proxmox-backup/src/client/http_client.rs

1146 lines
42 KiB
Rust

use failure::*;
use http::Uri;
use hyper::Body;
use hyper::client::Client;
use xdg::BaseDirectories;
use chrono::{DateTime, Local, Utc};
use std::collections::HashSet;
use std::sync::{Arc, Mutex};
use std::io::Write;
use http::{Request, Response};
use http::header::HeaderValue;
use futures::*;
use futures::stream::Stream;
use std::sync::atomic::{AtomicUsize, Ordering};
use tokio::sync::mpsc;
use serde_json::{json, Value};
use url::percent_encoding::{percent_encode, DEFAULT_ENCODE_SET};
use crate::tools::{self, BroadcastFuture, tty};
use crate::tools::futures::{cancellable, Canceller};
use super::pipe_to_stream::*;
use super::merge_known_chunks::*;
use crate::backup::*;
#[derive(Clone)]
struct AuthInfo {
username: String,
ticket: String,
token: String,
}
/// HTTP(S) API client
pub struct HttpClient {
client: Client<hyper_tls::HttpsConnector<hyper::client::HttpConnector>>,
server: String,
auth: BroadcastFuture<AuthInfo>,
}
fn store_ticket_info(server: &str, username: &str, ticket: &str, token: &str) -> Result<(), Error> {
let base = BaseDirectories::with_prefix("proxmox-backup")?;
// usually /run/user/<uid>/...
let path = base.place_runtime_file("tickets")?;
let mode = nix::sys::stat::Mode::from_bits_truncate(0o0600);
let mut data = tools::file_get_json(&path, Some(json!({})))?;
let now = Utc::now().timestamp();
data[server][username] = json!({ "timestamp": now, "ticket": ticket, "token": token});
let mut new_data = json!({});
let ticket_lifetime = tools::ticket::TICKET_LIFETIME - 60;
let empty = serde_json::map::Map::new();
for (server, info) in data.as_object().unwrap_or(&empty) {
for (_user, uinfo) in info.as_object().unwrap_or(&empty) {
if let Some(timestamp) = uinfo["timestamp"].as_i64() {
let age = now - timestamp;
if age < ticket_lifetime {
new_data[server][username] = uinfo.clone();
}
}
}
}
tools::file_set_contents(path, new_data.to_string().as_bytes(), Some(mode))?;
Ok(())
}
fn load_ticket_info(server: &str, username: &str) -> Option<(String, String)> {
let base = match BaseDirectories::with_prefix("proxmox-backup") {
Ok(b) => b,
_ => return None,
};
// usually /run/user/<uid>/...
let path = match base.place_runtime_file("tickets") {
Ok(p) => p,
_ => return None,
};
let data = match tools::file_get_json(&path, None) {
Ok(v) => v,
_ => return None,
};
let now = Utc::now().timestamp();
let ticket_lifetime = tools::ticket::TICKET_LIFETIME - 60;
if let Some(uinfo) = data[server][username].as_object() {
if let Some(timestamp) = uinfo["timestamp"].as_i64() {
let age = now - timestamp;
if age < ticket_lifetime {
let ticket = match uinfo["ticket"].as_str() {
Some(t) => t,
None => return None,
};
let token = match uinfo["token"].as_str() {
Some(t) => t,
None => return None,
};
return Some((ticket.to_owned(), token.to_owned()));
}
}
}
None
}
impl HttpClient {
pub fn new(server: &str, username: &str) -> Result<Self, Error> {
let client = Self::build_client();
let password = if let Some((ticket, _token)) = load_ticket_info(server, username) {
ticket
} else {
Self::get_password(&username)?
};
let login = Self::credentials(client.clone(), server.to_owned(), username.to_owned(), password);
Ok(Self {
client,
server: String::from(server),
auth: BroadcastFuture::new(login),
})
}
fn get_password(_username: &str) -> Result<String, Error> {
use std::env::VarError::*;
match std::env::var("PBS_PASSWORD") {
Ok(p) => return Ok(p),
Err(NotUnicode(_)) => bail!("PBS_PASSWORD contains bad characters"),
Err(NotPresent) => {
// Try another method
}
}
// If we're on a TTY, query the user for a password
if tty::stdin_isatty() {
return Ok(String::from_utf8(tty::read_password("Password: ")?)?);
}
bail!("no password input mechanism available");
}
fn build_client() -> Client<hyper_tls::HttpsConnector<hyper::client::HttpConnector>> {
let mut builder = native_tls::TlsConnector::builder();
// FIXME: We need a CLI option for this!
builder.danger_accept_invalid_certs(true);
let tlsconnector = builder.build().unwrap();
let mut httpc = hyper::client::HttpConnector::new(1);
//httpc.set_nodelay(true); // not sure if this help?
httpc.enforce_http(false); // we want https...
let mut https = hyper_tls::HttpsConnector::from((httpc, tlsconnector));
https.https_only(true); // force it!
