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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#pragma once
#include <memory>
#include <type_traits>
#include <utility>
#include <boost/intrusive_ptr.hpp>
#include <boost/smart_ptr/intrusive_ref_counter.hpp>
#include <fmt/os.h>
#include <seastar/core/chunked_fifo.hh>
#include <seastar/core/future.hh>
#include <seastar/core/shared_future.hh>
#include <seastar/core/shared_ptr.hh>
#include "common/dout.h"
#include "common/map_cacher.hpp"
#include "common/static_ptr.h"
#include "messages/MOSDOp.h"
#include "os/Transaction.h"
#include "osd/osd_types.h"
#include "crimson/common/errorator.h"
#include "crimson/common/interruptible_future.h"
#include "crimson/common/type_helpers.h"
#include "crimson/osd/osd_operations/client_request.h"
#include "crimson/osd/osd_operations/peering_event.h"
#include "crimson/osd/pg_backend.h"
#include "crimson/osd/pg_interval_interrupt_condition.h"
#include "crimson/osd/shard_services.h"
struct ObjectState;
struct OSDOp;
class OSDriver;
class SnapMapper;
namespace crimson::osd {
class PG;
// OpsExecuter -- a class for executing ops targeting a certain object.
class OpsExecuter : public seastar::enable_lw_shared_from_this<OpsExecuter> {
friend class SnapTrimObjSubEvent;
using call_errorator = crimson::errorator<
crimson::stateful_ec,
crimson::ct_error::enoent,
crimson::ct_error::eexist,
crimson::ct_error::enospc,
crimson::ct_error::edquot,
crimson::ct_error::cmp_fail,
crimson::ct_error::eagain,
crimson::ct_error::invarg,
crimson::ct_error::erange,
crimson::ct_error::ecanceled,
crimson::ct_error::enametoolong,
crimson::ct_error::permission_denied,
crimson::ct_error::operation_not_supported,
crimson::ct_error::input_output_error,
crimson::ct_error::value_too_large,
crimson::ct_error::file_too_large>;
using read_errorator = PGBackend::read_errorator;
using write_ertr = PGBackend::write_ertr;
using get_attr_errorator = PGBackend::get_attr_errorator;
using watch_errorator = crimson::errorator<
crimson::ct_error::enoent,
crimson::ct_error::invarg,
crimson::ct_error::not_connected,
crimson::ct_error::timed_out>;
using call_ierrorator =
::crimson::interruptible::interruptible_errorator<
IOInterruptCondition, call_errorator>;
using read_ierrorator =
::crimson::interruptible::interruptible_errorator<
IOInterruptCondition, read_errorator>;
using write_iertr =
::crimson::interruptible::interruptible_errorator<
IOInterruptCondition, write_ertr>;
using get_attr_ierrorator =
::crimson::interruptible::interruptible_errorator<
IOInterruptCondition, get_attr_errorator>;
using watch_ierrorator =
::crimson::interruptible::interruptible_errorator<
IOInterruptCondition, watch_errorator>;
template <typename Errorator, typename T = void>
using interruptible_errorated_future =
::crimson::interruptible::interruptible_errorated_future<
IOInterruptCondition, Errorator, T>;
using interruptor =
::crimson::interruptible::interruptor<IOInterruptCondition>;
template <typename T = void>
using interruptible_future =
::crimson::interruptible::interruptible_future<
IOInterruptCondition, T>;
public:
// ExecutableMessage -- an interface class to allow using OpsExecuter
// with other message types than just the `MOSDOp`. The type erasure
// happens in the ctor of `OpsExecuter`.
struct ExecutableMessage {
virtual osd_reqid_t get_reqid() const = 0;
virtual utime_t get_mtime() const = 0;
virtual epoch_t get_map_epoch() const = 0;
virtual entity_inst_t get_orig_source_inst() const = 0;
virtual uint64_t get_features() const = 0;
virtual bool has_flag(uint32_t flag) const = 0;
virtual entity_name_t get_source() const = 0;
};
template <class ImplT>
class ExecutableMessagePimpl final : ExecutableMessage {
const ImplT* pimpl;
// In crimson, conn is independently maintained outside Message.
