/* * This file Copyright (C) 2008-2014 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * */ #pragma once #ifndef __TRANSMISSION__ #error only libtransmission should #include this header. #endif #include "transmission.h" #include "ptrarray.h" #include "tr-assert.h" #include "utils.h" /* tr_new(), tr_free() */ struct tr_peerIo; /** * @addtogroup networked_io Networked IO * @{ */ /* these are PRIVATE IMPLEMENTATION details that should not be touched. * it's included in the header for inlining and composition. */ enum { HISTORY_MSEC = 2000u, INTERVAL_MSEC = HISTORY_MSEC, GRANULARITY_MSEC = 200, HISTORY_SIZE = (INTERVAL_MSEC / GRANULARITY_MSEC), BANDWIDTH_MAGIC_NUMBER = 43143 }; /* these are PRIVATE IMPLEMENTATION details that should not be touched. * it's included in the header for inlining and composition. */ struct bratecontrol { int newest; struct { uint64_t date; uint64_t size; } transfers[HISTORY_SIZE]; uint64_t cache_time; unsigned int cache_val; }; /* these are PRIVATE IMPLEMENTATION details that should not be touched. * it's included in the header for inlining and composition. */ struct tr_band { bool isLimited; bool honorParentLimits; unsigned int bytesLeft; unsigned int desiredSpeed_Bps; struct bratecontrol raw; struct bratecontrol piece; }; /** * Bandwidth is an object for measuring and constraining bandwidth speeds. * * Bandwidth objects can be "stacked" so that a peer can be made to obey * multiple constraints (for example, obeying the global speed limit and a * per-torrent speed limit). * * HIERARCHY * * Transmission's bandwidth hierarchy is a tree. * At the top is the global bandwidth object owned by tr_session. * Its children are per-torrent bandwidth objects owned by tr_torrent. * Underneath those are per-peer bandwidth objects owned by tr_peer. * * tr_session also owns a tr_handshake's bandwidths, so that the handshake * I/O can be counted in the global raw totals. When the handshake is done, * the bandwidth's ownership passes to a tr_peer. * * MEASURING * * When you ask a bandwidth object for its speed, it gives the speed of the * subtree underneath it as well. So you can get Transmission's overall * speed by quering tr_session's bandwidth, per-torrent speeds by asking * tr_torrent's bandwidth, and per-peer speeds by asking tr_peer's bandwidth. * * CONSTRAINING * * Call tr_bandwidthAllocate() periodically. tr_bandwidth knows its current * speed and will decide how many bytes to make available over the * user-specified period to reach the user-specified desired speed. * If appropriate, it notifies its peer-ios that new bandwidth is available. * * tr_bandwidthAllocate() operates on the tr_bandwidth subtree, so usually * you'll only need to invoke it for the top-level tr_session bandwidth. * * The peer-ios all have a pointer to their associated tr_bandwidth object, * and call tr_bandwidthClamp() before performing I/O to see how much * bandwidth they can safely use. */ typedef struct tr_bandwidth { /* these are PRIVATE IMPLEMENTATION details that should not be touched. * it's included in the header for inlining and composition. */ struct tr_band band[2]; struct tr_bandwidth* parent; tr_priority_t priority; int magicNumber; unsigned int uniqueKey; tr_session* session; tr_ptrArray children; /* struct tr_bandwidth */ struct tr_peerIo* peer; } tr_bandwidth; /** *** **/ void tr_bandwidthConstruct(tr_bandwidth* bandwidth, tr_session* session, tr_bandwidth* parent); void tr_bandwidthDestruct(tr_bandwidth* bandwidth); /** @brief test to see if the pointer refers to a live bandwidth object */ static inline bool tr_isBandwidth(tr_bandwidth const* b) { return b != NULL && b->magicNumber == BANDWIDTH_MAGIC_NUMBER; } /****** ******* ******/ /** * @brief Set the desired speed for this bandwidth subtree. * @see tr_bandwidthAllocate * @see tr_bandwidthGetDesiredSpeed */ static inline bool tr_bandwidthSetDesiredSpeed_Bps(tr_bandwidth* bandwidth, tr_direction dir, unsigned int desiredSpeed) { unsigned int* value = &bandwidth->band[dir].desiredSpeed_Bps; bool const didChange = desiredSpeed != *value; *value = desiredSpeed; return didChange; } /** * @brief Get the desired speed for the bandwidth subtree. * @see tr_bandwidthSetDesiredSpeed */ static inline double tr_bandwidthGetDesiredSpeed_Bps(tr_bandwidth const* bandwidth, tr_direction dir) { return bandwidth->band[dir].desiredSpeed_Bps; } /** * @brief Set whether or not this bandwidth should throttle its peer-io's speeds */ static inline bool tr_bandwidthSetLimited(tr_bandwidth* bandwidth, tr_direction dir, bool isLimited) { bool* value = &bandwidth->band[dir].isLimited; bool const didChange = isLimited != *value; *value = isLimited; return didChange; } /** * @return nonzero if this bandwidth throttles its peer-ios speeds */ static inline bool tr_bandwidthIsLimited(tr_bandwidth const* bandwidth, tr_direction dir) { return bandwidth->band[dir].isLimited; } /** * @brief allocate the next period_msec's worth of bandwidth for the peer-ios to consume */ void tr_bandwidthAllocate(tr_bandwidth* bandwidth, tr_direction direction, unsigned int period_msec); /** * @brief clamps byteCount down to a number that this bandwidth will allow to be consumed */ unsigned int tr_bandwidthClamp(tr_bandwidth const* bandwidth, tr_direction direction, unsigned int byteCount); /****** ******* ******/ /** @brief Get the raw total of bytes read or sent by this bandwidth subtree. */ unsigned int tr_bandwidthGetRawSpeed_Bps(tr_bandwidth const* bandwidth, uint64_t const now, tr_direction const direction); /** @brief Get the number of piece data bytes read or sent by this bandwidth subtree. */ unsigned int tr_bandwidthGetPieceSpeed_Bps(tr_bandwidth const* bandwidth, uint64_t const now, tr_direction const direction); /** * @brief Notify the bandwidth object that some of its allocated bandwidth has been consumed. * This is is usually invoked by the peer-io after a read or write. */ void tr_bandwidthUsed(tr_bandwidth* bandwidth, tr_direction direction, size_t byteCount, bool isPieceData, uint64_t now); /****** ******* ******/ void tr_bandwidthSetParent(tr_bandwidth* bandwidth, tr_bandwidth* parent); /** * Almost all the time we do want to honor a parents' bandwidth cap, so that * (for example) a peer is constrained by a per-torrent cap and the global cap. * But when we set a torrent's speed mode to TR_SPEEDLIMIT_UNLIMITED, then * in that particular case we want to ignore the global speed limit... */ static inline bool tr_bandwidthHonorParentLimits(tr_bandwidth* bandwidth, tr_direction direction, bool isEnabled) { bool* value = &bandwidth->band[direction].honorParentLimits; bool const didChange = isEnabled != *value; *value = isEnabled; return didChange; } static inline bool tr_bandwidthAreParentLimitsHonored(tr_bandwidth const* bandwidth, tr_direction direction) { TR_ASSERT(tr_isBandwidth(bandwidth)); TR_ASSERT(tr_isDirection(direction)); return bandwidth->band[direction].honorParentLimits; } /****** ******* ******/ void tr_bandwidthSetPeer(tr_bandwidth* bandwidth, struct tr_peerIo* peerIo); /* @} */