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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#ifndef CEPH_OBJECTCACHER_H
#define CEPH_OBJECTCACHER_H
#include "include/types.h"
#include "include/lru.h"
#include "include/Context.h"
#include "include/xlist.h"
#include "include/common_fwd.h"
#include "common/Cond.h"
#include "common/Finisher.h"
#include "common/Thread.h"
#include "common/zipkin_trace.h"
#include "Objecter.h"
#include "Striper.h"
class WritebackHandler;
enum {
l_objectcacher_first = 25000,
l_objectcacher_cache_ops_hit, // ops we satisfy completely from cache
l_objectcacher_cache_ops_miss, // ops we don't satisfy completely from cache
l_objectcacher_cache_bytes_hit, // bytes read directly from cache
l_objectcacher_cache_bytes_miss, // bytes we couldn't read directly
// from cache
l_objectcacher_data_read, // total bytes read out
l_objectcacher_data_written, // bytes written to cache
l_objectcacher_data_flushed, // bytes flushed to WritebackHandler
l_objectcacher_overwritten_in_flush, // bytes overwritten while
// flushing is in progress
l_objectcacher_write_ops_blocked, // total write ops we delayed due
// to dirty limits
l_objectcacher_write_bytes_blocked, // total number of write bytes
// we delayed due to dirty
// limits
l_objectcacher_write_time_blocked, // total time in seconds spent
// blocking a write due to dirty
// limits
l_objectcacher_last,
};
class ObjectCacher {
PerfCounters *perfcounter;
public:
CephContext *cct;
class Object;
struct ObjectSet;
class C_ReadFinish;
typedef void (*flush_set_callback_t) (void *p, ObjectSet *oset);
// read scatter/gather
struct OSDRead {
std::vector<ObjectExtent> extents;
snapid_t snap;
ceph::buffer::list *bl;
int fadvise_flags;
OSDRead(snapid_t s, ceph::buffer::list *b, int f)
: snap(s), bl(b), fadvise_flags(f) {}
};
OSDRead *prepare_read(snapid_t snap, ceph::buffer::list *b, int f) const {
return new OSDRead(snap, b, f);
}
// write scatter/gather
struct OSDWrite {
std::vector<ObjectExtent> extents;
SnapContext snapc;
ceph::buffer::list bl;
ceph::real_time mtime;
int fadvise_flags;
ceph_tid_t journal_tid;
OSDWrite(const SnapContext& sc, const ceph::buffer::list& b, ceph::real_time mt,
int f, ceph_tid_t _journal_tid)
: snapc(sc), bl(b), mtime(mt), fadvise_flags(f),
journal_tid(_journal_tid) {}
};
OSDWrite *prepare_write(const SnapContext& sc,
const ceph::buffer::list &b,
ceph::real_time mt,
int f,
ceph_tid_t journal_tid) const {
return new OSDWrite(sc, b, mt, f, journal_tid);
}
// ******* BufferHead *********
class BufferHead : public LRUObject {
public:
// states
static const int STATE_MISSING = 0;
static const int STATE_CLEAN = 1;
static const int STATE_ZERO = 2; // NOTE: these are *clean* zeros
static const int STATE_DIRTY = 3;
static const int STATE_RX = 4;
static const int STATE_TX = 5;
static const int STATE_ERROR = 6; // a read error occurred
private:
// my fields
int state;
int ref;
struct {
loff_t start, length; // bh extent in object
} ex;
bool dontneed; //indicate bh don't need by anyone
bool nocache; //indicate bh don't need by this caller
public:
Object *ob;
ceph::buffer::list bl;
ceph_tid_t last_write_tid; // version of bh (if non-zero)
ceph_tid_t last_read_tid; // tid of last read op (if any)
ceph::real_time last_write;
SnapContext snapc;
ceph_tid_t journal_tid;
int error; // holds return value for failed reads
std::map<loff_t, std::list<Context*> > waitfor_read;
// cons
explicit BufferHead(Object *o) :
state(STATE_MISSING),
ref(0),
dontneed(false),
nocache(false),
ob(o),
last_write_tid(0),
last_read_tid(0),
journal_tid(0),
error(0) {
ex.start = ex.length = 0;
}
// extent
loff_t start() const { return ex.start; }
void set_start(loff_t s) { ex.start = s; }
loff_t length() const { return ex.length; }
void set_length(loff_t l) { ex.length = l; }
loff_t end() const { return ex.start + ex.length; }
loff_t last() const { return end() - 1; }
