mirror of
https://github.com/transmission/transmission
synced 2024-12-30 19:46:56 +00:00
653 lines
26 KiB
C++
653 lines
26 KiB
C++
// This file Copyright (C) 2022 Mnemosyne LLC.
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// It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only),
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// or any future license endorsed by Mnemosyne LLC.
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// License text can be found in the licenses/ folder.
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#include <cstring> // for std::memcpy()
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#include <deque>
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#include <memory>
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#include <vector>
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#include <fmt/core.h>
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#define LIBTRANSMISSION_ANNOUNCER_MODULE
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#include <libtransmission/transmission.h>
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#include <libtransmission/announcer.h>
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#include <libtransmission/announcer-common.h>
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#include <libtransmission/crypto-utils.h> // for tr_rand_obj()
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#include <libtransmission/peer-mgr.h> // for tr_pex
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#include <libtransmission/timer-ev.h>
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#include <libtransmission/tr-buffer.h>
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#include "test-fixtures.h"
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using namespace std::literals;
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class AnnouncerUdpTest : public ::testing::Test
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{
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private:
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void SetUp() override
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{
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tr_net_init();
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::testing::Test::SetUp();
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tr_timeUpdate(time(nullptr));
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}
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protected:
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class MockMediator final : public tr_announcer_udp::Mediator
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{
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public:
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MockMediator()
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: event_base_{ event_base_new(), event_base_free }
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{
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}
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void sendto(void const* buf, size_t buflen, sockaddr const* sa, socklen_t salen) override
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{
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auto target = tr_address::from_sockaddr(sa);
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ASSERT_TRUE(target);
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sent_.emplace_back(static_cast<char const*>(buf), buflen, sa, salen);
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}
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[[nodiscard]] auto* eventBase()
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{
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return event_base_.get();
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}
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[[nodiscard]] std::optional<tr_address> announceIP() const override
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{
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return {};
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}
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struct Sent
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{
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Sent() = default;
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Sent(char const* buf, size_t buflen, sockaddr const* sa, socklen_t salen)
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: sslen_{ salen }
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{
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buf_.insert(std::end(buf_), buf, buf + buflen);
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std::memcpy(&ss_, sa, salen);
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}
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std::vector<char> buf_;
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sockaddr_storage ss_ = {};
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socklen_t sslen_ = {};
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};
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std::deque<Sent> sent_;
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std::unique_ptr<event_base, void (*)(event_base*)> const event_base_;
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};
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static void expectEqual(tr_scrape_response const& expected, tr_scrape_response const& actual)
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{
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EXPECT_EQ(expected.did_connect, actual.did_connect);
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EXPECT_EQ(expected.did_timeout, actual.did_timeout);
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EXPECT_EQ(expected.errmsg, actual.errmsg);
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EXPECT_EQ(expected.min_request_interval, actual.min_request_interval);
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EXPECT_EQ(expected.scrape_url, actual.scrape_url);
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EXPECT_EQ(expected.row_count, actual.row_count);
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for (int i = 0; i < std::min(expected.row_count, actual.row_count); ++i)
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{
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EXPECT_EQ(expected.rows[i].info_hash, actual.rows[i].info_hash);
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EXPECT_EQ(expected.rows[i].seeders, actual.rows[i].seeders);
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EXPECT_EQ(expected.rows[i].leechers, actual.rows[i].leechers);
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EXPECT_EQ(expected.rows[i].downloads, actual.rows[i].downloads);
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EXPECT_EQ(expected.rows[i].downloaders, actual.rows[i].downloaders);
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}
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}
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static void expectEqual(tr_scrape_request const& expected, std::vector<tr_sha1_digest_t> const& actual)
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{
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EXPECT_EQ(expected.info_hash_count, std::size(actual));
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for (size_t i = 0; i < std::min(static_cast<size_t>(expected.info_hash_count), std::size(actual)); ++i)
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{
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EXPECT_EQ(expected.info_hash[i], actual[i]);
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}
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}
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[[nodiscard]] static uint32_t parseConnectionRequest(libtransmission::Buffer& buf)
