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|
// -*- 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 <sage@newdream.net>
*
* 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_OBJECTER_H
#define CEPH_OBJECTER_H
#include <condition_variable>
#include <list>
#include <map>
#include <mutex>
#include <memory>
#include <sstream>
#include <type_traits>
#include <boost/thread/shared_mutex.hpp>
#include "include/ceph_assert.h"
#include "include/buffer.h"
#include "include/types.h"
#include "include/rados/rados_types.hpp"
#include "common/admin_socket.h"
#include "common/ceph_time.h"
#include "common/ceph_timer.h"
#include "common/config_obs.h"
#include "common/shunique_lock.h"
#include "common/zipkin_trace.h"
#include "common/Finisher.h"
#include "common/Throttle.h"
#include "messages/MOSDOp.h"
#include "msg/Dispatcher.h"
#include "osd/OSDMap.h"
class Context;
class Messenger;
class OSDMap;
class MonClient;
class Message;
class Finisher;
class MPoolOpReply;
class MGetPoolStatsReply;
class MStatfsReply;
class MCommandReply;
class MWatchNotify;
class PerfCounters;
// -----------------------------------------
struct ObjectOperation {
vector<OSDOp> ops;
int flags;
int priority;
vector<bufferlist*> out_bl;
vector<Context*> out_handler;
vector<int*> out_rval;
ObjectOperation() : flags(0), priority(0) {}
~ObjectOperation() {
while (!out_handler.empty()) {
delete out_handler.back();
out_handler.pop_back();
}
}
size_t size() {
return ops.size();
}
void set_last_op_flags(int flags) {
ceph_assert(!ops.empty());
ops.rbegin()->op.flags = flags;
}
class C_TwoContexts;
/**
* Add a callback to run when this operation completes,
* after any other callbacks for it.
*/
void add_handler(Context *extra);
OSDOp& add_op(int op) {
int s = ops.size();
ops.resize(s+1);
ops[s].op.op = op;
out_bl.resize(s+1);
out_bl[s] = NULL;
out_handler.resize(s+1);
out_handler[s] = NULL;
out_rval.resize(s+1);
out_rval[s] = NULL;
return ops[s];
}
void add_data(int op, uint64_t off, uint64_t len, bufferlist& bl) {
OSDOp& osd_op = add_op(op);
osd_op.op.extent.offset = off;
osd_op.op.extent.length = len;
osd_op.indata.claim_append(bl);
}
void add_writesame(int op, uint64_t off, uint64_t write_len,
bufferlist& bl) {
OSDOp& osd_op = add_op(op);
osd_op.op.writesame.offset = off;
osd_op.op.writesame.length = write_len;
osd_op.op.writesame.data_length = bl.length();
osd_op.indata.claim_append(bl);
}
void add_xattr(int op, const char *name, const bufferlist& data) {
OSDOp& osd_op = add_op(op);
osd_op.op.xattr.name_len = (name ? strlen(name) : 0);
osd_op.op.xattr.value_len = data.length();
if (name)
osd_op.indata.append(name, osd_op.op.xattr.name_len);
osd_op.indata.append(data);
}
void add_xattr_cmp(int op, const char *name, uint8_t cmp_op,
uint8_t cmp_mode, const bufferlist& data) {
OSDOp& osd_op = add_op(op);
osd_op.op.xattr.name_len = (name ? strlen(name) : 0);
osd_op.op.xattr.value_len = data.length();
osd_op.op.xattr.cmp_op = cmp_op;
osd_op.op.xattr.cmp_mode = cmp_mode;
if (name)
osd_op.indata.append(name, osd_op.op.xattr.name_len);
osd_op.indata.append(data);
}
void add_call(int op, const char *cname, const char *method,
bufferlist &indata,
bufferlist *outbl, Context *ctx, int *prval) {
OSDOp& osd_op = add_op(op);
unsigned p = ops.size() - 1;
out_handler[p] = ctx;
out_bl[p] = outbl;
out_rval[p] = prval;
osd_op.op.cls.class_len = strlen(cname);
osd_op.op.cls.method_len = strlen(method);
osd_op.op.cls.indata_len = indata.length();
osd_op.indata.append(cname, osd_op.op.cls.class_len);
osd_op.indata.append(method, osd_op.op.cls.method_len);
osd_op.indata.append(indata);
}
void add_pgls(int op, uint64_t count, collection_list_handle_t cookie,
epoch_t start_epoch) {
OSDOp& osd_op = add_op(op);
osd_op.op.pgls.count = count;
osd_op.op.pgls.start_epoch = start_epoch;
encode(cookie, osd_op.indata);
}
void add_pgls_filter(int op, uint64_t count, const bufferlist& filter,
collection_list_handle_t cookie, epoch_t start_epoch) {
OSDOp& osd_op = add_op(op);
osd_op.op.pgls.count = count;
osd_op.op.pgls.start_epoch = start_epoch;
string cname = "pg";
string mname = "filter";
encode(cname, osd_op.indata);
encode(mname, osd_op.indata);
osd_op.indata.append(filter);
encode(cookie, osd_op.indata);
}
void add_alloc_hint(int op, uint64_t expected_object_size,
uint64_t expected_write_size,
uint32_t flags) {
OSDOp& osd_op = add_op(op);
osd_op.op.alloc_hint.expected_object_size = expected_object_size;
osd_op.op.alloc_hint.expected_write_size = expected_write_size;
osd_op.op.alloc_hint.flags = flags;
}
// ------
// pg
void pg_ls(uint64_t count, bufferlist& filter,
collection_list_handle_t cookie, epoch_t start_epoch) {
if (filter.length() == 0)
add_pgls(CEPH_OSD_OP_PGLS, count, cookie, start_epoch);
else
add_pgls_filter(CEPH_OSD_OP_PGLS_FILTER, count, filter, cookie,
start_epoch);
flags |= CEPH_OSD_FLAG_PGOP;
}
void pg_nls(uint64_t count, const bufferlist& filter,
collection_list_handle_t cookie, epoch_t start_epoch) {
if (filter.length() == 0)
add_pgls(CEPH_OSD_OP_PGNLS, count, cookie, start_epoch);
else
add_pgls_filter(CEPH_OSD_OP_PGNLS_FILTER, count, filter, cookie,
start_epoch);
flags |= CEPH_OSD_FLAG_PGOP;
}
void scrub_ls(const librados::object_id_t& start_after,
uint64_t max_to_get,
std::vector<librados::inconsistent_obj_t> *objects,
uint32_t *interval,
int *rval);
void scrub_ls(const librados::object_id_t& start_after,
uint64_t max_to_get,
std::vector<librados::inconsistent_snapset_t> *objects,
uint32_t *interval,
int *rval);
void create(bool excl) {
OSDOp& o = add_op(CEPH_OSD_OP_CREATE);
o.op.flags = (excl ? CEPH_OSD_OP_FLAG_EXCL : 0);
}
struct C_ObjectOperation_stat : public Context {
bufferlist bl;
uint64_t *psize;
ceph::real_time *pmtime;
time_t *ptime;
struct timespec *pts;
int *prval;
C_ObjectOperation_stat(uint64_t *ps, ceph::real_time *pm, time_t *pt, struct timespec *_pts,
int *prval)
: psize(ps), pmtime(pm), ptime(pt), pts(_pts), prval(prval) {}
void finish(int r) override {
if (r >= 0) {
auto p = bl.cbegin();
try {
uint64_t size;
ceph::real_time mtime;
decode(size, p);
decode(mtime, p);
if (psize)
*psize = size;
if (pmtime)
*pmtime = mtime;
if (ptime)
*ptime = ceph::real_clock::to_time_t(mtime);
if (pts)
*pts = ceph::real_clock::to_timespec(mtime);
} catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
}
}
};
void stat(uint64_t *psize, ceph::real_time *pmtime, int *prval) {
add_op(CEPH_OSD_OP_STAT);
unsigned p = ops.size() - 1;
C_ObjectOperation_stat *h = new C_ObjectOperation_stat(psize, pmtime, NULL, NULL,
prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
out_rval[p] = prval;
}
void stat(uint64_t *psize, time_t *ptime, int *prval) {
add_op(CEPH_OSD_OP_STAT);
unsigned p = ops.size() - 1;
C_ObjectOperation_stat *h = new C_ObjectOperation_stat(psize, NULL, ptime, NULL,
prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
out_rval[p] = prval;
}
void stat(uint64_t *psize, struct timespec *pts, int *prval) {
add_op(CEPH_OSD_OP_STAT);
unsigned p = ops.size() - 1;
C_ObjectOperation_stat *h = new C_ObjectOperation_stat(psize, NULL, NULL, pts,
prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
out_rval[p] = prval;
}
// object cmpext
struct C_ObjectOperation_cmpext : public Context {
int *prval;
explicit C_ObjectOperation_cmpext(int *prval)
: prval(prval) {}
void finish(int r) {
if (prval)
*prval = r;
}
};
void cmpext(uint64_t off, bufferlist& cmp_bl, int *prval) {
add_data(CEPH_OSD_OP_CMPEXT, off, cmp_bl.length(), cmp_bl);
unsigned p = ops.size() - 1;
C_ObjectOperation_cmpext *h = new C_ObjectOperation_cmpext(prval);
out_handler[p] = h;
out_rval[p] = prval;
}
// Used by C API
void cmpext(uint64_t off, uint64_t cmp_len, const char *cmp_buf, int *prval) {
bufferlist cmp_bl;
cmp_bl.append(cmp_buf, cmp_len);
add_data(CEPH_OSD_OP_CMPEXT, off, cmp_len, cmp_bl);
unsigned p = ops.size() - 1;
C_ObjectOperation_cmpext *h = new C_ObjectOperation_cmpext(prval);
out_handler[p] = h;
out_rval[p] = prval;
}
void read(uint64_t off, uint64_t len, bufferlist *pbl, int *prval,
Context* ctx) {
bufferlist bl;
add_data(CEPH_OSD_OP_READ, off, len, bl);
unsigned p = ops.size() - 1;
out_bl[p] = pbl;
out_rval[p] = prval;
out_handler[p] = ctx;
}
struct C_ObjectOperation_sparse_read : public Context {
bufferlist bl;
bufferlist *data_bl;
std::map<uint64_t, uint64_t> *extents;
int *prval;
C_ObjectOperation_sparse_read(bufferlist *data_bl,
std::map<uint64_t, uint64_t> *extents,
int *prval)
: data_bl(data_bl), extents(extents), prval(prval) {}
void finish(int r) override {
auto iter = bl.cbegin();
if (r >= 0) {
// NOTE: it's possible the sub-op has not been executed but the result
// code remains zeroed. Avoid the costly exception handling on a
// potential IO path.
