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path: root/src/librbd/cache/ObjectCacherWriteback.cc
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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab

#include <errno.h>

#include "librbd/cache/ObjectCacherWriteback.h"
#include "common/ceph_context.h"
#include "common/dout.h"
#include "common/ceph_mutex.h"
#include "osdc/Striper.h"
#include "include/Context.h"
#include "include/neorados/RADOS.hpp"
#include "include/rados/librados.hpp"
#include "include/rbd/librbd.hpp"

#include "librbd/ExclusiveLock.h"
#include "librbd/ImageCtx.h"
#include "librbd/internal.h"
#include "librbd/ObjectMap.h"
#include "librbd/Journal.h"
#include "librbd/Utils.h"
#include "librbd/asio/ContextWQ.h"
#include "librbd/io/AioCompletion.h"
#include "librbd/io/ObjectDispatchSpec.h"
#include "librbd/io/ObjectDispatcherInterface.h"
#include "librbd/io/ReadResult.h"
#include "librbd/io/Utils.h"

#include "include/ceph_assert.h"

#define dout_subsys ceph_subsys_rbd
#undef dout_prefix
#define dout_prefix *_dout << "librbd::cache::ObjectCacherWriteback: "

namespace librbd {
namespace cache {

/**
 * context to wrap another context in a Mutex
 *
 * @param cct cct
 * @param c context to finish
 * @param l mutex to lock
 */
class C_ReadRequest : public Context {
public:
  C_ReadRequest(CephContext *cct, Context *c, ceph::mutex *cache_lock)
    : m_cct(cct), m_ctx(c), m_cache_lock(cache_lock) {
  }
  void finish(int r) override {
    ldout(m_cct, 20) << "aio_cb completing " << dendl;
    {
      std::lock_guard cache_locker{*m_cache_lock};
      m_ctx->complete(r);
    }
    ldout(m_cct, 20) << "aio_cb finished" << dendl;
  }
private:
  CephContext *m_cct;
  Context *m_ctx;
  ceph::mutex *m_cache_lock;
};

class C_OrderedWrite : public Context {
public:
  C_OrderedWrite(CephContext *cct,
                 ObjectCacherWriteback::write_result_d *result,
                 const ZTracer::Trace &trace, ObjectCacherWriteback *wb)
    : m_cct(cct), m_result(result), m_trace(trace), m_wb_handler(wb) {}
  ~C_OrderedWrite() override {}
  void finish(int r) override {
    ldout(m_cct, 20) << "C_OrderedWrite completing " << m_result << dendl;
    {
      std::lock_guard l{m_wb_handler->m_lock};
      ceph_assert(!m_result->done);
      m_result->done = true;
      m_result->ret = r;
      m_wb_handler->complete_writes(m_result->oid);
    }
    ldout(m_cct, 20) << "C_OrderedWrite finished " << m_result << dendl;
    m_trace.event("finish");
  }
private:
  CephContext *m_cct;
  ObjectCacherWriteback::write_result_d *m_result;
  ZTracer::Trace m_trace;
  ObjectCacherWriteback *m_wb_handler;
};

struct C_CommitIOEventExtent : public Context {
  ImageCtx *image_ctx;
  uint64_t journal_tid;
  uint64_t offset;
  uint64_t length;

  C_CommitIOEventExtent(ImageCtx *image_ctx, uint64_t journal_tid,
                        uint64_t offset, uint64_t length)
    : image_ctx(image_ctx), journal_tid(journal_tid), offset(offset),
      length(length) {
  }

  void finish(int r) override {
    // all IO operations are flushed prior to closing the journal
    ceph_assert(image_ctx->journal != nullptr);

    image_ctx->journal->commit_io_event_extent(journal_tid, offset, length, r);
  }
};

ObjectCacherWriteback::ObjectCacherWriteback(ImageCtx *ictx, ceph::mutex& lock)
  : m_tid(0), m_lock(lock), m_ictx(ictx) {
}

void ObjectCacherWriteback::read(const object_t& oid, uint64_t object_no,
                                 const object_locator_t& oloc,
                                 uint64_t off, uint64_t len, snapid_t snapid,
                                 bufferlist *pbl, uint64_t trunc_size,
                                 __u32 trunc_seq, int op_flags,
                                 const ZTracer::Trace &parent_trace,
                                 Context *onfinish)
{
  ZTracer::Trace trace;
  if (parent_trace.valid()) {
    trace.init("", &m_ictx->trace_endpoint, &parent_trace);
    trace.copy_name("cache read " + oid.name);
    trace.event("start");
  }

  // on completion, take the mutex and then call onfinish.
  onfinish = new C_ReadRequest(m_ictx->cct, onfinish, &m_lock);

  // re-use standard object read state machine
  auto aio_comp = io::AioCompletion::create_and_start(onfinish, m_ictx,
                                                      io::AIO_TYPE_READ);
  aio_comp->read_result = io::ReadResult{pbl};
  aio_comp->set_request_count(1);

  auto req_comp = new io::ReadResult::C_ObjectReadRequest(
    aio_comp, {{off, len, {{0, len}}}});

  auto io_context = m_ictx->duplicate_data_io_context();
  if (snapid != CEPH_NOSNAP) {
    io_context->read_snap(snapid);
  }

