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92 changed files with 2589 additions and 6152 deletions

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@ -1,23 +0,0 @@
name: Rust
on:
push:
branches: [ main ]
pull_request:
branches: [ main ]
workflow_dispatch:
env:
CARGO_TERM_COLOR: always
jobs:
build:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Build
run: cargo build --verbose
- name: Run tests
run: cargo test --verbose

5
.gitignore vendored
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@ -6,13 +6,8 @@
/ptth_relay.toml
/ptth_build_L6KLMVS6/
/ptth_server_build_BIHWLQXQ/
/scope/untracked
/scraper-secret.txt
/target
/untracked
# TLS certs used for QUIC experiments
*.crt
# Kate editor temp file
*.kate-swp

1562
Cargo.lock generated

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@ -7,7 +7,6 @@ edition = "2018"
license = "AGPL-3.0"
description = "An extroverted HTTP server that can run behind firewalls"
repository = "https://six-five-six-four.com/git/reactor/ptth"
readme = "README.md"
keywords = ["http", "tunnel", "firewall"]
categories = ["command-line-utilities", "web-programming::http-server"]
@ -24,7 +23,7 @@ exclude = [
[dependencies]
anyhow = "1.0.38"
blake3 = "1.0.0"
blake3 = "0.3.7"
tokio = { version = "1.4.0", features = ["full"] }
tracing-subscriber = "0.2.16"
tracing = "0.1.25"
@ -47,5 +46,6 @@ chrono = {version = "0.4.19", features = ["serde"]}
members = [
"crates/*",
"prototypes/*",
"tools/*",
]

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@ -1,8 +1,8 @@
# https://whitfin.io/speeding-up-rust-docker-builds/
# TODO: https://stackoverflow.com/questions/57389547/how-to-define-the-context-for-a-docker-build-as-a-specific-commit-on-one-of-the
# docker pull rust:1.75-slim-buster
FROM rust@sha256:981dda194caa72aa466cb8789aa6d18ee1af22bc77f1c0b8dc9690f5d3e8fe82 as build
# rust:1.50-slim-buster
FROM rust@sha256:5dd85eb0c60bbdea14a6ecba1f6fe4a0f5c878bcf06d2cdfae0aff3a19ed4b10 as build
WORKDIR /
ENV USER root
@ -20,8 +20,7 @@ cargo new --bin crates/ptth_server && \
cargo new --bin crates/ptth_file_server_bin && \
cargo new --bin tools/ptth_tail && \
cargo new --bin crates/debug_proxy && \
cargo new --bin crates/ptth_quic && \
cargo new --lib crates/udp_over_tcp
cargo new --bin prototypes/quic_demo
# copy over your manifests
COPY ./Cargo.lock ./
@ -29,8 +28,7 @@ COPY ./Cargo.toml ./
COPY ./crates/always_equal/Cargo.toml ./crates/always_equal/
COPY ./crates/ptth_core/Cargo.toml ./crates/ptth_core/
COPY ./crates/ptth_relay/Cargo.toml ./crates/ptth_relay/
COPY ./crates/ptth_quic/Cargo.toml ./crates/ptth_quic/
COPY ./crates/udp_over_tcp/Cargo.toml ./crates/udp_over_tcp/
COPY ./prototypes/quic_demo/Cargo.toml ./prototypes/quic_demo/
# this build step will cache your dependencies
RUN cargo build --release -p ptth_relay
@ -41,7 +39,7 @@ src/*.rs \
crates/always_equal/src/*.rs \
crates/ptth_core/src/*.rs \
crates/ptth_relay/src/*.rs \
crates/ptth_quic/src/*.rs
prototypes/quic_demo/src/*.rs
# Copy source tree
# Yes, I tried a few variations on the syntax. Dockerfiles are just rough.
@ -51,7 +49,7 @@ COPY ./crates/always_equal ./crates/always_equal
COPY ./crates/ptth_core ./crates/ptth_core
COPY ./crates/ptth_relay ./crates/ptth_relay
COPY ./handlebars/ ./handlebars
COPY ./crates/ptth_quic ./crates/ptth_quic
COPY ./prototypes/quic_demo ./prototypes/quic_demo
# Bug in cargo's incremental build logic, triggered by
# Docker doing something funny with mtimes? Maybe?

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@ -226,4 +226,4 @@ For now, either email me (if you know me personally) or make a pull request to a
PTTH is licensed under the
[GNU AGPLv3](https://www.gnu.org/licenses/agpl-3.0.html)
Copyright 2020-2021 "Trish"
Copyright 2020 "Trish"

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@ -15,14 +15,15 @@ export LC_ALL="C"
TEMP_GIBBERISH="ptth_server_build_BIHWLQXQ"
DEST="$TEMP_GIBBERISH/ptth"
rm -rf "$TEMP_GIBBERISH"
mkdir "$TEMP_GIBBERISH"
mkdir "$DEST"
cargo build --release -p ptth_multi_call_server
cargo build --release -p ptth_server
cp target/release/ptth_multi_call_server "$DEST/"
mkdir -p "$DEST/handlebars/server"
rsync -r handlebars/server/ "$DEST/handlebars/server/"
cp target/release/ptth_server "$DEST/ptth_server"
(
cd "$TEMP_GIBBERISH" || exit

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@ -1,11 +1,10 @@
[package]
name = "always_equal"
version = "1.0.3"
version = "1.0.2"
authors = ["Trish"]
edition = "2018"
license = "AGPL-3.0"
description = "A wrapper for types that can't implement Eq"
repository = "https://six-five-six-four.com/git/reactor/ptth"
[dependencies]

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@ -7,11 +7,9 @@ edition = "2018"
license = "AGPL-3.0"
description = "Common code for the PTTH relay and server"
repository = "https://six-five-six-four.com/git/reactor/ptth"
[dependencies]
anyhow = "1.0.38"
base64 = "0.13.0"
ctrlc = { version = "3.1.8", features = [ "termination" ] }
futures = "0.3.7"

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@ -1,14 +1,8 @@
pub use std::{
ffi::OsString,
io::Write,
sync::Arc,
time::{Duration, Instant},
};
pub use anyhow::{
Context,
bail,
};
pub use tracing::{
debug, error, info, trace, warn,
instrument,

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@ -1,10 +0,0 @@
[package]
description = "A diceware passphrase generator with 1,200 words, only depends on `rand`"
name = "ptth_diceware"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
rand = "0.8.5"

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@ -1,44 +0,0 @@
use rand::Rng;
pub fn main () {
let passphrase = passphrase (" ", 8);
println! ("{}", passphrase);
}
pub fn passphrase (separator: &str, len: usize) -> String {
let diceware = Diceware::default ();
let random_words: Vec <&str> = (0..len)
.map (|_| diceware.random_word ())
.collect ();
random_words.join (separator)
}
pub struct Diceware {
words: Vec <String>,
}
impl Default for Diceware {
fn default () -> Self
{
let wordlist = include_str! ("eff_short_wordlist_1.txt");
let words: Vec <_> = wordlist.split ('\n').take (1253).map (str::to_string).collect ();
assert_eq! (words.len (), 1253);
assert_eq! (words [0], "acid");
assert_eq! (words [600], "large");
assert_eq! (words [1252], "zoom");
Self {
words,
}
}
}
impl Diceware {
pub fn random_word (&self) -> &str
{
&self.words [rand::thread_rng ().gen_range (0..self.words.len ())]
}
}

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@ -1,3 +0,0 @@
pub fn main () {
ptth_diceware::main ()
}

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@ -1,156 +0,0 @@
#![warn (clippy::pedantic)]
use std::{
collections::*,
ffi::OsString,
net::SocketAddr,
path::{PathBuf},
sync::Arc,
};
use arc_swap::ArcSwap;
use hyper::{
Body,
Request,
Response,
Server,
service::{
make_service_fn,
service_fn,
},
StatusCode,
};
use serde::Deserialize;
use tokio_stream::wrappers::ReceiverStream;
use tracing::debug;
use ptth_core::{
http_serde::RequestParts,
prelude::*,
};
use ptth_server::{
file_server::{
self,
FileServer,
},
load_toml,
};
async fn handle_all (req: Request <Body>, state: Arc <FileServer>)
-> anyhow::Result <Response <Body>>
{
use std::str::FromStr;
use hyper::header::HeaderName;
debug! ("req.uri () = {:?}", req.uri ());
let path_and_query = req.uri ().path_and_query ().map_or_else (|| req.uri ().path (), http::uri::PathAndQuery::as_str);
let path_and_query = path_and_query.into ();
let (parts, _) = req.into_parts ();
let ptth_req = RequestParts::from_hyper (parts.method, path_and_query, parts.headers)?;
let ptth_resp = state.serve_all (
ptth_req.method,
&ptth_req.uri,
&ptth_req.headers
).await?;
let mut resp = Response::builder ()
.status (StatusCode::from (ptth_resp.parts.status_code));
for (k, v) in ptth_resp.parts.headers {
resp = resp.header (HeaderName::from_str (&k)?, v);
}
let body = ptth_resp.body.map_or_else (Body::empty, |body| {
Body::wrap_stream (ReceiverStream::new (body))
});
Ok (resp.body (body)?)
}
#[derive (Deserialize)]
struct ConfigFile {
file_server_root: Option <PathBuf>,
file_server_roots: Option <BTreeMap <String, PathBuf>>,
name: Option <String>,
}
pub async fn main (_args: &[OsString]) -> anyhow::Result <()> {
let path = PathBuf::from ("./config/ptth_server.toml");
let file_server_root;
let file_server_roots;
let name;
match load_toml::load::<ConfigFile, _> (&path) {
Ok (config_file) => {
file_server_root = config_file.file_server_root;
file_server_roots = config_file.file_server_roots;
name = config_file.name;
},
_ => {
info! ("No ptth_server.toml file, using default configs");
file_server_root = None;
file_server_roots = None;
name = None;
},
};
let file_server_root = file_server_root.unwrap_or_else (|| PathBuf::from ("."));
let file_server_roots = file_server_roots.unwrap_or_else (|| Default::default ());
let name = name.unwrap_or_else (|| "PTTH File Server".to_string ());
info! ("file_server_root: {:?}", file_server_root);
let addr = SocketAddr::from(([0, 0, 0, 0], 4000));
info! ("Serving at {:?}", addr);
let metrics_interval = Arc::new (ArcSwap::default ());
let interval_writer = Arc::clone (&metrics_interval);
tokio::spawn (async move {
file_server::metrics::Interval::monitor (interval_writer).await;
});
let config = file_server::Config {
file_server_root,
file_server_roots,
};
let state = Arc::new (FileServer::new (
config,
&PathBuf::new (),
name,
metrics_interval,
Some (path),
)?);
let make_svc = make_service_fn (|_conn| {
let state = state.clone ();
async {
Ok::<_, String> (service_fn (move |req| {
let state = state.clone ();
handle_all (req, state)
}))
}
});
let (shutdown_rx, forced_shutdown) = ptth_core::graceful_shutdown::init_with_force ();
let server = Server::bind (&addr)
.serve (make_svc)
.with_graceful_shutdown (async move {
shutdown_rx.await.ok ();
});
forced_shutdown.wrap_server (server).await??;
Ok (())
}

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@ -1,12 +1,128 @@
#![warn (clippy::pedantic)]
use std::{
iter::FromIterator,
net::SocketAddr,
path::PathBuf,
sync::Arc,
};
use arc_swap::ArcSwap;
use hyper::{
Body,
Request,
Response,
Server,
service::{
make_service_fn,
service_fn,
},
StatusCode,
};
use serde::Deserialize;
use tokio_stream::wrappers::ReceiverStream;
use tracing::debug;
use ptth_core::{
http_serde::RequestParts,
prelude::*,
};
use ptth_server::{
file_server::{
self,
metrics,
FileServer,
},
load_toml,
};
async fn handle_all (req: Request <Body>, state: Arc <FileServer>)
-> anyhow::Result <Response <Body>>
{
use std::str::FromStr;
use hyper::header::HeaderName;
debug! ("req.uri () = {:?}", req.uri ());
let path_and_query = req.uri ().path_and_query ().map_or_else (|| req.uri ().path (), http::uri::PathAndQuery::as_str);
let path_and_query = path_and_query.into ();
let (parts, _) = req.into_parts ();
let ptth_req = RequestParts::from_hyper (parts.method, path_and_query, parts.headers)?;
let ptth_resp = state.serve_all (
ptth_req.method,
&ptth_req.uri,
&ptth_req.headers
).await?;
let mut resp = Response::builder ()
.status (StatusCode::from (ptth_resp.parts.status_code));
for (k, v) in ptth_resp.parts.headers {
resp = resp.header (HeaderName::from_str (&k)?, v);
}
let body = ptth_resp.body.map_or_else (Body::empty, |body| {
Body::wrap_stream (ReceiverStream::new (body))
});
Ok (resp.body (body)?)
}
#[derive (Deserialize)]
pub struct ConfigFile {
pub file_server_root: Option <PathBuf>,
pub name: Option <String>,
}
#[tokio::main]
async fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let args = Vec::from_iter (std::env::args_os ());
let path = PathBuf::from ("./config/ptth_server.toml");
let config_file: ConfigFile = load_toml::load (&path)?;
info! ("file_server_root: {:?}", config_file.file_server_root);
ptth_file_server::main (&args).await
let addr = SocketAddr::from(([0, 0, 0, 0], 4000));
let metrics_interval = Arc::new (ArcSwap::default ());
let interval_writer = Arc::clone (&metrics_interval);
tokio::spawn (async move {
file_server::metrics::Interval::monitor (interval_writer).await;
});
let state = Arc::new (FileServer::new (
config_file.file_server_root,
&PathBuf::new (),
config_file.name.unwrap_or_else (|| "PTTH File Server".to_string ()),
metrics_interval,
Some (path),
)?);
let make_svc = make_service_fn (|_conn| {
let state = state.clone ();
async {
Ok::<_, String> (service_fn (move |req| {
let state = state.clone ();
handle_all (req, state)
}))
}
});
let (shutdown_rx, forced_shutdown) = ptth_core::graceful_shutdown::init_with_force ();
let server = Server::bind (&addr)
.serve (make_svc)
.with_graceful_shutdown (async move {
shutdown_rx.await.ok ();
});
forced_shutdown.wrap_server (server).await??;
Ok (())
}

12
crates/ptth_kv/Cargo.toml Normal file
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@ -0,0 +1,12 @@
[package]
name = "ptth_kv"
version = "0.1.0"
authors = ["Trish"]
edition = "2018"
[dependencies]
anyhow = "1.0.38"
base64 = "0.13.0"
hyper = { version = "0.14.4", features = ["full"] }
thiserror = "1.0.22"
tokio = { version = "1.8.1", features = ["full"] }

499
crates/ptth_kv/src/main.rs Normal file
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@ -0,0 +1,499 @@
use std::{
collections::{
HashMap,
},
iter::FromIterator,
sync::{
Arc,
},
};
use hyper::{
Body,
Request,
Response,
StatusCode,
};
use tokio::{
sync::Mutex,
};
pub struct HttpService {
store: Arc <Store>,
}
pub struct Store {
status_dirs: HashMap <Vec <u8>, StatusKeyDirectory>,
}
#[derive (thiserror::Error, Debug, PartialEq)]
pub enum Error {
#[error ("key too long")]
KeyTooLong,
#[error ("no such key dir")]
NoSuchKeyDir,
#[error ("value too long")]
ValueTooLong,
}
pub struct StatusQuotas {
pub max_keys: usize,
pub max_key_bytes: usize,
pub max_value_bytes: usize,
pub max_payload_bytes: usize,
}
pub struct GetAfter {
pub tuples: Vec <(Vec <u8>, Vec <u8>)>,
pub sequence: u64,
}
impl HttpService {
pub fn new (s: Store) -> Self {
Self {
store: Arc::new (s),
}
}
pub fn inner (&self) -> &Store {
&*self.store
}
pub async fn serve (&self, port: u16) -> Result <(), hyper::Error> {
use std::net::SocketAddr;
use hyper::{
Server,
service::{
make_service_fn,
service_fn,
},
};
let make_svc = make_service_fn (|_conn| {
let state = self.store.clone ();
async {
Ok::<_, String> (service_fn (move |req| {
let state = state.clone ();
Self::handle_all (req, state)
}))
}
});
let addr = SocketAddr::from(([127, 0, 0, 1], port));
let server = Server::bind (&addr)
.serve (make_svc)
;
server.await
}
}
impl Store {
pub fn new <I> (status_dirs: I)
-> Self
where I: Iterator <Item = (Vec <u8>, StatusQuotas)>
{
let status_dirs = status_dirs
.map (|(name, quotas)| (name, StatusKeyDirectory::new (quotas)))
.collect ();
Self {
status_dirs,
}
}
pub fn list_key_dirs (&self) -> Vec <Vec <u8>> {
self.status_dirs.iter ()
.map (|(k, _)| k.clone ())
.collect ()
}
pub async fn set (&self, name: &[u8], key: &[u8], value: Vec <u8>)
-> Result <(), Error>
{
let dir = self.status_dirs.get (name)
.ok_or (Error::NoSuchKeyDir)?;
dir.set (key, value).await
}
async fn set_multi (&self, name: &[u8], tuples: Vec <(&[u8], Vec <u8>)>)
-> Result <(), Error>
{
let dir = self.status_dirs.get (name)
.ok_or (Error::NoSuchKeyDir)?;
dir.set_multi (tuples).await
}
pub async fn get_after (&self, name: &[u8], thresh: Option <u64>)
-> Result <GetAfter, Error>
{
let dir = self.status_dirs.get (name)
.ok_or (Error::NoSuchKeyDir)?;
dir.get_after (thresh).await
}
}
// End of public interface
const SET_BATCH_SIZE: usize = 32;
enum StoreCommand {
SetStatus (SetStatusCommand),
Multi (Vec <StoreCommand>),
}
struct StatusKeyDirectory {
quotas: StatusQuotas,
// TODO: Make this tokio::sync::Mutex.
table: Mutex <StatusTable>,
}
#[derive (Default)]
struct StatusTable {
map: HashMap <Vec <u8>, StatusValue>,
sequence: u64,
}
struct StatusValue {
value: Vec <u8>,
sequence: u64,
}
struct SetStatusCommand {
key_dir: Vec <u8>,
key: Vec <u8>,
value: Vec <u8>,
}
impl HttpService {
async fn handle_all (req: Request <Body>, store: Arc <Store>)
-> Result <Response <Body>, anyhow::Error>
{
Ok (Response::builder ()
.body (Body::from ("hello\n"))?)
}
}
impl StatusKeyDirectory {
fn new (quotas: StatusQuotas) -> Self {
Self {
quotas,
table: Mutex::new (Default::default ()),
}
}
async fn set (&self, key: &[u8], value: Vec <u8>) -> Result <(), Error>
{
if key.len () > self.quotas.max_key_bytes {
return Err (Error::KeyTooLong);
}
if value.len () > self.quotas.max_value_bytes {
return Err (Error::ValueTooLong);
}
{
let mut guard = self.table.lock ().await;
guard.set (&self.quotas, key, value);
}
Ok (())
}
async fn set_multi (&self, tuples: Vec <(&[u8], Vec <u8>)>) -> Result <(), Error>
{
{
let mut guard = self.table.lock ().await;
for (key, value) in tuples {
guard.set (&self.quotas, key, value);
}
}
Ok (())
}
async fn get_after (&self, thresh: Option <u64>) -> Result <GetAfter, Error> {
let guard = self.table.lock ().await;
Ok (guard.get_after (thresh))
}
}
impl StatusTable {
fn payload_bytes (&self) -> usize {
self.map.iter ()
.map (|(k, v)| k.len () + v.len ())
.sum ()
}
fn set (&mut self, quotas: &StatusQuotas, key: &[u8], value: Vec <u8>) {
self.sequence += 1;
if self.map.len () > quotas.max_keys {
self.map.clear ();
}
let new_bytes = key.len () + value.len ();
if self.payload_bytes () + new_bytes > quotas.max_payload_bytes {
self.map.clear ();
}
let value = StatusValue {
value,
sequence: self.sequence,
};
// self.map.insert (key, value);
match self.map.get_mut (key) {
None => {
self.map.insert (key.to_vec (), value);
},
Some (v) => *v = value,
}
}
fn get_after (&self, thresh: Option <u64>) -> GetAfter {
let thresh = thresh.unwrap_or (0);
let tuples = self.map.iter ()
.filter_map (|(key, value)| {
if value.sequence <= thresh {
return None;
}
Some ((key.clone (), value.value.clone ()))
})
.collect ();
GetAfter {
tuples,
sequence: self.sequence,
}
}
}
impl StatusValue {
fn len (&self) -> usize {
self.value.len ()
}
}
#[tokio::main]
async fn main () -> Result <(), hyper::Error> {
use std::time::Duration;
use tokio::{
spawn,
time::interval,
};
let service = HttpService::new (Store::new (vec! [
(b"key_dir".to_vec (), StatusQuotas {
max_keys: 4,
max_key_bytes: 16,
max_value_bytes: 16,
max_payload_bytes: 128,
}),
].into_iter ()));
service.serve (4003).await
}
#[cfg (test)]
mod tests {
use tokio::runtime::Runtime;
use super::*;
fn get_after_eq (a: &GetAfter, b: &GetAfter) {
assert_eq! (a.sequence, b.sequence);
let a = a.tuples.clone ();
let b = b.tuples.clone ();
let a = HashMap::<Vec <u8>, Vec <u8>>::from_iter (a.into_iter ());
let b = HashMap::from_iter (b.into_iter ());
assert_eq! (a, b);
}
#[test]
fn store () {
let rt = Runtime::new ().unwrap ();
rt.block_on (async {
let s = Store::new (vec! [
(b"key_dir".to_vec (), StatusQuotas {
max_keys: 4,
max_key_bytes: 16,
max_value_bytes: 16,
max_payload_bytes: 128,
}),
].into_iter ());
let mut expected_sequence = 0;
assert_eq! (s.list_key_dirs (), vec! [
b"key_dir".to_vec (),
]);
assert_eq! (
s.set (b"key_dir", b"this key is too long and will cause an error", b"bar".to_vec ()).await,
Err (Error::KeyTooLong)
);
assert_eq! (
s.set (b"key_dir", b"foo", b"this value is too long and will cause an error".to_vec ()).await,
Err (Error::ValueTooLong)
);
assert_eq! (
s.set (b"invalid_key_dir", b"foo", b"bar".to_vec ()).await,
Err (Error::NoSuchKeyDir)
);
let ga = s.get_after (b"key_dir", None).await.unwrap ();
assert_eq! (ga.sequence, expected_sequence);
assert_eq! (ga.tuples, vec! []);
s.set (b"key_dir", b"foo_1", b"bar_1".to_vec ()).await.unwrap ();
expected_sequence += 1;
let ga = s.get_after (b"key_dir", None).await.unwrap ();
assert_eq! (ga.sequence, expected_sequence);
assert_eq! (ga.tuples, vec! [
(b"foo_1".to_vec (), b"bar_1".to_vec ()),
]);
get_after_eq (&ga, &GetAfter {
sequence: expected_sequence,
tuples: vec! [
(b"foo_1".to_vec (), b"bar_1".to_vec ()),
]
});
s.set (b"key_dir", b"foo_2", b"bar_2".to_vec ()).await.unwrap ();
expected_sequence += 1;
let ga = s.get_after (b"key_dir", None).await.unwrap ();
get_after_eq (&ga, &GetAfter {
sequence: expected_sequence,
tuples: vec! [
(b"foo_1".to_vec (), b"bar_1".to_vec ()),
(b"foo_2".to_vec (), b"bar_2".to_vec ()),
]
});
s.set (b"key_dir", b"foo_1", b"bar_3".to_vec ()).await.unwrap ();
expected_sequence += 1;
let ga = s.get_after (b"key_dir", None).await.unwrap ();
get_after_eq (&ga, &GetAfter {
sequence: expected_sequence,
tuples: vec! [
(b"foo_1".to_vec (), b"bar_3".to_vec ()),
(b"foo_2".to_vec (), b"bar_2".to_vec ()),
]
});
let ga = s.get_after (b"key_dir", Some (2)).await.unwrap ();
get_after_eq (&ga, &GetAfter {
sequence: expected_sequence,
tuples: vec! [
(b"foo_1".to_vec (), b"bar_3".to_vec ()),
]
});
let ga = s.get_after (b"key_dir", Some (3)).await.unwrap ();
get_after_eq (&ga, &GetAfter {
sequence: expected_sequence,
tuples: vec! []
});
});
}
#[test]
#[cfg (not (debug_assertions))]
fn perf () {
use std::time::Instant;
let rt = Runtime::new ().unwrap ();
rt.block_on (async {
let s = Store::new (vec! [
(b"key_dir".to_vec (), StatusQuotas {
max_keys: 4,
max_key_bytes: 16,
max_value_bytes: 16,
max_payload_bytes: 128,
}),
].into_iter ());
let num_iters = 1_000_000;
let key = b"foo";
let start_time = Instant::now ();
for i in 0..num_iters {
let value = format! ("{}", i);
s.set (b"key_dir", key, value.into ()).await.unwrap ();
}
let end_time = Instant::now ();
let total_dur = end_time - start_time;
let avg_nanos = total_dur.as_nanos () / num_iters;
assert! (avg_nanos < 250, dbg! (avg_nanos));
});
}
#[test]
#[cfg (not (debug_assertions))]
fn perf_multi () {
use std::time::Instant;
let rt = Runtime::new ().unwrap ();
rt.block_on (async {
let s = Store::new (vec! [
(b"key_dir".to_vec (), StatusQuotas {
max_keys: 8,
max_key_bytes: 16,
max_value_bytes: 16,
max_payload_bytes: 128,
}),
].into_iter ());
let num_iters = 1_000_000;
let start_time = Instant::now ();
for i in 0..num_iters {
let value = Vec::<u8>::from (format! ("{}", i));
let tuples = vec! [
(&b"foo_0"[..], value.clone ()),
(b"foo_1", value.clone ()),
(b"foo_2", value.clone ()),
(b"foo_3", value.clone ()),
(b"foo_4", value.clone ()),
(b"foo_5", value.clone ()),
(b"foo_6", value.clone ()),
(b"foo_7", value.clone ()),
];
s.set_multi (b"key_dir", tuples).await.unwrap ();
}
let end_time = Instant::now ();
let total_dur = end_time - start_time;
let avg_nanos = total_dur.as_nanos () / (num_iters * 8);
assert! (avg_nanos < 150, dbg! (avg_nanos));
});
}
}

