forked from premiere/premiere-libtorrent
509 lines
14 KiB
C++
509 lines
14 KiB
C++
/*
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Copyright (c) 2013, Arvid Norberg
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in
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the documentation and/or other materials provided with the distribution.
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* Neither the name of the author nor the names of its
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contributors may be used to endorse or promote products derived
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from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "libtorrent/session.hpp"
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#include <functional>
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#include "test.hpp"
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#include "setup_transfer.hpp"
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#include "libtorrent/alert_types.hpp"
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#include "libtorrent/session_stats.hpp"
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#include "libtorrent/performance_counters.hpp"
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#include "libtorrent/bdecode.hpp"
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#include "libtorrent/bencode.hpp"
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#include "libtorrent/torrent_info.hpp"
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#include "settings.hpp"
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#include <fstream>
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using namespace std::placeholders;
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using namespace lt;
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TORRENT_TEST(session)
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{
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settings_pack p = settings();
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p.set_int(settings_pack::alert_mask, ~0);
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lt::session ses(p);
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settings_pack sett = settings();
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sett.set_int(settings_pack::num_optimistic_unchoke_slots, 10);
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sett.set_int(settings_pack::unchoke_slots_limit, 10);
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sett.set_int(settings_pack::resolver_cache_timeout, 1000);
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ses.apply_settings(sett);
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// verify that we get the appropriate performance warning
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alert const* a;
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for (;;)
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{
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a = wait_for_alert(ses, performance_alert::alert_type, "ses1");
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if (a == nullptr) break;
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TEST_EQUAL(a->type(), performance_alert::alert_type);
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if (alert_cast<performance_alert>(a)->warning_code
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== performance_alert::too_many_optimistic_unchoke_slots)
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break;
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}
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TEST_CHECK(a);
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sett.set_int(settings_pack::unchoke_slots_limit, 0);
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ses.apply_settings(sett);
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TEST_CHECK(ses.get_settings().get_int(settings_pack::unchoke_slots_limit) == 0);
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sett.set_int(settings_pack::unchoke_slots_limit, -1);
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ses.apply_settings(sett);
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TEST_CHECK(ses.get_settings().get_int(settings_pack::unchoke_slots_limit) == -1);
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sett.set_int(settings_pack::unchoke_slots_limit, 8);
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ses.apply_settings(sett);
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TEST_CHECK(ses.get_settings().get_int(settings_pack::unchoke_slots_limit) == 8);
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TEST_EQUAL(ses.get_settings().get_int(settings_pack::resolver_cache_timeout), 1000);
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sett.set_int(settings_pack::resolver_cache_timeout, 1001);
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ses.apply_settings(sett);
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TEST_EQUAL(ses.get_settings().get_int(settings_pack::resolver_cache_timeout), 1001);
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// make sure the destructor waits properly
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// for the asynchronous call to set the alert
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// mask completes, before it goes on to destruct
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// the session object
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}
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TORRENT_TEST(async_add_torrent_duplicate_error)
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{
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settings_pack p = settings();
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p.set_int(settings_pack::alert_mask, ~0);
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lt::session ses(p);
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add_torrent_params atp;
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atp.info_hash.assign("abababababababababab");
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atp.save_path = ".";
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ses.async_add_torrent(atp);
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auto* a = alert_cast<add_torrent_alert>(wait_for_alert(ses, add_torrent_alert::alert_type, "ses"));
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TEST_CHECK(a);
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if (a == nullptr) return;
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atp.flags |= torrent_flags::duplicate_is_error;
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ses.async_add_torrent(atp);
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a = alert_cast<add_torrent_alert>(wait_for_alert(ses, add_torrent_alert::alert_type, "ses"));
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TEST_CHECK(a);
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if (a == nullptr) return;
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TEST_CHECK(!a->handle.is_valid());
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TEST_CHECK(a->error);
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}
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TORRENT_TEST(async_add_torrent_duplicate)
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{
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settings_pack p = settings();
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p.set_int(settings_pack::alert_mask, ~0);
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lt::session ses(p);
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add_torrent_params atp;
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atp.info_hash.assign("abababababababababab");
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atp.save_path = ".";
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ses.async_add_torrent(atp);
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auto* a = alert_cast<add_torrent_alert>(wait_for_alert(ses, add_torrent_alert::alert_type, "ses"));
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TEST_CHECK(a);
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if (a == nullptr) return;
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torrent_handle h = a->handle;
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TEST_CHECK(!a->error);
