forked from premiere/premiere-libtorrent
513 lines
14 KiB
C++
513 lines
14 KiB
C++
/*
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Copyright (c) 2012, Arvid Norberg
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in
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the documentation and/or other materials provided with the distribution.
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* Neither the name of the author nor the names of its
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contributors may be used to endorse or promote products derived
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from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "test.hpp"
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#include "libtorrent/block_cache.hpp"
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#include "libtorrent/io_service.hpp"
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#include "libtorrent/alert.hpp"
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#include "libtorrent/alert_types.hpp"
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#include "libtorrent/disk_io_thread.hpp"
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#include "libtorrent/storage.hpp"
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#include "libtorrent/session.hpp"
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#include "libtorrent/aux_/path.hpp" // for bufs_size
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#include <functional>
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#include <memory>
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using namespace lt;
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struct test_storage_impl : storage_interface
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{
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explicit test_storage_impl(file_storage const& fs) : storage_interface(fs) {}
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void initialize(storage_error& ec) override {}
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int readv(span<iovec_t const> bufs
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, piece_index_t piece, int offset, std::uint32_t flags, storage_error& ec) override
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{
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return bufs_size(bufs);
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}
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int writev(span<iovec_t const> bufs
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, piece_index_t piece, int offset, std::uint32_t flags, storage_error& ec) override
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{
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return bufs_size(bufs);
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}
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bool has_any_file(storage_error& ec) override { return false; }
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void set_file_priority(aux::vector<std::uint8_t, file_index_t> const& prio
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, storage_error& ec) override {}
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status_t move_storage(std::string const& save_path, int flags
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, storage_error& ec) override { return status_t::no_error; }
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bool verify_resume_data(add_torrent_params const& rd
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, aux::vector<std::string, file_index_t> const& links
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, storage_error& ec) override { return true; }
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void release_files(storage_error& ec) override {}
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void rename_file(file_index_t index, std::string const& new_filename
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, storage_error& ec) override {}
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void delete_files(int, storage_error& ec) override {}
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};
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struct allocator : buffer_allocator_interface
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{
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allocator(block_cache& bc, storage_interface* st)
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: m_cache(bc), m_storage(st) {}
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void free_disk_buffer(char* b) override
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{ m_cache.free_buffer(b); }
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void reclaim_blocks(span<aux::block_cache_reference> refs) override
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{
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for (auto ref : refs)
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m_cache.reclaim_block(m_storage, ref);
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}
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private:
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block_cache& m_cache;
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storage_interface* m_storage;
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};
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static void nop() {}
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#if TORRENT_USE_ASSERTS
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#define INITIALIZE_JOB(j) j.in_use = true;
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#else
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#define INITIALIZE_JOB(j)
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#endif
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#define TEST_SETUP \
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io_service ios; \
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block_cache bc(0x4000, ios, std::bind(&nop)); \
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aux::session_settings sett; \
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file_storage fs; \
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fs.add_file("a/test0", 0x4000); \
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fs.add_file("a/test1", 0x4000); \
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fs.add_file("a/test2", 0x4000); \
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fs.add_file("a/test3", 0x4000); \
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fs.add_file("a/test4", 0x4000); \
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fs.add_file("a/test5", 0x4000); \
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fs.add_file("a/test6", 0x4000); \
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fs.add_file("a/test7", 0x4000); \
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fs.set_piece_length(0x8000); \
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fs.set_num_pieces(5); \
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std::shared_ptr<storage_interface> pm \
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= std::make_shared<test_storage_impl>(fs); \
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allocator alloc(bc, pm.get()); \
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bc.set_settings(sett); \
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pm->m_settings = &sett; \
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disk_io_job rj; \
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disk_io_job wj; \
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INITIALIZE_JOB(rj) \
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INITIALIZE_JOB(wj) \
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rj.storage = pm; \
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wj.storage = pm; \
