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|
// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#include <limits>
#include <sstream>
#include "rgw_rados.h"
#include "rgw_zone.h"
#include "rgw_bucket.h"
#include "rgw_reshard.h"
#include "cls/rgw/cls_rgw_client.h"
#include "cls/lock/cls_lock_client.h"
#include "common/errno.h"
#include "common/ceph_json.h"
#include "common/dout.h"
#include "services/svc_zone.h"
#include "services/svc_sys_obj.h"
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_rgw
const string reshard_oid_prefix = "reshard.";
const string reshard_lock_name = "reshard_process";
const string bucket_instance_lock_name = "bucket_instance_lock";
class BucketReshardShard {
RGWRados *store;
const RGWBucketInfo& bucket_info;
int num_shard;
RGWRados::BucketShard bs;
vector<rgw_cls_bi_entry> entries;
map<RGWObjCategory, rgw_bucket_category_stats> stats;
deque<librados::AioCompletion *>& aio_completions;
uint64_t max_aio_completions;
uint64_t reshard_shard_batch_size;
int wait_next_completion() {
librados::AioCompletion *c = aio_completions.front();
aio_completions.pop_front();
c->wait_for_safe();
int ret = c->get_return_value();
c->release();
if (ret < 0) {
derr << "ERROR: reshard rados operation failed: " << cpp_strerror(-ret) << dendl;
return ret;
}
return 0;
}
int get_completion(librados::AioCompletion **c) {
if (aio_completions.size() >= max_aio_completions) {
int ret = wait_next_completion();
if (ret < 0) {
return ret;
}
}
*c = librados::Rados::aio_create_completion(nullptr, nullptr, nullptr);
aio_completions.push_back(*c);
return 0;
}
public:
BucketReshardShard(RGWRados *_store, const RGWBucketInfo& _bucket_info,
int _num_shard,
deque<librados::AioCompletion *>& _completions) :
store(_store), bucket_info(_bucket_info), bs(store),
aio_completions(_completions)
{
num_shard = (bucket_info.num_shards > 0 ? _num_shard : -1);
bs.init(bucket_info.bucket, num_shard, nullptr /* no RGWBucketInfo */);
max_aio_completions =
store->ctx()->_conf.get_val<uint64_t>("rgw_reshard_max_aio");
reshard_shard_batch_size =
store->ctx()->_conf.get_val<uint64_t>("rgw_reshard_batch_size");
}
int get_num_shard() {
return num_shard;
}
int add_entry(rgw_cls_bi_entry& entry, bool account, RGWObjCategory category,
const rgw_bucket_category_stats& entry_stats) {
entries.push_back(entry);
if (account) {
rgw_bucket_category_stats& target = stats[category];
target.num_entries += entry_stats.num_entries;
target.total_size += entry_stats.total_size;
target.total_size_rounded += entry_stats.total_size_rounded;
target.actual_size += entry_stats.actual_size;
}
if (entries.size() >= reshard_shard_batch_size) {
int ret = flush();
if (ret < 0) {
return ret;
}
}
return 0;
}
int flush() {
if (entries.size() == 0) {
return 0;
}
librados::ObjectWriteOperation op;
for (auto& entry : entries) {
store->bi_put(op, bs, entry);
}
cls_rgw_bucket_update_stats(op, false, stats);
librados::AioCompletion *c;
int ret = get_completion(&c);
if (ret < 0) {
return ret;
}
ret = bs.index_ctx.aio_operate(bs.bucket_obj, c, &op);
if (ret < 0) {
derr << "ERROR: failed to store entries in target bucket shard (bs=" << bs.bucket << "/" << bs.shard_id << ") error=" << cpp_strerror(-ret) << dendl;
return ret;
}
entries.clear();
stats.clear();
return 0;
}
int wait_all_aio() {
int ret = 0;
while (!aio_completions.empty()) {
int r = wait_next_completion();
if (r < 0) {
ret = r;
}
}
return ret;
}
}; // class BucketReshardShard
class BucketReshardManager {
RGWRados *store;
const RGWBucketInfo& target_bucket_info;
deque<librados::AioCompletion *> completions;
int num_target_shards;
vector<BucketReshardShard *> target_shards;
public:
BucketReshardManager(RGWRados *_store,
const RGWBucketInfo& _target_bucket_info,
int _num_target_shards) :
store(_store), target_bucket_info(_target_bucket_info),
num_target_shards(_num_target_shards)