  // extract the embedded RBD read flags from the op_flags
  int read_flags = (op_flags & READ_FLAGS_MASK) >> READ_FLAGS_SHIFT;
  op_flags &= ~READ_FLAGS_MASK;

  auto req = io::ObjectDispatchSpec::create_read(
    m_ictx, io::OBJECT_DISPATCH_LAYER_CACHE, object_no, &req_comp->extents,
    io_context, op_flags, read_flags, trace, nullptr, req_comp);
  req->send();
}

bool ObjectCacherWriteback::may_copy_on_write(const object_t& oid,
                                              uint64_t read_off,
                                              uint64_t read_len,
                                              snapid_t snapid)
{
  m_ictx->image_lock.lock_shared();
  librados::snap_t snap_id = m_ictx->snap_id;
  uint64_t overlap = 0;
  m_ictx->get_parent_overlap(snap_id, &overlap);
  m_ictx->image_lock.unlock_shared();

  uint64_t object_no = oid_to_object_no(oid.name, m_ictx->object_prefix);

  // reverse map this object extent onto the parent
  vector<pair<uint64_t,uint64_t> > objectx;
  io::util::extent_to_file(
          m_ictx, object_no, 0, m_ictx->layout.object_size, objectx);
  uint64_t object_overlap = m_ictx->prune_parent_extents(objectx, overlap);
  bool may = object_overlap > 0;
  ldout(m_ictx->cct, 10) << "may_copy_on_write " << oid << " " << read_off
                         << "~" << read_len << " = " << may << dendl;
  return may;
}

ceph_tid_t ObjectCacherWriteback::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,
                                        uint64_t trunc_size,
                                        __u32 trunc_seq, ceph_tid_t journal_tid,
                                        const ZTracer::Trace &parent_trace,
                                        Context *oncommit)
{
  ZTracer::Trace trace;
  if (parent_trace.valid()) {
    trace.init("", &m_ictx->trace_endpoint, &parent_trace);
    trace.copy_name("writeback " + oid.name);
    trace.event("start");
  }

  uint64_t object_no = oid_to_object_no(oid.name, m_ictx->object_prefix);

  write_result_d *result = new write_result_d(oid.name, oncommit);
  m_writes[oid.name].push(result);
  ldout(m_ictx->cct, 20) << "write will wait for result " << result << dendl;

  bufferlist bl_copy(bl);

  Context *ctx = new C_OrderedWrite(m_ictx->cct, result, trace, this);
  ctx = util::create_async_context_callback(*m_ictx, ctx);

  auto io_context = m_ictx->duplicate_data_io_context();
  if (!snapc.empty()) {
    io_context->write_snap_context(
      {{snapc.seq, {snapc.snaps.begin(), snapc.snaps.end()}}});
  }

  auto req = io::ObjectDispatchSpec::create_write(
    m_ictx, io::OBJECT_DISPATCH_LAYER_CACHE, object_no, off, std::move(bl_copy),
    io_context, 0, 0, std::nullopt, journal_tid, trace, ctx);
  req->object_dispatch_flags = (
    io::OBJECT_DISPATCH_FLAG_FLUSH |
    io::OBJECT_DISPATCH_FLAG_WILL_RETRY_ON_ERROR);
  req->send();

  return ++m_tid;
}


void ObjectCacherWriteback::overwrite_extent(const object_t& oid, uint64_t off,
                                             uint64_t len,
                                             ceph_tid_t original_journal_tid,
                                             ceph_tid_t new_journal_tid) {
  typedef std::vector<std::pair<uint64_t,uint64_t> > Extents;

  ldout(m_ictx->cct, 20) << __func__ << ": " << oid << " "
                         << off << "~" << len << " "
                         << "journal_tid=" << original_journal_tid << ", "
                         << "new_journal_tid=" << new_journal_tid << dendl;

  uint64_t object_no = oid_to_object_no(oid.name, m_ictx->object_prefix);

  // all IO operations are flushed prior to closing the journal
  ceph_assert(original_journal_tid != 0 && m_ictx->journal != NULL);

  Extents file_extents;
  io::util::extent_to_file(m_ictx, object_no, off, len, file_extents);
  for (Extents::iterator it = file_extents.begin();
       it != file_extents.end(); ++it) {
    if (new_journal_tid != 0) {
      // ensure new journal event is safely committed to disk before
      // committing old event
      m_ictx->journal->flush_event(
        new_journal_tid, new C_CommitIOEventExtent(m_ictx,
                                                   original_journal_tid,
                                                   it->first, it->second));
    } else {
      m_ictx->journal->commit_io_event_extent(original_journal_tid, it->first,
                                              it->second, 0);
    }
  }
}

void ObjectCacherWriteback::complete_writes(const std::string& oid)
{
  ceph_assert(ceph_mutex_is_locked(m_lock));
  std::queue<write_result_d*>& results = m_writes[oid];
  ldout(m_ictx->cct, 20) << "complete_writes() oid " << oid << dendl;
  std::list<write_result_d*> finished;

  while (!results.empty()) {
    write_result_d *result = results.front();
    if (!result->done)
      break;
    finished.push_back(result);
    results.pop();
  }

  if (results.empty())
    m_writes.erase(oid);

  for (std::list<write_result_d*>::iterator it = finished.begin();
       it != finished.end(); ++it) {
    write_result_d *result = *it;
    ldout(m_ictx->cct, 20) << "complete_writes() completing " << result
                           << dendl;
    result->oncommit->complete(result->ret);
    delete result;
  }
}

} // namespace cache
} // namespace librbd