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I have a WCF service hosted on Windows Server 2008/IIS exposing a nettcpbinding endpoint using the DataContractSerializer. This service is consumed by a Windows Forms application, which is suffering from various performance issues. In an effort to reduce the payload transferred from server-to-client over our corporate network, I decided to integrate the protobuf-net (version r580) serialization engine into some of my service's operations using the ProtoBehavior attribute.

Prior to integration ofprotobuff-net, the cumulative size of the serialized server responses was approximately 18 MB. Afterwards, it was 1.6 MB, as verified with WCF trace logs on both client and server; unfortunately, this didn't result in decreased loading times in the client application.

After digging into it further, I found that the bytes received by the client over the network, pre-protobuf vs. post-protobuf, only differed by about 1MB, as reported by a network traffic tool. How can this be? How can payloads differing by almost 15 MB in their serialized form (comprising of several messages), only represent a 1 MB difference when transmitted over the network? Could the resulting TCP stream be overly bloated if the underlying protobuff stream is assembled a certain way?

Additionally, I should note that the protobuf-net serialized payload of 1.6 MB is comprised of several response messages, one of which is approximately 1.25 MB by itself; could this be the issue? Should I work on breaking that into smaller responses? If so, what's the threshold?

I'd appreciate any input regarding this as it's been puzzling me for a couple of weeks now. I've spent hours pouring through posts relating to protobuf-net, and while it's delivering on it's promise of providing a compact serialization format, I haven't been able to realize the benefits in practice.

Thanks in advance.

share|improve this question
    
what is the nature of your API? is it lots of small messages? if so, is it possible that you're simply drowning in protocol overheads? – Marc Gravell Sep 7 '12 at 6:24
    
Hi Marc, thanks for the quick reply... the short answer is, it depends. – jziolkow Sep 7 '12 at 14:11
    
...sorry, inadvertently hit 'Enter'. The service operations that were modified to use protobuf-net were responsible for retrieving collections of reference data elements for binding to drop down lists, list boxes, etc... These requests are usually batched/coordinated into one server request that will retrieve a collection of collections, which in some cases yields the 1.25 MB response (protobuf serialized) I mentioned in my original post. In general, our client application is chatty; it isn't uncommon for certain areas to generate 10+ server requests. – jziolkow Sep 7 '12 at 14:17
    
@Marc - I was looking into your comment regarding protocol overheads; I'm assume you're referring to the overhead being added by protobuf-net during serialization? Is there a strategy to avoid this overhead? I was under the impression that protobuf-net was appropriate for small and large object trees. In any case, all of the responses in question contain repeated elements (i.e. collections), which were implemented using wrapper objects containing a List<T> property adorned with the ProtoMember(1, DataFormat=DataFormat.Grouped) attribute. – jziolkow Sep 8 '12 at 15:14
    
No, protocol overheads is the exact opposite of that: it is the fixed cost that you pay even for small messages, unrelated to the serializer - so, identity headers, session tokens, encryption / security info, soap verbosity, despatcher info, etc – Marc Gravell Sep 8 '12 at 15:58

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