{
target_shards.resize(num_target_shards);
for (int i = 0; i < num_target_shards; ++i) {
target_shards[i] = new BucketReshardShard(store, target_bucket_info, i, completions);
}
}
~BucketReshardManager() {
for (auto& shard : target_shards) {
int ret = shard->wait_all_aio();
if (ret < 0) {
ldout(store->ctx(), 20) << __func__ <<
": shard->wait_all_aio() returned ret=" << ret << dendl;
}
}
}
int add_entry(int shard_index,
rgw_cls_bi_entry& entry, bool account, RGWObjCategory category,
const rgw_bucket_category_stats& entry_stats) {
int ret = target_shards[shard_index]->add_entry(entry, account, category,
entry_stats);
if (ret < 0) {
derr << "ERROR: target_shards.add_entry(" << entry.idx <<
") returned error: " << cpp_strerror(-ret) << dendl;
return ret;
}
return 0;
}
int finish() {
int ret = 0;
for (auto& shard : target_shards) {
int r = shard->flush();
if (r < 0) {
derr << "ERROR: target_shards[" << shard->get_num_shard() << "].flush() returned error: " << cpp_strerror(-r) << dendl;
ret = r;
}
}
for (auto& shard : target_shards) {
int r = shard->wait_all_aio();
if (r < 0) {
derr << "ERROR: target_shards[" << shard->get_num_shard() << "].wait_all_aio() returned error: " << cpp_strerror(-r) << dendl;
ret = r;
}
delete shard;
}
target_shards.clear();
return ret;
}
}; // class BucketReshardManager
RGWBucketReshard::RGWBucketReshard(RGWRados *_store,
const RGWBucketInfo& _bucket_info,
const map<string, bufferlist>& _bucket_attrs,
RGWBucketReshardLock* _outer_reshard_lock) :
store(_store), bucket_info(_bucket_info), bucket_attrs(_bucket_attrs),
reshard_lock(store, bucket_info, true),
outer_reshard_lock(_outer_reshard_lock)
{ }
int RGWBucketReshard::set_resharding_status(RGWRados* store,
const RGWBucketInfo& bucket_info,
const string& new_instance_id,
int32_t num_shards,
cls_rgw_reshard_status status)
{
if (new_instance_id.empty()) {
ldout(store->ctx(), 0) << __func__ << " missing new bucket instance id" << dendl;
return -EINVAL;
}
cls_rgw_bucket_instance_entry instance_entry;
instance_entry.set_status(new_instance_id, num_shards, status);
int ret = store->bucket_set_reshard(bucket_info, instance_entry);
if (ret < 0) {
ldout(store->ctx(), 0) << "RGWReshard::" << __func__ << " ERROR: error setting bucket resharding flag on bucket index: "
<< cpp_strerror(-ret) << dendl;
return ret;
}
return 0;
}
// reshard lock assumes lock is held
int RGWBucketReshard::clear_resharding(RGWRados* store,
const RGWBucketInfo& bucket_info)
{
int ret = clear_index_shard_reshard_status(store, bucket_info);
if (ret < 0) {
ldout(store->ctx(), 0) << "RGWBucketReshard::" << __func__ <<
" ERROR: error clearing reshard status from index shard " <<
cpp_strerror(-ret) << dendl;
return ret;
}
cls_rgw_bucket_instance_entry instance_entry;
ret = store->bucket_set_reshard(bucket_info, instance_entry);
if (ret < 0) {
ldout(store->ctx(), 0) << "RGWReshard::" << __func__ <<
" ERROR: error setting bucket resharding flag on bucket index: " <<
cpp_strerror(-ret) << dendl;
return ret;
}
return 0;
}
int RGWBucketReshard::clear_index_shard_reshard_status(RGWRados* store,
const RGWBucketInfo& bucket_info)
{
uint32_t num_shards = bucket_info.num_shards;
if (num_shards < std::numeric_limits<uint32_t>::max()) {
int ret = set_resharding_status(store, bucket_info,
bucket_info.bucket.bucket_id,
(num_shards < 1 ? 1 : num_shards),
CLS_RGW_RESHARD_NOT_RESHARDING);
if (ret < 0) {
ldout(store->ctx(), 0) << "RGWBucketReshard::" << __func__ <<
" ERROR: error clearing reshard status from index shard " <<
cpp_strerror(-ret) << dendl;
return ret;
}
}
return 0;
}
static int create_new_bucket_instance(RGWRados *store,
int new_num_shards,
const RGWBucketInfo& bucket_info,
map<string, bufferlist>& attrs,
RGWBucketInfo& new_bucket_info)
{
new_bucket_info = bucket_info;
store->create_bucket_id(&new_bucket_info.bucket.bucket_id);
new_bucket_info.bucket.oid.clear();