// states
void set_state(int s) {
if (s == STATE_RX || s == STATE_TX) get();
if (state == STATE_RX || state == STATE_TX) put();
state = s;
}
int get_state() const { return state; }
inline int get_error() const {
return error;
}
inline void set_error(int _error) {
error = _error;
}
inline ceph_tid_t get_journal_tid() const {
return journal_tid;
}
inline void set_journal_tid(ceph_tid_t _journal_tid) {
journal_tid = _journal_tid;
}
bool is_missing() const { return state == STATE_MISSING; }
bool is_dirty() const { return state == STATE_DIRTY; }
bool is_clean() const { return state == STATE_CLEAN; }
bool is_zero() const { return state == STATE_ZERO; }
bool is_tx() const { return state == STATE_TX; }
bool is_rx() const { return state == STATE_RX; }
bool is_error() const { return state == STATE_ERROR; }
// reference counting
int get() {
ceph_assert(ref >= 0);
if (ref == 0) lru_pin();
return ++ref;
}
int put() {
ceph_assert(ref > 0);
if (ref == 1) lru_unpin();
--ref;
return ref;
}
void set_dontneed(bool v) {
dontneed = v;
}
bool get_dontneed() const {
return dontneed;
}
void set_nocache(bool v) {
nocache = v;
}
bool get_nocache() const {
return nocache;
}
inline bool can_merge_journal(BufferHead *bh) const {
return (get_journal_tid() == bh->get_journal_tid());
}
struct ptr_lt {
bool operator()(const BufferHead* l, const BufferHead* r) const {
const Object *lob = l->ob;
const Object *rob = r->ob;
const ObjectSet *loset = lob->oset;
const ObjectSet *roset = rob->oset;
if (loset != roset)
return loset < roset;
if (lob != rob)
return lob < rob;
if (l->start() != r->start())
return l->start() < r->start();
return l < r;
}
};
};
// ******* Object *********
class Object : public LRUObject {
private:
// ObjectCacher::Object fields
int ref;
ObjectCacher *oc;
sobject_t oid;
friend struct ObjectSet;
public:
uint64_t object_no;
ObjectSet *oset;
xlist<Object*>::item set_item;
object_locator_t oloc;
uint64_t truncate_size, truncate_seq;
bool complete;
bool exists;
std::map<loff_t, BufferHead*> data;
ceph_tid_t last_write_tid; // version of bh (if non-zero)
ceph_tid_t last_commit_tid; // last update committed.
int dirty_or_tx;
std::map< ceph_tid_t, std::list<Context*> > waitfor_commit;
xlist<C_ReadFinish*> reads;
Object(const Object&) = delete;
Object& operator=(const Object&) = delete;
Object(ObjectCacher *_oc, sobject_t o, uint64_t ono, ObjectSet *os,
object_locator_t& l, uint64_t ts, uint64_t tq) :
ref(0),
oc(_oc),
oid(o), object_no(ono), oset(os), set_item(this), oloc(l),
truncate_size(ts), truncate_seq(tq),
complete(false), exists(true),
last_write_tid(0), last_commit_tid(0),
dirty_or_tx(0) {
// add to set
os->objects.push_back(&set_item);
}
~Object() {
reads.clear();
ceph_assert(ref == 0);
ceph_assert(data.empty());
ceph_assert(dirty_or_tx == 0);
set_item.remove_myself();
}
sobject_t get_soid() const { return oid; }
object_t get_oid() { return oid.oid; }
snapid_t get_snap() { return oid.snap; }
ObjectSet *get_object_set() const { return oset; }
std::string get_namespace() { return oloc.nspace; }
uint64_t get_object_number() const { return object_no; }
const object_locator_t& get_oloc() const { return oloc; }
void set_object_locator(object_locator_t& l) { oloc = l; }
bool can_close() const {
if (lru_is_expireable()) {
ceph_assert(data.empty());
ceph_assert(waitfor_commit.empty());
return true;
}
return false;
}
/**
* Check buffers and waiters for consistency
* - no overlapping buffers
* - index in map matches BH
* - waiters fall within BH
*/
void audit_buffers();
/**
* find first buffer that includes or follows an offset
*
* @param offset object byte offset
* @return iterator pointing to buffer, or data.end()
*/
std::map<loff_t,BufferHead*>::const_iterator data_lower_bound(loff_t offset) const {
auto p = data.lower_bound(offset);
if (p != data.begin() &&
(p == data.end() || p->first > offset)) {
--p; // might overlap!
