premiere-libtorrent/test/test_piece_picker.cpp

1993 lines
63 KiB
C++

/*
Copyright (c) 2008, Arvid Norberg
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the distribution.
* Neither the name of the author nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
*/
#include "libtorrent/piece_picker.hpp"
#include "libtorrent/torrent_peer.hpp"
#include "libtorrent/bitfield.hpp"
#include "libtorrent/performance_counters.hpp"
#include "libtorrent/random.hpp"
#include <memory>
#include <functional>
#include <algorithm>
#include <vector>
#include <set>
#include <map>
#include <iostream>
#include "test.hpp"
using namespace libtorrent;
using namespace std::placeholders;
const int blocks_per_piece = 4;
bitfield string2vec(char const* have_str)
{
const int num_pieces = int(strlen(have_str));
bitfield have(num_pieces, false);
for (int i = 0; i < num_pieces; ++i)
if (have_str[i] != ' ') have.set_bit(i);
return have;
}
tcp::endpoint endp;
ipv4_peer tmp0(endp, false, 0);
ipv4_peer tmp1(endp, false, 0);
ipv4_peer tmp2(endp, false, 0);
ipv4_peer tmp3(endp, false, 0);
ipv4_peer tmp4(endp, false, 0);
ipv4_peer tmp5(endp, false, 0);
ipv4_peer tmp6(endp, false, 0);
ipv4_peer tmp7(endp, false, 0);
ipv4_peer tmp8(endp, false, 0);
ipv4_peer tmp9(endp, false, 0);
ipv4_peer peer_struct(endp, true, 0);
ipv4_peer* tmp_peer = &tmp1;
std::vector<int> const empty_vector;
#if TORRENT_USE_ASSERTS
namespace {
static struct initializer
{
initializer()
{
tmp0.in_use = true;
tmp1.in_use = true;
tmp2.in_use = true;
tmp3.in_use = true;
tmp4.in_use = true;
tmp5.in_use = true;
tmp6.in_use = true;
tmp7.in_use = true;
tmp8.in_use = true;
tmp9.in_use = true;
peer_struct.in_use = true;
}
} initializer_dummy;
}
#endif
// availability is a string where each character is the
// availability of that piece, '1', '2' etc.
// have_str is a string where each character represents a
// piece, ' ' means we don't have the piece and any other
// character means we have it
std::shared_ptr<piece_picker> setup_picker(
char const* availability
, char const* have_str
, char const* priority
, char const* partial)
{
const int num_pieces = int(strlen(availability));
TORRENT_ASSERT(int(strlen(have_str)) == num_pieces);
std::shared_ptr<piece_picker> p(new piece_picker);
p->init(blocks_per_piece, blocks_per_piece, num_pieces);
for (int i = 0; i < num_pieces; ++i)
{
const int avail = availability[i] - '0';
assert(avail >= 0);
static const torrent_peer* peers[10] = { &tmp0, &tmp1, &tmp2
, &tmp3, &tmp4, &tmp5, &tmp6, &tmp7, &tmp8, &tmp9 };
TORRENT_ASSERT(avail < 10);
for (int j = 0; j < avail; ++j) p->inc_refcount(i, peers[j]);
}
bitfield have = string2vec(have_str);
for (int i = 0; i < num_pieces; ++i)
{
if (partial[i] == 0) break;
if (partial[i] == ' ') continue;
int blocks = 0;
if (partial[i] >= '0' && partial[i] <= '9')
blocks = partial[i] - '0';
else
blocks = partial[i] - 'a' + 10;
int counter = 0;
for (int j = 0; j < 4; ++j)
{
TEST_CHECK(!p->is_finished(piece_block(i, j)));
if ((blocks & (1 << j)) == 0) continue;
++counter;
bool ret = p->mark_as_downloading(piece_block(i, j), tmp_peer);
TEST_CHECK(ret == true);
TEST_CHECK(p->is_requested(piece_block(i, j)) == ((blocks & (1 << j)) != 0));
p->mark_as_writing(piece_block(i, j), tmp_peer);
TEST_CHECK(!p->is_finished(piece_block(i, j)));
// trying to mark a block as requested after it has been completed
// should fail (return false)
ret = p->mark_as_downloading(piece_block(i, j), tmp_peer);
TEST_CHECK(ret == false);
p->mark_as_finished(piece_block(i, j), tmp_peer);
TEST_CHECK(p->is_downloaded(piece_block(i, j)) == ((blocks & (1 << j)) != 0));
TEST_CHECK(p->is_finished(piece_block(i, j)) == ((blocks & (1 << j)) != 0));
}
piece_picker::downloading_piece st;
p->piece_info(i, st);
TEST_EQUAL(int(st.writing), 0);
TEST_EQUAL(int(st.requested), 0);
TEST_EQUAL(int(st.index), i);
TEST_EQUAL(st.finished, counter);
TEST_EQUAL(st.finished + st.requested + st.writing, counter);
TEST_CHECK(p->is_piece_finished(i) == (counter == 4));
}
for (int i = 0; i < num_pieces; ++i)
{
if (priority[i] == 0) break;
const int prio = priority[i] - '0';
assert(prio >= 0);
p->set_piece_priority(i, prio);
TEST_CHECK(p->piece_priority(i) == prio);
}
for (int i = 0; i < num_pieces; ++i)
{
if (!have[i]) continue;
p->we_have(i);
for (int j = 0; j < blocks_per_piece; ++j)
TEST_CHECK(p->is_finished(piece_block(i, j)));
}
std::vector<int> availability_vec;
p->get_availability(availability_vec);
for (int i = 0; i < num_pieces; ++i)
{
const int avail = availability[i] - '0';
assert(avail >= 0);
TEST_CHECK(avail == availability_vec[i]);
}
#if TORRENT_USE_INVARIANT_CHECKS
p->check_invariant();
#endif
return p;
}
bool verify_pick(std::shared_ptr<piece_picker> p
, std::vector<piece_block> const& picked, bool allow_multi_blocks = false)
{
#if TORRENT_USE_INVARIANT_CHECKS
p->check_invariant();
#endif
if (!allow_multi_blocks)
{
for (std::vector<piece_block>::const_iterator i = picked.begin()
, end(picked.end()); i != end; ++i)
{
if (p->num_peers(*i) > 0) return false;
}
}
// make sure there are no duplicated
std::set<piece_block> blocks;
std::copy(picked.begin(), picked.end()
, std::insert_iterator<std::set<piece_block>>(blocks, blocks.end()));
std::cout << " verify: " << picked.size() << " " << blocks.size() << std::endl;
return picked.size() == blocks.size();
}
void print_availability(std::shared_ptr<piece_picker> const& p)
{
std::vector<int> avail;
p->get_availability(avail);
std::printf("[ ");
for (std::vector<int>::iterator i = avail.begin()
, end(avail.end()); i != end; ++i)
{
std::printf("%d ", *i);
}
std::printf("]\n");
}
bool verify_availability(std::shared_ptr<piece_picker> const& p, char const* a)
{
std::vector<int> avail;
p->get_availability(avail);
for (std::vector<int>::iterator i = avail.begin()
, end(avail.end()); i != end; ++i, ++a)
{
if (*a - '0' != *i) return false;
}
return true;
}
void print_pick(std::vector<piece_block> const& picked)
{
for (int i = 0; i < int(picked.size()); ++i)
{
std::cout << "(" << picked[i].piece_index << ", " << picked[i].block_index << ") ";
}
std::cout << std::endl;
}
std::vector<piece_block> pick_pieces(std::shared_ptr<piece_picker> const& p
, char const* availability
, int num_blocks
, int prefer_contiguous_blocks
, torrent_peer* peer_struct
, int options = piece_picker::rarest_first
, std::vector<int> const& suggested_pieces = empty_vector)
{
std::vector<piece_block> picked;
counters pc;
p->pick_pieces(string2vec(availability), picked
, num_blocks, prefer_contiguous_blocks, peer_struct
, options, suggested_pieces, 20, pc);
print_pick(picked);
TEST_CHECK(verify_pick(p, picked));
return picked;
}
int test_pick(std::shared_ptr<piece_picker> const& p
, int options = piece_picker::rarest_first)
{
const std::vector<int> empty_vector;
std::vector<piece_block> picked = pick_pieces(p, "*******", 1, 0, nullptr
, options, empty_vector);
if (picked.size() != 1) return -1;
return picked[0].piece_index;
}
const int options = piece_picker::rarest_first;
counters pc;
TORRENT_TEST(piece_block)
{
TEST_CHECK(piece_block(0, 0) != piece_block(0, 1));
TEST_CHECK(piece_block(0, 0) != piece_block(1, 0));
TEST_CHECK(!(piece_block(0, 0) != piece_block(0, 0)));
TEST_CHECK(!(piece_block(0, 0) == piece_block(0, 1)));
TEST_CHECK(!(piece_block(0, 0) == piece_block(1, 0)));
TEST_CHECK(piece_block(0, 0) == piece_block(0, 0));
TEST_CHECK(!(piece_block(0, 1) < piece_block(0, 0)));