Client::builder()
//.http2_initial_stream_window_size( (1 << 31) - 2)
//.http2_initial_connection_window_size( (1 << 31) - 2)
.build::<_, Body>(https)
}
pub fn request(&self, mut req: Request<Body>) -> impl Future<Item=Value, Error=Error> {
let login = self.auth.listen();
let client = self.client.clone();
login.and_then(move |auth| {
let enc_ticket = format!("PBSAuthCookie={}", percent_encode(auth.ticket.as_bytes(), DEFAULT_ENCODE_SET));
req.headers_mut().insert("Cookie", HeaderValue::from_str(&enc_ticket).unwrap());
req.headers_mut().insert("CSRFPreventionToken", HeaderValue::from_str(&auth.token).unwrap());
let request = Self::api_request(client, req);
request
})
}
pub fn get(&self, path: &str, data: Option<Value>) -> impl Future<Item=Value, Error=Error> {
let req = Self::request_builder(&self.server, "GET", path, data).unwrap();
self.request(req)
}
pub fn delete(&mut self, path: &str, data: Option<Value>) -> impl Future<Item=Value, Error=Error> {
let req = Self::request_builder(&self.server, "DELETE", path, data).unwrap();
self.request(req)
}
pub fn post(&mut self, path: &str, data: Option<Value>) -> impl Future<Item=Value, Error=Error> {
let req = Self::request_builder(&self.server, "POST", path, data).unwrap();
self.request(req)
}
pub fn download<W: Write>(&mut self, path: &str, output: W) -> impl Future<Item=W, Error=Error> {
let mut req = Self::request_builder(&self.server, "GET", path, None).unwrap();
let login = self.auth.listen();
let client = self.client.clone();
login.and_then(move |auth| {
let enc_ticket = format!("PBSAuthCookie={}", percent_encode(auth.ticket.as_bytes(), DEFAULT_ENCODE_SET));
req.headers_mut().insert("Cookie", HeaderValue::from_str(&enc_ticket).unwrap());
client.request(req)
.map_err(Error::from)
.and_then(|resp| {
let status = resp.status();
if !status.is_success() {
future::Either::A(
HttpClient::api_response(resp)
.and_then(|_| { bail!("unknown error"); })
)
} else {
future::Either::B(
resp.into_body()
.map_err(Error::from)
.fold(output, move |mut acc, chunk| {
acc.write_all(&chunk)?;
Ok::<_, Error>(acc)
})
)
}
})
})
}
pub fn upload(&mut self, content_type: &str, body: Body, path: &str) -> impl Future<Item=Value, Error=Error> {
let path = path.trim_matches('/');
let url: Uri = format!("https://{}:8007/{}", &self.server, path).parse().unwrap();
let req = Request::builder()
.method("POST")
.uri(url)
.header("User-Agent", "proxmox-backup-client/1.0")
.header("Content-Type", content_type)
.body(body).unwrap();
self.request(req)
}
pub fn start_backup(
&self,
datastore: &str,
backup_type: &str,
backup_id: &str,
debug: bool,
) -> impl Future<Item=BackupClient, Error=Error> {
let param = json!({"backup-type": backup_type, "backup-id": backup_id, "store": datastore, "debug": debug});
let req = Self::request_builder(&self.server, "GET", "/api2/json/backup", Some(param)).unwrap();
self.start_h2_connection(req, String::from(PROXMOX_BACKUP_PROTOCOL_ID_V1!()))
.map(|(h2, canceller)| BackupClient::new(h2, canceller))
}
pub fn start_backup_reader(
&self,
datastore: &str,
backup_type: &str,
backup_id: &str,
backup_time: DateTime<Local>,
debug: bool,
) -> impl Future<Item=BackupReader, Error=Error> {
let param = json!({
"backup-type": backup_type,
"backup-id": backup_id,
"backup-time": backup_time.timestamp(),
"store": datastore,
"debug": debug,
});
let req = Self::request_builder(&self.server, "GET", "/api2/json/reader", Some(param)).unwrap();
self.start_h2_connection(req, String::from(PROXMOX_BACKUP_READER_PROTOCOL_ID_V1!()))
.map(|(h2, canceller)| BackupReader::new(h2, canceller))
}
pub fn start_h2_connection(
&self,
mut req: Request<Body>,
