility with Nginx core 1.13.3.
- Development of meta-lua-nginx-module to make code sharing between this module and lua-nginx-module possible.
balancer_by_lua_*
,preread_by_lua_*
,log_by_lua_*
andssl_certby_lua*
phases support.reqsock:peek
API support.
This module is licensed under the BSD license.
Copyright (C) 2009-2019, by Yichun "agentzh" Zhang (章亦春) agentzh@gmail.com, OpenResty Inc.
Copyright (C) 2009-2016, by Xiaozhe Wang (chaoslawful) chaoslawful@gmail.com.
All rights reserved.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
-
Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
-
Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.