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@ -1,43 +0,0 @@
[package]
name = "ptth_multi_call_server"
# Keep this synced with the Debian package name
# dpkg doesn't let us do side-by-side versioning, shrug
version = "1.1.1"
authors = ["Trish"]
edition = "2018"
license = "AGPL-3.0"
[dependencies]
# Cookie 01FYZ3SDP2XABT7W19ACQVYKXT
# Dependencies should be in sync because ptth_multi_call_server intentionally
# tries to re-use as much code as possible between all of its subcommands,
# including ptth_server and ptth_file_server.
anyhow = "1.0.38"
ctrlc = "3.2.1"
futures-util = "0.3.9"
hex = "0.4.3"
ptth_diceware = { path = "../ptth_diceware" }
ptth_file_server = { path = "../ptth_file_server_bin" }
ptth_server = { path = "../ptth_server" }
ptth_quic = { path = "../ptth_quic" }
rand = "0.8.4"
rusty_ulid = "0.10.1"
sha2 = "0.9.8"
tokio = { version = "1.8.1", features = ["full"] }
tracing-subscriber = "0.2.16"
tracing = "0.1.25"
[dependencies.reqwest]
version = "0.11.1"
default-features = false
features = ["stream", "rustls-tls", "hyper-rustls"]
[package.metadata.deb]
assets = [
["target/release/ptth_multi_call_server", "usr/bin/ptth_multi_call_server_1.1", "755"],
]
name = "ptth-multi-call-server-1.1"

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@ -1,121 +0,0 @@
use std::{
ffi::OsString,
io::{
self,
Write,
},
time::Duration,
};
use anyhow::{
anyhow,
bail,
};
use futures_util::StreamExt;
use reqwest::{
StatusCode,
};
use sha2::{
Digest,
Sha512,
};
use tokio::{
sync::mpsc,
task::{
spawn_blocking,
},
};
pub async fn main (args: &[OsString]) -> anyhow::Result <()> {
let mut url = None;
let mut expected_sha512 = None;
let mut args = args [1..].iter ();
loop {
let arg = match args.next () {
None => break,
Some (x) => x,
};
match arg.to_str ().ok_or_else (|| anyhow! ("All arguments must be valid UTF-8"))?
{
"--help" => println! ("For now, just look at the source code"),
"--expect-sha512" => {
let expected = args.next ().ok_or_else (|| anyhow! ("--expect-sha512 needs an argument"))?;
expected_sha512 = Some (expected.to_str ().ok_or_else (|| anyhow! ("--expect-sha512's argument must be valid Unicode"))?);
}
arg => {
url = Some (arg);
break;
},
}
}
let url = match url {
None => bail! ("URL argument is required"),
Some (x) => x,
};
// Cookie 01FYZ3W64SM6KYNP48J6EWSCEF
// Try to keep the Clients similar here
let client = reqwest::Client::builder ()
.connect_timeout (Duration::from_secs (30))
.build ()?;
let resp = client.get (url)
.send ().await?;
if resp.status () != StatusCode::OK {
bail! ("Expected 200 OK, got {}", resp.status ());
}
let mut resp_stream = resp.bytes_stream ();
// The hasher is owned by a task because it makes ownership simpler
let (hash_tx, mut hash_rx) = mpsc::channel (1);
let hasher_task = spawn_blocking (move || {
let mut hasher = Sha512::new ();
while let Some (chunk) = tokio::runtime::Handle::current ().block_on (hash_rx.recv ()) {
hasher.update (&chunk);
}
anyhow::Result::<_>::Ok (hasher.finalize ())
});
while let Some (chunk) = resp_stream.next ().await {
let chunk = chunk?;
hash_tx.send (chunk.clone ()).await?;
{
let chunk = chunk.clone ();
spawn_blocking (move || {
io::stdout ().write_all (&chunk)?;
anyhow::Result::<_>::Ok (())
}).await??;
}
}
drop (hash_tx);
let hash = hasher_task.await??;
let actual_sha512 = hex::encode (&hash);
match expected_sha512 {
None => eprintln! ("Actual SHA512 = {}", actual_sha512),
Some (expected) => if ! actual_sha512.starts_with (&expected) {
bail! ("Expected SHA512 prefix {}, actual SHA512 {}", expected, actual_sha512);
},
}
Ok (())
}

View File

@ -1,172 +0,0 @@
use std::{
ffi::OsString,
iter::FromIterator,
};
use tokio::sync::watch;
mod download;
mod ulid;
#[derive (Clone, Copy, Debug, PartialEq)]
enum Subcommand {
Diceware,
Download,
PtthServer,
PtthFileServer,
PtthQuicEndServer,
Ulid,
}
#[tokio::main]
async fn main () -> anyhow::Result <()> {
use Subcommand::*;
tracing_subscriber::fmt::init ();
let args = Vec::from_iter (std::env::args_os ());
let (subcommand, args) = parse_args (&args)?;
match subcommand {
Diceware => {
ptth_diceware::main ();
Ok (())
},
Download => download::main (args).await,
PtthServer => ptth_server::executable::main (args).await,
PtthFileServer => ptth_file_server::main (args).await,
PtthQuicEndServer => {
let (shutdown_tx, shutdown_rx) = watch::channel (false);
ctrlc::set_handler (move || {
shutdown_tx.send (true).expect ("Couldn't forward Ctrl+C signal");
})?;
tracing::trace! ("Set Ctrl+C handler");
ptth_quic::executable_end_server::main (args, Some (shutdown_rx)).await?;
Ok (())
}
Ulid => ulid::main (args).await,
}
}
fn parse_subcommand (arg: &str) -> Option <Subcommand>
{
use Subcommand::*;
let map = vec! [
("diceware", Diceware),
("download", Download),
("ptth_server", PtthServer),
("ptth_file_server", PtthFileServer),
("ptth_quic_end_server", PtthQuicEndServer),
("ulid", Ulid),
];
let arg = arg.strip_suffix (".exe").unwrap_or (arg);
for (suffix, subcommand) in &map {
if arg.ends_with (suffix) {
return Some (*subcommand);
}
}
None
}
fn parse_args (args: &[OsString]) -> anyhow::Result <(Subcommand, &[OsString])>
{
let arg_0 = match args.get (0) {
Some (x) => x,
None => anyhow::bail! ("arg 0 must be the exe name"),
};
let arg_0 = arg_0.to_str ().ok_or_else (|| anyhow::anyhow! ("arg 0 should be valid UTF-8"))?;
match parse_subcommand (arg_0) {
Some (x) => return Ok ((x, args)),
None => (),
}
let arg_1 = match args.get (1) {
Some (x) => x,
None => anyhow::bail! ("arg 1 must be the subcommand if arg 0 is not"),
};
let arg_1 = arg_1.to_str ().ok_or_else (|| anyhow::anyhow! ("arg 1 subcommand should be valid UTF-8"))?;
match parse_subcommand (arg_1) {
Some (x) => return Ok ((x, &args [1..])),
None => (),
}
anyhow::bail! ("Subcommand must be either arg 0 (exe name) or arg 1")
}
#[cfg (test)]
mod tests {
use super::*;
#[test]
fn multi_call () -> anyhow::Result <()> {
let negative_cases = vec! [
vec! [],
vec! ["invalid_exe_name"],
vec! ["ptth_multi_call_server"],
vec! ["ptth_server.ex"],
vec! ["ptth_multi_call_server", "invalid_subcommand"],
];
for input in &negative_cases {
let input: Vec <_> = input.iter ().map (OsString::from).collect ();
let actual = parse_args (&input);
assert! (actual.is_err ());
}
let positive_cases = vec! [
(vec! ["ptth_server.exe"], (Subcommand::PtthServer, vec! ["ptth_server.exe"])),
(vec! ["ptth_server"], (Subcommand::PtthServer, vec! ["ptth_server"])),
(vec! ["ptth_server", "--help"], (Subcommand::PtthServer, vec! ["ptth_server", "--help"])),
(vec! ["ptth_file_server"], (Subcommand::PtthFileServer, vec! ["ptth_file_server"])),
(vec! ["ptth_quic_end_server", "--help"], (Subcommand::PtthQuicEndServer, vec! ["ptth_quic_end_server", "--help"])),
(vec! ["ptth_multi_call_server", "ptth_server"], (Subcommand::PtthServer, vec! ["ptth_server"])),
(
vec! [
"ptth_multi_call_server",
"ptth_server",
"--help"
],
(
Subcommand::PtthServer,
vec! [
"ptth_server",
"--help"
]
)
),
(
vec! [
"invalid_exe_name",
"ptth_server",
"--help"
],
(
Subcommand::PtthServer,
vec! [
"ptth_server",
"--help"
]
)
),
];
for (input, (expected_subcommand, expected_args)) in &positive_cases {
let input: Vec <_> = input.iter ().map (OsString::from).collect ();
let (actual_subcommand, actual_args) = parse_args (&input)?;
assert_eq! (expected_subcommand, &actual_subcommand);
assert_eq! (expected_args, actual_args);
}
Ok (())
}
}

View File

@ -1,12 +0,0 @@
use std::{
ffi::OsString,
};
use anyhow::Result;
pub async fn main (_args: &[OsString]) -> Result <()>
{
println! ("{}", rusty_ulid::generate_ulid_string ());
Ok (())
}

View File

@ -1,37 +0,0 @@
[package]
name = "ptth_quic"
version = "0.1.0"
authors = ["Trish"]
edition = "2018"
license = "AGPL-3.0"
repository = "https://six-five-six-four.com/git/reactor/ptth"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
anyhow = "1.0.66"
arc-swap = "1.5.1"
base64 = "0.20.0"
ctrlc = "3.2.4"
futures-util = "0.3.25"
hyper = { version = "0.14.23", features = ["http1", "server", "stream", "tcp"] }
quinn = "0.9.3"
rand = "0.8.5"
rcgen = "0.10.0"
ring = "0.16.20"
rmp-serde = "1.1.1"
rustls = "0.20.7"
rusty_ulid = "1.0.0"
serde = "1.0.151"
serde_json = "1.0.89"
structopt = "0.3.26"
tokio = { version = "1.23.0", features = ["full"] }
tracing-subscriber = "0.3.16"
tracing = "0.1.37"
udp_over_tcp = { path = "../udp_over_tcp" }
[dependencies.reqwest]
version = "0.11.13"
default-features = false
features = ["stream", "rustls-tls", "hyper-rustls"]

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@ -1,136 +0,0 @@
use structopt::StructOpt;
use tokio::{
sync::watch,
};
use ptth_quic::{
client_proxy::{
ForwardingParams,
forward_port,
},
prelude::*,
};
use protocol::PeerId;
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
relay_addr: Option <String>,
#[structopt (long)]
client_id: Option <PeerId>,
#[structopt (long)]
server_id: Option <PeerId>,
#[structopt (long)]
client_tcp_port: Option <u16>,
#[structopt (long)]
server_tcp_port: Option <u16>,
}
#[tokio::main]
async fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let opt = Opt::from_args ();
let conf = opt.into_config ().await?;
let client = P2Client::connect (conf)?;
client.run ().await?;
Ok (())
}
pub struct P2Client {
endpoint: quinn::Endpoint,
conf: Arc <Config>,
}
impl P2Client {
pub fn connect (conf: Config) -> anyhow::Result <Self> {
let endpoint = make_client_endpoint ("0.0.0.0:0".parse ()?, &[&conf.relay_cert])?;
let conf = Arc::new (conf);
Ok (Self {
endpoint,
conf,
})
}
pub async fn run (&self) -> anyhow::Result <()> {
debug! ("P2 client connecting to P3 relay server");
let conf = Arc::clone (&self.conf);
let connection = protocol::p2_connect_to_p3 (&self.endpoint, conf.relay_addr, &conf.client_id).await?;
let client_tcp_port = conf.client_tcp_port;
debug! ("Accepting local TCP connections from P1 at {}", client_tcp_port);
// End of per-port stuff
// Beginning of per-connection stuff
let (_shutdown_flag_tx, shutdown_flag_rx) = watch::channel (true);
let task_tcp_server = {
let connection = connection.clone ();
let server_id = conf.server_id.clone ();
let server_tcp_port = conf.server_tcp_port;
let listener = TcpListener::bind (("127.0.0.1", client_tcp_port)).await?;
trace! ("Accepting local TCP connections from P1 on {}", client_tcp_port);
tokio::spawn (async move {
forward_port (
listener,
connection,
ForwardingParams {
client_tcp_port,
server_id,
server_tcp_port,
},
shutdown_flag_rx,
).await?;
Ok::<_, anyhow::Error> (())
})
};
task_tcp_server.await??;
Ok (())
}
}
/// A filled-out config for constructing a P2 client
#[derive (Clone)]
pub struct Config {
client_tcp_port: u16,
server_tcp_port: u16,
client_id: String,
server_id: String,
relay_addr: SocketAddr,
relay_cert: Vec <u8>,
}
impl Opt {
pub async fn into_config (self) -> anyhow::Result <Config> {
let client_tcp_port = self.client_tcp_port.unwrap_or (30381);
let server_tcp_port = self.server_tcp_port.unwrap_or (30382);
let client_id = self.client_id.unwrap_or_else (|| "bogus_client".to_string ());
let server_id = self.server_id.unwrap_or_else (|| "bogus_server".to_string ());
let relay_addr = self.relay_addr.unwrap_or_else (|| String::from ("127.0.0.1:30380")).parse ()?;
// Begin I/O
let relay_cert = tokio::fs::read ("ptth_quic_output/quic_server.crt").await?;
Ok (Config {
client_tcp_port,
server_tcp_port,
client_id,
server_id,
relay_addr,
relay_cert,
})
}
}

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@ -1,20 +0,0 @@
use tokio::sync::watch;
use ptth_quic::prelude::*;
use ptth_quic::executable_end_server as server;
#[tokio::main]
async fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let args: Vec <_> = std::env::args_os ().collect ();
let (shutdown_tx, shutdown_rx) = watch::channel (false);
ctrlc::set_handler (move || {
shutdown_tx.send (true).expect ("Couldn't forward Ctrl+C signal");
})?;
trace! ("Set Ctrl+C handler");
server::main (&args, Some (shutdown_rx)).await
}

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@ -1,38 +0,0 @@
use tokio::sync::watch;
use ptth_quic::prelude::*;
use ptth_quic::executable_relay_server as relay;
#[tokio::main]
async fn main () -> anyhow::Result <()> {
use structopt::StructOpt;
tracing_subscriber::fmt::init ();
let opt = relay::Opt::from_args ();
let (running_tx, mut running_rx) = watch::channel (true);
ctrlc::set_handler (move || {
running_tx.send (false).expect ("Couldn't forward Ctrl+C signal");
})?;
trace! ("Set Ctrl+C handler");
let app = relay::App::new (opt).await?;
println! ("Base64 cert: {}", base64::encode (app.server_cert ()));
println! ("Listening on {}", app.listen_addr ());
tokio::fs::create_dir_all ("ptth_quic_output").await?;
tokio::fs::write ("ptth_quic_output/quic_server.crt", app.server_cert ()).await?;
tokio::select! {
_val = app.run () => {
},
_val = running_rx.changed () => {
},
}
Ok (())
}

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@ -1,32 +0,0 @@
#[cfg (test)]
mod test {
#[test]
fn signing () -> anyhow::Result <()> {
use std::fs;
use ring::{
signature::{
self,
Ed25519KeyPair,
KeyPair,
},
};
fs::create_dir_all ("untracked")?;
let rng = ring::rand::SystemRandom::new ();
let pkcs8_bytes = Ed25519KeyPair::generate_pkcs8 (&rng).map_err (|_| anyhow::anyhow! ("generate_pkcs8"))?;
let key_pair = Ed25519KeyPair::from_pkcs8 (pkcs8_bytes.as_ref ()).map_err (|_| anyhow::anyhow! ("from_pkcs8"))?;
const MESSAGE: &[u8] = b":V";
let sig = key_pair.sign (MESSAGE);
let peer_public_key_bytes = key_pair.public_key ().as_ref ();
let peer_public_key = signature::UnparsedPublicKey::new (&signature::ED25519, peer_public_key_bytes);
peer_public_key.verify (MESSAGE, sig.as_ref ()).map_err (|_| anyhow::anyhow! ("verify"))?;
Ok (())
}
}

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@ -1,235 +0,0 @@
use structopt::StructOpt;
use tokio::{
net::TcpStream,
sync::watch,
};
use crate::prelude::*;
use protocol::PeerId;
/// A partially-filled-out config that structopt can deal with
/// Try to turn this into a Config as soon as possible.
#[derive (Debug, StructOpt)]
pub struct Opt {
#[structopt (long)]
relay_addr: Option <String>,
#[structopt (long)]
server_id: Option <PeerId>,
#[structopt (long)]
debug_echo: bool,
#[structopt (long)]
cert_url: Option <String>,
#[structopt (long)]
use_udp_over_tcp: Option <bool>,
}
/// A filled-out config for constructing an end server
#[derive (Clone)]
pub (crate) struct Config {
pub debug_echo: bool,
pub id: String,
pub relay_addr: SocketAddr,
pub relay_cert: Vec <u8>,
pub use_udp_over_tcp: bool,
}
pub async fn main (args: &[OsString], shutdown_rx: Option <watch::Receiver <bool>>) -> anyhow::Result <()> {
trace! ("executable_end_server::main");
let opt = Opt::from_iter (args);
let conf = opt.into_config ().await?;
let (end_server, shutdown_tx) = P4EndServer::connect (conf).await?;
let run_task = {
tokio::spawn (async move {
end_server.run ().await?;
Ok::<_, anyhow::Error> (())
})
};
if let Some (mut shutdown_rx) = shutdown_rx {
while ! *shutdown_rx.borrow () {
shutdown_rx.changed ().await?;
}
trace! ("P4 end server shutting down...");
shutdown_tx.send (true)?
}
run_task.await??;
trace! ("P4 end server shut down gracefully.");
Ok (())
}
impl Opt {
/// Converts self into a Config that the server can use.
/// Performs I/O to load the relay cert from disk or from HTTP.
/// Fails if arguments can't be parsed or if I/O fails.
pub (crate) async fn into_config (self) -> anyhow::Result <Config> {
let id = self.server_id.clone ().unwrap_or_else (|| "bogus_server".to_string ());
let relay_addr: SocketAddr = self.relay_addr.clone ().unwrap_or_else (|| String::from ("127.0.0.1:30380")).parse ()?;
// Do I/O after all parsing is done.
// We don't want to waste a network request only to come back and error
// out on like "127.oooo.1" not parsing into a relay address.
let relay_cert: Vec <u8> = match self.cert_url.as_ref () {
Some (url) => reqwest::get (url).await?.bytes ().await?.into_iter ().collect (),
None => tokio::fs::read ("ptth_quic_output/quic_server.crt").await?,
};
Ok (Config {
debug_echo: self.debug_echo,
id,
relay_addr,
relay_cert,
use_udp_over_tcp: self.use_udp_over_tcp.unwrap_or (false),
})
}
}
pub struct P4EndServer {
conf: Config,
conn: quinn::Connection,
shutdown_rx: watch::Receiver <bool>,
}
impl P4EndServer {
pub (crate) async fn connect (conf: Config) -> anyhow::Result <(Self, watch::Sender <bool>)> {
debug! ("P4 end server making its QUIC endpoint");
let endpoint = make_client_endpoint ("0.0.0.0:0".parse ()?, &[&conf.relay_cert])?;
let conf = if conf.use_udp_over_tcp {
let udp_sock = UdpSocket::bind (SocketAddrV4::new (Ipv4Addr::UNSPECIFIED, 0)).await?;
udp_sock.connect ((Ipv4Addr::LOCALHOST, endpoint.local_addr ()?.port ())).await?;
let udp_local_server_port = udp_sock.local_addr ()?.port ();
let tcp_sock = TcpSocket::new_v4 ()?;
let tcp_conn = tcp_sock.connect (conf.relay_addr).await?;
tokio::spawn (async move {
udp_over_tcp::client::main_with_sockets (udp_sock, tcp_conn).await
});
Config {
debug_echo: conf.debug_echo,
id: conf.id,
relay_addr: SocketAddr::V4 (SocketAddrV4::new (Ipv4Addr::LOCALHOST, udp_local_server_port)),
relay_cert: conf.relay_cert,
use_udp_over_tcp: true,
}
}
else {
conf
};
debug! ("P4 end server connecting to P3 relay server");
let conn = protocol::p4_connect_to_p3 (
&endpoint,
conf.relay_addr,
&conf.id
).await?;
debug! ("Connected to relay server");
let (shutdown_tx, shutdown_rx) = watch::channel (false);
Ok ((P4EndServer {
conf,
conn,
shutdown_rx,
}, shutdown_tx))
}
pub (crate) async fn run (self) -> anyhow::Result <()> {
trace! ("Accepting bi streams from P3");
let mut shutdown_rx = self.shutdown_rx.clone ();
let conf = Arc::new (self.conf);
loop {
tokio::select! {
_ = shutdown_rx.changed () => {
if *shutdown_rx.borrow () {
trace! ("P4 incoming bi streams task caught graceful shutdown");
break;
}
}
stream_opt = self.conn.accept_bi () => {
let (relay_send, relay_recv) = stream_opt?;
tokio::spawn (handle_bi_stream (Arc::clone (&conf), relay_send, relay_recv));
}
};
}
Ok (())
}
pub fn shutting_down (&self) -> bool {
*self.shutdown_rx.borrow ()
}
}
async fn handle_bi_stream (
conf: Arc <Config>,
relay_send: quinn::SendStream,
mut relay_recv: quinn::RecvStream,
) -> anyhow::Result <()>
{
match protocol::p4_accept_p3_stream (&mut relay_recv).await? {
protocol::P3ToP4Stream::NewPtthConnection {
client_id,
..
} => handle_new_ptth_connection (conf, relay_send, relay_recv, client_id).await?,
}
Ok (())
}
async fn handle_new_ptth_connection (
conf: Arc <Config>,
mut relay_send: quinn::SendStream,
mut relay_recv: quinn::RecvStream,
_client_id: String,
) -> anyhow::Result <()>
{
// TODO: Check authorization for P2 --> P4
protocol::p4_authorize_p2_connection (&mut relay_send).await?;
let p4_to_p5_req = protocol::p4_expect_p5_request (&mut relay_recv).await?;
// TODO: Check authorization for P1 --> P5
protocol::p4_authorize_p1_connection (&mut relay_send).await?;
debug! ("Started PTTH connection");
if conf.debug_echo {
relay_send.write (b"Connected to P4=P5 debug echo server\n").await?;
debug! ("Relaying bytes using internal debug echo server (P4=P5)");
tokio::io::copy (&mut relay_recv, &mut relay_send).await?;
}
else {
let stream = TcpStream::connect (("127.0.0.1", p4_to_p5_req.port)).await?;
let (local_recv, local_send) = stream.into_split ();
trace! ("Relaying bytes...");
let ptth_conn = crate::connection::NewConnection {
local_send,
local_recv,
relay_send,
relay_recv,
}.build ();
ptth_conn.wait_for_close ().await?;
}
Ok (())
}