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{
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EXPECT_EQ(ProtocolId, buf.to_uint64());
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EXPECT_EQ(ConnectAction, buf.to_uint32());
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return buf.to_uint32();
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}
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[[nodiscard]] static auto buildScrapeRequestFromResponse(tr_scrape_response const& response)
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{
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auto request = tr_scrape_request{};
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request.scrape_url = response.scrape_url;
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request.info_hash_count = response.row_count;
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for (int i = 0; i < request.info_hash_count; ++i)
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{
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request.info_hash[i] = response.rows[i].info_hash;
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}
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return request;
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}
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[[nodiscard]] static auto buildSimpleScrapeRequestAndResponse()
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{
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auto response = tr_scrape_response{};
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response.did_connect = true;
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response.did_timeout = false;
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response.row_count = 1;
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response.rows[0].info_hash = tr_rand_obj<tr_sha1_digest_t>();
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response.rows[0].seeders = 1;
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response.rows[0].leechers = 2;
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response.rows[0].downloads = 3;
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response.rows[0].downloaders = 0;
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response.scrape_url = DefaultScrapeUrl;
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response.min_request_interval = 0;
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return std::make_pair(buildScrapeRequestFromResponse(response), response);
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}
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[[nodiscard]] static auto parseScrapeRequest(libtransmission::Buffer& buf, uint64_t expected_connection_id)
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{
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EXPECT_EQ(expected_connection_id, buf.to_uint64());
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EXPECT_EQ(ScrapeAction, buf.to_uint32());
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auto const transaction_id = buf.to_uint32();
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auto info_hashes = std::vector<tr_sha1_digest_t>{};
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while (!std::empty(buf))
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{
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auto tmp = tr_sha1_digest_t{};
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buf.to_buf(std::data(tmp), std::size(tmp));
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info_hashes.emplace_back(tmp);
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}
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return std::make_pair(transaction_id, info_hashes);
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}
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[[nodiscard]] static auto waitForAnnouncerToSendMessage(MockMediator& mediator)
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{
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libtransmission::test::waitFor(mediator.eventBase(), [&mediator]() { return !std::empty(mediator.sent_); });
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auto buf = libtransmission::Buffer(mediator.sent_.back().buf_);
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mediator.sent_.pop_back();
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return buf;
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}
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[[nodiscard]] static bool sendError(tr_announcer_udp& announcer, uint32_t transaction_id, std::string_view errmsg)
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{
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auto buf = libtransmission::Buffer{};
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buf.add_uint32(ErrorAction);
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buf.add_uint32(transaction_id);
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buf.add(errmsg);
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auto const response_size = std::size(buf);
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auto arr = std::array<uint8_t, 256>{};
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buf.to_buf(std::data(arr), response_size);
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return announcer.handleMessage(std::data(arr), response_size);
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}
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[[nodiscard]] static auto sendConnectionResponse(tr_announcer_udp& announcer, uint32_t transaction_id)
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{
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auto const connection_id = tr_rand_obj<uint64_t>();
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auto buf = libtransmission::Buffer{};
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buf.add_uint32(ConnectAction);
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buf.add_uint32(transaction_id);
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buf.add_uint64(connection_id);
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auto arr = std::array<uint8_t, 128>{};
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auto response_size = std::size(buf);
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buf.to_buf(std::data(arr), response_size);
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EXPECT_TRUE(announcer.handleMessage(std::data(arr), response_size));
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return connection_id;
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}
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struct UdpAnnounceReq
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{
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uint64_t connection_id = 0;
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uint32_t action = 0; // 1: announce
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uint32_t transaction_id = 0;
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tr_sha1_digest_t info_hash = {};
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tr_peer_id_t peer_id = {};
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uint64_t downloaded = 0;
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uint64_t left = 0;
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uint64_t uploaded = 0;
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uint32_t event = 0; // 0: none; 1: completed; 2: started; 3: stopped
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uint32_t ip_address = 0;
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uint32_t key;
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uint32_t num_want = static_cast<uint32_t>(-1); // default
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uint16_t port;
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};