protocol_name: String,
) -> impl Future<Item=(H2Client, Canceller), Error=Error> {
let login = self.auth.listen();
let client = self.client.clone();
login.and_then(move |auth| {
let enc_ticket = format!("PBSAuthCookie={}", percent_encode(auth.ticket.as_bytes(), DEFAULT_ENCODE_SET));
req.headers_mut().insert("Cookie", HeaderValue::from_str(&enc_ticket).unwrap());
req.headers_mut().insert("UPGRADE", HeaderValue::from_str(&protocol_name).unwrap());
client.request(req)
.map_err(Error::from)
.and_then(|resp| {
let status = resp.status();
if status != http::StatusCode::SWITCHING_PROTOCOLS {
future::Either::A(Self::api_response(resp).and_then(|_| { bail!("unknown error"); }))
} else {
future::Either::B(resp.into_body().on_upgrade().map_err(Error::from))
}
})
.and_then(|upgraded| {
h2::client::handshake(upgraded).map_err(Error::from)
})
.and_then(|(h2, connection)| {
let connection = connection
.map_err(|_| panic!("HTTP/2.0 connection failed"));
let (connection, canceller) = cancellable(connection)?;
// A cancellable future returns an Option which is None when cancelled and
// Some when it finished instead, since we don't care about the return type we
// need to map it away:
let connection = connection.map(|_| ());
// Spawn a new task to drive the connection state
hyper::rt::spawn(connection);
// Wait until the `SendRequest` handle has available capacity.
Ok(h2.ready()
.map(move |c| (H2Client::new(c), canceller))
.map_err(Error::from))
})
.flatten()
})
}
fn credentials(
client: Client<hyper_tls::HttpsConnector<hyper::client::HttpConnector>>,
server: String,
username: String,
password: String,
) -> Box<dyn Future<Item=AuthInfo, Error=Error> + Send> {
let server2 = server.clone();
let create_request = futures::future::lazy(move || {
let data = json!({ "username": username, "password": password });
let req = Self::request_builder(&server, "POST", "/api2/json/access/ticket", Some(data)).unwrap();
Self::api_request(client, req)
});
let login_future = create_request
.and_then(move |cred| {
let auth = AuthInfo {
username: cred["data"]["username"].as_str().unwrap().to_owned(),
ticket: cred["data"]["ticket"].as_str().unwrap().to_owned(),
token: cred["data"]["CSRFPreventionToken"].as_str().unwrap().to_owned(),
};
let _ = store_ticket_info(&server2, &auth.username, &auth.ticket, &auth.token);
Ok(auth)
});
Box::new(login_future)
}
fn api_response(response: Response<Body>) -> impl Future<Item=Value, Error=Error> {
let status = response.status();
response
.into_body()
.concat2()
.map_err(Error::from)
.and_then(move |data| {
let text = String::from_utf8(data.to_vec()).unwrap();
if status.is_success() {
if text.len() > 0 {
let value: Value = serde_json::from_str(&text)?;
Ok(value)
} else {
Ok(Value::Null)
}
} else {
bail!("HTTP Error {}: {}", status, text);
}
})
}
fn api_request(
client: Client<hyper_tls::HttpsConnector<hyper::client::HttpConnector>>,
req: Request<Body>
) -> impl Future<Item=Value, Error=Error> {
client.request(req)
.map_err(Error::from)
.and_then(Self::api_response)
}
pub fn request_builder(server: &str, method: &str, path: &str, data: Option<Value>) -> Result<Request<Body>, Error> {
let path = path.trim_matches('/');
let url: Uri = format!("https://{}:8007/{}", server, path).parse()?;
if let Some(data) = data {
if method == "POST" {
let request = Request::builder()
.method(method)
.uri(url)
.header("User-Agent", "proxmox-backup-client/1.0")
.header(hyper::header::CONTENT_TYPE, "application/json")
.body(Body::from(data.to_string()))?;
return Ok(request);
} else {
let query = tools::json_object_to_query(data)?;
let url: Uri = format!("https://{}:8007/{}?{}", server, path, query).parse()?;