TEST_CHECK(!(piece_block(1, 0) < piece_block(0, 0)));
TEST_CHECK(piece_block(0, 0) < piece_block(0, 1));
TEST_CHECK(piece_block(0, 0) < piece_block(1, 0));
TEST_CHECK(!(piece_block(0, 0) < piece_block(0, 0)));
TEST_CHECK(!(piece_block(1, 0) < piece_block(1, 0)));
TEST_CHECK(!(piece_block(0, 1) < piece_block(0, 1)));
}
TORRENT_TEST(abort_download)
{
// test abort_download
auto p = setup_picker("1111111", " ", "7110000", "");
auto picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());
p->abort_download(piece_block(0,0), tmp_peer);
picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());
p->mark_as_downloading(piece_block(0,0), &tmp1);
picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == true);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) == picked.end());
p->abort_download(piece_block(0,0), tmp_peer);
picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());
p->mark_as_downloading(piece_block(0,0), &tmp1);
p->mark_as_downloading(piece_block(0,1), &tmp1);
p->abort_download(piece_block(0,0), tmp_peer);
picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());
p->mark_as_downloading(piece_block(0,0), &tmp1);
p->mark_as_writing(piece_block(0,0), &tmp1);
p->write_failed(piece_block(0,0));
picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(1,0)) != picked.end()
|| std::find(picked.begin(), picked.end(), piece_block(2,0)) != picked.end());
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) == picked.end());
p->restore_piece(0);
picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());
p->mark_as_downloading(piece_block(0,0), &tmp1);
p->mark_as_writing(piece_block(0,0), &tmp1);
p->mark_as_finished(piece_block(0,0), &tmp1);
p->abort_download(piece_block(0,0), tmp_peer);
picked = pick_pieces(p, "*******", blocks_per_piece, 0, tmp_peer
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) == picked.end());
}
TORRENT_TEST(abort_download2)
{
auto p = setup_picker("1111111", " ", "7110000", "");
piece_picker::downloading_piece st;
p->mark_as_downloading(piece_block(0,0), &tmp1);
p->mark_as_finished(piece_block(0,1), nullptr);
p->piece_info(0, st);
TEST_EQUAL(st.requested, 1);
TEST_EQUAL(st.finished, 1);
p->abort_download(piece_block(0,0), tmp_peer);
p->piece_info(0, st);
TEST_EQUAL(st.requested, 0);
TEST_EQUAL(st.finished, 1);
auto picked = pick_pieces(p, "*******", blocks_per_piece, 0, nullptr
, options, empty_vector);
TEST_CHECK(p->is_requested(piece_block(0, 0)) == false);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(0,0)) != picked.end());
}
TORRENT_TEST(get_downloaders)
{
auto p = setup_picker("1111111", " ", "7110000", "");
p->mark_as_downloading(piece_block(0, 2), &tmp1);
p->mark_as_writing(piece_block(0, 2), &tmp1);
p->abort_download(piece_block(0, 2), &tmp1);
p->mark_as_downloading(piece_block(0, 2), &tmp2);
p->mark_as_writing(piece_block(0, 2), &tmp2);
std::vector<torrent_peer*> d;
p->get_downloaders(d, 0);
TEST_EQUAL(d.size(), 4);
TEST_CHECK(d[0] == nullptr);
TEST_CHECK(d[1] == nullptr);
TEST_CHECK(d[2] == &tmp2);
TEST_CHECK(d[3] == nullptr);
p->mark_as_downloading(piece_block(0, 3), &tmp1);
p->abort_download(piece_block(0, 3), &tmp1);
p->mark_as_downloading(piece_block(0, 3), &tmp2);
p->mark_as_writing(piece_block(0, 3), &tmp2);
p->get_downloaders(d, 0);
TEST_EQUAL(d.size(), 4);
TEST_CHECK(d[0] == nullptr);
TEST_CHECK(d[1] == nullptr);
TEST_CHECK(d[2] == &tmp2);
TEST_CHECK(d[3] == &tmp2);
// if we ask for downloaders for a piece that's not
// curently being downloaded, we get zeroes back
p->get_downloaders(d, 1);
TEST_EQUAL(d.size(), 4);
TEST_CHECK(d[0] == nullptr);
TEST_CHECK(d[1] == nullptr);
TEST_CHECK(d[2] == nullptr);
TEST_CHECK(d[3] == nullptr);
// ========================================================
p = setup_picker("2222", " ", "", "");
for (int i = 0; i < 4; ++i)
for (int k = 0; k < blocks_per_piece; ++k)
p->mark_as_downloading(piece_block(i, k), &tmp1);
p->mark_as_downloading(piece_block(0, 0), &tmp2);
std::printf("num_peers: %d\n", p->num_peers(piece_block(0, 0)));
TEST_EQUAL(p->num_peers(piece_block(0, 0)), 2);
p->abort_download(piece_block(0, 0), &tmp1);
std::printf("num_peers: %d\n", p->num_peers(piece_block(0, 0)));
TEST_EQUAL(p->num_peers(piece_block(0, 0)), 1);
}
TORRENT_TEST(pick_lowest_availability)
{
// make sure the block that is picked is from piece 1, since it
// it is the piece with the lowest availability
auto p = setup_picker("2223333", "* * * ", "", "");
TEST_CHECK(test_pick(p) == 1);
}
TORRENT_TEST(random_pick_at_same_priority)
{
// make sure pieces with equal priority and availability
// are picked at random
std::map<int, int> random_prio_pieces;
for (int i = 0; i < 100; ++i)
{
auto p = setup_picker("1111112", " ", "", "");
++random_prio_pieces[test_pick(p)];
}
TEST_CHECK(random_prio_pieces.size() == 6);
for (std::map<int, int>::iterator i = random_prio_pieces.begin()
, end(random_prio_pieces.end()); i != end; ++i)
std::cout << i->first << ": " << i->second << " ";
std::cout << std::endl;
}
TORRENT_TEST(pick_highest_priority)
{
// make sure the block that is picked is from piece 5, since it
// has the highest priority among the available pieces
auto p = setup_picker("1111111", " ", "1111121", "");
TEST_CHECK(test_pick(p) == 5);
p = setup_picker("1111111", " ", "1171121", "");
TEST_CHECK(test_pick(p) == 2);
p = setup_picker("1111111", " ", "1131521", "");
TEST_CHECK(test_pick(p) == 4);
}
TORRENT_TEST(reverse_rarest_first)
{
auto p = setup_picker("4179253", " ", "", "");
auto picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, &peer_struct
, piece_picker::rarest_first | piece_picker::reverse, empty_vector);
int expected_common_pieces[] = {3, 2, 5, 0, 6, 4, 1};
for (int i = 0; i < int(picked.size()); ++i)
{
TEST_CHECK(picked[i] == piece_block(expected_common_pieces[i / blocks_per_piece]
, i % blocks_per_piece));
}
// piece 3 should NOT be prioritized since it's a partial, and not
// reversed. Reversed partials are considered reversed
p = setup_picker("1122111", " ", "3333333", " 1 ");
TEST_CHECK(test_pick(p, piece_picker::rarest_first | piece_picker::reverse) == 2);
}
TORRENT_TEST(pick_whole_pieces)
{
// make sure the 4 blocks are picked from the same piece if
// whole pieces are preferred. Priority and availability is more
// important. Piece 1 has the lowest availability even though
// it is not a whole piece
auto p = setup_picker("2212222", " ", "1111111", "1023460");
auto picked = pick_pieces(p, "****** ", 1, blocks_per_piece
, &peer_struct, options, empty_vector);
TEST_EQUAL(int(picked.size()), 3);
for (int i = 0; i < blocks_per_piece && i < int(picked.size()); ++i)
TEST_EQUAL(picked[i].piece_index, 2);
p = setup_picker("1111111", " ", "1111111", "");
picked = pick_pieces(p, "****** ", 1, blocks_per_piece
, &peer_struct, options, empty_vector);
TEST_EQUAL(int(picked.size()), blocks_per_piece);
for (int i = 0; i < blocks_per_piece && i < int(picked.size()); ++i)
TEST_EQUAL(picked[i].block_index, i);
p = setup_picker("2221222", " ", "", "");
picked = pick_pieces(p, "*******", 1, 7 * blocks_per_piece
, &peer_struct, options, empty_vector);
TEST_EQUAL(int(picked.size()), 7 * blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(i / blocks_per_piece, i % blocks_per_piece));
}
TORRENT_TEST(distributed_copies)
{
// test the distributed copies function. It should include ourself
// in the availability. i.e. piece 0 has availability 2.
