forked from premiere/premiere-libtorrent
452 lines
13 KiB
C++
452 lines
13 KiB
C++
/*
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Copyright (c) 2007, 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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#ifndef TORRENT_DISK_IO_THREAD
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#define TORRENT_DISK_IO_THREAD
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#include "libtorrent/storage.hpp"
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#include "libtorrent/allocator.hpp"
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#include "libtorrent/io_service.hpp"
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#include "libtorrent/sliding_average.hpp"
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#include <boost/function/function0.hpp>
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#include <boost/function/function2.hpp>
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#include <boost/noncopyable.hpp>
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#include <boost/shared_array.hpp>
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#include <deque>
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#include "libtorrent/config.hpp"
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#include "libtorrent/session_settings.hpp"
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#include "libtorrent/thread.hpp"
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#include "libtorrent/disk_buffer_pool.hpp"
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#include <boost/multi_index_container.hpp>
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#include <boost/multi_index/member.hpp>
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#include <boost/multi_index/ordered_index.hpp>
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#include <boost/multi_index/mem_fun.hpp>
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namespace libtorrent
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{
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using boost::multi_index::multi_index_container;
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using boost::multi_index::ordered_non_unique;
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using boost::multi_index::ordered_unique;
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using boost::multi_index::indexed_by;
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using boost::multi_index::member;
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using boost::multi_index::const_mem_fun;
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struct cached_piece_info
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{
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int piece;
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std::vector<bool> blocks;
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ptime last_use;
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int next_to_hash;
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enum kind_t { read_cache = 0, write_cache = 1 };
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kind_t kind;
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};
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struct disk_io_job
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{
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disk_io_job()
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: action(read)
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, buffer(0)
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, buffer_size(0)
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, piece(0)
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, offset(0)
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, max_cache_line(0)
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, cache_min_time(0)
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{}
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enum action_t
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{
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read
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, write
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, hash
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, move_storage
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, release_files
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, delete_files
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, check_fastresume
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, check_files
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, save_resume_data
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, rename_file
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, abort_thread
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, clear_read_cache
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, abort_torrent
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, update_settings
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, read_and_hash
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, cache_piece
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, finalize_file
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};
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action_t action;
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char* buffer;
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int buffer_size;
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boost::intrusive_ptr<piece_manager> storage;
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// arguments used for read and write
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int piece, offset;
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// used for move_storage and rename_file. On errors, this is set
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// to the error message
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std::string str;
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// on error, this is set to the path of the
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// file the disk operation failed on
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std::string error_file;
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// if this is > 0, it specifies the max number of blocks to read
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// ahead in the read cache for this access. This is only valid
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// for 'read' actions
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int max_cache_line;
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// if this is > 0, it may increase the minimum time the cache
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// line caused by this operation stays in the cache
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int cache_min_time;
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boost::shared_ptr<entry> resume_data;
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// the error code from the file operation
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error_code error;
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// this is called when operation completes
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boost::function<void(int, disk_io_job const&)> callback;
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// the time when this job was issued. This is used to
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// keep track of disk I/O congestion
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ptime start_time;
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};
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// returns true if the fundamental operation
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// of the given disk job is a read operation
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bool is_read_operation(disk_io_job const& j);
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// this is true if the buffer field in the disk_io_job
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// points to a disk buffer
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bool operation_has_buffer(disk_io_job const& j);
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struct cache_status
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{
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cache_status()
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: blocks_written(0)
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, writes(0)
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, blocks_read(0)
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, blocks_read_hit(0)
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, reads(0)
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, queued_bytes(0)
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, cache_size(0)
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, read_cache_size(0)
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, total_used_buffers(0)
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, average_queue_time(0)
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, average_read_time(0)
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, average_write_time(0)
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, average_hash_time(0)
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, average_job_time(0)
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, average_sort_time(0)
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, job_queue_length(0)
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, cumulative_job_time(0)
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, cumulative_read_time(0)
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, cumulative_write_time(0)