if (p->first + p->second->length() <= offset)
++p; // doesn't overlap.
}
return p;
}
// bh
// add to my map
void add_bh(BufferHead *bh) {
if (data.empty())
get();
ceph_assert(data.count(bh->start()) == 0);
data[bh->start()] = bh;
}
void remove_bh(BufferHead *bh) {
ceph_assert(data.count(bh->start()));
data.erase(bh->start());
if (data.empty())
put();
}
bool is_empty() const { return data.empty(); }
// mid-level
BufferHead *split(BufferHead *bh, loff_t off);
void merge_left(BufferHead *left, BufferHead *right);
bool can_merge_bh(BufferHead *left, BufferHead *right);
void try_merge_bh(BufferHead *bh);
void maybe_rebuild_buffer(BufferHead *bh);
bool is_cached(loff_t off, loff_t len) const;
bool include_all_cached_data(loff_t off, loff_t len);
int map_read(ObjectExtent &ex,
std::map<loff_t, BufferHead*>& hits,
std::map<loff_t, BufferHead*>& missing,
std::map<loff_t, BufferHead*>& rx,
std::map<loff_t, BufferHead*>& errors);
BufferHead *map_write(ObjectExtent &ex, ceph_tid_t tid);
void replace_journal_tid(BufferHead *bh, ceph_tid_t tid);
void truncate(loff_t s);
void discard(loff_t off, loff_t len, C_GatherBuilder* commit_gather);
// reference counting
int get() {
ceph_assert(ref >= 0);
if (ref == 0) lru_pin();
return ++ref;
}
int put() {
ceph_assert(ref > 0);
if (ref == 1) lru_unpin();
--ref;
return ref;
}
};
struct ObjectSet {
void *parent;
inodeno_t ino;
uint64_t truncate_seq, truncate_size;
int64_t poolid;
xlist<Object*> objects;
int dirty_or_tx;
bool return_enoent;
ObjectSet(void *p, int64_t _poolid, inodeno_t i)
: parent(p), ino(i), truncate_seq(0),
truncate_size(0), poolid(_poolid), dirty_or_tx(0),
return_enoent(false) {}
};
// ******* ObjectCacher *********
// ObjectCacher fields
private:
WritebackHandler& writeback_handler;
bool scattered_write;
std::string name;
ceph::mutex& lock;
uint64_t max_dirty, target_dirty, max_size, max_objects;
ceph::timespan max_dirty_age;
bool cfg_block_writes_upfront;
ZTracer::Endpoint trace_endpoint;
flush_set_callback_t flush_set_callback;
void *flush_set_callback_arg;
// indexed by pool_id
std::vector<ceph::unordered_map<sobject_t, Object*> > objects;
std::list<Context*> waitfor_read;
ceph_tid_t last_read_tid;
std::set<BufferHead*, BufferHead::ptr_lt> dirty_or_tx_bh;
LRU bh_lru_dirty, bh_lru_rest;
LRU ob_lru;
ceph::condition_variable flusher_cond;
bool flusher_stop;
void flusher_entry();
class FlusherThread : public Thread {
ObjectCacher *oc;
public:
explicit FlusherThread(ObjectCacher *o) : oc(o) {}
void *entry() override {
oc->flusher_entry();
return 0;
}
} flusher_thread;
Finisher finisher;
// objects
Object *get_object_maybe(sobject_t oid, object_locator_t &l) {
// have it?