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static void expectEqual(tr_announce_request const& expected, UdpAnnounceReq const& actual)
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{
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EXPECT_EQ(AnnounceAction, actual.action);
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EXPECT_EQ(expected.info_hash, actual.info_hash);
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EXPECT_EQ(expected.peer_id, actual.peer_id);
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EXPECT_EQ(expected.down, actual.downloaded);
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EXPECT_EQ(expected.leftUntilComplete, actual.left);
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EXPECT_EQ(expected.up, actual.uploaded);
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// EXPECT_EQ(foo, actual.event); ; // 0: none; 1: completed; 2: started; 3: stopped // FIXME
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// EXPECT_EQ(foo, actual.ip_address); // FIXME
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EXPECT_EQ(expected.key, static_cast<int>(actual.key));
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EXPECT_EQ(expected.numwant, static_cast<int>(actual.num_want));
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EXPECT_EQ(expected.port.host(), actual.port);
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}
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static void expectEqual(tr_announce_response const& expected, tr_announce_response const& actual)
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{
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EXPECT_EQ(actual.info_hash, expected.info_hash);
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EXPECT_EQ(actual.did_connect, expected.did_connect);
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EXPECT_EQ(actual.did_timeout, expected.did_timeout);
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EXPECT_EQ(actual.interval, expected.interval);
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EXPECT_EQ(actual.min_interval, expected.min_interval);
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EXPECT_EQ(actual.seeders, expected.seeders);
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EXPECT_EQ(actual.leechers, expected.leechers);
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EXPECT_EQ(actual.downloads, expected.downloads);
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EXPECT_EQ(actual.pex, expected.pex);
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EXPECT_EQ(actual.pex6, expected.pex6);
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EXPECT_EQ(actual.errmsg, expected.errmsg);
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EXPECT_EQ(actual.warning, expected.warning);
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EXPECT_EQ(actual.tracker_id, expected.tracker_id);
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EXPECT_EQ(actual.external_ip, expected.external_ip);
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}
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[[nodiscard]] static auto parseAnnounceRequest(libtransmission::Buffer& buf, uint64_t connection_id)
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{
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auto req = UdpAnnounceReq{};
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req.connection_id = buf.to_uint64();
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req.action = buf.to_uint32();
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req.transaction_id = buf.to_uint32();
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buf.to_buf(std::data(req.info_hash), std::size(req.info_hash));
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buf.to_buf(std::data(req.peer_id), std::size(req.peer_id));
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req.downloaded = buf.to_uint64();
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req.left = buf.to_uint64();
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req.uploaded = buf.to_uint64();
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req.event = buf.to_uint32();
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req.ip_address = buf.to_uint32();
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req.key = buf.to_uint32();
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req.num_want = buf.to_uint32();
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req.port = buf.to_uint16();
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EXPECT_EQ(AnnounceAction, req.action);
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EXPECT_EQ(connection_id, req.connection_id);
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return req;
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}
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// emulate the upkeep timer that tr_announcer runs in production
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static auto createUpkeepTimer(MockMediator& mediator, std::unique_ptr<tr_announcer_udp>& announcer)
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{
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auto timer_maker = libtransmission::EvTimerMaker{ mediator.eventBase() };
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auto timer = timer_maker.create();
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timer->setCallback([&announcer]() { announcer->upkeep(); });
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timer->startRepeating(200ms);
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return timer;
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}
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// https://www.bittorrent.org/beps/bep_0015.html
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static auto constexpr ProtocolId = uint64_t{ 0x41727101980ULL };
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static auto constexpr ConnectAction = uint32_t{ 0 };
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static auto constexpr AnnounceAction = uint32_t{ 1 };
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static auto constexpr ScrapeAction = uint32_t{ 2 };
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static auto constexpr ErrorAction = uint32_t{ 3 };
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static auto constexpr DefaultScrapeUrl = "https://127.0.0.1/scrape"sv;
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};
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TEST_F(AnnouncerUdpTest, canInstantiate)
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{
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auto mediator = MockMediator{};
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auto announcer = tr_announcer_udp::create(mediator);
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EXPECT_TRUE(announcer);
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}
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TEST_F(AnnouncerUdpTest, canScrape)
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{
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auto mediator = MockMediator{};
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auto announcer = tr_announcer_udp::create(mediator);
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auto upkeep_timer = createUpkeepTimer(mediator, announcer);
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// tell announcer to scrape
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auto [request, expected_response] = buildSimpleScrapeRequestAndResponse();
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auto response = std::optional<tr_scrape_response>{};
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announcer->scrape(request, [&response](tr_scrape_response const& resp) { response = resp; });
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// The announcer should have sent a UDP connection request.
