395 lines
16 KiB
C++
395 lines
16 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 <random>
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#include "./LocalFileProvider.h"
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#include "./LocalFileTransfer.h"
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#include <experimental/filesystem>
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namespace fs = std::experimental::filesystem;
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using namespace ts::server::file;
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using namespace ts::server::file::transfer;
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Buffer* transfer::allocate_buffer(size_t size) {
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auto total_size = sizeof(Buffer) + size;
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auto buffer = (Buffer*) malloc(total_size);
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new (buffer) Buffer{};
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buffer->capacity = size;
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buffer->ref_count = 1;
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return buffer;
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}
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Buffer* transfer::ref_buffer(Buffer *buffer) {
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buffer->ref_count++;
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return buffer;
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}
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void transfer::deref_buffer(Buffer *buffer) {
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if(--buffer->ref_count == 0) {
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buffer->~Buffer();
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free(buffer);
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}
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}
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FileClient::~FileClient() {
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this->flush_network_buffer();
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this->flush_disk_buffer();
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assert(!this->disk_buffer.buffer_head);
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assert(!this->network_buffer.buffer_head);
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assert(!this->file.file_descriptor);
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assert(!this->file.currently_processing);
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assert(!this->file.next_client);
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assert(!this->networking.event_read);
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assert(!this->networking.event_write);
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assert(this->state == STATE_DISCONNECTED);
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memtrack::freed<FileClient>(this);
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}
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LocalFileTransfer::LocalFileTransfer(filesystem::LocalFileSystem *fs) : file_system_{fs} {}
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LocalFileTransfer::~LocalFileTransfer() = default;
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bool LocalFileTransfer::start() {
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(void) this->start_client_worker();
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{
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auto start_result = this->start_disk_io();
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switch (start_result) {
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case DiskIOStartResult::SUCCESS:
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break;
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case DiskIOStartResult::OUT_OF_MEMORY:
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logError(LOG_FT, "Failed to start disk worker (Out of memory)");
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goto error_exit_disk;
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default:
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logError(LOG_FT, "Failed to start disk worker ({})", (int) start_result);
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goto error_exit_disk;
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}
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}
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{
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auto start_result = this->start_networking();
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switch (start_result) {
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case NetworkingStartResult::SUCCESS:
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break;
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case NetworkingStartResult::OUT_OF_MEMORY:
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logError(LOG_FT, "Failed to start networking (Out of memory)");
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goto error_exit_network;
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default:
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logError(LOG_FT, "Failed to start networking ({})", (int) start_result);
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goto error_exit_network;
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}
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}
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return true;
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error_exit_network:
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this->shutdown_networking();
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error_exit_disk:
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this->shutdown_disk_io();
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this->shutdown_client_worker();
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return false;
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}
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void LocalFileTransfer::stop() {
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this->shutdown_networking();
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this->shutdown_disk_io();
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this->shutdown_client_worker();
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}
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std::shared_ptr<ExecuteResponse<TransferInitError, std::shared_ptr<Transfer>>>
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LocalFileTransfer::initialize_icon_transfer(Transfer::Direction direction, const std::shared_ptr<VirtualFileServer> &server, const TransferInfo &info) {
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return this->initialize_transfer(direction, server, 0, Transfer::TARGET_TYPE_ICON, info);
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}
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std::shared_ptr<ExecuteResponse<TransferInitError, std::shared_ptr<Transfer>>>
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LocalFileTransfer::initialize_avatar_transfer(Transfer::Direction direction, const std::shared_ptr<VirtualFileServer> &server, const TransferInfo &info) {
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return this->initialize_transfer(direction, server, 0, Transfer::TARGET_TYPE_AVATAR, info);
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}
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std::shared_ptr<ExecuteResponse<TransferInitError, std::shared_ptr<Transfer>>>