// there are 2 pieces with availability 2 and 5 with availability 3
auto p = setup_picker("1233333", "* ", "", "");
auto dc = p->distributed_copies();
TEST_CHECK(dc == std::make_pair(2, 5000 / 7));
}
TORRENT_TEST(filtered_pieces)
{
// make sure filtered pieces are ignored
auto p = setup_picker("1111111", " ", "0010000", "");
TEST_CHECK(test_pick(p, piece_picker::rarest_first) == 2);
TEST_CHECK(test_pick(p, piece_picker::rarest_first | piece_picker::reverse) == 2);
TEST_CHECK(test_pick(p, piece_picker::sequential) == 2);
TEST_CHECK(test_pick(p, piece_picker::sequential | piece_picker::reverse) == 2);
}
TORRENT_TEST(we_dont_have)
{
// make sure we_dont_have works
auto p = setup_picker("1111111", "*******", "0100000", "");
TEST_CHECK(p->have_piece(1));
TEST_CHECK(p->have_piece(2));
p->we_dont_have(1);
p->we_dont_have(2);
TEST_CHECK(!p->have_piece(1));
TEST_CHECK(!p->have_piece(2));
auto picked = pick_pieces(p, "*** ** ", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front().piece_index == 1);
}
TORRENT_TEST(dec_refcount_split_seed)
{
// make sure we can split m_seed when removing a refcount
auto p = setup_picker("0000000", " ", "0000000", "");
p->inc_refcount_all(nullptr);
std::vector<int> avail;
p->get_availability(avail);
TEST_EQUAL(avail.size(), 7);
TEST_CHECK(avail[0] != 0);
TEST_CHECK(avail[1] != 0);
TEST_CHECK(avail[2] != 0);
TEST_CHECK(avail[3] != 0);
TEST_CHECK(avail[4] != 0);
p->dec_refcount(3, nullptr);
p->get_availability(avail);
TEST_EQUAL(avail.size(), 7);
TEST_CHECK(avail[0] != 0);
TEST_CHECK(avail[1] != 0);
TEST_CHECK(avail[2] != 0);
TEST_CHECK(avail[3] == 0);
TEST_CHECK(avail[4] != 0);
}
TORRENT_TEST(init)
{
// make sure init preserves priorities
auto p = setup_picker("1111111", " ", "1111111", "");
TEST_CHECK(p->num_filtered() == 0);
TEST_CHECK(p->num_have_filtered() == 0);
TEST_CHECK(p->num_have() == 0);
p->set_piece_priority(0, 0);
TEST_CHECK(p->num_filtered() == 1);
TEST_CHECK(p->num_have_filtered() == 0);
TEST_CHECK(p->num_have() == 0);
p->we_have(0);
TEST_CHECK(p->num_filtered() == 0);
TEST_CHECK(p->num_have_filtered() == 1);
TEST_CHECK(p->num_have() == 1);
p->init(blocks_per_piece, blocks_per_piece, blocks_per_piece * 7);
TEST_CHECK(p->piece_priority(0) == 0);
TEST_CHECK(p->num_filtered() == 1);
TEST_CHECK(p->num_have_filtered() == 0);
TEST_CHECK(p->num_have() == 0);
}
TORRENT_TEST(dont_pick_requested_blocks)
{
// make sure requested blocks aren't picked
auto p = setup_picker("1111111", " ", "", "");
auto picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
piece_block first = picked.front();
p->mark_as_downloading(picked.front(), &peer_struct);
TEST_CHECK(p->num_peers(picked.front()) == 1);
picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front() != first);
}
TORRENT_TEST(downloading_piece_priority)
{
// make sure downloading pieces have higher priority
auto p = setup_picker("1111111", " ", "", "");
auto picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
auto first = picked.front();
p->mark_as_downloading(picked.front(), &peer_struct);
TEST_CHECK(p->num_peers(picked.front()) == 1);
picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front() != first);
TEST_CHECK(picked.front().piece_index == first.piece_index);
}
TORRENT_TEST(partial_piece_order_rarest_first)
{
// when we're prioritizing partial pieces, make sure to first pick the
// rarest of them. The blocks in this test are:
// 0: [ ] avail: 1
// 1: [x ] avail: 1
// 2: [xx ] avail: 1
// 3: [xxx ] avail: 2
// 4: [ ] avail: 1
// 5: [ ] avail: 1
// 6: [xxxx] avail: 1
// piece 6 does not have any blocks left to pick, even though piece 3 only
// has a single block left before it completes, it is less rare than piece
// 2. Piece 2 is the best pick in this case.
auto p = setup_picker("1112111", " ", "", "013700f");
auto picked = pick_pieces(p, "*******", 1, 0, nullptr
, options | piece_picker::prioritize_partials, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front() == piece_block(2, 2)
|| picked.front() == piece_block(2, 3));
}
TORRENT_TEST(partial_piece_order_most_complete)
{
// as a tie breaker, make sure downloading pieces closer to completion have
// higher priority. piece 3 is only 1 block from being completed, and should
// be picked
auto p = setup_picker("1111111", " ", "", "013700f");
auto picked = pick_pieces(p, "*******", 1, 0, nullptr
, options | piece_picker::prioritize_partials, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front() == piece_block(3, 3));
}
TORRENT_TEST(partial_piece_order_sequential)
{
// if we don't use rarest first when we prioritize partials, but instead use
// sequential order, make sure we pick the right one
auto p = setup_picker("1111111", " ", "", "013700f");
auto picked = pick_pieces(p, "*******", 1, 0, nullptr
, piece_picker::sequential | piece_picker::prioritize_partials, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front() == piece_block(1, 1)
|| picked.front() == piece_block(1, 2)
|| picked.front() == piece_block(1, 3));
}
TORRENT_TEST(random_picking_downloading_piece)
{
// make sure the random piece picker can still pick partial pieces
auto p = setup_picker("1111111", " ", "", "013700f");
auto picked = pick_pieces(p, " *** *", 1, 0, nullptr
, 0, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front() == piece_block(1, 1)
|| picked.front() == piece_block(2, 2)
|| picked.front() == piece_block(3, 3));
}
TORRENT_TEST(random_picking_downloading_piece_prefer_contiguous)
{
// make sure the random piece picker can still pick partial pieces
// even when prefer_contiguous_blocks is set
auto p = setup_picker("1111111", " ", "", "013700f");
auto picked = pick_pieces(p, " *** *", 1, 4, nullptr
, 0, empty_vector);
TEST_CHECK(int(picked.size()) > 0);
TEST_CHECK(picked.front() == piece_block(1, 1)
|| picked.front() == piece_block(2, 2)
|| picked.front() == piece_block(3, 3));
}
TORRENT_TEST(sequential_download)
{
// test sequential download
auto p = setup_picker("7654321", " ", "", "");
auto picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, nullptr
, piece_picker::sequential, empty_vector);
TEST_CHECK(int(picked.size()) == 7 * blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(i / blocks_per_piece, i % blocks_per_piece));
}
TORRENT_TEST(reverse_sequential_download)
{
// test reverse sequential download
auto p = setup_picker("7654321", " ", "", "");
auto picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, nullptr
, piece_picker::sequential | piece_picker::reverse, empty_vector);
TEST_CHECK(int(picked.size()) == 7 * blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(6 - (i / blocks_per_piece), i % blocks_per_piece));
}
TORRENT_TEST(priority_sequential_download)
{
// test priority sequential download
auto p = setup_picker("7654321", " ", "1117071", "");
auto picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, nullptr
, piece_picker::sequential, empty_vector);
// the piece with priority 0 was not picked, everything else should
// be picked
TEST_EQUAL(int(picked.size()), 6 * blocks_per_piece);
// the first two pieces picked should be 3 and 5 since those have priority 7
