#include "./components.hpp" #include namespace Components { std::vector FT1ChunkSHA1Cache::chunkIndices(const SHA1Digest& hash) const { const auto it = chunk_hash_to_index.find(hash); if (it != chunk_hash_to_index.cend()) { return it->second; } else { return {}; } } bool FT1ChunkSHA1Cache::haveChunk(ObjectHandle o, const SHA1Digest& hash) const { if (o.all_of()) { return true; } const auto* lhb = o.try_get(); if (lhb == nullptr) { return false; // we dont have anything yet } if (auto i_vec = chunkIndices(hash); !i_vec.empty()) { // TODO: should i test all? //return have_chunk[i_vec.front()]; return lhb->have[i_vec.front()]; } // not part of this file return false; } void ReAnnounceTimer::set(const float new_timer) { timer = new_timer; last_max = new_timer; } void ReAnnounceTimer::reset(void) { if (last_max <= 0.01f) { last_max = 1.f; } last_max *= 2.f; timer = last_max; } void ReAnnounceTimer::lower(void) { timer *= 0.1f; //last_max *= 0.1f; // is this a good idea? last_max *= 0.9f; // is this a good idea? } void TransferStatsTally::Peer::trimSent(const float time_now) { while (recently_sent.size() > 4 && time_now - recently_sent.front().time_point > 1.f) { recently_sent.pop_front(); } } void TransferStatsTally::Peer::trimReceived(const float time_now) { while (recently_received.size() > 4 && time_now - recently_received.front().time_point > 1.f) { recently_received.pop_front(); } } } // Components