const crimson::net::ConnectionRef conn;
public:
ExecutableMessagePimpl(const ImplT* pimpl,
const crimson::net::ConnectionRef conn)
: pimpl(pimpl), conn(conn) {
}
osd_reqid_t get_reqid() const final {
return pimpl->get_reqid();
}
bool has_flag(uint32_t flag) const final {
return pimpl->has_flag(flag);
}
utime_t get_mtime() const final {
return pimpl->get_mtime();
};
epoch_t get_map_epoch() const final {
return pimpl->get_map_epoch();
}
entity_inst_t get_orig_source_inst() const final {
// We can't get the origin source address from the message
// since (In Crimson) the connection is maintained
// outside of the Message.
return entity_inst_t(get_source(), conn->get_peer_addr());
}
entity_name_t get_source() const final {
return pimpl->get_source();
}
uint64_t get_features() const final {
return pimpl->get_features();
}
};
// because OpsExecuter is pretty heavy-weight object we want to ensure
// it's not copied nor even moved by accident. Performance is the sole
// reason for prohibiting that.
OpsExecuter(OpsExecuter&&) = delete;
OpsExecuter(const OpsExecuter&) = delete;
using osd_op_errorator = crimson::compound_errorator_t<
call_errorator,
read_errorator,
write_ertr,
get_attr_errorator,
watch_errorator,
PGBackend::stat_errorator>;
using osd_op_ierrorator =
::crimson::interruptible::interruptible_errorator<
IOInterruptCondition, osd_op_errorator>;
object_stat_sum_t delta_stats;
private:
// an operation can be divided into two stages: main and effect-exposing
// one. The former is performed immediately on call to `do_osd_op()` while
// the later on `submit_changes()` – after successfully processing main
// stages of all involved operations. When any stage fails, none of all
// scheduled effect-exposing stages will be executed.
// when operation requires this division, some variant of `with_effect()`
// should be used.
struct effect_t {
// an effect can affect PG, i.e. create a watch timeout
virtual osd_op_errorator::future<> execute(Ref<PG> pg) = 0;
virtual ~effect_t() = default;
};
Ref<PG> pg; // for the sake of object class
ObjectContextRef obc;
const OpInfo& op_info;
using abstracted_msg_t =
ceph::static_ptr<ExecutableMessage,
sizeof(ExecutableMessagePimpl<void>)>;
abstracted_msg_t msg;
crimson::net::ConnectionRef conn;
std::optional<osd_op_params_t> osd_op_params;
bool user_modify = false;
ceph::os::Transaction txn;
size_t num_read = 0; ///< count read ops
size_t num_write = 0; ///< count update ops
SnapContext snapc; // writer snap context
struct CloningContext {
SnapSet new_snapset;
pg_log_entry_t log_entry;
void apply_to(
std::vector<pg_log_entry_t>& log_entries,
ObjectContext& processed_obc) &&;
};
std::unique_ptr<CloningContext> cloning_ctx;
/**
* execute_clone
*
* If snapc contains a snap which occurred logically after the last write
* seen by this object (see OpsExecutor::should_clone()), we first need
* make a clone of the object at its current state. execute_clone primes
* txn with that clone operation and returns an
* OpsExecutor::CloningContext which will allow us to fill in the corresponding
* metadata and log_entries once the operations have been processed.
*
* Note that this strategy differs from classic, which instead performs this
* work at the end and reorders the transaction. See
* PrimaryLogPG::make_writeable
*
* @param snapc [in] snapc for this operation (from the client if from the
* client, from the pool otherwise)
* @param initial_obs [in] objectstate for the object at operation start
* @param initial_snapset [in] snapset for the object at operation start
* @param backend [in,out] interface for generating mutations
* @param txn [out] transaction for the operation
*/
std::unique_ptr<CloningContext> execute_clone(
const SnapContext& snapc,
const ObjectState& initial_obs,
const SnapSet& initial_snapset,
PGBackend& backend,
ceph::os::Transaction& txn);
/**
* should_clone
*
* Predicate returning whether a user write with snap context snapc
* contains a snap which occurred prior to the most recent write
* on the object reflected in initial_obc.