for (int i = 0; i < 2 * blocks_per_piece; ++i)
TEST_CHECK(picked[i].piece_index == 3 || picked[i].piece_index == 5);
int expected[] = {-1, -1, 0, 1, 2, 6};
for (int i = 2 * blocks_per_piece; i < int(picked.size()); ++i)
TEST_EQUAL(picked[i].piece_index, expected[i / blocks_per_piece]);
}
TORRENT_TEST(cursors_sweep_up_we_have)
{
// sweep up, we_have()
auto p = setup_picker("7654321", " ", "", "");
for (int i = 0; i < 7; ++i)
{
TEST_EQUAL(p->cursor(), i);
TEST_EQUAL(p->reverse_cursor(), 7);
p->we_have(i);
}
TEST_CHECK(p->is_finished());
TEST_CHECK(p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
}
TORRENT_TEST(cursors_sweep_up_set_piece_priority)
{
// sweep up, set_piece_priority()
auto p = setup_picker("7654321", " ", "", "");
for (int i = 0; i < 7; ++i)
{
TEST_EQUAL(p->cursor(), i);
TEST_EQUAL(p->reverse_cursor(), 7);
p->set_piece_priority(i, 0);
}
TEST_CHECK(p->is_finished());
TEST_CHECK(!p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
}
TORRENT_TEST(cursors_sweep_down_we_have)
{
// sweep down, we_have()
auto p = setup_picker("7654321", " ", "", "");
for (int i = 6; i >= 0; --i)
{
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), i + 1);
p->we_have(i);
}
TEST_CHECK(p->is_finished());
TEST_CHECK(p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
}
TORRENT_TEST(cursors_sweep_down_set_piece_priority)
{
// sweep down, set_piece_priority()
auto p = setup_picker("7654321", " ", "", "");
for (int i = 6; i >= 0; --i)
{
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), i + 1);
p->set_piece_priority(i, 0);
}
TEST_CHECK(p->is_finished());
TEST_CHECK(!p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
}
TORRENT_TEST(cursors_sweep_in_set_priority)
{
// sweep in, set_piece_priority()
auto p = setup_picker("7654321", " ", "", "");
for (int left = 0, right = 6; left <= 3 && right >= 3; ++left, --right)
{
TEST_EQUAL(p->cursor(), left);
TEST_EQUAL(p->reverse_cursor(), right + 1);
p->set_piece_priority(left, 0);
p->set_piece_priority(right, 0);
}
TEST_CHECK(p->is_finished());
TEST_CHECK(!p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
}
TORRENT_TEST(cursors_sweep_in_we_have)
{
// sweep in, we_have()
auto p = setup_picker("7654321", " ", "", "");
for (int left = 0, right = 6; left <= 3 && right >= 3; ++left, --right)
{
TEST_EQUAL(p->cursor(), left);
TEST_EQUAL(p->reverse_cursor(), right + 1);
p->we_have(left);
p->we_have(right);
}
TEST_CHECK(p->is_finished());
TEST_CHECK(p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
}
TORRENT_TEST(cursors_sweep_up_we_dont_have)
{
auto p = setup_picker("7654321", "*******", "", "");
TEST_CHECK(p->is_finished());
TEST_CHECK(p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
for (int i = 0; i < 7; ++i)
{
p->we_dont_have(i);
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), i + 1);
}
TEST_CHECK(!p->is_finished());
TEST_CHECK(!p->is_seeding());
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), 7);
}
TORRENT_TEST(cursors_sweep_down_we_dont_have)
{
auto p = setup_picker("7654321", "*******", "", "");
TEST_CHECK(p->is_finished());
TEST_CHECK(p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
for (int i = 6; i >= 0; --i)
{
p->we_dont_have(i);
TEST_EQUAL(p->cursor(), i);
TEST_EQUAL(p->reverse_cursor(), 7);
}
TEST_CHECK(!p->is_finished());
TEST_CHECK(!p->is_seeding());
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), 7);
}
TORRENT_TEST(cursors_sweep_out_we_dont_have)
{
auto p = setup_picker("7654321", "*******", "", "");
TEST_CHECK(p->is_finished());
TEST_CHECK(p->is_seeding());
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
for (int left = 3, right = 3; left >= 0 && right < 7; --left, ++right)
{
p->we_dont_have(left);
p->we_dont_have(right);
TEST_EQUAL(p->cursor(), left);
TEST_EQUAL(p->reverse_cursor(), right + 1);
}
TEST_CHECK(!p->is_finished());
TEST_CHECK(!p->is_seeding());
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), 7);
}
TORRENT_TEST(cursors)
{
// test cursors
auto p = setup_picker("7654321", " ", "", "");
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), 7);
p->we_have(1);
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), 7);
p->we_have(0);
TEST_EQUAL(p->cursor(), 2);
TEST_EQUAL(p->reverse_cursor(), 7);
p->we_have(5);
TEST_EQUAL(p->cursor(), 2);
TEST_EQUAL(p->reverse_cursor(), 7);
p->we_have(6);
TEST_EQUAL(p->cursor(), 2);
TEST_EQUAL(p->reverse_cursor(), 5);
p->we_have(4);
p->we_have(3);
p->we_have(2);
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
p = setup_picker("7654321", " ", "", "");
TEST_EQUAL(p->cursor() , 0);
TEST_EQUAL(p->reverse_cursor(), 7);
p->set_piece_priority(1, 0);
TEST_EQUAL(p->cursor(), 0);
TEST_EQUAL(p->reverse_cursor(), 7);
p->set_piece_priority(0, 0);
TEST_EQUAL(p->cursor(), 2);
TEST_EQUAL(p->reverse_cursor(), 7);
p->set_piece_priority(5, 0);
TEST_EQUAL(p->cursor(), 2);
TEST_EQUAL(p->reverse_cursor(), 7);
p->set_piece_priority(6, 0);
TEST_EQUAL(p->cursor(), 2);
TEST_EQUAL(p->reverse_cursor(), 5);
p->set_piece_priority(4, 0);
p->set_piece_priority(3, 0);
p->set_piece_priority(2, 0);
TEST_EQUAL(p->cursor(), 7);
TEST_EQUAL(p->reverse_cursor(), 0);
p->set_piece_priority(3, 1);
TEST_EQUAL(p->cursor(), 3);
TEST_EQUAL(p->reverse_cursor(), 4);
}
TORRENT_TEST(piece_priorities)
{
// test piece priorities
auto p = setup_picker("5555555", " ", "7654321", "");
TEST_CHECK(p->num_filtered() == 0);
TEST_CHECK(p->num_have_filtered() == 0);
p->set_piece_priority(0, 0);
TEST_CHECK(p->num_filtered() == 1);
TEST_CHECK(p->num_have_filtered() == 0);
p->mark_as_finished(piece_block(0,0), nullptr);
p->we_have(0);
TEST_CHECK(p->num_filtered() == 0);
TEST_CHECK(p->num_have_filtered() == 1);
p->we_dont_have(0);
p->set_piece_priority(0, 7);
auto picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, nullptr
, options, empty_vector);
TEST_CHECK(int(picked.size()) == 7 * blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(i / blocks_per_piece, i % blocks_per_piece));
// test changing priority on a piece we have
p->we_have(0);
p->set_piece_priority(0, 0);
p->set_piece_priority(0, 1);
p->set_piece_priority(0, 0);
std::vector<int> prios;
p->piece_priorities(prios);
TEST_CHECK(prios.size() == 7);
int prio_comp[] = {0, 6, 5, 4, 3, 2, 1};
TEST_CHECK(std::equal(prios.begin(), prios.end(), prio_comp));
std::vector<bool> filter;
p->filtered_pieces(filter);
TEST_CHECK(prios.size() == 7);
bool filter_comp[] = {true, false, false, false, false, false, false};
TEST_CHECK(std::equal(filter.begin(), filter.end(), filter_comp));
}
TORRENT_TEST(restore_piece)
{
// test restore_piece
auto p = setup_picker("1234567", " ", "", "");
p->mark_as_finished(piece_block(0,0), nullptr);
p->mark_as_finished(piece_block(0,1), nullptr);
p->mark_as_finished(piece_block(0,2), nullptr);
p->mark_as_finished(piece_block(0,3), nullptr);
auto picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) >= 1);
TEST_CHECK(picked.front().piece_index == 1);
p->restore_piece(0);
picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) >= 1);
TEST_CHECK(picked.front().piece_index == 0);
p->mark_as_finished(piece_block(0,0), nullptr);
p->mark_as_finished(piece_block(0,1), nullptr);