let request = Request::builder()
.method(method)
.uri(url)
.header("User-Agent", "proxmox-backup-client/1.0")
.header(hyper::header::CONTENT_TYPE, "application/x-www-form-urlencoded")
.body(Body::empty())?;
return Ok(request);
}
}
let request = Request::builder()
.method(method)
.uri(url)
.header("User-Agent", "proxmox-backup-client/1.0")
.header(hyper::header::CONTENT_TYPE, "application/x-www-form-urlencoded")
.body(Body::empty())?;
Ok(request)
}
}
pub struct BackupReader {
h2: H2Client,
canceller: Option<Canceller>,
}
impl Drop for BackupReader {
fn drop(&mut self) {
if let Some(canceller) = self.canceller.take() {
canceller.cancel();
}
}
}
impl BackupReader {
pub fn new(h2: H2Client, canceller: Canceller) -> Self {
Self { h2, canceller: Some(canceller) }
}
pub fn get(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
self.h2.get(path, param)
}
pub fn put(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
self.h2.put(path, param)
}
pub fn post(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
self.h2.post(path, param)
}
pub fn download<W: Write>(
&self,
file_name: &str,
output: W,
) -> impl Future<Item=W, Error=Error> {
let path = "download";
let param = json!({ "file-name": file_name });
self.h2.download(path, Some(param), output)
}
pub fn force_close(mut self) {
if let Some(canceller) = self.canceller.take() {
canceller.cancel();
}
}
}
pub struct BackupClient {
h2: H2Client,
canceller: Option<Canceller>,
}
impl Drop for BackupClient {
fn drop(&mut self) {
if let Some(canceller) = self.canceller.take() {
canceller.cancel();
}
}
}
impl BackupClient {
pub fn new(h2: H2Client, canceller: Canceller) -> Self {
Self { h2, canceller: Some(canceller) }
}
pub fn get(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
self.h2.get(path, param)
}
pub fn put(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
self.h2.put(path, param)
}
pub fn post(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
self.h2.post(path, param)
}
pub fn finish(mut self) -> impl Future<Item=(), Error=Error> {
let canceler = self.canceller.take().unwrap();
self.h2.clone().post("finish", None).map(move |_| {
canceler.cancel();
()
})
}
pub fn force_close(mut self) {
if let Some(canceller) = self.canceller.take() {
canceller.cancel();
}
}
pub fn upload_blob_from_data(
&self,
data: Vec<u8>,
file_name: &str,
crypt_config: Option<Arc<CryptConfig>>,
compress: bool,
) -> impl Future<Item=(), Error=Error> {
let h2 = self.h2.clone();
let file_name = file_name.to_owned();
futures::future::ok(())
.and_then(move |_| {
let blob = if let Some(ref crypt_config) = crypt_config {
DataBlob::encode(&data, Some(crypt_config), compress)?
} else {
DataBlob::encode(&data, None, compress)?
};
let raw_data = blob.into_inner();
Ok(raw_data)
})
.and_then(move |raw_data| {
let param = json!({"encoded-size": raw_data.len(), "file-name": file_name });
h2.upload("blob", Some(param), raw_data)
.map(|_| {})
})
}
pub fn upload_blob_from_file<P: AsRef<std::path::Path>>(
&self,
src_path: P,
file_name: &str,
crypt_config: Option<Arc<CryptConfig>>,
compress: bool,
) -> impl Future<Item=(), Error=Error> {
let h2 = self.h2.clone();
let file_name = file_name.to_owned();
let src_path = src_path.as_ref().to_owned();
let task = tokio::fs::File::open(src_path.clone())
.map_err(move |err| format_err!("unable to open file {:?} - {}", src_path, err))
.and_then(move |file| {
let contents = vec![];
tokio::io::read_to_end(file, contents)
.map_err(Error::from)
.and_then(move |(_, contents)| {
let blob = if let Some(ref crypt_config) = crypt_config {
DataBlob::encode(&contents, Some(crypt_config), compress)?