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LocalFileTransfer::initialize_channel_transfer(Transfer::Direction direction, const std::shared_ptr<VirtualFileServer> &server, ChannelId cid, const TransferInfo &info) {
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return this->initialize_transfer(direction, server, cid, Transfer::TARGET_TYPE_CHANNEL_FILE, info);
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}
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std::shared_ptr<ExecuteResponse<TransferInitError, std::shared_ptr<Transfer>>> LocalFileTransfer::initialize_transfer(
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Transfer::Direction direction, const std::shared_ptr<VirtualFileServer> &server, ChannelId cid,
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Transfer::TargetType ttype,
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const TransferInfo &info) {
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auto response = this->create_execute_response<TransferInitError, std::shared_ptr<Transfer>>();
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std::lock_guard clock{this->transfer_create_mutex};
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if(info.max_concurrent_transfers > 0) {
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std::unique_lock tlock{this->transfers_mutex};
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{
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auto transfers = std::count_if(this->transfers_.begin(), this->transfers_.end(), [&](const std::shared_ptr<FileClient>& client) {
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return client->transfer && client->transfer->client_unique_id == info.client_unique_id && client->state < FileClient::STATE_FLUSHING;
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});
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transfers += std::count_if(this->pending_transfers.begin(), this->pending_transfers.end(), [&](const std::shared_ptr<Transfer>& transfer) {
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return transfer->client_unique_id == info.client_unique_id;
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});
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if(transfers >= info.max_concurrent_transfers) {
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response->emplace_fail(TransferInitError::CLIENT_TOO_MANY_TRANSFERS, std::to_string(transfers));
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return response;
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}
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}
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{
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auto server_transfers = this->pending_transfers.size();
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server_transfers += std::count_if(this->transfers_.begin(), this->transfers_.end(), [&](const std::shared_ptr<FileClient>& client) {
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return client->transfer;
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});
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if(server_transfers >= this->max_concurrent_transfers) {
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response->emplace_fail(TransferInitError::SERVER_TOO_MANY_TRANSFERS, std::to_string(server_transfers));
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return response;
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}
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}
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}
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auto transfer = std::make_shared<Transfer>();
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transfer->server_transfer_id = server->generate_transfer_id();
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transfer->server = server;
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transfer->channel_id = cid;
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transfer->target_type = ttype;
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transfer->direction = direction;
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transfer->client_id = 0; /* must be provided externally */
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transfer->client_transfer_id = 0; /* must be provided externally */
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transfer->server_addresses.reserve(this->network.bindings.size());
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for(auto& binding : this->network.bindings) {
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if(!binding->file_descriptor) continue;
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transfer->server_addresses.emplace_back(Transfer::Address{binding->hostname, net::port(binding->address)});
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}
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transfer->target_file_path = info.file_path;
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transfer->file_offset = info.file_offset;
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transfer->expected_file_size = info.expected_file_size;
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transfer->max_bandwidth = info.max_bandwidth;
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transfer->client_unique_id = info.client_unique_id;
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transfer->client_id = info.client_id;
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constexpr static std::string_view kTokenCharacters{"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"};
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transfer->transfer_key.resize(TRANSFER_KEY_LENGTH);
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for(auto& c : transfer->transfer_key) {
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c = kTokenCharacters[transfer_random_token_generator() % kTokenCharacters.length()];
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}
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transfer->transfer_key[0] = (char) 'r'; /* (114) */ /* a non valid SSL header type to indicate that we're using a file transfer key and not doing a SSL handshake */
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transfer->transfer_key[1] = (char) 'a'; /* ( 97) */
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transfer->transfer_key[2] = (char) 'w'; /* (119) */
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transfer->initialized_timestamp = std::chrono::system_clock::now();
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{
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std::string absolute_path{};
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switch (transfer->target_type) {
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case Transfer::TARGET_TYPE_AVATAR:
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absolute_path = this->file_system_->absolute_avatar_path(transfer->server, transfer->target_file_path);
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break;
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case Transfer::TARGET_TYPE_ICON:
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absolute_path = this->file_system_->absolute_icon_path(transfer->server, transfer->target_file_path);
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break;
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case Transfer::TARGET_TYPE_CHANNEL_FILE:
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absolute_path = this->file_system_->absolute_channel_path(transfer->server, transfer->channel_id, transfer->target_file_path);
