/* * This file Copyright (C) Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * */ #include #include "transmission.h" #include "block-info.h" #include "gtest/gtest.h" using BlockInfoTest = ::testing::Test; TEST_F(BlockInfoTest, fieldsAreSet) { auto info = tr_block_info{}; uint64_t constexpr ExpectedBlockSize = 1024 * 16; uint64_t constexpr ExpectedBlocksPerPiece = 4; uint64_t constexpr PieceSize = ExpectedBlockSize * ExpectedBlocksPerPiece; uint64_t constexpr PieceCount = 4; uint64_t constexpr TotalSize = PieceSize * PieceCount; info.initSizes(TotalSize, PieceSize); EXPECT_EQ(ExpectedBlockSize, info.block_size); EXPECT_EQ(ExpectedBlockSize, info.final_block_size); EXPECT_EQ(ExpectedBlocksPerPiece, info.n_blocks_in_final_piece); EXPECT_EQ(ExpectedBlocksPerPiece, info.n_blocks_in_piece); EXPECT_EQ(PieceCount, info.n_pieces); EXPECT_EQ(PieceSize, info.final_piece_size); EXPECT_EQ(PieceSize, info.piece_size); EXPECT_EQ(TotalSize, info.total_size); info.initSizes(0, 0); EXPECT_EQ(0, info.block_size); EXPECT_EQ(0, info.final_block_size); EXPECT_EQ(0, info.n_blocks_in_final_piece); EXPECT_EQ(0, info.n_blocks_in_piece); EXPECT_EQ(0, info.n_pieces); EXPECT_EQ(0, info.final_piece_size); EXPECT_EQ(0, info.piece_size); EXPECT_EQ(0, info.total_size); } TEST_F(BlockInfoTest, handlesOddSize) { auto info = tr_block_info{}; uint64_t constexpr ExpectedBlockSize = 1024 * 16; uint64_t constexpr ExpectedBlocksPerPiece = 4; uint64_t constexpr PieceSize = ExpectedBlockSize * ExpectedBlocksPerPiece; uint64_t constexpr PieceCount = 5; uint64_t constexpr TotalSize = PieceSize * (PieceCount - 1) + 1; info.initSizes(TotalSize, PieceSize); EXPECT_EQ(1, info.final_block_size); EXPECT_EQ(1, info.final_piece_size); EXPECT_EQ(1, info.n_blocks_in_final_piece); EXPECT_EQ(ExpectedBlockSize, info.block_size); EXPECT_EQ(ExpectedBlocksPerPiece, info.n_blocks_in_piece); EXPECT_EQ(PieceCount, info.n_pieces); EXPECT_EQ(PieceSize, info.piece_size); EXPECT_EQ(TotalSize, info.total_size); } TEST_F(BlockInfoTest, pieceForBlock) { auto info = tr_block_info{}; uint64_t constexpr ExpectedBlockSize = 1024 * 16; uint64_t constexpr ExpectedBlocksPerPiece = 4; uint64_t constexpr PieceSize = ExpectedBlockSize * ExpectedBlocksPerPiece; uint64_t constexpr PieceCount = 4; uint64_t constexpr TotalSize = PieceSize * PieceCount; info.initSizes(TotalSize, PieceSize); for (uint64_t i = 0; i < info.n_blocks; ++i) { EXPECT_EQ((i * ExpectedBlockSize) / PieceSize, info.pieceForBlock(i)); } } TEST_F(BlockInfoTest, pieceSize) { auto info = tr_block_info{}; uint64_t constexpr ExpectedBlockSize = 1024 * 16; uint64_t constexpr ExpectedBlocksPerPiece = 4; uint64_t constexpr PieceSize = ExpectedBlockSize * ExpectedBlocksPerPiece; uint64_t constexpr PieceCount = 5; uint64_t constexpr TotalSize = PieceSize * (PieceCount - 1) + 1; info.initSizes(TotalSize, PieceSize); EXPECT_EQ(PieceSize, info.pieceSize(info.n_pieces - 2)); EXPECT_EQ(1, info.pieceSize(info.n_pieces - 1)); } TEST_F(BlockInfoTest, blockSize) { auto info = tr_block_info{}; uint64_t constexpr ExpectedBlockSize = 1024 * 16; uint64_t constexpr ExpectedBlocksPerPiece = 4; uint64_t constexpr PieceSize = ExpectedBlockSize * ExpectedBlocksPerPiece; uint64_t constexpr PieceCount = 5; uint64_t constexpr TotalSize = PieceSize * (PieceCount - 1) + 1; info.initSizes(TotalSize, PieceSize); EXPECT_EQ(ExpectedBlockSize, info.blockSize(info.n_blocks - 2)); EXPECT_EQ(1, info.blockSize(info.n_blocks - 1)); } TEST_F(BlockInfoTest, offset) { auto info = tr_block_info{}; uint64_t constexpr ExpectedBlockSize = 1024 * 16; uint64_t constexpr ExpectedBlocksPerPiece = 4; uint64_t constexpr PieceSize = ExpectedBlockSize * ExpectedBlocksPerPiece; uint64_t constexpr PieceCount = 5; uint64_t constexpr TotalSize = PieceSize * (PieceCount - 1) + 1; info.initSizes(TotalSize, PieceSize); EXPECT_EQ(0, info.offset(0, 0)); EXPECT_EQ(1, info.offset(0, 0, 1)); EXPECT_EQ(PieceSize * 2 + 100 + 1, info.offset(2, 100, 1)); EXPECT_EQ( info.total_size - 1, info.offset( info.n_pieces - 1, ((info.n_blocks_in_final_piece - 1) * info.block_size) + info.n_blocks_in_final_piece - 1)); EXPECT_EQ(info.n_blocks_in_piece, info.blockOf(info.offset(1, 0))); EXPECT_EQ(info.n_blocks_in_piece, info.blockOf(info.offset(1, info.block_size - 1))); EXPECT_EQ(info.n_blocks_in_piece + 1, info.blockOf(info.offset(1, info.block_size))); EXPECT_EQ(info.n_blocks - 1, info.blockOf(info.total_size - 1)); } TEST_F(BlockInfoTest, blockSpanForPiece) { auto info = tr_block_info{}; uint64_t constexpr ExpectedBlockSize = 1024 * 16; uint64_t constexpr ExpectedBlocksPerPiece = 4; uint64_t constexpr PieceSize = ExpectedBlockSize * ExpectedBlocksPerPiece; uint64_t constexpr PieceCount = 5; uint64_t constexpr TotalSize = PieceSize * (PieceCount - 1) + 1; info.initSizes(TotalSize, PieceSize); EXPECT_EQ(0, info.blockSpanForPiece(0).begin); EXPECT_EQ(4, info.blockSpanForPiece(0).end); EXPECT_EQ(12, info.blockSpanForPiece(3).begin); EXPECT_EQ(16, info.blockSpanForPiece(3).end); EXPECT_EQ(16, info.blockSpanForPiece(4).begin); EXPECT_EQ(17, info.blockSpanForPiece(4).end); // test that uninitialized block_info returns an invalid span info = tr_block_info{}; EXPECT_EQ(0, info.blockSpanForPiece(0).begin); EXPECT_EQ(0, info.blockSpanForPiece(0).end); }