2022-01-20 18:27:56 +00:00
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// This file Copyright (C) 2021-2022 Mnemosyne LLC.
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// It may be used under GPLv2 (SPDX: GPL-2.0), GPLv3 (SPDX: GPL-3.0),
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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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2021-11-29 01:12:54 +00:00
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#include <array>
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#include <numeric>
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#include <cstdint>
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#include "transmission.h"
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#include "block-info.h"
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#include "file-piece-map.h"
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#include "gtest/gtest.h"
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class FilePieceMapTest : public ::testing::Test
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{
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protected:
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2022-02-23 20:25:06 +00:00
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static constexpr size_t PieceSize{ tr_block_info::BlockSize };
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static constexpr size_t TotalSize{ 10 * PieceSize + 1 };
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tr_block_info const block_info_{ TotalSize, PieceSize };
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static constexpr std::array<uint64_t, 17> FileSizes{
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5 * PieceSize, // [offset 0] begins and ends on a piece boundary
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0, // [offset 5 P] zero-sized files
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0,
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0,
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0,
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PieceSize / 2, // [offset 5 P] begins on a piece boundary
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PieceSize, // [offset 5.5 P] neither begins nor ends on a piece boundary, spans >1 piece
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10, // [offset 6.5 P] small files all contained in a single piece
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9,
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8,
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7,
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6,
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(3 * PieceSize + PieceSize / 2 + 1 - 10 - 9 - 8 - 7 - 6), // [offset 5.75P +10+9+8+7+6] ends end-of-torrent
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0, // [offset 10P+1] zero-sized files at the end-of-torrent
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0,
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0,
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0,
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// sum is 10P + 1 == TotalSize
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2021-11-29 01:12:54 +00:00
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};
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void SetUp() override
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{
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static_assert(
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FileSizes[0] + FileSizes[1] + FileSizes[2] + FileSizes[3] + FileSizes[4] + FileSizes[5] + FileSizes[6] +
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FileSizes[7] + FileSizes[8] + FileSizes[9] + FileSizes[10] + FileSizes[11] + FileSizes[12] + FileSizes[13] +
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FileSizes[14] + FileSizes[15] + FileSizes[16] ==
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TotalSize);
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2022-04-14 01:22:59 +00:00
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EXPECT_EQ(11, block_info_.pieceCount());
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EXPECT_EQ(PieceSize, block_info_.pieceSize());
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EXPECT_EQ(TotalSize, block_info_.totalSize());
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EXPECT_EQ(TotalSize, std::accumulate(std::begin(FileSizes), std::end(FileSizes), uint64_t{ 0 }));
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}
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};
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2021-12-24 06:39:55 +00:00
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TEST_F(FilePieceMapTest, fileOffset)
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{
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auto const fpm = tr_file_piece_map{ block_info_, std::data(FileSizes), std::size(FileSizes) };
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// first byte of the first file
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auto file_offset = fpm.fileOffset(0);
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EXPECT_EQ(0U, file_offset.index);
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EXPECT_EQ(0U, file_offset.offset);
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// final byte of the first file
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file_offset = fpm.fileOffset(FileSizes[0] - 1);
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EXPECT_EQ(0U, file_offset.index);
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EXPECT_EQ(FileSizes[0] - 1, file_offset.offset);
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// first byte of the second file
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// NB: this is an edge case, second file is 0 bytes.
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// The second nonzero file is file #5
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file_offset = fpm.fileOffset(FileSizes[0]);
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EXPECT_EQ(5U, file_offset.index);
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EXPECT_EQ(0U, file_offset.offset);
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// the last byte of in the torrent.
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// NB: reverse of previous edge case, since
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// the final 4 files in the torrent are all 0 bytes
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file_offset = fpm.fileOffset(TotalSize - 1);
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EXPECT_EQ(12U, file_offset.index);
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EXPECT_EQ(FileSizes[12] - 1, file_offset.offset);
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}
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2021-11-29 01:12:54 +00:00
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TEST_F(FilePieceMapTest, pieceSpan)
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{
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// Note to reviewers: it's easy to see a nonexistent fencepost error here.
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// Remember everything is zero-indexed, so the 11 valid pieces are [0..10]
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// and that last piece #10 has one byte in it. Piece #11 is the 'end' iterator position.