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break;
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case Transfer::TARGET_TYPE_UNKNOWN:
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default:
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response->emplace_fail(TransferInitError::INVALID_FILE_TYPE, "");
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return response;
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}
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transfer->absolute_file_path = absolute_path;
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const auto root_path_length = this->file_system_->root_path().size();
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if(root_path_length < absolute_path.size())
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transfer->relative_file_path = absolute_path.substr(root_path_length);
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else
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transfer->relative_file_path = "error";
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transfer->file_name = fs::u8path(absolute_path).filename();
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}
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if(direction == Transfer::DIRECTION_DOWNLOAD) {
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auto path = fs::u8path(transfer->absolute_file_path);
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std::error_code error{};
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if(!fs::exists(path, error)) {
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response->emplace_fail(TransferInitError::FILE_DOES_NOT_EXISTS, "");
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return response;
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} else if(error) {
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logWarning(LOG_FT, "Failed to check for file at {}: {}. Assuming it does not exists.", transfer->absolute_file_path, error.value(), error.message());
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response->emplace_fail(TransferInitError::FILE_DOES_NOT_EXISTS, "");
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return response;
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}
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auto status = fs::status(path, error);
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if(error) {
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logWarning(LOG_FT, "Failed to status for file at {}: {}. Ignoring file transfer.", transfer->absolute_file_path, error.value(), error.message());
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response->emplace_fail(TransferInitError::IO_ERROR, "stat");
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return response;
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}
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if(status.type() != fs::file_type::regular) {
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response->emplace_fail(TransferInitError::FILE_IS_NOT_A_FILE, "");
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return response;
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}
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transfer->expected_file_size = fs::file_size(path, error);
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if(error) {
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logWarning(LOG_FT, "Failed to get file size for file at {}: {}. Ignoring file transfer.", transfer->absolute_file_path, error.value(), error.message());
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response->emplace_fail(TransferInitError::IO_ERROR, "file_size");
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return response;
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}
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if(info.download_client_quota_limit > 0 && info.download_client_quota_limit <= transfer->expected_file_size) {
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response->emplace_fail(TransferInitError::CLIENT_QUOTA_EXCEEDED, "");
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return response;
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}
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if(info.download_server_quota_limit > 0 && info.download_server_quota_limit <= transfer->expected_file_size) {
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response->emplace_fail(TransferInitError::SERVER_QUOTA_EXCEEDED, "");
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return response;
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}
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}
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{
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std::lock_guard tlock{this->transfers_mutex};
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this->pending_transfers.push_back(transfer);
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}
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switch (transfer->target_type) {
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case Transfer::TARGET_TYPE_AVATAR:
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logMessage(LOG_FT, "Initialized avatar transfer for avatar \"{}\" ({} bytes, transferring {} bytes).", transfer->target_file_path, transfer->expected_file_size, transfer->expected_file_size - transfer->file_offset);
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break;
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case Transfer::TARGET_TYPE_ICON:
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logMessage(LOG_FT, "Initialized icon transfer for icon \"{}\" ({} bytes, transferring {} bytes).",
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transfer->target_file_path, transfer->expected_file_size, transfer->expected_file_size - transfer->file_offset);
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break;
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case Transfer::TARGET_TYPE_CHANNEL_FILE:
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logMessage(LOG_FT, "Initialized channel transfer for file \"{}/{}\" ({} bytes, transferring {} bytes).",
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transfer->channel_id, transfer->target_file_path, transfer->expected_file_size, transfer->expected_file_size - transfer->file_offset);
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break;
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case Transfer::TARGET_TYPE_UNKNOWN:
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default:
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response->emplace_fail(TransferInitError::INVALID_FILE_TYPE, "");
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return response;
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}
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if(auto callback{this->callback_transfer_registered}; callback)
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callback(transfer);
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response->emplace_success(std::move(transfer));
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return response;
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}
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std::shared_ptr<ExecuteResponse<TransferActionError>> LocalFileTransfer::stop_transfer(const std::shared_ptr<VirtualFileServer>& server, transfer_id id, bool flush) {
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auto response = this->create_execute_response<TransferActionError>();
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std::shared_ptr<Transfer> transfer{};
