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Using test-server as a quickstart
---------------------------------
For a Fedora x86_86 box, the following config line was
needed:
./configure --prefix=/usr --libdir=/usr/lib64 --enable-openssl
otherwise if /usr/local/... and /usr/local/lib are OK then...
$ ./configure --enable-openssl
$ make clean
$ make
$ sudo make install
$ libwebsockets-test-server
should be enough to get a test server listening on port 7861.
There are a couple of other possible configure options
--enable-nofork disables the fork into the background API
and removes all references to fork() and
pr_ctl() from the sources. Use it if your
platform doesn't support forking.
--enable-libcrypto by default libwebsockets uses its own
built-in md5 and sha-1 implementation for
simplicity. However the libcrypto ones
may be faster, and in a distro context it
may be highly desirable to use a common
library implementation for ease of security
upgrades. Give this configure option
to disable the built-in ones and force use
of the libcrypto (part of openssl) ones.
--with-client-cert-dir=dir tells the client ssl support where to
look for trust certificates to validate
the remote certificate against.
--enable-noping Don't try to build the ping test app
It needs some unixy environment that
may choke in other build contexts, this
lets you cleanly stop it being built
Testing server with a browser
-----------------------------
If you point your browser (eg, Chrome) to
http://127.0.0.1:7681
It will fetch a script in the form of test.html, and then run the
script in there on the browser to open a websocket connection.
Incrementing numbers should appear in the browser display.
Using SSL on the server side
----------------------------
To test it using SSL/WSS, just run the test server with
$ libwebsockets-test-server --ssl
and use the URL
https://127.0.0.1:7681
The connection will be entirely encrypted using some generated
certificates that your browser will not accept, since they are
not signed by any real Certificate Authority. Just accept the
certificates in the browser and the connection will proceed
in first https and then websocket wss, acting exactly the
same.
test-server.c is all that is needed to use libwebsockets for
serving both the script html over http and websockets.
Forkless operation
------------------
If your target device does not offer fork(), you can use
libwebsockets from your own main loop instead. Use the
configure option --nofork and simply call libwebsocket_service()
from your own main loop as shown in the test app sources.
Testing websocket client support
--------------------------------
If you run the test server as described above, you can also
connect to it using the test client as well as a browser.
$ libwebsockets-test-client localhost
will by default connect to the test server on localhost:7681
and print the dumb increment number from the server at the
same time as drawing random circles in the mirror protocol;
if you connect to the test server using a browser at the
same time you will be able to see the circles being drawn.
Testing SSL on the client side
------------------------------
To test SSL/WSS client action, just run the client test with
$ libwebsockets-test-client localhost --ssl
By default the client test applet is set to accept selfsigned
certificates used by the test server, this is indicated by the
use_ssl var being set to 2. Set it to 1 to reject any server
certificate that it doesn't have a trusted CA cert for.
Using the websocket ping utility
--------------------------------
libwebsockets-test-ping connects as a client to a remote
websocket server using 04 protocol and pings it like the
normal unix ping utility.
$ libwebsockets-test-ping localhost
handshake OK for protocol lws-mirror-protocol
Websocket PING localhost.localdomain (127.0.0.1) 64 bytes of data.
64 bytes from localhost: req=1 time=0.1ms
64 bytes from localhost: req=2 time=0.1ms
64 bytes from localhost: req=3 time=0.1ms
64 bytes from localhost: req=4 time=0.2ms
64 bytes from localhost: req=5 time=0.1ms
64 bytes from localhost: req=6 time=0.2ms
64 bytes from localhost: req=7 time=0.2ms
64 bytes from localhost: req=8 time=0.1ms
^C
--- localhost.localdomain websocket ping statistics ---
8 packets transmitted, 8 received, 0% packet loss, time 7458ms
rtt min/avg/max = 0.110/0.185/0.218 ms
$
By default it sends 64 byte payload packets using the 04
PING packet opcode type. You can change the payload size
using the -s= flag, up to a maximum of 125 mandated by the
04 standard.
Using the lws-mirror protocol that is provided by the test
server, libwebsockets-test-ping can also use larger payload
sizes up to 4096 is BINARY packets; lws-mirror will copy
them back to the client and they appear as a PONG. Use the
-m flag to select this operation.
The default interval between pings is 1s, you can use the -i=
flag to set this, including fractions like -i=0.01 for 10ms
interval.
Before you can even use the PING opcode that is part of the
standard, you must complete a handshake with a specified
protocol. By default lws-mirror-protocol is used which is
supported by the test server. But if you are using it on
another server, you can specify the protcol to handshake with
by --protocol=protocolname
proxy support
-------------
The http_proxy environment variable is respected by the client
connection code for both ws:// and wss://. It doesn't support
authentication yet.
You use it like this
export http_proxy=myproxy.com:3128
libwebsockets-test-client someserver.com
Websocket version supported
---------------------------
The websocket client code is 04 version, the server supports
both 00/76 in text mode and 04 dynamically per-connection
depending on the version of the client / browser.
2011-01-22 Andy Green <andy@warmcat.com>