premiere-libtorrent/test/test_block_cache.cpp

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/*
Copyright (c) 2012, 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 "test.hpp"
#include "libtorrent/block_cache.hpp"
#include "libtorrent/io_service.hpp"
#include "libtorrent/alert.hpp"
#include "libtorrent/alert_types.hpp"
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#include "libtorrent/disk_io_thread.hpp"
#include "libtorrent/storage.hpp"
#include "libtorrent/session.hpp"
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#include <functional>
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#include <boost/shared_ptr.hpp>
#include <boost/make_shared.hpp>
using namespace libtorrent;
struct test_storage_impl : storage_interface
{
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void initialize(storage_error& ec) override {}
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int readv(span<file::iovec_t const> bufs
, int piece, int offset, int flags, storage_error& ec) override
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{
return bufs_size(bufs.data(), int(bufs.size()));
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}
int writev(span<file::iovec_t const> bufs
, int piece, int offset, int flags, storage_error& ec) override
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{
return bufs_size(bufs.data(), int(bufs.size()));
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}
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bool has_any_file(storage_error& ec) override { return false; }
void set_file_priority(std::vector<std::uint8_t> const& prio
, storage_error& ec) override {}
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int move_storage(std::string const& save_path, int flags
, storage_error& ec) override { return 0; }
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bool verify_resume_data(add_torrent_params const& rd
, std::vector<std::string> const& links
, storage_error& ec) override { return true; }
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void release_files(storage_error& ec) override {}
void rename_file(int index, std::string const& new_filename
, storage_error& ec) override {}
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void delete_files(int, storage_error& ec) override {}
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#ifndef TORRENT_NO_DEPRECATE
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void finalize_file(int, storage_error&) override {}
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#endif
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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;
#else
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#define INITIALIZE_JOB(j)
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#endif
#define TEST_SETUP \
io_service ios; \
block_cache bc(0x4000, ios, std::bind(&nop)); \
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aux::session_settings sett; \
file_storage fs; \
fs.add_file("a/test0", 0x4000); \
fs.add_file("a/test1", 0x4000); \
fs.add_file("a/test2", 0x4000); \
fs.add_file("a/test3", 0x4000); \
fs.add_file("a/test4", 0x4000); \
fs.add_file("a/test5", 0x4000); \
fs.add_file("a/test6", 0x4000); \
fs.add_file("a/test7", 0x4000); \
fs.set_piece_length(0x8000); \
fs.set_num_pieces(5); \
test_storage_impl* st = new test_storage_impl; \
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std::shared_ptr<piece_manager> pm = std::make_shared<piece_manager>(st, boost::shared_ptr<int>(new int), &fs); \
error_code ec; \
bc.set_settings(sett, ec); \
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st->m_settings = &sett; \
disk_io_job rj; \
disk_io_job wj; \
INITIALIZE_JOB(rj) \
INITIALIZE_JOB(wj) \
rj.storage = pm; \
wj.storage = pm; \
cached_piece_entry* pe = NULL; \
int ret = 0; \
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file::iovec_t iov[1]; \
(void)iov[0]; \
(void)ret; \
(void)pe
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#define WRITE_BLOCK(p, b) \
wj.flags = disk_io_job::in_progress; \
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; \
wj.piece = p; \
wj.buffer.disk_block = bc.allocate_buffer("write-test"); \
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pe = bc.add_dirty_block(&wj)
#define READ_BLOCK(p, b, r) \
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; \
rj.piece = p; \
rj.storage = pm; \
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rj.requester = (void*)(r); \
rj.buffer.disk_block = 0; \
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ret = bc.try_read(&rj)
#define RETURN_BUFFER \
if (rj.d.io.ref.storage) bc.reclaim_block(rj.d.io.ref); \
else if (rj.buffer.disk_block) bc.free_buffer(rj.buffer.disk_block); \
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rj.d.io.ref.storage = 0
#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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bc.blocks_flushed(pe, flushing, sizeof(flushing)/sizeof((flushing)[0]))
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#define INSERT(p, b) \
wj.piece = p; \
wj.requester = (void*)1; \
pe = bc.allocate_piece(&wj, cached_piece_entry::read_lru1); \
ret = bc.allocate_iovec(iov, 1); \
TEST_EQUAL(ret, 0); \
bc.insert_blocks(pe, b, iov, 1, &wj)
void test_write()
{
TEST_SETUP;
// write block (0,0)
WRITE_BLOCK(0, 0);
counters c;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 1);
TEST_EQUAL(c[counters::read_cache_blocks], 0);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 0);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 1);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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// try to read it back
READ_BLOCK(0, 0, 1);
TEST_EQUAL(bc.pinned_blocks(), 1);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::pinned_blocks], 1);
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// it's supposed to be a cache hit
