NAME
ngx_stream_echo - TCP/stream echo module for NGINX (a port of the ngx_http_echo module)
Table of Contents
- NAME
- Version
- Synopsis
- Description
- Directives
- Caveats
- TODO
- Installation
- Compatibility
- Community
- Report Bugs
- Source Repository
- Author
- Copyright & License
- See Also
Version
This module is still under early development.
Synopsis
Example 1
# nginx.conf
stream {
server {
listen 1234;
echo_send_timeout 10s; # default to 60s
echo "Hello, world!";
echo I really like doing downstream TCP;
}
}
# on the terminal
$ telnet 127.0.0.1 1234
Trying 127.0.0.1...
Connected to 127.0.0.1.
Escape character is '^]'.
Hello, world!
I really like doing downstream TCP
Connection closed by foreign host.
Example 2
stream {
server {
listen 1234;
echo "before sleep...";
echo_flush_wait; # ensure that any pending output is flushed
echo_sleep 3.1; # sleep for 3.1 sec
echo "after sleep...";
echo_duplicate 3 " hello"; # repeat " hello" for 3 times
echo; # just to ouput a new line
}
}
$ time telnet 127.0.0.1 1234
Trying 127.0.0.1...
Connected to 127.0.0.1.
Escape character is '^]'.
before sleep...
after sleep...
hello hello hello
Connection closed by foreign host.
real 0m3.106s
user 0m0.000s
sys 0m0.002s
Example 3
stream {
server {
listen 1234;
echo_read_buffer_size 2k;
echo_read_timeout 60s;
echo_read_bytes 2;
echo -n 'Got prompt: ';
echo_request_data;
echo;
echo_read_line;
echo -n "Got command: ";
echo_request_data;
}
}
# we type the line ">>print("hello, world")" in the telnet session below.
$ telnet 127.0.0.1 1234
Trying 127.0.0.1...
Connected to 127.0.0.1.
Escape character is '^]'.
>>print("hello, world!")
Got prompt: >>
Got command: print("hello, world!")
Connection closed by foreign host.
Example 4
stream {
server {
listen 1999;
# emulate a blackhole that swallows any incoming TCP
# messages greedily like a logging service.
# this can be used to mock up a logging service like
# syslog-ng (TCP), which is much more efficient than
# a typical netcat (nc) server.
echo_discard_request;
echo_sleep 3600; # in sec
}
}
Description
This module is a port of the handy ngx_http_echo module over the shiny new "stream" subsystem of NGINX. With this module, you can do simple custom output from constant strings directly from memory in your generic TCP (or stream-typed unix domain socket) server.
This module is particularly handy for mocking silly TCP endpoints during unit testing (like mocking a buggy and evil memcached server).
Also, this module can serve as a useful simple demo for writing NGINX stream-typed 3rd-party modules. Well, it is just a little bit more complex than a "hello world" module anyway.
Directives
echo
syntax: echo [options] <string>...
default: no
context: server
phase: content
Sends string arguments joined by spaces, along with a trailing newline, out to the client.
For example,
stream {
server {
listen 1234;
echo "Hello, world!";
echo foo bar baz;
}
}
Then connecting to the server port 1234 will immediately receive the response data
Hello, world!
foo bar baz
and then the server closes the connection right away.
When no argument is specified, echo emits the trailing newline alone, just like the echo command in shell.
one can suppress the trailing newline character in the output by using the -n
option, as in
echo -n "hello, ";
echo "world";
Connecting to the server will receive the response data
hello, world
where the first echo
command generates no trailing new-line due to the use of the -n
option.
To output string values prefixed with a dash (-
), you can specify the special --
option
to disambiguate such arguments from options. For instance,
echo -n -- -32+5;
The response is
-32+5
This command sends the data asynchronously to the main execution flow, that is, this command will return immediately without waiting for the output to be actually flushed into the system socket send buffers.
For slow connections the sending timeout protection is subject to the configuration of the echo_send_timeout configuration directive.
This command can be mixed with other echo_*
commands (like echo_duplicate)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_duplicate
syntax: echo_duplicate <count> <string>
default: no
context: server
phase: content
Outputs duplication of a string indicated by the second argument, using the count specified in the first argument.
For instance,
echo_duplicate 3 "abc";
will lead to the output of "abcabcabc"
.
Underscores are allowed in the count number, just like in Perl. For example, to emit 1000,000,000 instances of "hello, world"
:
echo_duplicate 1000_000_000 "hello, world";
The count
argument could be zero, but not negative. The second string
argument could be an empty string ("") likewise.
Unlike the echo directive, no trailing newline is appended to the result.
