use std::collections::HashSet; use std::sync::atomic::{AtomicUsize, Ordering}; use std::sync::{Arc, Mutex}; use failure::*; use chrono::{DateTime, Utc}; use futures::*; use futures::stream::Stream; use serde_json::{json, Value}; use tokio::io::AsyncReadExt; use tokio::sync::{mpsc, oneshot}; use proxmox::tools::digest_to_hex; use super::merge_known_chunks::{MergedChunkInfo, MergeKnownChunks}; use crate::backup::*; use crate::tools::futures::Canceller; use super::{HttpClient, H2Client}; pub struct BackupWriter { h2: H2Client, canceller: Canceller, } impl Drop for BackupWriter { fn drop(&mut self) { self.canceller.cancel(); } } pub struct BackupStats { pub size: u64, pub csum: [u8; 32], } impl BackupWriter { fn new(h2: H2Client, canceller: Canceller) -> Arc { Arc::new(Self { h2, canceller }) } pub async fn start( client: HttpClient, datastore: &str, backup_type: &str, backup_id: &str, backup_time: DateTime, debug: bool, ) -> Result, Error> { let param = json!({ "backup-type": backup_type, "backup-id": backup_id, "backup-time": backup_time.timestamp(), "store": datastore, "debug": debug }); let req = HttpClient::request_builder( client.server(), "GET", "/api2/json/backup", Some(param)).unwrap(); let (h2, canceller) = client.start_h2_connection(req, String::from(PROXMOX_BACKUP_PROTOCOL_ID_V1!())).await?; Ok(BackupWriter::new(h2, canceller)) } pub async fn get( &self, path: &str, param: Option, ) -> Result { self.h2.get(path, param).await } pub async fn put( &self, path: &str, param: Option, ) -> Result { self.h2.put(path, param).await } pub async fn post( &self, path: &str, param: Option, ) -> Result { self.h2.post(path, param).await } pub async fn upload_post( &self, path: &str, param: Option, content_type: &str, data: Vec, ) -> Result { self.h2.upload("POST", path, param, content_type, data).await } pub async fn send_upload_request( &self, method: &str, path: &str, param: Option, content_type: &str, data: Vec, ) -> Result { let request = H2Client::request_builder("localhost", method, path, param, Some(content_type)).unwrap(); let response_future = self.h2.send_request(request, Some(bytes::Bytes::from(data.clone()))).await?; Ok(response_future) } pub async fn upload_put( &self, path: &str, param: Option, content_type: &str, data: Vec, ) -> Result { self.h2.upload("PUT", path, param, content_type, data).await } pub async fn finish(self: Arc) -> Result<(), Error> { let h2 = self.h2.clone(); h2.post("finish", None) .map_ok(move |_| { self.canceller.cancel(); }) .await } pub fn force_close(self) { self.canceller.cancel(); } pub async fn upload_blob( &self, mut reader: R, file_name: &str, ) -> Result { let mut raw_data = Vec::new(); // fixme: avoid loading into memory reader.read_to_end(&mut raw_data)?; let csum = openssl::sha::sha256(&raw_data); let param = json!({"encoded-size": raw_data.len(), "file-name": file_name }); let size = raw_data.len() as u64; let _value = self.h2.upload("POST", "blob", Some(param), "application/octet-stream", raw_data).await?; Ok(BackupStats { size, csum }) } pub async fn upload_blob_from_data( &self, data: Vec, file_name: &str, crypt_config: Option>, compress: bool, sign_only: bool, ) -> Result { let blob = if let Some(ref crypt_config) = crypt_config { if sign_only { DataBlob::create_signed(&data, crypt_config, compress)? } else { DataBlob::encode(&data, Some(crypt_config), compress)? } } else { DataBlob::encode(&data, None, compress)? }; let raw_data = blob.into_inner(); let size = raw_data.len() as u64; let csum = openssl::sha::sha256(&raw_data); let param = json!({"encoded-size": size, "file-name": file_name }); let _value = self.h2.upload("POST", "blob", Some(param), "application/octet-stream", raw_data).await?; Ok(BackupStats { size, csum }) } pub async fn upload_blob_from_file>( &self, src_path: P, file_name: &str, crypt_config: Option>, compress: bool, ) -> Result { let src_path = src_path.as_ref(); let mut file = tokio::fs::File::open(src_path) .await .map_err(|err| format_err!