In the figure above,
starting from the left, you'll find the mobile WAP device attached to the mobile network
(GSM, CDDA, etc) which dials the modem attached to a dial-in server (RAS, or Remote Access
Service). This server gives the WAP device access to the protocols it needs. These are the
same lower level protocols as a normal Internet Service Provider will give you. This is
known as PPP or Point-to-Point Protocol.
These protocols are used to access the next step in the chain, the WAP gateway, in this
figure hosted by the mobile operator. The WAP gateway is the link between the wireless and
the "web" world, basically giving the WAP device access to the common internet.
Another way of explaining it, and in a bit more detail would be to say that when you type
in the URL for a site on your WAP device, for instance http://wap.colorline.no/ the WAP device first checks if it already has
an open connection, if not it dials up the PPP provider as described above. After the PPP
provider has given the WAP device the required protocols and assigned it an IP address,
the request for the URL is sent to the gateway. The WAP gateway, now under
"control" of the WAP device requests the URL with a normal HTTP request, such as GET http://wap.colorline.no/
On the internet, there is a normal "web" server which in this case holds both
WAP and "web" contents, which now receives the request to send out the contents
located at thehttp://wap.colorline.no/
URL. Also note the normal "web" browser at the lower part of the figure. The web
server, depending on which type of browser it is talking to (WAP or "web"),
sends out WAP, represented by the blue line, or "web" content represented by the
green line.
Following the requested content back to the WAP device, the contents, if they are in so
called textual WML code (the human readable type), the WAP gateway compiles the textual
WML into so called tokenized WML, or WMLC, where basically the code is
"compressed" down into binary data (the machine readable type). This tokenized
WML is then passed back to the WAP device. If the contents from the webserver is already
in tokenized WML format, the WAP gateway skips this operation. The reason for the
conversion from texual WML to tokenized WML is to reduce bandwidth usage. A WAP device's
WML browser can only read tokenized WML.
Finally, back at the WAP device that requested the URL, the WML browser, when receiving
the tokenized WML code renders the contents on the WAP device's display to present a card
for the user.
This is how the majority of WAP devices is connected to the internet, and if you're
completely new to WAP, you might want to get back to the more complex configurations below
a bit later.
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When the WAP device
is configured to use a public WAP gateway, and not one that is hosted by the mobile
operator, we basically move the WAP gateway out on to the internet. I repeat that this is not
the normal way WAP devices are configured, but during development you might come across
this. The figure then looks something like this: |
(The firewall is of
course optional, but highly recommended)
The WAP device gets internet access the same way as before, but from there it now connects
to the firewall which accepts or rejects the connection depending on the firewall
configuration. The firewall then passes the connection on to the WAP gateway inside the
WAP server. In this configuration, the chain between the content server and the WAP device
is point-to-point secured with the WTLS encryption protocol.
I would also like to remind you that a WAP server is not needed for normal sites. A plain
web server will do just fine, thank you very much :) |