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atp.flags &= ~torrent_flags::duplicate_is_error;
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ses.async_add_torrent(atp);
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a = alert_cast<add_torrent_alert>(wait_for_alert(ses, add_torrent_alert::alert_type, "ses"));
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TEST_CHECK(a);
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if (a == nullptr) return;
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TEST_CHECK(a->handle == h);
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TEST_CHECK(!a->error);
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}
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TORRENT_TEST(async_add_torrent_duplicate_back_to_back)
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{
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settings_pack p = settings();
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p.set_int(settings_pack::alert_mask, ~0);
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lt::session ses(p);
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add_torrent_params atp;
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atp.info_hash.assign("abababababababababab");
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atp.save_path = ".";
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atp.flags |= torrent_flags::paused;
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atp.flags &= ~torrent_flags::apply_ip_filter;
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atp.flags &= ~torrent_flags::auto_managed;
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ses.async_add_torrent(atp);
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atp.flags &= ~torrent_flags::duplicate_is_error;
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ses.async_add_torrent(atp);
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auto* a = alert_cast<add_torrent_alert>(wait_for_alert(ses
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, add_torrent_alert::alert_type, "ses", pop_alerts::cache_alerts));
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TEST_CHECK(a);
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if (a == nullptr) return;
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torrent_handle h = a->handle;
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TEST_CHECK(!a->error);
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a = alert_cast<add_torrent_alert>(wait_for_alert(ses
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, add_torrent_alert::alert_type, "ses", pop_alerts::cache_alerts));
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TEST_CHECK(a);
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if (a == nullptr) return;
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TEST_CHECK(a->handle == h);
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TEST_CHECK(!a->error);
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torrent_status st = h.status();
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TEST_CHECK(st.flags & torrent_flags::paused);
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TEST_CHECK(!(st.flags & torrent_flags::apply_ip_filter));
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TEST_CHECK(!(st.flags & torrent_flags::auto_managed));
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}
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TORRENT_TEST(load_empty_file)
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{
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settings_pack p = settings();
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p.set_int(settings_pack::alert_mask, ~0);
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lt::session ses(p);
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add_torrent_params atp;
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error_code ignore_errors;
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atp.ti = std::make_shared<torrent_info>("", std::ref(ignore_errors), from_span);
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atp.save_path = ".";
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error_code ec;
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torrent_handle h = ses.add_torrent(std::move(atp), ec);
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TEST_CHECK(!h.is_valid());
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TEST_CHECK(ec == error_code(errors::no_metadata))
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}
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TORRENT_TEST(session_stats)
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{
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std::vector<stats_metric> stats = session_stats_metrics();
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std::sort(stats.begin(), stats.end()
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, [](stats_metric const& lhs, stats_metric const& rhs)
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{ return lhs.value_index < rhs.value_index; });
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TEST_EQUAL(stats.size(), lt::counters::num_counters);
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// make sure every stat index is represented in the stats_metric vector
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for (int i = 0; i < int(stats.size()); ++i)
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{
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TEST_EQUAL(stats[i].value_index, i);
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}
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}
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TORRENT_TEST(paused_session)
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{
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lt::session s(settings());
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s.pause();
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lt::add_torrent_params ps;
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std::ofstream file("temporary");
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ps.ti = ::create_torrent(&file, "temporary", 16 * 1024, 13, false);
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ps.flags = lt::torrent_flags::paused;
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ps.save_path = ".";
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torrent_handle h = s.add_torrent(std::move(ps));
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std::this_thread::sleep_for(lt::milliseconds(2000));
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h.resume();
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std::this_thread::sleep_for(lt::milliseconds(1000));
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TEST_CHECK(!(h.flags() & torrent_flags::paused));
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}
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TORRENT_TEST(get_cache_info)
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{
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lt::session s(settings());
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lt::cache_status ret;
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s.get_cache_info(&ret);
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TEST_CHECK(ret.pieces.empty());
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#ifndef TORRENT_NO_DEPRECATE
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TEST_EQUAL(ret.blocks_written, 0);
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TEST_EQUAL(ret.writes, 0);
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TEST_EQUAL(ret.blocks_read, 0);
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TEST_EQUAL(ret.blocks_read_hit, 0);
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TEST_EQUAL(ret.reads, 0);
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TEST_EQUAL(ret.queued_bytes, 0);
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TEST_EQUAL(ret.cache_size, 0);
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TEST_EQUAL(ret.write_cache_size, 0);
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TEST_EQUAL(ret.read_cache_size, 0);
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TEST_EQUAL(ret.pinned_blocks, 0);
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TEST_EQUAL(ret.total_used_buffers, 0);