View File

@ -1,568 +0,0 @@
use hyper::{
Body,
Request,
Response,
Server,
service::{
make_service_fn,
service_fn,
},
StatusCode,
};
use structopt::StructOpt;
use crate::prelude::*;
use protocol::PeerId;
#[derive (Debug, StructOpt)]
pub struct Opt {
#[structopt (long)]
pub (crate) listen_addr: Option <String>,
#[structopt (long)]
pub (crate) tcp_listen_port: Option <u16>,
}
pub struct App {
endpoint: quinn::Endpoint,
listen_addr: SocketAddr,
pub (crate) metrics: Arc <RwLock <Metrics>>,
server_cert: Vec <u8>,
tcp_listener: Option <udp_over_tcp::server::Listener>,
}
#[derive (Default)]
pub (crate) struct Metrics {
pub (crate) connected_end_servers: usize,
}
impl App {
pub async fn new (opt: Opt) -> anyhow::Result <Self> {
let config = load_config ().await.ok ();
let listen_addr = opt.listen_addr.unwrap_or_else (|| String::from ("0.0.0.0:30380")).parse ()?;
let (endpoint, server_cert) = make_server_endpoint (listen_addr)?;
let listen_addr = endpoint.local_addr ()?;
let tcp_port = opt.tcp_listen_port.or (config.map (|cfg| cfg.tcp_listen_port).flatten ());
let tcp_listener = if let Some (tcp_port) = tcp_port {
let cfg = udp_over_tcp::server::Config {
tcp_port,
udp_port: listen_addr.port (),
};
Some (udp_over_tcp::server::Listener::new (cfg).await?)
}
else {
None
};
Ok (Self {
endpoint,
listen_addr,
metrics: Default::default (),
server_cert,
tcp_listener,
})
}
pub fn listen_addr (&self) -> SocketAddr {
self.listen_addr
}
pub fn server_cert (&self) -> &[u8] {
&self.server_cert
}
pub fn tcp_listen_port (&self) -> anyhow::Result <Option <u16>> {
match self.tcp_listener.as_ref () {
None => Ok (None),
Some (tcp_listener) => Ok (tcp_listener.tcp_port ()?.into ()),
}
}
pub async fn run (self) -> anyhow::Result <()> {
let Self {
endpoint,
listen_addr: _,
metrics,
server_cert: _,
tcp_listener,
} = self;
let mut relay_state = RelayState::default ();
relay_state.metrics = metrics;
if let Err (e) = relay_state.reload_config ().await {
error! ("{:?}", e);
}
let relay_state = Arc::new (relay_state);
let make_svc = {
let relay_state = Arc::clone (&relay_state);
make_service_fn (move |_conn| {
let relay_state = Arc::clone (&relay_state);
async move {
Ok::<_, String> (service_fn (move |req| {
let relay_state = Arc::clone (&relay_state);
handle_http (req, relay_state)
}))
}
})
};
let http_addr = SocketAddr::from (([0, 0, 0, 0], 4004));
let http_server = Server::bind (&http_addr);
let _task_reload_config = {
let relay_state = Arc::clone (&relay_state);
tokio::spawn (async move {
let mut interval = tokio::time::interval (std::time::Duration::from_secs (60));
interval.set_missed_tick_behavior (tokio::time::MissedTickBehavior::Skip);
loop {
interval.tick ().await;
relay_state.reload_config ().await.ok ();
}
})
};
let task_quic_server = {
let relay_state = Arc::clone (&relay_state);
tokio::spawn (async move {
while let Some (conn) = endpoint.accept ().await {
let relay_state = Arc::clone (&relay_state);
// Each new peer QUIC connection gets its own task
tokio::spawn (async move {
let active = relay_state.stats.quic.connect ();
debug! ("QUIC connections: {}", active);
match handle_quic_connection (Arc::clone (&relay_state), conn).await {
Ok (_) => (),
Err (e) => warn! ("handle_quic_connection `{:?}`", e),
}
let active = relay_state.stats.quic.disconnect ();
debug! ("QUIC connections: {}", active);
});
}
Ok::<_, anyhow::Error> (())
})
};
let task_http_server = tokio::spawn (async move {
http_server.serve (make_svc).await?;
Ok::<_, anyhow::Error> (())
});
debug! ("Serving HTTP on {:?}", http_addr);
if let Some (tcp_listener) = tcp_listener {
tokio::spawn (async move {
if let Err (e) = tcp_listener.run ().await {
eprintln! ("udp_over_tcp::server::main exited with err {:?}", e);
}
Ok::<_, anyhow::Error> (())
});
}
{
let config = relay_state.config.load ();
dbg! (&config.webhook_url);
if let Some (webhook_url) = config.webhook_url.clone () {
let j = json! ({
"text": "Booting up",
}).to_string ();
let http_client = relay_state.http_client.clone ();
tokio::spawn (async move {
http_client.post (webhook_url).body (j).send ().await
});
}
}
tokio::select! {
_val = task_quic_server => {
eprintln! ("QUIC relay server exited, exiting");
},
_val = task_http_server => {
eprintln! ("HTTP server exited, exiting");
},
}
Ok (())
}
}
async fn handle_http (_req: Request <Body>, relay_state: Arc <RelayState>)
-> anyhow::Result <Response <Body>>
{
let debug_string;
{
let p4_server_proxies = relay_state.p4_server_proxies.lock ().await;
debug_string = format! ("{:#?}\n", p4_server_proxies.keys ().collect::<Vec<_>> ());
}
let resp = Response::builder ()
.status (StatusCode::OK)
.header ("content-type", "text/plain")
.body (Body::from (debug_string))?;
Ok (resp)
}
#[derive (Default)]
struct RelayState {
config: arc_swap::ArcSwap <Config>,
p4_server_proxies: Mutex <HashMap <PeerId, P4State>>,
metrics: Arc <RwLock <Metrics>>,
stats: Stats,
http_client: reqwest::Client,
}
#[derive (Default)]
struct Config {
ip_nicknames: BTreeMap <[u8; 4], String>,
webhook_url: Option <String>,
}
impl From <ConfigFile> for Config {
fn from (x: ConfigFile) -> Self {
Self {
ip_nicknames: x.ip_nicknames.into_iter ().collect (),
webhook_url: x.webhook_url,
}
}
}
#[derive (Deserialize)]
struct ConfigFile {
ip_nicknames: Vec <([u8; 4], String)>,
tcp_listen_port: Option <u16>,
webhook_url: Option <String>,
}
#[derive (Default)]
struct Stats {
quic: ConnectEvents,
}
#[derive (Default)]
struct ConnectEvents {
connects: AtomicU64,
disconnects: AtomicU64,
}
impl ConnectEvents {
fn connect (&self) -> u64 {
let connects = self.connects.fetch_add (1, Ordering::Relaxed) + 1;
let disconnects = self.disconnects.load (Ordering::Relaxed);
connects - disconnects
}
fn disconnect (&self) -> u64 {
let disconnects = self.disconnects.fetch_add (1, Ordering::Relaxed) + 1;
let connects = self.connects.load (Ordering::Relaxed);
connects - disconnects
}
fn _active (&self) -> u64 {
let connects = self.connects.load (Ordering::Relaxed);
let disconnects = self.disconnects.load (Ordering::Relaxed);
connects - disconnects
}
}
struct P4State {
req_channel: mpsc::Sender <RequestP2ToP4>,
}
async fn load_config () -> anyhow::Result <ConfigFile>
{
let s = tokio::fs::read_to_string ("config/ptth_quic_relay_server.json").await?;
let cfg: ConfigFile = serde_json::from_str (&s)?;
Ok (cfg)
}
impl RelayState {
async fn reload_config (&self) -> anyhow::Result <()> {
let config = load_config ().await?;
let config = Arc::new (Config::from (config));
self.config.store (config);
Ok (())
}
}
struct RequestP2ToP4 {
client_send: quinn::SendStream,
client_recv: quinn::RecvStream,
client_id: String,
}
struct PtthNewConnection {
client_send: quinn::SendStream,
client_recv: quinn::RecvStream,
server_send: quinn::SendStream,
server_recv: quinn::RecvStream,
}
struct PtthConnection {
uplink_task: JoinHandle <anyhow::Result <()>>,
downlink_task: JoinHandle <anyhow::Result <()>>,
}
impl PtthNewConnection {
fn build (self) -> PtthConnection {
let Self {
mut client_send,
mut client_recv,
mut server_send,
mut server_recv,
} = self;
let uplink_task = tokio::spawn (async move {
// Uplink - Client to end server
let mut buf = vec! [0u8; 65_536];
while let Some (bytes_read) = client_recv.read (&mut buf).await? {
if bytes_read == 0 {
break;
}
let buf_slice = &buf [0..bytes_read];
trace! ("Uplink relaying {} bytes", bytes_read);
server_send.write_all (buf_slice).await?;
}
trace! ("Uplink closed");
Ok::<_, anyhow::Error> (())
});
let downlink_task = tokio::spawn (async move {
// Downlink - End server to client
let mut buf = vec! [0u8; 65_536];
while let Some (bytes_read) = server_recv.read (&mut buf).await? {
let buf_slice = &buf [0..bytes_read];
trace! ("Downlink relaying {} bytes", bytes_read);
client_send.write_all (buf_slice).await?;
}
trace! ("Downlink closed");
Ok::<_, anyhow::Error> (())
});
PtthConnection {
uplink_task,
downlink_task,
}
}
}
async fn handle_quic_connection (
relay_state: Arc <RelayState>,
conn: quinn::Connecting,
) -> anyhow::Result <()>
{
let id = Ulid::generate ();
let config = relay_state.config.load ();
let remote_addr = conn.remote_address ();
let ip_nickname = match remote_addr {
SocketAddr::V4 (x) => {
let ip = x.ip ().octets ();
match config.ip_nicknames.get (&ip) {
Some (nick) => nick.as_str (),
_ => "Unknown",
}
},
_ => "Unknown, not IPv4",
};
debug! ("EHG7NVUD Incoming QUIC connection {} from {:?} ({})", id, remote_addr, ip_nickname);
if let Some (webhook_url) = config.webhook_url.clone () {
let j = json! ({
"text": format! ("Incoming QUIC connection from {:?} ({})", remote_addr, ip_nickname),
}).to_string ();
let http_client = relay_state.http_client.clone ();
tokio::spawn (async move {
http_client.post (webhook_url).body (j).send ().await
});
}
let conn = conn.await?;
// Everyone who connects must identify themselves with the first
// bi stream
// TODO: Timeout
let (mut send, mut recv) = conn.accept_bi ().await?;
let peer = protocol::p3_accept_peer (&mut recv).await?;
match peer {
protocol::P3Peer::P2ClientProxy (peer) => {
trace! ("H36JTVE5 Handling connection {} as P2 client", id);
// TODO: Check authorization for P2 peers
protocol::p3_authorize_p2_peer (&mut send).await?;
handle_p2_connection (relay_state, conn, peer).await?;
},
protocol::P3Peer::P4ServerProxy (peer) => {
trace! ("LRHUKB7K Handling connection {} as P4 end server", id);
// TODO: Check authorization for P4 peers
protocol::p3_authorize_p4_peer (&mut send).await?;
let metrics = Arc::clone (&relay_state.metrics);
{
let mut m = metrics.write ().await;
m.connected_end_servers += 1;
}
handle_p4_connection (relay_state, conn, peer).await?;
{
let mut m = metrics.write ().await;
m.connected_end_servers -= 1;
}
},
}
Ok::<_, anyhow::Error> (())
}
async fn handle_p2_connection (
relay_state: Arc <RelayState>,
conn: quinn::Connection,
peer: protocol::P2ClientProxy,
) -> anyhow::Result <()>
{
let client_id = peer.id;
while let Ok ((send, mut recv)) = conn.accept_bi ().await {
let relay_state = Arc::clone (&relay_state);
let client_id = client_id.clone ();
tokio::spawn (async move {
debug! ("Request started for P2");
match protocol::p3_accept_p2_stream (&mut recv).await? {
protocol::P2ToP3Stream::ConnectP2ToP4 {
server_id,
} => {
handle_request_p2_to_p4 (
relay_state,
client_id,
server_id,
send,
recv
).await?
},
_ => (),
}
debug! ("Request ended for P2");
Ok::<_, anyhow::Error> (())
});
}
debug! ("P2 {} disconnected", client_id);
Ok (())
}
async fn handle_request_p2_to_p4 (
relay_state: Arc <RelayState>,
client_id: String,
server_id: PeerId,
mut client_send: quinn::SendStream,
client_recv: quinn::RecvStream,
) -> anyhow::Result <()>
{
trace! ("P2 {} wants to connect to P4 {}", client_id, server_id);
// TODO: Check authorization for P2 to connect to P4
protocol::p3_authorize_p2_to_p4_connection (&mut client_send).await?;
{
let p4_server_proxies = relay_state.p4_server_proxies.lock ().await;
match p4_server_proxies.get (&server_id) {
Some (p4_state) => {
p4_state.req_channel.send (RequestP2ToP4 {
client_send,
client_recv,
client_id,
}).await.map_err (|_| anyhow::anyhow! ("Can't send request to P4 server"))?;
},
None => warn! ("That server isn't connected"),
}
}
Ok (())
}
async fn handle_p4_connection (
relay_state: Arc <RelayState>,
connection: quinn::Connection,
peer: protocol::P4ServerProxy,
) -> anyhow::Result <()>
{
let server_id = peer.id;
let (tx, mut rx) = mpsc::channel (2);
let p4_state = P4State {
req_channel: tx,
};
{
let mut p4_server_proxies = relay_state.p4_server_proxies.lock ().await;
p4_server_proxies.insert (server_id.clone (), p4_state);
}
while let Some (req) = rx.recv ().await {
let connection = connection.clone ();
let server_id = server_id.clone ();
tokio::spawn (async move {
let RequestP2ToP4 {
client_send,
client_recv,
client_id,
} = req;
debug! ("P4 {} got a request from P2 {}", server_id, client_id);
let (server_send, server_recv) = protocol::p3_connect_p2_to_p4 (&connection, &client_id).await?;
trace! ("Relaying bytes...");
let ptth_conn = PtthNewConnection {
client_send,
client_recv,
server_send,
server_recv,
}.build ();
ptth_conn.uplink_task.await??;
ptth_conn.downlink_task.await??;
debug! ("Request ended for P4");
Ok::<_, anyhow::Error> (())
});
}
debug! ("P4 {} disconnected", server_id);
Ok (())
}

View File

@ -1,11 +0,0 @@
pub mod client_proxy;
pub mod connection;
pub mod crypto;
pub mod executable_end_server;
pub mod executable_relay_server;
pub mod prelude;
pub mod protocol;
pub mod quinn_utils;
#[cfg (test)]
mod tests;

View File

@ -1,110 +0,0 @@
use crate::prelude::*;
#[test]
fn end_to_end () -> anyhow::Result <()> {
let rt = tokio::runtime::Runtime::new ()?;
rt.block_on (end_to_end_async ())?;
Ok (())
}
async fn end_to_end_async () -> anyhow::Result <()> {
use crate::executable_end_server as server;
use crate::executable_relay_server as relay;
let relay_opt = relay::Opt {
listen_addr: "127.0.0.1:0".to_string ().into (),
tcp_listen_port: Some (0),
};
let relay_app = relay::App::new (relay_opt).await?;
let relay_quic_port = relay_app.listen_addr ().port ();
let relay_cert = Vec::from (relay_app.server_cert ());
let relay_metrics = Arc::clone (&relay_app.metrics);
let tcp_listen_port = relay_app.tcp_listen_port ()?.unwrap ();
assert_ne! (tcp_listen_port, 0);
let task_relay = tokio::spawn (async move {
relay_app.run ().await
});
{
let m = relay_metrics.read ().await;
assert_eq! (m.connected_end_servers, 0);
}
// Connect with wrong port, should fail
let server_conf = server::Config {
debug_echo: false,
id: "bogus".into (),
relay_addr: "127.0.0.1:80".parse ()?,
relay_cert: relay_cert.clone (),
use_udp_over_tcp: false,
};
let server_err = server::P4EndServer::connect (server_conf).await;
assert! (server_err.is_err ());
// Connect with wrong cert, should fail
let server_conf = server::Config {
debug_echo: false,
id: "bogus".into (),
relay_addr: ([127, 0, 0, 1], relay_quic_port).into (),
relay_cert: vec! [],
use_udp_over_tcp: false,
};
let server_err = server::P4EndServer::connect (server_conf).await;
assert! (server_err.is_err ());
{
let m = relay_metrics.read ().await;
assert_eq! (m.connected_end_servers, 0);
}
// Connect over UDP
let server_conf = server::Config {
debug_echo: false,
id: "bogus_VZBNRUA5".into (),
relay_addr: ([127, 0, 0, 1], relay_quic_port).into (),
relay_cert: relay_cert.clone (),
use_udp_over_tcp: false,
};
let t = Instant::now ();
let (server, _) = server::P4EndServer::connect (server_conf).await?;
let dur = t.elapsed ();
assert! (dur < Duration::from_millis (1_000), "{:?}", dur);
{
let m = relay_metrics.read ().await;
assert_eq! (m.connected_end_servers, 1);
}
// Connect over TCP
let server_conf = server::Config {
debug_echo: false,
id: "bogus_6E5CZIAI".into (),
relay_addr: ([127, 0, 0, 1], tcp_listen_port).into (),
relay_cert: relay_cert.clone (),
use_udp_over_tcp: true,
};
let t = Instant::now ();
let (server, _) = server::P4EndServer::connect (server_conf).await?;
let dur = t.elapsed ();
assert! (dur < Duration::from_millis (1_000), "{:?}", dur);
{
let m = relay_metrics.read ().await;
assert_eq! (m.connected_end_servers, 2);
}
Ok (())
}

View File

@ -1,407 +0,0 @@
use std::{
str::FromStr,
};
use fltk::{
app,
button::Button,
enums::CallbackTrigger,
frame::Frame,
group::Flex,
input::*,
prelude::*,
window::Window
};
use rand::{
Rng,
SeedableRng,
};
use structopt::StructOpt;
use tokio::runtime::Runtime;
use ptth_quic::{
client_proxy::*,
prelude::*,
protocol::PeerId,
};
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
window_title: Option <String>,
#[structopt (long)]
relay_addr: Option <String>,
#[structopt (long)]
client_id: Option <PeerId>,
#[structopt (long)]
cert_url: Option <String>,
}
#[derive (Clone, Copy)]
enum Message {
OpenPort (usize),
ClosePort (usize),
AddPort,
}
struct GuiClient <'a> {
rt: &'a Runtime,
frame_status: Frame,
ports: Vec <Port>,
but_add_port: Button,
}
struct Port {
gui: GuiPort,
forwarding_instance: Option <ForwardingInstance>,
}
impl Port {
pub fn open_port (
&mut self,
rt: &Runtime,
connection_p2_p3: quinn::Connection,
) -> anyhow::Result <()>
{
let params = self.gui.get_params ()?;
let _guard = rt.enter ();
let forwarding_instance = rt.block_on (ForwardingInstance::new (
connection_p2_p3,
params,
))?;
self.gui.input_client_port.set_value (&forwarding_instance.local_port ().to_string ());
self.forwarding_instance.replace (forwarding_instance);
self.gui.set_forwarding (true);
Ok (())
}
}
struct GuiPort {
row: fltk::group::Flex,
input_client_port: Input,
input_server_id: Input,
input_server_port: Input,
but_open: Button,
but_close: Button,
}
impl GuiClient <'_> {
pub fn open_port (
&mut self,
connection_p2_p3: quinn::Connection,
port_idx: usize,
) -> anyhow::Result <()>
{
self.ports [port_idx].open_port (self.rt, connection_p2_p3)?;
self.sync_status ();
Ok (())
}
pub fn close_port (&mut self, port_idx: usize) -> anyhow::Result <()> {
if let Some (old_instance) = self.ports [port_idx].forwarding_instance.take () {
self.rt.block_on (async {
old_instance.close ()
.await
.context ("closing ForwardingInstance")?;
Ok::<_, anyhow::Error> (())
})?;
}
self.ports [port_idx].gui.set_forwarding (false);
self.sync_status ();
Ok (())
}
fn open_ports (&self) -> usize {
self.ports.iter ()
.map (|x| if x.forwarding_instance.is_some () { 1 } else { 0 })
.sum ()
}
pub fn sync_status (&mut self) {
let open_ports = self.open_ports ();
self.frame_status.set_label (&format! ("Forwarding {} ports", open_ports));
}
pub fn add_port (
&mut self,
ports_col: &mut Flex,
fltk_tx: fltk::app::Sender <Message>
) {
const MAX_PORTS: usize = 15;
if self.ports.len () >= MAX_PORTS {
return;
}
let gui = GuiPort::new (fltk_tx, self.ports.len ());
ports_col.add (&gui.row);
ports_col.fixed (&gui.row, 30);
let port = Port {
gui,
forwarding_instance: None,
};
self.ports.push (port);
if self.ports.len () >= MAX_PORTS {
self.but_add_port.deactivate ();
}
}
}
fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let rt = Runtime::new ()?;
let opt = Opt::from_args ();
let (fltk_tx, fltk_rx) = app::channel::<Message> ();
let app = app::App::default ();
let window_title = opt.window_title.clone ().unwrap_or_else (|| "PTTH client proxy".to_string ());
let mut wind = Window::new (100, 100, 800, 600, None)
.with_label (&window_title);
wind.make_resizable (true);
let mut col = Flex::default ().column ().size_of_parent ();
let frame_status = Frame::default ();
col.fixed (&frame_status, 30);
{
let mut row = Flex::default ().row ();
let l = Frame::default ().with_label ("Server ID");
row.fixed (&l, 120);
let l = Frame::default ().with_label ("Server port");
row.fixed (&l, 80);
let l = Frame::default ().with_label ("Local port");
row.fixed (&l, 80);
row.end ();
col.fixed (&row, 30);
}
let mut ports_col = Flex::default ().column ();
ports_col.end ();
let mut but_add_port = Button::default ().with_label ("+");
but_add_port.set_trigger (CallbackTrigger::Release);
but_add_port.emit (fltk_tx, Message::AddPort);
col.fixed (&but_add_port, 30);
col.end ();
let relay_addr = opt.relay_addr.as_ref ()
.map (|s| &s[..])
.unwrap_or ("127.0.0.1:30380")
.parse ()
.context ("relay_addr should be like 127.0.0.1:30380")?;
let mut gui_client = GuiClient {
rt: &rt,
frame_status,
ports: Default::default (),
but_add_port,
};
gui_client.add_port (&mut ports_col, fltk_tx);
ports_col.recalc ();
gui_client.sync_status ();
wind.end ();
wind.show ();
let connection_p2_p3 = rt.block_on (async move {
let server_cert = match opt.cert_url.as_ref () {
Some (url) => reqwest::get (url).await?.bytes ().await?,
None => tokio::fs::read ("ptth_quic_output/quic_server.crt").await.context ("can't read quic_server.crt from disk")?.into (),
};
let endpoint = make_client_endpoint ("0.0.0.0:0".parse ()?, &[&server_cert])?;
trace! ("Connecting to relay server");
let client_id = opt.client_id.unwrap_or_else (|| "bogus_client".to_string ());
let connection = protocol::p2_connect_to_p3 (&endpoint, relay_addr, &client_id).await
.context ("P2 can't connect to P3")?;
Ok::<_, anyhow::Error> (connection)
})?;
while app.wait () {
match fltk_rx.recv () {
Some (Message::OpenPort (port_idx)) => {
if let Err (e) = gui_client.open_port (connection_p2_p3.clone (), port_idx)
{
error! ("{:?}", e);
}
},
Some (Message::ClosePort (port_idx)) => {
gui_client.close_port (port_idx)?;
},
Some (Message::AddPort) => {
gui_client.add_port (&mut ports_col, fltk_tx);
ports_col.recalc ();
ports_col.redraw ();
},
None => (),
}
}
Ok (())
}
fn set_active <W: WidgetExt> (w: &mut W, b: bool) {
if b {
w.activate ();
}
else {
w.deactivate ();
}
}
impl GuiPort {
fn new (fltk_tx: fltk::app::Sender <Message>, port_idx: usize) -> Self {
let mut row = Flex::default ().row ();
let mut input_server_id = Input::default ();
let mut input_server_port = Input::default ();
let mut input_client_port = Input::default ();
let mut but_open = Button::default ().with_label ("Open");
let mut but_close = Button::default ().with_label ("Close");
row.fixed (&input_server_id, 120);
row.fixed (&input_server_port, 80);
row.fixed (&input_client_port, 80);
row.fixed (&but_open, 80);
row.fixed (&but_close, 80);
input_client_port.set_value ("");
input_client_port.set_readonly (true);
input_server_id.set_value ("bogus_server");
input_server_port.set_value ("5900");
but_open.set_trigger (CallbackTrigger::Release);
but_open.emit (fltk_tx, Message::OpenPort (port_idx));
but_close.set_trigger (CallbackTrigger::Release);
but_close.emit (fltk_tx, Message::ClosePort (port_idx));
row.end ();
let mut output = Self {
row,
input_client_port,
input_server_id,
input_server_port,
but_open,
but_close,
};
output.set_forwarding (false);
output
}
fn get_params (&self) -> anyhow::Result <ForwardingParams>
{
let server_tcp_port = u16::from_str (&self.input_server_port.value ())?;
let server_id = self.input_server_id.value ();
let client_tcp_port = PortInfo {
server_id: &server_id,
server_tcp_port,
}.random_eph_port ();
Ok (ForwardingParams {
client_tcp_port,
server_id,
server_tcp_port,
})
}
fn set_forwarding (&mut self, x: bool) {
set_active (&mut self.input_client_port, x);
set_active (&mut self.input_server_id, !x);
set_active (&mut self.input_server_port, !x);
set_active (&mut self.but_open, !x);
set_active (&mut self.but_close, x);
self.but_open.set (x);
self.but_close.set (!x);
}
}
// This can collide, but who cares
// It's not secure or anything - It's just supposed to pick a port somewhat
// deterministically based on the server and relay info.
#[derive (serde::Serialize)]
struct PortInfo <'a> {
// relay_addr: SocketAddr,
server_id: &'a str,
server_tcp_port: u16
}
impl PortInfo <'_> {
// https://en.wikipedia.org/wiki/TCP_ports#Dynamic,_private_or_ephemeral_ports
fn random_eph_port (&self) -> u16
{
let seed = blake3::hash (&rmp_serde::to_vec (self).expect ("Can't hash PortInfo - impossible error"));
let mut rng = rand_chacha::ChaCha20Rng::from_seed (*seed.as_bytes ());
let tcp_eph_range = 49152..=65535;
rng.gen_range (tcp_eph_range)
}
}
#[cfg (test)]
mod test {
use blake3::Hasher;
use super::*;
#[test]
fn prng () {
let hasher = Hasher::default ();
let seed = hasher.finalize ();
let mut rng = rand_chacha::ChaCha20Rng::from_seed (*seed.as_bytes ());
let tcp_eph_range = 49152..=65535;
let port = rng.gen_range (tcp_eph_range);
assert_eq! (port, 49408);
for (input, expected) in [
(("127.0.0.1:4000", "bogus_server", 22), 51168),
// The relay address is explicitly excluded from the eph port
// computation in case I want to support connecting to a server
// across multiple relays
(("127.0.0.1:30380", "bogus_server", 22), 51168),
(("127.0.0.1:4000", "real_server", 22), 53873),
(("127.0.0.1:4000", "bogus_server", 5900), 53844),
] {
let (_relay_addr, server_id, server_tcp_port) = input;
let input = PortInfo {
server_id,
server_tcp_port,
};
let actual = input.random_eph_port ();
assert_eq! (expected, actual);
}
}
}

View File

@ -7,39 +7,33 @@ edition = "2018"
license = "AGPL-3.0"
description = "The PTTH relay"
repository = "https://six-five-six-four.com/git/reactor/ptth"
[dependencies]
anyhow = "1.0.66"
anyhow = "1.0.38"
base64 = "0.13.0"
blake3 = "1.0.0"
chrono = { version = "0.4.23", features = ["serde"] }
blake3 = "0.3.7"
chrono = { version = "0.4.19", features = ["serde"] }
clap = "2.33.3"
dashmap = "4.0.2"
futures = "0.3.7"
futures-util = "0.3.8"
handlebars = "3.5.3"
http = "0.2.3"
hyper = { version = "0.14.23", features = ["http1", "http2", "server", "stream", "tcp"] }
hyper = { version = "0.14.4", features = ["http1", "server", "stream", "tcp"] }
itertools = "0.9.0"
rand = "0.8.5"
rand = "0.8.3"
rmp-serde = "0.15.5"
rusty_ulid = "1.0.0"
serde = { version = "1.0.150", features = ["derive"] }
serde_json = "1.0.89"
serde_urlencoded = "0.7.1"
thiserror = "1.0.37"
tokio = { version = "1.23.0", features = [] }
tokio-stream = "0.1.11"
toml = "0.5.10"
tracing = "0.1.37"
rusty_ulid = "0.10.1"
serde = { version = "1.0.117", features = ["derive"] }
serde_json = "1.0.60"
serde_urlencoded = "0.7.0"
thiserror = "1.0.22"
tokio = { version = "1.8.1", features = [] }
tokio-stream = "0.1.3"
toml = "0.5.7"
tracing = "0.1.25"
tracing-futures = "0.2.4"
tracing-subscriber = "0.2.15"
ptth_core = { path = "../ptth_core", version = "2.0.0" }
[dependencies.reqwest]
version = "0.11.13"
default-features = false
features = ["stream", "rustls-tls", "hyper-rustls"]