} else {
DataBlob::encode(&contents, None, compress)?
};
let raw_data = blob.into_inner();
Ok(raw_data)
})
.and_then(move |raw_data| {
let param = json!({"encoded-size": raw_data.len(), "file-name": file_name });
h2.upload("blob", Some(param), raw_data)
.map(|_| {})
})
});
task
}
pub fn upload_stream(
&self,
archive_name: &str,
stream: impl Stream<Item=bytes::BytesMut, Error=Error>,
prefix: &str,
fixed_size: Option<u64>,
crypt_config: Option<Arc<CryptConfig>>,
) -> impl Future<Item=(), Error=Error> {
let known_chunks = Arc::new(Mutex::new(HashSet::new()));
let h2 = self.h2.clone();
let h2_2 = self.h2.clone();
let h2_3 = self.h2.clone();
let h2_4 = self.h2.clone();
let mut param = json!({ "archive-name": archive_name });
if let Some(size) = fixed_size {
param["size"] = size.into();
}
let index_path = format!("{}_index", prefix);
let close_path = format!("{}_close", prefix);
let prefix = prefix.to_owned();
Self::download_chunk_list(h2, &index_path, archive_name, known_chunks.clone())
.and_then(move |_| {
h2_2.post(&index_path, Some(param))
})
.and_then(move |res| {
let wid = res.as_u64().unwrap();
Self::upload_chunk_info_stream(h2_3, wid, stream, &prefix, known_chunks.clone(), crypt_config)
.and_then(move |(chunk_count, size, _speed)| {
let param = json!({
"wid": wid ,
"chunk-count": chunk_count,
"size": size,
});
h2_4.post(&close_path, Some(param))
})
.map(|_| ())
})
}
fn response_queue() -> (
mpsc::Sender<h2::client::ResponseFuture>,
sync::oneshot::Receiver<Result<(), Error>>
) {
let (verify_queue_tx, verify_queue_rx) = mpsc::channel(100);
let (verify_result_tx, verify_result_rx) = sync::oneshot::channel();
hyper::rt::spawn(
verify_queue_rx
.map_err(Error::from)
.for_each(|response: h2::client::ResponseFuture| {
response
.map_err(Error::from)
.and_then(H2Client::h2api_response)
.and_then(|result| {
println!("RESPONSE: {:?}", result);
Ok(())
})
.map_err(|err| format_err!("pipelined request failed: {}", err))
})
.then(|result|
verify_result_tx.send(result)
)
.map_err(|_| { /* ignore closed channel */ })
);
(verify_queue_tx, verify_result_rx)
}
fn append_chunk_queue(h2: H2Client, wid: u64, path: String) -> (
mpsc::Sender<(MergedChunkInfo, Option<h2::client::ResponseFuture>)>,
sync::oneshot::Receiver<Result<(), Error>>
) {
let (verify_queue_tx, verify_queue_rx) = mpsc::channel(64);
let (verify_result_tx, verify_result_rx) = sync::oneshot::channel();
let h2_2 = h2.clone();
hyper::rt::spawn(
verify_queue_rx
.map_err(Error::from)
.and_then(move |(merged_chunk_info, response): (MergedChunkInfo, Option<h2::client::ResponseFuture>)| {
match (response, merged_chunk_info) {
(Some(response), MergedChunkInfo::Known(list)) => {
future::Either::A(
response
.map_err(Error::from)
.and_then(H2Client::h2api_response)
.and_then(move |_result| {
Ok(MergedChunkInfo::Known(list))
})
)
}
(None, MergedChunkInfo::Known(list)) => {
future::Either::B(future::ok(MergedChunkInfo::Known(list)))
}
_ => unreachable!(),
}
})
.merge_known_chunks()
.and_then(move |merged_chunk_info| {
match merged_chunk_info {
MergedChunkInfo::Known(chunk_list) => {
let mut digest_list = vec![];
let mut offset_list = vec![];
for (offset, digest) in chunk_list {
//println!("append chunk {} (offset {})", proxmox::tools::digest_to_hex(&digest), offset);
digest_list.push(proxmox::tools::digest_to_hex(&digest));
offset_list.push(offset);
}
println!("append chunks list len ({})", digest_list.len());
let param = json!({ "wid": wid, "digest-list": digest_list, "offset-list": offset_list });
let mut request = H2Client::request_builder("localhost", "PUT", &path, None).unwrap();
request.headers_mut().insert(hyper::header::CONTENT_TYPE, HeaderValue::from_static("application/json"));