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TEST_EQUAL(ret.average_read_time, 0);
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TEST_EQUAL(ret.average_write_time, 0);
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TEST_EQUAL(ret.average_hash_time, 0);
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TEST_EQUAL(ret.average_job_time, 0);
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TEST_EQUAL(ret.cumulative_job_time, 0);
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TEST_EQUAL(ret.cumulative_read_time, 0);
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TEST_EQUAL(ret.cumulative_write_time, 0);
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TEST_EQUAL(ret.cumulative_hash_time, 0);
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TEST_EQUAL(ret.total_read_back, 0);
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TEST_EQUAL(ret.read_queue_size, 0);
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TEST_EQUAL(ret.blocked_jobs, 0);
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TEST_EQUAL(ret.queued_jobs, 0);
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TEST_EQUAL(ret.peak_queued, 0);
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TEST_EQUAL(ret.pending_jobs, 0);
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TEST_EQUAL(ret.num_jobs, 0);
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TEST_EQUAL(ret.num_read_jobs, 0);
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TEST_EQUAL(ret.num_write_jobs, 0);
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TEST_EQUAL(ret.arc_mru_size, 0);
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TEST_EQUAL(ret.arc_mru_ghost_size, 0);
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TEST_EQUAL(ret.arc_mfu_size, 0);
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TEST_EQUAL(ret.arc_mfu_ghost_size, 0);
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TEST_EQUAL(ret.arc_write_size, 0);
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TEST_EQUAL(ret.arc_volatile_size, 0);
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TEST_EQUAL(ret.num_writing_threads, 0);
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#endif
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}
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template <typename Set, typename Save, typename Default, typename Load>
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void test_save_restore(Set setup, Save s, Default d, Load l)
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{
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entry st;
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{
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settings_pack p = settings();
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setup(p);
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lt::session ses(p);
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s(ses, st);
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}
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{
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settings_pack p = settings();
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d(p);
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lt::session ses(p);
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// the loading function takes a bdecode_node, so we have to transform the
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// entry
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std::printf("%s\n", st.to_string().c_str());
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std::vector<char> buf;
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bencode(std::back_inserter(buf), st);
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bdecode_node state;
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error_code ec;
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int ret = bdecode(buf.data(), buf.data() + buf.size()
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, state, ec, nullptr, 100, 1000);
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TEST_EQUAL(ret, 0);
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if (ec)
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{
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std::printf("bdecode: %s\n", ec.message().c_str());
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std::printf("%s\n", std::string(buf.data(), buf.size()).c_str());
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}
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TEST_CHECK(!ec);
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l(ses, state);
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}
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}
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TORRENT_TEST(save_restore_state)
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{
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test_save_restore(
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[](settings_pack& p) {
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// set the cache size
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p.set_int(settings_pack::request_queue_time, 1337);
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},
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[](lt::session& ses, entry& st) {
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ses.save_state(st);
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},
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[](settings_pack& p) {
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p.set_int(settings_pack::request_queue_time, 90);
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},
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[](lt::session& ses, bdecode_node& st) {
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ses.load_state(st);
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// make sure we loaded the cache size correctly
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settings_pack sett = ses.get_settings();
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TEST_EQUAL(sett.get_int(settings_pack::request_queue_time), 1337);
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});
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}
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TORRENT_TEST(save_restore_state_save_filter)
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{
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test_save_restore(
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[](settings_pack& p) {
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// set the cache size
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p.set_int(settings_pack::request_queue_time, 1337);
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},
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[](lt::session& ses, entry& st) {
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// save everything _but_ the settings
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ses.save_state(st, ~session::save_settings);
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},
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[](settings_pack& p) {
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p.set_int(settings_pack::request_queue_time, 90);
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},
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[](lt::session& ses, bdecode_node& st) {
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ses.load_state(st);
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// make sure whatever we loaded did not include the cache size
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settings_pack sett = ses.get_settings();
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TEST_EQUAL(sett.get_int(settings_pack::request_queue_time), 90);
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});
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}
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TORRENT_TEST(save_restore_state_load_filter)
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{
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test_save_restore(
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[](settings_pack& p) {
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// set the cache size
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p.set_int(settings_pack::request_queue_time, 1337);