p->mark_as_finished(piece_block(0,2), nullptr);
p->mark_as_finished(piece_block(0,3), nullptr);
p->set_piece_priority(0, 0);
picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) >= 1);
TEST_CHECK(picked.front().piece_index == 1);
p->restore_piece(0);
picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) >= 1);
TEST_CHECK(picked.front().piece_index == 1);
p->set_piece_priority(0, 7);
picked = pick_pieces(p, "*******", 1, 0, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) >= 1);
TEST_CHECK(picked.front().piece_index == 0);
}
TORRENT_TEST(random_pick)
{
// test random mode
auto p = setup_picker("1234567", " ", "1111122", "");
std::set<int> random_pieces;
for (int i = 0; i < 100; ++i)
random_pieces.insert(test_pick(p, 0));
TEST_CHECK(random_pieces.size() == 7);
random_pieces.clear();
for (int i = 0; i < 7; ++i)
{
int piece = test_pick(p, 0);
p->we_have(piece);
random_pieces.insert(piece);
}
TEST_CHECK(random_pieces.size() == 7);
}
TORRENT_TEST(picking_downloading_blocks)
{
// make sure the piece picker will pick pieces that
// are already requested from other peers if it has to
auto p = setup_picker("1111111", " ", "", "");
p->mark_as_downloading(piece_block(2,2), &tmp1);
p->mark_as_downloading(piece_block(1,2), &tmp1);
std::vector<piece_block> picked;
picked.clear();
p->pick_pieces(string2vec("*******"), picked, 7 * blocks_per_piece, 0, nullptr
, piece_picker::prioritize_partials, empty_vector, 20
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// don't pick both busy pieces, if there are already other blocks picked
TEST_EQUAL(picked.size(), 7 * blocks_per_piece - 2);
picked.clear();
p->pick_pieces(string2vec("*******"), picked, 7 * blocks_per_piece, 0, nullptr
, piece_picker::prioritize_partials
| piece_picker::rarest_first, empty_vector, 20
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// don't pick both busy pieces, if there are already other blocks picked
TEST_EQUAL(picked.size(), 7 * blocks_per_piece - 2);
picked.clear();
p->pick_pieces(string2vec("*******"), picked, 7 * blocks_per_piece, 0, nullptr
, piece_picker::rarest_first, empty_vector, 20
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// don't pick both busy pieces, if there are already other blocks picked
TEST_EQUAL(picked.size(), 7 * blocks_per_piece - 2);
// make sure we still pick from a partial piece even when prefering whole pieces
picked.clear();
p->pick_pieces(string2vec(" * "), picked, 1, blocks_per_piece, nullptr
, piece_picker::rarest_first
| piece_picker::align_expanded_pieces, empty_vector, 20
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// always only pick one busy piece
TEST_EQUAL(picked.size(), 1);
TEST_CHECK(picked.size() >= 1 && picked[0].piece_index == 1);
// don't pick locked pieces
picked.clear();
p->lock_piece(1);
p->pick_pieces(string2vec(" ** "), picked, 7, 0, nullptr
, piece_picker::rarest_first, empty_vector, 20
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// always only pick one busy piece
TEST_EQUAL(picked.size(), 3);
TEST_CHECK(picked.size() >= 1 && picked[0].piece_index == 2);
p->restore_piece(1);
p->mark_as_downloading(piece_block(2,0), &tmp1);
p->mark_as_downloading(piece_block(2,1), &tmp1);
p->mark_as_downloading(piece_block(2,3), &tmp1);
p->mark_as_downloading(piece_block(1,0), &tmp1);
p->mark_as_downloading(piece_block(1,1), &tmp1);
p->mark_as_downloading(piece_block(1,2), &tmp1);
p->mark_as_downloading(piece_block(1,3), &tmp1);
picked.clear();
p->pick_pieces(string2vec(" ** "), picked, 2, 0, nullptr
, piece_picker::rarest_first, empty_vector, 20
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// always only pick one busy piece
TEST_EQUAL(picked.size(), 1);
picked.clear();
p->pick_pieces(string2vec(" ** "), picked, 2 * blocks_per_piece, 0, nullptr
, piece_picker::prioritize_partials, empty_vector, 0
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// always only pick one busy piece
TEST_EQUAL(picked.size(), 1);
picked.clear();
p->pick_pieces(string2vec(" ** "), picked, 2 * blocks_per_piece, 0, nullptr
, piece_picker::prioritize_partials, empty_vector, 20
, pc);
TEST_CHECK(verify_pick(p, picked, true));
print_pick(picked);
// always only pick one busy piece
TEST_EQUAL(picked.size(), 1);
}
TORRENT_TEST(clear_peer)
{
// test clear_peer
auto p = setup_picker("1123333", " ", "", "");
p->mark_as_downloading(piece_block(0, 0), &tmp1);
p->mark_as_downloading(piece_block(0, 1), &tmp2);
p->mark_as_downloading(piece_block(0, 2), &tmp3);
p->mark_as_downloading(piece_block(1, 1), &tmp1);
p->mark_as_downloading(piece_block(2, 1), &tmp2);
p->mark_as_downloading(piece_block(3, 1), &tmp3);
std::vector<torrent_peer*> dls;
torrent_peer* expected_dls1[] = {&tmp1, &tmp2, &tmp3, nullptr};
torrent_peer* expected_dls2[] = {nullptr, &tmp1, nullptr, nullptr};
torrent_peer* expected_dls3[] = {nullptr, &tmp2, nullptr, nullptr};
torrent_peer* expected_dls4[] = {nullptr, &tmp3, nullptr, nullptr};
torrent_peer* expected_dls5[] = {&tmp1, nullptr, &tmp3, nullptr};
p->get_downloaders(dls, 0);
TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls1));
p->get_downloaders(dls, 1);
TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls2));
p->get_downloaders(dls, 2);
TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls3));
p->get_downloaders(dls, 3);
TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls4));
p->clear_peer(&tmp2);
p->get_downloaders(dls, 0);
TEST_CHECK(std::equal(dls.begin(), dls.end(), expected_dls5));
}
TORRENT_TEST(have_all_have_none)
{
// test have_all and have_none
auto p = setup_picker("0123333", "* ", "", "");
auto dc = p->distributed_copies();
std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
TEST_CHECK(dc == std::make_pair(1, 5000 / 7));
p->inc_refcount_all(&tmp8);
dc = p->distributed_copies();
TEST_CHECK(dc == std::make_pair(2, 5000 / 7));
p->dec_refcount_all(&tmp8);
dc = p->distributed_copies();
std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
TEST_CHECK(dc == std::make_pair(1, 5000 / 7));
p->inc_refcount(0, &tmp0);
p->dec_refcount_all(&tmp0);
dc = p->distributed_copies();
std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
TEST_CHECK(dc == std::make_pair(0, 6000 / 7));
TEST_CHECK(test_pick(p) == 2);
}
TORRENT_TEST(have_all_have_none_seq_download)
{
// test have_all and have_none
auto p = setup_picker("0123333", "* ", "", "");
auto dc = p->distributed_copies();
std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
TEST_CHECK(dc == std::make_pair(1, 5000 / 7));
p->inc_refcount_all(&tmp8);
dc = p->distributed_copies();
std::cout << "distributed copies: " << dc.first << "." << (dc.second / 1000.f) << std::endl;
TEST_CHECK(dc == std::make_pair(2, 5000 / 7));
TEST_CHECK(test_pick(p) == 1);
}
TORRENT_TEST(inc_ref_dec_ref)
{
// test inc_ref and dec_ref
auto p = setup_picker("1233333", " * ", "", "");
TEST_CHECK(test_pick(p) == 0);
p->dec_refcount(0, &tmp0);
TEST_CHECK(test_pick(p) == 1);
p->dec_refcount(4, &tmp0);
p->dec_refcount(4, &tmp1);
TEST_CHECK(test_pick(p) == 4);
// decrease refcount on something that's not in the piece list
p->dec_refcount(5, &tmp0);
