mirror of
https://gitlab.com/fabinfra/fabaccess/bffh.git
synced 2024-11-21 22:47:55 +01:00
main.rs cleanup
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parent
f5b37f2006
commit
764b08d4fa
177
src/main.rs
177
src/main.rs
@ -12,75 +12,158 @@ mod api;
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mod config;
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mod error;
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mod machine;
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mod session;
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use signal_hook::iterator::Signals;
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use clap::{App, Arg};
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use api::api as api_capnp;
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use session::Session;
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use futures::prelude::*;
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use futures_signals::signal::Mutable;
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use futures::task::LocalSpawn;
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use futures::executor::{LocalPool, ThreadPool};
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use futures::join;
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fn main() {
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let log = log::init();
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info!(log, "Starting");
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use capnp_rpc::twoparty::{VatNetwork, VatId};
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use capnp_rpc::rpc_twoparty_capnp::Side;
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let config = config::read().unwrap();
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use async_std::net::{TcpListener, TcpStream};
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modules::init(log.new(o!()));
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api::init();
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use std::io;
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use std::io::Write;
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use std::path::PathBuf;
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use std::str::FromStr;
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use std::mem::drop;
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let m = machine::init(&config).unwrap();
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let m = Mutable::new(m);
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let m2 = m.clone();
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let c2 = config.clone();
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use std::sync::Arc;
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use error::Error;
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let mut exec = futures::executor::LocalPool::new();
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// Returning a `Result` from `main` allows us to use the `?` shorthand.
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// In the case of an Err it will be printed using `fmt::Debug`
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fn main() -> Result<(), Error> {
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// Initialize signal handler.
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// Specifically, this is a Stream of c_int representing received signals
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// We currently only care about Ctrl-C so SIGINT it is.
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// TODO: Make this do SIGHUP and a few others too.
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let signals = Signals::new(&[signal_hook::SIGINT])?.into_async()?;
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let enf = exec.run_until(async {
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let e = access::init(&config).await.unwrap();
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Mutable::new(e)
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});
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use clap::{crate_version, crate_description, crate_name};
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let p = auth::open_passdb(&config.passdb).unwrap();
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let p = Mutable::new(p);
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let authp = auth::AuthenticationProvider::new(p, enf.clone());
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let authp = Mutable::new(authp);
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// Argument parsing
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// values for the name, description and version are pulled from `Cargo.toml`.
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let matches = App::new(crate_name!())
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.about(crate_description!())
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.version(crate_version!())
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.arg(Arg::with_name("config")
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.help("Path to the config file to use")
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.long("config")
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.short("c")
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.takes_value(true)
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)
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.arg(Arg::with_name("print default")
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.help("Print a default config to stdout instead of running")
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.long("print-default")
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)
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.get_matches();
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use std::net::ToSocketAddrs;
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let args: Vec<String> = ::std::env::args().collect();
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if args.len() != 2 {
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println!("usage: {} ADDRESS[:PORT]", args[0]);
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return;
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// Check for the --print-default option first because we don't need to do anything else in that
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// case.
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if matches.is_present("print default") {
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let config = config::Config::default();
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let encoded = toml::to_vec(&config)?;
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// Direct writing to fd 1 is faster but also prevents any print-formatting that could
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// invalidate the generated TOML
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let stdout = io::stdout();
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let mut handle = stdout.lock();
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handle.write_all(&encoded)?;
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// Early return to exit.
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return Ok(())
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}
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let addr = args[1].to_socket_addrs().unwrap().next().expect("could not parse address");
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// If no `config` option is given use a preset default.
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let configpath = matches.value_of("config").unwrap_or("/etc/diflouroborane.toml");
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let config = config::read(&PathBuf::from_str(configpath).unwrap())?;
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let permlog = log.new(o!());
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let machlog = log.new(o!());
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// Initialize the logging subsystem first to be able to better document the progress from now
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// on.