*
* @param initial_obc [in] obc for object to be mutated
* @param snapc [in] snapc for this operation (from the client if from the
* client, from the pool otherwise)
*/
static bool should_clone(
const ObjectContext& initial_obc,
const SnapContext& snapc) {
// clone?
return initial_obc.obs.exists // both nominally and...
&& !initial_obc.obs.oi.is_whiteout() // ... logically exists
&& snapc.snaps.size() // there are snaps
&& snapc.snaps[0] > initial_obc.ssc->snapset.seq; // existing obj is old
}
interruptible_future<std::vector<pg_log_entry_t>> flush_clone_metadata(
std::vector<pg_log_entry_t>&& log_entries,
SnapMapper& snap_mapper,
OSDriver& osdriver,
ceph::os::Transaction& txn);
static interruptible_future<> snap_map_remove(
const hobject_t& soid,
SnapMapper& snap_mapper,
OSDriver& osdriver,
ceph::os::Transaction& txn);
static interruptible_future<> snap_map_modify(
const hobject_t& soid,
const std::set<snapid_t>& snaps,
SnapMapper& snap_mapper,
OSDriver& osdriver,
ceph::os::Transaction& txn);
static interruptible_future<> snap_map_clone(
const hobject_t& soid,
const std::set<snapid_t>& snaps,
SnapMapper& snap_mapper,
OSDriver& osdriver,
ceph::os::Transaction& txn);
// this gizmo could be wrapped in std::optional for the sake of lazy
// initialization. we don't need it for ops that doesn't have effect
// TODO: verify the init overhead of chunked_fifo
seastar::chunked_fifo<std::unique_ptr<effect_t>> op_effects;
template <class Context, class MainFunc, class EffectFunc>
auto with_effect_on_obc(
Context&& ctx,
MainFunc&& main_func,
EffectFunc&& effect_func);
call_ierrorator::future<> do_op_call(OSDOp& osd_op);
watch_ierrorator::future<> do_op_watch(
OSDOp& osd_op,
ObjectState& os,
ceph::os::Transaction& txn);
watch_ierrorator::future<> do_op_watch_subop_watch(
OSDOp& osd_op,
ObjectState& os,
ceph::os::Transaction& txn);
watch_ierrorator::future<> do_op_watch_subop_reconnect(
OSDOp& osd_op,
ObjectState& os,
ceph::os::Transaction& txn);
watch_ierrorator::future<> do_op_watch_subop_unwatch(
OSDOp& osd_op,
ObjectState& os,
ceph::os::Transaction& txn);
watch_ierrorator::future<> do_op_watch_subop_ping(
OSDOp& osd_op,
ObjectState& os,
ceph::os::Transaction& txn);
watch_ierrorator::future<> do_op_list_watchers(
OSDOp& osd_op,
const ObjectState& os);
watch_ierrorator::future<> do_op_notify(
OSDOp& osd_op,
const ObjectState& os);
watch_ierrorator::future<> do_op_notify_ack(
OSDOp& osd_op,
const ObjectState& os);
call_errorator::future<> do_assert_ver(
OSDOp& osd_op,
const ObjectState& os);
using list_snaps_ertr = read_errorator::extend<
crimson::ct_error::invarg>;
using list_snaps_iertr = ::crimson::interruptible::interruptible_errorator<
::crimson::osd::IOInterruptCondition,
list_snaps_ertr>;
list_snaps_iertr::future<> do_list_snaps(
OSDOp& osd_op,
const ObjectState& os,
const SnapSet& ss);
template <class Func>
auto do_const_op(Func&& f);
template <class Func>
auto do_read_op(Func&& f) {
++num_read;
// TODO: pass backend as read-only
return do_const_op(std::forward<Func>(f));
}
template <class Func>
auto do_snapset_op(Func&& f) {
++num_read;
return std::invoke(
std::forward<Func>(f),
std::as_const(obc->obs),
std::as_const(obc->ssc->snapset));
}
enum class modified_by {
user,
sys,
};
template <class Func>
auto do_write_op(Func&& f, modified_by m = modified_by::user);
decltype(auto) dont_do_legacy_op() {