p->inc_refcount(5, &tmp0);
bitfield bits = string2vec("* ");
TEST_EQUAL(bits.get_bit(0), true);
TEST_EQUAL(bits.get_bit(1), false);
TEST_EQUAL(bits.get_bit(2), false);
TEST_EQUAL(bits.get_bit(3), false);
TEST_EQUAL(bits.get_bit(4), false);
TEST_EQUAL(bits.get_bit(5), false);
TEST_EQUAL(bits.get_bit(6), false);
p->inc_refcount(bits, &tmp0);
bits = string2vec(" * ");
TEST_EQUAL(bits.get_bit(0), false);
TEST_EQUAL(bits.get_bit(1), false);
TEST_EQUAL(bits.get_bit(2), false);
TEST_EQUAL(bits.get_bit(3), false);
TEST_EQUAL(bits.get_bit(4), true);
TEST_EQUAL(bits.get_bit(5), false);
TEST_EQUAL(bits.get_bit(6), false);
p->dec_refcount(bits, &tmp2);
TEST_EQUAL(test_pick(p), 0);
}
TORRENT_TEST(unverified_blocks)
{
// test unverified_blocks, marking blocks and get_downloader
auto p = setup_picker("1111111", " ", "", "0300700");
TEST_CHECK(p->unverified_blocks() == 2 + 3);
TEST_CHECK(p->get_downloader(piece_block(4, 0)) == tmp_peer);
TEST_CHECK(p->get_downloader(piece_block(4, 1)) == tmp_peer);
TEST_CHECK(p->get_downloader(piece_block(4, 2)) == tmp_peer);
TEST_CHECK(p->get_downloader(piece_block(4, 3)) == nullptr);
p->mark_as_downloading(piece_block(4, 3), &peer_struct);
TEST_CHECK(p->get_downloader(piece_block(4, 3)) == &peer_struct);
piece_picker::downloading_piece st;
p->piece_info(4, st);
TEST_CHECK(st.requested == 1);
TEST_CHECK(st.writing == 0);
TEST_CHECK(st.finished == 3);
TEST_CHECK(p->unverified_blocks() == 2 + 3);
p->mark_as_writing(piece_block(4, 3), &peer_struct);
TEST_CHECK(p->get_downloader(piece_block(4, 3)) == &peer_struct);
p->piece_info(4, st);
TEST_CHECK(st.requested == 0);
TEST_CHECK(st.writing == 1);
TEST_CHECK(st.finished == 3);
TEST_CHECK(p->unverified_blocks() == 2 + 3);
p->mark_as_finished(piece_block(4, 3), &peer_struct);
TEST_CHECK(p->get_downloader(piece_block(4, 3)) == &peer_struct);
p->piece_info(4, st);
TEST_CHECK(st.requested == 0);
TEST_CHECK(st.writing == 0);
TEST_CHECK(st.finished == 4);
TEST_CHECK(p->unverified_blocks() == 2 + 4);
p->we_have(4);
p->piece_info(4, st);
TEST_CHECK(st.requested == 0);
TEST_CHECK(st.writing == 0);
TEST_CHECK(st.finished == 4);
TEST_CHECK(p->get_downloader(piece_block(4, 3)) == nullptr);
TEST_CHECK(p->unverified_blocks() == 2);
}
TORRENT_TEST(prefer_cnotiguous_blocks)
{
// test prefer_contiguous_blocks
auto p = setup_picker("1111111", " ", "", "");
auto picked = pick_pieces(p, "*******", 1, 3 * blocks_per_piece
, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) >= 3 * blocks_per_piece);
piece_block b = picked.front();
for (int i = 1; i < int(picked.size()); ++i)
{
TEST_CHECK(picked[i].piece_index * blocks_per_piece + picked[i].block_index
== b.piece_index * blocks_per_piece + b.block_index + 1);
b = picked[i];
}
picked = pick_pieces(p, "*******", 1, 3 * blocks_per_piece
, nullptr, options, empty_vector);
TEST_CHECK(int(picked.size()) >= 3 * blocks_per_piece);
b = picked.front();
for (int i = 1; i < int(picked.size()); ++i)
{
TEST_CHECK(picked[i].piece_index * blocks_per_piece + picked[i].block_index
== b.piece_index * blocks_per_piece + b.block_index + 1);
b = picked[i];
}
// make sure pieces that don't match the 'whole pieces' requirement
// are picked if there's no other choice
p = setup_picker("1111111", " ", "", "");
p->mark_as_downloading(piece_block(2,2), &tmp1);
picked = pick_pieces(p, "*******", 7 * blocks_per_piece - 1, blocks_per_piece
, nullptr, options, empty_vector);
TEST_CHECK(picked.size() == 7 * blocks_per_piece - 1);
TEST_CHECK(std::find(picked.begin(), picked.end(), piece_block(2,2)) == picked.end());
}
TORRENT_TEST(prefer_aligned_whole_pieces)
{
auto p = setup_picker("2222221222222222", " ", "", "");
auto picked = pick_pieces(p, "****************", 1, 4 * blocks_per_piece, nullptr
, options | piece_picker::align_expanded_pieces, empty_vector);
// the piece picker should pick piece 5, and then align it to even 4 pieces
// i.e. it should have picked pieces: 4,5,6,7
print_pick(picked);
TEST_EQUAL(picked.size() , 4 * blocks_per_piece);
std::set<int> picked_pieces;
for (std::vector<piece_block>::iterator i = picked.begin()
, end(picked.end()); i != end; ++i)
picked_pieces.insert(picked_pieces.begin(), i->piece_index);
TEST_CHECK(picked_pieces.size() == 4);
int expected_pieces[] = {4,5,6,7};
TEST_CHECK(std::equal(picked_pieces.begin(), picked_pieces.end(), expected_pieces))
}
TORRENT_TEST(parole_mode)
{
// test parole mode
auto p = setup_picker("3333133", " ", "", "");
p->mark_as_finished(piece_block(0, 0), nullptr);
auto picked = pick_pieces(p, "*******", 1, blocks_per_piece, nullptr
, options | piece_picker::on_parole | piece_picker::prioritize_partials, empty_vector);
TEST_EQUAL(int(picked.size()), blocks_per_piece - 1);
for (int i = 1; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(0, i + 1));
// make sure that the partial piece is not picked by a
// peer that is has not downloaded/requested the other blocks
picked = pick_pieces(p, "*******", 1, blocks_per_piece
, &peer_struct
, options | piece_picker::on_parole | piece_picker::prioritize_partials, empty_vector);
TEST_EQUAL(int(picked.size()), blocks_per_piece);
for (int i = 1; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(4, i));
}
TORRENT_TEST(suggested_pieces)
{
// test suggested pieces
auto p = setup_picker("1111222233334444", " ", "", "");
int v[] = {1, 5};
const std::vector<int> suggested_pieces(v, v + 2);
auto picked = pick_pieces(p, "****************", 1, blocks_per_piece
, nullptr, options, suggested_pieces);
TEST_CHECK(int(picked.size()) >= blocks_per_piece);
for (int i = 1; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(1, i));
p->set_piece_priority(0, 0);
p->set_piece_priority(1, 0);
p->set_piece_priority(2, 0);
p->set_piece_priority(3, 0);
picked = pick_pieces(p, "****************", 1, blocks_per_piece
, nullptr, options, suggested_pieces);
TEST_CHECK(int(picked.size()) >= blocks_per_piece);
for (int i = 1; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(5, i));
p = setup_picker("1111222233334444", "**** ", "", "");
picked = pick_pieces(p, "****************", 1, blocks_per_piece
, nullptr, options, suggested_pieces);
TEST_CHECK(int(picked.size()) >= blocks_per_piece);
for (int i = 1; i < int(picked.size()); ++i)
TEST_CHECK(picked[i] == piece_block(5, i));
}
TORRENT_TEST(bitfield_optimization)
{
// test bitfield optimization
// we have less than half of the pieces
auto p = setup_picker("2122222211221222", " ", "", "");
// make sure it's not dirty
pick_pieces(p, "****************", 1, blocks_per_piece, nullptr);
print_availability(p);
p->dec_refcount(string2vec("** ** ** * "), &tmp0);
print_availability(p);
TEST_CHECK(verify_availability(p, "1022112200220222"));
// make sure it's not dirty
pick_pieces(p, "****************", 1, blocks_per_piece, nullptr);
p->inc_refcount(string2vec(" ** ** * * "), &tmp8);
print_availability(p);
TEST_CHECK(verify_availability(p, "1132123201220322"));
}
TORRENT_TEST(seed_optimization)
{
// test seed optimizaton
auto p = setup_picker("0000000000000000", " ", "", "");
// make sure it's not dirty
pick_pieces(p, "****************", 1, blocks_per_piece, nullptr);