View File

@ -15,6 +15,7 @@ use crate::{
errors::ConfigError,
key_validity::{
ScraperKey,
Valid30Days,
},
};
@ -98,6 +99,7 @@ pub mod file {
use crate::key_validity::{
BlakeHashWrapper,
ScraperKey,
Valid30Days,
};
#[derive (Clone, Debug, Deserialize, Serialize)]
@ -140,12 +142,9 @@ pub mod file {
pub servers: Option <Vec <Server>>,
// Adding a DB will take a while, so I'm moving these out of dev mode.
pub scraper_keys: Option <Vec <ScraperKey>>,
pub scraper_keys: Option <Vec <ScraperKey <Valid30Days>>>,
pub news_url: Option <String>,
pub hide_audit_log: Option <bool>,
pub webhook_url: Option <String>,
pub webhook_interval_s: Option <u32>,
}
}
@ -157,11 +156,8 @@ pub struct Config {
pub address: IpAddr,
pub port: Option <u16>,
pub servers: HashMap <String, file::Server>,
pub scraper_keys: HashMap <String, ScraperKey>,
pub scraper_keys: HashMap <String, ScraperKey <Valid30Days>>,
pub news_url: Option <String>,
pub hide_audit_log: bool,
pub webhook_url: Option <String>,
pub webhook_interval_s: u32,
}
impl Default for Config {
@ -173,9 +169,6 @@ impl Default for Config {
servers: Default::default (),
scraper_keys: Default::default (),
news_url: None,
hide_audit_log: false,
webhook_url: None,
webhook_interval_s: 7200,
}
}
}
@ -204,9 +197,6 @@ impl TryFrom <file::Config> for Config {
servers,
scraper_keys,
news_url: f.news_url,
hide_audit_log: f.hide_audit_log.unwrap_or (false),
webhook_url: f.webhook_url,
webhook_interval_s: f.webhook_interval_s.unwrap_or (7200),
})
}
}

View File

@ -78,17 +78,36 @@ impl Serialize for BlakeHashWrapper {
}
}
pub struct Valid7Days;
pub struct Valid30Days;
//pub struct Valid90Days;
pub trait MaxValidDuration {
fn dur () -> Duration;
}
impl MaxValidDuration for Valid7Days {
fn dur () -> Duration {
Duration::days (7)
}
}
impl MaxValidDuration for Valid30Days {
fn dur () -> Duration {
Duration::days (30)
}
}
#[derive (Deserialize)]
pub struct ScraperKey {
pub name: String,
pub struct ScraperKey <V: MaxValidDuration> {
name: String,
not_before: DateTime <Utc>,
not_after: DateTime <Utc>,
pub hash: BlakeHashWrapper,
#[serde (default)]
_phantom: std::marker::PhantomData <V>,
}
#[derive (Copy, Clone, Debug, PartialEq)]
@ -102,20 +121,21 @@ pub enum KeyValidity {
DurationNegative,
}
impl ScraperKey {
impl <V: MaxValidDuration> ScraperKey <V> {
pub fn new_30_day <S: Into <String>> (name: S, input: &[u8]) -> Self {
let now = Utc::now ();
Self {
name: name.into (),
not_before: now,
not_after: now + Duration::days (30),
not_after: now + V::dur (),
hash: BlakeHashWrapper::from_key (input),
_phantom: Default::default (),
}
}
}
impl ScraperKey {
impl <V: MaxValidDuration> ScraperKey <V> {
#[must_use]
pub fn is_valid (&self, now: DateTime <Utc>, input: &[u8]) -> KeyValidity {
use KeyValidity::*;
@ -132,6 +152,13 @@ impl ScraperKey {
return DurationNegative;
}
let max_dur = V::dur ();
let actual_dur = self.not_after - self.not_before;
if actual_dur > max_dur {
return DurationTooLong (max_dur);
}
if now >= self.not_after {
return Expired;
}
@ -169,11 +196,12 @@ mod tests {
fn duration_negative () {
let zero_time = Utc::now ();
let key = ScraperKey {
let key = ScraperKey::<Valid30Days> {
name: "automated testing".to_string (),
not_before: zero_time + Duration::days (1 + 2),
not_after: zero_time + Duration::days (1),
hash: BlakeHashWrapper::from_key ("bad_password".as_bytes ()),
_phantom: Default::default (),
};
let err = DurationNegative;
@ -187,22 +215,46 @@ mod tests {
}
}
#[test]
fn key_valid_too_long () {
let zero_time = Utc::now ();
let key = ScraperKey::<Valid30Days> {
name: "automated testing".to_string (),
not_before: zero_time + Duration::days (1),
not_after: zero_time + Duration::days (1 + 31),
hash: BlakeHashWrapper::from_key ("bad_password".as_bytes ()),
_phantom: Default::default (),
};
let err = DurationTooLong (Duration::days (30));
for (input, expected) in &[
(zero_time + Duration::days (0), err),
(zero_time + Duration::days (2), err),
(zero_time + Duration::days (100), err),
] {
assert_eq! (key.is_valid (*input, "bad_password".as_bytes ()), *expected);
}
}
#[test]
fn normal_key () {
let zero_time = Utc::now ();
let key = ScraperKey {
let key = ScraperKey::<Valid30Days> {
name: "automated testing".to_string (),
not_before: zero_time + Duration::days (1),
not_after: zero_time + Duration::days (1 + 60),
not_after: zero_time + Duration::days (1 + 30),
hash: BlakeHashWrapper::from_key ("bad_password".as_bytes ()),
_phantom: Default::default (),
};
for (input, expected) in &[
(zero_time + Duration::days (0), ClockIsBehind),
(zero_time + Duration::days (2), Valid),
(zero_time + Duration::days (60 - 1), Valid),
(zero_time + Duration::days (60 + 1), Expired),
(zero_time + Duration::days (29), Valid),
(zero_time + Duration::days (1 + 30), Expired),
(zero_time + Duration::days (100), Expired),
] {
assert_eq! (key.is_valid (*input, "bad_password".as_bytes ()), *expected);
@ -213,11 +265,12 @@ mod tests {
fn wrong_key () {
let zero_time = Utc::now ();
let key = ScraperKey {
let key = ScraperKey::<Valid30Days> {
name: "automated testing".to_string (),
not_before: zero_time + Duration::days (1),
not_after: zero_time + Duration::days (1 + 30),
hash: BlakeHashWrapper::from_key ("bad_password".as_bytes ()),
_phantom: Default::default (),
};
for input in &[

View File

@ -121,28 +121,27 @@ async fn handle_http_request (
{
use RequestError::*;
let req_id = rusty_ulid::generate_ulid_string ();
debug! ("Created request {}", req_id);
let req_method = req.method.clone ();
if ! state.server_exists (server_name).await {
return Err (UnknownServer);
}
let user = get_user_name (&req);
let req = http_serde::RequestParts::from_hyper (req.method, uri.clone (), req.headers)
.map_err (|_| BadRequest)?;
let (tx, rx) = oneshot::channel ();
let tx = relay_state::ResponseRendezvous {
timeout: Instant::now () + Duration::from_secs (120),
tx,
};
let req_id = rusty_ulid::generate_ulid_string ();
debug! ("Forwarding {}", req_id);
state.audit_log.push (AuditEvent::new (AuditData::WebClientGet {
user,
server_name: server_name.to_string (),
uri,
})).await;
trace! ("Created request {}", req_id);
{
let response_rendezvous = state.response_rendezvous.read ().await;
@ -441,13 +440,6 @@ async fn handle_audit_log (
handlebars: Arc <Handlebars <'static>>
) -> Result <Response <Body>, RequestError>
{
{
let cfg = state.config.read ().await;
if cfg.hide_audit_log {
return Ok (error_reply (StatusCode::FORBIDDEN, "Forbidden")?);
}
}
let page = handle_audit_log_internal (state).await;
let s = handlebars.render ("audit_log", &page)?;
@ -589,10 +581,6 @@ async fn handle_all (
use routing::Route::*;
let state = &*state;
{
let mut counters = state.webhook_counters.write ().await;
counters.requests_total += 1;
}
// The path is cloned here, so it's okay to consume the request
// later.
@ -622,13 +610,6 @@ async fn handle_all (
} => {
let (parts, _) = req.into_parts ();
let user = get_user_name (&parts);
state.audit_log.push (AuditEvent::new (AuditData::WebClientGet {
user,
server_name: listen_code.to_string (),
uri: path.to_string (),
})).await;
handle_http_request (parts, path.to_string (), &state, listen_code).await?
},
ClientServerList => handle_server_list (state, handlebars).await?,
@ -800,45 +781,6 @@ pub async fn run_relay (
});
}
// Set a task to periodically sweep and time-out requests where the client
// and server are never going to rendezvous
let state_2 = Arc::clone (&state);
tokio::spawn (async move {
let mut interval = tokio::time::interval (Duration::from_secs (60));
interval.set_missed_tick_behavior (tokio::time::MissedTickBehavior::Skip);
loop {
use std::convert::TryFrom;
use rusty_ulid::Ulid;
interval.tick ().await;
{
let timeout_ms = Utc::now ().timestamp () - 120_000;
if let Ok (timeout_ms) = u64::try_from (timeout_ms) {
let timeout_ulid = Ulid::from_timestamp_with_rng (timeout_ms, &mut rand::thread_rng ()).to_string ();
let mut request_rendezvous = state_2.request_rendezvous.lock ().await;
request_rendezvous.iter_mut ()
.for_each (|(_k, v)| {
match v {
RequestRendezvous::ParkedServer (_) => (),
RequestRendezvous::ParkedClients (requests) => requests.retain (|req| req.id.as_str () >= timeout_ulid.as_str ()),
}
});
}
}
{
let now = Instant::now ();
let response_rendezvous = state_2.response_rendezvous.read ().await;
response_rendezvous.retain (|_, v| v.timeout >= now);
}
}
});
let make_svc = make_service_fn (|_conn| {
let state = state.clone ();
let handlebars = handlebars.clone ();
@ -882,11 +824,6 @@ pub async fn run_relay (
state.audit_log.push (AuditEvent::new (AuditData::RelayStart)).await;
{
let state = state.clone ();
tokio::spawn (webhook_task (state));
}
trace! ("Serving relay on {:?}", addr);
server.with_graceful_shutdown (async {
@ -902,7 +839,7 @@ pub async fn run_relay (
std::mem::swap (&mut swapped, &mut response_rendezvous);
for (_, sender) in swapped {
sender.tx.send (Err (ShuttingDown)).ok ();
sender.send (Err (ShuttingDown)).ok ();
}
let mut request_rendezvous = state.request_rendezvous.lock ().await;
@ -922,64 +859,5 @@ pub async fn run_relay (
Ok (())
}
async fn webhook_task (state: Arc <Relay>) {
use crate::relay_state::MonitoringCounters;
let client = reqwest::Client::default ();
let webhook_interval_s = {
let config = state.config.read ().await;
config.webhook_interval_s
};
dbg! (webhook_interval_s);
let mut interval = tokio::time::interval (std::time::Duration::from_secs (webhook_interval_s.into ()));
interval.set_missed_tick_behavior (tokio::time::MissedTickBehavior::Skip);
let mut tick_seq = 1;
let mut last_counters_reported = (MonitoringCounters::default (), Utc::now (), 0);
loop {
interval.tick ().await;
let webhook_url = {
let config = state.config.read ().await;
config.webhook_url.clone ()
};
let webhook_url = match webhook_url {
Some (x) => x,
None => {
continue;
},
};
let now = Utc::now ();
let counters = {
state.webhook_counters.read ().await.clone ()
};
let requests_total_diff = counters.requests_total - last_counters_reported.0.requests_total;
let j = serde_json::json! ({
"text": format! ("From tick {} to {}: Handled {} requests", last_counters_reported.2, tick_seq, requests_total_diff),
}).to_string ();
match client.post (webhook_url).body (j).send ().await {
Ok (resp) => {
if resp.status () == StatusCode::OK {
last_counters_reported = (counters, now, tick_seq);
}
else {
dbg! (resp.status ());
}
},
Err (e) => { dbg! (e); },
}
tick_seq += 1;
}
}
#[cfg (test)]
mod tests;

View File

@ -2,11 +2,11 @@
use std::{
convert::TryFrom,
error::Error,
path::PathBuf,
sync::Arc,
};
use anyhow::Context;
use clap::{App, SubCommand};
use tracing_subscriber::{
fmt,
@ -21,7 +21,7 @@ use ptth_relay::{
};
#[tokio::main]
async fn main () -> anyhow::Result<()> {
async fn main () -> Result <(), Box <dyn Error>> {
fmt ()
.with_env_filter (EnvFilter::from_default_env ())
.with_span_events (FmtSpan::CLOSE)
@ -48,7 +48,7 @@ async fn main () -> anyhow::Result<()> {
}
let config_path = PathBuf::from ("config/ptth_relay.toml");
let config = Config::from_file (&config_path).await.context("couldn't load ptth_relay.toml")?;
let config = Config::from_file (&config_path).await?;
let (shutdown_rx, forced_shutdown) = ptth_core::graceful_shutdown::init_with_force ();

View File

@ -61,10 +61,7 @@ pub enum RequestRendezvous {
ParkedServer (oneshot::Sender <Result <http_serde::WrappedRequest, ShuttingDownError>>),
}
pub (crate) struct ResponseRendezvous {
pub timeout: Instant,
pub tx: oneshot::Sender <Result <(http_serde::ResponseParts, Body), ShuttingDownError>>,
}
type ResponseRendezvous = oneshot::Sender <Result <(http_serde::ResponseParts, Body), ShuttingDownError>>;
#[derive (Clone)]
pub struct ServerStatus {
@ -101,14 +98,6 @@ pub struct Relay {
/// Memory backend for audit logging
// TODO: Add file / database / network server logging backend
pub (crate) audit_log: BoundedVec <AuditEvent>,
/// Counters for webhook reporting
pub (crate) webhook_counters: RwLock <MonitoringCounters>,
}
#[derive (Clone, Default)]
pub (crate) struct MonitoringCounters {
pub (crate) requests_total: u64,
}
#[derive (Clone)]
@ -120,6 +109,7 @@ pub struct RejectedServer {
#[derive (Clone, Debug)]
pub struct AuditEvent {
time_monotonic: Instant,
pub time_utc: DateTime <Utc>,
pub data: AuditData,
}
@ -131,10 +121,6 @@ pub enum AuditData {
server: crate::config::file::Server,
},
RelayStart,
ScraperGet {
key_name: String,
path: String,
},
WebClientGet {
user: Option <String>,
server_name: String,
@ -145,6 +131,7 @@ pub enum AuditData {
impl AuditEvent {
pub fn new (data: AuditData) -> Self {
Self {
time_monotonic: Instant::now (),
time_utc: Utc::now (),
data,
}
@ -210,7 +197,6 @@ impl TryFrom <Config> for Relay {
shutdown_watch_rx,
unregistered_servers: BoundedVec::new (20),
audit_log: BoundedVec::new (256),
webhook_counters: Default::default (),
})
}
}
@ -326,7 +312,7 @@ impl Builder {
self
}
pub fn scraper_key (mut self, key: crate::key_validity::ScraperKey)
pub fn scraper_key (mut self, key: crate::key_validity::ScraperKey <crate::key_validity::Valid30Days>)
-> Self
{
self.config.scraper_keys.insert (key.hash.encode_base64 (), key);

View File

@ -119,21 +119,6 @@ pub async fn v1_server_list (state: &Relay)
}
}
fn get_api_key (headers: &hyper::HeaderMap) -> Option <&str>
{
if let Some (key) = headers.get ("X-ApiKey").and_then (|v| v.to_str ().ok ()) {
return Some (key);
}
if let Some (s) = headers.get ("Authorization").and_then (|v| v.to_str ().ok ()) {
if let Some (key) = s.strip_prefix ("Bearer ") {
return Some (key);
}
}
None
}
#[instrument (level = "trace", skip (req, state))]
async fn api_v1 (
req: Request <Body>,
@ -142,12 +127,7 @@ async fn api_v1 (
)
-> Result <Response <Body>, RequestError>
{
use crate::{
AuditData,
AuditEvent,
};
let api_key = get_api_key (req.headers ());
let api_key = req.headers ().get ("X-ApiKey");
let api_key = match api_key {
None => return Ok (error_reply (StatusCode::FORBIDDEN, strings::NO_API_KEY)?),
@ -158,8 +138,6 @@ async fn api_v1 (
let bad_key = || error_reply (StatusCode::FORBIDDEN, strings::FORBIDDEN);
let key_name;
{
let config = state.config.read ().await;
@ -182,19 +160,9 @@ async fn api_v1 (
return Ok (bad_key ()?);
},
}
key_name = expected_key.name.to_string ();
}
state.audit_log.push (AuditEvent::new (AuditData::ScraperGet {
key_name,
path: path_rest.to_string (),
})).await;
if path_rest == "metrics" {
Ok (metrics (state).await?)
}
else if path_rest == "test" {
if path_rest == "test" {
Ok (error_reply (StatusCode::OK, "You're valid!")?)
}
else if path_rest == "server_list" {
@ -223,64 +191,6 @@ async fn api_v1 (
}
}
#[instrument (level = "trace", skip (state))]
async fn metrics (
state: &Relay,
)
-> Result <Response <Body>, RequestError>
{
let mut s = String::with_capacity (4 * 1_024);
let mut push_metric = |name, help: Option<&str>, kind, value| {
if let Some (help) = help {
s.push_str (format! ("# HELP {} {}\n", name, help).as_str ());
}
s.push_str (format! ("# TYPE {} {}\n", name, kind).as_str ());
s.push_str (format! ("{} {}\n", name, value).as_str ());
};
let request_rendezvous_count = {
let g = state.request_rendezvous.lock ().await;
g.len ()
};
let server_status_count;
let connected_server_count;
let now = Utc::now ();
{
let g = state.server_status.lock ().await;
server_status_count = g.len ();
connected_server_count = g.iter ()
.filter (|(_, s)| now - s.last_seen < chrono::Duration::seconds (60))
.count ();
}
let response_rendezvous_count = {
let g = state.response_rendezvous.read ().await;
g.len ()
};
push_metric ("request_rendezvous_count", None, "gauge", request_rendezvous_count.to_string ());
push_metric ("server_status_count", None, "gauge", server_status_count.to_string ());
push_metric ("connected_server_count", None, "gauge", connected_server_count.to_string ());
push_metric ("response_rendezvous_count", None, "gauge", response_rendezvous_count.to_string ());
#[cfg (target_os = "linux")]
{
if let Some (rss) = tokio::fs::read_to_string ("/proc/self/status").await
.ok ()
.and_then (|s| get_rss_from_status (s.as_str ()))
{
push_metric ("relay_vm_rss", Some ("VmRSS of the relay process, in kB"), "gauge", rss.to_string ());
}
}
Ok (Response::builder ()
.body (Body::from (s))?)
}
#[instrument (level = "trace", skip (req, state))]
pub async fn handle (
req: Request <Body>,
@ -306,20 +216,6 @@ pub async fn handle (
}
}
fn get_rss_from_status (proc_status: &str) -> Option <u64>
{
use std::str::FromStr;
for line in proc_status.lines () {
if let Some (rest) = line.strip_prefix ("VmRSS:\t").and_then (|s| s.strip_suffix (" kB"))
{
return u64::from_str (rest.trim_start ()).ok ();
}
}
None
}
#[cfg (test)]
mod tests {
use std::{
@ -328,6 +224,7 @@ mod tests {
use tokio::runtime::Runtime;
use crate::{
config,
key_validity,
};
use super::*;
@ -336,9 +233,8 @@ mod tests {
struct TestCase {
// Inputs
path_rest: &'static str,
auth_header: Option <&'static str>,
valid_key: Option <&'static str>,
x_api_key: Option <&'static str>,
input_key: Option <&'static str>,
// Expected
expected_status: StatusCode,
@ -359,15 +255,9 @@ mod tests {
x
}
fn auth_header (&self, v: Option <&'static str>) -> Self {
fn input_key (&self, v: Option <&'static str>) -> Self {
let mut x = self.clone ();
x.auth_header = v;
x
}
fn x_api_key (&self, v: Option <&'static str>) -> Self {
let mut x = self.clone ();
x.x_api_key = v;
x.input_key = v;
x
}
@ -395,16 +285,13 @@ mod tests {
.expected_body (format! ("{}\n", body))
}
async fn test (&self, name: &str) {
async fn test (&self) {
let mut input = Request::builder ()
.method ("GET")
.uri (format! ("http://127.0.0.1:4000/scraper/{}", self.path_rest));
if let Some (auth_header) = self.auth_header {
input = input.header ("Authorization", auth_header);
}
if let Some (x_api_key) = self.x_api_key {
input = input.header ("X-ApiKey", x_api_key);
if let Some (input_key) = self.input_key {
input = input.header ("X-ApiKey", input_key);
}
let input = input.body (Body::empty ()).unwrap ();
@ -431,15 +318,15 @@ mod tests {
expected_headers.insert (*key, (*value).try_into ().expect ("Couldn't convert header value"));
}
assert_eq! (actual_head.status, self.expected_status, "{}", name);
assert_eq! (actual_head.headers, expected_headers, "{}", name);
assert_eq! (actual_head.status, self.expected_status);
assert_eq! (actual_head.headers, expected_headers);
let actual_body = hyper::body::to_bytes (actual_body).await;
let actual_body = actual_body.expect ("Body should be convertible to bytes");
let actual_body = actual_body.to_vec ();
let actual_body = String::from_utf8 (actual_body).expect ("Body should be UTF-8");
assert_eq! (actual_body, self.expected_body, "{}", name);
assert_eq! (actual_body, self.expected_body);
}
}
@ -451,8 +338,7 @@ mod tests {
let base_case = TestCase {
path_rest: "v1/test",
valid_key: Some ("bogus"),
auth_header: None,
x_api_key: Some ("bogus"),
input_key: Some ("bogus"),
expected_status: StatusCode::OK,
expected_headers: vec! [
("content-type", "text/plain"),
@ -460,47 +346,21 @@ mod tests {
expected_body: "You're valid!\n".to_string (),
};
base_case
.test ("00").await;
base_case
.path_rest ("v9999/test")
.expected (StatusCode::NOT_FOUND, strings::UNKNOWN_API_VERSION)
.test ("01").await;
base_case
.valid_key (None)
.expected (StatusCode::FORBIDDEN, strings::FORBIDDEN)
.test ("02").await;
base_case
.x_api_key (Some ("borgus"))
.expected (StatusCode::FORBIDDEN, strings::FORBIDDEN)
.test ("03").await;
base_case
.path_rest ("v1/toast")
.expected (StatusCode::NOT_FOUND, strings::UNKNOWN_API_ENDPOINT)
.test ("04").await;
base_case
.x_api_key (None)
.expected (StatusCode::FORBIDDEN, strings::NO_API_KEY)
.test ("05").await;
base_case
.x_api_key (None)
.auth_header (Some ("Bearer bogus"))
.expected (StatusCode::OK, "You're valid!")
.test ("06").await;
for case in &[
base_case.clone (),
base_case.path_rest ("v9999/test")
.expected (StatusCode::NOT_FOUND, strings::UNKNOWN_API_VERSION),
base_case.valid_key (None)
.expected (StatusCode::FORBIDDEN, strings::FORBIDDEN),
base_case.input_key (Some ("borgus"))
.expected (StatusCode::FORBIDDEN, strings::FORBIDDEN),
base_case.path_rest ("v1/toast")
.expected (StatusCode::NOT_FOUND, strings::UNKNOWN_API_ENDPOINT),
base_case.input_key (None)
.expected (StatusCode::FORBIDDEN, strings::NO_API_KEY),
] {
case.test ().await;
}
});
}
#[test]
fn rss () {
let input = "VmHWM: 584 kB\nVmRSS: 584 kB\nRssAnon: 68 kB\n";
assert_eq! (get_rss_from_status (input), Some (584));
}
}

View File

@ -57,7 +57,7 @@ pub async fn handle_listen (
let mut server_status = state.server_status.lock ().await;
let status = server_status.entry (watcher_code.clone ()).or_insert_with (Default::default);
let mut status = server_status.entry (watcher_code.clone ()).or_insert_with (Default::default);
status.last_seen = now;
}
@ -129,7 +129,7 @@ pub async fn handle_response (
let magic_header = base64::decode (magic_header).map_err (PtthMagicHeaderNotBase64)?;
let resp_parts: http_serde::ResponseParts = rmp_serde::from_slice (&magic_header).map_err (PtthMagicHeaderNotMsgPack)?;
let resp_parts: http_serde::ResponseParts = rmp_serde::from_read_ref (&magic_header).map_err (PtthMagicHeaderNotMsgPack)?;
// Intercept the body packets here so we can check when the stream
// ends or errors out
@ -188,7 +188,7 @@ pub async fn handle_response (
};
// UKAUFFY4 (Send half)
if tx.tx.send (Ok ((resp_parts, body))).is_err () {
if tx.send (Ok ((resp_parts, body))).is_err () {
let msg = "Failed to connect to client";
error! (msg);
return Ok (error_reply (StatusCode::BAD_GATEWAY, msg)?);