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cached_piece_entry* pe = nullptr; \
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int ret = 0; \
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iovec_t iov; \
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(void)iov; \
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(void)ret; \
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(void)pe
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#define WRITE_BLOCK(p, b) \
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wj.flags = disk_io_job::in_progress; \
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wj.action = disk_io_job::write; \
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wj.d.io.offset = (b) * 0x4000; \
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wj.d.io.buffer_size = 0x4000; \
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wj.piece = piece_index_t(p); \
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wj.argument = disk_buffer_holder(alloc, bc.allocate_buffer("write-test")); \
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pe = bc.add_dirty_block(&wj)
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#define READ_BLOCK(p, b, r) \
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rj.action = disk_io_job::read; \
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rj.d.io.offset = (b) * 0x4000; \
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rj.d.io.buffer_size = 0x4000; \
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rj.piece = piece_index_t(p); \
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rj.storage = pm; \
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rj.requester = (void*)(r); \
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rj.argument = disk_buffer_holder(alloc, nullptr); \
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ret = bc.try_read(&rj, alloc)
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#define FLUSH(flushing) \
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for (int i = 0; i < int(sizeof(flushing)/sizeof((flushing)[0])); ++i) \
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{ \
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pe->blocks[(flushing)[i]].pending = true; \
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bc.inc_block_refcount(pe, 0, block_cache::ref_flushing); \
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} \
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bc.blocks_flushed(pe, flushing, sizeof(flushing)/sizeof((flushing)[0]))
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#define INSERT(p, b) \
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wj.piece = piece_index_t(p); \
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wj.requester = (void*)1; \
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pe = bc.allocate_piece(&wj, cached_piece_entry::read_lru1); \
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ret = bc.allocate_iovec(iov); \
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TEST_EQUAL(ret, 0); \
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bc.insert_blocks(pe, b, iov, &wj)
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void test_write()
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{
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TEST_SETUP;
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// write block (0,0)
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WRITE_BLOCK(0, 0);
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counters c;
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 1);
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TEST_EQUAL(c[counters::read_cache_blocks], 0);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 0);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 1);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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// try to read it back
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READ_BLOCK(0, 0, 1);
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TEST_EQUAL(bc.pinned_blocks(), 1);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::pinned_blocks], 1);
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// it's supposed to be a cache hit
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TEST_CHECK(ret >= 0);
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// return the reference to the buffer we just read
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rj.argument = 0;
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TEST_EQUAL(bc.pinned_blocks(), 0);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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// try to read block (1, 0)
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READ_BLOCK(1, 0, 1);
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// that's supposed to be a cache miss
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TEST_CHECK(ret < 0);
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TEST_EQUAL(bc.pinned_blocks(), 0);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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rj.argument = 0;
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tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
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}
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void test_flush()
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{
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TEST_SETUP;
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// write block (0,0)
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WRITE_BLOCK(0, 0);
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// pretend to flush to disk
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int flushing[1] = {0};
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FLUSH(flushing);
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tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
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}
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void test_insert()
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{
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TEST_SETUP;
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INSERT(0, 0);
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counters c;
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 1);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 1);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
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}
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void test_evict()
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{
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TEST_SETUP;
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INSERT(0, 0);
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counters c;
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 1);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 1);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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tailqueue<disk_io_job> jobs;
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// this should make it not be evicted
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// just free the buffers
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++pe->piece_refcount;
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bc.evict_piece(pe, jobs, block_cache::allow_ghost);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 0);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 1);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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--pe->piece_refcount;
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bc.evict_piece(pe, jobs, block_cache::allow_ghost);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 0);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 0);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 1);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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bc.clear(jobs);