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// Inspect that request for validity.
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auto sent = waitForAnnouncerToSendMessage(mediator);
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auto connect_transaction_id = parseConnectionRequest(sent);
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// Have the tracker respond to the request
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auto const connection_id = sendConnectionResponse(*announcer, connect_transaction_id);
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// The announcer should have sent a UDP scrape request.
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// Inspect that request for validity.
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sent = waitForAnnouncerToSendMessage(mediator);
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auto [scrape_transaction_id, info_hashes] = parseScrapeRequest(sent, connection_id);
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expectEqual(request, info_hashes);
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// Have the tracker respond to the request
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auto buf = libtransmission::Buffer{};
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buf.add_uint32(ScrapeAction);
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buf.add_uint32(scrape_transaction_id);
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buf.add_uint32(expected_response.rows[0].seeders);
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buf.add_uint32(expected_response.rows[0].downloads);
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buf.add_uint32(expected_response.rows[0].leechers);
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auto response_size = std::size(buf);
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auto arr = std::array<uint8_t, 256>{};
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buf.to_buf(std::data(arr), response_size);
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EXPECT_TRUE(announcer->handleMessage(std::data(arr), response_size));
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// confirm that announcer processed the response
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EXPECT_TRUE(response.has_value());
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assert(response.has_value());
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expectEqual(expected_response, *response);
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// Now scrape again.
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// Since the timestamp hasn't changed, the connection should be good
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// and announcer-udp should skip the `connect` step, going straight to the scrape.
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response.reset();
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announcer->scrape(request, [&response](tr_scrape_response const& resp) { response = resp; });
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// The announcer should have sent a UDP connection request.
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// Inspect that request for validity.
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sent = waitForAnnouncerToSendMessage(mediator);
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std::tie(scrape_transaction_id, info_hashes) = parseScrapeRequest(sent, connection_id);
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expectEqual(request, info_hashes);
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}
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TEST_F(AnnouncerUdpTest, canDestructCleanlyEvenWhenBusy)
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{
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auto mediator = MockMediator{};
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auto announcer = tr_announcer_udp::create(mediator);
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auto upkeep_timer = createUpkeepTimer(mediator, announcer);
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// tell announcer to scrape
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auto [request, expected_response] = buildSimpleScrapeRequestAndResponse();
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auto response = std::optional<tr_scrape_response>{};
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announcer->scrape(request, [&response](tr_scrape_response const& resp) { response = resp; });
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// The announcer should have sent a UDP connection request.
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// Inspect that request for validity.
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auto sent = waitForAnnouncerToSendMessage(mediator);
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auto const connect_transaction_id = parseConnectionRequest(sent);
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EXPECT_NE(0U, connect_transaction_id);
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// now just end the test before responding to the request.
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// the announcer and mediator will go out-of-scope & be destroyed.
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}
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TEST_F(AnnouncerUdpTest, canMultiScrape)
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{
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auto mediator = MockMediator{};
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auto announcer = tr_announcer_udp::create(mediator);
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auto upkeep_timer = createUpkeepTimer(mediator, announcer);
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auto expected_response = tr_scrape_response{};
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expected_response.did_connect = true;
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expected_response.did_timeout = false;
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expected_response.row_count = 2;
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expected_response.rows[0] = { tr_rand_obj<tr_sha1_digest_t>(), 1, 2, 3, 0 };
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expected_response.rows[1] = { tr_rand_obj<tr_sha1_digest_t>(), 4, 5, 6, 0 };
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expected_response.scrape_url = DefaultScrapeUrl;
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expected_response.min_request_interval = 0;
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auto request = buildScrapeRequestFromResponse(expected_response);
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auto response = std::optional<tr_scrape_response>{};
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announcer->scrape(request, [&response](tr_scrape_response const& resp) { response = resp; });
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// Announcer will request a connection. Verify and grant the request
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auto sent = waitForAnnouncerToSendMessage(mediator);
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auto connect_transaction_id = parseConnectionRequest(sent);
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auto const connection_id = sendConnectionResponse(*announcer, connect_transaction_id);
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// The announcer should have sent a UDP scrape request.
