// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab /* * Ceph - scalable distributed file system * * Copyright (C) 2004-2006 Sage Weil * * This is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software * Foundation. See file COPYING. * */ #ifndef CEPH_MOSDREPOPREPLY_H #define CEPH_MOSDREPOPREPLY_H #include "MOSDFastDispatchOp.h" #include "os/ObjectStore.h" /* * OSD Client Subop reply * * oid - object id * op - OSD_OP_DELETE, etc. * */ class MOSDRepOpReply : public MOSDFastDispatchOp { static const int HEAD_VERSION = 2; static const int COMPAT_VERSION = 1; public: epoch_t map_epoch, min_epoch; // subop metadata osd_reqid_t reqid; pg_shard_t from; spg_t pgid; // result __u8 ack_type; int32_t result; // piggybacked osd state eversion_t last_complete_ondisk; bufferlist::iterator p; // Decoding flags. Decoding is only needed for messages catched by pipe reader. bool final_decode_needed; epoch_t get_map_epoch() const override { return map_epoch; } epoch_t get_min_epoch() const override { return min_epoch; } spg_t get_spg() const override { return pgid; } void decode_payload() override { p = payload.begin(); ::decode(map_epoch, p); if (header.version >= 2) { ::decode(min_epoch, p); decode_trace(p); } else { min_epoch = map_epoch; } ::decode(reqid, p); ::decode(pgid, p); } void finish_decode() { if (!final_decode_needed) return; // Message is already final decoded ::decode(ack_type, p); ::decode(result, p); ::decode(last_complete_ondisk, p); ::decode(from, p); final_decode_needed = false; } void encode_payload(uint64_t features) override { ::encode(map_epoch, payload); if (HAVE_FEATURE(features, SERVER_LUMINOUS)) { header.version = HEAD_VERSION; ::encode(min_epoch, payload); encode_trace(payload, features); } else { header.version = 1; } ::encode(reqid, payload); ::encode(pgid, payload); ::encode(ack_type, payload); ::encode(result, payload); ::encode(last_complete_ondisk, payload); ::encode(from, payload); } spg_t get_pg() { return pgid; } int get_ack_type() { return ack_type; } bool is_ondisk() { return ack_type & CEPH_OSD_FLAG_ONDISK; } bool is_onnvram() { return ack_type & CEPH_OSD_FLAG_ONNVRAM; } int get_result() { return result; } void set_last_complete_ondisk(eversion_t v) { last_complete_ondisk = v; } eversion_t get_last_complete_ondisk() const { return last_complete_ondisk; } public: MOSDRepOpReply( const MOSDRepOp *req, pg_shard_t from, int result_, epoch_t e, epoch_t mine, int at) : MOSDFastDispatchOp(MSG_OSD_REPOPREPLY, HEAD_VERSION, COMPAT_VERSION), map_epoch(e), min_epoch(mine), reqid(req->reqid), from(from), pgid(req->pgid.pgid, req->from.shard), ack_type(at), result(result_), final_decode_needed(false) { set_tid(req->get_tid()); } MOSDRepOpReply() : MOSDFastDispatchOp(MSG_OSD_REPOPREPLY, HEAD_VERSION, COMPAT_VERSION), map_epoch(0), min_epoch(0), ack_type(0), result(0), final_decode_needed(true) {} private: ~MOSDRepOpReply() override {} public: const char *get_type_name() const override { return "osd_repop_reply"; } void print(ostream& out) const override { out << "osd_repop_reply(" << reqid << " " << pgid << " e" << map_epoch << "/" << min_epoch; if (!final_decode_needed) { if (ack_type & CEPH_OSD_FLAG_ONDISK) out << " ondisk"; if (ack_type & CEPH_OSD_FLAG_ONNVRAM) out << " onnvram"; if (ack_type & CEPH_OSD_FLAG_ACK) out << " ack"; out << ", result = " << result; } out << ")"; } }; #endif