("unable to open file {:?} - {}", src_path, err))?; let mut contents = Vec::new(); file.read_to_end(&mut contents) .await .map_err(|err| format_err!("unable to read file {:?} - {}", src_path, err))?; let blob = DataBlob::encode(&contents, crypt_config.as_ref().map(AsRef::as_ref), compress)?; let raw_data = blob.into_inner(); let size = raw_data.len() as u64; let csum = openssl::sha::sha256(&raw_data); let param = json!({ "encoded-size": size, "file-name": file_name, }); self.h2.upload("POST", "blob", Some(param), "application/octet-stream", raw_data).await?; Ok(BackupStats { size, csum }) } pub async fn upload_stream( &self, archive_name: &str, stream: impl Stream>, prefix: &str, fixed_size: Option, crypt_config: Option>, ) -> Result { let known_chunks = Arc::new(Mutex::new(HashSet::new())); 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); self.download_chunk_list(&index_path, archive_name, known_chunks.clone()).await?; let wid = self.h2.post(&index_path, Some(param)).await?.as_u64().unwrap(); let (chunk_count, size, _speed, csum) = Self::upload_chunk_info_stream( self.h2.clone(), wid, stream, &prefix, known_chunks.clone(), crypt_config, ) .await?; let param = json!({ "wid": wid , "chunk-count": chunk_count, "size": size, "csum": proxmox::tools::digest_to_hex(&csum), }); let _value = self.h2.post(&close_path, Some(param)).await?; Ok(BackupStats { size: size as u64, csum, }) } fn response_queue() -> ( mpsc::Sender, oneshot::Receiver> ) { let (verify_queue_tx, verify_queue_rx) = mpsc::channel(100); let (verify_result_tx, verify_result_rx) = oneshot::channel(); hyper::rt::spawn( verify_queue_rx .map(Ok::<_, Error>) .try_for_each(|response: h2::client::ResponseFuture| { response .map_err(Error::from) .and_then(H2Client::h2api_response) .map_ok(|result| println!("RESPONSE: {:?}", result)) .map_err(|err| format_err!("pipelined request failed: {}", err)) }) .map(|result| { let _ignore_closed_channel = verify_result_tx.send(result); }) ); (verify_queue_tx, verify_result_rx) } fn append_chunk_queue(h2: H2Client, wid: u64, path: String) -> ( mpsc::Sender<(MergedChunkInfo, Option)>, oneshot::Receiver> ) { let (verify_queue_tx, verify_queue_rx) = mpsc::channel(64); let (verify_result_tx, verify_result_rx) = oneshot::channel(); let h2_2 = h2.clone(); hyper::rt::spawn( verify_queue_rx .map(Ok::<_, Error>) .and_then(move |(merged_chunk_info, response): (MergedChunkInfo, Option)| { match (response, merged_chunk_info) { (Some(response), MergedChunkInfo::Known(list)) => { future::Either::Left( response .map_err(Error::from) .and_then(H2Client::h2api_response) .and_then(move |_result| { future::ok(MergedChunkInfo::Known(list)) }) ) } (None, MergedChunkInfo::Known(list)) => { future::Either::Right(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(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 request = H2Client::request_builder("localhost", "PUT", &path, None, Some("application/json")).unwrap(); 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) .map_ok(|_| ()) }) .map_err(|err| format_err!("pipelined request failed: {}", err)) } _ => unreachable!(), } }) .try_for_each(|_| future::ok(())) .map(|result| { let _ignore_closed_channel = verify_result_tx.send(result); }) ); (verify_queue_tx, verify_result_rx) } pub async fn download_chunk_list( &self, path: &str, archive_name: &str, known_chunks: Arc>>, ) -> Result<(), Error> { let param = json!({ "archive-name": archive_name }); let request = H2Client::request_builder("localhost", "GET", path, Some(param), None).unwrap(); let h2request = self.h2.send_request(request, None).await?; let resp = h2request.await?; let status = resp.status(); if !status.is_success() { H2Client::h2api_response(resp).await?; // raise error unreachable!