View File

@ -8,22 +8,16 @@ license = "AGPL-3.0"
categories = ["command-line-utilities", "web-programming::http-server"]
description = "The server for PTTH"
repository = "https://six-five-six-four.com/git/reactor/ptth"
documentation = "https://docs.rs/ptth_server/"
default-run = "ptth_server"
[dependencies]
# Cookie 01FYZ3SDP2XABT7W19ACQVYKXT
# Dependencies should be in sync because ptth_multi_call_server intentionally
# tries to re-use as much code as possible between all of its subcommands,
# including ptth_server and ptth_file_server.
aho-corasick = "0.7.15"
anyhow = "1.0.38"
arc-swap = "1.2.0"
base64 = "0.13.0"
blake3 = "1.0.0"
blake3 = "0.3.7"
chrono = {version = "0.4.19", features = ["serde"]}
futures = "0.3.7"
handlebars = "3.5.1"
@ -34,13 +28,12 @@ pulldown-cmark = { version = "0.8.0", optional = true }
rand = "0.8.3"
regex = "1.4.1"
rmp-serde = "0.15.5"
rust-embed = "6.2.0"
rusty_ulid = "0.10.1"
serde = {version = "1.0.117", features = ["derive"]}
serde_json = "1.0.60"
structopt = "0.3.20"
thiserror = "1.0.24"
tokio = { version = "1.17.0", features = [] }
tokio = { version = "1.8.1", features = [] }
tokio-stream = "0.1.3"
tracing = "0.1.25"
tracing-futures = "0.2.5"
@ -51,7 +44,7 @@ always_equal = { path = "../always_equal", version = "1.0.0" }
ptth_core = { path = "../ptth_core", version = "2.0.0" }
[dependencies.reqwest]
version = "0.11.10"
version = "0.11.1"
default-features = false
features = ["stream", "rustls-tls", "hyper-rustls"]

File diff suppressed because one or more lines are too long

View File

@ -1,12 +1,126 @@
#![warn (clippy::pedantic)]
use std::{
iter::FromIterator,
fs::File,
path::{Path, PathBuf},
};
use structopt::StructOpt;
use ptth_server::{
load_toml,
prelude::*,
run_server,
};
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
auto_gen_key: bool,
#[structopt (long)]
throttle_upload: bool,
#[structopt (long)]
file_server_root: Option <PathBuf>,
#[structopt (long)]
asset_root: Option <PathBuf>,
#[structopt (long)]
config_path: Option <PathBuf>,
#[structopt (long)]
name: Option <String>,
#[structopt (long)]
print_tripcode: bool,
#[structopt (long)]
relay_url: Option <String>,
}
#[derive (Default, serde::Deserialize)]
pub struct ConfigFile {
pub name: Option <String>,
pub api_key: String,
pub relay_url: Option <String>,
pub file_server_root: Option <PathBuf>,
}
fn gen_and_save_key (path: &Path) -> anyhow::Result <()> {
let api_key = ptth_core::gen_key ();
let mut f = File::create (path).with_context (|| format! ("Can't create config file `{:?}`", path))?;
#[cfg (unix)]
{
use std::os::unix::fs::PermissionsExt;
let metadata = f.metadata ()?;
let mut permissions = metadata.permissions ();
permissions.set_mode (0o600);
f.set_permissions (permissions)?;
}
#[cfg (not (unix))]
{
tracing::warn! ("Error VR6VW5QT: API keys aren't protected from clients on non-Unix OSes yet");
}
f.write_all (format! ("api_key = \"{}\"\n", api_key).as_bytes ())?;
Ok (())
}
#[tokio::main]
async fn main () -> anyhow::Result <()> {
async fn main () -> Result <(), anyhow::Error> {
tracing_subscriber::fmt::init ();
let args = Vec::from_iter (std::env::args_os ());
let opt = Opt::from_args ();
let asset_root = opt.asset_root;
ptth_server::executable::main (&args).await
let path = opt.config_path.clone ().unwrap_or_else (|| PathBuf::from ("./config/ptth_server.toml"));
let config_file: ConfigFile = if opt.auto_gen_key {
// If we're in autonomous mode, try harder to fix things
match load_toml::load (&path) {
Err (_) => {
gen_and_save_key (&path)?;
load_toml::load (&path)?
},
Ok (x) => x,
}
}
else {
match load_toml::load (&path) {
Err (ptth_server::errors::LoadTomlError::Io (_)) => bail! ("API key not provided in config file and auto-gen-key not provided"),
Ok (x) => x,
Err (e) => return Err (e.into ()),
}
};
let config_file = ptth_server::ConfigFile {
name: opt.name.or (config_file.name).ok_or (anyhow::anyhow! ("`name` must be provided in command line or config file"))?,
api_key: config_file.api_key,
relay_url: opt.relay_url.or (config_file.relay_url).ok_or (anyhow::anyhow! ("`--relay-url` must be provided in command line or `relay_url` in config file"))?,
file_server_root: opt.file_server_root.or (config_file.file_server_root),
throttle_upload: opt.throttle_upload,
};
if opt.print_tripcode {
println! (r#"name = "{}""#, config_file.name);
println! (r#"tripcode = "{}""#, config_file.tripcode ());
return Ok (());
}
run_server (
config_file,
ptth_core::graceful_shutdown::init (),
Some (path),
asset_root
).await?;
Ok (())
}

View File

@ -63,15 +63,9 @@ pub enum ServerError {
#[error ("Can't build HTTP client")]
CantBuildHttpClient (reqwest::Error),
#[error ("Can't get response from server in Step 3")]
Step3Response (reqwest::Error),
#[error ("Can't collect non-200 error response body in Step 3")]
Step3CollectBody (reqwest::Error),
#[error ("Step 3 unknown error")]
Step3Unknown,
#[error ("Can't collect wrapped requests in Step 3")]
CantCollectWrappedRequests (reqwest::Error),

View File

@ -5,7 +5,7 @@
use std::{
cmp::min,
collections::*,
collections::HashMap,
convert::{Infallible, TryFrom},
io::SeekFrom,
path::{
@ -32,6 +32,7 @@ use tokio::{
channel,
},
};
use tracing::instrument;
use ptth_core::{
http_serde::{
@ -55,8 +56,7 @@ use errors::FileServerError;
#[derive (Default)]
pub struct Config {
pub file_server_root: PathBuf,
pub file_server_roots: BTreeMap <String, PathBuf>,
pub file_server_root: Option <PathBuf>,
}
pub struct FileServer {
@ -69,7 +69,7 @@ pub struct FileServer {
impl FileServer {
pub fn new (
config: Config,
file_server_root: Option <PathBuf>,
asset_root: &Path,
name: String,
metrics_interval: Arc <ArcSwap <Option <metrics::Interval>>>,
@ -77,7 +77,9 @@ impl FileServer {
) -> Result <Self, FileServerError>
{
Ok (Self {
config,
config: Config {
file_server_root,
},
handlebars: load_templates (asset_root)?,
metrics_startup: metrics::Startup::new (name),
metrics_interval,
@ -137,9 +139,8 @@ async fn serve_dir_json (
Ok (response)
}
// #[instrument (level = "debug", skip (f))]
#[instrument (level = "debug", skip (f))]
async fn serve_file (
uri: &str,
mut f: File,
client_wants_body: bool,
range: range::ValidParsed,
@ -164,26 +165,22 @@ async fn serve_file (
let (range, range_requested) = (range.range, range.range_requested);
info! ("Serving range {}-{}", range.start, range.end);
let content_length = range.end - range.start;
let body = if decision.should_send_body {
trace! ("Sending range {}-{}", range.start, range.end);
let seek = SeekFrom::Start (range.start);
f.seek (seek).await?;
let (tx, rx) = channel (1);
tokio::spawn (async move {
debug! ("stream_file task begin");
stream_file (f, content_length, tx).await;
debug! ("stream_file task end");
});
Some (rx)
}
else {
debug! ("Not sending body");
None
};
@ -200,12 +197,11 @@ async fn serve_file (
// - no-cache - Clients and the relay can store this, but should revalidate
// with the origin server (us) because only we can check if the file
// changed on disk.
// - max-age=5 - Caches can keep the file for 5 seconds. This is just enough
// to let a cache like Nginx or Varnish on a relay soak up some of a
// slashdotting for us, but not so much that a low-traffic site would
// suffer from seeing stale data.
// - max-age=0 - The file might change at any point during or after the
// request, so for proper invalidation, the client should immediately
// consider it stale.
response.header ("cache-control".to_string (), b"max-age=2".to_vec ());
response.header ("cache-control".to_string (), b"no-cache,max-age=0".to_vec ());
if let Some (etag) = input.actual_etag {
response.header ("etag".to_string (), etag);
};
@ -215,17 +211,6 @@ async fn serve_file (
response.header (String::from ("content-range"), format! ("bytes {}-{}/{}", range.start, range.end - 1, range.end).into_bytes ());
}
// Guess MIME type based on the URI so that we can serve web games
if uri.ends_with (".js") {
response.header ("content-type".into (), b"application/javascript".to_vec ());
}
else if uri.ends_with (".html") {
response.header ("content-type".into (), b"text/html; charset=UTF-8".to_vec ());
}
response.header ("content-length".into (), content_length.to_string ().into_bytes ());
response.content_length = Some (content_length);
if let Some (body) = body {
@ -254,7 +239,6 @@ fn serve_file_decision (input: &ServeFileInput) -> ServeFileOutput
if let (Some (if_none_match), Some (actual_etag)) = (&input.if_none_match, &input.actual_etag)
{
if actual_etag == if_none_match {
// info! ("Not Modified");
return ServeFileOutput {
status_code: StatusCode::NotModified,
should_send_body: false,
@ -321,12 +305,12 @@ async fn stream_file (
break;
}
buffer.truncate (bytes_read);
let bytes_read_64 = u64::try_from (bytes_read).expect ("Couldn't fit usize into u64");
let bytes_read_64 = min (bytes_left, bytes_read_64);
buffer.truncate (bytes_read_64 as usize);
if tx.send (Ok::<_, Infallible> (buffer)).await.is_err () {
warn! ("Cancelling file stream (Sent {} out of {} bytes)", bytes_sent, content_length);
break;
@ -334,7 +318,7 @@ async fn stream_file (
bytes_left -= bytes_read_64;
if bytes_left == 0 {
// debug! ("Finished");
debug! ("Finished");
break;
}
@ -354,7 +338,7 @@ impl FileServer {
/// Passes a request to the internal file server logic.
/// Returns an HTTP response as HTML or JSON, depending on the request.
// #[instrument (level = "debug", skip (self, headers))]
#[instrument (level = "debug", skip (self, headers))]
pub async fn serve_all (
&self,
method: Method,
@ -380,12 +364,12 @@ impl FileServer {
resp
}
let roots = internal::FileRoots {
files: &self.config.file_server_root,
dirs: &self.config.file_server_roots,
};
let default_root = PathBuf::from ("./");
let root: &std::path::Path = self.config.file_server_root
.as_ref ()
.unwrap_or (&default_root);
Ok (match internal::serve_all (roots, method, uri, headers, self.hidden_path.as_deref ()).await? {
Ok (match internal::serve_all (root, method, uri, headers, self.hidden_path.as_deref ()).await? {
Favicon => serve_error (StatusCode::NotFound, "Not found\n"),
Forbidden => serve_error (StatusCode::Forbidden, "403 Forbidden\n"),
MethodNotAllowed => serve_error (StatusCode::MethodNotAllowed, "Unsupported method\n"),
@ -418,32 +402,47 @@ impl FileServer {
file,
send_body,
range,
}) => serve_file (uri, file.into_inner (), send_body, range, headers.get ("if-none-match").map (|v| &v[..])).await?,
}) => serve_file (file.into_inner (), send_body, range, headers.get ("if-none-match").map (|v| &v[..])).await?,
MarkdownErr (e) => {
#[cfg (feature = "markdown")]
{
use markdown::Error::*;
let e = e.inner;
let code = match &e {
TooBig => StatusCode::InternalServerError,
//NotMarkdown => serve_error (StatusCode::BadRequest, "File is not Markdown"),
NotUtf8 => StatusCode::BadRequest,
};
return Ok (serve_error (code, e.to_string ()));
}
#[cfg (not (feature = "markdown"))]
{
let _e = e;
serve_error (StatusCode::BadRequest, "Markdown feature is disabled")
}
},
MarkdownPreview (s) => html::serve (s),
})
}
}
fn load_templates (
_asset_root: &Path
asset_root: &Path
)
-> anyhow::Result <Handlebars <'static>>
-> Result <Handlebars <'static>, anyhow::Error>
{
use rust_embed::RustEmbed;
#[derive (RustEmbed)]
#[folder = "../../handlebars/server"]
struct HandlebarsServer;
let mut handlebars = Handlebars::new ();
handlebars.set_strict_mode (true);
let asset_root = asset_root.join ("handlebars/server");
for (k, v) in &[
("file_server_dir", "file_server_dir.html"),
("file_server_root", "file_server_root.html"),
] {
let asset_file = HandlebarsServer::get (v)
.ok_or_else (|| anyhow::anyhow! ("failed to load handlebars template file"))?;
let s = std::str::from_utf8 (asset_file.data.as_ref ())?;
handlebars.register_template_string (k, s)?;
handlebars.register_template_file (k, asset_root.join (v))?;
}
Ok (handlebars)

View File

@ -4,7 +4,7 @@
// human-readable HTML
use std::{
collections::*,
collections::HashMap,
path::{Path, PathBuf},
};
@ -76,6 +76,9 @@ pub enum Response {
Root,
ServeDir (ServeDirParams),
ServeFile (ServeFileParams),
MarkdownErr (MarkdownErrWrapper),
MarkdownPreview (String),
}
#[cfg (feature = "markdown")]
@ -128,7 +131,7 @@ fn serve_dir (
async fn serve_file (
file: tokio::fs::File,
_uri: &http::Uri,
uri: &http::Uri,
send_body: bool,
headers: &HashMap <String, Vec <u8>>
)
@ -241,59 +244,11 @@ async fn serve_api (
Ok (NotFound)
}
#[derive (Clone, Copy)]
pub struct FileRoots <'a> {
pub files: &'a Path,
pub dirs: &'a BTreeMap <String, PathBuf>,
}
struct RoutedPath <'a> {
root: &'a Path,
path_s: std::borrow::Cow <'a, str>,
}
impl <'a> FileRoots <'a> {
fn route (self, input: &'a str) -> Result <Option <RoutedPath>, FileServerError> {
// TODO: There is totally a dir traversal attack in here somewhere
if let Some (path) = input.strip_prefix ("/dirs/") {
if let Some ((dir, path)) = path.split_once ('/') {
let root = match self.dirs.get (dir) {
None => return Ok (None),
Some (x) => x,
};
let path_s = percent_decode (path.as_bytes ()).decode_utf8 ().map_err (FileServerError::PathNotUtf8)?;
return Ok (Some (RoutedPath {
root,
path_s,
}));
}
else {
return Ok (None);
}
}
if let Some (path) = input.strip_prefix ("/files/") {
let encoded_path = &path [0..];
let path_s = percent_decode (encoded_path.as_bytes ()).decode_utf8 ().map_err (FileServerError::PathNotUtf8)?;
return Ok (Some (RoutedPath {
root: self.files,
path_s,
}));
}
return Ok (None);
}
}
// Handle the requests internally without knowing anything about PTTH or
// HTML / handlebars
pub async fn serve_all (
roots: FileRoots <'_>,
root: &Path,
method: Method,
uri: &str,
headers: &HashMap <String, Vec <u8>>,
@ -304,7 +259,7 @@ pub async fn serve_all (
use std::str::FromStr;
use Response::*;
trace! ("Client requested {}", uri);
info! ("Client requested {}", uri);
let uri = http::Uri::from_str (uri).map_err (FileServerError::InvalidUri)?;
@ -328,22 +283,24 @@ pub async fn serve_all (
}
if let Some (path) = path.strip_prefix ("/api") {
return serve_api (roots.files, &uri, hidden_path, path).await;
return serve_api (root, &uri, hidden_path, path).await;
}
let RoutedPath {
root,
path_s,
} = match roots.route (path)? {
None => return Ok (NotFound),
let path = match path.strip_prefix ("/files/") {
Some (x) => x,
None => return Ok (NotFound),
};
// TODO: There is totally a dir traversal attack in here somewhere
let encoded_path = &path [0..];
let path_s = percent_decode (encoded_path.as_bytes ()).decode_utf8 ().map_err (FileServerError::PathNotUtf8)?;
let path = Path::new (&*path_s);
let full_path = root.join (path);
trace! ("full_path = {:?}", full_path);
debug! ("full_path = {:?}", full_path);
if let Some (hidden_path) = hidden_path {
if full_path == hidden_path {

View File

@ -67,25 +67,29 @@ fn file_server () {
let rt = Runtime::new ().expect ("Can't create runtime");
rt.block_on (async {
let files_root = PathBuf::from ("./");
let dirs_roots = Default::default ();
let roots = internal::FileRoots {
files: &files_root,
dirs: &dirs_roots,
};
let file_server_root = PathBuf::from ("./");
let headers = Default::default ();
{
use internal::Response::*;
use crate::file_server::FileServerError;
let bad_passwords_path = "/files/src/bad_passwords.txt";
for (uri_path, expected) in vec! [
("/", Root),
("/files", NotFound),
("/files/?", InvalidQuery),
("/files/src", Redirect ("src/".to_string ())),
("/files/src/?", InvalidQuery),
(bad_passwords_path, ServeFile (internal::ServeFileParams {
send_body: true,
range: range::ValidParsed {
range: 0..1_048_576,
range_requested: false,
},
file: AlwaysEqual::testing_blank (),
})),
("/files/test/test.md", ServeFile (internal::ServeFileParams {
send_body: true,
range: range::ValidParsed {
@ -96,7 +100,7 @@ fn file_server () {
})),
] {
let resp = internal::serve_all (
roots,
&file_server_root,
Method::Get,
uri_path,
&headers,
@ -113,7 +117,7 @@ fn file_server () {
}),
] {
let resp = internal::serve_all (
roots,
&file_server_root,
Method::Get,
uri_path,
&headers,
@ -122,6 +126,35 @@ fn file_server () {
checker (resp.unwrap_err ());
}
let resp = internal::serve_all (
&file_server_root,
Method::Get,
bad_passwords_path,
&hashmap! {
"range".into () => b"bytes=0-2000000".to_vec (),
},
None
).await;
assert_eq! (resp.expect ("Should be Ok (_)"), RangeNotSatisfiable (1_048_576));
let resp = internal::serve_all (
&file_server_root,
Method::Head,
bad_passwords_path,
&headers,
None
).await;
assert_eq! (resp.expect ("Should be Ok (_)"), ServeFile (internal::ServeFileParams {
send_body: false,
range: range::ValidParsed {
range: 0..1_048_576,
range_requested: false,
},
file: AlwaysEqual::testing_blank (),
}));
}
});
}

View File

@ -39,19 +39,7 @@
// False positive on futures::select! macro
#![allow (clippy::mut_mut)]
pub mod errors;
/// In-process file server module with byte range and ETag support
pub mod file_server;
/// Load and de-serialize structures from TOML, with a size limit
/// and checking permissions (On Unix)
pub mod load_toml;
pub mod prelude;
use std::{
collections::*,
future::Future,
path::PathBuf,
sync::Arc,
@ -70,11 +58,21 @@ use tokio_stream::wrappers::ReceiverStream;
use ptth_core::{
http_serde,
prelude::*,
};
// use crate::key_validity::BlakeHashWrapper;
pub mod errors;
/// In-process file server module with byte range and ETag support
pub mod file_server;
/// Load and de-serialize structures from TOML, with a size limit
/// and checking permissions (On Unix)
pub mod load_toml;
pub mod prelude;
use errors::ServerError;
use prelude::*;
pub struct State {
// file_server: file_server::FileServer,
@ -91,18 +89,14 @@ async fn handle_one_req (
response: http_serde::Response,
) -> Result <(), ServerError>
{
let url = format! ("{}/http_response/{}", state.config.relay_url, req_id);
let mut resp_req = state.client
.post (&url)
.post (&format! ("{}/http_response/{}", state.config.relay_url, req_id))
.header (ptth_core::PTTH_MAGIC_HEADER, base64::encode (rmp_serde::to_vec (&response.parts).map_err (ServerError::MessagePackEncodeResponse)?))
.header ("X-PTTH-SERVER-NAME", &state.config.name);
if response.parts.status_code != ptth_core::http_serde::StatusCode::NotModified {
if let Some (length) = response.content_length {
resp_req = resp_req.header ("Content-Length", length.to_string ());
}
}
if let Some (mut body) = response.body {
if state.config.throttle_upload {
// Spawn another task to throttle the chunks
@ -133,14 +127,14 @@ async fn handle_one_req (
let req = resp_req.build ().map_err (ServerError::Step5Responding)?;
trace! ("{:?}", req.headers ());
debug! ("{:?}", req.headers ());
//println! ("Step 6");
match state.client.execute (req).await {
Ok (r) => {
let status = r.status ();
let text = r.text ().await.map_err (ServerError::Step7AfterResponse)?;
debug! ("http_response {} {:?} {:?}", req_id, status, text);
debug! ("{:?} {:?}", status, text);
},
Err (e) => {
if e.is_request () {
@ -156,7 +150,7 @@ async fn handle_one_req (
async fn handle_requests <F, H, SH> (
state: &Arc <State>,
wrapped_reqs: Vec <http_serde::WrappedRequest>,
req_resp: reqwest::Response,
spawn_handler: &mut SH,
) -> Result <(), ServerError>
where
@ -166,6 +160,18 @@ SH: Send + FnMut () -> H
{
//println! ("Step 1");
let body = req_resp.bytes ().await.map_err (ServerError::CantCollectWrappedRequests)?;
let wrapped_reqs: Vec <http_serde::WrappedRequest> = match rmp_serde::from_read_ref (&body)
{
Ok (x) => x,
Err (e) => {
error! ("Can't parse wrapped requests: {:?}", e);
return Err (ServerError::CantParseWrappedRequests (e));
},
};
debug! ("Unwrapped {} requests", wrapped_reqs.len ());
for wrapped_req in wrapped_reqs {
let state = Arc::clone (&state);
let handler = spawn_handler ();
@ -175,15 +181,12 @@ SH: Send + FnMut () -> H
tokio::spawn (async move {
let (req_id, parts) = (wrapped_req.id, wrapped_req.req);
info! ("Req {} {}", req_id, parts.uri);
debug! ("Handling request {}", req_id);
let f = handler (parts);
let response = f.await?;
let output = handle_one_req (&state, req_id.clone (), response).await;
debug! ("Req {} task exiting", req_id);
output
handle_one_req (&state, req_id, response).await
});
}
@ -210,22 +213,11 @@ pub struct ConfigFile {
pub relay_url: String,
/// Directory that the file server module will expose to clients
/// over the relay, under `/files`. If None, the current working dir is used.
pub file_server_root: PathBuf,
/// The file server module will expose these directories to clients under
/// `/dirs`. If symlinks can't be used (like on Windows), this allows PTTH
/// to serve multiple directories easily.
pub file_server_roots: BTreeMap <String, PathBuf>,
/// over the relay. If None, the current working dir is used.
pub file_server_root: Option <PathBuf>,
/// For debugging.
pub throttle_upload: bool,
pub client_keys: HashSet <String>,
pub allow_any_client: bool,
pub index_directories: bool,
}
impl ConfigFile {
@ -235,12 +227,8 @@ impl ConfigFile {
name,
api_key,
relay_url,
file_server_root: PathBuf::from ("."),
file_server_roots: Default::default (),
file_server_root: None,
throttle_upload: false,
client_keys: Default::default (),
allow_any_client: true,
index_directories: true,
}
}
@ -266,6 +254,8 @@ pub struct Config {
pub struct Builder {
config_file: ConfigFile,
hidden_path: Option <PathBuf>,
asset_root: Option <PathBuf>,
}
impl Builder {
@ -277,23 +267,23 @@ impl Builder {
name,
api_key: ptth_core::gen_key (),
relay_url,
file_server_root: PathBuf::from ("."),
file_server_roots: Default::default (),
file_server_root: None,
throttle_upload: false,
client_keys: Default::default (),
allow_any_client: true,
index_directories: true,
};
Self {
config_file,
hidden_path: None,
asset_root: None,
}
}
pub fn build (self) -> Result <State, ServerError>
{
State::new (
self.config_file
self.config_file,
self.hidden_path,
self.asset_root
)
}
@ -309,8 +299,7 @@ pub async fn run_server (
config_file: ConfigFile,
shutdown_oneshot: oneshot::Receiver <()>,
hidden_path: Option <PathBuf>,
asset_root: Option <PathBuf>,
hit_counter: Option <mpsc::Sender <()>>,
asset_root: Option <PathBuf>
)
-> Result <(), ServerError>
{
@ -321,11 +310,8 @@ pub async fn run_server (
});
let file_server = file_server::FileServer::new (
file_server::Config {
file_server_root: config_file.file_server_root.clone (),
file_server_roots: config_file.file_server_roots.clone (),
},
&asset_root.clone ().unwrap_or_else (|| PathBuf::from (".")),
config_file.file_server_root.clone (),
&asset_root.clone ().unwrap_or_else (PathBuf::new),
config_file.name.clone (),
metrics_interval,
hidden_path.clone (),
@ -334,17 +320,16 @@ pub async fn run_server (
let state = Arc::new (State::new (
config_file,
hidden_path,
asset_root,
)?);
let file_server_2 = Arc::clone (&file_server);
let mut spawn_handler = || {
let file_server = Arc::clone (&file_server);
let hit_counter = hit_counter.clone ();
|req: http_serde::RequestParts| async move {
if let Some (hit_tx) = &hit_counter {
eprintln! ("hit_tx.send");
hit_tx.send (()).await.ok ();
}
Ok (file_server.serve_all (req.method, &req.uri, &req.headers).await?)
}
};
@ -359,23 +344,23 @@ pub async fn run_server (
impl State {
pub fn new (
config_file: ConfigFile,
hidden_path: Option <PathBuf>,
asset_root: Option <PathBuf>
)
-> Result <Self, ServerError>
{
use std::convert::TryInto;
let asset_root = asset_root.unwrap_or_else (PathBuf::new);
info! ("Server name is {}", config_file.name);
info! ("Tripcode is {}", config_file.tripcode ());
let mut headers = reqwest::header::HeaderMap::new ();
headers.insert ("X-ApiKey", config_file.api_key.try_into ().map_err (ServerError::ApiKeyInvalid)?);
// Cookie 01FYZ3W64SM6KYNP48J6EWSCEF
// Try to keep the Clients similar here
let client = Client::builder ()
.default_headers (headers)
.timeout (Duration::from_secs (7 * 86400))
.connect_timeout (Duration::from_secs (30))
.build ().map_err (ServerError::CantBuildHttpClient)?;
@ -391,35 +376,6 @@ impl State {
Ok (state)
}
async fn http_listen (
state: &Arc <Self>,
) -> Result <Vec <http_serde::WrappedRequest>, ServerError>
{
use http::status::StatusCode;
let req_resp = state.client.get (&format! ("{}/http_listen/{}", state.config.relay_url, state.config.name))
.timeout (Duration::from_secs (30))
.send ().await.map_err (ServerError::Step3Response)?;
if req_resp.status () == StatusCode::NO_CONTENT {
return Ok (Vec::new ());
}
if req_resp.status () != StatusCode::OK {
error! ("{}", req_resp.status ());
let body = req_resp.bytes ().await.map_err (ServerError::Step3CollectBody)?;
let body = String::from_utf8 (body.to_vec ()).map_err (ServerError::Step3ErrorResponseNotUtf8)?;
error! ("{}", body);
return Err (ServerError::Step3Unknown);
}
let body = req_resp.bytes ().await.map_err (ServerError::CantCollectWrappedRequests)?;
let wrapped_reqs: Vec <http_serde::WrappedRequest> = rmp_serde::from_slice (&body)
.map_err (ServerError::CantParseWrappedRequests)?;
Ok (wrapped_reqs)
}
pub async fn run <F, H, SH> (
state: &Arc <Self>,
shutdown_oneshot: oneshot::Receiver <()>,
@ -430,10 +386,12 @@ impl State {
H: Send + 'static + FnOnce (http_serde::RequestParts) -> F,
SH: Send + FnMut () -> H
{
use http::status::StatusCode;
let mut backoff_delay = 0;
let mut shutdown_oneshot = shutdown_oneshot.fuse ();
for i in 0u64.. {
loop {
// TODO: Extract loop body to function?
if backoff_delay > 0 {
@ -449,37 +407,61 @@ impl State {
}
}
trace! ("http_listen {}...", i);
debug! ("http_listen");
let http_listen_fut = Self::http_listen (state);
let req_req = state.client.get (&format! ("{}/http_listen/{}", state.config.relay_url, state.config.name))
.timeout (Duration::from_secs (30))
.send ();
let http_listen = futures::select! {
r = http_listen_fut.fuse () => r,
let err_backoff_delay = std::cmp::min (30_000, backoff_delay * 2 + 500);
let req_req = futures::select! {
r = req_req.fuse () => r,
_ = shutdown_oneshot => {
info! ("Received graceful shutdown");
break;
},
};
let err_backoff_delay = std::cmp::min (30_000, backoff_delay * 2 + 500);
let reqs = match http_listen {
let req_resp = match req_req {
Err (e) => {
if e.is_timeout () {
error! ("Client-side timeout. Is an overly-aggressive firewall closing long-lived connections? Is the network flakey?");
}
else {
error! ("Err: {:?}", e);
if backoff_delay != err_backoff_delay {
error! ("Non-timeout issue, increasing backoff_delay");
backoff_delay = err_backoff_delay;
error! ("http_listen {} error, backing off... {:?}", i, e);
}
}
continue;
},
Ok (x) => x,
};
trace! ("http_listen {} unwrapped {} requests", i, reqs.len ());
if req_resp.status () == StatusCode::NO_CONTENT {
debug! ("http_listen long poll timed out on the server, good.");
continue;
}
else if req_resp.status () != StatusCode::OK {
error! ("{}", req_resp.status ());
let body = req_resp.bytes ().await.map_err (ServerError::Step3CollectBody)?;
let body = String::from_utf8 (body.to_vec ()).map_err (ServerError::Step3ErrorResponseNotUtf8)?;
error! ("{}", body);
if backoff_delay != err_backoff_delay {
error! ("Non-timeout issue, increasing backoff_delay");
backoff_delay = err_backoff_delay;
}
continue;
}
// Unpack the requests, spawn them into new tasks, then loop back
// around.
if handle_requests (
&state,
reqs,
req_resp,
spawn_handler,
).await.is_err () {
backoff_delay = err_backoff_delay;
@ -498,141 +480,6 @@ impl State {
}
}
pub mod executable {
use std::{
collections::*,
path::{Path, PathBuf},
};
use structopt::StructOpt;
use super::{
load_toml,
prelude::*,
};
pub async fn main (args: &[OsString]) -> anyhow::Result <()> {
let opt = Opt::from_iter (args);
let asset_root = opt.asset_root;
let path = opt.config_path.clone ().unwrap_or_else (|| PathBuf::from ("./config/ptth_server.toml"));
let config_file: ConfigFile = if opt.auto_gen_key {
// If we're in autonomous mode, try harder to fix things
match load_toml::load (&path) {
Err (_) => {
gen_and_save_key (&path)?;
load_toml::load (&path)?
},
Ok (x) => x,
}
}
else {
match load_toml::load (&path) {
Err (super::errors::LoadTomlError::Io (_)) => bail! ("API key not provided in config file and auto-gen-key not provided"),
Ok (x) => x,
Err (e) => return Err (e.into ()),
}
};
let file_server_roots = config_file.file_server_roots
.unwrap_or_else (|| Default::default ());
// `git grep JRY5NXZU` # duplicated code?
let config_file = super::ConfigFile {
name: opt.name.or (config_file.name).ok_or (anyhow::anyhow! ("`name` must be provided in command line or config file"))?,
api_key: config_file.api_key,
relay_url: opt.relay_url.or (config_file.relay_url).ok_or (anyhow::anyhow! ("`--relay-url` must be provided in command line or `relay_url` in config file"))?,
file_server_root: opt.file_server_root.or (config_file.file_server_root).unwrap_or_else (|| PathBuf::from (".")),
file_server_roots,
throttle_upload: opt.throttle_upload,
allow_any_client: true,
client_keys: Default::default (),
index_directories: config_file.index_directories.unwrap_or (true),
};
if opt.print_tripcode {
println! (r#"name = "{}""#, config_file.name);
println! (r#"tripcode = "{}""#, config_file.tripcode ());
return Ok (());
}
super::run_server (
config_file,
ptth_core::graceful_shutdown::init (),
Some (path),
asset_root,
None,
).await?;
Ok (())
}
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
auto_gen_key: bool,
#[structopt (long)]
throttle_upload: bool,
#[structopt (long)]
file_server_root: Option <PathBuf>,
#[structopt (long)]
asset_root: Option <PathBuf>,
#[structopt (long)]
config_path: Option <PathBuf>,
#[structopt (long)]
name: Option <String>,
#[structopt (long)]
print_tripcode: bool,
#[structopt (long)]
relay_url: Option <String>,
}
#[derive (Default, serde::Deserialize)]
struct ConfigFile {
pub name: Option <String>,
pub api_key: String,
pub relay_url: Option <String>,
pub file_server_root: Option <PathBuf>,
pub file_server_roots: Option <BTreeMap <String, PathBuf>>,
pub index_directories: Option <bool>,
}
fn gen_and_save_key (path: &Path) -> anyhow::Result <()> {
use std::fs::File;
let api_key = ptth_core::gen_key ();
let mut f = File::create (path).with_context (|| format! ("Can't create config file `{:?}`", path))?;
#[cfg (unix)]
{
use std::os::unix::fs::PermissionsExt;
let metadata = f.metadata ()?;
let mut permissions = metadata.permissions ();
permissions.set_mode (0o600);
f.set_permissions (permissions)?;
}
#[cfg (not (unix))]
{
tracing::warn! ("Error VR6VW5QT: API keys aren't protected from clients on non-Unix OSes yet");
}
f.write_all (format! ("api_key = \"{}\"\n", api_key).as_bytes ())?;
Ok (())
}
}
#[cfg (test)]
mod tests {
use super::*;

