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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#include "librbd/io/CopyupRequest.h"
#include "common/ceph_context.h"
#include "common/dout.h"
#include "common/errno.h"
#include "common/Mutex.h"
#include "common/WorkQueue.h"
#include "librbd/AsyncObjectThrottle.h"
#include "librbd/ExclusiveLock.h"
#include "librbd/ImageCtx.h"
#include "librbd/ObjectMap.h"
#include "librbd/Utils.h"
#include "librbd/deep_copy/ObjectCopyRequest.h"
#include "librbd/io/AioCompletion.h"
#include "librbd/io/ImageRequest.h"
#include "librbd/io/ObjectRequest.h"
#include "librbd/io/ReadResult.h"
#include <boost/bind.hpp>
#include <boost/lambda/bind.hpp>
#include <boost/lambda/construct.hpp>
#define dout_subsys ceph_subsys_rbd
#undef dout_prefix
#define dout_prefix *_dout << "librbd::io::CopyupRequest: " << this \
<< " " << __func__ << ": "
namespace librbd {
namespace io {
namespace {
template <typename I>
class C_UpdateObjectMap : public C_AsyncObjectThrottle<I> {
public:
C_UpdateObjectMap(AsyncObjectThrottle<I> &throttle, I *image_ctx,
uint64_t object_no, uint8_t head_object_map_state,
const std::vector<uint64_t> *snap_ids,
bool first_snap_is_clean, const ZTracer::Trace &trace,
size_t snap_id_idx)
: C_AsyncObjectThrottle<I>(throttle, *image_ctx), m_object_no(object_no),
m_head_object_map_state(head_object_map_state), m_snap_ids(*snap_ids),
m_first_snap_is_clean(first_snap_is_clean), m_trace(trace),
m_snap_id_idx(snap_id_idx)
{
}
int send() override {
auto& image_ctx = this->m_image_ctx;
ceph_assert(image_ctx.owner_lock.is_locked());
if (image_ctx.exclusive_lock == nullptr) {
return 1;
}
ceph_assert(image_ctx.exclusive_lock->is_lock_owner());
RWLock::RLocker snap_locker(image_ctx.snap_lock);
if (image_ctx.object_map == nullptr) {
return 1;
}
uint64_t snap_id = m_snap_ids[m_snap_id_idx];
if (snap_id == CEPH_NOSNAP) {
return update_head();
} else {
return update_snapshot(snap_id);
}
}
int update_head() {
auto& image_ctx = this->m_image_ctx;
RWLock::WLocker object_map_locker(image_ctx.object_map_lock);
bool sent = image_ctx.object_map->template aio_update<Context>(
CEPH_NOSNAP, m_object_no, m_head_object_map_state, {}, m_trace, false,
this);
return (sent ? 0 : 1);
}
int update_snapshot(uint64_t snap_id) {
auto& image_ctx = this->m_image_ctx;
uint8_t state = OBJECT_EXISTS;
if (image_ctx.test_features(RBD_FEATURE_FAST_DIFF, image_ctx.snap_lock) &&
(m_snap_id_idx > 0 || m_first_snap_is_clean)) {
// first snapshot should be exists+dirty since it contains
// the copyup data -- later snapshots inherit the data.