if (((uint32_t)l.pool < objects.size()) &&
(objects[l.pool].count(oid)))
return objects[l.pool][oid];
return NULL;
}
Object *get_object(sobject_t oid, uint64_t object_no, ObjectSet *oset,
object_locator_t &l, uint64_t truncate_size,
uint64_t truncate_seq);
void close_object(Object *ob);
// bh stats
ceph::condition_variable stat_cond;
loff_t stat_clean;
loff_t stat_zero;
loff_t stat_dirty;
loff_t stat_rx;
loff_t stat_tx;
loff_t stat_missing;
loff_t stat_error;
loff_t stat_dirty_waiting; // bytes that writers are waiting on to write
size_t stat_nr_dirty_waiters;
void verify_stats() const;
void bh_stat_add(BufferHead *bh);
void bh_stat_sub(BufferHead *bh);
loff_t get_stat_tx() const { return stat_tx; }
loff_t get_stat_rx() const { return stat_rx; }
loff_t get_stat_dirty() const { return stat_dirty; }
loff_t get_stat_clean() const { return stat_clean; }
loff_t get_stat_zero() const { return stat_zero; }
loff_t get_stat_dirty_waiting() const { return stat_dirty_waiting; }
size_t get_stat_nr_dirty_waiters() const { return stat_nr_dirty_waiters; }
void touch_bh(BufferHead *bh) {
if (bh->is_dirty())
bh_lru_dirty.lru_touch(bh);
else
bh_lru_rest.lru_touch(bh);
bh->set_dontneed(false);
bh->set_nocache(false);
touch_ob(bh->ob);
}
void touch_ob(Object *ob) {
ob_lru.lru_touch(ob);
}
void bottouch_ob(Object *ob) {
ob_lru.lru_bottouch(ob);
}
// bh states
void bh_set_state(BufferHead *bh, int s);
void copy_bh_state(BufferHead *bh1, BufferHead *bh2) {
bh_set_state(bh2, bh1->get_state());
}
void mark_missing(BufferHead *bh) {
bh_set_state(bh,BufferHead::STATE_MISSING);
}
void mark_clean(BufferHead *bh) {
bh_set_state(bh, BufferHead::STATE_CLEAN);
}
void mark_zero(BufferHead *bh) {
bh_set_state(bh, BufferHead::STATE_ZERO);
}
void mark_rx(BufferHead *bh) {
bh_set_state(bh, BufferHead::STATE_RX);
}
void mark_tx(BufferHead *bh) {
bh_set_state(bh, BufferHead::STATE_TX); }
void mark_error(BufferHead *bh) {
bh_set_state(bh, BufferHead::STATE_ERROR);
}
void mark_dirty(BufferHead *bh) {
bh_set_state(bh, BufferHead::STATE_DIRTY);
bh_lru_dirty.lru_touch(bh);
//bh->set_dirty_stamp(ceph_clock_now());
}
void bh_add(Object *ob, BufferHead *bh);
void bh_remove(Object *ob, BufferHead *bh);
// io
void bh_read(BufferHead *bh, int op_flags,
const ZTracer::Trace &parent_trace);
void bh_write(BufferHead *bh, const ZTracer::Trace &parent_trace);
void bh_write_scattered(std::list<BufferHead*>& blist);
void bh_write_adjacencies(BufferHead *bh, ceph::real_time cutoff,
int64_t *amount, int *max_count);
void trim();
void flush(ZTracer::Trace *trace, loff_t amount=0);
/**
* flush a range of buffers
*
* Flush any buffers that intersect the specified extent. If len==0,
* flush *all* buffers for the object.
*
* @param o object
* @param off start offset
* @param len extent length, or 0 for entire object
* @return true if object was already clean/flushed.
