mirror of
https://github.com/oxen-io/lokinet.git
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f641c08e80
No more llarp_buffer_t here! (I was tracking down a segfault which led me in here and it was easier to rewrite this to use bt_dict_{consumer,producer} than to decipher all the cursed llarp_buffer_t and bencode callback nest).
322 lines
7.6 KiB
C++
322 lines
7.6 KiB
C++
#include "profiling.hpp"
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#include <oxenc/bt_producer.h>
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#include <oxenc/bt_serialize.h>
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#include "util/file.hpp"
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#include "util/logging.hpp"
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using oxenc::bt_dict_consumer;
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using oxenc::bt_dict_producer;
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namespace llarp
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{
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static auto logcat = log::Cat("profiling");
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RouterProfile::RouterProfile(bt_dict_consumer dict)
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{
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BDecode(std::move(dict));
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}
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void
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RouterProfile::BEncode(bt_dict_producer& dict) const
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{
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dict.append("g", connectGoodCount);
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dict.append("p", pathSuccessCount);
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dict.append("q", pathTimeoutCount);
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dict.append("s", pathFailCount);
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dict.append("t", connectTimeoutCount);
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dict.append("u", lastUpdated.count());
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dict.append("v", version);
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}
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void
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RouterProfile::BDecode(bt_dict_consumer dict)
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{
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if (dict.skip_until("g"))
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connectGoodCount = dict.consume_integer<uint64_t>();
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if (dict.skip_until("p"))
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pathSuccessCount = dict.consume_integer<uint64_t>();
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if (dict.skip_until("q"))
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pathTimeoutCount = dict.consume_integer<uint64_t>();
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if (dict.skip_until("s"))
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pathFailCount = dict.consume_integer<uint64_t>();
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if (dict.skip_until("t"))
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connectTimeoutCount = dict.consume_integer<uint64_t>();
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if (dict.skip_until("u"))
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lastUpdated = llarp_time_t{dict.consume_integer<uint64_t>()};
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if (dict.skip_until("v"))
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version = dict.consume_integer<uint64_t>();
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}
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void
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RouterProfile::Decay()
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{
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connectGoodCount /= 2;
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connectTimeoutCount /= 2;
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pathSuccessCount /= 2;
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pathFailCount /= 2;
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pathTimeoutCount /= 2;
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lastDecay = llarp::time_now_ms();
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}
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void
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RouterProfile::Tick()
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{
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static constexpr auto updateInterval = 30s;
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const auto now = llarp::time_now_ms();
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if (lastDecay < now && now - lastDecay > updateInterval)
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Decay();
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}
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bool
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RouterProfile::IsGood(uint64_t chances) const
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{
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if (connectTimeoutCount > chances)
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return connectTimeoutCount < connectGoodCount && (pathSuccessCount * chances) > pathFailCount;
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return (pathSuccessCount * chances) > pathFailCount;
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}
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static bool constexpr checkIsGood(uint64_t fails, uint64_t success, uint64_t chances)
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{
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if (fails > 0 && (fails + success) >= chances)
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return (success / fails) > 1;
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if (success == 0)
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return fails < chances;
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return true;
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}
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bool
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RouterProfile::IsGoodForConnect(uint64_t chances) const
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{
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return checkIsGood(connectTimeoutCount, connectGoodCount, chances);
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}
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bool
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RouterProfile::IsGoodForPath(uint64_t chances) const
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{
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if (pathTimeoutCount > chances)
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return false;
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return checkIsGood(pathFailCount, pathSuccessCount, chances);
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}
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Profiling::Profiling() : m_DisableProfiling(false)
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{}
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void
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Profiling::Disable()
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{
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m_DisableProfiling.store(true);
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}
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void
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Profiling::Enable()
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{
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m_DisableProfiling.store(false);
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}
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bool
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Profiling::IsBadForConnect(const RouterID& r, uint64_t chances)
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{
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if (m_DisableProfiling.load())
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return false;
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util::Lock lock{m_ProfilesMutex};
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auto itr = m_Profiles.find(r);
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if (itr == m_Profiles.end())
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return false;
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return not itr->second.IsGoodForConnect(chances);
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}
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bool
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Profiling::IsBadForPath(const RouterID& r, uint64_t chances)
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{
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if (m_DisableProfiling.load())
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return false;
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util::Lock lock{m_ProfilesMutex};
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auto itr = m_Profiles.find(r);
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if (itr == m_Profiles.end())
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return false;
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return not itr->second.IsGoodForPath(chances);
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}
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bool
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Profiling::IsBad(const RouterID& r, uint64_t chances)
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{
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if (m_DisableProfiling.load())
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return false;
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util::Lock lock{m_ProfilesMutex};
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auto itr = m_Profiles.find(r);
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if (itr == m_Profiles.end())
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return false;
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return not itr->second.IsGood(chances);
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}
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void
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Profiling::Tick()
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{
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util::Lock lock(m_ProfilesMutex);
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for (auto& [rid, profile] : m_Profiles)
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profile.Tick();