p->inc_refcount_all(&tmp0);
print_availability(p);
TEST_CHECK(verify_availability(p, "1111111111111111"));
pick_pieces(p, "****************", 1, blocks_per_piece, nullptr);
p->dec_refcount(string2vec(" **** ** "), &tmp0);
print_availability(p);
TEST_CHECK(verify_availability(p, "1100001100111111"));
pick_pieces(p, "****************", 1, blocks_per_piece, nullptr);
p->inc_refcount(string2vec(" **** ** "), &tmp0);
TEST_CHECK(verify_availability(p, "1111111111111111"));
pick_pieces(p, "****************", 1, blocks_per_piece, nullptr);
p->dec_refcount_all(&tmp0);
TEST_CHECK(verify_availability(p, "0000000000000000"));
p->inc_refcount_all(&tmp1);
print_availability(p);
TEST_CHECK(verify_availability(p, "1111111111111111"));
pick_pieces(p, "****************", 1, blocks_per_piece, nullptr);
p->dec_refcount(3, &tmp1);
print_availability(p);
TEST_CHECK(verify_availability(p, "1110111111111111"));
p->inc_refcount(string2vec("****************"), &tmp2);
print_availability(p);
TEST_CHECK(verify_availability(p, "2221222222222222"));
p->inc_refcount(string2vec("* * * * * * * * "), &tmp3);
print_availability(p);
TEST_CHECK(verify_availability(p, "3231323232323232"));
p->dec_refcount(string2vec("****************"), &tmp2);
print_availability(p);
TEST_CHECK(verify_availability(p, "2120212121212121"));
p->dec_refcount(string2vec("* * * * * * * * "), &tmp3);
print_availability(p);
TEST_CHECK(verify_availability(p, "1110111111111111"));
}
TORRENT_TEST(reversed_peers)
{
// test reversed peers
auto p = setup_picker("3333333", " *****", "", "");
// a reversed peer picked a block from piece 0
// This should make the piece reversed
p->mark_as_downloading(piece_block(0,0), &tmp1
, piece_picker::reverse);
TEST_EQUAL(test_pick(p, piece_picker::rarest_first), 1);
// make sure another reversed peer pick the same piece
TEST_EQUAL(test_pick(p, piece_picker::rarest_first | piece_picker::reverse), 0);
}
TORRENT_TEST(reversed_piece_upgrade)
{
// test reversed pieces upgrading to normal pieces
auto p = setup_picker("3333333", " *****", "", "");
// make piece 0 partial and reversed
p->mark_as_downloading(piece_block(0,1), &tmp1
, piece_picker::reverse);
TEST_EQUAL(test_pick(p), 1);
// now have a regular peer pick the reversed block. It should now
// have turned into a regular one and be prioritized
p->mark_as_downloading(piece_block(0,2), &tmp1);
TEST_EQUAL(test_pick(p), 0);
}
TORRENT_TEST(reversed_piece_downgrade)
{
// test pieces downgrading to reversed pieces
// now make sure a piece can be demoted to reversed if there are no
// other outstanding requests
auto p = setup_picker("3333333", " ", "", "");
// make piece 0 partial and not reversed
p->mark_as_finished(piece_block(0,1), &tmp1);
// a reversed peer picked a block from piece 0
// This should make the piece reversed
p->mark_as_downloading(piece_block(0,0), &tmp1
, piece_picker::reverse);
TEST_EQUAL(test_pick(p, piece_picker::rarest_first | piece_picker::reverse), 0);
}
TORRENT_TEST(piece_stats)
{
auto p = setup_picker("3456789", "* ", "", "0300000");
piece_picker::piece_stats_t stat = p->piece_stats(0);
TEST_EQUAL(stat.peer_count, 3);
TEST_EQUAL(stat.have, 1);
TEST_EQUAL(stat.downloading, 0);
stat = p->piece_stats(1);
TEST_EQUAL(stat.peer_count, 4);
TEST_EQUAL(stat.have, 0);
TEST_EQUAL(stat.downloading, 1);
}
TORRENT_TEST(piece_passed)
{
auto p = setup_picker("1111111", "* ", "", "0300000");
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->num_passed(), 1);
TEST_EQUAL(p->num_have(), 1);
p->piece_passed(1);
TEST_EQUAL(p->num_passed(), 2);
TEST_EQUAL(p->num_have(), 1);
p->we_have(1);
TEST_EQUAL(p->num_have(), 2);
p->mark_as_finished(piece_block(2,0), &tmp1);
p->piece_passed(2);
TEST_EQUAL(p->num_passed(), 3);
// just because the hash check passed doesn't mean
// we "have" the piece. We need to write it to disk first
TEST_EQUAL(p->num_have(), 2);
// piece 2 already passed the hash check, as soon as we've
// written all the blocks to disk, we should have that piece too
p->mark_as_finished(piece_block(2,1), &tmp1);
p->mark_as_finished(piece_block(2,2), &tmp1);
p->mark_as_finished(piece_block(2,3), &tmp1);
TEST_EQUAL(p->num_have(), 3);
TEST_EQUAL(p->have_piece(2), true);
}
TORRENT_TEST(piece_passed_causing_we_have)
{
auto p = setup_picker("1111111", "* ", "", "0700000");
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->num_passed(), 1);
TEST_EQUAL(p->num_have(), 1);
p->mark_as_finished(piece_block(1,3), &tmp1);
TEST_EQUAL(p->num_passed(), 1);
TEST_EQUAL(p->num_have(), 1);
p->piece_passed(1);
TEST_EQUAL(p->num_passed(), 2);
TEST_EQUAL(p->num_have(), 2);
}
TORRENT_TEST(break_one_seed)
{
auto p = setup_picker("0000000", "* ", "", "0700000");
p->inc_refcount_all(&tmp1);
p->inc_refcount_all(&tmp2);
p->inc_refcount_all(&tmp3);
TEST_EQUAL(p->piece_stats(0).peer_count, 3);
p->dec_refcount(0, &tmp1);
TEST_EQUAL(p->piece_stats(0).peer_count, 2);
TEST_EQUAL(p->piece_stats(1).peer_count, 3);
TEST_EQUAL(p->piece_stats(2).peer_count, 3);
TEST_EQUAL(p->piece_stats(3).peer_count, 3);
}
TORRENT_TEST(we_dont_have2)
{
auto p = setup_picker("1111111", "* * ", "1101111", "");
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->has_piece_passed(2), true);
TEST_EQUAL(p->num_passed(), 2);
TEST_EQUAL(p->num_have(), 2);
TEST_EQUAL(p->num_have_filtered(), 1);
TEST_EQUAL(p->num_filtered(), 0);
p->we_dont_have(0);
TEST_EQUAL(p->has_piece_passed(0), false);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->has_piece_passed(2), true);
TEST_EQUAL(p->num_passed(), 1);
TEST_EQUAL(p->num_have(), 1);
TEST_EQUAL(p->num_have_filtered(), 1);
p = setup_picker("1111111", "* * ", "1101111", "");
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->has_piece_passed(2), true);
TEST_EQUAL(p->num_passed(), 2);
TEST_EQUAL(p->num_have(), 2);
TEST_EQUAL(p->num_have_filtered(), 1);
TEST_EQUAL(p->num_filtered(), 0);
p->we_dont_have(2);
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->has_piece_passed(2), false);
TEST_EQUAL(p->num_passed(), 1);
TEST_EQUAL(p->num_have(), 1);
TEST_EQUAL(p->num_have_filtered(), 0);
}
TORRENT_TEST(dont_have_but_passed_hash_check)
{
auto p = setup_picker("1111111", "* * ", "1101111", "0200000");
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->have_piece(0), true)
TEST_EQUAL(p->have_piece(1), false)
p->piece_passed(1);
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), true);
TEST_EQUAL(p->have_piece(1), false)
p->we_dont_have(1);
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->have_piece(1), false)
}
TORRENT_TEST(write_failed)
{
auto p = setup_picker("1111111", "* * ", "1101111", "0200000");
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->have_piece(1), false);
p->piece_passed(1);
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), true);
TEST_EQUAL(p->have_piece(1), false);
p->mark_as_writing(piece_block(1, 0), &tmp1);
p->write_failed(piece_block(1, 0));
TEST_EQUAL(p->has_piece_passed(0), true);
TEST_EQUAL(p->has_piece_passed(1), false);
TEST_EQUAL(p->have_piece(1), false);
// make sure write_failed() and lock_piece() actually
// locks the piece, and that it won't be picked.