*/
bool flush(Object *o, loff_t off, loff_t len,
ZTracer::Trace *trace);
loff_t release(Object *o);
void purge(Object *o);
int64_t reads_outstanding;
ceph::condition_variable read_cond;
int _readx(OSDRead *rd, ObjectSet *oset, Context *onfinish,
bool external_call, ZTracer::Trace *trace);
void retry_waiting_reads();
public:
bool CFG_block_writes_upfront(void) { return cfg_block_writes_upfront; }
void bh_read_finish(int64_t poolid, sobject_t oid, ceph_tid_t tid,
loff_t offset, uint64_t length,
ceph::buffer::list &bl, int r,
bool trust_enoent);
void bh_write_commit(int64_t poolid, sobject_t oid,
std::vector<std::pair<loff_t, uint64_t> >& ranges,
ceph_tid_t t, int r);
class C_WriteCommit;
class C_WaitForWrite;
void perf_start();
void perf_stop();
ObjectCacher(CephContext *cct_, std::string name, WritebackHandler& wb, ceph::mutex& l,
flush_set_callback_t flush_callback,
void *flush_callback_arg,
uint64_t max_bytes, uint64_t max_objects,
uint64_t max_dirty, uint64_t target_dirty, double max_age,
bool block_writes_upfront);
~ObjectCacher();
void start() {
flusher_thread.create("flusher");
}
void stop() {
ceph_assert(flusher_thread.is_started());
lock.lock(); // hmm.. watch out for deadlock!
flusher_stop = true;
flusher_cond.notify_all();
lock.unlock();
flusher_thread.join();
}
class C_RetryRead;
// non-blocking. async.
/**
* @note total read size must be <= INT_MAX, since
* the return value is total bytes read
*/
int readx(OSDRead *rd, ObjectSet *oset, Context *onfinish,
ZTracer::Trace *parent_trace = nullptr);
int writex(OSDWrite *wr, ObjectSet *oset, Context *onfreespace,
ZTracer::Trace *parent_trace,
bool block_writes_upfront);
int writex(OSDWrite *wr, ObjectSet *oset, Context *onfreespace,
ZTracer::Trace *parent_trace = nullptr) {
return writex(wr, oset, onfreespace, parent_trace, cfg_block_writes_upfront);
}
bool is_cached(ObjectSet *oset, std::vector<ObjectExtent>& extents,
snapid_t snapid);
private:
// write blocking
int _wait_for_write(OSDWrite *wr, uint64_t len, ObjectSet *oset,
ZTracer::Trace *trace, Context *onfreespace,
bool block_writes_upfront);
void _maybe_wait_for_writeback(uint64_t len, ZTracer::Trace *trace);
bool _flush_set_finish(C_GatherBuilder *gather, Context *onfinish);
void _discard(ObjectSet *oset, const std::vector<ObjectExtent>& exls,
C_GatherBuilder* gather);
void _discard_finish(ObjectSet *oset, bool was_dirty, Context* on_finish);
public:
bool set_is_empty(ObjectSet *oset);
bool set_is_cached(ObjectSet *oset);
bool set_is_dirty_or_committing(ObjectSet *oset);
bool flush_set(ObjectSet *oset, Context *onfinish=0);
bool flush_set(ObjectSet *oset, std::vector<ObjectExtent>& ex,
ZTracer::Trace *trace, Context *onfinish = 0);
bool flush_all(Context *onfinish = 0);
void purge_set(ObjectSet *oset);
// returns # of bytes not released (ie non-clean)
loff_t release_set(ObjectSet *oset);
uint64_t release_all();
void discard_set(ObjectSet *oset, const std::vector<ObjectExtent>& ex);
void discard_writeback(ObjectSet *oset, const std::vector<ObjectExtent>& ex,
Context* on_finish);
/**
* Retry any in-flight reads that get -ENOENT instead of marking
* them zero, and get rid of any cached -ENOENTs.
* After this is called and the cache's lock is unlocked,
* any new requests will treat -ENOENT normally.