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}
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void
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Profiling::MarkConnectTimeout(const RouterID& r)
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{
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util::Lock lock{m_ProfilesMutex};
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auto& profile = m_Profiles[r];
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profile.connectTimeoutCount += 1;
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profile.lastUpdated = llarp::time_now_ms();
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}
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void
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Profiling::MarkConnectSuccess(const RouterID& r)
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{
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util::Lock lock{m_ProfilesMutex};
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auto& profile = m_Profiles[r];
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profile.connectGoodCount += 1;
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profile.lastUpdated = llarp::time_now_ms();
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}
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void
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Profiling::ClearProfile(const RouterID& r)
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{
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util::Lock lock{m_ProfilesMutex};
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m_Profiles.erase(r);
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}
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void
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Profiling::MarkHopFail(const RouterID& r)
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{
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util::Lock lock{m_ProfilesMutex};
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auto& profile = m_Profiles[r];
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profile.pathFailCount += 1;
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profile.lastUpdated = llarp::time_now_ms();
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}
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void
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Profiling::MarkPathFail(path::Path* p)
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{
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util::Lock lock{m_ProfilesMutex};
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bool first = true;
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for (const auto& hop : p->hops)
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{
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// don't mark first hop as failure because we are connected to it directly
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if (first)
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first = false;
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else
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{
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auto& profile = m_Profiles[hop.rc.pubkey];
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profile.pathFailCount += 1;
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profile.lastUpdated = llarp::time_now_ms();
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}
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}
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}
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void
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Profiling::MarkPathTimeout(path::Path* p)
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{
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util::Lock lock{m_ProfilesMutex};
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for (const auto& hop : p->hops)
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{
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auto& profile = m_Profiles[hop.rc.pubkey];
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profile.pathTimeoutCount += 1;
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profile.lastUpdated = llarp::time_now_ms();
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}
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}
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void
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Profiling::MarkPathSuccess(path::Path* p)
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{
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util::Lock lock{m_ProfilesMutex};
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const auto sz = p->hops.size();
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for (const auto& hop : p->hops)
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{
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auto& profile = m_Profiles[hop.rc.pubkey];
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// redeem previous fails by halfing the fail count and setting timeout to zero
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profile.pathFailCount /= 2;
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profile.pathTimeoutCount = 0;
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// mark success at hop
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profile.pathSuccessCount += sz;
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profile.lastUpdated = llarp::time_now_ms();
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}
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}
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bool
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Profiling::Save(const fs::path fpath)
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{
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std::string buf;
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{
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util::Lock lock{m_ProfilesMutex};
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buf.resize((m_Profiles.size() * (RouterProfile::MaxSize + 32 + 8)) + 8);
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bt_dict_producer d{buf.data(), buf.size()};
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try
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{
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BEncode(d);
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}
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catch (const std::exception& e)
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{
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log::warning(logcat, "Failed to encode profiling data: {}", e.what());
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return false;
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}
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buf.resize(d.end() - buf.data());
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}
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try
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{
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util::dump_file(fpath, buf);
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}
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catch (const std::exception& e)
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{
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log::warning(logcat, "Failed to save profiling data to {}: {}", fpath, e.what());
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return false;
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}
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m_LastSave = llarp::time_now_ms();
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return true;
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}
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void
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Profiling::BEncode(bt_dict_producer& dict) const
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{
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for (const auto& [r_id, profile] : m_Profiles)
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profile.BEncode(dict.append_dict(r_id.ToView()));
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}
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void
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Profiling::BDecode(bt_dict_consumer dict)
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{
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m_Profiles.clear();
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while (dict)
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{
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auto [rid, subdict] = dict.next_dict_consumer();
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if (rid.size() != RouterID::SIZE)
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throw std::invalid_argument{"invalid RouterID"};
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m_Profiles.emplace(reinterpret_cast<const byte_t*>(rid.data()), subdict);
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}
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}
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bool
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Profiling::Load(const fs::path fname)
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{
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try
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{
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std::string data = util::slurp_file(fname);
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util::Lock lock{m_ProfilesMutex};
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BDecode(bt_dict_consumer{data});
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}
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catch (const std::exception& e)
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{
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log::warning(logcat, "failed to load router profiles from {}: {}", fname, e.what());
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return false;
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}
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m_LastSave = llarp::time_now_ms();
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return true;
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}
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bool
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Profiling::ShouldSave(llarp_time_t now) const
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{
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auto dlt = now - m_LastSave;
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return dlt > 1min;
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}
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} // namespace llarp
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