let param_data = bytes::Bytes::from(param.to_string().as_bytes());
let upload_data = Some(param_data);
h2_2.send_request(request, upload_data)
.and_then(move |response| {
response
.map_err(Error::from)
.and_then(H2Client::h2api_response)
.and_then(|_| Ok(()))
})
.map_err(|err| format_err!("pipelined request failed: {}", err))
}
_ => unreachable!(),
}
})
.for_each(|_| Ok(()))
.then(|result|
verify_result_tx.send(result)
)
.map_err(|_| { /* ignore closed channel */ })
);
(verify_queue_tx, verify_result_rx)
}
fn download_chunk_list(
h2: H2Client,
path: &str,
archive_name: &str,
known_chunks: Arc<Mutex<HashSet<[u8;32]>>>,
) -> impl Future<Item=(), Error=Error> {
let param = json!({ "archive-name": archive_name });
let request = H2Client::request_builder("localhost", "GET", path, Some(param)).unwrap();
h2.send_request(request, None)
.and_then(move |response| {
response
.map_err(Error::from)
.and_then(move |resp| {
let status = resp.status();
if !status.is_success() {
future::Either::A(H2Client::h2api_response(resp).and_then(|_| { bail!("unknown error"); }))
} else {
future::Either::B(future::ok(resp.into_body()))
}
})
.and_then(move |mut body| {
let mut release_capacity = body.release_capacity().clone();
DigestListDecoder::new(body.map_err(Error::from))
.for_each(move |chunk| {
let _ = release_capacity.release_capacity(chunk.len());
println!("GOT DOWNLOAD {}", proxmox::tools::digest_to_hex(&chunk));
known_chunks.lock().unwrap().insert(chunk);
Ok(())
})
})
})
}
fn upload_chunk_info_stream(
h2: H2Client,
wid: u64,
stream: impl Stream<Item=bytes::BytesMut, Error=Error>,
prefix: &str,
known_chunks: Arc<Mutex<HashSet<[u8;32]>>>,
crypt_config: Option<Arc<CryptConfig>>,
) -> impl Future<Item=(usize, usize, usize), Error=Error> {
let repeat = std::sync::Arc::new(AtomicUsize::new(0));
let repeat2 = repeat.clone();
let stream_len = std::sync::Arc::new(AtomicUsize::new(0));
let stream_len2 = stream_len.clone();
let append_chunk_path = format!("{}_index", prefix);
let upload_chunk_path = format!("{}_chunk", prefix);
let (upload_queue, upload_result) = Self::append_chunk_queue(h2.clone(), wid, append_chunk_path.to_owned());
let start_time = std::time::Instant::now();
stream
.and_then(move |data| {
let chunk_len = data.len();
repeat.fetch_add(1, Ordering::SeqCst);
let offset = stream_len.fetch_add(chunk_len, Ordering::SeqCst) as u64;
let mut chunk_builder = DataChunkBuilder::new(data.as_ref())
.compress(true);
if let Some(ref crypt_config) = crypt_config {
chunk_builder = chunk_builder.crypt_config(crypt_config);
}
let mut known_chunks = known_chunks.lock().unwrap();
let digest = chunk_builder.digest();
let chunk_is_known = known_chunks.contains(digest);
if chunk_is_known {
Ok(MergedChunkInfo::Known(vec![(offset, *digest)]))
} else {
known_chunks.insert(*digest);
let chunk = chunk_builder.build()?;
Ok(MergedChunkInfo::New(ChunkInfo { chunk, chunk_len: chunk_len as u64, offset }))
}
})
.merge_known_chunks()
.for_each(move |merged_chunk_info| {
if let MergedChunkInfo::New(chunk_info) = merged_chunk_info {
let offset = chunk_info.offset;
let digest = *chunk_info.chunk.digest();
let digest_str = proxmox::tools::digest_to_hex(&digest);
let upload_queue = upload_queue.clone();
println!("upload new chunk {} ({} bytes, offset {})", digest_str,
chunk_info.chunk_len, offset);
let chunk_data = chunk_info.chunk.raw_data();
let param = json!({
"wid": wid,
"digest": digest_str,
"size": chunk_info.chunk_len,
"encoded-size": chunk_data.len(),
});
let request = H2Client::request_builder("localhost", "POST", &upload_chunk_path, Some(param)).unwrap();
let upload_data = Some(bytes::Bytes::from(chunk_data));
let new_info = MergedChunkInfo::Known(vec![(offset, digest)]);