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},
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[](lt::session& ses, entry& st) {
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// save everything
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ses.save_state(st);
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},
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[](settings_pack& p) {
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p.set_int(settings_pack::request_queue_time, 90);
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},
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[](lt::session& ses, bdecode_node& st) {
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// load everything _but_ the settings
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ses.load_state(st, ~session::save_settings);
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settings_pack sett = ses.get_settings();
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TEST_EQUAL(sett.get_int(settings_pack::request_queue_time), 90);
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});
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}
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TORRENT_TEST(session_shutdown)
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{
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lt::settings_pack pack;
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lt::session ses(pack);
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}
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// make sure we don't restore peer_id from session state
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TORRENT_TEST(save_state_peer_id)
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{
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lt::settings_pack pack;
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pack.set_str(settings_pack::peer_fingerprint, "AAA");
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lt::session ses(pack);
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lt::peer_id const pid1 = ses.id();
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TEST_CHECK(pid1[0] == 'A');
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TEST_CHECK(pid1[1] == 'A');
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TEST_CHECK(pid1[2] == 'A');
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lt::entry st;
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ses.save_state(st);
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pack.set_str(settings_pack::peer_fingerprint, "foobar");
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ses.apply_settings(pack);
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lt::peer_id const pid2 = ses.id();
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TEST_CHECK(pid2[0] == 'f');
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TEST_CHECK(pid2[1] == 'o');
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TEST_CHECK(pid2[2] == 'o');
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TEST_CHECK(pid2[3] == 'b');
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TEST_CHECK(pid2[4] == 'a');
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TEST_CHECK(pid2[5] == 'r');
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std::vector<char> buf;
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bencode(std::back_inserter(buf), st);
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bdecode_node state;
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error_code ec;
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int ret = bdecode(buf.data(), buf.data() + buf.size()
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, state, ec, nullptr, 100, 1000);
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TEST_EQUAL(ret, 0);
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ses.load_state(state);
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lt::peer_id const pid3 = ses.id();
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TEST_CHECK(pid3[0] == 'f');
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TEST_CHECK(pid3[1] == 'o');
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TEST_CHECK(pid3[2] == 'o');
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TEST_CHECK(pid3[3] == 'b');
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TEST_CHECK(pid3[4] == 'a');
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TEST_CHECK(pid3[5] == 'r');
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}
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TORRENT_TEST(init_dht)
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{
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auto count_dht_inits = [](session& ses)
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{
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int count = 0;
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int num = 70; // this number is adjusted per version, an estimate
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time_point const end_time = clock_type::now() + seconds(15);
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while (true)
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{
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time_point const now = clock_type::now();
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if (now > end_time) return count;
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ses.wait_for_alert(end_time - now);
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std::vector<alert*> alerts;
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ses.pop_alerts(&alerts);
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for (auto a : alerts)
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{
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std::printf("%d: [%s] %s\n", num, a->what(), a->message().c_str());
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if (a->type() == log_alert::alert_type)
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{
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std::string const msg = a->message();
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if (msg.find("about to start DHT") != std::string::npos)
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count++;
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}
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num--;
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}
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if (num <= 0) return count;
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}
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return count;
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};
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{
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settings_pack p = settings();
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p.set_bool(settings_pack::enable_dht, true);
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p.set_int(settings_pack::alert_mask, alert::all_categories);
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// default value
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p.set_str(settings_pack::dht_bootstrap_nodes, "dht.libtorrent.org:25401");
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lt::session s(p);
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int const count = count_dht_inits(s);
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TEST_EQUAL(count, 1);
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}
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{
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settings_pack p = settings();
|
|
p.set_bool(settings_pack::enable_dht, true);
|
|
p.set_int(settings_pack::alert_mask, alert::all_categories);
|
|
// no default value
|
|
p.set_str(settings_pack::dht_bootstrap_nodes, "test.libtorrent.org:25401:8888");
|
|
|
|
lt::session s(p);
|
|
|
|
int const count = count_dht_inits(s);
|
|
TEST_EQUAL(count, 1);
|
|
}
|
|
|
|
{
|
|
settings_pack p = settings();
|
|
p.set_bool(settings_pack::enable_dht, true);
|
|
p.set_int(settings_pack::alert_mask, alert::all_categories);
|
|
// empty value
|
|
p.set_str(settings_pack::dht_bootstrap_nodes, "");
|
|
|
|
lt::session s(p);
|
|
|
|
int const count = count_dht_inits(s);
|
|
TEST_EQUAL(count, 1);
|
|
}
|
|
}
|