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// TODO: Now would be a really good time to close stdin/out and move logging to syslog
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// Log is in an Arc so we can do very cheap clones in closures.
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let log = Arc::new(log::init(&config));
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info!(log, "Starting");
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machine::save(&c2, &m2.lock_ref()).expect("MachineDB save");
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// Kick up an executor
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// Most initializations from now on do some amount of IO and are much better done in an
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// asyncronous fashion.
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let mut exec = LocalPool::new();
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// Start loading the machine database, authentication system and permission system
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// All of those get a custom logger so the source of a log message can be better traced and
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// filtered
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let machinedb_f = machine::init(log.new(o!("system" => "machinedb")), &config);
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let permission_f = access::init(log.new(o!("system" => "permissions")), &config);
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let authentication_f = auth::init(log.new(o!("system" => "authentication")), &config);
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// Bind to each address in config.listen.
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// This is a Stream over Futures so it will do absolutely nothing unless polled to completion
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let listeners_s: futures::stream::Collect<_, Vec<TcpListener>> = stream::iter((&config).listen.iter())
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.map(|l| {
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let addr = l.address.clone();
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TcpListener::bind((l.address.as_str(), l.port.unwrap_or(config::DEFAULT_PORT)))
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// If the bind errors, include the address so we can log it
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// Since this closure is lazy we need to have a cloned addr
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.map_err(|e| { (addr, e) })
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})
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.filter_map(|f| async {
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match f.await {
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Ok(l) => Some(l),
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Err((addr, e)) => {
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error!(&log, "Could not connect to {}: {}", addr, e);
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None
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}
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}
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}).collect();
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let (mdb, pdb, auth) = exec.run_until(async {
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// Rull all futures to completion in parallel.
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// This will "block" until all three are done starting up.
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join!(machinedb_f, permission_f, authentication_f)
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});
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// Error out if any of the subsystems failed to start.
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let mdb = mdb?;
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let pdb = pdb.unwrap();
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let auth = auth?;
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// Since the below closures will happen at a much later time we need to make sure all pointers
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// are still valid. Thus, Arc.
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let l2 = log.clone();
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let l3 = log.clone();
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// Create a thread pool to run tasks on
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let mut pool = ThreadPool::builder()
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.after_start(move |i| { info!(l2.new(o!("system" => "threadpool")), "Starting Thread <{}>", i)})
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.before_stop(move |i| { info!(l3.new(o!("system" => "threadpool")), "Stopping Thread <{}>", i)})
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.create()?;
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// Spawner is a handle to the shared ThreadPool forwarded into each connection
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let spawner = pool.clone();
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let spawner = exec.spawner();
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let result: Result<(), Box<dyn std::error::Error>> = exec.run_until(async move {
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let listener = async_std::net::TcpListener::bind(&addr).await?;
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let mut incoming = listener.incoming();
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while let Some(socket) = incoming.next().await {
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let socket = socket?;
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trace!(log, "New connection from {:?}", socket.peer_addr());
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// TODO: Prettify session handling
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let auth = auth::Authentication::new(authp.clone());
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trace!(log, "Init auth");
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let perm = access::Permissions::new(permlog.clone(), enf.clone(), auth.clone());
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trace!(log, "Init perm");
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let mach = machine::Machines::new(machlog.clone(), m.clone(), perm.clone());
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trace!(log, "Init mach");
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// Generate a stream of TcpStreams appearing on any of the interfaces we listen to
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let listeners = listeners_s.await;
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let mut incoming = stream::select_all(listeners.iter().map(|l| l.incoming()));
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let rpc_system = api::process_socket(auth, perm, mach, socket);
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spawner.spawn_local_obj(
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Box::pin(rpc_system.map_err(|e| println!("error: {:?}", e)).map(|_|())).into()).expect("spawn")
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// Runn
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while let Some(socket) = incoming.next().await {
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}
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Ok(())
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});
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result.expect("main");
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Ok(())
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}
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