future::Either::A(
h2.send_request(request, upload_data)
.and_then(move |response| {
upload_queue.clone().send((new_info, Some(response)))
.map(|_| ()).map_err(Error::from)
})
)
} else {
future::Either::B(
upload_queue.clone().send((merged_chunk_info, None))
.map(|_| ()).map_err(Error::from)
)
}
})
.then(move |result| {
println!("RESULT {:?}", result);
upload_result.map_err(Error::from).and_then(|upload1_result| {
Ok(upload1_result.and(result))
})
})
.flatten()
.and_then(move |_| {
let repeat = repeat2.load(Ordering::SeqCst);
let stream_len = stream_len2.load(Ordering::SeqCst);
let speed = ((stream_len*1000000)/(1024*1024))/(start_time.elapsed().as_micros() as usize);
println!("Uploaded {} chunks in {} seconds ({} MB/s).", repeat, start_time.elapsed().as_secs(), speed);
if repeat > 0 {
println!("Average chunk size was {} bytes.", stream_len/repeat);
println!("Time per request: {} microseconds.", (start_time.elapsed().as_micros())/(repeat as u128));
}
Ok((repeat, stream_len, speed))
})
}
pub fn upload_speedtest(&self) -> impl Future<Item=usize, Error=Error> {
let mut data = vec![];
// generate pseudo random byte sequence
for i in 0..1024*1024 {
for j in 0..4 {
let byte = ((i >> (j<<3))&0xff) as u8;
data.push(byte);
}
}
let item_len = data.len();
let repeat = std::sync::Arc::new(AtomicUsize::new(0));
let repeat2 = repeat.clone();
let (upload_queue, upload_result) = Self::response_queue();
let start_time = std::time::Instant::now();
let h2 = self.h2.clone();
futures::stream::repeat(data)
.take_while(move |_| {
repeat.fetch_add(1, Ordering::SeqCst);
Ok(start_time.elapsed().as_secs() < 5)
})
.for_each(move |data| {
let h2 = h2.clone();
let upload_queue = upload_queue.clone();
println!("send test data ({} bytes)", data.len());
let request = H2Client::request_builder("localhost", "POST", "speedtest", None).unwrap();
h2.send_request(request, Some(bytes::Bytes::from(data)))
.and_then(move |response| {
upload_queue.send(response)
.map(|_| ()).map_err(Error::from)
})
})
.then(move |result| {
println!("RESULT {:?}", result);
upload_result.map_err(Error::from).and_then(|upload1_result| {
Ok(upload1_result.and(result))
})
})
.flatten()
.and_then(move |_| {
let repeat = repeat2.load(Ordering::SeqCst);
println!("Uploaded {} chunks in {} seconds.", repeat, start_time.elapsed().as_secs());
let speed = ((item_len*1000000*(repeat as usize))/(1024*1024))/(start_time.elapsed().as_micros() as usize);
if repeat > 0 {
println!("Time per request: {} microseconds.", (start_time.elapsed().as_micros())/(repeat as u128));
}
Ok(speed)
})
}
}
#[derive(Clone)]
pub struct H2Client {
h2: h2::client::SendRequest<bytes::Bytes>,
}
impl H2Client {
pub fn new(h2: h2::client::SendRequest<bytes::Bytes>) -> Self {
Self { h2 }
}
pub fn get(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
let req = Self::request_builder("localhost", "GET", path, param).unwrap();
self.request(req)
}
pub fn put(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
let req = Self::request_builder("localhost", "PUT", path, param).unwrap();
self.request(req)
}
pub fn post(&self, path: &str, param: Option<Value>) -> impl Future<Item=Value, Error=Error> {
let req = Self::request_builder("localhost", "POST", path, param).unwrap();
self.request(req)
}
pub fn download<W: Write>(&self, path: &str, param: Option<Value>, output: W) -> impl Future<Item=W, Error=Error> {
let request = Self::request_builder("localhost", "GET", path, param).unwrap();
self.send_request(request, None)
.and_then(move |response| {
response
.map_err(Error::from)
.and_then(move |resp| {
let status = resp.status();
if !status.is_success() {
future::Either::A(
H2Client::h2api_response(resp)
.and_then(|_| { bail!("unknown error"); })