state = OBJECT_EXISTS_CLEAN;
}
RWLock::RLocker object_map_locker(image_ctx.object_map_lock);
bool sent = image_ctx.object_map->template aio_update<Context>(
snap_id, m_object_no, state, {}, m_trace, true, this);
ceph_assert(sent);
return 0;
}
private:
uint64_t m_object_no;
uint8_t m_head_object_map_state;
const std::vector<uint64_t> &m_snap_ids;
bool m_first_snap_is_clean;
const ZTracer::Trace &m_trace;
size_t m_snap_id_idx;
};
} // anonymous namespace
template <typename I>
CopyupRequest<I>::CopyupRequest(I *ictx, const std::string &oid,
uint64_t objectno, Extents &&image_extents,
const ZTracer::Trace &parent_trace)
: m_image_ctx(ictx), m_oid(oid), m_object_no(objectno),
m_image_extents(image_extents),
m_trace(util::create_trace(*m_image_ctx, "copy-up", parent_trace)),
m_lock("CopyupRequest", false, false)
{
ceph_assert(m_image_ctx->data_ctx.is_valid());
m_async_op.start_op(*util::get_image_ctx(m_image_ctx));
}
template <typename I>
CopyupRequest<I>::~CopyupRequest() {
ceph_assert(m_pending_requests.empty());
m_async_op.finish_op();
}
template <typename I>
void CopyupRequest<I>::append_request(AbstractObjectWriteRequest<I> *req) {
Mutex::Locker locker(m_lock);
auto cct = m_image_ctx->cct;
ldout(cct, 20) << "oid=" << m_oid << ", "
<< "object_request=" << req << ", "
<< "append=" << m_append_request_permitted << dendl;
if (m_append_request_permitted) {
m_pending_requests.push_back(req);
} else {
m_restart_requests.push_back(req);
}
}
template <typename I>
void CopyupRequest<I>::send() {
read_from_parent();
}
template <typename I>
void CopyupRequest<I>::read_from_parent() {
auto cct = m_image_ctx->cct;
RWLock::RLocker snap_locker(m_image_ctx->snap_lock);
RWLock::RLocker parent_locker(m_image_ctx->parent_lock);
if (m_image_ctx->parent == nullptr) {
ldout(cct, 5) << "parent detached" << dendl;
m_image_ctx->op_work_queue->queue(
util::create_context_callback<
CopyupRequest<I>, &CopyupRequest<I>::handle_read_from_parent>(this),
-ENOENT);
return;
} else if (is_deep_copy()) {
deep_copy();
return;
}
auto comp = AioCompletion::create_and_start<
CopyupRequest<I>,
&CopyupRequest<I>::handle_read_from_parent>(
this, util::get_image_ctx(m_image_ctx->parent), AIO_TYPE_READ);
ldout(cct, 20) << "oid=" << m_oid << ", "
<< "completion=" << comp << ", "
<< "extents=" << m_image_extents
<< dendl;
ImageRequest<I>::aio_read(m_image_ctx->parent, comp,
std::move(m_image_extents),
ReadResult{&m_copyup_data}, 0, m_trace);
}
template <typename I>
void CopyupRequest<I>::handle_read_from_parent(int r) {
auto cct = m_image_ctx->cct;
ldout(cct, 20) << "oid=" << m_oid << ", r=" << r << dendl;
m_image_ctx->snap_lock.get_read();
m_lock.Lock();
m_copyup_is_zero = m_copyup_data.is_zero();
m_copyup_required = is_copyup_required();
disable_append_requests();
if (r < 0 && r != -ENOENT) {
m_lock.Unlock();
m_image_ctx->snap_lock.put_read();
lderr(cct) << "error reading from parent: " << cpp_strerror(r) << dendl;
finish(r);
return;
}
if (!m_copyup_required) {
m_lock.Unlock();
m_image_ctx->snap_lock.put_read();
ldout(cct, 20) << "no-op, skipping" << dendl;
finish(0);
return;
}
// copyup() will affect snapshots only if parent data is not all
// zeros.
