Why do we need HTTP GET, PUT, or DELETE to be idempotent if TCP/IP is a reliable protocol that will retry requests on our behalf?

up vote 4 down vote accepted

TCP/IP does not retry requests, it retransmits the original packets that make up each request, if necessary.

If a request fails (at the HTTP layer) it's the job of the client to retry it, not the network stack.

In particular, if the client (for what ever reason) fails to receive the response code indicating whether a RESTful operation succeeded or not, the client must be able to resend the same operation without having to worry about any unintended side effects.

These failures can happen - an intermediate firewall might have timed-out the connection while the server was processing the operation. The server won't know that this has happened, as soon as it has received the request it has to carry on regardless.

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    What kind of request failure needs to be retried at the HTTP layer but not at the packet level? – Gili May 3 '11 at 14:03
  • 502 Bad Gateway, 504 Gateway Timeout, 500 Internal Server Error (say, database timed out) It's what causes the dreaded "triple post" in forums, reddit, etc. – Kyte May 3 '11 at 14:17
  • Excellent point on timeouts. So what we're saying is that TCP/IP guarantees that the server receives our request, but the client might time-out before the server carries out the operation. Clients expect to be able to retry later on without duplicating the original operation. Can you please update the answer with this explanation? – Gili May 5 '11 at 13:18
  • @Gili TCP does not guarantee that the two sides will agree on whether or not data was exchanged. If you send a request and the connection breaks before you get a reply, you do not know if the other side processed the request or not. – David Schwartz Jun 18 '16 at 1:05
  • @DavidSchwartz Good example! – Gili Jun 18 '16 at 14:21

HTTP's GET, PUT, and DELETE are idempotent because, in some network failure modes, the client cannot know whether the request completed or how fully.

For example, if a client requests a DELETE of a resource, but the server closes the connection before the complete response is received by the client, the client does not know whether the resource was deleted or not. The client then has a dilemma: perhaps the operation failed, in which case the DELETE should be re-sent in order to advance the application to the desired state. But perhaps it succeeded; will sending the same DELETE request work if I retry? Perhaps it will work. Perhaps it will return a 500 error (which just adds to the client's confusion). Perhaps it will apply to a different resource! The idempotency requirement allows the client to be confident that they can retry the request and have it work. That doesn't mean you'll get exactly the same response; the first request might receive 200 OK and the second 404 Not Found or 410 Gone. But the client doesn't have to worry about unintended side-effects from retries.

  • So you're saying HTTP is idempotent in order to deal with misconfigured TCP/IP connections? I don't think you can get connection resets under normal conditions. – Gili May 5 '11 at 13:10
  • HTTP is designed to work well even in conditions where resets are very "normal". It's not about misconfiguration; it's about performing properly even under load at large scale. Any large website has learned to accept that some portion of their machines will be failing on a constant basis. HTTP allows them to design applications that can survive that reality. – fumanchu May 5 '11 at 17:03
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    cf w3.org/Protocols/rfc2616/rfc2616-sec8.html#sec8.1.4 TCP connections, especially request/response style, can have very nasty timing issues that have nothing to do with configuration. – fumanchu May 5 '11 at 17:15

You seem to be confusing Idempotency at the HTTP-protocol level with byte-stream reliability at the TCP level.

HTTP Idempotency:

Idempotent (wikipedia) means that sending the same HTTP request 10 times has the same effect as doing it once.

TCP reliability:

If you lose a packet in a TCP stream, it will be retransmitted. But the application-protocol (HTTP) has no knowledge that TCP had to retransmit packets.

Even if an individual packet containing a complete HTTP request is retransmitted 10 times by TCP, the browser/server will only see one HTTP request. The reason TCP retransmits is because of packet loss, but application-protocols (like HTTP) have no knowledge that TCP had to retransmit. They seem the same request with or without packet loss

  • @Mike: I understand the difference. I don't understand why you would need to repeat the same (PUT or DELETE) request 10 times unless it was due to a dropped packet. – Gili May 3 '11 at 14:13
  • @Gili, that is precisely the point. You do not need to repeat an HTTP PUT or any other HTTP command due to a packet retransmission. HTTP requests are repeated because of human (or robot) behavior (hitting reload in their browser)... – Mike Pennington May 3 '11 at 14:17
  • @Mike: You provide a good explanation of Idempotency and TCP reliability but fail to explain why Clients would ever need to repeat a request (users/robots do not repeat an operation without a reason). – Gili May 5 '11 at 13:20
  • @Gili, I don't even understand why that is relevant; please elaborate on why it matters – Mike Pennington May 5 '11 at 14:06
  • @Mike, why should we protect users from repeating a purchase request? Maybe they really do want to purchase the same item twice? My point is that unless you understand why requests are being repeated it isn't clear why you should protect against it. Without concrete examples this comes across as a business-logic decision instead of something that belongs in the HTTP-layer. – Gili May 26 '11 at 2:33

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