cloud-hypervisor/fuzz/fuzz_targets/http_api.rs
Bo Chen 1125fd2667 vmm: api: Use 'BTreeMap' for 'HttpRoutes'
In this way, we get the values sorted by its key by default, which is
useful for the 'http_api' fuzzer.

Signed-off-by: Bo Chen <chen.bo@intel.com>
2022-08-03 10:18:24 +01:00

192 lines
7.8 KiB
Rust

// Copyright © 2022 Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0
#![no_main]
use libfuzzer_sys::fuzz_target;
use micro_http::Request;
use once_cell::sync::Lazy;
use std::os::unix::io::AsRawFd;
use std::sync::mpsc::{channel, Receiver};
use std::thread;
use vmm::api::{http::*, ApiRequest, ApiResponsePayload};
use vmm::{EpollContext, EpollDispatch};
use vmm_sys_util::eventfd::EventFd;
// Need to be ordered for test case reproducibility
static ROUTES: Lazy<Vec<&Box<dyn EndpointHandler + Sync + Send>>> =
Lazy::new(|| HTTP_ROUTES.routes.values().collect());
fuzz_target!(|bytes| {
if bytes.len() < 2 {
return;
}
let route = ROUTES[bytes[0] as usize % ROUTES.len()];
if let Some(request) = generate_request(&bytes[1..]) {
let exit_evt = EventFd::new(libc::EFD_NONBLOCK).unwrap();
let api_evt = EventFd::new(libc::EFD_NONBLOCK).unwrap();
let (api_sender, api_receiver) = channel();
let http_receiver_thread = {
let exit_evt = exit_evt.try_clone().unwrap();
let api_evt = api_evt.try_clone().unwrap();
thread::Builder::new()
.name("http_receiver".to_string())
.spawn(move || {
http_receiver_stub(exit_evt, api_evt, api_receiver);
})
.unwrap()
};
route.handle_request(&request, api_evt, api_sender);
exit_evt.write(1).ok();
http_receiver_thread.join().unwrap();
};
});
fn generate_request(bytes: &[u8]) -> Option<Request> {
let req_method = match bytes[0] % 5 {
0 => "GET",
1 => "PUT",
2 => "PATCH",
3 => "POST",
_ => "INVALID",
};
let request_line = format!("{} http://localhost/home HTTP/1.1\r\n", req_method);
let req_body = &bytes[1..];
let request = if req_body.len() > 0 {
[
format!("{}Content-Length: {}\r\n", request_line, req_body.len()).as_bytes(),
req_body,
]
.concat()
} else {
format!("{}\r\n", request_line).as_bytes().to_vec()
};
Request::try_from(&request, None).ok()
}
fn http_receiver_stub(exit_evt: EventFd, api_evt: EventFd, api_receiver: Receiver<ApiRequest>) {
let mut epoll = EpollContext::new().unwrap();
epoll.add_event(&exit_evt, EpollDispatch::Exit).unwrap();
epoll.add_event(&api_evt, EpollDispatch::Api).unwrap();
let epoll_fd = epoll.as_raw_fd();
let mut events = vec![epoll::Event::new(epoll::Events::empty(), 0); 2];
let num_events;
loop {
num_events = match epoll::wait(epoll_fd, -1, &mut events[..]) {
Ok(num_events) => num_events,
Err(e) => match e.raw_os_error() {
Some(libc::EAGAIN) | Some(libc::EINTR) => continue,
_ => panic!("Unexpected epoll::wait error!"),
},
};
break;
}
for event in events.iter().take(num_events) {
let dispatch_event: EpollDispatch = event.data.into();
match dispatch_event {
EpollDispatch::Exit => {
break;
}
EpollDispatch::Api => {
for _ in 0..api_evt.read().unwrap() {
let api_request = api_receiver.recv().unwrap();
match api_request {
ApiRequest::VmCreate(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmDelete(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmBoot(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmShutdown(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmReboot(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmInfo(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmmPing(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmPause(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmResume(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmSnapshot(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmRestore(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmmShutdown(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmResize(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmResizeZone(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddDevice(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddUserDevice(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmRemoveDevice(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddDisk(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddFs(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddPmem(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddNet(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddVdpa(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmAddVsock(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmCounters(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmReceiveMigration(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmSendMigration(_, sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
ApiRequest::VmPowerButton(sender) => {
sender.send(Ok(ApiResponsePayload::Empty)).unwrap();
}
}
}
}
_ => {
panic!("Unexpected Epoll event");
}
}
}
}