return crimson::ct_error::operation_not_supported::make();
}
interruptible_errorated_future<osd_op_errorator>
do_execute_op(OSDOp& osd_op);
OpsExecuter(Ref<PG> pg,
ObjectContextRef obc,
const OpInfo& op_info,
abstracted_msg_t&& msg,
crimson::net::ConnectionRef conn,
const SnapContext& snapc);
public:
template <class MsgT>
OpsExecuter(Ref<PG> pg,
ObjectContextRef obc,
const OpInfo& op_info,
const MsgT& msg,
crimson::net::ConnectionRef conn,
const SnapContext& snapc)
: OpsExecuter(
std::move(pg),
std::move(obc),
op_info,
abstracted_msg_t{
std::in_place_type_t<ExecutableMessagePimpl<MsgT>>{},
&msg,
conn},
conn,
snapc) {
}
template <class Func>
struct RollbackHelper;
template <class Func>
RollbackHelper<Func> create_rollbacker(Func&& func);
interruptible_errorated_future<osd_op_errorator>
execute_op(OSDOp& osd_op);
using rep_op_fut_tuple =
std::tuple<interruptible_future<>, osd_op_ierrorator::future<>>;
using rep_op_fut_t =
interruptible_future<rep_op_fut_tuple>;
template <typename MutFunc>
rep_op_fut_t flush_changes_n_do_ops_effects(
const std::vector<OSDOp>& ops,
SnapMapper& snap_mapper,
OSDriver& osdriver,
MutFunc&& mut_func) &&;
std::vector<pg_log_entry_t> prepare_transaction(
const std::vector<OSDOp>& ops);
void fill_op_params_bump_pg_version();
ObjectContextRef get_obc() const {
return obc;
}
const object_info_t &get_object_info() const {
return obc->obs.oi;
}
const hobject_t &get_target() const {
return get_object_info().soid;
}
const auto& get_message() const {
return *msg;
}
size_t get_processed_rw_ops_num() const {
return num_read + num_write;
}
uint32_t get_pool_stripe_width() const;
bool has_seen_write() const {
return num_write > 0;
}
object_stat_sum_t& get_stats(){
return delta_stats;
}
version_t get_last_user_version() const;
std::pair<object_info_t, ObjectContextRef> prepare_clone(
const hobject_t& coid);
void apply_stats();
};
template <class Context, class MainFunc, class EffectFunc>
auto OpsExecuter::with_effect_on_obc(
Context&& ctx,
MainFunc&& main_func,
EffectFunc&& effect_func)
{
using context_t = std::decay_t<Context>;
// the language offers implicit conversion to pointer-to-function for
// lambda only when it's closureless. We enforce this restriction due
// the fact that `flush_changes()` std::moves many executer's parts.
using allowed_effect_func_t =
seastar::future<> (*)(context_t&&, ObjectContextRef, Ref<PG>);
static_assert(std::is_convertible_v<EffectFunc, allowed_effect_func_t>,
"with_effect function is not allowed to capture");
struct task_t final : effect_t {
context_t ctx;
EffectFunc effect_func;
ObjectContextRef obc;
task_t(Context&& ctx, EffectFunc&& effect_func, ObjectContextRef obc)
: ctx(std::move(ctx)),
effect_func(std::move(effect_func)),
obc(std::move(obc)) {
}
osd_op_errorator::future<> execute(Ref<PG> pg) final {
return std::move(effect_func)(std::move(ctx),
std::move(obc),
std::move(pg));
}
};
auto task =
std::make_unique<task_t>(std::move(ctx), std::move(effect_func), obc);
auto& ctx_ref = task->ctx;
op_effects.emplace_back(std::move(task));
return std::forward<MainFunc>(main_func)(ctx_ref);
}
template <typename MutFunc>
OpsExecuter::rep_op_fut_t
OpsExecuter::flush_changes_n_do_ops_effects(
const std::vector<OSDOp>& ops,
SnapMapper& snap_mapper,
OSDriver& osdriver,
MutFunc&& mut_func) &&
{
const bool want_mutate = !txn.empty();
// osd_op_params are instantiated by every wr-like operation.