Like the echo command, this command sends the data asynchronously to the main execution flow, that is, this command will return immediately without waiting for the output to be actually flushed into the system socket send buffers.
For slow connections the sending timeout protection is subject to the configuration of the echo_send_timeout configuration directive.
This command can be mixed with other echo*
commands (like echo and echo_sleep)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_flush_wait
syntax: echo_flush_wait;
default: no
context: server
phase: content
Synchronously waits for all the pending output to be flushed out into the system socket send buffers. When the downstream connection is fast enough and there is no pending data, then this directive completes immediately without waiting.
The wait is a nonblocking operation. That is, it never blocks the NGINX event loop or any operating system threads.
The maximum waiting time is subject to the echo_send_timeout setting.
This command can be mixed with other echo*
commands (like echo and echo_sleep)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_sleep
syntax: echo_sleep <seconds>
default: no
context: server
phase: content
Sleeps for the time period specified by the argument, which is in seconds.
This operation is nonblocking, that is, it never blocks the NGINX event loop or any operating system threads.
The period might takes three digits after the decimal point and must be greater than 0.001 (i.e., 1ms).
An example is
echo_sleep 1.234; # sleep for 1.234 sec
echo "resumed!";
Behind the scene, it sets up a per-request "sleep" event object, and adds a timer using that custom event to the Nginx event model and just waits for a period of time on that event.
This command can be mixed with other echo*
commands (like echo and echo_duplicate)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_send_timeout
syntax: echo_send_timeout <time>
default: echo_send_timeout 60s
context: stream, server
Sets the sending timeout for the downstream socket, in seconds by default.
It is wise to always explicitly specify the time unit to avoid confusion. Time units supported are "s"(seconds), "ms"(milliseconds), "y"(years), "M"(months), "w"(weeks), "d"(days), "h"(hours), and "m"(minutes).
This time must be less than 597 hours.
If this directive is not specified, this module will use 60s
as the default.
echo_read_bytes
syntax: echo_read_bytes <size>
default: no
context: server
Reads the request data of the specified size and append it into the "reading buffer". The size of the buffer is controlled by the echo_read_buffer_size directive. The length of data dictated in this command cannot exceed the echo_read_buffer_size setting.
For example,
echo_read_bytes 5;
reads 5 bytes of request data from the downstream connection.
On the other hand,
echo_read_bytes 4k;
reads 4KB of data.
This command would not return (until timeout) until exactly the acount of data has been read as specified.
The timeout threshold is subject to the echo_read_timeout directive.
The data read (in the "reading buffer") can later be output by the echo_request_data directive.
This command can be mixed with other echo*
commands (like echo and echo_duplicate)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_read_line
syntax: echo_read_line;
default: no
context: server
Reads the request data of the specified size and append it into the "reading buffer". The size of the buffer is controlled by the echo_read_buffer_size directive. The length of data read by this command cannot exceed the echo_read_buffer_size setting.
The timeout threshold is subject to the echo_read_timeout directive.
The data read (in the "reading buffer") can later be output by the echo_request_data directive.
This command can be mixed with other echo*
commands (like echo and echo_duplicate)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_request_data
syntax: echo_request_data <size>
default: no
context: server
Sends all the data accumulated in the "reading buffer" to the downstream connection and clears all the data in the "reading buffer".
Unlike echo or echo_duplicate, this command does not return until all the data is actually flushed into the system socket send buffer. Or in other words, this command is a synchronous operation (but still doing nonblocking I/O, of course).
This command can be mixed with other echo*
commands (like echo and echo_duplicate)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_discard_request
syntax: echo_discard_request
default: no
context: server
Discards any request data already pre-read in the "reading buffer" or any future incoming request data.
This command is an asynchronous operation which returns immediately without waiting for all the incoming request.
Once this command is executed, any subsequent request reading commands like echo_read_line are disallowed.
This command can be mixed with other echo*
commands (like echo and echo_duplicate)
freely in the same server. The module
handler will run them sequentially in the same order of their appearance in the NGINX configuration file.
echo_read_buffer_size
syntax: echo_read_buffer_size <size>
default: echo_read_buffer_size 1k
context: stream, server
Controls the size of the "reading buffer" used to receive downstream data via commands like echo_read_bytes.
echo_read_timeout
syntax: echo_read_timeout <time>
default: echo_read_timeout 60s
context: stream, server
Sets the reading timeout for the downstream socket, in seconds by default. Affecting reading directives like echo_read_bytes.
It is wise to always explicitly specify the time unit to avoid confusion. Time units supported are "s"(seconds), "ms"(milliseconds), "y"(years), "M"(months), "w"(weeks), "d"(days), "h"(hours), and "m"(minutes).