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auto constexpr ExpectedPieceSpans = std::array<tr_file_piece_map::piece_span_t, 17>{ {
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{ 0, 5 },
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{ 5, 6 },
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{ 5, 6 },
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{ 5, 6 },
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{ 5, 6 },
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{ 5, 6 },
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{ 5, 7 },
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{ 6, 7 },
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{ 6, 7 },
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{ 6, 7 },
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{ 6, 7 },
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{ 6, 7 },
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{ 6, 11 },
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{ 10, 11 },
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{ 10, 11 },
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{ 10, 11 },
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{ 10, 11 },
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} };
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EXPECT_EQ(std::size(FileSizes), std::size(ExpectedPieceSpans));
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auto const fpm = tr_file_piece_map{ block_info_, std::data(FileSizes), std::size(FileSizes) };
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tr_file_index_t const n = std::size(fpm);
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EXPECT_EQ(std::size(FileSizes), n);
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uint64_t offset = 0;
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for (tr_file_index_t file = 0; file < n; ++file)
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{
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EXPECT_EQ(ExpectedPieceSpans[file].begin, fpm.pieceSpan(file).begin);
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EXPECT_EQ(ExpectedPieceSpans[file].end, fpm.pieceSpan(file).end);
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offset += FileSizes[file];
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}
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EXPECT_EQ(TotalSize, offset);
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EXPECT_EQ(block_info_.pieceCount(), fpm.pieceSpan(std::size(FileSizes) - 1).end);
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}
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TEST_F(FilePieceMapTest, priorities)
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{
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auto const fpm = tr_file_piece_map{ block_info_, std::data(FileSizes), std::size(FileSizes) };
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auto file_priorities = tr_file_priorities(&fpm);
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tr_file_index_t const n_files = std::size(FileSizes);
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// make a helper to compare file & piece priorities
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auto expected_file_priorities = std::vector<tr_priority_t>(n_files, TR_PRI_NORMAL);
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auto expected_piece_priorities = std::vector<tr_priority_t>(block_info_.pieceCount(), TR_PRI_NORMAL);
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auto const compare_to_expected = [&, this]()
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{
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for (tr_file_index_t i = 0; i < n_files; ++i)
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{
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EXPECT_EQ(int(expected_file_priorities[i]), int(file_priorities.filePriority(i)));
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}
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for (tr_piece_index_t i = 0; i < block_info_.pieceCount(); ++i)
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{
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EXPECT_EQ(int(expected_piece_priorities[i]), int(file_priorities.piecePriority(i)));
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}
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};
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// check default priority is normal
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compare_to_expected();
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// set the first file as high priority.
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// since this begins and ends on a piece boundary,
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// this shouldn't affect any other files' pieces
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auto pri = TR_PRI_HIGH;
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file_priorities.set(0, pri);
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expected_file_priorities[0] = pri;
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for (size_t i = 0; i < 5; ++i)
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{
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expected_piece_priorities[i] = pri;
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}
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compare_to_expected();
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// This file shares a piece with another file.
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// If _either_ is set to high, the piece's priority should be high.
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// file #5: byte [500..550) piece [5, 6)
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// file #6: byte [550..650) piece [5, 7)
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//
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// first test setting file #5...
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pri = TR_PRI_HIGH;
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file_priorities.set(5, pri);
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expected_file_priorities[5] = pri;
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expected_piece_priorities[5] = pri;
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compare_to_expected();
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// ...and that shared piece should still be the same when both are high...
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file_priorities.set(6, pri);
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expected_file_priorities[6] = pri;
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expected_piece_priorities[5] = pri;
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expected_piece_priorities[6] = pri;
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compare_to_expected();
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// ...and that shared piece should still be the same when only 6 is high...
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pri = TR_PRI_NORMAL;
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file_priorities.set(5, pri);
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expected_file_priorities[5] = pri;
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compare_to_expected();
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// setup for the next test: set all files to low priority
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pri = TR_PRI_LOW;
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for (tr_file_index_t i = 0; i < n_files; ++i)
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{
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file_priorities.set(i, pri);
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}
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std::fill(std::begin(expected_file_priorities), std::end(expected_file_priorities), pri);
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std::fill(std::begin(expected_piece_priorities), std::end(expected_piece_priorities), pri);
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compare_to_expected();
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// Raise the priority of a small 1-piece file.
