How does MTOM work?
MTOM is the W3C Message Transmission Optimization Mechanism, a method of efficiently sending binary data to and from web services.
How does it work in general?
Solution 1:
It all begins with the fact that SOAP is XML. And when you send anything other than text, for instance, an image - it has to be converted into a datatype that an XML processor can understand.
Without MTOM, your image will be converted to base64Binary and placed smack in the middle of your SOAP envelope. This conversion process makes the data fat.
<tns:data>A very looooooooooooooooooooooong base64Binary string</tns:data>
Here's a simple illustration:
With MTOM, the image will be transmitted outside the envelope as a MIME attachment - in short, it's sent according to its original datatype: a jpg, png, or gif. Of course it's still transmitted as binary data, but this time, there's no XML-related conversion, avoiding the computational overhead. XOP comes into the picture as it's the one that gives the location of the externalized image.
<soap:Envelope>
<soap:Body>
<tns:data>
<xop:include href="SomeUniqueID-ThatLeadsToTheImage"/>
</tns:data>
</soap:Body>
</soap:Envelope>
Content-id: "SomeUniqueID"
Content-Type: image/pngimage binary data here
Solution 2:
If you put Wireshark (or enabled System.Net Logging) on the non-MTOM enabled service, you should see the SOAP requests with the binary data encoded as BASE64. Sending it as BASE64 increases the size of the binary data but (I assume) makes it more interoperable.
With MTOM, the SOAP messages are sent as MIME messages with the BASE64 encoding being replaced with a placeholder. The binary data is then placed between delimiters (which happens for each piece of binary data), and then placed at the end of the SOAP request. The binary data is then sent unencoded. IIRC, MTOM also determines whether sending it as a MIME message will increase the size of the SOAP call and if doesn't provide a saving, it will send it as a normal SOAP message.
This provides an example of what the message sent over the wire looks like.