View File

@ -24,6 +24,18 @@ fn load_inner <
Ok (toml::from_str (&config_s)?)
}
/// For files that contain public-viewable information
fn load_public <
T: DeserializeOwned,
P: AsRef <Path> + Debug
> (
config_file_path: P
) -> Result <T, LoadTomlError> {
let f = File::open (&config_file_path)?;
load_inner (f)
}
/// For files that may contain secrets and should have permissions or other
/// safeties checked
@ -55,6 +67,5 @@ pub fn load <
> (
config_file_path: P
) -> Result <T, LoadTomlError> {
let f = File::open (&config_file_path)?;
load_inner (f)
load_public (config_file_path)
}

View File

@ -1 +1,8 @@
pub use ptth_core::prelude::*;
pub use std::{
io::Write,
};
pub use anyhow::{
Context,
bail,
};

View File

@ -4,13 +4,11 @@ version = "0.1.0"
authors = ["Trish"]
edition = "2018"
repository = "https://six-five-six-four.com/git/reactor/ptth"
[dependencies]
anyhow = "1.0.38"
fltk = "1.3.1"
fltk = "1.1.0"
serde = {version = "1.0.117", features = ["derive"]}
tokio = "1.17.0"
tokio = "1.4.0"
tracing = "0.1.25"
tracing-subscriber = "0.2.16"

View File

@ -1,5 +1,4 @@
use std::{
collections::*,
path::PathBuf,
};
@ -14,10 +13,7 @@ use fltk::{
};
use tokio::{
sync::{
mpsc,
oneshot,
},
sync::oneshot,
};
struct ServerInstance {
@ -27,7 +23,6 @@ struct ServerInstance {
#[derive (Clone, Copy)]
enum Message {
Hit,
RunServer,
StopServer,
}
@ -47,26 +42,7 @@ fn main ()
let app = app::App::default();
let mut wind = Window::new (100, 100, 500, 180, "PTTH server");
let config_file_opt = match ptth_server::load_toml::load::<ConfigFile, _> ("./config/ptth_server.toml") {
Ok (x) => Some (x),
Err (e) => {
eprintln! ("Error in `./config/ptth_server.toml`: {:?}", e);
None
},
};
let (hit_tx, mut hit_rx) = mpsc::channel (1);
{
let fltk_tx = fltk_tx;
rt.spawn (async move {
while hit_rx.recv ().await.is_some () {
fltk_tx.send (Message::Hit);
}
});
}
let mut gui = Gui::new (fltk_tx, config_file_opt.as_ref ());
let mut gui = Gui::new (fltk_tx);
gui.set_server_running (false);
wind.end ();
@ -74,43 +50,23 @@ fn main ()
while app.wait () {
match fltk_rx.recv () {
Some (Message::Hit) => {
gui.hits += 1;
gui.refresh_label ();
},
Some (Message::RunServer) => {
let (shutdown_tx, shutdown_rx) = tokio::sync::oneshot::channel ();
let roots = match &config_file_opt {
None => Default::default (),
Some (cf) => match &cf.file_server_roots {
None => Default::default (),
Some (x) => x.clone (),
},
};
// `git grep JRY5NXZU` # duplicated code?
let config_file = ptth_server::ConfigFile {
name: gui.input_name.value ().to_string (),
api_key: gui.input_api_key.value ().to_string (),
relay_url: gui.input_relay_url.value ().to_string (),
file_server_root: PathBuf::from (gui.input_file_server_root.value ()),
file_server_roots: roots,
file_server_root: Some (std::path::PathBuf::from (gui.input_file_server_root.value ())),
throttle_upload: false,
client_keys: Default::default (),
allow_any_client: true,
index_directories: true,
};
let hit_tx = hit_tx.clone ();
let task = rt.spawn (async {
if let Err (e) = ptth_server::run_server (
config_file,
shutdown_rx,
None,
None,
Some (hit_tx),
None
).await
{
tracing::error! ("ptth_server crashed: {}", e);
@ -142,9 +98,6 @@ struct Gui {
input_relay_url: Input,
input_file_server_root: Input,
input_api_key: SecretInput,
server_is_running: bool,
hits: u64,
}
#[derive (Default, serde::Deserialize)]
@ -153,16 +106,10 @@ pub struct ConfigFile {
pub api_key: String,
pub relay_url: Option <String>,
pub file_server_root: Option <PathBuf>,
pub file_server_roots: Option <BTreeMap <String, PathBuf>>,
}
impl Gui {
fn new (
fltk_tx: app::Sender <Message>,
config_file_opt: Option <&ConfigFile>,
)
-> Self
{
fn new (fltk_tx: app::Sender <Message>) -> Self {
let mut input_name = Input::new (200, 10, 290, 20, "name");
input_name.set_value ("my_ptth_server");
@ -185,7 +132,7 @@ impl Gui {
but_stop.set_trigger (CallbackTrigger::Changed);
but_stop.emit (fltk_tx, Message::StopServer);
if let Some (config_file) = config_file_opt
if let Ok (config_file) = ptth_server::load_toml::load::<ConfigFile, _> ("./config/ptth_server.toml")
{
if let Some (v) = config_file.name.as_ref () {
input_name.set_value (v);
@ -209,16 +156,16 @@ impl Gui {
input_relay_url,
input_file_server_root,
input_api_key,
server_is_running: false,
hits: 0,
}
}
fn set_server_running (&mut self, b: bool) {
self.server_is_running = b;
self.refresh_label ();
self.frame.set_label (if b {
"Running"
}
else {
"Stopped"
});
set_active (&mut self.but_run, ! b);
set_active (&mut self.but_stop, b);
@ -230,18 +177,6 @@ impl Gui {
set_active (&mut self.input_file_server_root, ! b);
set_active (&mut self.input_api_key, ! b);
}
fn refresh_label (&mut self) {
let s =
if self.server_is_running {
format! ("Running. Requests: {}", self.hits)
}
else {
"Stopped".to_string ()
};
self.frame.set_label (&s);
}
}
fn set_active <W: WidgetExt> (w: &mut W, b: bool) {

View File

@ -1,11 +0,0 @@
[package]
name = "udp_over_tcp"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
anyhow = "1.0.66"
tokio = { version = "1.23.0", features = ["full"] }
tracing = "0.1.37"

View File

@ -1,59 +0,0 @@
use std::{
net::{
Ipv4Addr,
SocketAddr,
SocketAddrV4,
},
sync::Arc,
};
use tokio::{
net::{
TcpSocket,
TcpStream,
UdpSocket,
},
spawn,
};
use crate::loops;
pub struct Config {
pub udp_eph_port: u16,
pub udp_local_server_port: u16,
pub tcp_server_addr: SocketAddr,
}
pub async fn main (cfg: Config) -> anyhow::Result <()> {
let udp_sock = UdpSocket::bind (SocketAddrV4::new (Ipv4Addr::UNSPECIFIED, cfg.udp_local_server_port)).await?;
udp_sock.connect ((Ipv4Addr::LOCALHOST, cfg.udp_eph_port)).await?;
let tcp_sock = TcpSocket::new_v4 ()?;
let tcp_conn = tcp_sock.connect (cfg.tcp_server_addr).await?;
main_with_sockets (udp_sock, tcp_conn).await
}
pub async fn main_with_sockets (udp_sock: UdpSocket, tcp_conn: TcpStream) -> anyhow::Result <()> {
let (tcp_read, tcp_write) = tcp_conn.into_split ();
let tx_task;
let rx_task;
{
let udp_sock = Arc::new (udp_sock);
rx_task = spawn (loops::rx (Arc::clone (&udp_sock), tcp_read));
tx_task = spawn (loops::tx (Arc::clone (&udp_sock), tcp_write));
}
tokio::select! {
_val = tx_task => {
println! ("client_main: tx_task exited, exiting");
}
_val = rx_task => {
println! ("client_main: rx_task exited, exiting");
}
}
Ok (())
}

View File

@ -1,4 +0,0 @@
pub mod client;
pub mod server;
mod loops;

View File

@ -1,84 +0,0 @@
use std::{
sync::Arc,
};
use anyhow::bail;
use tokio::{
io::{
AsyncReadExt,
AsyncWriteExt,
},
net::{
UdpSocket,
tcp,
}
};
pub async fn rx (
udp_sock: Arc <UdpSocket>,
mut tcp_read: tcp::OwnedReadHalf,
) -> anyhow::Result <()> {
for i in 0u64.. {
// Optimizes down to a bitwise AND
if i % 8_192 == 0 {
tracing::trace! ("rx loop");
}
let mut tag = [0u8, 0, 0, 0];
let bytes_read = tcp_read.read (&mut tag).await?;
if bytes_read != 4 {
bail! ("loops::rx: Couldn't read 4 bytes for tag");
}
if tag != [1, 0, 0, 0] {
bail! ("loops::rx: unexpected tag in framing");
}
let mut length = [0u8, 0, 0, 0];
let bytes_read = tcp_read.read (&mut length).await?;
if bytes_read != 4 {
bail! ("loops::rx: Couldn't read 4 bytes for tag");
}
let length = usize::try_from (u32::from_le_bytes (length))?;
if length >= 8_192 {
bail! ("loops::rx: Length too big for UDP packets");
}
let mut buf = vec! [0u8; length];
let bytes_read = tcp_read.read_exact (&mut buf).await?;
if length != bytes_read {
bail! ("loops::rx: read_exact failed");
}
buf.truncate (bytes_read);
udp_sock.send (&buf).await?;
}
Ok (())
}
pub async fn tx (
udp_sock: Arc <UdpSocket>,
mut tcp_write: tcp::OwnedWriteHalf,
) -> anyhow::Result <()>
{
for i in 0u64.. {
// Optimizes down to a bitwise AND
if i % 8_192 == 0 {
tracing::trace! ("tx loop");
}
let mut buf = vec! [0u8; 8_192];
let bytes_read = udp_sock.recv (&mut buf).await?;
buf.truncate (bytes_read);
let tag = [1u8, 0, 0, 0];
let length = u32::try_from (bytes_read)?.to_le_bytes ();
tcp_write.write_all (&tag).await?;
tcp_write.write_all (&length).await?;
tcp_write.write_all (&buf).await?;
}
Ok (())
}

View File

@ -1,76 +0,0 @@
/*
To test manually, run this 3 commands:
- Terminal A: `nc -l -u -p 9502`
- Terminal B: `cargo run -p udp_over_tcp`
- Terminal C: `nc -p 9500 -u 127.0.0.1 9501`
Terminals A and C should be connected through the UDP-over-TCP connection
*/
use std::{
net::{
Ipv4Addr,
SocketAddr,
SocketAddrV4,
},
};
use tokio::{
runtime,
spawn,
};
mod client;
mod loops;
mod server;
// The ephemeral UDP port that the PTTH_QUIC client will bind
const PORT_0: u16 = 9500;
// The well-known UDP port that the UDP-over-TCP client will bind
// The PTTH_QUIC client must connect to this instead of the real relay address
const PORT_1: u16 = 9501;
// The well-known TCP port that the UDP-over-TCP server will bind
const PORT_2: u16 = 9502;
// The well-known UDP port that the PTTH_QUIC relay will bind
const PORT_3: u16 = 9502;
fn main () -> anyhow::Result <()> {
let rt = runtime::Runtime::new ()?;
rt.block_on (async_main ())?;
Ok (())
}
async fn async_main () -> anyhow::Result <()> {
let server_cfg = server::Config {
tcp_port: PORT_2,
udp_port: PORT_3,
};
let server_app = server::Listener::new (server_cfg).await?;
let server_task = spawn (server_app.run ());
let client_cfg = client::Config {
udp_eph_port: PORT_0,
udp_local_server_port: PORT_1,
tcp_server_addr: SocketAddr::V4 (SocketAddrV4::new (Ipv4Addr::LOCALHOST, PORT_2)),
};
let client_task = spawn (client::main (client_cfg));
tokio::select! {
_val = client_task => {
println! ("Client exited, exiting");
},
_val = server_task => {
println! ("Server exited, exiting");
},
}
Ok (())
}

View File

@ -1,88 +0,0 @@
use std::{
net::{
Ipv4Addr,
SocketAddrV4,
},
sync::Arc,
};
use tokio::{
net::{
TcpListener,
TcpStream,
UdpSocket,
},
spawn,
};
use crate::loops;
#[derive (Clone)]
pub struct Config {
/// The well-known TCP port that the UDP-over-TCP server will bind
pub tcp_port: u16,
/// The well-known UDP port that the PTTH_QUIC relay will bind
pub udp_port: u16,
}
pub struct Listener {
cfg: Config,
tcp_listener: TcpListener,
}
impl Listener {
pub async fn new (cfg: Config) -> anyhow::Result <Self> {
let tcp_listener = TcpListener::bind ((Ipv4Addr::UNSPECIFIED, cfg.tcp_port)).await?;
Ok (Self {
cfg,
tcp_listener,
})
}
pub fn tcp_port (&self) -> anyhow::Result <u16> {
Ok (self.tcp_listener.local_addr ()?.port ())
}
pub async fn run (self) -> anyhow::Result <()> {
let Self {
cfg,
tcp_listener,
} = self;
loop {
let (conn, _peer_addr) = tcp_listener.accept ().await?;
let cfg = cfg.clone ();
spawn (handle_connection (cfg, conn));
}
}
}
async fn handle_connection (cfg: Config, conn: TcpStream) -> anyhow::Result <()> {
let udp_sock = UdpSocket::bind (SocketAddrV4::new (Ipv4Addr::UNSPECIFIED, 0)).await?;
udp_sock.connect ((Ipv4Addr::LOCALHOST, cfg.udp_port)).await?;
let (tcp_read, tcp_write) = conn.into_split ();
let rx_task;
let tx_task;
{
let udp_sock = Arc::new (udp_sock);
rx_task = spawn (loops::rx (Arc::clone (&udp_sock), tcp_read));
tx_task = spawn (loops::tx (Arc::clone (&udp_sock), tcp_write));
}
tokio::select! {
_val = tx_task => {
println! ("server_handle_connection: tx_task exited, exiting");
}
_val = rx_task => {
println! ("server_handle_connection: rx_task exited, exiting");
}
}
Ok (())
}

View File

@ -1,73 +0,0 @@
# PTTH_DIREC - Direct P2P connections
_It could work, even!_
To keep each ridiculous new feature simple, we'll rely on bootstrapping:
1. PTTH is just HTTPS connections
2. PTTH_QUIC uses a PTTH relay to download the QUIC cert and bootstrap
3. PTTH_DIREC will use a PTTH_QUIC relay to bootstrap
# Overview
Given that:
- P2 is connected to P3
- P4 is connected to P3
Steps:
- S1. P2 starts a bi stream to P3
- S2.0. P2 says, "I want to initiate a PTTH_DIREC connection..."
- "... And I'll send you cookie X to do hole-punching..."
- "... And I want to connect to end server Y..."
- S3.0. P3 creates an ID for this connection
- S3.1. P3 replies "go ahead" to P2
- S4. P3 starts a bi stream to P4 (end server Y)
- S5. P3 says, "I want you to accept a PTTH_DIREC connection..."
- "... And you should send me cookie Z to do hole-punching..."
- "... And the client will be client W..."
- S6. P3 waits for P4 to accept the offer
- S7. P3 waits for both cookies to arrive
- S8. When the cookies arrive, P3 learns the WAN addresses of P2 and P4
- S9. P3 sends the WAN addresses of P2 and P4 to each other (on the existing bi streams)
- S10. P4 tries to connect directly to P2
- S11. P2 does the same to P4
- S12. When P4 sees round-tripped data, it attempts to upgrade to QUIC
- S13. When P2 sees round-tripped data, it attempts to upgrade to QUIC
- Cool stuff happens over QUIC
- ReactorScram implements the rest of the protocol
P2's PoV:
- S1. Start a bi stream to P3
- S2.0. Send cookie and server ID
- S2.1. Wait for go-ahead signal (this may contain the hole-punch address and a new cookie for P4)
- S2.2. Send cookie to hole-punch address repeatedly
- S2.3. While you're sending the cookie, wait to hear P4's WAN address
- S9. Learn P4's WAN address
- S10. Send the new cookie to P4's address
- S12. When you see round-tripped data, upgrade to QUIC
P4's PoV:
- S4. Accept a bi stream from P3
- S5. Receive cookie and client ID
- S6. Reply "OK"
- S7.0. Send cookie to hole-punch address repeatedly
- S7.1. While sending the cookie, wait to hear P2's WAN address
- S9. Learn P2's WAN address
- S10. Try to connect directly to P2
- S12. When you see round-tripped data, upgrade to QUIC
Commands needed:
- ???
# Decisions
I'll add a delay between giving P2's address to P4, and giving P4's address to P2.
This miiiight change things slightly if P4's firewall is suspicious of packets
coming in too early, but I doubt it.
The delay is easy to remove relay-side if it doesn't help.