(); } let mut body = resp.into_body(); let mut release_capacity = body.release_capacity().clone(); let mut stream = DigestListDecoder::new(body.map_err(Error::from)); while let Some(chunk) = stream.try_next().await? { let _ = release_capacity.release_capacity(chunk.len()); println!("GOT DOWNLOAD {}", digest_to_hex(&chunk)); known_chunks.lock().unwrap().insert(chunk); } Ok(()) } fn upload_chunk_info_stream( h2: H2Client, wid: u64, stream: impl Stream>, prefix: &str, known_chunks: Arc>>, crypt_config: Option>, ) -> impl Future> { let repeat = Arc::new(AtomicUsize::new(0)); let repeat2 = repeat.clone(); let stream_len = 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 is_fixed_chunk_size = prefix == "fixed"; let (upload_queue, upload_result) = Self::append_chunk_queue(h2.clone(), wid, append_chunk_path.to_owned()); let start_time = std::time::Instant::now(); let index_csum = Arc::new(Mutex::new(Some(openssl::sha::Sha256::new()))); let index_csum_2 = index_csum.clone(); 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 mut guard = index_csum.lock().unwrap(); let csum = guard.as_mut().unwrap(); let chunk_end = offset + chunk_len as u64; if !is_fixed_chunk_size { csum.update(&chunk_end.to_le_bytes()); } csum.update(digest); let chunk_is_known = known_chunks.contains(digest); if chunk_is_known { future::ok(MergedChunkInfo::Known(vec![(offset, *digest)])) } else { known_chunks.insert(*digest); future::ready(chunk_builder .build() .map(move |(chunk, digest)| MergedChunkInfo::New(ChunkInfo { chunk, digest, chunk_len: chunk_len as u64, offset, })) ) } }) .merge_known_chunks() .try_for_each(move |merged_chunk_info| { if let MergedChunkInfo::New(chunk_info) = merged_chunk_info { let offset = chunk_info.offset; let digest = chunk_info.digest; let digest_str = digest_to_hex(&digest); 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 ct = "application/octet-stream"; let request = H2Client::request_builder("localhost", "POST", &upload_chunk_path, Some(param), Some(ct)).unwrap(); let upload_data = Some(bytes::Bytes::from(chunk_data)); let new_info = MergedChunkInfo::Known(vec![(offset, digest)]); let mut upload_queue = upload_queue.clone(); future::Either::Left(h2 .send_request(request, upload_data) .and_then(move |response| async move { upload_queue .send((new_info, Some(response))) .await .map_err(Error::from) }) ) } else { let mut upload_queue = upload_queue.clone(); future::Either::Right(async move { upload_queue .send((merged_chunk_info, None)) .await .map_err(Error::from) }) } }) .then(move |result| async move { upload_result.await?.and(result) }.boxed()) .and_then(move |_| { let repeat = repeat2.load(Ordering::SeqCst); let stream_len = stream_len2.load(Ordering::SeqCst); let speed = ((stream_len*1_000_000)/(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)); } let mut guard = index_csum_2.lock().unwrap(); let csum = guard.take().unwrap().finish(); futures::future::ok((repeat, stream_len, speed, csum)) }) } pub async fn upload_speedtest(&self) -> Result { 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 mut repeat = 0; let (upload_queue, upload_result) = Self::response_queue(); let start_time = std::time::Instant::now(); loop { repeat += 1; if start_time.elapsed().as_secs() >= 5 { break; } let mut upload_queue = upload_queue.clone(); println!("send test data ({} bytes)", data.len()); let request = H2Client::request_builder("localhost", "POST", "speedtest", None, None).unwrap(); let request_future = self.h2.send_request(request, Some(bytes::Bytes::from(data.clone()))).await?; upload_queue.send(request_future).await?; } drop(upload_queue); // close queue let _ = upload_result.await?; println!("Uploaded {} chunks in {} seconds.", repeat, start_time.elapsed().as_secs()); let speed = ((item_len*1_000_000*(repeat as usize))/(1024*1024))/(start_time.elapsed().as_micros() as usize); println!("Time per request: {} microseconds.", (start_time.elapsed().as_micros())/(repeat as u128)); Ok(speed) } }