if (!m_copyup_is_zero) {
m_snap_ids.insert(m_snap_ids.end(), m_image_ctx->snaps.rbegin(),
m_image_ctx->snaps.rend());
}
m_lock.Unlock();
m_image_ctx->snap_lock.put_read();
update_object_maps();
}
template <typename I>
void CopyupRequest<I>::deep_copy() {
auto cct = m_image_ctx->cct;
ceph_assert(m_image_ctx->snap_lock.is_locked());
ceph_assert(m_image_ctx->parent_lock.is_locked());
ceph_assert(m_image_ctx->parent != nullptr);
m_lock.Lock();
m_flatten = is_copyup_required() ? true : m_image_ctx->migration_info.flatten;
m_lock.Unlock();
ldout(cct, 20) << "oid=" << m_oid << ", flatten=" << m_flatten << dendl;
auto ctx = util::create_context_callback<
CopyupRequest<I>, &CopyupRequest<I>::handle_deep_copy>(this);
auto req = deep_copy::ObjectCopyRequest<I>::create(
m_image_ctx->parent, m_image_ctx, 0, 0,
m_image_ctx->migration_info.snap_map, m_object_no, m_flatten, ctx);
req->send();
}
template <typename I>
void CopyupRequest<I>::handle_deep_copy(int r) {
auto cct = m_image_ctx->cct;
ldout(cct, 20) << "oid=" << m_oid << ", r=" << r << dendl;
m_image_ctx->snap_lock.get_read();
m_lock.Lock();
m_copyup_required = is_copyup_required();
if (r == -ENOENT && !m_flatten && m_copyup_required) {
m_lock.Unlock();
m_image_ctx->snap_lock.put_read();
ldout(cct, 10) << "restart deep-copy with flatten" << dendl;
send();
return;
}
disable_append_requests();
if (r < 0 && r != -ENOENT) {
m_lock.Unlock();
m_image_ctx->snap_lock.put_read();
lderr(cct) << "error encountered during deep-copy: " << cpp_strerror(r)
<< dendl;
finish(r);
return;
}
if (!m_copyup_required && !is_update_object_map_required(r)) {
m_lock.Unlock();
m_image_ctx->snap_lock.put_read();
if (r == -ENOENT) {
r = 0;
}
ldout(cct, 20) << "skipping" << dendl;
finish(r);
return;
}
// For deep-copy, copyup() will never affect snapshots. However,
// this state machine is responsible for updating object maps for
// snapshots that have been created on destination image after
// migration started.
if (r != -ENOENT) {
compute_deep_copy_snap_ids();
}
m_lock.Unlock();
m_image_ctx->snap_lock.put_read();
update_object_maps();
}
template <typename I>
void CopyupRequest<I>::update_object_maps() {
RWLock::RLocker owner_locker(m_image_ctx->owner_lock);
RWLock::RLocker snap_locker(m_image_ctx->snap_lock);
if (m_image_ctx->object_map == nullptr) {
snap_locker.unlock();
owner_locker.unlock();
copyup();
return;
}
auto cct = m_image_ctx->cct;
ldout(cct, 20) << "oid=" << m_oid << dendl;
bool copy_on_read = m_pending_requests.empty();
uint8_t head_object_map_state = OBJECT_EXISTS;
if (copy_on_read && !m_snap_ids.empty() &&
m_image_ctx->test_features(RBD_FEATURE_FAST_DIFF,
m_image_ctx->snap_lock)) {
// HEAD is non-dirty since data is tied to first snapshot
head_object_map_state = OBJECT_EXISTS_CLEAN;
}
auto r_it = m_pending_requests.rbegin();
if (r_it != m_pending_requests.rend()) {
// last write-op determines the final object map state
head_object_map_state = (*r_it)->get_pre_write_object_map_state();
}
RWLock::WLocker object_map_locker(m_image_ctx->object_map_lock);
if ((*m_image_ctx->object_map)[m_object_no] != head_object_map_state) {
// (maybe) need to update the HEAD object map state
m_snap_ids.push_back(CEPH_NOSNAP);
}
object_map_locker.unlock();
snap_locker.unlock();
ceph_assert(m_image_ctx->exclusive_lock->is_lock_owner());
typename AsyncObjectThrottle<I>::ContextFactory context_factory(
boost::lambda::bind(boost::lambda::new_ptr<C_UpdateObjectMap<I>>(),
boost::lambda::_1, m_image_ctx, m_object_no, head_object_map_state,
&m_snap_ids, m_first_snap_is_clean, m_trace, boost::lambda::_2));
auto ctx = util::create_context_callback<