if (bl.length() > 0) {
try {
decode(*extents, iter);
decode(*data_bl, iter);
} catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
} else if (prval) {
*prval = -EIO;
}
}
}
};
void sparse_read(uint64_t off, uint64_t len, std::map<uint64_t,uint64_t> *m,
bufferlist *data_bl, int *prval) {
bufferlist bl;
add_data(CEPH_OSD_OP_SPARSE_READ, off, len, bl);
unsigned p = ops.size() - 1;
C_ObjectOperation_sparse_read *h =
new C_ObjectOperation_sparse_read(data_bl, m, prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
out_rval[p] = prval;
}
void write(uint64_t off, bufferlist& bl,
uint64_t truncate_size,
uint32_t truncate_seq) {
add_data(CEPH_OSD_OP_WRITE, off, bl.length(), bl);
OSDOp& o = *ops.rbegin();
o.op.extent.truncate_size = truncate_size;
o.op.extent.truncate_seq = truncate_seq;
}
void write(uint64_t off, bufferlist& bl) {
write(off, bl, 0, 0);
}
void write_full(bufferlist& bl) {
add_data(CEPH_OSD_OP_WRITEFULL, 0, bl.length(), bl);
}
void writesame(uint64_t off, uint64_t write_len, bufferlist& bl) {
add_writesame(CEPH_OSD_OP_WRITESAME, off, write_len, bl);
}
void append(bufferlist& bl) {
add_data(CEPH_OSD_OP_APPEND, 0, bl.length(), bl);
}
void zero(uint64_t off, uint64_t len) {
bufferlist bl;
add_data(CEPH_OSD_OP_ZERO, off, len, bl);
}
void truncate(uint64_t off) {
bufferlist bl;
add_data(CEPH_OSD_OP_TRUNCATE, off, 0, bl);
}
void remove() {
bufferlist bl;
add_data(CEPH_OSD_OP_DELETE, 0, 0, bl);
}
void mapext(uint64_t off, uint64_t len) {
bufferlist bl;
add_data(CEPH_OSD_OP_MAPEXT, off, len, bl);
}
void sparse_read(uint64_t off, uint64_t len) {
bufferlist bl;
add_data(CEPH_OSD_OP_SPARSE_READ, off, len, bl);
}
void checksum(uint8_t type, const bufferlist &init_value_bl,
uint64_t off, uint64_t len, size_t chunk_size,
bufferlist *pbl, int *prval, Context *ctx) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_CHECKSUM);
osd_op.op.checksum.offset = off;
osd_op.op.checksum.length = len;
osd_op.op.checksum.type = type;
osd_op.op.checksum.chunk_size = chunk_size;
osd_op.indata.append(init_value_bl);
unsigned p = ops.size() - 1;
out_bl[p] = pbl;
out_rval[p] = prval;
out_handler[p] = ctx;
}
// object attrs
void getxattr(const char *name, bufferlist *pbl, int *prval) {
bufferlist bl;
add_xattr(CEPH_OSD_OP_GETXATTR, name, bl);
unsigned p = ops.size() - 1;
out_bl[p] = pbl;
out_rval[p] = prval;
}
struct C_ObjectOperation_decodevals : public Context {
uint64_t max_entries;
bufferlist bl;
std::map<std::string,bufferlist> *pattrs;
bool *ptruncated;
int *prval;
C_ObjectOperation_decodevals(uint64_t m, std::map<std::string,bufferlist> *pa,
bool *pt, int *pr)
: max_entries(m), pattrs(pa), ptruncated(pt), prval(pr) {
if (ptruncated) {
*ptruncated = false;
}
}
void finish(int r) override {
if (r >= 0) {
auto p = bl.cbegin();
try {
if (pattrs)
decode(*pattrs, p);
if (ptruncated) {
std::map<std::string,bufferlist> ignore;
if (!pattrs) {
decode(ignore, p);
pattrs = &ignore;
}
if (!p.end()) {
decode(*ptruncated, p);
} else {
// the OSD did not provide this. since old OSDs do not
// enfoce omap result limits either, we can infer it from
// the size of the result
*ptruncated = (pattrs->size() == max_entries);
}
}
}
catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
}
}
};
struct C_ObjectOperation_decodekeys : public Context {
uint64_t max_entries;
bufferlist bl;
std::set<std::string> *pattrs;
bool *ptruncated;
int *prval;
C_ObjectOperation_decodekeys(uint64_t m, std::set<std::string> *pa, bool *pt,
int *pr)
: max_entries(m), pattrs(pa), ptruncated(pt), prval(pr) {
if (ptruncated) {
*ptruncated = false;
}
}
void finish(int r) override {
if (r >= 0) {
auto p = bl.cbegin();
try {
if (pattrs)
decode(*pattrs, p);
if (ptruncated) {
std::set<std::string> ignore;
if (!pattrs) {
decode(ignore, p);
pattrs = &ignore;
}
if (!p.end()) {
decode(*ptruncated, p);
} else {
// the OSD did not provide this. since old OSDs do not
// enforce omap result limits either, we can infer it from
// the size of the result
*ptruncated = (pattrs->size() == max_entries);
}
}
}
catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
}
}
};
struct C_ObjectOperation_decodewatchers : public Context {
bufferlist bl;
list<obj_watch_t> *pwatchers;
int *prval;
C_ObjectOperation_decodewatchers(list<obj_watch_t> *pw, int *pr)
: pwatchers(pw), prval(pr) {}
void finish(int r) override {
if (r >= 0) {
auto p = bl.cbegin();
try {
obj_list_watch_response_t resp;
decode(resp, p);
if (pwatchers) {
for (list<watch_item_t>::iterator i = resp.entries.begin() ;
i != resp.entries.end() ; ++i) {
obj_watch_t ow;
string sa = i->addr.get_legacy_str();
strncpy(ow.addr, sa.c_str(), 256);
ow.watcher_id = i->name.num();
ow.cookie = i->cookie;
ow.timeout_seconds = i->timeout_seconds;
pwatchers->push_back(ow);
}
}
}
catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
}
}
};
struct C_ObjectOperation_decodesnaps : public Context {
bufferlist bl;
librados::snap_set_t *psnaps;
int *prval;
C_ObjectOperation_decodesnaps(librados::snap_set_t *ps, int *pr)
: psnaps(ps), prval(pr) {}
void finish(int r) override {
if (r >= 0) {
auto p = bl.cbegin();
try {
obj_list_snap_response_t resp;
decode(resp, p);
if (psnaps) {
psnaps->clones.clear();
for (vector<clone_info>::iterator ci = resp.clones.begin();
ci != resp.clones.end();
++ci) {
librados::clone_info_t clone;
clone.cloneid = ci->cloneid;
clone.snaps.reserve(ci->snaps.size());
clone.snaps.insert(clone.snaps.end(), ci->snaps.begin(),
ci->snaps.end());
clone.overlap = ci->overlap;
clone.size = ci->size;
psnaps->clones.push_back(clone);
}
psnaps->seq = resp.seq;
}
} catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
}
}
};
void getxattrs(std::map<std::string,bufferlist> *pattrs, int *prval) {
add_op(CEPH_OSD_OP_GETXATTRS);
if (pattrs || prval) {
unsigned p = ops.size() - 1;
C_ObjectOperation_decodevals *h
= new C_ObjectOperation_decodevals(0, pattrs, nullptr, prval);
out_handler[p] = h;
out_bl[p] = &h->bl;
out_rval[p] = prval;
}
}
void setxattr(const char *name, const bufferlist& bl) {
add_xattr(CEPH_OSD_OP_SETXATTR, name, bl);
}
void setxattr(const char *name, const string& s) {
bufferlist bl;
bl.append(s);
add_xattr(CEPH_OSD_OP_SETXATTR, name, bl);
}
void cmpxattr(const char *name, uint8_t cmp_op, uint8_t cmp_mode,
const bufferlist& bl) {
add_xattr_cmp(CEPH_OSD_OP_CMPXATTR, name, cmp_op, cmp_mode, bl);
}
void rmxattr(const char *name) {
bufferlist bl;
add_xattr(CEPH_OSD_OP_RMXATTR, name, bl);
}
void setxattrs(map<string, bufferlist>& attrs) {
bufferlist bl;
encode(attrs, bl);
add_xattr(CEPH_OSD_OP_RESETXATTRS, 0, bl.length());
}
void resetxattrs(const char *prefix, map<string, bufferlist>& attrs) {
bufferlist bl;
encode(attrs, bl);
add_xattr(CEPH_OSD_OP_RESETXATTRS, prefix, bl);
}
// trivialmap
void tmap_update(bufferlist& bl) {
add_data(CEPH_OSD_OP_TMAPUP, 0, 0, bl);
}
// objectmap
void omap_get_keys(const string &start_after,
uint64_t max_to_get,
std::set<std::string> *out_set,
bool *ptruncated,
int *prval) {
OSDOp &op = add_op(CEPH_OSD_OP_OMAPGETKEYS);
bufferlist bl;
encode(start_after, bl);
encode(max_to_get, bl);
op.op.extent.offset = 0;
op.op.extent.length = bl.length();
op.indata.claim_append(bl);
if (prval || ptruncated || out_set) {
unsigned p = ops.size() - 1;
C_ObjectOperation_decodekeys *h =
new C_ObjectOperation_decodekeys(max_to_get, out_set, ptruncated, prval);
out_handler[p] = h;
out_bl[p] = &h->bl;
out_rval[p] = prval;
}
}
void omap_get_vals(const string &start_after,
const string &filter_prefix,
uint64_t max_to_get,
std::map<std::string, bufferlist> *out_set,
bool *ptruncated,
int *prval) {
OSDOp &op = add_op(CEPH_OSD_OP_OMAPGETVALS);
bufferlist bl;
encode(start_after, bl);
encode(max_to_get, bl);
encode(filter_prefix, bl);
op.op.extent.offset = 0;
op.op.extent.length = bl.length();
op.indata.claim_append(bl);
if (prval || out_set || ptruncated) {
unsigned p = ops.size() - 1;
C_ObjectOperation_decodevals *h =
new C_ObjectOperation_decodevals(max_to_get, out_set, ptruncated, prval);
out_handler[p] = h;
out_bl[p] = &h->bl;
out_rval[p] = prval;
}
}
void omap_get_vals_by_keys(const std::set<std::string> &to_get,
std::map<std::string, bufferlist> *out_set,
int *prval) {
OSDOp &op = add_op(CEPH_OSD_OP_OMAPGETVALSBYKEYS);
bufferlist bl;
encode(to_get, bl);
op.op.extent.offset = 0;
op.op.extent.length = bl.length();
op.indata.claim_append(bl);
if (prval || out_set) {
unsigned p = ops.size() - 1;
C_ObjectOperation_decodevals *h =
new C_ObjectOperation_decodevals(0, out_set, nullptr, prval);
out_handler[p] = h;
out_bl[p] = &h->bl;
out_rval[p] = prval;
}
}
void omap_cmp(const std::map<std::string, pair<bufferlist,int> > &assertions,
int *prval) {
OSDOp &op = add_op(CEPH_OSD_OP_OMAP_CMP);
bufferlist bl;
encode(assertions, bl);
op.op.extent.offset = 0;
op.op.extent.length = bl.length();
op.indata.claim_append(bl);
if (prval) {
unsigned p = ops.size() - 1;
out_rval[p] = prval;
}
}
struct C_ObjectOperation_copyget : public Context {
bufferlist bl;
object_copy_cursor_t *cursor;
uint64_t *out_size;
ceph::real_time *out_mtime;
std::map<std::string,bufferlist> *out_attrs;
bufferlist *out_data, *out_omap_header, *out_omap_data;
vector<snapid_t> *out_snaps;
snapid_t *out_snap_seq;
uint32_t *out_flags;
uint32_t *out_data_digest;
uint32_t *out_omap_digest;
mempool::osd_pglog::vector<pair<osd_reqid_t, version_t> > *out_reqids;
mempool::osd_pglog::map<uint32_t, int> *out_reqid_return_codes;
uint64_t *out_truncate_seq;
uint64_t *out_truncate_size;
int *prval;
C_ObjectOperation_copyget(object_copy_cursor_t *c,