This time must be less than 597 hours.
If this directive is not specified, this module will use 60s
as the default.
echo_client_error_log_level
syntax: echo_client_error_log_level info | notice | warn | error
default: echo_client_error_log_level info
context: stream, server
Specifies the error log level for client side errors (like the error that the client
closes the connection prematurely). Default to info
to avoid real-world clients from
flooding the server error log files (which can be quite expensive).
echo_lingering_close
syntax: echo_lingering_close off | on | always
default: echo_lingering_close on
context: stream, server
Controls how nginx closes client connections.
The default value on
instructs nginx to wait for and process (read and discard) additional
data from a client before fully closing a connection, but only if
heuristics suggests that a client may be sending more data (like there is
unprocessed pre-read data in the "reading buffer" or the socket is still
ready for reading).
The value always
will cause nginx to unconditionally wait for and process
additional client data.
The value off
tells nginx to never wait for more data and close
the connection immediately. This behavior breaks the protocol and may result in
interrupting RST packets sent. Thus this configuration value should
not be used under normal circumstances.
How long nginx should wait is controlled by both the echo_lingering_time and echo_lingering_timeout directives.
echo_lingering_time
syntax: echo_lingering_time <time>
default: echo_lingering_time 30s
context: stream, server
When lingering_close is in effect, this directive specifies the maximum time during which nginx will process (read and ignore) additional data coming from a client. After that, the connection will be closed, even if there will be more data.
echo_lingering_timeout
syntax: echo_lingering_timeout <time>
default: echo_lingering_timeout 5s
context: stream, server
When lingering_close is in effect, this directive specifies the maximum waiting time between successive arrivals of client data. If data is not received during this time, the connection is closed. Otherwise, the data are read and ignored, and nginx starts waiting for more data again. The “wait-read-ignore” cycle is repeated, but no longer than specified by the lingering_time directive.
Caveats
- Unlike the ngx_http_echo module, this module has no NGINX variable support since NGINX variables are not supported in the "stream" subsystem of NGINX (yet).
- The commands of this module cannot be mixed with other response-generating modules like the standard
ngx_stream_proxy module in the same
server {}
block, for obvious reasons.
TODO
- Implement the
echo_test_request_data
directive to test existing data read in the "reading buffer" with a literal string specified as the directive argument. This is very useful for mock-up testing. - Implement the
echo_read_literal
directive for the combination of the command sequenceecho_read_bytes n; echo_test_request_data str;
wheren
is the length of thestr
literal string. This could be very useful for mock-up testing. - Implement the
echo_read_until
directive to allow reading request data until seeing a terminator string literal specified as the directive argument. - Implement the
echo_read_regex
directive to allow reading request data according to a user-supplied Perl-compatible regular expression (maybe we could use libsregex to ensure efficient streaming reading). - Port over the "postpone_output" feature of the "http" subsystem. This could improve performance by reducing syscalls (and potentially underlying data packets too).
Installation
Grab the nginx source code from nginx.org, for example, the version 1.9.3 (see nginx compatibility), and then build the source with this module:
wget 'http://nginx.org/download/nginx-1.9.3.tar.gz'
tar -xzvf nginx-1.9.3.tar.gz
cd nginx-1.9.3/
# Here we assume you would install you nginx under /opt/nginx/.
./configure --prefix=/opt/nginx \
--with-stream \
--add-module=/path/to/stream-echo-nginx-module
make -j2
sudo make install
Compatibility
The following versions of Nginx should work with this module:
- 1.9.x (last tested: 1.9.7)
NGINX versions older than 1.9.0 will not work due to the lack of the "stream" subsystem.
Community
English Mailing List
The openresty-en mailing list is for English speakers.
Chinese Mailing List
The openresty mailing list is for Chinese speakers.
Report Bugs
Although a lot of effort has been put into testing and code tuning, there must be some serious bugs lurking somewhere in this module. So whenever you are bitten by any quirks, please don't hesitate to
- create a ticket on the issue tracking interface provided by GitHub,
- or send a bug report, questions, or even patches to the OpenResty Community.
Source Repository
Available on github at openresty/stream-echo-nginx-module.
Author
Yichun "agentzh" Zhang (章亦春) <agentzh@gmail.com>, OpenResty Inc.
This wiki page is also maintained by the author himself, and everybody is encouraged to improve this page as well.
Copyright & License
Copyright (c) 2015-2017, Yichun "agentzh" Zhang (章亦春) agentzh@gmail.com, OpenResty Inc.
This module is licensed under the terms of the BSD license.
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.