mirror of
https://github.com/transmission/transmission
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205abbbcce
* refactor: use cstdint for intX_t types * refactor: iwyu sstring_view * refactor: iwyu <cstring> * refactor: iwyu <vector>
265 lines
8.1 KiB
C++
265 lines
8.1 KiB
C++
// This file Copyright © 2008-2022 Mnemosyne LLC.
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// It may be used under GPLv2 (SPDX: GPL-2.0), GPLv3 (SPDX: GPL-3.0),
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// or any future license endorsed by Mnemosyne LLC.
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// License text can be found in the licenses/ folder.
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#pragma once
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#ifndef __TRANSMISSION__
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#error only libtransmission should #include this header.
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#endif
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#include <array>
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#include <cstddef> // size_t
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#include <cstdint> // uint64_t
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#include <vector>
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#include "transmission.h"
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#include "tr-assert.h"
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class tr_peerIo;
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/**
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* @addtogroup networked_io Networked IO
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* @{
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*/
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struct tr_bandwidth_limits
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{
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unsigned int up_limit_KBps = 0;
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unsigned int down_limit_KBps = 0;
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bool up_limited = false;
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bool down_limited = false;
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};
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/**
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* Bandwidth is an object for measuring and constraining bandwidth speeds.
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*
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* Bandwidth objects can be "stacked" so that a peer can be made to obey
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* multiple constraints (for example, obeying the global speed limit and a
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* per-torrent speed limit).
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*
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* HIERARCHY
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*
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* Transmission's bandwidth hierarchy is a tree.
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* At the top is the global bandwidth object owned by tr_session.
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* Its children are per-torrent bandwidth objects owned by tr_torrent.
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* Underneath those are per-peer bandwidth objects owned by tr_peer.
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*
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* tr_session also owns a tr_handshake's bandwidths, so that the handshake
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* I/O can be counted in the global raw totals. When the handshake is done,
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* the bandwidth's ownership passes to a tr_peer.
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*
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* MEASURING
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*
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* When you ask a bandwidth object for its speed, it gives the speed of the
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* subtree underneath it as well. So you can get Transmission's overall
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* speed by quering tr_session's bandwidth, per-torrent speeds by asking
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* tr_torrent's bandwidth, and per-peer speeds by asking tr_peer's bandwidth.
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*
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* CONSTRAINING
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*
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* Call Bandwidth::allocate() periodically. tr_bandwidth knows its current
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* speed and will decide how many bytes to make available over the
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* user-specified period to reach the user-specified desired speed.
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* If appropriate, it notifies its peer-ios that new bandwidth is available.
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*
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* Bandwidth::allocate() operates on the tr_bandwidth subtree, so usually
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* you'll only need to invoke it for the top-level tr_session bandwidth.
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*
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* The peer-ios all have a pointer to their associated tr_bandwidth object,
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* and call Bandwidth::clamp() before performing I/O to see how much
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* bandwidth they can safely use.
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*/
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struct Bandwidth
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{
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public:
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explicit Bandwidth(Bandwidth* newParent);
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Bandwidth()
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: Bandwidth(nullptr)
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{
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}
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~Bandwidth()
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{
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this->setParent(nullptr);
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}
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Bandwidth& operator=(Bandwidth&&) = delete;
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Bandwidth& operator=(Bandwidth) = delete;
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Bandwidth(Bandwidth&&) = delete;
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Bandwidth(Bandwidth&) = delete;
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/**
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* @brief Sets new peer, nullptr is allowed.
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*/
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constexpr void setPeer(tr_peerIo* peer)
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{
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this->peer_ = peer;
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}
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/**
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* @brief Notify the bandwidth object that some of its allocated bandwidth has been consumed.
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* This is is usually invoked by the peer-io after a read or write.
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*/
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void notifyBandwidthConsumed(tr_direction dir, size_t byte_count, bool is_piece_data, uint64_t now);
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/**
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* @brief allocate the next period_msec's worth of bandwidth for the peer-ios to consume
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*/
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void allocate(tr_direction dir, unsigned int period_msec);
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void setParent(Bandwidth* newParent);
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[[nodiscard]] constexpr tr_priority_t getPriority() const noexcept
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{
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return this->priority_;
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}
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constexpr void setPriority(tr_priority_t prio) noexcept
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{
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this->priority_ = prio;
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}
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/**
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* @brief clamps byte_count down to a number that this bandwidth will allow to be consumed
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*/
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[[nodiscard]] unsigned int clamp(tr_direction dir, unsigned int byte_count) const noexcept
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{
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return this->clamp(0, dir, byte_count);
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}
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/** @brief Get the raw total of bytes read or sent by this bandwidth subtree. */
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[[nodiscard]] unsigned int getRawSpeedBytesPerSecond(uint64_t const now, tr_direction const dir) const
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{
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TR_ASSERT(tr_isDirection(dir));
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return getSpeedBytesPerSecond(this->band_[dir].raw_, HistoryMSec, now);
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}
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/** @brief Get the number of piece data bytes read or sent by this bandwidth subtree. */
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[[nodiscard]] unsigned int getPieceSpeedBytesPerSecond(uint64_t const now, tr_direction const dir) const
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{
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TR_ASSERT(tr_isDirection(dir));
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return getSpeedBytesPerSecond(this->band_[dir].piece_, HistoryMSec, now);
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}
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/**
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* @brief Set the desired speed for this bandwidth subtree.