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, cumulative_hash_time(0)
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, cumulative_sort_time(0)
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, total_read_back(0)
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, read_queue_size(0)
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{}
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// the number of 16kB blocks written
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size_type blocks_written;
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// the number of write operations used
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size_type writes;
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// (blocks_written - writes) / blocks_written represents the
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// "cache hit" ratio in the write cache
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// the number of blocks read
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// the number of blocks passed back to the bittorrent engine
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size_type blocks_read;
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// the number of blocks that was just copied from the read cache
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size_type blocks_read_hit;
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// the number of read operations used
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size_type reads;
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mutable size_type queued_bytes;
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// the number of blocks in the cache (both read and write)
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int cache_size;
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// the number of blocks in the cache used for read cache
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int read_cache_size;
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// the total number of blocks that are currently in use
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// this includes send and receive buffers
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mutable int total_used_buffers;
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// times in microseconds
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int average_queue_time;
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int average_read_time;
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int average_write_time;
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int average_hash_time;
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int average_job_time;
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int average_sort_time;
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int job_queue_length;
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boost::uint32_t cumulative_job_time;
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boost::uint32_t cumulative_read_time;
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boost::uint32_t cumulative_write_time;
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boost::uint32_t cumulative_hash_time;
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boost::uint32_t cumulative_sort_time;
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int total_read_back;
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int read_queue_size;
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};
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// this is a singleton consisting of the thread and a queue
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// of disk io jobs
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struct TORRENT_EXPORT disk_io_thread : disk_buffer_pool
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{
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disk_io_thread(io_service& ios
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, boost::function<void()> const& queue_callback
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, file_pool& fp
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, int block_size = 16 * 1024);
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~disk_io_thread();
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void abort();
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void join();
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// aborts read operations
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void stop(boost::intrusive_ptr<piece_manager> s);
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// returns the disk write queue size
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int add_job(disk_io_job const& j
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, boost::function<void(int, disk_io_job const&)> const& f
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= boost::function<void(int, disk_io_job const&)>());
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// keep track of the number of bytes in the job queue
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// at any given time. i.e. the sum of all buffer_size.
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// this is used to slow down the download global download
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// speed when the queue buffer size is too big.
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size_type queue_buffer_size() const;
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bool can_write() const;
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void get_cache_info(sha1_hash const& ih
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, std::vector<cached_piece_info>& ret) const;
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cache_status status() const;
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void thread_fun();
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#ifdef TORRENT_DEBUG
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void check_invariant() const;
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#endif
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struct cached_block_entry
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{
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cached_block_entry(): buf(0) {}
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// the buffer pointer (this is a disk_pool buffer)
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// or 0
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char* buf;
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// callback for when this block is flushed to disk
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boost::function<void(int, disk_io_job const&)> callback;
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};
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struct cached_piece_entry
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{
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int piece;
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// storage this piece belongs to
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boost::intrusive_ptr<piece_manager> storage;
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// the pointers to the block data
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boost::shared_array<cached_block_entry> blocks;
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// the last time a block was writting to this piece
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// plus the minimum amount of time the block is guaranteed
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// to stay in the cache
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ptime expire;
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// the number of blocks in the cache for this piece
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int num_blocks;
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// used to determine if this piece should be flushed
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int num_contiguous_blocks;
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// this is the first block that has not yet been hashed
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// by the partial hasher. When minimizing read-back, this
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// is used to determine if flushing a range would force us
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// to read it back later when hashing
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int next_block_to_hash;
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std::pair<void*, int> storage_piece_pair() const
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{ return std::pair<void*, int>(storage.get(), piece); }
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};
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typedef multi_index_container<
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cached_piece_entry, indexed_by<
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ordered_unique<const_mem_fun<cached_piece_entry, std::pair<void*, int>
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, &cached_piece_entry::storage_piece_pair> >
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, ordered_non_unique<member<cached_piece_entry, ptime
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, &cached_piece_entry::expire> >
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>
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> cache_t;
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typedef cache_t::nth_index<0>::type cache_piece_index_t;
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typedef cache_t::nth_index<1>::type cache_lru_index_t;
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private:
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int add_job(disk_io_job const& j