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}
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// test to have two different requestors read a block and
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// make sure it moves into the MFU list
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void test_arc_promote()
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{
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TEST_SETUP;
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INSERT(0, 0);
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counters c;
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 1);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 1);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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READ_BLOCK(0, 0, 1);
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TEST_EQUAL(bc.pinned_blocks(), 1);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::pinned_blocks], 1);
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// it's supposed to be a cache hit
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TEST_CHECK(ret >= 0);
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// return the reference to the buffer we just read
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rj.argument = 0;
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 1);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 1);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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READ_BLOCK(0, 0, 2);
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TEST_EQUAL(bc.pinned_blocks(), 1);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::pinned_blocks], 1);
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// it's supposed to be a cache hit
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TEST_CHECK(ret >= 0);
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// return the reference to the buffer we just read
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rj.argument = 0;
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 1);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 0);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 1);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
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}
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void test_arc_unghost()
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{
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TEST_SETUP;
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INSERT(0, 0);
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counters c;
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 1);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 1);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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tailqueue<disk_io_job> jobs;
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bc.evict_piece(pe, jobs, block_cache::allow_ghost);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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TEST_EQUAL(c[counters::read_cache_blocks], 0);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 0);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 1);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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// the block is now a ghost. If we cache-hit it,
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// it should be promoted back to the main list
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bc.cache_hit(pe, (void*)1, false);
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bc.update_stats_counters(c);
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TEST_EQUAL(c[counters::write_cache_blocks], 0);
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// we didn't actually read in any blocks, so the cache size
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// is still 0
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TEST_EQUAL(c[counters::read_cache_blocks], 0);
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TEST_EQUAL(c[counters::pinned_blocks], 0);
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TEST_EQUAL(c[counters::arc_mru_size], 1);
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TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_size], 0);
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TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
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TEST_EQUAL(c[counters::arc_write_size], 0);
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TEST_EQUAL(c[counters::arc_volatile_size], 0);
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bc.clear(jobs);
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}
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void test_iovec()
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{
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TEST_SETUP;
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ret = bc.allocate_iovec(iov);
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bc.free_iovec(iov);
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}
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void test_unaligned_read()
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{
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TEST_SETUP;
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INSERT(0, 0);
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INSERT(0, 1);
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rj.action = disk_io_job::read;
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rj.d.io.offset = 0x2000;
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rj.d.io.buffer_size = 0x4000;
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rj.piece = piece_index_t(0);
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rj.storage = pm;
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rj.requester = (void*)1;
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rj.argument = disk_buffer_holder(alloc, nullptr);
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ret = bc.try_read(&rj, alloc);
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// unaligned reads copies the data into a new buffer
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// rather than
|
|
TEST_EQUAL(bc.pinned_blocks(), 0);
|
|
counters c;
|
|
bc.update_stats_counters(c);
|
|
TEST_EQUAL(c[counters::pinned_blocks], 0);
|
|
|
|
// it's supposed to be a cache hit
|
|
TEST_CHECK(ret >= 0);
|
|
// return the reference to the buffer we just read
|
|
rj.argument = 0;
|
|
|
|
tailqueue<disk_io_job> jobs;
|
|
bc.clear(jobs);
|
|
}
|
|
|
|
TORRENT_TEST(block_cache)
|
|
{
|
|
test_write();
|
|
test_flush();
|
|
test_insert();
|
|
test_evict();
|
|
test_arc_promote();
|
|
test_arc_unghost();
|
|
test_iovec();
|
|
test_unaligned_read();
|
|
|
|
// TODO: test try_evict_blocks
|
|
// TODO: test evicting volatile pieces, to see them be removed
|
|
// TODO: test evicting dirty pieces
|
|
// TODO: test free_piece
|
|
// TODO: test abort_dirty
|
|
// TODO: test unaligned reads
|
|
}
|
|
|
|
TORRENT_TEST(delete_piece)
|
|
{
|
|
TEST_SETUP;
|
|
|
|
TEST_CHECK(bc.num_pieces() == 0);
|
|
|
|
INSERT(0, 0);
|
|
|
|
TEST_CHECK(bc.num_pieces() == 1);
|
|
|
|
rj.action = disk_io_job::read;
|
|
rj.d.io.offset = 0x2000;
|
|
rj.d.io.buffer_size = 0x4000;
|
|
rj.piece = piece_index_t(0);
|
|
rj.storage = pm;
|
|
rj.requester = (void*)1;
|
|
rj.argument = 0;
|
|
ret = bc.try_read(&rj, alloc);
|
|
|
|
cached_piece_entry* pe_ = bc.find_piece(pm.get(), piece_index_t(0));
|
|
bc.mark_for_eviction(pe_, block_cache::disallow_ghost);
|
|
|
|
TEST_CHECK(bc.num_pieces() == 0);
|
|
}
|
|
|