View File

@ -1,24 +0,0 @@
# How-to: Test PTTH_QUIC
## Initial setup
- Open 3 terminals in `crates/ptth_quic`
- Use `export RUST_LOG=ptth_quic_relay_server=debug` to enable debug logging
for the terminal that will run the relay server (P3)
- Use `export RUST_LOG=ptth_quic=debug` for the terminal that
will run the end server (P4)
- Use `export RUST_LOG=ptth_quic_client=debug` for the terminal that
will run the client (P2)
When the relay server is running, use curl to get the list of connected
end servers: `curl 127.0.0.1:4004`
## Test loop - Happy path
- Start a relay `cargo run --bin ptth_quic_relay_server`
- Verify that the relay has no end servers connected
- Start an end server `cargo run --bin ptth_quic_end_server -- --debug-echo`
- Verify that the end server connected
- Start a client `cargo run --bin ptth_quic_client`
- Connect to the client and verify that the debug echo server is running
`nc 127.0.0.1 30381`

View File

@ -1,31 +0,0 @@
# How scraper keys work
Come up with a random passphrase:
`not this, this is a bogus passphrase for documentation`
Run that through the `hash-api-key` subcommand of any `ptth_relay` instance:
`ptth_relay hash-api-key`
You'll get a hash like this:
`RUWt1hQQuHIRjftOdgeZf0PG/DtAmIaMqot/nwBAZXQ=`
Make sure that gets into the relay's config file, `ptth_relay.toml`:
```
[[scraper_keys]]
name = "shudder_mummy"
not_before = "2021-08-27T19:20:25-05:00"
not_after = "2031-08-27T19:20:25-05:00"
hash = "RUWt1hQQuHIRjftOdgeZf0PG/DtAmIaMqot/nwBAZXQ="
```
Use curl to like, try it out:
```
curl \
--header "X-ApiKey: not this, this is a bogus passphrase for documentation" \
http://localhost:4000/scraper/v1/test
```

View File

@ -52,6 +52,8 @@ Lorem ipsum dolor set amet
<p>
<a href="endless_sink">Data sink (POST only)</a>
<p>Persistent toggle is <pre>{{persistent_toggle}}</pre></p>
<form action="toggle" method="post">
<input type="submit" value="Toggle">
</form>

View File

@ -14,10 +14,6 @@
.entry_list div:nth-child(odd) {
background-color: #ddd;
}
.fine {
color: #444;
font-size: 12px;
}
</style>
<title>PTTH relay</title>
</head>
@ -37,12 +33,5 @@
</div>
<p class="fine">
Rendered by PTTH relay server.
Copyright 2020-2024 "Trish" ReactorScram. Licensed under the
<a href="https://www.gnu.org/licenses/agpl-3.0.html">GNU AGPLv3.</a>
<a href="https://six-five-six-four.com/git/reactor/ptth">Download source code</a>
</p>
</body>
</html>

View File

@ -95,13 +95,6 @@ Git version: {{git_version}}
{{else}}
Not built from Git
{{/if}}
<p>
Rendered by PTTH relay server.
Copyright 2020-2024 "Trish" ReactorScram. Licensed under the
<a href="https://www.gnu.org/licenses/agpl-3.0.html">GNU AGPLv3.</a>
<a href="https://six-five-six-four.com/git/reactor/ptth">Download source code</a>
</p>
</div>
</body>

View File

@ -27,10 +27,6 @@ AIABAACAAQAAgAEAAIABAACAAQAAgAEAAIABAACAAQAA" rel="icon" type="image/x-icon" />
transition: var(--dark-mode-transition);
}
.fine {
color: #444;
font-size: 12px;
}
.light_switch {
display: none;
}
@ -44,7 +40,7 @@ AIABAACAAQAAgAEAAIABAACAAQAAgAEAAIABAACAAQAA" rel="icon" type="image/x-icon" />
.light_switch_label::before {
content: "[ ] ";
}
.app a {
a {
color: var(--main-link-color);
transition: var(--dark-mode-transition);
}
@ -115,7 +111,7 @@ AIABAACAAQAAgAEAAIABAACAAQAAgAEAAIABAACAAQAA" rel="icon" type="image/x-icon" />
{{#each entries}}
<tr>
<td><a class="entry" href="./{{this.encoded_file_name}}{{this.trailing_slash}}">
<td><a class="entry" href="{{this.encoded_file_name}}{{this.trailing_slash}}">
{{this.icon}} {{this.file_name}}{{this.trailing_slash}}</a></td>
<td><span class="grey">{{this.size}}</span></td>
</tr>
@ -126,15 +122,6 @@ AIABAACAAQAAgAEAAIABAACAAQAAgAEAAIABAACAAQAA" rel="icon" type="image/x-icon" />
<!-- Doesn't work perfectly yet -->
<!--<label for="light_switch" class="light_switch_label">Dark mode</label>-->
</div>
<p class="fine">
Rendered by PTTH end server.
Copyright 2020-2024 "Trish" ReactorScram. Licensed under the
<a href="https://www.gnu.org/licenses/agpl-3.0.html">GNU AGPLv3.</a>
<a href="https://six-five-six-four.com/git/reactor/ptth">Download source code</a>
</p>
</page>
</body>
</html>

View File

@ -15,10 +15,6 @@
.entry_list div:nth-child(even) {
background-color: #ddd;
}
.fine {
color: #444;
font-size: 12px;
}
</style>
<title>{{metrics_startup.server_name}}</title>
</head>
@ -26,6 +22,10 @@
<h1>{{metrics_startup.server_name}}</h1>
<h2>Gauges</h2>
<p>RSS MiB: {{metrics_interval.rss_mib}}</p>
<div class="entry_list">
<div>
@ -40,12 +40,5 @@
</div>
<p class="fine">
Rendered by PTTH end server.
Copyright 2020-2024 "Trish" ReactorScram. Licensed under the
<a href="https://www.gnu.org/licenses/agpl-3.0.html">GNU AGPLv3.</a>
<a href="https://six-five-six-four.com/git/reactor/ptth">Download source code</a>
</p>
</body>
</html>

View File

@ -5,26 +5,14 @@ authors = ["Trish"]
edition = "2018"
license = "AGPL-3.0"
repository = "https://six-five-six-four.com/git/reactor/ptth"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
anyhow = "1.0.38"
blake3 = "1.0.0"
fltk = "1.4.22"
ptth_quic = { path = "../ptth_quic" }
quinn = "0.9.3"
rand = "0.8.4"
rand_chacha = "0.3.1"
rmp-serde = "0.15.5"
serde = "1.0.130"
fltk = "1.1.1"
quic_demo = { path = "../quic_demo" }
quinn = "0.7.2"
structopt = "0.3.20"
tokio = { version = "1.8.1", features = ["full"] }
tracing-subscriber = "0.2.16"
tracing = "0.1.25"
[dependencies.reqwest]
version = "0.11.4"
default-features = false
features = ["stream", "rustls-tls", "hyper-rustls"]

View File

@ -0,0 +1,240 @@
use std::str::FromStr;
use fltk::{
app,
button::Button,
enums::CallbackTrigger,
frame::Frame,
input::*,
prelude::*,
window::Window
};
use structopt::StructOpt;
use quic_demo::{
client_proxy::*,
prelude::*,
protocol::PeerId,
};
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
window_title: Option <String>,
#[structopt (long)]
relay_addr: Option <String>,
#[structopt (long)]
client_id: Option <PeerId>,
}
#[derive (Clone, Copy)]
enum Message {
OpenPort (usize),
ClosePort (usize),
}
fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let rt = tokio::runtime::Runtime::new ()?;
let opt = Opt::from_args ();
let (fltk_tx, fltk_rx) = app::channel::<Message> ();
let app = app::App::default ();
let window_title = opt.window_title.clone ().unwrap_or_else (|| "PTTH client proxy".to_string ());
let mut wind = Window::new (100, 100, 800, 600, None)
.with_label (&window_title);
let margin = 10;
let h = 30;
let mut x = margin;
let mut y = margin;
let mut frame_status = Frame::new (x, y, 800 - 20, h, "Forwarding 0 ports");
y += h + margin;
x = margin;
{
let w = 80;
Frame::new (x, y, w, h, "Local port");
x += w + margin;
let w = 120;
Frame::new (x, y, w, h, "Server ID");
x += w + margin;
let w = 80;
Frame::new (x, y, w, h, "Server port");
// x += w + margin;
}
y += h + margin;
x = margin;
let gui_port_0 = GuiPort::new (fltk_tx, &mut x, y, 0);
y += h + margin;
x = margin;
let gui_port_1 = GuiPort::new (fltk_tx, &mut x, y, 1);
y += h + margin;
x = margin;
let gui_port_2 = GuiPort::new (fltk_tx, &mut x, y, 2);
// y += h + margin;
// x = margin;
let mut gui_ports = vec! [
gui_port_0,
gui_port_1,
gui_port_2,
];
let mut forwarding_instances = vec! [
None,
None,
None,
];
// y += h + margin;
wind.end ();
wind.show ();
let connection_p2_p3 = rt.block_on (async move {
let server_cert = tokio::fs::read ("quic_server.crt").await?;
let relay_addr = opt.relay_addr.unwrap_or_else (|| String::from ("127.0.0.1:30380")).parse ()?;
let endpoint = make_client_endpoint ("0.0.0.0:0".parse ()?, &[&server_cert])?;
trace! ("Connecting to relay server");
let client_id = opt.client_id.unwrap_or_else (|| "bogus_client".to_string ());
let quinn::NewConnection {
connection,
..
} = protocol::p2_connect_to_p3 (&endpoint, &relay_addr, &client_id).await?;
Ok::<_, anyhow::Error> (connection)
})?;
while app.wait () {
match fltk_rx.recv () {
Some (Message::OpenPort (port_idx)) => {
if let Ok (params) = gui_ports [port_idx].get_params () {
let connection_p2_p3 = connection_p2_p3.clone ();
let _guard = rt.enter ();
forwarding_instances [port_idx].replace (ForwardingInstance::new (
connection_p2_p3,
params,
));
gui_ports [port_idx].set_forwarding (true);
frame_status.set_label ("Forwarding 1 port");
}
},
Some (Message::ClosePort (port_idx)) => {
if let Some (old_instance) = forwarding_instances [port_idx].take () {
rt.block_on (old_instance.close ())?;
}
gui_ports [port_idx].set_forwarding (false);
frame_status.set_label ("Forwarding 0 ports");
},
None => (),
}
}
Ok (())
}
fn set_active <W: WidgetExt> (w: &mut W, b: bool) {
if b {
w.activate ();
}
else {
w.deactivate ();
}
}
struct GuiPort {
input_client_port: Input,
input_server_id: Input,
input_server_port: Input,
but_open: Button,
but_close: Button,
}
impl GuiPort {
fn new (fltk_tx: fltk::app::Sender <Message>, x: &mut i32, y: i32, port_idx: usize) -> Self {
let margin = 10;
let h = 30;
let w = 80;
let mut input_client_port = Input::new (*x, y, w, h, "");
*x += w + margin;
let w = 120;
let mut input_server_id = Input::new (*x, y, w, h, "");
*x += w + margin;
let w = 80;
let mut input_server_port = Input::new (*x, y, w, h, "");
*x += w + margin;
let w = 80;
let mut but_open = Button::new (*x, y, w, h, "Open");
*x += w + margin;
let w = 80;
let mut but_close = Button::new (*x, y, w, h, "Close");
// *x += w + margin;
input_client_port.set_value ("5901");
input_server_id.set_value ("bogus_server");
input_server_port.set_value ("5900");
but_open.set_trigger (CallbackTrigger::Changed);
but_open.emit (fltk_tx, Message::OpenPort (port_idx));
but_close.set_trigger (CallbackTrigger::Changed);
but_close.emit (fltk_tx, Message::ClosePort (port_idx));
set_active (&mut but_open, true);
set_active (&mut but_close, false);
Self {
input_client_port,
input_server_id,
input_server_port,
but_open,
but_close,
}
}
fn get_params (&self) -> anyhow::Result <ForwardingParams>
{
let client_tcp_port = u16::from_str (&self.input_client_port.value ())?;
let server_id = self.input_server_id.value ();
let server_tcp_port = u16::from_str (&self.input_server_port.value ())?;
Ok (ForwardingParams {
client_tcp_port,
server_id,
server_tcp_port,
})
}
fn set_forwarding (&mut self, x: bool) {
set_active (&mut self.input_client_port, !x);
set_active (&mut self.input_server_id, !x);
set_active (&mut self.input_server_port, !x);
set_active (&mut self.but_open, !x);
set_active (&mut self.but_close, x);
self.but_open.set (x);
self.but_close.set (!x);
}
}

View File

@ -0,0 +1,20 @@
[package]
name = "quic_demo"
version = "0.1.0"
authors = ["Trish"]
edition = "2018"
license = "AGPL-3.0"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
anyhow = "1.0.38"
base64 = "0.13.0"
futures-util = "0.3.9"
quinn = "0.7.2"
rcgen = "0.8.11"
rmp-serde = "0.15.5"
structopt = "0.3.20"
tokio = { version = "1.8.1", features = ["full"] }
tracing-subscriber = "0.2.16"
tracing = "0.1.25"

View File

@ -1,8 +1,8 @@
# https://whitfin.io/speeding-up-rust-docker-builds/
# TODO: https://stackoverflow.com/questions/57389547/how-to-define-the-context-for-a-docker-build-as-a-specific-commit-on-one-of-the
# docker pull rust:1.66-slim-buster
FROM rust@sha256:98c9b1fca0c9a6183369daf9efadb57c634340ae877bb027aeadf72afdd086a3 as build
# rust:1.50-slim-buster
FROM rust@sha256:5dd85eb0c60bbdea14a6ecba1f6fe4a0f5c878bcf06d2cdfae0aff3a19ed4b10 as build
WORKDIR /
ENV USER root
@ -20,8 +20,7 @@ cargo new --bin crates/ptth_server && \
cargo new --bin crates/ptth_file_server_bin && \
cargo new --bin tools/ptth_tail && \
cargo new --bin crates/debug_proxy && \
cargo new --bin crates/ptth_quic && \
cargo new --lib crates/udp_over_tcp
cargo new --bin prototypes/quic_demo
# copy over your manifests
COPY ./Cargo.lock ./
@ -29,11 +28,10 @@ COPY ./Cargo.toml ./
COPY ./crates/always_equal/Cargo.toml ./crates/always_equal/
COPY ./crates/ptth_core/Cargo.toml ./crates/ptth_core/
COPY ./crates/ptth_relay/Cargo.toml ./crates/ptth_relay/
COPY ./crates/ptth_quic/Cargo.toml ./crates/ptth_quic/
COPY ./crates/udp_over_tcp/Cargo.toml ./crates/udp_over_tcp/
COPY ./prototypes/quic_demo/Cargo.toml ./prototypes/quic_demo/
# this build step will cache your dependencies
RUN cargo build --release -p ptth_quic
RUN cargo build --release -p quic_demo
RUN \
rm \
@ -41,8 +39,7 @@ src/*.rs \
crates/always_equal/src/*.rs \
crates/ptth_core/src/*.rs \
crates/ptth_relay/src/*.rs \
crates/ptth_quic/src/*.rs \
crates/udp_over_tcp/src/*.rs
prototypes/quic_demo/src/*.rs
# Copy source tree
# Yes, I tried a few variations on the syntax. Dockerfiles are just rough.
@ -52,8 +49,7 @@ COPY ./crates/always_equal ./crates/always_equal
COPY ./crates/ptth_core ./crates/ptth_core
COPY ./crates/ptth_relay ./crates/ptth_relay
COPY ./handlebars/ ./handlebars
COPY ./crates/ptth_quic ./crates/ptth_quic
COPY ./crates/udp_over_tcp ./crates/udp_over_tcp
COPY ./prototypes/quic_demo ./prototypes/quic_demo
# Bug in cargo's incremental build logic, triggered by
# Docker doing something funny with mtimes? Maybe?
@ -62,9 +58,8 @@ RUN touch crates/ptth_core/src/lib.rs
# build for release
# gate only on ptth_relay tests for now
RUN \
find . && \
cargo build --release -p ptth_quic --bin ptth_quic_relay_server && \
cargo test --release -p ptth_quic --bin ptth_quic_relay_server
cargo build --release -p quic_demo --bin quic_demo_relay_server && \
cargo test --release -p quic_demo --bin quic_demo_relay_server
# debian:buster-slim
FROM debian@sha256:13f0764262a064b2dd9f8a828bbaab29bdb1a1a0ac6adc8610a0a5f37e514955
@ -78,11 +73,11 @@ RUN addgroup --gid 10001 ptth_user && adduser --system --uid 10000 --gid 10001 p
USER ptth_user
WORKDIR /home/ptth_user
COPY --from=build /ptth/target/release/ptth_quic_relay_server ./
COPY --from=build /ptth/target/release/quic_demo_relay_server ./
ARG git_version
RUN \
echo -n "$git_version" > ./git_version.txt && \
ln -s ptth_quic_relay_server app
ln -s quic_demo_relay_server app
CMD ["/usr/bin/tini", "--", "./ptth_quic_relay_server"]
CMD ["/usr/bin/tini", "--", "./quic_demo_relay_server"]

View File

@ -3,9 +3,9 @@
There are 5 processes, so you'll need 5 terminal windows or screen / tmux
sessions. Run the processes in this order:
1. QUIC relay server: `RUST_LOG=ptth_quic_relay_server=debug cargo run --bin ptth_quic_relay_server`
2. Server-side proxy: `RUST_LOG=ptth_quic_end_server=debug cargo run --bin ptth_quic_end_server`
3. Client-side proxy: `RUST_LOG=ptth_quic_client cargo run --bin ptth_quic_client`
1. QUIC relay server: `RUST_LOG=quic_demo_relay_server=debug cargo run --bin quic_demo_relay_server`
2. Server-side proxy: `RUST_LOG=quic_demo_end_server=debug cargo run --bin quic_demo_end_server`
3. Client-side proxy: `RUST_LOG=quic_demo_client cargo run --bin quic_demo_client`
4. TCP end server: `nc -l -p 30382`
5. TCP end client: `nc 127.0.0.1 30381`

View File

@ -1,5 +1,4 @@
#!/usr/bin/env bash
# Run from `ptth/`
set -euo pipefail
@ -9,12 +8,14 @@ DOCKER_TAG="ptth_quic:latest"
mkdir -p app_packages
git archive --format=tar "$GIT_COMMIT" | docker build -f crates/ptth_quic/Dockerfile -t "$DOCKER_TAG" --build-arg "git_version=$GIT_COMMIT" -
pushd ../../
git archive --format=tar "$GIT_COMMIT" | sudo docker build -f prototypes/quic_demo/Dockerfile -t "$DOCKER_TAG" --build-arg "git_version=$GIT_COMMIT" -
popd
docker run --rm "$DOCKER_TAG" \
sudo docker run --rm "$DOCKER_TAG" \
tar -c \
app \
ptth_quic_relay_server \
quic_demo_relay_server \
| gzip > "app_packages/ptth_quic_relay_$GIT_COMMIT_SHORT.tar.gz"
# sudo docker build -f app_package_Dockerfile -t ptth_app_host:latest .

View File

@ -0,0 +1,82 @@
use structopt::StructOpt;
use tokio::net::TcpListener;
use quic_demo::prelude::*;
use protocol::PeerId;
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
relay_addr: Option <String>,
#[structopt (long)]
client_id: Option <PeerId>,
#[structopt (long)]
server_id: Option <PeerId>,
#[structopt (long)]
client_tcp_port: Option <u16>,
#[structopt (long)]
server_tcp_port: Option <u16>,
}
#[tokio::main]
async fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let opt = Opt::from_args ();
let server_cert = tokio::fs::read ("quic_server.crt").await?;
let relay_addr = opt.relay_addr.unwrap_or_else (|| String::from ("127.0.0.1:30380")).parse ()?;
let endpoint = make_client_endpoint ("0.0.0.0:0".parse ()?, &[&server_cert])?;
debug! ("Connecting to relay server");
let client_id = opt.client_id.unwrap_or_else (|| "bogus_client".to_string ());
let quinn::NewConnection {
connection,
..
} = protocol::p2_connect_to_p3 (&endpoint, &relay_addr, &client_id).await?;
// End of per-client stuff
// Beginning of per-port stuff
let server_id = opt.server_id.unwrap_or_else (|| "bogus_server".to_string ());
let client_tcp_port = opt.client_tcp_port.unwrap_or (30381);
let server_tcp_port = opt.server_tcp_port.unwrap_or (30382);
let listener = TcpListener::bind (("127.0.0.1", client_tcp_port)).await?;
debug! ("Accepting local TCP connections from P1");
// End of per-port stuff
// Beginning of per-connection stuff
loop {
let (tcp_socket, _) = listener.accept ().await?;
let connection = connection.clone ();
let server_id = server_id.clone ();
tokio::spawn (async move {
let (local_recv, local_send) = tcp_socket.into_split ();
debug! ("Starting PTTH connection");
let (relay_send, relay_recv) = protocol::p2_connect_to_p5 (&connection, &server_id, server_tcp_port).await?;
trace! ("Relaying bytes...");
let ptth_conn = quic_demo::connection::NewConnection {
local_send,
local_recv,
relay_send,
relay_recv,
}.build ();
ptth_conn.wait_for_close ().await?;
debug! ("Ended PTTH connection");
Ok::<_, anyhow::Error> (())
});
}
}

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@ -0,0 +1,90 @@
use structopt::StructOpt;
use tokio::net::TcpStream;
use quic_demo::prelude::*;
use protocol::PeerId;
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
relay_addr: Option <String>,
#[structopt (long)]
server_id: Option <PeerId>,
}
#[tokio::main]
async fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let opt = Opt::from_args ();
let server_cert = tokio::fs::read ("quic_server.crt").await?;
let relay_addr = opt.relay_addr.unwrap_or_else (|| String::from ("127.0.0.1:30380")).parse ()?;
let endpoint = make_client_endpoint ("0.0.0.0:0".parse ()?, &[&server_cert])?;
trace! ("Connecting to relay server");
let server_id = opt.server_id.unwrap_or_else (|| "bogus_server".to_string ());
let quinn::NewConnection {
mut bi_streams,
..
} = protocol::p4_connect_to_p3 (&endpoint, &relay_addr, &server_id).await?;
trace! ("Accepting bi streams from P3");
loop {
let (relay_send, relay_recv) = bi_streams.next ().await.ok_or_else (|| anyhow::anyhow! ("Relay server didn't open a bi stream"))??;
tokio::spawn (handle_bi_stream (relay_send, relay_recv));
}
}
async fn handle_bi_stream (
relay_send: quinn::SendStream,
mut relay_recv: quinn::RecvStream,
) -> anyhow::Result <()>
{
match protocol::p4_accept_p3_stream (&mut relay_recv).await? {
protocol::P3ToP4Stream::NewPtthConnection {
client_id,
..
} => handle_new_ptth_connection (relay_send, relay_recv, client_id).await?,
}
Ok (())
}
async fn handle_new_ptth_connection (
mut relay_send: quinn::SendStream,
mut relay_recv: quinn::RecvStream,
_client_id: String,
) -> anyhow::Result <()>
{
// TODO: Check authorization for P2 --> P4
protocol::p4_authorize_p2_connection (&mut relay_send).await?;
let p4_to_p5_req = protocol::p4_expect_p5_request (&mut relay_recv).await?;
// TODO: Check authorization for P1 --> P5
protocol::p4_authorize_p1_connection (&mut relay_send).await?;
debug! ("Started PTTH connection");
let stream = TcpStream::connect (("127.0.0.1", p4_to_p5_req.port)).await?;
let (local_recv, local_send) = stream.into_split ();
trace! ("Relaying bytes...");
let ptth_conn = quic_demo::connection::NewConnection {
local_send,
local_recv,
relay_send,
relay_recv,
}.build ();
ptth_conn.wait_for_close ().await?;
Ok (())
}

View File

@ -0,0 +1,317 @@
use structopt::StructOpt;
use quic_demo::prelude::*;
use protocol::PeerId;
#[derive (Debug, StructOpt)]
struct Opt {
#[structopt (long)]
listen_addr: Option <String>,
}
#[tokio::main]
async fn main () -> anyhow::Result <()> {
tracing_subscriber::fmt::init ();
let opt = Opt::from_args ();
let listen_addr = opt.listen_addr.unwrap_or_else (|| String::from ("0.0.0.0:30380")).parse ()?;
let (mut incoming, server_cert) = make_server_endpoint (listen_addr)?;
println! ("Base64 cert: {}", base64::encode (&server_cert));
tokio::fs::write ("quic_server.crt", &server_cert).await?;
let relay_state = RelayState::default ();
let relay_state = Arc::new (relay_state);
while let Some (conn) = incoming.next ().await {
let relay_state = Arc::clone (&relay_state);
// Each new peer QUIC connection gets its own task
tokio::spawn (async move {
let active = relay_state.stats.quic.connect ();
debug! ("QUIC connections: {}", active);
match handle_quic_connection (Arc::clone (&relay_state), conn).await {
Ok (_) => (),
Err (e) => warn! ("handle_quic_connection {:?}", e),
}
let active = relay_state.stats.quic.disconnect ();
debug! ("QUIC connections: {}", active);
});
}
Ok (())
}
#[derive (Default)]
struct RelayState {
p4_server_proxies: Mutex <HashMap <PeerId, P4State>>,
stats: Stats,
}
#[derive (Default)]
struct Stats {
quic: ConnectEvents,
}
#[derive (Default)]
struct ConnectEvents {
connects: AtomicU64,
disconnects: AtomicU64,
}
impl ConnectEvents {
fn connect (&self) -> u64 {
let connects = self.connects.fetch_add (1, Ordering::Relaxed) + 1;
let disconnects = self.disconnects.load (Ordering::Relaxed);
connects - disconnects
}
fn disconnect (&self) -> u64 {
let disconnects = self.disconnects.fetch_add (1, Ordering::Relaxed) + 1;
let connects = self.connects.load (Ordering::Relaxed);
connects - disconnects
}
fn _active (&self) -> u64 {
let connects = self.connects.load (Ordering::Relaxed);
let disconnects = self.disconnects.load (Ordering::Relaxed);
connects - disconnects
}
}
struct P4State {
req_channel: mpsc::Sender <RequestP2ToP4>,
}
impl RelayState {
}
struct RequestP2ToP4 {
client_send: quinn::SendStream,
client_recv: quinn::RecvStream,
client_id: String,
}
struct PtthNewConnection {
client_send: quinn::SendStream,
client_recv: quinn::RecvStream,
server_send: quinn::SendStream,
server_recv: quinn::RecvStream,
}
struct PtthConnection {
uplink_task: JoinHandle <anyhow::Result <()>>,
downlink_task: JoinHandle <anyhow::Result <()>>,
}
impl PtthNewConnection {
fn build (self) -> PtthConnection {
let Self {
mut client_send,
mut client_recv,
mut server_send,
mut server_recv,
} = self;
let uplink_task = tokio::spawn (async move {
// Uplink - Client to end server
let mut buf = vec! [0u8; 65_536];
while let Some (bytes_read) = client_recv.read (&mut buf).await? {
if bytes_read == 0 {
break;
}
let buf_slice = &buf [0..bytes_read];
trace! ("Uplink relaying {} bytes", bytes_read);
server_send.write_all (buf_slice).await?;
}
trace! ("Uplink closed");
Ok::<_, anyhow::Error> (())
});
let downlink_task = tokio::spawn (async move {
// Downlink - End server to client
let mut buf = vec! [0u8; 65_536];
while let Some (bytes_read) = server_recv.read (&mut buf).await? {
let buf_slice = &buf [0..bytes_read];
trace! ("Downlink relaying {} bytes", bytes_read);
client_send.write_all (buf_slice).await?;
}
trace! ("Downlink closed");
Ok::<_, anyhow::Error> (())
});
PtthConnection {
uplink_task,
downlink_task,
}
}
}
async fn handle_quic_connection (
relay_state: Arc <RelayState>,
conn: quinn::Connecting,
) -> anyhow::Result <()>
{
let mut conn = conn.await?;
// Everyone who connects must identify themselves with the first
// bi stream
// TODO: Timeout
let (mut send, mut recv) = conn.bi_streams.next ().await.ok_or_else (|| anyhow::anyhow! ("QUIC client didn't identify itself"))??;
let peer = protocol::p3_accept_peer (&mut recv).await?;
match peer {
protocol::P3Peer::P2ClientProxy (peer) => {
// TODO: Check authorization for P2 peers
protocol::p3_authorize_p2_peer (&mut send).await?;
handle_p2_connection (relay_state, conn, peer).await?;
},
protocol::P3Peer::P4ServerProxy (peer) => {
// TODO: Check authorization for P2 peers
protocol::p3_authorize_p4_peer (&mut send).await?;
handle_p4_connection (relay_state, conn, peer).await?;
},
}
Ok::<_, anyhow::Error> (())
}
async fn handle_p2_connection (
relay_state: Arc <RelayState>,
conn: quinn::NewConnection,
peer: protocol::P2ClientProxy,
) -> anyhow::Result <()>
{
let client_id = peer.id;
let quinn::NewConnection {
mut bi_streams,
..
} = conn;
while let Some (bi_stream) = bi_streams.next ().await {
let (send, mut recv) = bi_stream?;
let relay_state = Arc::clone (&relay_state);
let client_id = client_id.clone ();
tokio::spawn (async move {
debug! ("Request started for P2");
match protocol::p3_accept_p2_stream (&mut recv).await? {
protocol::P2ToP3Stream::ConnectP2ToP4 {
server_id,
} => handle_request_p2_to_p4 (relay_state, client_id, server_id, send, recv).await?,
}
debug! ("Request ended for P2");
Ok::<_, anyhow::Error> (())
});
}
debug! ("P2 {} disconnected", client_id);
Ok (())
}
async fn handle_request_p2_to_p4 (
relay_state: Arc <RelayState>,
client_id: String,
server_id: PeerId,
mut client_send: quinn::SendStream,
client_recv: quinn::RecvStream,
) -> anyhow::Result <()>
{
trace! ("P2 {} wants to connect to P4 {}", client_id, server_id);
// TODO: Check authorization for P2 to connect to P4
protocol::p3_authorize_p2_to_p4_connection (&mut client_send).await?;
{
let p4_server_proxies = relay_state.p4_server_proxies.lock ().await;
match p4_server_proxies.get (&server_id) {
Some (p4_state) => {
p4_state.req_channel.send (RequestP2ToP4 {
client_send,
client_recv,
client_id,
}).await.map_err (|_| anyhow::anyhow! ("Can't send request to P4 server"))?;
},
None => warn! ("That server isn't connected"),
}
}
Ok (())
}
async fn handle_p4_connection (
relay_state: Arc <RelayState>,
conn: quinn::NewConnection,
peer: protocol::P4ServerProxy,
) -> anyhow::Result <()>
{
let server_id = peer.id;
let quinn::NewConnection {
connection,
..
} = conn;
let (tx, mut rx) = mpsc::channel (2);
let p4_state = P4State {
req_channel: tx,
};
{
let mut p4_server_proxies = relay_state.p4_server_proxies.lock ().await;
p4_server_proxies.insert (server_id.clone (), p4_state);
}
while let Some (req) = rx.recv ().await {
let connection = connection.clone ();
let server_id = server_id.clone ();
tokio::spawn (async move {
let RequestP2ToP4 {
client_send,
client_recv,
client_id,
} = req;
debug! ("P4 {} got a request from P2 {}", server_id, client_id);
let (server_send, server_recv) = protocol::p3_connect_p2_to_p4 (&connection, &client_id).await?;
trace! ("Relaying bytes...");
let ptth_conn = PtthNewConnection {
client_send,
client_recv,
server_send,
server_recv,
}.build ();
ptth_conn.uplink_task.await??;
ptth_conn.downlink_task.await??;
debug! ("Request ended for P4");
Ok::<_, anyhow::Error> (())
});
}
debug! ("P4 {} disconnected", server_id);
Ok (())
}

