# WebSocket in curl ## URL WebSocket communication with libcurl is done by setting up a transfer to a URL using the `ws://` or `wss://` URL schemes. The latter one being the secure version done over HTTPS. When using `wss://` to do WebSocket over HTTPS, the standard TLS and HTTPS options are acknowledged for the CA, verification of server certificate etc. WebSocket communication is done by upgrading a connection from either HTTP or HTTPS. When given a WebSocket URL to work with, libcurl considers it a transfer failure if the upgrade procedure fails. This means that a plain HTTP 200 response code is considered an error for this work. ## API The WebSocket API is described in the individual man pages for the new API. WebSocket with libcurl can be done two ways. 1. Get the WebSocket frames from the server sent to the write callback. You can then respond with `curl_ws_send()` from within the callback (or outside of it). 2. Set `CURLOPT_CONNECT_ONLY` to 2L (new for WebSocket), which makes libcurl do an HTTP GET + `Upgrade:` request plus response in the `curl_easy_perform()` call before it returns and then you can use `curl_ws_recv()` and `curl_ws_send()` to receive and send WebSocket frames from and to the server. The new options to `curl_easy_setopt()`: `CURLOPT_WS_OPTIONS` - to control specific behavior. `CURLWS_RAW_MODE` makes libcurl provide all WebSocket traffic raw in the callback. The new function calls: `curl_ws_recv()` - receive a WebSocket frame `curl_ws_send()` - send a WebSocket frame `curl_ws_meta()` - return WebSocket metadata within a write callback ## Max frame size The current implementation only supports frame sizes up to a max (64K right now). This is because the API delivers full frames and it then cannot manage the full 2^63 bytes size. If we decide we need to support (much) larger frames than 64K, we need to adjust the API accordingly to be able to deliver partial frames in both directions. ## Errors If the given WebSocket URL (using `ws://` or `wss://`) fails to get upgraded via a 101 response code and instead gets another response code back from the HTTP server - the transfer returns `CURLE_HTTP_RETURNED_ERROR` for that transfer. Note then that even 2xx response codes are then considered error since it failed to provide a WebSocket transfer. ## Test suite I looked for an existing small WebSocket server implementation with maximum flexibility to dissect and cram into the test suite but I ended up deciding that extending the existing test suite server sws to deal with WebSocket might be the better way. - This server is already integrated and working in the test suite - We want maximum control and ability to generate broken protocol and negative tests as well. A dumber and simpler TCP server could then be easier to massage into this than a "proper" WebSocket server. ## Command line tool WebSocket The plan is to make curl do WebSocket similar to telnet/nc. That part of the work has not been started. Ideas: - Read stdin and send off as messages. Consider newline as end of fragment. (default to text? offer option to set binary) - Respond to PINGs automatically - Issue PINGs at some default interval (option to switch off/change interval?) - Allow `-d` to specify (initial) data to send (should the format allow for multiple separate frames?) - Exit after N messages received, where N can be zero. ## Future work - Verify the Sec-WebSocket-Accept response. It requires a sha-1 function. - Verify Sec-WebSocket-Extensions and Sec-WebSocket-Protocol in the response - Consider a `curl_ws_poll()` - Make sure WebSocket code paths are fuzzed - Add client-side PING interval - Provide option to disable PING-PONG automation - Support compression (`CURLWS_COMPRESS`) ## Why not libWebSocket libWebSocket is said to be a solid, fast and efficient WebSocket library with a vast amount of users. My plan was originally to build upon it to skip having to implement the low level parts of WebSocket myself. Here are the reasons why I have decided to move forward with WebSocket in curl **without using libWebSocket**: - doxygen generated docs only makes them hard to navigate. No tutorial, no clearly written explanatory pages for specific functions. - seems (too) tightly integrated with a specific TLS library, while we want to support WebSocket with whatever TLS library libcurl was already made to work with. - seems (too) tightly integrated with event libraries - the references to threads and thread-pools in code and APIs indicate too much logic for our purposes - "bloated" - it is a *huge* library that is actually more lines of code than libcurl itself - WebSocket is a fairly simple protocol on the network/framing layer so making a homegrown handling of it should be fine