merged RC_1_1 into master

This commit is contained in:
arvidn 2018-06-20 10:47:27 +02:00
commit 7ca769884c
2 changed files with 149 additions and 78 deletions

View File

@ -85,6 +85,7 @@
* resume data no longer has timestamps of files
* require C++11 to build libtorrent
* fixed disk I/O performance of checking hashes and creating torrents
* fix race condition in part_file
* fix part_file open mode compatibility test
* fixed race condition in random number generator

View File

@ -1307,8 +1307,7 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
// if this is the last piece, adjust the size of the
// last buffer to match up
iov[iov_len - 1] = iov[iov_len - 1].first(aux::numeric_cast<std::size_t>(
std::min(int(piece_size - adjusted_offset)
- (iov_len - 1) * default_block_size, default_block_size)));
std::min(piece_size - (iov_len - 1) * default_block_size, default_block_size)));
TORRENT_ASSERT(iov[iov_len - 1].size() > 0);
// at this point, all the buffers are allocated and iov is initialized
@ -2224,6 +2223,26 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
int const blocks_in_piece = (piece_size + default_block_size - 1) / default_block_size;
// we don't care about anything to the left of ph->offset
// since those blocks have already been hashed.
// we just care about [firs_block, first_block + blocks_left]
int const first_block = ph->offset / default_block_size;
int const blocks_left = blocks_in_piece - first_block;
// ph->offset
// | first_block
// | |
// v v
// +---+---+---+---+---+---+
// | | | | | | |
// +---+---+---+---+---+---+
//
// \-----------/
// blocks_left
//
// \-----------------------/
// blocks_in_piece
// keep track of which blocks we have locked by incrementing
// their refcounts. This is used to decrement only these blocks
// later.
@ -2234,13 +2253,13 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
// increment the refcounts of all
// blocks up front, and then hash them without holding the lock
TORRENT_PIECE_ASSERT(ph->offset % default_block_size == 0, pe);
for (int i = ph->offset / default_block_size; i < blocks_in_piece; ++i)
for (int i = 0; i < blocks_left; ++i)
{
// is the block not in the cache?
if (pe->blocks[i].buf == nullptr) continue;
if (pe->blocks[first_block + i].buf == nullptr) continue;
// if we fail to lock the block, it' no longer in the cache
if (m_disk_cache.inc_block_refcount(pe, i, block_cache::ref_hashing) == false)
// if we fail to lock the block, it's no longer in the cache
if (m_disk_cache.inc_block_refcount(pe, first_block + i, block_cache::ref_hashing) == false)
continue;
locked_blocks[num_locked_blocks++] = i;
@ -2257,19 +2276,72 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
l.unlock();
bool slow_path = true;
if (num_locked_blocks == 0)
{
// this is the fast path where we don't have any blocks in the cache.
// We'll need to read all (remaining blocks) from disk
TORRENT_ALLOCA(iov, iovec_t, blocks_left);
if (m_disk_cache.allocate_iovec(iov) >= 0)
{
// if this is the last piece, adjust the size of the
// last buffer to match up
iov[blocks_left - 1] = iov[blocks_left - 1].first(aux::numeric_cast<std::size_t>(
piece_size - (blocks_in_piece - 1) * default_block_size));
TORRENT_ASSERT(iov[blocks_left - 1].size() > 0);
TORRENT_ASSERT(iov[blocks_left - 1].size() <= default_block_size);
time_point const start_time = clock_type::now();
int const read_ret = j->storage->readv(iov
, j->piece, offset, file_flags, j->error);
if (read_ret == piece_size - offset)
{
std::int64_t const read_time = total_microseconds(clock_type::now() - start_time);
m_stats_counters.inc_stats_counter(counters::num_read_back, blocks_left);
m_stats_counters.inc_stats_counter(counters::num_blocks_read, blocks_left);
m_stats_counters.inc_stats_counter(counters::num_read_ops);
m_stats_counters.inc_stats_counter(counters::disk_read_time, read_time);
m_stats_counters.inc_stats_counter(counters::disk_job_time, read_time);
for (auto const& v : iov)
{
offset += int(v.size());
ph->h.update(v);
}
slow_path = false;
TORRENT_ASSERT(offset == piece_size);
l.lock();
m_disk_cache.insert_blocks(pe, first_block, iov, j);
l.unlock();
}
else
{
m_disk_cache.free_iovec(iov);
}
}
}
status_t ret = status_t::no_error;
if (slow_path)
{
int next_locked_block = 0;
for (int i = offset / default_block_size; i < blocks_in_piece; ++i)
for (int i = 0; i < blocks_left; ++i)
{
if (next_locked_block < num_locked_blocks
&& locked_blocks[next_locked_block] == i)
{
int const len = std::min(default_block_size, piece_size - offset);
++next_locked_block;
TORRENT_PIECE_ASSERT(pe->blocks[i].buf, pe);
TORRENT_PIECE_ASSERT(offset == i * default_block_size, pe);
TORRENT_PIECE_ASSERT(pe->blocks[first_block + i].buf, pe);
TORRENT_PIECE_ASSERT(offset == (first_block + i) * default_block_size, pe);
offset += len;
ph->h.update({pe->blocks[i].buf, aux::numeric_cast<std::size_t>(len)});
ph->h.update({pe->blocks[first_block + i].buf, aux::numeric_cast<std::size_t>(len)});
}
else
{
@ -2279,15 +2351,13 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
if (iov.data() == nullptr)
{
l.lock();
// decrement the refcounts of the blocks we just hashed
for (int k = 0; k < num_locked_blocks; ++k)
m_disk_cache.dec_block_refcount(pe, locked_blocks[k], block_cache::ref_hashing);
m_disk_cache.dec_block_refcount(pe, first_block + locked_blocks[k], block_cache::ref_hashing);
refcount_holder.release();
pe->hashing = false;
pe->hash.reset();
m_disk_cache.maybe_free_piece(pe);
j->error.ec = errors::no_memory;
@ -2296,12 +2366,11 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
}
DLOG("do_hash: reading (piece: %d block: %d)\n"
, static_cast<int>(pe->piece), i);
, static_cast<int>(pe->piece), first_block + i);
time_point const start_time = clock_type::now();
TORRENT_PIECE_ASSERT(offset == i * default_block_size, pe);
int read_ret = j->storage->readv(iov, j->piece
TORRENT_PIECE_ASSERT(offset == (first_block + i) * default_block_size, pe);
int const read_ret = j->storage->readv(iov, j->piece
, offset, file_flags, j->error);
if (read_ret < 0)
@ -2335,15 +2404,16 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
m_stats_counters.inc_stats_counter(counters::disk_job_time, read_time);
}
TORRENT_PIECE_ASSERT(offset == i * default_block_size, pe);
TORRENT_PIECE_ASSERT(offset == (first_block + i) * default_block_size, pe);
offset += int(iov.size());
ph->h.update(iov);
l.lock();
m_disk_cache.insert_blocks(pe, i, iov, j);
m_disk_cache.insert_blocks(pe, first_block + i, iov, j);
l.unlock();
}
}
}
l.lock();
@ -2352,7 +2422,7 @@ constexpr disk_job_flags_t disk_interface::cache_hit;
// decrement the refcounts of the blocks we just hashed
for (int i = 0; i < num_locked_blocks; ++i)
m_disk_cache.dec_block_refcount(pe, locked_blocks[i], block_cache::ref_hashing);
m_disk_cache.dec_block_refcount(pe, first_block + locked_blocks[i], block_cache::ref_hashing);
refcount_holder.release();