uint64_t *s,
ceph::real_time *m,
std::map<std::string,bufferlist> *a,
bufferlist *d, bufferlist *oh,
bufferlist *o,
std::vector<snapid_t> *osnaps,
snapid_t *osnap_seq,
uint32_t *flags,
uint32_t *dd,
uint32_t *od,
mempool::osd_pglog::vector<pair<osd_reqid_t, version_t> > *oreqids,
mempool::osd_pglog::map<uint32_t, int> *oreqid_return_codes,
uint64_t *otseq,
uint64_t *otsize,
int *r)
: cursor(c),
out_size(s), out_mtime(m),
out_attrs(a), out_data(d), out_omap_header(oh),
out_omap_data(o), out_snaps(osnaps), out_snap_seq(osnap_seq),
out_flags(flags), out_data_digest(dd), out_omap_digest(od),
out_reqids(oreqids),
out_reqid_return_codes(oreqid_return_codes),
out_truncate_seq(otseq),
out_truncate_size(otsize),
prval(r) {}
void finish(int r) override {
// reqids are copied on ENOENT
if (r < 0 && r != -ENOENT)
return;
try {
auto p = bl.cbegin();
object_copy_data_t copy_reply;
decode(copy_reply, p);
if (r == -ENOENT) {
if (out_reqids)
*out_reqids = copy_reply.reqids;
return;
}
if (out_size)
*out_size = copy_reply.size;
if (out_mtime)
*out_mtime = ceph::real_clock::from_ceph_timespec(copy_reply.mtime);
if (out_attrs)
*out_attrs = copy_reply.attrs;
if (out_data)
out_data->claim_append(copy_reply.data);
if (out_omap_header)
out_omap_header->claim_append(copy_reply.omap_header);
if (out_omap_data)
*out_omap_data = copy_reply.omap_data;
if (out_snaps)
*out_snaps = copy_reply.snaps;
if (out_snap_seq)
*out_snap_seq = copy_reply.snap_seq;
if (out_flags)
*out_flags = copy_reply.flags;
if (out_data_digest)
*out_data_digest = copy_reply.data_digest;
if (out_omap_digest)
*out_omap_digest = copy_reply.omap_digest;
if (out_reqids)
*out_reqids = copy_reply.reqids;
if (out_reqid_return_codes)
*out_reqid_return_codes = copy_reply.reqid_return_codes;
if (out_truncate_seq)
*out_truncate_seq = copy_reply.truncate_seq;
if (out_truncate_size)
*out_truncate_size = copy_reply.truncate_size;
*cursor = copy_reply.cursor;
} catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
}
};
void copy_get(object_copy_cursor_t *cursor,
uint64_t max,
uint64_t *out_size,
ceph::real_time *out_mtime,
std::map<std::string,bufferlist> *out_attrs,
bufferlist *out_data,
bufferlist *out_omap_header,
bufferlist *out_omap_data,
vector<snapid_t> *out_snaps,
snapid_t *out_snap_seq,
uint32_t *out_flags,
uint32_t *out_data_digest,
uint32_t *out_omap_digest,
mempool::osd_pglog::vector<pair<osd_reqid_t, version_t> > *out_reqids,
mempool::osd_pglog::map<uint32_t, int> *out_reqid_return_codes,
uint64_t *truncate_seq,
uint64_t *truncate_size,
int *prval) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_COPY_GET);
osd_op.op.copy_get.max = max;
encode(*cursor, osd_op.indata);
encode(max, osd_op.indata);
unsigned p = ops.size() - 1;
out_rval[p] = prval;
C_ObjectOperation_copyget *h =
new C_ObjectOperation_copyget(cursor, out_size, out_mtime,
out_attrs, out_data, out_omap_header,
out_omap_data, out_snaps, out_snap_seq,
out_flags, out_data_digest,
out_omap_digest, out_reqids,
out_reqid_return_codes, truncate_seq,
truncate_size, prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
}
void undirty() {
add_op(CEPH_OSD_OP_UNDIRTY);
}
struct C_ObjectOperation_isdirty : public Context {
bufferlist bl;
bool *pisdirty;
int *prval;
C_ObjectOperation_isdirty(bool *p, int *r)
: pisdirty(p), prval(r) {}
void finish(int r) override {
if (r < 0)
return;
try {
auto p = bl.cbegin();
bool isdirty;
decode(isdirty, p);
if (pisdirty)
*pisdirty = isdirty;
} catch (buffer::error& e) {
if (prval)
*prval = -EIO;
}
}
};
void is_dirty(bool *pisdirty, int *prval) {
add_op(CEPH_OSD_OP_ISDIRTY);
unsigned p = ops.size() - 1;
out_rval[p] = prval;
C_ObjectOperation_isdirty *h =
new C_ObjectOperation_isdirty(pisdirty, prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
}
struct C_ObjectOperation_hit_set_ls : public Context {
bufferlist bl;
std::list< std::pair<time_t, time_t> > *ptls;
std::list< std::pair<ceph::real_time, ceph::real_time> > *putls;
int *prval;
C_ObjectOperation_hit_set_ls(std::list< std::pair<time_t, time_t> > *t,
std::list< std::pair<ceph::real_time,
ceph::real_time> > *ut,
int *r)
: ptls(t), putls(ut), prval(r) {}
void finish(int r) override {
if (r < 0)
return;
try {
auto p = bl.cbegin();
std::list< std::pair<ceph::real_time, ceph::real_time> > ls;
decode(ls, p);
if (ptls) {
ptls->clear();
for (auto p = ls.begin(); p != ls.end(); ++p)
// round initial timestamp up to the next full second to
// keep this a valid interval.
ptls->push_back(
make_pair(ceph::real_clock::to_time_t(
ceph::ceil(p->first,
// Sadly, no time literals until C++14.
std::chrono::seconds(1))),
ceph::real_clock::to_time_t(p->second)));
}
if (putls)
putls->swap(ls);
} catch (buffer::error& e) {
r = -EIO;
}
if (prval)
*prval = r;
}
};
/**
* list available HitSets.
*
* We will get back a list of time intervals. Note that the most
* recent range may have an empty end timestamp if it is still
* accumulating.
*
* @param pls [out] list of time intervals
* @param prval [out] return value
*/
void hit_set_ls(std::list< std::pair<time_t, time_t> > *pls, int *prval) {
add_op(CEPH_OSD_OP_PG_HITSET_LS);
unsigned p = ops.size() - 1;
out_rval[p] = prval;
C_ObjectOperation_hit_set_ls *h =
new C_ObjectOperation_hit_set_ls(pls, NULL, prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
}
void hit_set_ls(std::list<std::pair<ceph::real_time, ceph::real_time> > *pls,
int *prval) {
add_op(CEPH_OSD_OP_PG_HITSET_LS);
unsigned p = ops.size() - 1;
out_rval[p] = prval;
C_ObjectOperation_hit_set_ls *h =
new C_ObjectOperation_hit_set_ls(NULL, pls, prval);
out_bl[p] = &h->bl;
out_handler[p] = h;
}
/**
* get HitSet
*
* Return an encoded HitSet that includes the provided time
* interval.
*
* @param stamp [in] timestamp
* @param pbl [out] target buffer for encoded HitSet
* @param prval [out] return value
*/
void hit_set_get(ceph::real_time stamp, bufferlist *pbl, int *prval) {
OSDOp& op = add_op(CEPH_OSD_OP_PG_HITSET_GET);
op.op.hit_set_get.stamp = ceph::real_clock::to_ceph_timespec(stamp);
unsigned p = ops.size() - 1;
out_rval[p] = prval;
out_bl[p] = pbl;
}
void omap_get_header(bufferlist *bl, int *prval) {
add_op(CEPH_OSD_OP_OMAPGETHEADER);
unsigned p = ops.size() - 1;
out_bl[p] = bl;
out_rval[p] = prval;
}
void omap_set(const map<string, bufferlist> &map) {
bufferlist bl;
encode(map, bl);
add_data(CEPH_OSD_OP_OMAPSETVALS, 0, bl.length(), bl);
}
void omap_set_header(bufferlist &bl) {
add_data(CEPH_OSD_OP_OMAPSETHEADER, 0, bl.length(), bl);
}
void omap_clear() {
add_op(CEPH_OSD_OP_OMAPCLEAR);
}
void omap_rm_keys(const std::set<std::string> &to_remove) {
bufferlist bl;
encode(to_remove, bl);
add_data(CEPH_OSD_OP_OMAPRMKEYS, 0, bl.length(), bl);
}
// object classes
void call(const char *cname, const char *method, bufferlist &indata) {
add_call(CEPH_OSD_OP_CALL, cname, method, indata, NULL, NULL, NULL);
}
void call(const char *cname, const char *method, bufferlist &indata,
bufferlist *outdata, Context *ctx, int *prval) {
add_call(CEPH_OSD_OP_CALL, cname, method, indata, outdata, ctx, prval);
}
// watch/notify
void watch(uint64_t cookie, __u8 op, uint32_t timeout = 0) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_WATCH);
osd_op.op.watch.cookie = cookie;
osd_op.op.watch.op = op;
osd_op.op.watch.timeout = timeout;
}
void notify(uint64_t cookie, uint32_t prot_ver, uint32_t timeout,
bufferlist &bl, bufferlist *inbl) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_NOTIFY);
osd_op.op.notify.cookie = cookie;
encode(prot_ver, *inbl);
encode(timeout, *inbl);
encode(bl, *inbl);
osd_op.indata.append(*inbl);
}
void notify_ack(uint64_t notify_id, uint64_t cookie,
bufferlist& reply_bl) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_NOTIFY_ACK);
bufferlist bl;
encode(notify_id, bl);
encode(cookie, bl);
encode(reply_bl, bl);
osd_op.indata.append(bl);
}
void list_watchers(list<obj_watch_t> *out,
int *prval) {
(void)add_op(CEPH_OSD_OP_LIST_WATCHERS);
if (prval || out) {
unsigned p = ops.size() - 1;
C_ObjectOperation_decodewatchers *h =
new C_ObjectOperation_decodewatchers(out, prval);
out_handler[p] = h;
out_bl[p] = &h->bl;
out_rval[p] = prval;
}
}
void list_snaps(librados::snap_set_t *out, int *prval) {
(void)add_op(CEPH_OSD_OP_LIST_SNAPS);
if (prval || out) {
unsigned p = ops.size() - 1;
C_ObjectOperation_decodesnaps *h =
new C_ObjectOperation_decodesnaps(out, prval);
out_handler[p] = h;
out_bl[p] = &h->bl;
out_rval[p] = prval;
}
}
void assert_version(uint64_t ver) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_ASSERT_VER);
osd_op.op.assert_ver.ver = ver;
}
void cmpxattr(const char *name, const bufferlist& val,
int op, int mode) {
add_xattr(CEPH_OSD_OP_CMPXATTR, name, val);
OSDOp& o = *ops.rbegin();
o.op.xattr.cmp_op = op;
o.op.xattr.cmp_mode = mode;
}
void rollback(uint64_t snapid) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_ROLLBACK);
osd_op.op.snap.snapid = snapid;
}
void copy_from(object_t src, snapid_t snapid, object_locator_t src_oloc,
version_t src_version, unsigned flags,
unsigned src_fadvise_flags) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_COPY_FROM);
osd_op.op.copy_from.snapid = snapid;
osd_op.op.copy_from.src_version = src_version;
osd_op.op.copy_from.flags = flags;
osd_op.op.copy_from.src_fadvise_flags = src_fadvise_flags;
encode(src, osd_op.indata);
encode(src_oloc, osd_op.indata);
}
/**
* writeback content to backing tier
*
* If object is marked dirty in the cache tier, write back content
* to backing tier. If the object is clean this is a no-op.