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* @see Bandwidth::allocate
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* @see Bandwidth::getDesiredSpeed
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*/
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constexpr bool setDesiredSpeedBytesPerSecond(tr_direction dir, unsigned int desired_speed)
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{
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auto& value = this->band_[dir].desired_speed_bps_;
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bool const did_change = desired_speed != value;
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value = desired_speed;
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return did_change;
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}
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/**
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* @brief Get the desired speed for the bandwidth subtree.
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* @see Bandwidth::setDesiredSpeed
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*/
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[[nodiscard]] constexpr double getDesiredSpeedBytesPerSecond(tr_direction dir) const
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{
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return this->band_[dir].desired_speed_bps_;
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}
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/**
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* @brief Set whether or not this bandwidth should throttle its peer-io's speeds
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*/
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constexpr bool setLimited(tr_direction dir, bool is_limited)
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{
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bool* value = &this->band_[dir].is_limited_;
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bool const did_change = is_limited != *value;
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*value = is_limited;
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return did_change;
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}
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/**
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* @return nonzero if this bandwidth throttles its peer-ios speeds
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*/
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[[nodiscard]] constexpr bool isLimited(tr_direction dir) const
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{
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return this->band_[dir].is_limited_;
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}
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/**
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* Almost all the time we do want to honor a parents' bandwidth cap, so that
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* (for example) a peer is constrained by a per-torrent cap and the global cap.
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* But when we set a torrent's speed mode to TR_SPEEDLIMIT_UNLIMITED, then
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* in that particular case we want to ignore the global speed limit...
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*/
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constexpr bool honorParentLimits(tr_direction direction, bool is_enabled)
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{
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bool* value = &this->band_[direction].honor_parent_limits_;
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bool const did_change = is_enabled != *value;
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*value = is_enabled;
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return did_change;
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}
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[[nodiscard]] constexpr bool areParentLimitsHonored(tr_direction direction) const
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{
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TR_ASSERT(tr_isDirection(direction));
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return this->band_[direction].honor_parent_limits_;
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}
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static constexpr size_t HistoryMSec = 2000U;
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static constexpr size_t IntervalMSec = HistoryMSec;
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static constexpr size_t GranularityMSec = 200;
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static constexpr size_t HistorySize = (IntervalMSec / GranularityMSec);
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struct RateControl
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{
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struct Transfer
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{
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uint64_t date_;
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uint64_t size_;
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};
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std::array<Transfer, HistorySize> transfers_;
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uint64_t cache_time_;
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unsigned int cache_val_;
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int newest_;
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};
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struct Band
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{
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RateControl raw_;
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RateControl piece_;
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unsigned int bytes_left_;
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unsigned int desired_speed_bps_;
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bool is_limited_ = false;
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bool honor_parent_limits_ = true;
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};
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tr_bandwidth_limits getLimits() const;
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void setLimits(tr_bandwidth_limits const* limits);
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private:
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static unsigned int getSpeedBytesPerSecond(RateControl& r, unsigned int interval_msec, uint64_t now);
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static void notifyBandwidthConsumedBytes(uint64_t now, RateControl* r, size_t size);
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[[nodiscard]] unsigned int clamp(uint64_t now, tr_direction dir, unsigned int byte_count) const;
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static void phaseOne(std::vector<tr_peerIo*>& peer_array, tr_direction dir);
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void allocateBandwidth(
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tr_priority_t parent_priority,
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tr_direction dir,
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unsigned int period_msec,
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std::vector<tr_peerIo*>& peer_pool);
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mutable std::array<Band, 2> band_ = {};
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Bandwidth* parent_ = nullptr;
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std::vector<Bandwidth*> children_;
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tr_peerIo* peer_ = nullptr;
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tr_priority_t priority_ = 0;
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};
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/* @} */
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