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// Inspect that request for validity.
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sent = waitForAnnouncerToSendMessage(mediator);
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auto [scrape_transaction_id, info_hashes] = parseScrapeRequest(sent, connection_id);
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expectEqual(request, info_hashes);
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// Have the tracker respond to the request
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auto buf = libtransmission::Buffer{};
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buf.add_uint32(ScrapeAction);
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buf.add_uint32(scrape_transaction_id);
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for (int i = 0; i < expected_response.row_count; ++i)
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{
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buf.add_uint32(expected_response.rows[i].seeders);
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buf.add_uint32(expected_response.rows[i].downloads);
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buf.add_uint32(expected_response.rows[i].leechers);
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}
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auto response_size = std::size(buf);
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auto arr = std::array<uint8_t, 256>{};
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buf.to_buf(std::data(arr), response_size);
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EXPECT_TRUE(announcer->handleMessage(std::data(arr), response_size));
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// Confirm that announcer processed the response
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EXPECT_TRUE(response.has_value());
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assert(response.has_value());
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expectEqual(expected_response, *response);
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}
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TEST_F(AnnouncerUdpTest, canHandleScrapeError)
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{
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// build the expected response
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auto expected_response = tr_scrape_response{};
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expected_response.did_connect = true;
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expected_response.did_timeout = false;
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expected_response.row_count = 1;
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expected_response.rows[0].info_hash = tr_rand_obj<tr_sha1_digest_t>();
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expected_response.rows[0].seeders = -1;
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expected_response.rows[0].leechers = -1;
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expected_response.rows[0].downloads = -1;
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expected_response.rows[0].downloaders = 0;
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expected_response.scrape_url = DefaultScrapeUrl;
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expected_response.min_request_interval = 0;
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expected_response.errmsg = "Unrecognized info-hash";
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// build the request
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auto request = buildScrapeRequestFromResponse(expected_response);
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|
|
// build the announcer
|
|
auto mediator = MockMediator{};
|
|
auto announcer = tr_announcer_udp::create(mediator);
|
|
auto upkeep_timer = createUpkeepTimer(mediator, announcer);
|
|
|
|
// tell announcer to scrape
|
|
auto response = std::optional<tr_scrape_response>{};
|
|
announcer->scrape(request, [&response](tr_scrape_response const& resp) { response = resp; });
|
|
|
|
// The announcer should have sent a UDP connection request.
|
|
// Inspect that request for validity.
|
|
auto sent = waitForAnnouncerToSendMessage(mediator);
|
|
auto connect_transaction_id = parseConnectionRequest(sent);
|
|
|
|
// Have the tracker respond to the request
|
|
auto const connection_id = sendConnectionResponse(*announcer, connect_transaction_id);
|
|
|
|
// The announcer should have sent a UDP scrape request.
|
|
// Inspect that request for validity.
|
|
sent = waitForAnnouncerToSendMessage(mediator);
|
|
auto const [scrape_transaction_id, info_hashes] = parseScrapeRequest(sent, connection_id);
|
|
|
|
// Have the tracker respond to the request with an "unable to scrape" error
|
|
EXPECT_TRUE(sendError(*announcer, scrape_transaction_id, expected_response.errmsg));
|
|
|
|
// confirm that announcer processed the response
|
|
EXPECT_TRUE(response.has_value());
|
|
assert(response.has_value());
|
|
expectEqual(expected_response, *response);
|
|
}
|
|
|
|
TEST_F(AnnouncerUdpTest, canHandleConnectError)
|
|
{
|
|
// build the response we'd expect for a connect failure
|
|
auto expected_response = tr_scrape_response{};
|
|
expected_response.did_connect = true;
|
|
expected_response.did_timeout = false;
|
|
expected_response.row_count = 1;
|
|
expected_response.rows[0].info_hash = tr_rand_obj<tr_sha1_digest_t>();
|
|
expected_response.rows[0].seeders = -1; // -1 here & on next lines means error
|
|
expected_response.rows[0].leechers = -1;
|
|
expected_response.rows[0].downloads = -1;
|
|
expected_response.rows[0].downloaders = 0;
|
|
expected_response.scrape_url = DefaultScrapeUrl;
|
|
expected_response.min_request_interval = 0;
|
|
expected_response.errmsg = "Unable to Connect";
|
|
|
|
// build the announcer
|
|
auto mediator = MockMediator{};
|
|
auto announcer = tr_announcer_udp::create(mediator);
|
|
auto upkeep_timer = createUpkeepTimer(mediator, announcer);
|
|
|
|
// tell the announcer to scrape
|
|
auto response = std::optional<tr_scrape_response>{};
|
|
announcer->scrape(
|
|
buildScrapeRequestFromResponse(expected_response),
|
|
[&response](tr_scrape_response const& resp) { response = resp; });
|
|
|
|
// The announcer should have sent a UDP connection request.