*
* If writeback races with an update, the update will block.
*
* use with IGNORE_CACHE to avoid triggering promote.
*/
void cache_flush() {
add_op(CEPH_OSD_OP_CACHE_FLUSH);
}
/**
* writeback content to backing tier
*
* If object is marked dirty in the cache tier, write back content
* to backing tier. If the object is clean this is a no-op.
*
* If writeback races with an update, return EAGAIN. Requires that
* the SKIPRWLOCKS flag be set.
*
* use with IGNORE_CACHE to avoid triggering promote.
*/
void cache_try_flush() {
add_op(CEPH_OSD_OP_CACHE_TRY_FLUSH);
}
/**
* evict object from cache tier
*
* If object is marked clean, remove the object from the cache tier.
* Otherwise, return EBUSY.
*
* use with IGNORE_CACHE to avoid triggering promote.
*/
void cache_evict() {
add_op(CEPH_OSD_OP_CACHE_EVICT);
}
/*
* Extensible tier
*/
void set_redirect(object_t tgt, snapid_t snapid, object_locator_t tgt_oloc,
version_t tgt_version, int flag) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_SET_REDIRECT);
osd_op.op.copy_from.snapid = snapid;
osd_op.op.copy_from.src_version = tgt_version;
encode(tgt, osd_op.indata);
encode(tgt_oloc, osd_op.indata);
set_last_op_flags(flag);
}
void set_chunk(uint64_t src_offset, uint64_t src_length, object_locator_t tgt_oloc,
object_t tgt_oid, uint64_t tgt_offset, int flag) {
OSDOp& osd_op = add_op(CEPH_OSD_OP_SET_CHUNK);
encode(src_offset, osd_op.indata);
encode(src_length, osd_op.indata);
encode(tgt_oloc, osd_op.indata);
encode(tgt_oid, osd_op.indata);
encode(tgt_offset, osd_op.indata);
set_last_op_flags(flag);
}
void tier_promote() {
add_op(CEPH_OSD_OP_TIER_PROMOTE);
}
void unset_manifest() {
add_op(CEPH_OSD_OP_UNSET_MANIFEST);
}
void set_alloc_hint(uint64_t expected_object_size,
uint64_t expected_write_size,
uint32_t flags) {
add_alloc_hint(CEPH_OSD_OP_SETALLOCHINT, expected_object_size,
expected_write_size, flags);
// CEPH_OSD_OP_SETALLOCHINT op is advisory and therefore deemed
// not worth a feature bit. Set FAILOK per-op flag to make
// sure older osds don't trip over an unsupported opcode.
set_last_op_flags(CEPH_OSD_OP_FLAG_FAILOK);
}
void dup(vector<OSDOp>& sops) {
ops = sops;
out_bl.resize(sops.size());
out_handler.resize(sops.size());
out_rval.resize(sops.size());
for (uint32_t i = 0; i < sops.size(); i++) {
out_bl[i] = &sops[i].outdata;
out_handler[i] = NULL;
out_rval[i] = &sops[i].rval;
}
}
/**
* Pin/unpin an object in cache tier
*/
void cache_pin() {
add_op(CEPH_OSD_OP_CACHE_PIN);
}
void cache_unpin() {
add_op(CEPH_OSD_OP_CACHE_UNPIN);
}
};
// ----------------
class Objecter : public md_config_obs_t, public Dispatcher {
public:
// config observer bits
const char** get_tracked_conf_keys() const override;
void handle_conf_change(const ConfigProxy& conf,
const std::set <std::string> &changed) override;
public:
Messenger *messenger;
MonClient *monc;
Finisher *finisher;
ZTracer::Endpoint trace_endpoint;
private:
OSDMap *osdmap;
public:
using Dispatcher::cct;
std::multimap<string,string> crush_location;
std::atomic<bool> initialized{false};
private:
std::atomic<uint64_t> last_tid{0};
std::atomic<unsigned> inflight_ops{0};
std::atomic<int> client_inc{-1};
uint64_t max_linger_id;
std::atomic<unsigned> num_in_flight{0};
std::atomic<int> global_op_flags{0}; // flags which are applied to each IO op
bool keep_balanced_budget;
bool honor_osdmap_full;
bool osdmap_full_try;
// If this is true, accumulate a set of blacklisted entities
// to be drained by consume_blacklist_events.
bool blacklist_events_enabled;
std::set<entity_addr_t> blacklist_events;
public:
void maybe_request_map();
void enable_blacklist_events();
private:
void _maybe_request_map();
version_t last_seen_osdmap_version;
version_t last_seen_pgmap_version;
mutable std::shared_mutex rwlock;
using lock_guard = std::lock_guard<decltype(rwlock)>;
using unique_lock = std::unique_lock<decltype(rwlock)>;
using shared_lock = boost::shared_lock<decltype(rwlock)>;
using shunique_lock = ceph::shunique_lock<decltype(rwlock)>;
ceph::timer<ceph::coarse_mono_clock> timer;
PerfCounters *logger;
uint64_t tick_event;
void start_tick();
void tick();
void update_crush_location();
class RequestStateHook;
RequestStateHook *m_request_state_hook;
public:
/*** track pending operations ***/
// read
struct OSDSession;
struct op_target_t {
int flags = 0;
epoch_t epoch = 0; ///< latest epoch we calculated the mapping
object_t base_oid;
object_locator_t base_oloc;
object_t target_oid;
object_locator_t target_oloc;
///< true if we are directed at base_pgid, not base_oid
bool precalc_pgid = false;
///< true if we have ever mapped to a valid pool
bool pool_ever_existed = false;
///< explcit pg target, if any
pg_t base_pgid;
pg_t pgid; ///< last (raw) pg we mapped to
spg_t actual_pgid; ///< last (actual) spg_t we mapped to
unsigned pg_num = 0; ///< last pg_num we mapped to
unsigned pg_num_mask = 0; ///< last pg_num_mask we mapped to
unsigned pg_num_pending = 0; ///< last pg_num we mapped to
vector<int> up; ///< set of up osds for last pg we mapped to
vector<int> acting; ///< set of acting osds for last pg we mapped to
int up_primary = -1; ///< last up_primary we mapped to
int acting_primary = -1; ///< last acting_primary we mapped to
int size = -1; ///< the size of the pool when were were last mapped
int min_size = -1; ///< the min size of the pool when were were last mapped
bool sort_bitwise = false; ///< whether the hobject_t sort order is bitwise
bool recovery_deletes = false; ///< whether the deletes are performed during recovery instead of peering
bool used_replica = false;
bool paused = false;
int osd = -1; ///< the final target osd, or -1
epoch_t last_force_resend = 0;
op_target_t(object_t oid, object_locator_t oloc, int flags)
: flags(flags),
base_oid(oid),
base_oloc(oloc)
{}
explicit op_target_t(pg_t pgid)
: base_oloc(pgid.pool(), pgid.ps()),
precalc_pgid(true),
base_pgid(pgid)
{}
op_target_t() = default;
hobject_t get_hobj() {
return hobject_t(target_oid,
target_oloc.key,
CEPH_NOSNAP,
target_oloc.hash >= 0 ? target_oloc.hash : pgid.ps(),
target_oloc.pool,
target_oloc.nspace);
}
bool contained_by(const hobject_t& begin, const hobject_t& end) {
hobject_t h = get_hobj();
int r = cmp(h, begin);
return r == 0 || (r > 0 && h < end);
}
void dump(Formatter *f) const;
};
struct Op : public RefCountedObject {
OSDSession *session;
int incarnation;
op_target_t target;
ConnectionRef con; // for rx buffer only
uint64_t features; // explicitly specified op features
vector<OSDOp> ops;
snapid_t snapid;
SnapContext snapc;
ceph::real_time mtime;
bufferlist *outbl;
vector<bufferlist*> out_bl;
vector<Context*> out_handler;
vector<int*> out_rval;
int priority;
Context *onfinish;
uint64_t ontimeout;
ceph_tid_t tid;
int attempts;
version_t *objver;
epoch_t *reply_epoch;
ceph::coarse_mono_time stamp;
epoch_t map_dne_bound;
int budget;
/// true if we should resend this message on failure
bool should_resend;
/// true if the throttle budget is get/put on a series of OPs,
/// instead of per OP basis, when this flag is set, the budget is
/// acquired before sending the very first OP of the series and
/// released upon receiving the last OP reply.
bool ctx_budgeted;
int *data_offset;
osd_reqid_t reqid; // explicitly setting reqid
ZTracer::Trace trace;
Op(const object_t& o, const object_locator_t& ol, vector<OSDOp>& op,
int f, Context *fin, version_t *ov, int *offset = NULL,
ZTracer::Trace *parent_trace = nullptr) :
session(NULL), incarnation(0),
target(o, ol, f),
con(NULL),
features(CEPH_FEATURES_SUPPORTED_DEFAULT),
snapid(CEPH_NOSNAP),
outbl(NULL),
priority(0),
onfinish(fin),
ontimeout(0),
tid(0),
attempts(0),
objver(ov),
reply_epoch(NULL),
map_dne_bound(0),
budget(-1),
should_resend(true),
ctx_budgeted(false),
data_offset(offset) {
ops.swap(op);
/* initialize out_* to match op vector */
out_bl.resize(ops.size());
out_rval.resize(ops.size());
out_handler.resize(ops.size());
for (unsigned i = 0; i < ops.size(); i++) {
out_bl[i] = NULL;
out_handler[i] = NULL;
out_rval[i] = NULL;
}
if (target.base_oloc.key == o)
target.base_oloc.key.clear();
if (parent_trace && parent_trace->valid()) {
trace.init("op", nullptr, parent_trace);
trace.event("start");
}
}
bool operator<(const Op& other) const {
return tid < other.tid;
}
bool respects_full() const {
return
(target.flags & (CEPH_OSD_FLAG_WRITE | CEPH_OSD_FLAG_RWORDERED)) &&
!(target.flags & (CEPH_OSD_FLAG_FULL_TRY | CEPH_OSD_FLAG_FULL_FORCE));
}
private:
~Op() override {
while (!out_handler.empty()) {
delete out_handler.back();
out_handler.pop_back();
}
trace.event("finish");
}
};
struct C_Op_Map_Latest : public Context {
Objecter *objecter;
ceph_tid_t tid;
version_t latest;
C_Op_Map_Latest(Objecter *o, ceph_tid_t t) : objecter(o), tid(t),
latest(0) {}
void finish(int r) override;
};
struct C_Command_Map_Latest : public Context {
Objecter *objecter;
uint64_t tid;
version_t latest;
C_Command_Map_Latest(Objecter *o, ceph_tid_t t) : objecter(o), tid(t),
latest(0) {}
void finish(int r) override;
};
struct C_Stat : public Context {
bufferlist bl;
uint64_t *psize;
ceph::real_time *pmtime;
Context *fin;
C_Stat(uint64_t *ps, ceph::real_time *pm, Context *c) :
psize(ps), pmtime(pm), fin(c) {}
void finish(int r) override {
if (r >= 0) {
auto p = bl.cbegin();
uint64_t s;
ceph::real_time m;
decode(s, p);
decode(m, p);
if (psize)
*psize = s;
if (pmtime)
*pmtime = m;
}
fin->complete(r);
}
};
struct C_GetAttrs : public Context {
bufferlist bl;
map<string,bufferlist>& attrset;
Context *fin;
C_GetAttrs(map<string, bufferlist>& set, Context *c) : attrset(set),
fin(c) {}
void finish(int r) override {
if (r >= 0) {
auto p = bl.cbegin();
decode(attrset, p);
}
fin->complete(r);
}
};
// Pools and statistics
struct NListContext {
collection_list_handle_t pos;
// these are for !sortbitwise compat only
int current_pg = 0;
int starting_pg_num = 0;
bool sort_bitwise = false;
bool at_end_of_pool = false; ///< publicly visible end flag
int64_t pool_id = -1;
int pool_snap_seq = 0;
uint64_t max_entries = 0;
string nspace;
bufferlist bl; // raw data read to here
std::list<librados::ListObjectImpl> list;
bufferlist filter;
bufferlist extra_info;
// The budget associated with this context, once it is set (>= 0),
// the budget is not get/released on OP basis, instead the budget
// is acquired before sending the first OP and released upon receiving
// the last op reply.
