271 lines
12 KiB
C++
271 lines
12 KiB
C++
//
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// Created by WolverinDEV on 04/05/2020.
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//
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#include <cassert>
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#include <event2/event.h>
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#include <log/LogUtils.h>
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#include "./LocalFileProvider.h"
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#include "./LocalFileTransfer.h"
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using namespace ts::server::file;
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using namespace ts::server::file::transfer;
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ClientWorkerStartResult LocalFileTransfer::start_client_worker() {
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assert(!this->disconnect.active);
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this->disconnect.active = true;
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this->disconnect.dispatch_thread = std::thread(&LocalFileTransfer::dispatch_loop_client_worker, this);
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return ClientWorkerStartResult::SUCCESS;
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}
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void LocalFileTransfer::shutdown_client_worker() {
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if(!this->disconnect.active) return;
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this->disconnect.active = false;
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this->disconnect.notify_cv.notify_all();
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if(this->disconnect.dispatch_thread.joinable())
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this->disconnect.dispatch_thread.join();
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{
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std::unique_lock tlock{this->transfers_mutex};
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if(!this->transfers_.empty())
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logWarning(LOG_FT, "Shutting down disconnect worker even thou we still have some active clients. This could cause memory leaks.");
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}
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}
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void LocalFileTransfer::disconnect_client(const std::shared_ptr<FileClient> &client, std::unique_lock<std::shared_mutex>& state_lock, bool flush) {
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assert(state_lock.owns_lock());
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if(client->state == FileClient::STATE_DISCONNECTED || (client->state == FileClient::STATE_FLUSHING && flush)) {
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return; /* shall NOT happen */
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}
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#define del_ev_noblock(event) if(event) event_del_noblock(event)
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client->state = flush ? FileClient::STATE_FLUSHING : FileClient::STATE_DISCONNECTED;
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client->timings.disconnecting = std::chrono::system_clock::now();
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if(flush) {
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const auto network_flush_time = client->networking.throttle.expected_writing_time(client->network_buffer.bytes) + std::chrono::seconds{10};
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del_ev_noblock(client->networking.event_read);
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client->networking.disconnect_timeout = std::chrono::system_clock::now() + network_flush_time;
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debugMessage(LOG_FT, "{} Disconnecting client. Flushing pending bytes (max {} seconds)", client->log_prefix(), std::chrono::floor<std::chrono::seconds>(network_flush_time).count());
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client->add_network_write_event_nolock(false);
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this->enqueue_disk_io(client);
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} else {
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del_ev_noblock(client->networking.event_read);
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del_ev_noblock(client->networking.event_write);
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del_ev_noblock(client->networking.event_throttle);
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this->disconnect.notify_cv.notify_one();
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}
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#undef del_ev_noblock
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}
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void LocalFileTransfer::test_disconnecting_state(const std::shared_ptr<FileClient> &client) {
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if(client->state != FileClient::STATE_FLUSHING)
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return;
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if(!client->buffers_flushed())
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return;
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debugMessage(LOG_FT, "{} Disk and network buffers are flushed. Closing connection.", client->log_prefix());
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std::unique_lock s_lock{client->state_mutex};
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this->disconnect_client(client, s_lock, false);
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}
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void LocalFileTransfer::dispatch_loop_client_worker(void *ptr_transfer) {
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auto provider = reinterpret_cast<LocalFileTransfer*>(ptr_transfer);
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while(provider->disconnect.active) {
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{
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std::unique_lock dlock{provider->disconnect.mutex};
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provider->disconnect.notify_cv.wait_for(dlock, std::chrono::milliseconds {500}); /* report all 500ms the statistics */
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}
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/* run the disconnect worker at least once before exiting */
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/* transfer statistics */
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{
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std::unique_lock tlock{provider->transfers_mutex};
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auto transfers = provider->transfers_;
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tlock.unlock();
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for(const auto& transfer : transfers) {
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switch(transfer->state) {
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case FileClient::STATE_TRANSFERRING:
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break;
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case FileClient::STATE_FLUSHING:
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if(!transfer->transfer)
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continue;
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if(transfer->transfer->direction != Transfer::DIRECTION_DOWNLOAD)
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continue;
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if(transfer->buffers_flushed())
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continue;
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break; /* we're still transferring (sending data) */
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case FileClient::STATE_AWAITING_KEY:
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case FileClient::STATE_DISCONNECTED:
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default:
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continue;
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}
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provider->report_transfer_statistics(transfer);
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}
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}
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{
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std::deque<std::shared_ptr<Transfer>> timeouted_transfers{};
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{
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std::unique_lock tlock{provider->transfers_mutex};
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auto now = std::chrono::system_clock::now();
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std::copy_if(provider->pending_transfers.begin(), provider->pending_transfers.end(), std::back_inserter(timeouted_transfers), [&](const std::shared_ptr<Transfer>& t) {
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return t->initialized_timestamp + std::chrono::seconds{10} < now;
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});
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provider->pending_transfers.erase(std::remove_if(provider->pending_transfers.begin(), provider->pending_transfers.end(), [&](const auto& t) {
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return std::find(timeouted_transfers.begin(), timeouted_transfers.end(), t) != timeouted_transfers.end();
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}), provider->pending_transfers.end());
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}
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for(const auto& pt : timeouted_transfers)
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provider->invoke_aborted_callback(pt, { TransferError::TRANSFER_TIMEOUT, "" });
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if(!timeouted_transfers.empty())
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logMessage(LOG_FT, "Removed {} pending transfers because no request has been made for them.", timeouted_transfers.size());
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}
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{
