// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #pragma once #include #include "osd/osd_types.h" class MOSDPGLog; /// what we need to instantiate a pg struct PGCreateInfo { spg_t pgid; epoch_t epoch = 0; pg_history_t history; PastIntervals past_intervals; bool by_mon; PGCreateInfo(spg_t p, epoch_t e, const pg_history_t& h, const PastIntervals& pi, bool mon) : pgid(p), epoch(e), history(h), past_intervals(pi), by_mon(mon) {} }; class PGPeeringEvent { epoch_t epoch_sent; epoch_t epoch_requested; string desc; public: boost::intrusive_ptr< const boost::statechart::event_base > evt; bool requires_pg; std::unique_ptr create_info; MEMPOOL_CLASS_HELPERS(); template PGPeeringEvent( epoch_t epoch_sent, epoch_t epoch_requested, const T &evt_, bool req = true, PGCreateInfo *ci = 0) : epoch_sent(epoch_sent), epoch_requested(epoch_requested), evt(evt_.intrusive_from_this()), requires_pg(req), create_info(ci) { stringstream out; out << "epoch_sent: " << epoch_sent << " epoch_requested: " << epoch_requested << " "; evt_.print(&out); if (create_info) { out << " +create_info"; } desc = out.str(); } epoch_t get_epoch_sent() { return epoch_sent; } epoch_t get_epoch_requested() { return epoch_requested; } const boost::statechart::event_base &get_event() { return *evt; } const string& get_desc() { return desc; } }; typedef std::shared_ptr PGPeeringEventRef; struct MInfoRec : boost::statechart::event< MInfoRec > { pg_shard_t from; pg_info_t info; epoch_t msg_epoch; MInfoRec(pg_shard_t from, const pg_info_t &info, epoch_t msg_epoch) : from(from), info(info), msg_epoch(msg_epoch) {} void print(std::ostream *out) const { *out << "MInfoRec from " << from << " info: " << info; } }; struct MLogRec : boost::statechart::event< MLogRec > { pg_shard_t from; boost::intrusive_ptr msg; MLogRec(pg_shard_t from, MOSDPGLog *msg) : from(from), msg(msg) {} void print(std::ostream *out) const { *out << "MLogRec from " << from; } }; struct MNotifyRec : boost::statechart::event< MNotifyRec > { spg_t pgid; pg_shard_t from; pg_notify_t notify; uint64_t features; PastIntervals past_intervals; MNotifyRec(spg_t p, pg_shard_t from, const pg_notify_t ¬ify, uint64_t f, const PastIntervals& pi) : pgid(p), from(from), notify(notify), features(f), past_intervals(pi) {} void print(std::ostream *out) const { *out << "MNotifyRec " << pgid << " from " << from << " notify: " << notify << " features: 0x" << hex << features << dec << " " << past_intervals; } }; struct MQuery : boost::statechart::event< MQuery > { spg_t pgid; pg_shard_t from; pg_query_t query; epoch_t query_epoch; MQuery(spg_t p, pg_shard_t from, const pg_query_t &query, epoch_t query_epoch) : pgid(p), from(from), query(query), query_epoch(query_epoch) {} void print(std::ostream *out) const { *out << "MQuery " << pgid << " from " << from << " query_epoch " << query_epoch << " query: " << query; } }; struct MTrim : boost::statechart::event { epoch_t epoch; int from; shard_id_t shard; eversion_t trim_to; MTrim(epoch_t epoch, int from, shard_id_t shard, eversion_t trim_to) : epoch(epoch), from(from), shard(shard), trim_to(trim_to) {} void print(std::ostream *out) const { *out << "MTrim epoch " << epoch << " from " << from << " shard " << shard << " trim_to " << trim_to; } }; struct RequestBackfillPrio : boost::statechart::event< RequestBackfillPrio > { unsigned priority; int64_t primary_num_bytes; int64_t local_num_bytes; explicit RequestBackfillPrio(unsigned prio, int64_t pbytes, int64_t lbytes) : boost::statechart::event< RequestBackfillPrio >(), priority(prio), primary_num_bytes(pbytes), local_num_bytes(lbytes) {} void print(std::ostream *out) const { *out << "RequestBackfillPrio: priority " << priority << " primary bytes " << primary_num_bytes << " local bytes " << local_num_bytes; } }; struct RequestRecoveryPrio : boost::statechart::event< RequestRecoveryPrio > { unsigned priority; explicit RequestRecoveryPrio(unsigned prio) : boost::statechart::event< RequestRecoveryPrio >(), priority(prio) {} void print(std::ostream *out) const { *out << "RequestRecoveryPrio: priority " << priority; } }; #define TrivialEvent(T) struct T : boost::statechart::event< T > { \ T() : boost::statechart::event< T >() {} \ void print(std::ostream *out) const { \ *out << #T; \ } \ }; TrivialEvent(NullEvt) TrivialEvent(RemoteBackfillReserved) TrivialEvent(RemoteReservationRejectedTooFull) TrivialEvent(RemoteReservationRevokedTooFull) TrivialEvent(RemoteReservationRevoked) TrivialEvent(RemoteReservationCanceled) TrivialEvent(RemoteRecoveryReserved) TrivialEvent(RecoveryDone) struct DeferRecovery : boost::statechart::event { float delay; explicit DeferRecovery(float delay) : delay(delay) {} void print(std::ostream *out) const { *out << "DeferRecovery: delay " << delay; } }; struct DeferBackfill : boost::statechart::event { float delay; explicit DeferBackfill(float delay) : delay(delay) {} void print(std::ostream *out) const { *out << "DeferBackfill: delay " << delay; } };