int ctx_budget = -1;
bool at_end() const {
return at_end_of_pool;
}
uint32_t get_pg_hash_position() const {
return pos.get_hash();
}
};
struct C_NList : public Context {
NListContext *list_context;
Context *final_finish;
Objecter *objecter;
epoch_t epoch;
C_NList(NListContext *lc, Context * finish, Objecter *ob) :
list_context(lc), final_finish(finish), objecter(ob), epoch(0) {}
void finish(int r) override {
if (r >= 0) {
objecter->_nlist_reply(list_context, r, final_finish, epoch);
} else {
final_finish->complete(r);
}
}
};
struct PoolStatOp {
ceph_tid_t tid;
list<string> pools;
map<string,pool_stat_t> *pool_stats;
bool *per_pool;
Context *onfinish;
uint64_t ontimeout;
ceph::coarse_mono_time last_submit;
};
struct StatfsOp {
ceph_tid_t tid;
struct ceph_statfs *stats;
boost::optional<int64_t> data_pool;
Context *onfinish;
uint64_t ontimeout;
ceph::coarse_mono_time last_submit;
};
struct PoolOp {
ceph_tid_t tid;
int64_t pool;
string name;
Context *onfinish;
uint64_t ontimeout;
int pool_op;
int16_t crush_rule;
snapid_t snapid;
bufferlist *blp;
ceph::coarse_mono_time last_submit;
PoolOp() : tid(0), pool(0), onfinish(NULL), ontimeout(0), pool_op(0),
crush_rule(0), snapid(0), blp(NULL) {}
};
// -- osd commands --
struct CommandOp : public RefCountedObject {
OSDSession *session = nullptr;
ceph_tid_t tid = 0;
vector<string> cmd;
bufferlist inbl;
bufferlist *poutbl = nullptr;
string *prs = nullptr;
// target_osd == -1 means target_pg is valid
const int target_osd = -1;
const pg_t target_pg;
op_target_t target;
epoch_t map_dne_bound = 0;
int map_check_error = 0; // error to return if map check fails
const char *map_check_error_str = nullptr;
Context *onfinish = nullptr;
uint64_t ontimeout = 0;
ceph::coarse_mono_time last_submit;
CommandOp(
int target_osd,
const vector<string> &cmd,
bufferlist inbl,
bufferlist *poutbl,
string *prs,
Context *onfinish)
: cmd(cmd),
inbl(inbl),
poutbl(poutbl),
prs(prs),
target_osd(target_osd),
onfinish(onfinish) {}
CommandOp(
pg_t pgid,
const vector<string> &cmd,
bufferlist inbl,
bufferlist *poutbl,
string *prs,
Context *onfinish)
: cmd(cmd),
inbl(inbl),
poutbl(poutbl),
prs(prs),
target_pg(pgid),
target(pgid),
onfinish(onfinish) {}
};
void submit_command(CommandOp *c, ceph_tid_t *ptid);
int _calc_command_target(CommandOp *c, shunique_lock &sul);
void _assign_command_session(CommandOp *c, shunique_lock &sul);
void _send_command(CommandOp *c);
int command_op_cancel(OSDSession *s, ceph_tid_t tid, int r);
void _finish_command(CommandOp *c, int r, string rs);
void handle_command_reply(MCommandReply *m);
// -- lingering ops --
struct WatchContext {
// this simply mirrors librados WatchCtx2
virtual void handle_notify(uint64_t notify_id,
uint64_t cookie,
uint64_t notifier_id,
bufferlist& bl) = 0;
virtual void handle_error(uint64_t cookie, int err) = 0;
virtual ~WatchContext() {}
};
struct LingerOp : public RefCountedObject {
uint64_t linger_id;
op_target_t target;
snapid_t snap;
SnapContext snapc;
ceph::real_time mtime;
vector<OSDOp> ops;
bufferlist inbl;
bufferlist *poutbl;
version_t *pobjver;
bool is_watch;
ceph::coarse_mono_time watch_valid_thru; ///< send time for last acked ping
int last_error; ///< error from last failed ping|reconnect, if any
std::shared_mutex watch_lock;
using lock_guard = std::unique_lock<decltype(watch_lock)>;
using unique_lock = std::unique_lock<decltype(watch_lock)>;
using shared_lock = boost::shared_lock<decltype(watch_lock)>;
using shunique_lock = ceph::shunique_lock<decltype(watch_lock)>;
// queue of pending async operations, with the timestamp of
// when they were queued.
list<ceph::coarse_mono_time> watch_pending_async;
uint32_t register_gen;
bool registered;
bool canceled;
Context *on_reg_commit;
// we trigger these from an async finisher
Context *on_notify_finish;
bufferlist *notify_result_bl;
uint64_t notify_id;
WatchContext *watch_context;
OSDSession *session;
Objecter *objecter;
int ctx_budget;
ceph_tid_t register_tid;
ceph_tid_t ping_tid;
epoch_t map_dne_bound;
void _queued_async() {
// watch_lock ust be locked unique
watch_pending_async.push_back(ceph::coarse_mono_clock::now());
}
void finished_async() {
unique_lock l(watch_lock);
ceph_assert(!watch_pending_async.empty());
watch_pending_async.pop_front();
}
explicit LingerOp(Objecter *o) : linger_id(0),
target(object_t(), object_locator_t(), 0),
snap(CEPH_NOSNAP), poutbl(NULL), pobjver(NULL),
is_watch(false), last_error(0),
register_gen(0),
registered(false),
canceled(false),
on_reg_commit(NULL),
on_notify_finish(NULL),
notify_result_bl(NULL),
notify_id(0),
watch_context(NULL),
session(NULL),
objecter(o),
ctx_budget(-1),
register_tid(0),
ping_tid(0),
map_dne_bound(0) {}
const LingerOp &operator=(const LingerOp& r) = delete;
LingerOp(const LingerOp& o) = delete;
uint64_t get_cookie() {
return reinterpret_cast<uint64_t>(this);
}
private:
~LingerOp() override {
delete watch_context;
}
};
struct C_Linger_Commit : public Context {
Objecter *objecter;
LingerOp *info;
bufferlist outbl; // used for notify only
C_Linger_Commit(Objecter *o, LingerOp *l) : objecter(o), info(l) {
info->get();
}
~C_Linger_Commit() override {
info->put();
}
void finish(int r) override {
objecter->_linger_commit(info, r, outbl);
}
};
struct C_Linger_Reconnect : public Context {
Objecter *objecter;
LingerOp *info;
C_Linger_Reconnect(Objecter *o, LingerOp *l) : objecter(o), info(l) {
info->get();
}
~C_Linger_Reconnect() override {
info->put();
}
void finish(int r) override {
objecter->_linger_reconnect(info, r);
}
};
struct C_Linger_Ping : public Context {
Objecter *objecter;
LingerOp *info;
ceph::coarse_mono_time sent;
uint32_t register_gen;
C_Linger_Ping(Objecter *o, LingerOp *l)
: objecter(o), info(l), register_gen(info->register_gen) {
info->get();
}
~C_Linger_Ping() override {
info->put();
}
void finish(int r) override {
objecter->_linger_ping(info, r, sent, register_gen);
}
};
struct C_Linger_Map_Latest : public Context {
Objecter *objecter;
uint64_t linger_id;
version_t latest;
C_Linger_Map_Latest(Objecter *o, uint64_t id) :
objecter(o), linger_id(id), latest(0) {}
void finish(int r) override;
};
// -- osd sessions --
struct OSDBackoff {
spg_t pgid;
uint64_t id;
hobject_t begin, end;
};
struct OSDSession : public RefCountedObject {
std::shared_mutex lock;
using lock_guard = std::lock_guard<decltype(lock)>;
using unique_lock = std::unique_lock<decltype(lock)>;
using shared_lock = boost::shared_lock<decltype(lock)>;
using shunique_lock = ceph::shunique_lock<decltype(lock)>;
// pending ops
map<ceph_tid_t,Op*> ops;
map<uint64_t, LingerOp*> linger_ops;
map<ceph_tid_t,CommandOp*> command_ops;
// backoffs
map<spg_t,map<hobject_t,OSDBackoff>> backoffs;
map<uint64_t,OSDBackoff*> backoffs_by_id;
int osd;
int incarnation;
ConnectionRef con;
int num_locks;
std::unique_ptr<std::mutex[]> completion_locks;
using unique_completion_lock = std::unique_lock<
decltype(completion_locks)::element_type>;
OSDSession(CephContext *cct, int o) :
osd(o), incarnation(0), con(NULL),
num_locks(cct->_conf->objecter_completion_locks_per_session),
completion_locks(new std::mutex[num_locks]) {}
~OSDSession() override;
bool is_homeless() { return (osd == -1); }
unique_completion_lock get_lock(object_t& oid);
};
map<int,OSDSession*> osd_sessions;
bool osdmap_full_flag() const;
bool osdmap_pool_full(const int64_t pool_id) const;
private:
/**
* Test pg_pool_t::FLAG_FULL on a pool
*
* @return true if the pool exists and has the flag set, or
* the global full flag is set, else false
*/
bool _osdmap_pool_full(const int64_t pool_id) const;
bool _osdmap_pool_full(const pg_pool_t &p) const;
void update_pool_full_map(map<int64_t, bool>& pool_full_map);
map<uint64_t, LingerOp*> linger_ops;
// we use this just to confirm a cookie is valid before dereferencing the ptr
set<LingerOp*> linger_ops_set;
map<ceph_tid_t,PoolStatOp*> poolstat_ops;
map<ceph_tid_t,StatfsOp*> statfs_ops;
map<ceph_tid_t,PoolOp*> pool_ops;
std::atomic<unsigned> num_homeless_ops{0};
OSDSession *homeless_session;
// ops waiting for an osdmap with a new pool or confirmation that
// the pool does not exist (may be expanded to other uses later)
map<uint64_t, LingerOp*> check_latest_map_lingers;
map<ceph_tid_t, Op*> check_latest_map_ops;
map<ceph_tid_t, CommandOp*> check_latest_map_commands;
map<epoch_t,list< pair<Context*, int> > > waiting_for_map;
ceph::timespan mon_timeout;
ceph::timespan osd_timeout;
MOSDOp *_prepare_osd_op(Op *op);
void _send_op(Op *op);
void _send_op_account(Op *op);
void _cancel_linger_op(Op *op);
void _finish_op(Op *op, int r);
static bool is_pg_changed(
int oldprimary,
const vector<int>& oldacting,
int newprimary,
const vector<int>& newacting,
bool any_change=false);
enum recalc_op_target_result {
RECALC_OP_TARGET_NO_ACTION = 0,
RECALC_OP_TARGET_NEED_RESEND,
RECALC_OP_TARGET_POOL_DNE,
RECALC_OP_TARGET_OSD_DNE,
RECALC_OP_TARGET_OSD_DOWN,
};
bool _osdmap_full_flag() const;
bool _osdmap_has_pool_full() const;
void _prune_snapc(
const mempool::osdmap::map<int64_t, OSDMap::snap_interval_set_t>& new_removed_snaps,
Op *op);
bool target_should_be_paused(op_target_t *op);
int _calc_target(op_target_t *t, Connection *con,
bool any_change = false);
int _map_session(op_target_t *op, OSDSession **s,
shunique_lock& lc);
void _session_op_assign(OSDSession *s, Op *op);
void _session_op_remove(OSDSession *s, Op *op);
void _session_linger_op_assign(OSDSession *to, LingerOp *op);
void _session_linger_op_remove(OSDSession *from, LingerOp *op);
void _session_command_op_assign(OSDSession *to, CommandOp *op);
void _session_command_op_remove(OSDSession *from, CommandOp *op);
int _assign_op_target_session(Op *op, shunique_lock& lc,
bool src_session_locked,
bool dst_session_locked);
int _recalc_linger_op_target(LingerOp *op, shunique_lock& lc);
void _linger_submit(LingerOp *info, shunique_lock& sul);
void _send_linger(LingerOp *info, shunique_lock& sul);
void _linger_commit(LingerOp *info, int r, bufferlist& outbl);
void _linger_reconnect(LingerOp *info, int r);
void _send_linger_ping(LingerOp *info);
void _linger_ping(LingerOp *info, int r, ceph::coarse_mono_time sent,
uint32_t register_gen);
int _normalize_watch_error(int r);
friend class C_DoWatchError;
public:
void linger_callback_flush(Context *ctx) {
finisher->queue(ctx);
}
private:
void _check_op_pool_dne(Op *op, unique_lock *sl);
void _send_op_map_check(Op *op);
void _op_cancel_map_check(Op *op);
void _check_linger_pool_dne(LingerOp *op, bool *need_unregister);
void _send_linger_map_check(LingerOp *op);
void _linger_cancel_map_check(LingerOp *op);
void _check_command_map_dne(CommandOp *op);
void _send_command_map_check(CommandOp *op);
void _command_cancel_map_check(CommandOp *op);
void _kick_requests(OSDSession *session, map<uint64_t, LingerOp *>& lresend);
void _linger_ops_resend(map<uint64_t, LingerOp *>& lresend, unique_lock& ul);
int _get_session(int osd, OSDSession **session, shunique_lock& sul);
void put_session(OSDSession *s);
void get_session(OSDSession *s);
void _reopen_session(OSDSession *session);
void close_session(OSDSession *session);
void _nlist_reply(NListContext *list_context, int r, Context *final_finish,
epoch_t reply_epoch);
void resend_mon_ops();
/**
* handle a budget for in-flight ops
* budget is taken whenever an op goes into the ops map
* and returned whenever an op is removed from the map
* If throttle_op needs to throttle it will unlock client_lock.