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, mutex::scoped_lock& l
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, boost::function<void(int, disk_io_job const&)> const& f
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= boost::function<void(int, disk_io_job const&)>());
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bool test_error(disk_io_job& j);
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void post_callback(boost::function<void(int, disk_io_job const&)> const& handler
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, disk_io_job const& j, int ret);
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// cache operations
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cache_piece_index_t::iterator find_cached_piece(
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cache_t& cache, disk_io_job const& j
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, mutex::scoped_lock& l);
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bool is_cache_hit(cached_piece_entry& p
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, disk_io_job const& j, mutex::scoped_lock& l);
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int copy_from_piece(cached_piece_entry& p, bool& hit
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, disk_io_job const& j, mutex::scoped_lock& l);
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// write cache operations
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enum options_t { dont_flush_write_blocks = 1, ignore_cache_size = 2 };
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int flush_cache_blocks(mutex::scoped_lock& l
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, int blocks, int ignore = -1, int options = 0);
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void flush_expired_pieces();
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int flush_contiguous_blocks(cached_piece_entry& p
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, mutex::scoped_lock& l, int lower_limit = 0);
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int flush_range(cached_piece_entry& p, int start, int end, mutex::scoped_lock& l);
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int cache_block(disk_io_job& j
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, boost::function<void(int,disk_io_job const&)>& handler
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, int cache_expire
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, mutex::scoped_lock& l);
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// read cache operations
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int clear_oldest_read_piece(int num_blocks, int ignore
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, mutex::scoped_lock& l);
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int read_into_piece(cached_piece_entry& p, int start_block
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, int options, int num_blocks, mutex::scoped_lock& l);
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int cache_read_block(disk_io_job const& j, mutex::scoped_lock& l);
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int free_piece(cached_piece_entry& p, mutex::scoped_lock& l);
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int drain_piece_bufs(cached_piece_entry& p, std::vector<char*>& buf
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, mutex::scoped_lock& l);
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int try_read_from_cache(disk_io_job const& j, bool& hit);
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int read_piece_from_cache_and_hash(disk_io_job const& j, sha1_hash& h);
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int cache_piece(disk_io_job const& j, cache_piece_index_t::iterator& p
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, bool& hit, int options, mutex::scoped_lock& l);
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// this mutex only protects m_jobs, m_queue_buffer_size,
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// m_exceeded_write_queue and m_abort
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mutable mutex m_queue_mutex;
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event m_signal;
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bool m_abort;
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bool m_waiting_to_shutdown;
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std::deque<disk_io_job> m_jobs;
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size_type m_queue_buffer_size;
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ptime m_last_file_check;
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// this protects the piece cache and related members
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mutable mutex m_piece_mutex;
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// write cache
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cache_t m_pieces;
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// read cache
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cache_t m_read_pieces;
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void flip_stats();
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// total number of blocks in use by both the read
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// and the write cache. This is not supposed to
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// exceed m_cache_size
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cache_status m_cache_stats;
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// keeps average queue time for disk jobs (in microseconds)
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average_accumulator m_queue_time;
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// average read time for cache misses (in microseconds)
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average_accumulator m_read_time;
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// average write time (in microseconds)
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average_accumulator m_write_time;
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// average hash time (in microseconds)
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average_accumulator m_hash_time;
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// average time to serve a job (any job) in microseconds
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average_accumulator m_job_time;
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// average time to ask for physical offset on disk
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// and insert into queue
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average_accumulator m_sort_time;
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// the last time we reset the average time and store the
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// latest value in m_cache_stats
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ptime m_last_stats_flip;
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typedef std::multimap<size_type, disk_io_job> read_jobs_t;
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read_jobs_t m_sorted_read_jobs;
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#ifdef TORRENT_DISK_STATS
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std::ofstream m_log;
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#endif
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// the amount of physical ram in the machine
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boost::uint64_t m_physical_ram;
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// if we exceeded the max queue disk write size
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// this is set to true. It remains true until the
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// queue is smaller than the low watermark
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bool m_exceeded_write_queue;
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io_service& m_ios;
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boost::function<void()> m_queue_callback;
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// this keeps the io_service::run() call blocked from
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// returning. When shutting down, it's possible that
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// the event queue is drained before the disk_io_thread
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// has posted its last callback. When this happens, the
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// io_service will have a pending callback from the
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// disk_io_thread, but the event loop is not running.
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// this means that the event is destructed after the
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// disk_io_thread. If the event refers to a disk buffer
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// it will try to free it, but the buffer pool won't
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// exist anymore, and crash. This prevents that.
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boost::optional<io_service::work> m_work;
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// reference to the file_pool which is a member of
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// the session_impl object
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file_pool& m_file_pool;
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// thread for performing blocking disk io operations
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thread m_disk_io_thread;
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};
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}
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#endif
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