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std::deque<std::shared_ptr<FileClient>> disconnected_clients{};
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{
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std::unique_lock tlock{provider->transfers_mutex};
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auto now = std::chrono::system_clock::now();
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std::copy_if(provider->transfers_.begin(), provider->transfers_.end(), std::back_inserter(disconnected_clients), [&](const std::shared_ptr<FileClient>& t) {
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std::shared_lock slock{t->state_mutex};
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if(t->state == FileClient::STATE_DISCONNECTED) {
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return true;
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} else if(t->state == FileClient::STATE_AWAITING_KEY) {
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return t->timings.connected + std::chrono::seconds{10} < now;
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} else if(t->state == FileClient::STATE_TRANSFERRING) {
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assert(t->transfer);
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if(t->transfer->direction == Transfer::DIRECTION_UPLOAD) {
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return t->timings.last_read + std::chrono::seconds{5} < now;
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} else if(t->transfer->direction == Transfer::DIRECTION_DOWNLOAD) {
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return t->timings.last_write + std::chrono::seconds{5} < now;
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}
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} else if(t->state == FileClient::STATE_FLUSHING) {
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if(t->networking.disconnect_timeout.time_since_epoch().count() > 0)
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return t->networking.disconnect_timeout + std::chrono::seconds{5} < now;
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return t->timings.disconnecting + std::chrono::seconds{30} < now;
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}
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return false;
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});
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provider->transfers_.erase(std::remove_if(provider->transfers_.begin(), provider->transfers_.end(), [&](const auto& t) {
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return std::find(disconnected_clients.begin(), disconnected_clients.end(), t) != disconnected_clients.end();
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}), provider->transfers_.end());
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}
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for(auto& client : disconnected_clients) {
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switch(client->state) {
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case FileClient::STATE_AWAITING_KEY:
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logMessage(LOG_FT, "{} Received no key. Dropping client.", client->log_prefix());
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break;
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case FileClient::STATE_TRANSFERRING:
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logMessage(LOG_FT, "{} Networking timeout. Dropping client", client->log_prefix());
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provider->invoke_aborted_callback(client, { TransferError::TRANSFER_TIMEOUT, "" });
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break;
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case FileClient::STATE_FLUSHING:
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if(!client->buffers_flushed())
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logMessage(LOG_FT, "{} Failed to flush connection. Dropping client", client->log_prefix());
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else
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; /* we just awaited a client disconnect */
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break;
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case FileClient::STATE_DISCONNECTED:
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default:
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break;
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}
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{
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std::unique_lock slock{client->state_mutex};
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client->state = FileClient::STATE_DISCONNECTED;
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/*
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* First of all disconnect the client from the network so no actions could be triggered by that way.
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* Secondly finalize all network components, so no data is pending anywhere
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* Thirdly drop the client's disk worker (if it's an upload the data should be written already, else we don't care anyways)
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*/
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provider->finalize_networking(client, slock);
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provider->finalize_client_ssl(client);
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provider->finalize_file_io(client, slock);
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}
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debugMessage(LOG_FT, "{} Destroying transfer.", client->log_prefix());
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}
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}
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}
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}
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void LocalFileTransfer::report_transfer_statistics(const std::shared_ptr<FileClient> &client) {
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auto callback{this->callback_transfer_statistics};
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if(!callback) return;
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callback(client->transfer, this->generate_transfer_statistics_report(client));
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}
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TransferStatistics LocalFileTransfer::generate_transfer_statistics_report(const std::shared_ptr<FileClient> &client) {
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TransferStatistics stats{};
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stats.network_bytes_send = client->statistics.network_send.total_bytes;
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stats.network_bytes_received = client->statistics.network_received.total_bytes;
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stats.file_bytes_transferred = client->statistics.file_transferred.total_bytes;
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stats.delta_network_bytes_received = client->statistics.network_received.take_delta();
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stats.delta_network_bytes_send = client->statistics.network_received.take_delta();
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stats.delta_file_bytes_transferred = client->statistics.file_transferred.take_delta();
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stats.file_start_offset = client->transfer->file_offset;
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stats.file_current_offset = client->statistics.file_transferred.total_bytes + client->transfer->file_offset;
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stats.file_total_size = client->transfer->expected_file_size;
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stats.average_speed = client->statistics.file_transferred.average_bandwidth();
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stats.current_speed = client->statistics.file_transferred.current_bandwidth();
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return stats;
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}
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void LocalFileTransfer::invoke_aborted_callback(const std::shared_ptr<FileClient> &client,
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const ts::server::file::transfer::TransferError &error) {
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auto callback{this->callback_transfer_aborted};
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if(!callback || !client->transfer) return;
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callback(client->transfer, this->generate_transfer_statistics_report(client), error);
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}
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void LocalFileTransfer::invoke_aborted_callback(const std::shared_ptr<Transfer> &transfer,
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const ts::server::file::transfer::TransferError &error) {
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auto callback{this->callback_transfer_aborted};
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if(!callback) return;
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TransferStatistics stats{};
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stats.network_bytes_send = 0;
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stats.network_bytes_received = 0;
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stats.file_bytes_transferred = 0;
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stats.delta_network_bytes_received = 0;
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stats.delta_network_bytes_send = 0;
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stats.delta_file_bytes_transferred = 0;
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stats.file_start_offset = transfer->file_offset;
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stats.file_current_offset = transfer->file_offset;
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stats.file_total_size = transfer->expected_file_size;
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callback(transfer, stats, error);
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} |