*/
int calc_op_budget(const vector<OSDOp>& ops);
void _throttle_op(Op *op, shunique_lock& sul, int op_size = 0);
int _take_op_budget(Op *op, shunique_lock& sul) {
ceph_assert(sul && sul.mutex() == &rwlock);
int op_budget = calc_op_budget(op->ops);
if (keep_balanced_budget) {
_throttle_op(op, sul, op_budget);
} else { // update take_linger_budget to match this!
op_throttle_bytes.take(op_budget);
op_throttle_ops.take(1);
}
op->budget = op_budget;
return op_budget;
}
int take_linger_budget(LingerOp *info);
friend class WatchContext; // to invoke put_up_budget_bytes
void put_op_budget_bytes(int op_budget) {
ceph_assert(op_budget >= 0);
op_throttle_bytes.put(op_budget);
op_throttle_ops.put(1);
}
void put_nlist_context_budget(NListContext *list_context);
Throttle op_throttle_bytes, op_throttle_ops;
public:
Objecter(CephContext *cct_, Messenger *m, MonClient *mc,
Finisher *fin,
double mon_timeout,
double osd_timeout) :
Dispatcher(cct_), messenger(m), monc(mc), finisher(fin),
trace_endpoint("0.0.0.0", 0, "Objecter"),
osdmap(new OSDMap),
max_linger_id(0),
keep_balanced_budget(false), honor_osdmap_full(true), osdmap_full_try(false),
blacklist_events_enabled(false),
last_seen_osdmap_version(0), last_seen_pgmap_version(0),
logger(NULL), tick_event(0), m_request_state_hook(NULL),
homeless_session(new OSDSession(cct, -1)),
mon_timeout(ceph::make_timespan(mon_timeout)),
osd_timeout(ceph::make_timespan(osd_timeout)),
op_throttle_bytes(cct, "objecter_bytes",
cct->_conf->objecter_inflight_op_bytes),
op_throttle_ops(cct, "objecter_ops", cct->_conf->objecter_inflight_ops),
epoch_barrier(0),
retry_writes_after_first_reply(cct->_conf->objecter_retry_writes_after_first_reply)
{ }
~Objecter() override;
void init();
void start(const OSDMap *o = nullptr);
void shutdown();
// These two templates replace osdmap_(get)|(put)_read. Simply wrap
// whatever functionality you want to use the OSDMap in a lambda like:
//
// with_osdmap([](const OSDMap& o) { o.do_stuff(); });
//
// or
//
// auto t = with_osdmap([&](const OSDMap& o) { return o.lookup_stuff(x); });
//
// Do not call into something that will try to lock the OSDMap from
// here or you will have great woe and misery.
template<typename Callback, typename...Args>
auto with_osdmap(Callback&& cb, Args&&... args) const ->
decltype(cb(*osdmap, std::forward<Args>(args)...)) {
shared_lock l(rwlock);
return std::forward<Callback>(cb)(*osdmap, std::forward<Args>(args)...);
}
/**
* Tell the objecter to throttle outgoing ops according to its
* budget (in _conf). If you do this, ops can block, in
* which case it will unlock client_lock and sleep until
* incoming messages reduce the used budget low enough for
* the ops to continue going; then it will lock client_lock again.
*/
void set_balanced_budget() { keep_balanced_budget = true; }
void unset_balanced_budget() { keep_balanced_budget = false; }
void set_honor_osdmap_full() { honor_osdmap_full = true; }
void unset_honor_osdmap_full() { honor_osdmap_full = false; }
void set_osdmap_full_try() { osdmap_full_try = true; }
void unset_osdmap_full_try() { osdmap_full_try = false; }
void _scan_requests(
OSDSession *s,
bool skipped_map,
bool cluster_full,
map<int64_t, bool> *pool_full_map,
map<ceph_tid_t, Op*>& need_resend,
list<LingerOp*>& need_resend_linger,
map<ceph_tid_t, CommandOp*>& need_resend_command,
shunique_lock& sul,
const mempool::osdmap::map<int64_t,OSDMap::snap_interval_set_t> *gap_removed_snaps);
int64_t get_object_hash_position(int64_t pool, const string& key,
const string& ns);
int64_t get_object_pg_hash_position(int64_t pool, const string& key,
const string& ns);
// messages
public:
bool ms_dispatch(Message *m) override;
bool ms_can_fast_dispatch_any() const override {
return true;
}
bool ms_can_fast_dispatch(const Message *m) const override {
switch (m->get_type()) {
case CEPH_MSG_OSD_OPREPLY:
case CEPH_MSG_WATCH_NOTIFY:
return true;
default:
return false;
}
}
void ms_fast_dispatch(Message *m) override {
if (!ms_dispatch(m)) {
m->put();
}
}
void handle_osd_op_reply(class MOSDOpReply *m);
void handle_osd_backoff(class MOSDBackoff *m);
void handle_watch_notify(class MWatchNotify *m);
void handle_osd_map(class MOSDMap *m);
void wait_for_osd_map();
/**
* Get list of entities blacklisted since this was last called,
* and reset the list.
*
* Uses a std::set because typical use case is to compare some
* other list of clients to see which overlap with the blacklisted
* addrs.
*
*/
void consume_blacklist_events(std::set<entity_addr_t> *events);
int pool_snap_by_name(int64_t poolid,
const char *snap_name,
snapid_t *snap) const;
int pool_snap_get_info(int64_t poolid, snapid_t snap,
pool_snap_info_t *info) const;
int pool_snap_list(int64_t poolid, vector<uint64_t> *snaps);
private:
void emit_blacklist_events(const OSDMap::Incremental &inc);
void emit_blacklist_events(const OSDMap &old_osd_map,
const OSDMap &new_osd_map);
// low-level
void _op_submit(Op *op, shunique_lock& lc, ceph_tid_t *ptid);
void _op_submit_with_budget(Op *op, shunique_lock& lc,
ceph_tid_t *ptid,
int *ctx_budget = NULL);
// public interface
public:
void op_submit(Op *op, ceph_tid_t *ptid = NULL, int *ctx_budget = NULL);
bool is_active() {
shared_lock l(rwlock);
return !((!inflight_ops) && linger_ops.empty() &&
poolstat_ops.empty() && statfs_ops.empty());
}
/**
* Output in-flight requests
*/
void _dump_active(OSDSession *s);
void _dump_active();
void dump_active();
void dump_requests(Formatter *fmt);
void _dump_ops(const OSDSession *s, Formatter *fmt);
void dump_ops(Formatter *fmt);
void _dump_linger_ops(const OSDSession *s, Formatter *fmt);
void dump_linger_ops(Formatter *fmt);
void _dump_command_ops(const OSDSession *s, Formatter *fmt);
void dump_command_ops(Formatter *fmt);
void dump_pool_ops(Formatter *fmt) const;
void dump_pool_stat_ops(Formatter *fmt) const;
void dump_statfs_ops(Formatter *fmt) const;
int get_client_incarnation() const { return client_inc; }
void set_client_incarnation(int inc) { client_inc = inc; }
bool have_map(epoch_t epoch);
/// wait for epoch; true if we already have it
bool wait_for_map(epoch_t epoch, Context *c, int err=0);
void _wait_for_new_map(Context *c, epoch_t epoch, int err=0);
void wait_for_latest_osdmap(Context *fin);
void get_latest_version(epoch_t oldest, epoch_t neweset, Context *fin);
/** Get the current set of global op flags */
int get_global_op_flags() const { return global_op_flags; }
/** Add a flag to the global op flags, not really atomic operation */
void add_global_op_flags(int flag) {
global_op_flags.fetch_or(flag);
}
/** Clear the passed flags from the global op flag set */
void clear_global_op_flag(int flags) {
global_op_flags.fetch_and(~flags);
}
/// cancel an in-progress request with the given return code
private:
int op_cancel(OSDSession *s, ceph_tid_t tid, int r);
int _op_cancel(ceph_tid_t tid, int r);
public:
int op_cancel(ceph_tid_t tid, int r);
int op_cancel(const vector<ceph_tid_t>& tidls, int r);
/**
* Any write op which is in progress at the start of this call shall no
* longer be in progress when this call ends. Operations started after the
* start of this call may still be in progress when this call ends.
*
* @return the latest possible epoch in which a cancelled op could have
* existed, or -1 if nothing was cancelled.
