phttp is a small HTTP/1.1 embeddable C++11 server library that aims to be correct and robust, but very low on features. phttp listens for network traffic from a single thread, but multiple threads can write responses.
- Runs on Linux (Clang/GCC)
- Runs on Windows (MSVC)
- Supports WebSockets
- Does not spawn any threads itself, but you are free to use as many threads as you need to serve your responses
- Uses non-blocking IO, which allows you to detect and throttle back the transmission of large responses
- Exposes an interface to provide transparent gzip/deflate compression to outgoing responses
- Logs can be written to your own logging interface
- Uses the machine-generated HTTP header parser by Zed Shaw, which has never had a security vulnerability
- Uses
poll
, so it doesn't scale beyond a thousand or so connections - No support for TSL/SSL
A simple server:
phttp::Initialize();
phttp::Server server;
auto handler = [](phttp::Response& w, phttp::RequestPtr r) {
w.Body = "Hello! " + r->Path;
};
server.ListenAndRun("127.0.0.1", 8080, handler);
The demo application demo.cpp
illustrates some of the intended usage scenarios.
Just incorporate the source files into your project, however you see fit.
The three files that you need to compile and link to are phttp.cpp
, sha1.c
, http11/http11_parser.c
All C functions are prefixed with phttp_
, to avoid name conflicts if you import a SHA1
library from
elsewhere.
On Windows, before running a server, you must call phttp::Initialize()
. This is just a
wrapper around WSAStartup()
.
On Windows, open a Visual Studio Command Prompt
. You must have WSL and Go installed.
wsl WINDOWS=1 make -s -j build/server.exe && go run tests/test.go
On Linux
make -s -j build/server && go run tests/test.go
The use of poll
introduces a hard O(N) factor every time we ask the OS for more data, where N is the number
of TCP sockets that we have open. On Linux, one could change this code to use epoll
pretty easily.
Windows does not support anything like epoll
, so one would need to switch to IOCP. This would require
a non-trivial amount of code, but it might be possible to do it without introducing too much platform-specific switches etc.
However, not a lot of people are writing server-side C++ code on Windows these days, so there's probably not much call for this.
All socket input is performed from a single thread, via the Recv()
function. This function uses poll
to
determine which sockets are ready to be read/written.
Socket output can be performed from any thread.
Note that there are some subtleties that come into play if you decide to process HTTP requests from multiple threads. The following sample demonstrates how to correctly handle requests from multiple threads.
// 'queue' in this example is some kind of thread-safe queue
phttp::Server server;
auto httpThreadFunc = [&]() {
while (!server.StopSignal) {
auto request = queue->popTail();
if (!request) {
// a null request means we must quit
break;
}
// Make sure that we are the one and only thread taking ownership of this request
bool expect = false;
if (!request->HasHandler.compare_exchange_strong(expect, true)) {
// another thread has already started handling this request
continue;
}
phttp::Response w(request);
w.Body = "Hello!";
w.Send();
}
};
// launch 3 handler threads
vector<thread> handlers;
for (int i = 0; i < 3; i++)
handlers.push_back(thread(httpThreadFunc));
if (!server.Listen("127.0.0.1", 8080)) {
printf("Failed to bind to port 8080\n");
return;
}
while (!server.StopSignal) {
auto requests = server.Recv();
for (auto request : requests) {
if (!request->IsHttpBodyFinished()) {
// Ignore this request, because the client is still busy transmitting the body.
// If we were handling a large file upload, then we would be doing something here,
// such as writing the bytes to disk, as they arrive.
// Request::ReadBody() is built for this purpose, allowing you to remove the bytes
// as they arrive.
continue;
}
// One of the handler threads will take care of this request
requestQueue.pushHead(request);
}
}
// signal the handler threads to quit
for (size_t i = 0; i < handlers.size(); i++)
requestQueue.pushHead(nullptr);
// clean up the threads
for (size_t i = 0; i < handlers.size(); i++)
handlers[i].join();
This project uses:
- http11 parser by Zed A. Shaw and Mongrel2 Project Contributors
- SHA1 by Dr Brian Gladman, Worcester, UK
- Semaphore by Jeff Preshing
License: MIT Author: Ben Harper (github.com/bmharper/phttp)