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std::shared_ptr<FileClient> connected_transfer{};
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{
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std::lock_guard tlock{this->transfers_mutex};
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auto ct_it = std::find_if(this->transfers_.begin(), this->transfers_.end(), [&](const std::shared_ptr<FileClient>& t) {
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return t->transfer && t->transfer->server_transfer_id == id && t->transfer->server == server;
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});
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if(ct_it != this->transfers_.end())
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connected_transfer = *ct_it;
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else {
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auto t_it = std::find_if(this->pending_transfers.begin(), this->pending_transfers.end(), [&](const std::shared_ptr<Transfer>& t) {
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return t->server_transfer_id == id && t->server == server;
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});
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if(t_it != this->pending_transfers.end()) {
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transfer = *t_it;
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this->pending_transfers.erase(t_it);
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}
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}
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}
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if(!transfer) {
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if(connected_transfer)
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transfer = connected_transfer->transfer;
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else {
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response->emplace_fail(TransferActionError{TransferActionError::UNKNOWN_TRANSFER, ""});
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return response;
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}
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}
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if(connected_transfer) {
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this->invoke_aborted_callback(connected_transfer, { TransferError::USER_REQUEST, "" });
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logMessage(LOG_FT, "{} Stopping transfer due to an user request.", connected_transfer->log_prefix());
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std::unique_lock slock{connected_transfer->state_mutex};
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this->disconnect_client(connected_transfer, slock, flush);
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} else {
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this->invoke_aborted_callback(transfer, { TransferError::USER_REQUEST, "" });
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logMessage(LOG_FT, "Removing pending file transfer for id {}", id);
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}
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response->emplace_success();
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return response;
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}
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inline void apply_transfer_info(const std::shared_ptr<Transfer>& transfer, ActiveFileTransfer& info) {
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info.server_transfer_id = transfer->server_transfer_id;
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info.client_transfer_id = transfer->client_transfer_id;
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info.direction = transfer->direction;
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info.client_id = transfer->client_id;
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info.client_unique_id = transfer->client_unique_id;
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info.file_path = transfer->relative_file_path;
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info.file_name = transfer->file_name;
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info.expected_size = transfer->expected_file_size;
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}
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std::shared_ptr<ExecuteResponse<TransferListError, std::vector<ActiveFileTransfer>>> LocalFileTransfer::list_transfer() {
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std::vector<ActiveFileTransfer> transfer_infos{};
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auto response = this->create_execute_response<TransferListError, std::vector<ActiveFileTransfer>>();
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std::unique_lock tlock{this->transfers_mutex};
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auto awaiting_transfers = this->pending_transfers;
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auto running_transfers = this->transfers_;
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tlock.unlock();
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transfer_infos.reserve(awaiting_transfers.size() + running_transfers.size());
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for(const auto& transfer : awaiting_transfers) {
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ActiveFileTransfer info{};
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apply_transfer_info(transfer, info);
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info.size_done = transfer->file_offset;
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info.status = ActiveFileTransfer::NOT_STARTED;
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info.runtime = std::chrono::milliseconds{0};
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info.average_speed = 0;
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info.current_speed = 0;
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transfer_infos.push_back(info);
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}
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for(const auto& client : running_transfers) {
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auto transfer = client->transfer;
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if(!transfer) continue;
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ActiveFileTransfer info{};
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apply_transfer_info(transfer, info);
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info.size_done = transfer->file_offset + client->statistics.file_transferred.total_bytes;
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info.status = ActiveFileTransfer::RUNNING;
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info.runtime = std::chrono::floor<std::chrono::milliseconds>(std::chrono::system_clock::now() - client->timings.key_received);
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info.average_speed = client->statistics.file_transferred.average_bandwidth();
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info.current_speed = client->statistics.file_transferred.current_bandwidth();
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transfer_infos.push_back(info);
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}
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response->emplace_success(std::move(transfer_infos));
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return response;
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} |