assert(osd_op_params || !want_mutate);
assert(obc);
rep_op_fut_t maybe_mutated =
interruptor::make_ready_future<rep_op_fut_tuple>(
seastar::now(),
interruptor::make_interruptible(osd_op_errorator::now()));
if (cloning_ctx) {
ceph_assert(want_mutate);
}
if (want_mutate) {
if (user_modify) {
osd_op_params->user_at_version = osd_op_params->at_version.version;
}
maybe_mutated = flush_clone_metadata(
prepare_transaction(ops),
snap_mapper,
osdriver,
txn
).then_interruptible([mut_func=std::move(mut_func),
this](auto&& log_entries) mutable {
auto [submitted, all_completed] =
std::forward<MutFunc>(mut_func)(std::move(txn),
std::move(obc),
std::move(*osd_op_params),
std::move(log_entries));
return interruptor::make_ready_future<rep_op_fut_tuple>(
std::move(submitted),
osd_op_ierrorator::future<>(std::move(all_completed)));
});
}
apply_stats();
if (__builtin_expect(op_effects.empty(), true)) {
return maybe_mutated;
} else {
return maybe_mutated.then_unpack_interruptible(
// need extra ref pg due to apply_stats() which can be executed after
// informing snap mapper
[this, pg=this->pg](auto&& submitted, auto&& all_completed) mutable {
return interruptor::make_ready_future<rep_op_fut_tuple>(
std::move(submitted),
all_completed.safe_then_interruptible([this, pg=std::move(pg)] {
// let's do the cleaning of `op_effects` in destructor
return interruptor::do_for_each(op_effects,
[pg=std::move(pg)](auto& op_effect) {
return op_effect->execute(pg);
});
}));
});
}
}
template <class Func>
struct OpsExecuter::RollbackHelper {
interruptible_future<> rollback_obc_if_modified(const std::error_code& e);
ObjectContextRef get_obc() const {
assert(ox);
return ox->obc;
}
seastar::lw_shared_ptr<OpsExecuter> ox;
Func func;
};
template <class Func>
inline OpsExecuter::RollbackHelper<Func>
OpsExecuter::create_rollbacker(Func&& func) {
return {shared_from_this(), std::forward<Func>(func)};
}
template <class Func>
OpsExecuter::interruptible_future<>
OpsExecuter::RollbackHelper<Func>::rollback_obc_if_modified(
const std::error_code& e)
{
// Oops, an operation had failed. do_osd_ops() altogether with
// OpsExecuter already dropped the ObjectStore::Transaction if
// there was any. However, this is not enough to completely
// rollback as we gave OpsExecuter the very single copy of `obc`
// we maintain and we did it for both reading and writing.
// Now all modifications must be reverted.
//
// Let's just reload from the store. Evicting from the shared
// LRU would be tricky as next MOSDOp (the one at `get_obc`
// phase) could actually already finished the lookup. Fortunately,
// this is supposed to live on cold paths, so performance is not
// a concern -- simplicity wins.
//
// The conditional's purpose is to efficiently handle hot errors
// which may appear as a result of e.g. CEPH_OSD_OP_CMPXATTR or
// CEPH_OSD_OP_OMAP_CMP. These are read-like ops and clients
// typically append them before any write. If OpsExecuter hasn't
// seen any modifying operation, `obc` is supposed to be kept
// unchanged.
assert(ox);
const auto need_rollback = ox->has_seen_write();
crimson::get_logger(ceph_subsys_osd).debug(
"{}: object {} got error {}, need_rollback={}",
__func__,
ox->obc->get_oid(),
e,
need_rollback);
return need_rollback ? func(*ox->obc) : interruptor::now();
}
// PgOpsExecuter -- a class for executing ops targeting a certain PG.
class PgOpsExecuter {
template <typename T = void>
using interruptible_future =
::crimson::interruptible::interruptible_future<
IOInterruptCondition, T>;
public:
PgOpsExecuter(const PG& pg, const MOSDOp& msg)
: pg(pg), nspace(msg.get_hobj().nspace) {
}
interruptible_future<> execute_op(OSDOp& osd_op);
private:
const PG& pg;
const std::string& nspace;
};
} // namespace crimson::osd
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