)
} else {
let mut body = resp.into_body();
let mut release_capacity = body.release_capacity().clone();
future::Either::B(
body
.map_err(Error::from)
.fold(output, move |mut acc, chunk| {
let _ = release_capacity.release_capacity(chunk.len());
acc.write_all(&chunk)?;
Ok::<_, Error>(acc)
})
)
}
})
})
}
pub fn upload(&self, path: &str, param: Option<Value>, data: Vec<u8>) -> impl Future<Item=Value, Error=Error> {
let request = Self::request_builder("localhost", "POST", path, param).unwrap();
self.h2.clone()
.ready()
.map_err(Error::from)
.and_then(move |mut send_request| {
let (response, stream) = send_request.send_request(request, false).unwrap();
PipeToSendStream::new(bytes::Bytes::from(data), stream)
.and_then(|_| {
response
.map_err(Error::from)
.and_then(Self::h2api_response)
})
})
}
fn request(
&self,
request: Request<()>,
) -> impl Future<Item=Value, Error=Error> {
self.send_request(request, None)
.and_then(move |response| {
response
.map_err(Error::from)
.and_then(Self::h2api_response)
})
}
fn send_request(
&self,
request: Request<()>,
data: Option<bytes::Bytes>,
) -> impl Future<Item=h2::client::ResponseFuture, Error=Error> {
self.h2.clone()
.ready()
.map_err(Error::from)
.and_then(move |mut send_request| {
if let Some(data) = data {
let (response, stream) = send_request.send_request(request, false).unwrap();
future::Either::A(PipeToSendStream::new(data, stream)
.and_then(move |_| {
future::ok(response)
}))
} else {
let (response, _stream) = send_request.send_request(request, true).unwrap();
future::Either::B(future::ok(response))
}
})
}
fn h2api_response(response: Response<h2::RecvStream>) -> impl Future<Item=Value, Error=Error> {
let status = response.status();
let (_head, mut body) = response.into_parts();
// The `release_capacity` handle allows the caller to manage
// flow control.
//
// Whenever data is received, the caller is responsible for
// releasing capacity back to the server once it has freed
// the data from memory.
let mut release_capacity = body.release_capacity().clone();
body
.map(move |chunk| {
// Let the server send more data.
let _ = release_capacity.release_capacity(chunk.len());
chunk
})
.concat2()
.map_err(Error::from)
.and_then(move |data| {
let text = String::from_utf8(data.to_vec()).unwrap();
if status.is_success() {
if text.len() > 0 {
let mut value: Value = serde_json::from_str(&text)?;
if let Some(map) = value.as_object_mut() {
if let Some(data) = map.remove("data") {
return Ok(data);
}
}
bail!("got result without data property");
} else {
Ok(Value::Null)
}
} else {
bail!("HTTP Error {}: {}", status, text);
}
})
}
// Note: We always encode parameters with the url
pub fn request_builder(server: &str, method: &str, path: &str, data: Option<Value>) -> Result<Request<()>, Error> {
let path = path.trim_matches('/');
if let Some(data) = data {
let query = tools::json_object_to_query(data)?;
// We detected problem with hyper around 6000 characters - seo we try to keep on the safe side
if query.len() > 4096 { bail!("h2 query data too large ({} bytes) - please encode data inside body", query.len()); }
let url: Uri = format!("https://{}:8007/{}?{}", server, path, query).parse()?;
let request = Request::builder()
.method(method)
.uri(url)
.header("User-Agent", "proxmox-backup-client/1.0")
.header(hyper::header::CONTENT_TYPE, "application/x-www-form-urlencoded")
.body(())?;
return Ok(request);
} else {
let url: Uri = format!("https://{}:8007/{}", server, path).parse()?;
let request = Request::builder()
.method(method)
.uri(url)
.header("User-Agent", "proxmox-backup-client/1.0")
.header(hyper::header::CONTENT_TYPE, "application/x-www-form-urlencoded")
.body(())?;
Ok(request)
}
}
}