View File

@ -9,48 +9,33 @@ use crate::prelude::*;
pub struct ForwardingInstance {
task: JoinHandle <anyhow::Result <()>>,
shutdown_flag: watch::Sender <bool>,
local_port: u16,
}
impl ForwardingInstance {
pub async fn new (
pub fn new (
connection_p2_p3: quinn::Connection,
params: ForwardingParams,
) -> anyhow::Result <Self>
) -> Self
{
let (shutdown_flag, shutdown_flag_rx) = tokio::sync::watch::channel (true);
let listener = TcpListener::bind (("127.0.0.1", params.client_tcp_port)).await?;
let local_port = listener.local_addr ()?.port ();
trace! ("Accepting local TCP connections from P1 on {}", local_port);
let task = tokio::spawn (forward_port (
listener,
connection_p2_p3,
params,
shutdown_flag_rx
));
Ok (Self {
Self {
task,
shutdown_flag,
local_port,
})
}
}
pub async fn close (self) -> anyhow::Result <()> {
if self.shutdown_flag.send (false).is_err () {
warn! ("Trying to gracefully shutdown forwarding task but it appears to already be shut down");
}
self.task.await
.context ("awaiting ForwardingInstance task")?
.context ("inside ForwardingInstance task")?;
self.shutdown_flag.send (false)?;
self.task.await??;
Ok (())
}
pub fn local_port (&self) -> u16 {
self.local_port
}
}
pub struct ForwardingParams {
@ -59,23 +44,25 @@ pub struct ForwardingParams {
pub server_tcp_port: u16,
}
/// Starts a TCP listener that can forward any number of TCP streams to
/// the same client:server port combination
pub async fn forward_port (
listener: TcpListener,
async fn forward_port (
connection_p2_p3: quinn::Connection,
params: ForwardingParams,
mut shutdown_flag_rx: tokio::sync::watch::Receiver <bool>,
shutdown_flag_rx: tokio::sync::watch::Receiver <bool>,
) -> anyhow::Result <()>
{
let ForwardingParams {
client_tcp_port,
server_id,
server_tcp_port,
..
} = params;
let listener = TcpListener::bind (("127.0.0.1", client_tcp_port)).await?;
trace! ("Accepting local TCP connections from P1 on {}", client_tcp_port);
while *shutdown_flag_rx.borrow () {
let mut shutdown_flag_rx_2 = shutdown_flag_rx.clone ();
tokio::select! {
x = listener.accept () => {
let (tcp_socket, _) = x?;
@ -85,7 +72,7 @@ pub async fn forward_port (
tokio::spawn (handle_p1 (connection, server_id, server_tcp_port, tcp_socket, shutdown_flag_rx));
},
_ = shutdown_flag_rx.changed () => (),
_ = shutdown_flag_rx_2.changed () => (),
};
}

View File

@ -0,0 +1,5 @@
pub mod client_proxy;
pub mod connection;
pub mod prelude;
pub mod protocol;
pub mod quinn_utils;

View File

@ -1,12 +1,5 @@
pub use std::{
collections::*,
ffi::OsString,
iter::FromIterator,
net::{
Ipv4Addr,
SocketAddr,
SocketAddrV4,
},
sync::{
Arc,
atomic::{
@ -14,10 +7,7 @@ pub use std::{
Ordering,
},
},
time::{
Duration,
Instant,
},
time::Duration,
};
pub use anyhow::{
@ -30,25 +20,12 @@ pub use tokio::{
AsyncReadExt,
AsyncWriteExt,
},
net::{
TcpListener,
TcpSocket,
UdpSocket,
},
sync::{
Mutex,
RwLock,
mpsc,
},
task::JoinHandle,
};
pub use rand::{
Rng,
RngCore,
};
pub use rusty_ulid::Ulid;
pub use serde::Deserialize;
pub use serde_json::json;
pub use tracing::{
debug,
error,

View File

@ -16,9 +16,6 @@ const MAX_ID_LENGTH: usize = 128;
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct Command (pub u8);
// I can't remember how I picked the numbers. Just increment I guess,
// and then switch to a variable-length format around 200.
impl Command {
pub const CONNECT_P2_TO_P3: Command = Command (2);
pub const CONNECT_P4_TO_P3: Command = Command (4);
@ -26,21 +23,20 @@ impl Command {
pub const CONNECT_P2_TO_P4_STEP_2: Command = Command (11);
pub const CONNECT_P2_TO_P5: Command = Command (12);
pub const OKAY: Command = Command (20);
pub const DIREC_P2_TO_P3: Command = Command (21);
}
pub async fn p2_connect_to_p3 (
endpoint: &quinn::Endpoint,
relay_addr: std::net::SocketAddr,
relay_addr: &std::net::SocketAddr,
client_id: &str,
) -> Result <quinn::Connection>
) -> Result <quinn::NewConnection>
{
if client_id.as_bytes ().len () > MAX_ID_LENGTH {
bail! ("Client ID is longer than MAX_ID_LENGTH");
}
let new_conn = endpoint.connect (relay_addr, "localhost")?.await?;
let (mut send, mut recv) = new_conn.open_bi ().await?;
let (mut send, mut recv) = new_conn.connection.open_bi ().await?;
let cmd_type = Command::CONNECT_P2_TO_P3.0;
send.write_all (&[cmd_type, 0, 0, 0]).await?;
@ -65,7 +61,7 @@ pub async fn p2_connect_to_p5 (
let cmd_type = Command::CONNECT_P2_TO_P4.0;
send.write_all (&[cmd_type, 0, 0, 0]).await?;
send_lv_string (&mut send, server_id).await?;
send_lv_string (&mut send, &server_id).await?;
expect_exact_response (&mut recv, [Command::OKAY.0, cmd_type, 0, 0]).await
.context ("P2 didn't get OK response when asking P3 to connect P2 to P4")?;
@ -83,30 +79,6 @@ pub async fn p2_connect_to_p5 (
Ok ((send, recv))
}
pub async fn p2_direc_to_p4 (
connection: &quinn::Connection,
server_id: &str,
) -> Result <Vec <u8>>
{
let (mut send, mut recv) = connection.open_bi ().await?;
let cmd_type = Command::DIREC_P2_TO_P3.0;
let mut cookie = vec! [0u8; 32];
rand::thread_rng ().fill_bytes (&mut cookie [..]);
let cookie = cookie;
send.write_all (&[cmd_type, 0, 0, 0]).await?;
send_lv_string (&mut send, server_id).await?;
send_lv_u16 (&mut send, &cookie).await?;
debug! ("Waiting for OK response for DIREC");
expect_exact_response (&mut recv, [Command::OKAY.0, cmd_type, 0, 0]).await?;
Ok (cookie)
}
pub enum P3Peer {
P2ClientProxy (P2ClientProxy),
P4ServerProxy (P4ServerProxy),
@ -191,14 +163,6 @@ pub enum P2ToP3Stream {
ConnectP2ToP4 {
server_id: PeerId,
},
DirecP2ToP4 {
/// P2 wants a P2P connection to this P4
server_id: PeerId,
/// P2 will send this cookie over plain UDP to P3
/// P3 will learn P2's WAN address from that.
cookie: Vec <u8>,
},
}
pub async fn p3_accept_p2_stream (
@ -218,15 +182,6 @@ pub async fn p3_accept_p2_stream (
server_id,
}
},
Command::DIREC_P2_TO_P3 => {
let server_id = recv_lv_string (recv, MAX_ID_LENGTH).await?;
let cookie = recv_lv_u16 (recv, 64).await?;
P2ToP3Stream::DirecP2ToP4 {
server_id,
cookie,
}
},
_ => bail! ("Invalid command type while P3 was accepting a new bi stream from P2"),
})
}
@ -239,33 +194,25 @@ pub async fn p3_authorize_p2_to_p4_connection (
Ok (())
}
pub async fn p3_authorize_p2_to_p4_direc (
send: &mut SendStream,
) -> Result <()>
{
send.write_all (&[Command::OKAY.0, Command::DIREC_P2_TO_P3.0, 0, 0]).await?;
Ok (())
}
pub async fn p4_connect_to_p3 (
endpoint: &quinn::Endpoint,
relay_addr: std::net::SocketAddr,
relay_addr: &std::net::SocketAddr,
server_id: &str,
) -> Result <quinn::Connection>
) -> Result <quinn::NewConnection>
{
if server_id.as_bytes ().len () > MAX_ID_LENGTH {
bail! ("Server ID is longer than MAX_ID_LENGTH");
}
let new_conn = endpoint.connect (relay_addr, "localhost")?.await.context ("UXTDVL2V quinn::Endpoint::connect")?;
let (mut send, mut recv) = new_conn.open_bi ().await?;
let new_conn = endpoint.connect (relay_addr, "localhost")?.await?;
let (mut send, mut recv) = new_conn.connection.open_bi ().await?;
let cmd_type = Command::CONNECT_P4_TO_P3.0;
send.write_all (&[cmd_type, 0, 0, 0]).await?;
send_lv_string (&mut send, server_id).await?;
expect_exact_response (&mut recv, [Command::OKAY.0, cmd_type, 0, 0]).await
.context ("WMGW2RXU P4 didn't get OK response when connecting to P3")?;
.context ("P4 didn't get OK response when connecting to P3")?;
Ok (new_conn)
}

View File

@ -8,8 +8,8 @@ use std::{
};
use quinn::{
ClientConfig, Endpoint,
ServerConfig,
Certificate, CertificateChain, ClientConfig, ClientConfigBuilder, Endpoint, Incoming,
PrivateKey, ServerConfig, ServerConfigBuilder, TransportConfig,
};
/// Constructs a QUIC endpoint configured for use a client only.
@ -26,10 +26,11 @@ pub fn make_client_endpoint(
let mut transport = quinn::TransportConfig::default ();
transport.keep_alive_interval (Some (Duration::from_millis (5_000)));
client_cfg.transport_config (Arc::new (transport));
client_cfg.transport = Arc::new (transport);
let mut endpoint = Endpoint::client (bind_addr)?;
endpoint.set_default_client_config (client_cfg);
let mut endpoint_builder = Endpoint::builder ();
endpoint_builder.default_client_config (client_cfg);
let (endpoint, _incoming) = endpoint_builder.bind(&bind_addr)?;
Ok(endpoint)
}
@ -41,10 +42,12 @@ pub fn make_client_endpoint(
/// - a stream of incoming QUIC connections
/// - server certificate serialized into DER format
#[allow(unused)]
pub fn make_server_endpoint(bind_addr: SocketAddr) -> anyhow::Result<(Endpoint, Vec<u8>)> {
pub fn make_server_endpoint(bind_addr: SocketAddr) -> anyhow::Result<(Incoming, Vec<u8>)> {
let (server_config, server_cert) = configure_server()?;
let endpoint = Endpoint::server (server_config, bind_addr)?;
Ok((endpoint, server_cert))
let mut endpoint_builder = Endpoint::builder();
endpoint_builder.listen(server_config);
let (_endpoint, incoming) = endpoint_builder.bind(&bind_addr)?;
Ok((incoming, server_cert))
}
/// Builds default quinn client config and trusts given certificates.
@ -52,28 +55,29 @@ pub fn make_server_endpoint(bind_addr: SocketAddr) -> anyhow::Result<(Endpoint,
/// ## Args
///
/// - server_certs: a list of trusted certificates in DER format.
fn configure_client (server_certs: &[&[u8]]) -> anyhow::Result<ClientConfig> {
let mut certs = rustls::RootCertStore::empty ();
fn configure_client(server_certs: &[&[u8]]) -> anyhow::Result<ClientConfig> {
let mut cfg_builder = ClientConfigBuilder::default();
for cert in server_certs {
certs.add (&rustls::Certificate (cert.to_vec ()))?;
cfg_builder.add_certificate_authority(Certificate::from_der(&cert)?)?;
}
Ok (ClientConfig::with_root_certificates (certs))
Ok(cfg_builder.build())
}
/// Returns default server configuration along with its certificate.
#[allow(clippy::field_reassign_with_default)] // https://github.com/rust-lang/rust-clippy/issues/6527
fn configure_server () -> anyhow::Result<(ServerConfig, Vec<u8>)> {
fn configure_server() -> anyhow::Result<(ServerConfig, Vec<u8>)> {
let cert = rcgen::generate_simple_self_signed(vec!["localhost".into()]).unwrap();
let cert_der = cert.serialize_der().unwrap();
let priv_key = cert.serialize_private_key_der();
let priv_key = rustls::PrivateKey (priv_key);
let cert_chain = vec! [rustls::Certificate (cert_der.clone ())];
let priv_key = PrivateKey::from_der(&priv_key)?;
let mut server_config = ServerConfig::with_single_cert (cert_chain, priv_key)?;
Arc::get_mut (&mut server_config.transport)
.unwrap ()
.max_concurrent_uni_streams (0_u8.into ());
let mut transport_config = TransportConfig::default();
transport_config.max_concurrent_uni_streams(0).unwrap();
let mut server_config = ServerConfig::default();
server_config.transport = Arc::new(transport_config);
let mut cfg_builder = ServerConfigBuilder::new(server_config);
let cert = Certificate::from_der(&cert_der)?;
cfg_builder.certificate(CertificateChain::from_certs(vec![cert]), priv_key)?;
Ok ((server_config, cert_der))
Ok((cfg_builder.build(), cert_der))
}

View File

@ -1,46 +1,36 @@
![The PTTH logo, a green box sitting on a black conveyor belt. The box has an arrow pointing left, and the text "PTTH", in white. The conveyor belt has an arrow pointing right, in white.](assets/logo-128-pixel.png)
TODO: "Splitting a server in half" diagram
# PTTH
PTTH is a web server.
A web server has:
1. A public host
2. Files to serve
**With PTTH, the files can live outside of the public host.**
If you want to host 1 TB of files, normally you'd put them on the
cloud server:
PTTH lets you run file servers from behind NAT / firewalls.
```
Cloud
HTTP server ----> 1 TB of files
^
Not cloud |
HTTP client
HTTP clients ptth_server instances
Firefox ---> | | <--- Server 1
Chromium --> | | <--- Server 2
Wget ------> | ptth_relay | <--- Server 3
Curl ------> | | <--- Server 4
Reqwest ---> | | <--- Server 5
```
But uploading 1 TB to the cloud is expensive and slow, even if
you're sending it to S3-like blob storage.
# Setup
With PTTH, the files can live outside of the cloud:
Pick a relay computer and a server computer.
```
Cloud
+-----> ptth_relay <------+
| |
Not cloud | |
HTTP client ptth_server
1 TB of files
```
The relay must be able to accept incoming HTTP connections. If the relay
will be exposed to the Internet, you should use Nginx, Caddy, or Apache as a
reverse proxy to terminate TLS in front of ptth_relay. Relays on the Internet
will typically have a domain name so that clients and servers can find them.
The PTTH server lives where the files live.
The cloud host runs a relay which streams files from the end
server as the client demands.
The server must have read access to the files you want to serve, and it must
be able to make outgoing HTTP(S) connections to the relay. The server
does not need a static IP, since it won't accept any incoming HTTP connections.
For home users, this can save you money - The relay server
doesn't need to store any of your files.
Begin installing PTTH. Run `cargo install ptth_relay` on the relay and
`cargo install ptth_server` on the server. ptth_server is manually tested on
Windows and Linux. ptth_relay is manually tested on Linux only.
- Run ptth_relay on cloud host
- Configure ptth_server for relay, with auto keygen
- Add tripcode to relay config

1
rust-toolchain Normal file
View File

@ -0,0 +1 @@
1.50.0

View File

@ -1,30 +0,0 @@
<html>
<head>
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<link href="data:image/x-icon;base64,AAABAAEAEBAQAAEABAAoAQAAFgAAACgAAAAQAAAAIAAAAAEABAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAlJSUAAGIAAP///wAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAAAAAAIiIiIgAAAAAAAAAgAAAAAAAAAAAAADIiIiIi
IiIjMhERERERESMyERERERERIzIREREREREjMhERIRERESMyERIiIiERIzIRESEREREjMhERERER
ESMyERERERERIzIREREREREjMiIiIiIiIiMAAAAAAAAAAAAAAAAAAAAAAAAAAIABAACAAQAAgAEA
AIABAACAAQAAgAEAAIABAACAAQAAgAEAAIABAACAAQAA" rel="icon" type="image/x-icon" />
<style>
body {
font-family: sans-serif;
}
#JNG5U2EX {
border: solid black 1px;
}
</style>
<title>Scope</title>
</head>
<body>
<pre id="JNG5U2EX"></pre>
<button onclick="cursor_left ()">Left</button>
<button onclick="cursor_right ()">Right</button>
<button onclick="cursor_up ()">Up</button>
<button onclick="cursor_down ()">Down</button>
<pre id="XDHSIT76"></pre>
<script src="scope.js"></script>
</body>
</html>

View File

@ -1,126 +0,0 @@
const sync_max = 512;
const textarea = document.getElementById ("JNG5U2EX");
const debug_text = document.getElementById ("XDHSIT76");
textarea.innerText = "Loading...";
let page = "";
let offset = 0;
function line_start_before (page, offset) {
const sync_start = Math.max (sync_max, offset) - sync_max;
for (let i = offset; i >= sync_start; i--) {
const c = page.charAt (i);
if (c == '\n') {
return i + 1;
}
}
return null;
}
function line_start_after (page, offset)
{
for (let i = offset; i < offset + sync_max; i++) {
const c = page.charAt (i);
if (c == '\n') {
return i + 1;
}
}
return null;
}
function layout_text (page, offset) {
const width = 120;
const height = 24;
const line_start = line_start_before (page, offset) || 0;
// Compute layout
let lines = Array ();
let line = "";
for (let i = line_start; i < page.length; i++) {
if (lines.length >= height) {
break;
}
if (line.length >= width) {
lines.push (line);
line = "";
}
const c = page.charAt (i);
if (c == '\n') {
lines.push (line);
line = "";
}
else {
line = line + page.charAt (i);
}
}
return lines.join ('\n');
}
function repaint (offset)
{
textarea.innerText = layout_text (page, offset);
debug_text.innerText = "Offset: " + offset + "\n";
}
async function async_main ()
{
let file_length = null;
{
const resp = await fetch ("log.txt", {
"method": "HEAD",
});
file_length = resp.headers.get ("content-length");
}
const resp = await fetch ("log.txt", {
"headers": {
"range": "bytes=0-65535",
},
});
page = await resp.text ();
repaint (offset);
}
async_main ().then (
function (val) {},
function (err) {}
);
function cursor_left ()
{
offset = Math.max (1, offset) - 1;
repaint (offset);
}
function cursor_right ()
{
offset += 1;
repaint (offset);
}
function cursor_up ()
{
offset = line_start_before (page, offset - 2) || 0;
repaint (offset);
}
function cursor_down ()
{
offset = line_start_after (page, offset);
repaint (offset);
}

View File

@ -1,7 +0,0 @@
#!/usr/bin/env bash
set -euo pipefail
cargo check --target x86_64-pc-windows-gnu -p ptth -p ptth_quic
cargo check --target x86_64-unknown-linux-gnu -p ptth -p ptth_quic
cargo test -p ptth -p ptth_quic

View File

@ -77,7 +77,7 @@ async fn main () -> anyhow::Result <()> {
let (stop_server_tx, stop_server_rx) = oneshot::channel ();
let task_server = {
spawn (async move {
ptth_server::run_server (config_file, stop_server_rx, None, None, None).await
ptth_server::run_server (config_file, stop_server_rx, None, None).await
})
};
@ -99,7 +99,7 @@ async fn main () -> anyhow::Result <()> {
let resp = client.get (&format! ("{}/frontend/servers/{}/files/COPYING", relay_url, server_name))
.send ().await.expect ("Couldn't find license").bytes ().await.expect ("Couldn't find license");
if blake3::hash (&resp) != [
if blake3::hash (&resp) != blake3::Hash::from ([
0xca, 0x02, 0x92, 0x78,
0x9c, 0x0a, 0x0e, 0xcb,
0xa7, 0x06, 0xf4, 0xb3,
@ -109,7 +109,7 @@ async fn main () -> anyhow::Result <()> {
0xc1, 0xd4, 0x32, 0xc5,
0x2c, 0x4a, 0xac, 0x1f,
0x1a, 0xbb, 0xa8, 0xef,
] {
]) {
panic! ("{}", String::from_utf8 (resp.to_vec ()).expect ("???"));
}

View File

@ -45,7 +45,7 @@ async fn testing_client_checks (
.send ();
let resp = tokio::time::timeout (Duration::from_secs (2), req).await.expect ("Request timed out").expect ("Couldn't find license").bytes ().await.expect ("Couldn't find license");
if blake3::hash (&resp) != [
if blake3::hash (&resp) != blake3::Hash::from ([
0xca, 0x02, 0x92, 0x78,
0x9c, 0x0a, 0x0e, 0xcb,
0xa7, 0x06, 0xf4, 0xb3,
@ -55,7 +55,7 @@ async fn testing_client_checks (
0xc1, 0xd4, 0x32, 0xc5,
0x2c, 0x4a, 0xac, 0x1f,
0x1a, 0xbb, 0xa8, 0xef,
] {
]) {
panic! ("{}", String::from_utf8 (resp.to_vec ()).expect ("???"));
}
@ -151,7 +151,7 @@ impl TestingServer {
let (stop_tx, stop_rx) = oneshot::channel ();
let task = {
spawn (async move {
ptth_server::run_server (config_file, stop_rx, None, None, None).await
ptth_server::run_server (config_file, stop_rx, None, None).await
})
};
@ -175,7 +175,7 @@ async fn end_to_end () {
//tracing_subscriber::fmt ().try_init ().ok ();
let relay_port = 40000;
let relay_port = 4000;
// No proxy
let proxy_port = relay_port;
let server_name = "aliens_wildland";

View File

@ -1,7 +1,6 @@
Interesting issues will get a unique ID with
`dd if=/dev/urandom bs=5 count=1 | base32`
- PTTH_QUIC: Report errors on client GUI (At least whether it's P2 or P4)
- Fix long-running downloads restarting in the middle
- [DMX6CO4G](issues/2021-01Jan/status-DMX6CO4G.md) fire-and-forget logs / key-value status data
- ptth_tail