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// Since it's the highest priority in the piece, piecePriority() should return its value.
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// file #8: byte [650, 659) piece [6, 7)
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pri = TR_PRI_NORMAL;
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file_priorities.set(8, pri);
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expected_file_priorities[8] = pri;
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expected_piece_priorities[6] = pri;
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compare_to_expected();
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// Raise the priority of another small 1-piece file in the same piece.
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// Since _it_ now has the highest priority in the piece, piecePriority should return _its_ value.
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// file #9: byte [659, 667) piece [6, 7)
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pri = TR_PRI_HIGH;
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file_priorities.set(9, pri);
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expected_file_priorities[9] = pri;
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expected_piece_priorities[6] = pri;
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compare_to_expected();
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// Prep for the next test: set all files to normal priority
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pri = TR_PRI_NORMAL;
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for (tr_file_index_t i = 0; i < n_files; ++i)
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{
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file_priorities.set(i, pri);
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}
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std::fill(std::begin(expected_file_priorities), std::end(expected_file_priorities), pri);
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std::fill(std::begin(expected_piece_priorities), std::end(expected_piece_priorities), pri);
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compare_to_expected();
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// *Sigh* OK what happens to piece priorities if you set the priority
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// of a zero-byte file. Arguably nothing should happen since you can't
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// download an empty file. But that would complicate the code for a
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// pretty stupid use case, and treating 0-sized files the same as any
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// other does no real harm. Let's KISS.
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//
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// Check that even zero-sized files can change a piece's priority
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// file #1: byte [500, 500) piece [5, 6)
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pri = TR_PRI_HIGH;
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file_priorities.set(1, pri);
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expected_file_priorities[1] = pri;
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expected_piece_priorities[5] = pri;
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compare_to_expected();
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// Check that zero-sized files at the end of a torrent change the last piece's priority.
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// file #16 byte [1001, 1001) piece [10, 11)
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file_priorities.set(16, pri);
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expected_file_priorities[16] = pri;
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expected_piece_priorities[10] = pri;
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compare_to_expected();
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// test the batch API
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auto file_indices = std::vector<tr_file_index_t>(n_files);
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std::iota(std::begin(file_indices), std::end(file_indices), 0);
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pri = TR_PRI_HIGH;
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file_priorities.set(std::data(file_indices), std::size(file_indices), pri);
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std::fill(std::begin(expected_file_priorities), std::end(expected_file_priorities), pri);
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std::fill(std::begin(expected_piece_priorities), std::end(expected_piece_priorities), pri);
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compare_to_expected();
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pri = TR_PRI_LOW;
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file_priorities.set(std::data(file_indices), std::size(file_indices), pri);
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std::fill(std::begin(expected_file_priorities), std::end(expected_file_priorities), pri);
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std::fill(std::begin(expected_piece_priorities), std::end(expected_piece_priorities), pri);
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compare_to_expected();
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}
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TEST_F(FilePieceMapTest, wanted)
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{
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auto const fpm = tr_file_piece_map{ block_info_, std::data(FileSizes), std::size(FileSizes) };
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auto files_wanted = tr_files_wanted(&fpm);
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tr_file_index_t const n_files = std::size(FileSizes);
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// make a helper to compare file & piece priorities
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auto expected_files_wanted = tr_bitfield(n_files);
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auto expected_pieces_wanted = tr_bitfield(block_info_.pieceCount());
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auto const compare_to_expected = [&, this]()
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{
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for (tr_file_index_t i = 0; i < n_files; ++i)
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{
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EXPECT_EQ(int(expected_files_wanted.test(i)), int(files_wanted.fileWanted(i)));
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}
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for (tr_piece_index_t i = 0; i < block_info_.pieceCount(); ++i)
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{
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EXPECT_EQ(int(expected_pieces_wanted.test(i)), int(files_wanted.pieceWanted(i)));
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}
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};
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// check everything is wanted by default
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expected_files_wanted.setHasAll();
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expected_pieces_wanted.setHasAll();
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compare_to_expected();
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// set the first file as not wanted.