TEST_CHECK(ret >= 0);
// return the reference to the buffer we just read
RETURN_BUFFER;
TEST_EQUAL(bc.pinned_blocks(), 0);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::pinned_blocks], 0);
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// try to read block (1, 0)
READ_BLOCK(1, 0, 1);
// that's supposed to be a cache miss
TEST_CHECK(ret < 0);
TEST_EQUAL(bc.pinned_blocks(), 0);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::pinned_blocks], 0);
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// just in case it wasn't we're supposed to return the reference
// to the buffer
RETURN_BUFFER;
tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
}
void test_flush()
{
TEST_SETUP;
// write block (0,0)
WRITE_BLOCK(0, 0);
// pretend to flush to disk
int flushing[1] = {0};
FLUSH(flushing);
tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
}
void test_insert()
{
TEST_SETUP;
INSERT(0, 0);
counters c;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 1);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 1);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
}
void test_evict()
{
TEST_SETUP;
INSERT(0, 0);
counters c;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 1);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 1);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
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
// just free the buffers
++pe->piece_refcount;
bc.evict_piece(pe, jobs);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 0);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 1);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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--pe->piece_refcount;
bc.evict_piece(pe, jobs);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 0);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 0);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 1);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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bc.clear(jobs);
}
// test to have two different requestors read a block and
// make sure it moves into the MFU list
void test_arc_promote()
{
TEST_SETUP;
INSERT(0, 0);
counters c;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 1);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 1);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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READ_BLOCK(0, 0, 1);
TEST_EQUAL(bc.pinned_blocks(), 1);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::pinned_blocks], 1);
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// it's supposed to be a cache hit
TEST_CHECK(ret >= 0);
// return the reference to the buffer we just read
RETURN_BUFFER;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 1);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 1);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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READ_BLOCK(0, 0, 2);
TEST_EQUAL(bc.pinned_blocks(), 1);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::pinned_blocks], 1);
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// it's supposed to be a cache hit
TEST_CHECK(ret >= 0);
// return the reference to the buffer we just read
RETURN_BUFFER;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 1);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 0);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 1);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
}
void test_arc_unghost()
{
TEST_SETUP;
INSERT(0, 0);
counters c;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 1);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 1);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
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);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
TEST_EQUAL(c[counters::read_cache_blocks], 0);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 0);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 1);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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// the block is now a ghost. If we cache-hit it,
// it should be promoted back to the main list
bc.cache_hit(pe, (void*)1, false);
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::write_cache_blocks], 0);
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// we didn't actually read in any blocks, so the cache size
// is still 0
TEST_EQUAL(c[counters::read_cache_blocks], 0);
TEST_EQUAL(c[counters::pinned_blocks], 0);
TEST_EQUAL(c[counters::arc_mru_size], 1);
TEST_EQUAL(c[counters::arc_mru_ghost_size], 0);
TEST_EQUAL(c[counters::arc_mfu_size], 0);
TEST_EQUAL(c[counters::arc_mfu_ghost_size], 0);
TEST_EQUAL(c[counters::arc_write_size], 0);
TEST_EQUAL(c[counters::arc_volatile_size], 0);
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bc.clear(jobs);
}
void test_iovec()
{
TEST_SETUP;
ret = bc.allocate_iovec(iov, 1);
bc.free_iovec(iov, 1);
}
void test_unaligned_read()
{
TEST_SETUP;
INSERT(0, 0);
INSERT(0, 1);
rj.action = disk_io_job::read;
rj.d.io.offset = 0x2000;
rj.d.io.buffer_size = 0x4000;
rj.piece = 0;
rj.storage = pm;
rj.requester = (void*)1;
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rj.buffer.disk_block = nullptr;
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ret = bc.try_read(&rj);
// unaligned reads copies the data into a new buffer
// rather than
TEST_EQUAL(bc.pinned_blocks(), 0);
counters c;
bc.update_stats_counters(c);
TEST_EQUAL(c[counters::pinned_blocks], 0);
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// it's supposed to be a cache hit
TEST_CHECK(ret >= 0);
// return the reference to the buffer we just read
RETURN_BUFFER;
tailqueue<disk_io_job> jobs;
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bc.clear(jobs);
}
TORRENT_TEST(block_cache)
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{
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
}