|
|
// Inspect that request for validity.
|
|
auto sent = waitForAnnouncerToSendMessage(mediator);
|
|
auto transaction_id = parseConnectionRequest(sent);
|
|
|
|
// Have the tracker respond to the request with an "unable to connect" error
|
|
EXPECT_TRUE(sendError(*announcer, transaction_id, expected_response.errmsg));
|
|
|
|
// Confirm that announcer processed the response
|
|
EXPECT_TRUE(response.has_value());
|
|
assert(response.has_value());
|
|
expectEqual(expected_response, *response);
|
|
}
|
|
|
|
TEST_F(AnnouncerUdpTest, handleMessageReturnsFalseOnInvalidMessage)
|
|
{
|
|
// build a simple scrape request
|
|
auto request = tr_scrape_request{};
|
|
request.scrape_url = DefaultScrapeUrl;
|
|
request.info_hash_count = 1;
|
|
request.info_hash[0] = tr_rand_obj<tr_sha1_digest_t>();
|
|
|
|
// build the announcer
|
|
auto mediator = MockMediator{};
|
|
auto announcer = tr_announcer_udp::create(mediator);
|
|
auto upkeep_timer = createUpkeepTimer(mediator, announcer);
|
|
|
|
// tell the announcer to scrape
|
|
auto response = std::optional<tr_scrape_response>{};
|
|
announcer->scrape(request, [&response](tr_scrape_response const& resp) { response = resp; });
|
|
|
|
// The announcer should have sent a UDP connection request.
|
|
// Inspect that request for validity.
|
|
auto sent = waitForAnnouncerToSendMessage(mediator);
|
|
auto transaction_id = parseConnectionRequest(sent);
|
|
|
|
// send a connection response but with an *invalid* transaction id
|
|
auto buf = libtransmission::Buffer{};
|
|
buf.add_uint32(ConnectAction);
|
|
buf.add_uint32(transaction_id + 1);
|
|
buf.add_uint64(tr_rand_obj<uint64_t>());
|
|
auto response_size = std::size(buf);
|
|
auto arr = std::array<uint8_t, 256>{};
|
|
buf.to_buf(std::data(arr), response_size);
|
|
EXPECT_FALSE(announcer->handleMessage(std::data(arr), response_size));
|
|
|
|
// send a connection response but with an *invalid* action
|
|
buf.clear();
|
|
buf.add_uint32(ScrapeAction);
|
|
buf.add_uint32(transaction_id);
|
|
buf.add_uint64(tr_rand_obj<uint64_t>());
|
|
response_size = std::size(buf);
|
|
buf.to_buf(std::data(arr), response_size);
|
|
EXPECT_FALSE(announcer->handleMessage(std::data(arr), response_size));
|
|
|
|
// but after discarding invalid messages,
|
|
// a valid connection response should still work
|
|
auto const connection_id = sendConnectionResponse(*announcer, transaction_id);
|
|
EXPECT_NE(0, connection_id);
|
|
}
|
|
|
|
TEST_F(AnnouncerUdpTest, canAnnounce)
|
|
{
|
|
static auto constexpr Interval = uint32_t{ 3600 };
|
|
static auto constexpr Leechers = uint32_t{ 10 };
|
|
static auto constexpr Seeders = uint32_t{ 20 };
|
|
auto const addresses = std::array<std::pair<tr_address, tr_port>, 3>{
|
|
std::make_pair(tr_address::from_string("10.10.10.5").value_or(tr_address{}), tr_port::fromHost(128)),
|
|
std::make_pair(tr_address::from_string("192.168.1.2").value_or(tr_address{}), tr_port::fromHost(2021)),
|
|
std::make_pair(tr_address::from_string("192.168.1.3").value_or(tr_address{}), tr_port::fromHost(2022)),
|
|
};
|
|
|
|
auto request = tr_announce_request{};
|
|
request.event = TR_ANNOUNCE_EVENT_STARTED;