CopyupRequest<I>, &CopyupRequest<I>::handle_update_object_maps>(this);
auto throttle = new AsyncObjectThrottle<I>(
nullptr, *m_image_ctx, context_factory, ctx, nullptr, 0, m_snap_ids.size());
throttle->start_ops(
m_image_ctx->config.template get_val<uint64_t>("rbd_concurrent_management_ops"));
}
template <typename I>
void CopyupRequest<I>::handle_update_object_maps(int r) {
auto cct = m_image_ctx->cct;
ldout(cct, 20) << "oid=" << m_oid << ", r=" << r << dendl;
if (r < 0) {
lderr(m_image_ctx->cct) << "failed to update object map: "
<< cpp_strerror(r) << dendl;
finish(r);
return;
}
copyup();
}
template <typename I>
void CopyupRequest<I>::copyup() {
auto cct = m_image_ctx->cct;
m_image_ctx->snap_lock.get_read();
auto snapc = m_image_ctx->snapc;
m_image_ctx->snap_lock.put_read();
m_lock.Lock();
if (!m_copyup_required) {
m_lock.Unlock();
ldout(cct, 20) << "skipping copyup" << dendl;
finish(0);
return;
}
ldout(cct, 20) << "oid=" << m_oid << dendl;
bool copy_on_read = m_pending_requests.empty();
bool deep_copyup = !snapc.snaps.empty() && !m_copyup_is_zero;
if (m_copyup_is_zero) {
m_copyup_data.clear();
}
int r;
librados::ObjectWriteOperation copyup_op;
if (copy_on_read || deep_copyup) {
copyup_op.exec("rbd", "copyup", m_copyup_data);
ObjectRequest<I>::add_write_hint(*m_image_ctx, ©up_op);
++m_pending_copyups;
}
librados::ObjectWriteOperation write_op;
if (!copy_on_read) {
if (!deep_copyup) {
write_op.exec("rbd", "copyup", m_copyup_data);
ObjectRequest<I>::add_write_hint(*m_image_ctx, &write_op);
}
// merge all pending write ops into this single RADOS op
for (auto req : m_pending_requests) {
ldout(cct, 20) << "add_copyup_ops " << req << dendl;
req->add_copyup_ops(&write_op);
}
if (write_op.size() > 0) {
++m_pending_copyups;
}
}
m_lock.Unlock();
// issue librados ops at the end to simplify test cases
std::vector<librados::snap_t> snaps;
if (copyup_op.size() > 0) {
// send only the copyup request with a blank snapshot context so that
// all snapshots are detected from the parent for this object. If
// this is a CoW request, a second request will be created for the
// actual modification.
ldout(cct, 20) << "copyup with empty snapshot context" << dendl;
auto comp = util::create_rados_callback<
CopyupRequest<I>, &CopyupRequest<I>::handle_copyup>(this);
r = m_image_ctx->data_ctx.aio_operate(
m_oid, comp, ©up_op, 0, snaps,
(m_trace.valid() ? m_trace.get_info() : nullptr));
ceph_assert(r == 0);
comp->release();
}
if (write_op.size() > 0) {
// compare-and-write doesn't add any write ops (copyup+cmpext+write
// can't be executed in the same RADOS op because, unless the object
// was already present in the clone, cmpext wouldn't see it)
ldout(cct, 20) << (!deep_copyup && write_op.size() > 2 ?
"copyup + ops" : !deep_copyup ? "copyup" : "ops")
<< " with current snapshot context" << dendl;
snaps.insert(snaps.end(), snapc.snaps.begin(), snapc.snaps.end());
auto comp = util::create_rados_callback<
CopyupRequest<I>, &CopyupRequest<I>::handle_copyup>(this);
r = m_image_ctx->data_ctx.aio_operate(
m_oid, comp, &write_op, snapc.seq, snaps,
(m_trace.valid() ? m_trace.get_info() : nullptr));
ceph_assert(r == 0);
comp->release();
}
}
template <typename I>
void CopyupRequest<I>::handle_copyup(int r) {
auto cct = m_image_ctx->cct;
unsigned pending_copyups;
{
Mutex::Locker locker(m_lock);
ceph_assert(m_pending_copyups > 0);
pending_copyups = --m_pending_copyups;
}
ldout(cct, 20) << "oid=" << m_oid << ", " << "r=" << r << ", "
<< "pending=" << pending_copyups << dendl;
if (r < 0 && r != -ENOENT) {
lderr(cct) << "failed to copyup object: " << cpp_strerror(r) << dendl;
complete_requests(false, r);
}
if (pending_copyups == 0) {
finish(0);
}
}
