If you can help it, definitely look for alternatives, because manually doing compression in ASP.NET is NOT fun. But, if you are as hard-headed as I am, I submit to you the following.
First of all: do NOT use .NET's built-in compression stream classes. They are buggy and can truncate bytes off the end of streams at random. I've been using DotNetZip with good results: http://dotnetzip.codeplex.com/
Now, some additional notes:
- Response.TransmitFile() doesn't work with response filtering.
- Response.BinaryWrite() doesn't work with response filtering, so you can't loop over the contents of the file and write it out that way.
- Response.OutputStream doesn't work with response filtering, so you can't loop over the contents of the file and write it out THAT way, either.
- Response.WriteFile() DOES work with response filtering, but it loads the entire file into memory and keeps it there until the client closes the connection, which doesn't work well for large files.
- And to make things just that little bit more fun: response filtering stops working if you set Response.BufferOutput to false. (I just spent literally hours figuring that out)
Obviously, there's a LOT of different issues surrounding response filtering and writing to the output stream. Using Reflector and lots of experimentation, this is the best ("best" being in terms of working correctly in a variety of scenarios) solution I've found thus far:
Write a class that extends Encoding and call it BinaryEncoding. Implement all the methods so that they copy characters and bytes correctly, but of course doing the necessary type casts.
Set Response.ContentEncoding to an instance of BinaryEncoding (you can use the singleton pattern quite successfully for this).
Open your file with FileStream.
new StreamReader(fileStream, new BinaryEncoding(), false). That "false" parameter is very important, it stops the StreamReader from eating byte order marks and overriding your BinaryEncoding.
Allocate a buffer of char (I've found that 32KB is a good size).
Then, in a loop:
int n = StreamReader.Read(buffer, 0, buffer.Length);
Response.Write(buffer, 0, n);
Until n is 0.
Be warned: this method results in fairly high CPU usage. On a 100 megabit LAN, CPU usage on one core goes to around 40-50% for a single client downloading at 10MB/sec. I wish I could find a better way... If I had Reflector Pro, I might be able to find one.