// also make sure restore_piece() unlocks it and makes
// it available for picking again.
auto picked = pick_pieces(p, " * ", 1, blocks_per_piece, nullptr);
TEST_EQUAL(picked.size(), 0);
p->restore_piece(1);
picked = pick_pieces(p, " * ", 1, blocks_per_piece, nullptr);
TEST_EQUAL(picked.size(), blocks_per_piece);
// locking pieces only works on partial pieces
p->mark_as_writing(piece_block(1, 0), &tmp1);
p->lock_piece(1);
picked = pick_pieces(p, " * ", 1, blocks_per_piece, nullptr);
TEST_EQUAL(picked.size(), 0);
}
TORRENT_TEST(write_failed_clear_piece)
{
auto p = setup_picker("1111111", "* * ", "1101111", "");
auto stat = p->piece_stats(1);
TEST_EQUAL(stat.downloading, 0);
p->mark_as_writing(piece_block(1, 0), &tmp1);
stat = p->piece_stats(1);
TEST_EQUAL(stat.downloading, 1);
p->write_failed(piece_block(1, 0));
stat = p->piece_stats(1);
TEST_EQUAL(stat.downloading, 0);
}
TORRENT_TEST(mark_as_canceled)
{
auto p = setup_picker("1111111", "* * ", "1101111", "");
auto stat = p->piece_stats(1);
TEST_EQUAL(stat.downloading, 0);
p->mark_as_writing(piece_block(1, 0), &tmp1);
stat = p->piece_stats(1);
TEST_EQUAL(stat.downloading, 1);
p->mark_as_canceled(piece_block(1, 0), &tmp1);
stat = p->piece_stats(1);
TEST_EQUAL(stat.downloading, 0);
}
TORRENT_TEST(get_download_queue)
{
auto p = setup_picker("1111111", " ", "1101111", "0327000");
std::vector<piece_picker::downloading_piece> downloads
= p->get_download_queue();
// the download queue should have piece 1, 2 and 3 in it
TEST_EQUAL(downloads.size(), 3);
TEST_EQUAL(std::count_if(downloads.begin(), downloads.end()
, [](piece_picker::downloading_piece const& p) { return p.index == 1; }), 1);
TEST_EQUAL(std::count_if(downloads.begin(), downloads.end()
, [](piece_picker::downloading_piece const& p) { return p.index == 2; }), 1);
TEST_EQUAL(std::count_if(downloads.begin(), downloads.end()
, [](piece_picker::downloading_piece const& p) { return p.index == 3; }), 1);
}
TORRENT_TEST(get_download_queue_size)
{
auto p = setup_picker("1111111", " ", "1111111", "0327ff0");
TEST_EQUAL(p->get_download_queue_size(), 5);
p->set_piece_priority(1, 0);
int partial;
int full;
int finished;
int zero_prio;
p->get_download_queue_sizes(&partial, &full, &finished, &zero_prio);
TEST_EQUAL(partial, 2);
TEST_EQUAL(full, 0);
TEST_EQUAL(finished, 2);
TEST_EQUAL(zero_prio, 1);
}
TORRENT_TEST(time_critical_mode)
{
auto p = setup_picker("1111111", " ", "1654741", "0352000");
// rarest-first
auto picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, tmp_peer
, piece_picker::rarest_first | piece_picker::time_critical_mode, empty_vector);
TEST_EQUAL(picked.size(), blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_EQUAL(picked[0].piece_index, 4);
// reverse rarest-first
picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, tmp_peer
, piece_picker::reverse | piece_picker::rarest_first
| piece_picker::time_critical_mode, empty_vector);
TEST_EQUAL(picked.size(), blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_EQUAL(picked[0].piece_index, 4);
// sequential
picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, tmp_peer
, piece_picker::sequential | piece_picker::time_critical_mode, empty_vector);
TEST_EQUAL(picked.size(), blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_EQUAL(picked[0].piece_index, 4);
// reverse sequential
picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, tmp_peer
, piece_picker::reverse | piece_picker::sequential
| piece_picker::time_critical_mode, empty_vector);
TEST_EQUAL(picked.size(), blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_EQUAL(picked[0].piece_index, 4);
// just critical
picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, tmp_peer
, piece_picker::time_critical_mode, empty_vector);
TEST_EQUAL(picked.size(), blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_EQUAL(picked[0].piece_index, 4);
// prioritize_partials
picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, tmp_peer
, piece_picker::prioritize_partials | piece_picker::time_critical_mode, empty_vector);
TEST_EQUAL(picked.size(), blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_EQUAL(picked[0].piece_index, 4);
// even when a non-critical piece is suggested should we ignore it
int v[] = {1, 5};
const std::vector<int> suggested_pieces(v, v + 2);
picked = pick_pieces(p, "*******", 7 * blocks_per_piece, 0, tmp_peer
, piece_picker::rarest_first | piece_picker::time_critical_mode
, suggested_pieces);
TEST_EQUAL(picked.size(), blocks_per_piece);
for (int i = 0; i < int(picked.size()); ++i)
TEST_EQUAL(picked[0].piece_index, 4);
}
TORRENT_TEST(reprioritize_downloading)
{
auto p = setup_picker("1111111", " ", "", "");
bool ret;
ret = p->mark_as_downloading(piece_block(0, 0), tmp_peer);
TEST_EQUAL(ret, true);
p->mark_as_finished(piece_block(0, 1), tmp_peer);
ret = p->mark_as_writing(piece_block(0, 2), tmp_peer);
TEST_EQUAL(ret, true);
// make sure we pick the partial piece (i.e. piece 0)
TEST_EQUAL(test_pick(p, piece_picker::rarest_first | piece_picker::prioritize_partials), 0);
// set the priority of the piece to 0 (while downloading it)
ret = p->set_piece_priority(0, 0);
TEST_EQUAL(ret, true);
// make sure we _DON'T_ pick the partial piece, since it has priority zero
int const picked_piece = test_pick(p, piece_picker::rarest_first
| piece_picker::prioritize_partials);
TEST_NE(picked_piece, -1);
TEST_NE(picked_piece, 0);
// set the priority of the piece back to 1. It should now be the best pick
// again (since it's partial)
ret = p->set_piece_priority(0, 1);
TEST_EQUAL(ret, true);
// make sure we pick the partial piece
TEST_EQUAL(test_pick(p, piece_picker::rarest_first
| piece_picker::prioritize_partials), 0);
}
TORRENT_TEST(reprioritize_fully_downloading)
{
auto p = setup_picker("1111111", " ", "", "");
bool ret;
for (int i = 0; i < blocks_per_piece; ++i)
{
ret = p->mark_as_downloading(piece_block(0, i), tmp_peer);
TEST_EQUAL(ret, true);
}
// make sure we _DON'T_ pick the downloading piece
{
int const picked_piece = test_pick(p, piece_picker::rarest_first
| piece_picker::prioritize_partials);
TEST_NE(picked_piece, -1);
TEST_NE(picked_piece, 0);
}
// set the priority of the piece to 0 (while downloading it)
ret = p->set_piece_priority(0, 0);
TEST_EQUAL(ret, true);
// make sure we still _DON'T_ pick the downloading piece
{
int const picked_piece = test_pick(p, piece_picker::rarest_first
| piece_picker::prioritize_partials);
TEST_NE(picked_piece, -1);
TEST_NE(picked_piece, 0);
}
// set the priority of the piece back to 1. It should now be the best pick
// again (since it's partial)
ret = p->set_piece_priority(0, 1);
TEST_EQUAL(ret, true);
// make sure we still _DON'T_ pick the downloading piece
{
int const picked_piece = test_pick(p, piece_picker::rarest_first
| piece_picker::prioritize_partials);
TEST_NE(picked_piece, -1);
TEST_NE(picked_piece, 0);
}
}
TORRENT_TEST(download_filtered_piece)
{
auto p = setup_picker("1111111", " ", "", "");
bool ret;
// set the priority of the piece to 0
ret = p->set_piece_priority(0, 0);
TEST_EQUAL(ret, true);
// make sure we _DON'T_ pick piece 0
{
int const picked_piece = test_pick(p, piece_picker::rarest_first
| piece_picker::prioritize_partials);
TEST_NE(picked_piece, -1);
TEST_NE(picked_piece, 0);
}
// then mark it for downloading
ret = p->mark_as_downloading(piece_block(0, 0), tmp_peer);
TEST_EQUAL(ret, true);
p->mark_as_finished(piece_block(0, 1), tmp_peer);
ret = p->mark_as_writing(piece_block(0, 2), tmp_peer);
TEST_EQUAL(ret, true);
{
// we still should not pick it
int const picked_piece = test_pick(p, piece_picker::rarest_first
| piece_picker::prioritize_partials);
TEST_NE(picked_piece, -1);
TEST_NE(picked_piece, 0);
}
// set the priority of the piece back to 1. It should now be the best pick
// again (since it's partial)
ret = p->set_piece_priority(0, 1);
TEST_EQUAL(ret, true);
// make sure we pick piece 0
TEST_EQUAL(test_pick(p, piece_picker::rarest_first | piece_picker::prioritize_partials), 0);
}
//TODO: 2 test picking with partial pieces and other peers present so that both
// backup_pieces and backup_pieces2 are used