You're asking for what is commonly called "passive" available bandwidth (ABW) measurement along a path (versus measuring a single link's ABW). There are a number of different techniques1 that estimate bandwidth using passive observation, or low-bandwidth "Active" ABW probing techniques. However, the most common algorithms used in production services are active ABW techniques; they observe packet streams from two different end-points.
I'm most familiar with
yaz, which sends packets from one side and measures variation in delay on the other side. The one-sided passive path ABW measurement techniques are considered more experimental; there aren't solid implementations of the algorithms AFAIK.
The problem with the task you've asked for is that all non-intrusive2 ABW measurement techniques rely on timing. Sadly, timing is a very tricky thing when working with http...
- You have to deal with the reality of object caching (for instance, akamai) and http proxies (which terminate your TCP session prematurely and often spoof the web-server's IP address to the client).
- You have to deal with web-hosts which may get intermittently slammed
Finally, active ABW techniques rely on a structured packet stream (wrt packet sizes and timing), unlike what you see in a standard http transfer.
In summary, unless you set up dedicated client / server / protocol just for ABW measurement, I think you'll be rather frustrated with the results. You can keep your ABW socket connections on TCP/80, but the tools I have seen won't use http3.
Editorial note: My original answer suggested that ABW with http was possible. On further reflection, I changed my mind.
- See Sally Floyd's archive of end-to-end TCP/IP bandwidth estimation tools
- The most common intrusive techniques (such as speedtest.net) use a flash or java applet in the browser to send & receive 3-5 parallel TCP streams to each endpoint for 20-30 seconds. Add the streams' average throughput (not including lost packets requiring retransmission) over time, and you get that path's tx and rx ABW. This is obviously pretty disruptive to VoIP calls, or any downloads in progress. Disruptive meausurements are called bulk transfer capacity (BTC). See RFC 3148: A Framework for Defining Empirical Bulk Transfer Capacity Metrics. BTC measurements often use HTTP, but BTC doesn't seem to be what you're after.
- That is good, since it removes the risk of in-line caching by denying http caches an object to cache; although some tools (like
yaz) are udp-only.