*/
epoch_t op_cancel_writes(int r, int64_t pool=-1);
// commands
void osd_command(int osd, const std::vector<string>& cmd,
const bufferlist& inbl, ceph_tid_t *ptid,
bufferlist *poutbl, string *prs, Context *onfinish) {
ceph_assert(osd >= 0);
CommandOp *c = new CommandOp(
osd,
cmd,
inbl,
poutbl,
prs,
onfinish);
submit_command(c, ptid);
}
void pg_command(pg_t pgid, const vector<string>& cmd,
const bufferlist& inbl, ceph_tid_t *ptid,
bufferlist *poutbl, string *prs, Context *onfinish) {
CommandOp *c = new CommandOp(
pgid,
cmd,
inbl,
poutbl,
prs,
onfinish);
submit_command(c, ptid);
}
// mid-level helpers
Op *prepare_mutate_op(
const object_t& oid, const object_locator_t& oloc,
ObjectOperation& op, const SnapContext& snapc,
ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
osd_reqid_t reqid = osd_reqid_t(),
ZTracer::Trace *parent_trace = nullptr) {
Op *o = new Op(oid, oloc, op.ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver, nullptr, parent_trace);
o->priority = op.priority;
o->mtime = mtime;
o->snapc = snapc;
o->out_rval.swap(op.out_rval);
o->reqid = reqid;
return o;
}
ceph_tid_t mutate(
const object_t& oid, const object_locator_t& oloc,
ObjectOperation& op, const SnapContext& snapc,
ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
osd_reqid_t reqid = osd_reqid_t()) {
Op *o = prepare_mutate_op(oid, oloc, op, snapc, mtime, flags,
oncommit, objver, reqid);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_read_op(
const object_t& oid, const object_locator_t& oloc,
ObjectOperation& op,
snapid_t snapid, bufferlist *pbl, int flags,
Context *onack, version_t *objver = NULL,
int *data_offset = NULL,
uint64_t features = 0,
ZTracer::Trace *parent_trace = nullptr) {
Op *o = new Op(oid, oloc, op.ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, onack, objver, data_offset, parent_trace);
o->priority = op.priority;
o->snapid = snapid;
o->outbl = pbl;
if (!o->outbl && op.size() == 1 && op.out_bl[0]->length())
o->outbl = op.out_bl[0];
o->out_bl.swap(op.out_bl);
o->out_handler.swap(op.out_handler);
o->out_rval.swap(op.out_rval);
return o;
}
ceph_tid_t read(
const object_t& oid, const object_locator_t& oloc,
ObjectOperation& op,
snapid_t snapid, bufferlist *pbl, int flags,
Context *onack, version_t *objver = NULL,
int *data_offset = NULL,
uint64_t features = 0) {
Op *o = prepare_read_op(oid, oloc, op, snapid, pbl, flags, onack, objver,
data_offset);
if (features)
o->features = features;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_pg_read_op(
uint32_t hash, object_locator_t oloc,
ObjectOperation& op, bufferlist *pbl, int flags,
Context *onack, epoch_t *reply_epoch,
int *ctx_budget) {
Op *o = new Op(object_t(), oloc,
op.ops,
flags | global_op_flags | CEPH_OSD_FLAG_READ |
CEPH_OSD_FLAG_IGNORE_OVERLAY,
onack, NULL);
o->target.precalc_pgid = true;
o->target.base_pgid = pg_t(hash, oloc.pool);
o->priority = op.priority;
o->snapid = CEPH_NOSNAP;
o->outbl = pbl;
o->out_bl.swap(op.out_bl);
o->out_handler.swap(op.out_handler);
o->out_rval.swap(op.out_rval);
o->reply_epoch = reply_epoch;
if (ctx_budget) {
// budget is tracked by listing context
o->ctx_budgeted = true;
}
return o;
}
ceph_tid_t pg_read(
uint32_t hash, object_locator_t oloc,
ObjectOperation& op, bufferlist *pbl, int flags,
Context *onack, epoch_t *reply_epoch,
int *ctx_budget) {
Op *o = prepare_pg_read_op(hash, oloc, op, pbl, flags,
onack, reply_epoch, ctx_budget);
ceph_tid_t tid;
op_submit(o, &tid, ctx_budget);
return tid;
}
// caller owns a ref
LingerOp *linger_register(const object_t& oid, const object_locator_t& oloc,
int flags);
ceph_tid_t linger_watch(LingerOp *info,
ObjectOperation& op,
const SnapContext& snapc, ceph::real_time mtime,
bufferlist& inbl,
Context *onfinish,
version_t *objver);
ceph_tid_t linger_notify(LingerOp *info,
ObjectOperation& op,
snapid_t snap, bufferlist& inbl,
bufferlist *poutbl,
Context *onack,
version_t *objver);
int linger_check(LingerOp *info);
void linger_cancel(LingerOp *info); // releases a reference
void _linger_cancel(LingerOp *info);
void _do_watch_notify(LingerOp *info, MWatchNotify *m);
/**
* set up initial ops in the op vector, and allocate a final op slot.
*
* The caller is responsible for filling in the final ops_count ops.
*
* @param ops op vector
* @param ops_count number of final ops the caller will fill in
* @param extra_ops pointer to [array of] initial op[s]
* @return index of final op (for caller to fill in)
*/
int init_ops(vector<OSDOp>& ops, int ops_count, ObjectOperation *extra_ops) {
int i;
int extra = 0;
if (extra_ops)
extra = extra_ops->ops.size();
ops.resize(ops_count + extra);
for (i=0; i<extra; i++) {
ops[i] = extra_ops->ops[i];
}
return i;
}
// high-level helpers
Op *prepare_stat_op(
const object_t& oid, const object_locator_t& oloc,
snapid_t snap, uint64_t *psize, ceph::real_time *pmtime,
int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_STAT;
C_Stat *fin = new C_Stat(psize, pmtime, onfinish);
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, fin, objver);
o->snapid = snap;
o->outbl = &fin->bl;
return o;
}
ceph_tid_t stat(
const object_t& oid, const object_locator_t& oloc,
snapid_t snap, uint64_t *psize, ceph::real_time *pmtime,
int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
Op *o = prepare_stat_op(oid, oloc, snap, psize, pmtime, flags,
onfinish, objver, extra_ops);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_read_op(
const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, snapid_t snap, bufferlist *pbl,
int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0,
ZTracer::Trace *parent_trace = nullptr) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_READ;
ops[i].op.extent.offset = off;
ops[i].op.extent.length = len;
ops[i].op.extent.truncate_size = 0;
ops[i].op.extent.truncate_seq = 0;
ops[i].op.flags = op_flags;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, onfinish, objver, nullptr, parent_trace);
o->snapid = snap;
o->outbl = pbl;
return o;
}
ceph_tid_t read(
const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, snapid_t snap, bufferlist *pbl,
int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
Op *o = prepare_read_op(oid, oloc, off, len, snap, pbl, flags,
onfinish, objver, extra_ops, op_flags);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_cmpext_op(
const object_t& oid, const object_locator_t& oloc,
uint64_t off, bufferlist &cmp_bl,
snapid_t snap, int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_CMPEXT;
ops[i].op.extent.offset = off;
ops[i].op.extent.length = cmp_bl.length();
ops[i].op.extent.truncate_size = 0;
ops[i].op.extent.truncate_seq = 0;
ops[i].indata = cmp_bl;
ops[i].op.flags = op_flags;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, onfinish, objver);
o->snapid = snap;
return o;
}
ceph_tid_t cmpext(
const object_t& oid, const object_locator_t& oloc,
uint64_t off, bufferlist &cmp_bl,
snapid_t snap, int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
Op *o = prepare_cmpext_op(oid, oloc, off, cmp_bl, snap,
flags, onfinish, objver, extra_ops, op_flags);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t read_trunc(const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, snapid_t snap,
bufferlist *pbl, int flags, uint64_t trunc_size,
__u32 trunc_seq, Context *onfinish,
version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_READ;
ops[i].op.extent.offset = off;
ops[i].op.extent.length = len;
ops[i].op.extent.truncate_size = trunc_size;
ops[i].op.extent.truncate_seq = trunc_seq;
ops[i].op.flags = op_flags;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, onfinish, objver);
o->snapid = snap;
o->outbl = pbl;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t mapext(const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, snapid_t snap, bufferlist *pbl,
int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_MAPEXT;
ops[i].op.extent.offset = off;
ops[i].op.extent.length = len;
ops[i].op.extent.truncate_size = 0;
ops[i].op.extent.truncate_seq = 0;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, onfinish, objver);
o->snapid = snap;
o->outbl = pbl;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t getxattr(const object_t& oid, const object_locator_t& oloc,
const char *name, snapid_t snap, bufferlist *pbl, int flags,
Context *onfinish,
version_t *objver = NULL, ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_GETXATTR;
ops[i].op.xattr.name_len = (name ? strlen(name) : 0);
ops[i].op.xattr.value_len = 0;
if (name)
ops[i].indata.append(name, ops[i].op.xattr.name_len);
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, onfinish, objver);
o->snapid = snap;
o->outbl = pbl;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t getxattrs(const object_t& oid, const object_locator_t& oloc,
snapid_t snap, map<string,bufferlist>& attrset,
int flags, Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_GETXATTRS;
C_GetAttrs *fin = new C_GetAttrs(attrset, onfinish);
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_READ, fin, objver);
o->snapid = snap;
o->outbl = &fin->bl;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t read_full(const object_t& oid, const object_locator_t& oloc,
snapid_t snap, bufferlist *pbl, int flags,
Context *onfinish, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
return read(oid, oloc, 0, 0, snap, pbl, flags | global_op_flags |
CEPH_OSD_FLAG_READ, onfinish, objver, extra_ops);
}
// writes
ceph_tid_t _modify(const object_t& oid, const object_locator_t& oloc,
vector<OSDOp>& ops, ceph::real_time mtime,
const SnapContext& snapc, int flags,
Context *oncommit,
version_t *objver = NULL) {
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_write_op(
const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, const SnapContext& snapc,
const bufferlist &bl, ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0,
ZTracer::Trace *parent_trace = nullptr) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_WRITE;
ops[i].op.extent.offset = off;
ops[i].op.extent.length = len;
ops[i].op.extent.truncate_size = 0;
ops[i].op.extent.truncate_seq = 0;
ops[i].indata = bl;
ops[i].op.flags = op_flags;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver,
nullptr, parent_trace);
o->mtime = mtime;
o->snapc = snapc;
return o;
}
ceph_tid_t write(
const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, const SnapContext& snapc,
const bufferlist &bl, ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
Op *o = prepare_write_op(oid, oloc, off, len, snapc, bl, mtime, flags,
oncommit, objver, extra_ops, op_flags);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_append_op(
const object_t& oid, const object_locator_t& oloc,
uint64_t len, const SnapContext& snapc,
const bufferlist &bl, ceph::real_time mtime, int flags,
Context *oncommit,
version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_APPEND;
ops[i].op.extent.offset = 0;
ops[i].op.extent.length = len;
ops[i].op.extent.truncate_size = 0;
ops[i].op.extent.truncate_seq = 0;
ops[i].indata = bl;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
return o;
}
ceph_tid_t append(
const object_t& oid, const object_locator_t& oloc,
uint64_t len, const SnapContext& snapc,
const bufferlist &bl, ceph::real_time mtime, int flags,
Context *oncommit,
version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