*/
void clear_nonexistence(ObjectSet *oset);
// cache sizes
void set_max_dirty(uint64_t v) {
max_dirty = v;
}
void set_target_dirty(int64_t v) {
target_dirty = v;
}
void set_max_size(int64_t v) {
max_size = v;
}
void set_max_dirty_age(double a) {
max_dirty_age = ceph::make_timespan(a);
}
void set_max_objects(int64_t v) {
max_objects = v;
}
// file functions
/*** async+caching (non-blocking) file interface ***/
int file_is_cached(ObjectSet *oset, file_layout_t *layout,
snapid_t snapid, loff_t offset, uint64_t len) {
std::vector<ObjectExtent> extents;
Striper::file_to_extents(cct, oset->ino, layout, offset, len,
oset->truncate_size, extents);
return is_cached(oset, extents, snapid);
}
int file_read(ObjectSet *oset, file_layout_t *layout, snapid_t snapid,
loff_t offset, uint64_t len, ceph::buffer::list *bl, int flags,
Context *onfinish) {
OSDRead *rd = prepare_read(snapid, bl, flags);
Striper::file_to_extents(cct, oset->ino, layout, offset, len,
oset->truncate_size, rd->extents);
return readx(rd, oset, onfinish);
}
int file_write(ObjectSet *oset, file_layout_t *layout,
const SnapContext& snapc, loff_t offset, uint64_t len,
ceph::buffer::list& bl, ceph::real_time mtime, int flags,
Context *onfreespace, bool block_writes_upfront) {
OSDWrite *wr = prepare_write(snapc, bl, mtime, flags, 0);
Striper::file_to_extents(cct, oset->ino, layout, offset, len,
oset->truncate_size, wr->extents);
return writex(wr, oset, onfreespace, nullptr, block_writes_upfront);
}
bool file_flush(ObjectSet *oset, file_layout_t *layout,
const SnapContext& snapc, loff_t offset, uint64_t len,
Context *onfinish) {
std::vector<ObjectExtent> extents;
Striper::file_to_extents(cct, oset->ino, layout, offset, len,
oset->truncate_size, extents);
ZTracer::Trace trace;
return flush_set(oset, extents, &trace, onfinish);
}
};
inline std::ostream& operator<<(std::ostream &out,
const ObjectCacher::BufferHead &bh)
{
out << "bh[ " << &bh << " "
<< bh.start() << "~" << bh.length()
<< " " << bh.ob
<< " (" << bh.bl.length() << ")"
<< " v " << bh.last_write_tid;
if (bh.get_journal_tid() != 0) {
out << " j " << bh.get_journal_tid();
}
if (bh.is_tx()) out << " tx";
if (bh.is_rx()) out << " rx";
if (bh.is_dirty()) out << " dirty";
if (bh.is_clean()) out << " clean";
if (bh.is_zero()) out << " zero";
if (bh.is_missing()) out << " missing";
if (bh.bl.length() > 0) out << " firstbyte=" << (int)bh.bl[0];
if (bh.error) out << " error=" << bh.error;
out << "]";
out << " waiters = {";
for (auto it = bh.waitfor_read.begin(); it != bh.waitfor_read.end(); ++it) {
out << " " << it->first << "->[";
for (auto lit = it->second.begin();
lit != it->second.end(); ++lit) {
out << *lit << ", ";
}
out << "]";
}
out << "}";
return out;
}
inline std::ostream& operator<<(std::ostream &out,
const ObjectCacher::ObjectSet &os)
{
return out << "objectset[" << os.ino
<< " ts " << os.truncate_seq << "/" << os.truncate_size
<< " objects " << os.objects.size()
<< " dirty_or_tx " << os.dirty_or_tx
<< "]";
}
inline std::ostream& operator<<(std::ostream &out,
const ObjectCacher::Object &ob)
{
out << "object["
<< ob.get_soid() << " oset " << ob.oset << std::dec
<< " wr " << ob.last_write_tid << "/" << ob.last_commit_tid;
if (ob.complete)
out << " COMPLETE";
if (!ob.exists)
out << " !EXISTS";
out << "]";
return out;
}
#endif
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