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// since this begins and ends on a piece boundary,
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// this shouldn't affect any other files' pieces
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bool wanted = false;
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files_wanted.set(0, wanted);
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expected_files_wanted.set(0, wanted);
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expected_pieces_wanted.setSpan(0, 5, wanted);
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compare_to_expected();
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// now test when a piece has >1 file.
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// if *any* file in that piece is wanted, then we want the piece too.
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// file #1: byte [100..100) piece [5, 6) (zero-byte file)
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// file #2: byte [100..100) piece [5, 6) (zero-byte file)
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// file #3: byte [100..100) piece [5, 6) (zero-byte file)
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// file #4: byte [100..100) piece [5, 6) (zero-byte file)
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// file #5: byte [500..550) piece [5, 6)
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// file #6: byte [550..650) piece [5, 7)
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//
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// first test setting file #5...
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files_wanted.set(5, false);
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expected_files_wanted.unset(5);
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compare_to_expected();
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// marking all the files in the piece as unwanted
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// should cause the piece to become unwanted
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files_wanted.set(1, false);
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files_wanted.set(2, false);
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files_wanted.set(3, false);
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files_wanted.set(4, false);
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files_wanted.set(5, false);
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files_wanted.set(6, false);
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expected_files_wanted.setSpan(1, 7, false);
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expected_pieces_wanted.unset(5);
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compare_to_expected();
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// but as soon as any of them is turned back to wanted,
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// the piece should pop back.
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files_wanted.set(6, true);
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expected_files_wanted.set(6, true);
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expected_pieces_wanted.set(5);
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compare_to_expected();
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files_wanted.set(5, true);
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|
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files_wanted.set(6, false);
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|
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expected_files_wanted.set(5);
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|
|
|
expected_files_wanted.unset(6);
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|
|
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compare_to_expected();
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files_wanted.set(4, true);
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|
|
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files_wanted.set(5, false);
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|
|
|
expected_files_wanted.set(4);
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|
|
|
expected_files_wanted.unset(5);
|
|
|
|
compare_to_expected();
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|
|
|
|
|
|
|
// Prep for the next test: set all files to unwanted priority
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|
|
|
for (tr_file_index_t i = 0; i < n_files; ++i)
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|
|
{
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files_wanted.set(i, false);
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|
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|
}
|
|
|
|
expected_files_wanted.setHasNone();
|
|
|
|
expected_pieces_wanted.setHasNone();
|
|
|
|
compare_to_expected();
|
|
|
|
|
|
|
|
// *Sigh* OK what happens to files_wanted if you say the only
|
|
|
|
// file you want is a zero-byte file? Arguably nothing should happen
|
|
|
|
// since you can't download a zero-byte file. But that would complicate
|
|
|
|
// the coe for a stupid use case, so let's KISS.
|
|
|
|
//
|
|
|
|
// Check that even zero-sized files can change a file's 'wanted' state
|
|
|
|
// file #1: byte [500, 500) piece [5, 6)
|
|
|
|
files_wanted.set(1, true);
|
|
|
|
expected_files_wanted.set(1);
|
|
|
|
expected_pieces_wanted.set(5);
|
|
|
|
compare_to_expected();
|
|
|
|
// Check that zero-sized files at the end of a torrent change the last piece's state.
|
|
|
|
// file #16 byte [1001, 1001) piece [10, 11)
|
|
|
|
files_wanted.set(16, true);
|
|
|
|
expected_files_wanted.set(16);
|
|
|
|
expected_pieces_wanted.set(10);
|
|
|
|
compare_to_expected();
|
|
|
|
|
|
|
|
// test the batch API
|
|
|
|
auto file_indices = std::vector<tr_file_index_t>(n_files);
|
|
|
|
std::iota(std::begin(file_indices), std::end(file_indices), 0);
|
|
|
|
files_wanted.set(std::data(file_indices), std::size(file_indices), true);
|
|
|
|
expected_files_wanted.setHasAll();
|
|
|
|
expected_pieces_wanted.setHasAll();
|
|
|
|
compare_to_expected();
|
|
|
|
files_wanted.set(std::data(file_indices), std::size(file_indices), false);
|
|
|
|
expected_files_wanted.setHasNone();
|
|
|
|
expected_pieces_wanted.setHasNone();
|
|
|
|
compare_to_expected();
|
|
|
|
}
|