Op *o = prepare_append_op(oid, oloc, len, snapc, bl, mtime, flags,
oncommit, objver, extra_ops);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t write_trunc(const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, const SnapContext& snapc,
const bufferlist &bl, ceph::real_time mtime, int flags,
uint64_t trunc_size, __u32 trunc_seq,
Context *oncommit,
version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_WRITE;
ops[i].op.extent.offset = off;
ops[i].op.extent.length = len;
ops[i].op.extent.truncate_size = trunc_size;
ops[i].op.extent.truncate_seq = trunc_seq;
ops[i].indata = bl;
ops[i].op.flags = op_flags;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_write_full_op(
const object_t& oid, const object_locator_t& oloc,
const SnapContext& snapc, const bufferlist &bl,
ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_WRITEFULL;
ops[i].op.extent.offset = 0;
ops[i].op.extent.length = bl.length();
ops[i].indata = bl;
ops[i].op.flags = op_flags;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
return o;
}
ceph_tid_t write_full(
const object_t& oid, const object_locator_t& oloc,
const SnapContext& snapc, const bufferlist &bl,
ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
Op *o = prepare_write_full_op(oid, oloc, snapc, bl, mtime, flags,
oncommit, objver, extra_ops, op_flags);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_writesame_op(
const object_t& oid, const object_locator_t& oloc,
uint64_t write_len, uint64_t off,
const SnapContext& snapc, const bufferlist &bl,
ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_WRITESAME;
ops[i].op.writesame.offset = off;
ops[i].op.writesame.length = write_len;
ops[i].op.writesame.data_length = bl.length();
ops[i].indata = bl;
ops[i].op.flags = op_flags;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
return o;
}
ceph_tid_t writesame(
const object_t& oid, const object_locator_t& oloc,
uint64_t write_len, uint64_t off,
const SnapContext& snapc, const bufferlist &bl,
ceph::real_time mtime, int flags,
Context *oncommit, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL, int op_flags = 0) {
Op *o = prepare_writesame_op(oid, oloc, write_len, off, snapc, bl,
mtime, flags, oncommit, objver,
extra_ops, op_flags);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t trunc(const object_t& oid, const object_locator_t& oloc,
const SnapContext& snapc, ceph::real_time mtime, int flags,
uint64_t trunc_size, __u32 trunc_seq,
Context *oncommit, version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_TRUNCATE;
ops[i].op.extent.offset = trunc_size;
ops[i].op.extent.truncate_size = trunc_size;
ops[i].op.extent.truncate_seq = trunc_seq;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t zero(const object_t& oid, const object_locator_t& oloc,
uint64_t off, uint64_t len, const SnapContext& snapc,
ceph::real_time mtime, int flags, Context *oncommit,
version_t *objver = NULL, ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_ZERO;
ops[i].op.extent.offset = off;
ops[i].op.extent.length = len;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t rollback_object(const object_t& oid, const object_locator_t& oloc,
const SnapContext& snapc, snapid_t snapid,
ceph::real_time mtime, Context *oncommit,
version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_ROLLBACK;
ops[i].op.snap.snapid = snapid;
Op *o = new Op(oid, oloc, ops, CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t create(const object_t& oid, const object_locator_t& oloc,
const SnapContext& snapc, ceph::real_time mtime, int global_flags,
int create_flags, Context *oncommit,
version_t *objver = NULL,
ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_CREATE;
ops[i].op.flags = create_flags;
Op *o = new Op(oid, oloc, ops, global_flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
Op *prepare_remove_op(
const object_t& oid, const object_locator_t& oloc,
const SnapContext& snapc, ceph::real_time mtime, int flags,
Context *oncommit,
version_t *objver = NULL, ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_DELETE;
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
return o;
}
ceph_tid_t remove(
const object_t& oid, const object_locator_t& oloc,
const SnapContext& snapc, ceph::real_time mtime, int flags,
Context *oncommit,
version_t *objver = NULL, ObjectOperation *extra_ops = NULL) {
Op *o = prepare_remove_op(oid, oloc, snapc, mtime, flags,
oncommit, objver, extra_ops);
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t setxattr(const object_t& oid, const object_locator_t& oloc,
const char *name, const SnapContext& snapc, const bufferlist &bl,
ceph::real_time mtime, int flags,
Context *oncommit,
version_t *objver = NULL, ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_SETXATTR;
ops[i].op.xattr.name_len = (name ? strlen(name) : 0);
ops[i].op.xattr.value_len = bl.length();
if (name)
ops[i].indata.append(name, ops[i].op.xattr.name_len);
ops[i].indata.append(bl);
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
ceph_tid_t removexattr(const object_t& oid, const object_locator_t& oloc,
const char *name, const SnapContext& snapc,
ceph::real_time mtime, int flags,
Context *oncommit,
version_t *objver = NULL, ObjectOperation *extra_ops = NULL) {
vector<OSDOp> ops;
int i = init_ops(ops, 1, extra_ops);
ops[i].op.op = CEPH_OSD_OP_RMXATTR;
ops[i].op.xattr.name_len = (name ? strlen(name) : 0);
ops[i].op.xattr.value_len = 0;
if (name)
ops[i].indata.append(name, ops[i].op.xattr.name_len);
Op *o = new Op(oid, oloc, ops, flags | global_op_flags |
CEPH_OSD_FLAG_WRITE, oncommit, objver);
o->mtime = mtime;
o->snapc = snapc;
ceph_tid_t tid;
op_submit(o, &tid);
return tid;
}
void list_nobjects(NListContext *p, Context *onfinish);
uint32_t list_nobjects_seek(NListContext *p, uint32_t pos);
uint32_t list_nobjects_seek(NListContext *list_context, const hobject_t& c);
void list_nobjects_get_cursor(NListContext *list_context, hobject_t *c);
hobject_t enumerate_objects_begin();
hobject_t enumerate_objects_end();
//hobject_t enumerate_objects_begin(int n, int m);
void enumerate_objects(
int64_t pool_id,
const std::string &ns,
const hobject_t &start,
const hobject_t &end,
const uint32_t max,
const bufferlist &filter_bl,
std::list<librados::ListObjectImpl> *result,
hobject_t *next,
Context *on_finish);
void _enumerate_reply(
bufferlist &bl,
int r,
const hobject_t &end,
const int64_t pool_id,
int budget,
epoch_t reply_epoch,
std::list<librados::ListObjectImpl> *result,
hobject_t *next,
Context *on_finish);
friend class C_EnumerateReply;
// -------------------------
// pool ops
private:
void pool_op_submit(PoolOp *op);
void _pool_op_submit(PoolOp *op);
void _finish_pool_op(PoolOp *op, int r);
void _do_delete_pool(int64_t pool, Context *onfinish);
public:
int create_pool_snap(int64_t pool, string& snapName, Context *onfinish);
int allocate_selfmanaged_snap(int64_t pool, snapid_t *psnapid,
Context *onfinish);
int delete_pool_snap(int64_t pool, string& snapName, Context *onfinish);
int delete_selfmanaged_snap(int64_t pool, snapid_t snap, Context *onfinish);
int create_pool(string& name, Context *onfinish,
int crush_rule=-1);
int delete_pool(int64_t pool, Context *onfinish);
int delete_pool(const string& name, Context *onfinish);
void handle_pool_op_reply(MPoolOpReply *m);
int pool_op_cancel(ceph_tid_t tid, int r);
// --------------------------
// pool stats
private:
void _poolstat_submit(PoolStatOp *op);
public:
void handle_get_pool_stats_reply(MGetPoolStatsReply *m);
void get_pool_stats(list<string>& pools, map<string,pool_stat_t> *result,
bool *per_pool,
Context *onfinish);
int pool_stat_op_cancel(ceph_tid_t tid, int r);
void _finish_pool_stat_op(PoolStatOp *op, int r);
// ---------------------------
// df stats
private:
void _fs_stats_submit(StatfsOp *op);
public:
void handle_fs_stats_reply(MStatfsReply *m);
void get_fs_stats(struct ceph_statfs& result, boost::optional<int64_t> poolid,
Context *onfinish);
int statfs_op_cancel(ceph_tid_t tid, int r);
void _finish_statfs_op(StatfsOp *op, int r);
// ---------------------------
// some scatter/gather hackery
void _sg_read_finish(vector<ObjectExtent>& extents,
vector<bufferlist>& resultbl,
bufferlist *bl, Context *onfinish);
struct C_SGRead : public Context {
Objecter *objecter;
vector<ObjectExtent> extents;
vector<bufferlist> resultbl;
bufferlist *bl;
Context *onfinish;
C_SGRead(Objecter *ob,
vector<ObjectExtent>& e, vector<bufferlist>& r, bufferlist *b,
Context *c) :
objecter(ob), bl(b), onfinish(c) {
extents.swap(e);
resultbl.swap(r);
}
void finish(int r) override {
objecter->_sg_read_finish(extents, resultbl, bl, onfinish);
}
};
void sg_read_trunc(vector<ObjectExtent>& extents, snapid_t snap,
bufferlist *bl, int flags, uint64_t trunc_size,
__u32 trunc_seq, Context *onfinish, int op_flags = 0) {
if (extents.size() == 1) {
read_trunc(extents[0].oid, extents[0].oloc, extents[0].offset,
extents[0].length, snap, bl, flags, extents[0].truncate_size,
trunc_seq, onfinish, 0, 0, op_flags);
} else {
C_GatherBuilder gather(cct);
vector<bufferlist> resultbl(extents.size());
int i=0;
for (vector<ObjectExtent>::iterator p = extents.begin();
p != extents.end();
++p) {
read_trunc(p->oid, p->oloc, p->offset, p->length, snap, &resultbl[i++],
flags, p->truncate_size, trunc_seq, gather.new_sub(),
0, 0, op_flags);
}
gather.set_finisher(new C_SGRead(this, extents, resultbl, bl, onfinish));
gather.activate();
}
}
void sg_read(vector<ObjectExtent>& extents, snapid_t snap, bufferlist *bl,
int flags, Context *onfinish, int op_flags = 0) {
sg_read_trunc(extents, snap, bl, flags, 0, 0, onfinish, op_flags);
}
void sg_write_trunc(vector<ObjectExtent>& extents, const SnapContext& snapc,
const bufferlist& bl, ceph::real_time mtime, int flags,
uint64_t trunc_size, __u32 trunc_seq,
Context *oncommit, int op_flags = 0) {
if (extents.size() == 1) {
write_trunc(extents[0].oid, extents[0].oloc, extents[0].offset,
extents[0].length, snapc, bl, mtime, flags,
extents[0].truncate_size, trunc_seq, oncommit,
0, 0, op_flags);
} else {
C_GatherBuilder gcom(cct, oncommit);
for (vector<ObjectExtent>::iterator p = extents.begin();
p != extents.end();
++p) {
bufferlist cur;
for (vector<pair<uint64_t,uint64_t> >::iterator bit
= p->buffer_extents.begin();
bit != p->buffer_extents.end();
++bit)
bl.copy(bit->first, bit->second, cur);
ceph_assert(cur.length() == p->length);
write_trunc(p->oid, p->oloc, p->offset, p->length,
snapc, cur, mtime, flags, p->truncate_size, trunc_seq,
oncommit ? gcom.new_sub():0,
0, 0, op_flags);
}
gcom.activate();
}
}
void sg_write(vector<ObjectExtent>& extents, const SnapContext& snapc,
const bufferlist& bl, ceph::real_time mtime, int flags,
Context *oncommit, int op_flags = 0) {
sg_write_trunc(extents, snapc, bl, mtime, flags, 0, 0, oncommit,
op_flags);
}
void ms_handle_connect(Connection *con) override;
bool ms_handle_reset(Connection *con) override;
void ms_handle_remote_reset(Connection *con) override;
bool ms_handle_refused(Connection *con) override;
bool ms_get_authorizer(int dest_type,
AuthAuthorizer **authorizer) override;
void blacklist_self(bool set);
private:
epoch_t epoch_barrier;
bool retry_writes_after_first_reply;
public:
void set_epoch_barrier(epoch_t epoch);
PerfCounters *get_logger() {
return logger;
}
};
#endif
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