template <typename I>
void CopyupRequest<I>::finish(int r) {
auto cct = m_image_ctx->cct;
ldout(cct, 20) << "oid=" << m_oid << ", r=" << r << dendl;
complete_requests(true, r);
delete this;
}
template <typename I>
void CopyupRequest<I>::complete_requests(bool override_restart_retval, int r) {
auto cct = m_image_ctx->cct;
remove_from_list();
while (!m_pending_requests.empty()) {
auto it = m_pending_requests.begin();
auto req = *it;
ldout(cct, 20) << "completing request " << req << dendl;
req->handle_copyup(r);
m_pending_requests.erase(it);
}
if (override_restart_retval) {
r = -ERESTART;
}
while (!m_restart_requests.empty()) {
auto it = m_restart_requests.begin();
auto req = *it;
ldout(cct, 20) << "restarting request " << req << dendl;
req->handle_copyup(r);
m_restart_requests.erase(it);
}
}
template <typename I>
void CopyupRequest<I>::disable_append_requests() {
ceph_assert(m_lock.is_locked());
m_append_request_permitted = false;
}
template <typename I>
void CopyupRequest<I>::remove_from_list() {
Mutex::Locker copyup_list_locker(m_image_ctx->copyup_list_lock);
auto it = m_image_ctx->copyup_list.find(m_object_no);
if (it != m_image_ctx->copyup_list.end()) {
m_image_ctx->copyup_list.erase(it);
}
}
template <typename I>
bool CopyupRequest<I>::is_copyup_required() {
ceph_assert(m_lock.is_locked());
bool copy_on_read = m_pending_requests.empty();
if (copy_on_read) {
// always force a copyup if CoR enabled
return true;
}
if (!m_copyup_is_zero) {
return true;
}
for (auto req : m_pending_requests) {
if (!req->is_empty_write_op()) {
return true;
}
}
return false;
}
template <typename I>
bool CopyupRequest<I>::is_deep_copy() const {
ceph_assert(m_image_ctx->snap_lock.is_locked());
return !m_image_ctx->migration_info.empty();
}
template <typename I>
bool CopyupRequest<I>::is_update_object_map_required(int r) {
ceph_assert(m_image_ctx->snap_lock.is_locked());
if (r < 0) {
return false;
}
if (m_image_ctx->object_map == nullptr) {
return false;
}
if (m_image_ctx->migration_info.empty()) {
// migration might have completed while IO was in-flight,
// assume worst-case and perform an object map update
return true;
}
auto it = m_image_ctx->migration_info.snap_map.find(CEPH_NOSNAP);
ceph_assert(it != m_image_ctx->migration_info.snap_map.end());
return it->second[0] != CEPH_NOSNAP;
}
template <typename I>
void CopyupRequest<I>::compute_deep_copy_snap_ids() {
ceph_assert(m_image_ctx->snap_lock.is_locked());
// don't copy ids for the snaps updated by object deep copy or
// that don't overlap
std::set<uint64_t> deep_copied;
for (auto &it : m_image_ctx->migration_info.snap_map) {
if (it.first != CEPH_NOSNAP) {
deep_copied.insert(it.second.front());
}
}
RWLock::RLocker parent_locker(m_image_ctx->parent_lock);
std::copy_if(m_image_ctx->snaps.rbegin(), m_image_ctx->snaps.rend(),
std::back_inserter(m_snap_ids),
[this, cct=m_image_ctx->cct, &deep_copied](uint64_t snap_id) {
if (deep_copied.count(snap_id)) {
m_first_snap_is_clean = true;
return false;
}
uint64_t parent_overlap = 0;
int r = m_image_ctx->get_parent_overlap(snap_id, &parent_overlap);
if (r < 0) {
ldout(cct, 5) << "failed getting parent overlap for snap_id: "
<< snap_id << ": " << cpp_strerror(r) << dendl;
}
if (parent_overlap == 0) {
return false;
}
std::vector<std::pair<uint64_t, uint64_t>> extents;
Striper::extent_to_file(cct, &m_image_ctx->layout,
m_object_no, 0,
m_image_ctx->layout.object_size,
extents);
auto overlap = m_image_ctx->prune_parent_extents(
extents, parent_overlap);
return overlap > 0;
});
}
} // namespace io
} // namespace librbd
template class librbd::io::CopyupRequest<librbd::ImageCtx>;
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