|
|
request.port = tr_port::fromHost(80);
|
|
request.key = 0xCAFE;
|
|
request.numwant = 20;
|
|
request.up = 1;
|
|
request.down = 2;
|
|
request.corrupt = 3;
|
|
request.leftUntilComplete = 100;
|
|
request.announce_url = "https://127.0.0.1/announce";
|
|
request.tracker_id = "fnord";
|
|
request.peer_id = tr_peerIdInit();
|
|
request.info_hash = tr_rand_obj<tr_sha1_digest_t>();
|
|
|
|
auto expected_response = tr_announce_response{};
|
|
expected_response.info_hash = request.info_hash;
|
|
expected_response.did_connect = true;
|
|
expected_response.did_timeout = false;
|
|
expected_response.interval = Interval;
|
|
expected_response.min_interval = 0; // not specified in UDP announce
|
|
expected_response.seeders = Seeders;
|
|
expected_response.leechers = Leechers;
|
|
expected_response.downloads = -1; // not specified in UDP announce
|
|
expected_response.pex = std::vector<tr_pex>{ tr_pex{ addresses[0].first, addresses[0].second },
|
|
tr_pex{ addresses[1].first, addresses[1].second },
|
|
tr_pex{ addresses[2].first, addresses[2].second } };
|
|
expected_response.pex6 = {};
|
|
expected_response.errmsg = {};
|
|
expected_response.warning = {};
|
|
expected_response.tracker_id = {}; // not specified in UDP announce
|
|
expected_response.external_ip = {};
|
|
|
|
// build the announcer
|
|
auto mediator = MockMediator{};
|
|
auto announcer = tr_announcer_udp::create(mediator);
|
|
auto upkeep_timer = createUpkeepTimer(mediator, announcer);
|
|
|
|
auto response = std::optional<tr_announce_response>{};
|
|
announcer->announce(request, [&response](tr_announce_response const& resp) { response = resp; });
|
|
|
|
// Announcer will request a connection. Verify and grant the request
|
|
auto sent = waitForAnnouncerToSendMessage(mediator);
|
|
auto connect_transaction_id = parseConnectionRequest(sent);
|
|
auto const connection_id = sendConnectionResponse(*announcer, connect_transaction_id);
|
|
|
|
// The announcer should have sent a UDP announce request.
|
|
// Inspect that request for validity.
|
|
sent = waitForAnnouncerToSendMessage(mediator);
|
|
auto udp_ann_req = parseAnnounceRequest(sent, connection_id);
|
|
expectEqual(request, udp_ann_req);
|
|
|
|
// Have the tracker respond to the request
|
|
auto buf = libtransmission::Buffer{};
|
|
buf.add_uint32(AnnounceAction);
|
|
buf.add_uint32(udp_ann_req.transaction_id);
|
|
buf.add_uint32(expected_response.interval);
|
|
buf.add_uint32(expected_response.leechers);
|
|
buf.add_uint32(expected_response.seeders);
|
|
for (auto const& [addr, port] : addresses)
|
|
{
|
|
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-union-access)
|
|
buf.add(&addr.addr.addr4.s_addr, sizeof(addr.addr.addr4.s_addr));
|
|
buf.add_uint16(port.host());
|
|
}
|
|
|
|
auto response_size = std::size(buf);
|
|
auto arr = std::array<uint8_t, 512>{};
|
|
buf.to_buf(std::data(arr), response_size);
|
|
EXPECT_TRUE(announcer->handleMessage(std::data(arr), response_size));
|
|
|
|
// Confirm that announcer processed the response
|
|
EXPECT_TRUE(response.has_value());
|
|
assert(response.has_value());
|
|
expectEqual(expected_response, *response);
|
|
}
|