new_bucket_info.num_shards = new_num_shards;
new_bucket_info.objv_tracker.clear();
new_bucket_info.new_bucket_instance_id.clear();
new_bucket_info.reshard_status = 0;
int ret = store->init_bucket_index(new_bucket_info, new_bucket_info.num_shards);
if (ret < 0) {
cerr << "ERROR: failed to init new bucket indexes: " << cpp_strerror(-ret) << std::endl;
return ret;
}
ret = store->put_bucket_instance_info(new_bucket_info, true, real_time(), &attrs);
if (ret < 0) {
cerr << "ERROR: failed to store new bucket instance info: " << cpp_strerror(-ret) << std::endl;
return ret;
}
return 0;
}
int RGWBucketReshard::create_new_bucket_instance(int new_num_shards,
RGWBucketInfo& new_bucket_info)
{
return ::create_new_bucket_instance(store, new_num_shards,
bucket_info, bucket_attrs, new_bucket_info);
}
int RGWBucketReshard::cancel()
{
int ret = reshard_lock.lock();
if (ret < 0) {
return ret;
}
ret = clear_resharding();
reshard_lock.unlock();
return ret;
}
class BucketInfoReshardUpdate
{
RGWRados *store;
RGWBucketInfo& bucket_info;
std::map<string, bufferlist> bucket_attrs;
bool in_progress{false};
int set_status(cls_rgw_reshard_status s) {
bucket_info.reshard_status = s;
int ret = store->put_bucket_instance_info(bucket_info, false, real_time(), &bucket_attrs);
if (ret < 0) {
ldout(store->ctx(), 0) << "ERROR: failed to write bucket info, ret=" << ret << dendl;
return ret;
}
return 0;
}
public:
BucketInfoReshardUpdate(RGWRados *_store,
RGWBucketInfo& _bucket_info,
map<string, bufferlist>& _bucket_attrs,
const string& new_bucket_id) :
store(_store),
bucket_info(_bucket_info),
bucket_attrs(_bucket_attrs)
{
bucket_info.new_bucket_instance_id = new_bucket_id;
}
~BucketInfoReshardUpdate() {
if (in_progress) {
// resharding must not have ended correctly, clean up
int ret =
RGWBucketReshard::clear_index_shard_reshard_status(store, bucket_info);
if (ret < 0) {
lderr(store->ctx()) << "Error: " << __func__ <<
" clear_index_shard_status returned " << ret << dendl;
}
bucket_info.new_bucket_instance_id.clear();
set_status(CLS_RGW_RESHARD_NOT_RESHARDING); // clears new_bucket_instance as well
}
}
int start() {
int ret = set_status(CLS_RGW_RESHARD_IN_PROGRESS);
if (ret < 0) {
return ret;
}
in_progress = true;
return 0;
}
int complete() {
int ret = set_status(CLS_RGW_RESHARD_DONE);
if (ret < 0) {
return ret;
}
in_progress = false;
return 0;
}
};
RGWBucketReshardLock::RGWBucketReshardLock(RGWRados* _store,
const std::string& reshard_lock_oid,
bool _ephemeral) :
store(_store),
lock_oid(reshard_lock_oid),
ephemeral(_ephemeral),
internal_lock(reshard_lock_name)
{
const int lock_dur_secs = store->ctx()->_conf.get_val<uint64_t>(
"rgw_reshard_bucket_lock_duration");
duration = std::chrono::seconds(lock_dur_secs);
#define COOKIE_LEN 16
char cookie_buf[COOKIE_LEN + 1];
gen_rand_alphanumeric(store->ctx(), cookie_buf, sizeof(cookie_buf) - 1);
cookie_buf[COOKIE_LEN] = '\0';
internal_lock.set_cookie(cookie_buf);
internal_lock.set_duration(duration);
}
int RGWBucketReshardLock::lock() {
internal_lock.set_must_renew(false);
int ret;
if (ephemeral) {
ret = internal_lock.lock_exclusive_ephemeral(&store->reshard_pool_ctx,
lock_oid);
} else {
ret = internal_lock.lock_exclusive(&store->reshard_pool_ctx, lock_oid);
}
if (ret < 0) {
ldout(store->ctx(), 0) << "RGWReshardLock::" << __func__ <<
" failed to acquire lock on " << lock_oid << " ret=" << ret << dendl;
return ret;
}
reset_time(Clock::now());
return 0;
}
void RGWBucketReshardLock::unlock() {
int ret = internal_lock.unlock(&store->reshard_pool_ctx, lock_oid);
if (ret < 0) {
ldout(store->ctx(), 0) << "WARNING: RGWBucketReshardLock::" << __func__ <<
" failed to drop lock on " << lock_oid << " ret=" << ret << dendl;
}
}
int RGWBucketReshardLock::renew(const Clock::time_point& now) {
internal_lock.set_must_renew(true);
int ret;
if (ephemeral) {
ret = internal_lock.lock_exclusive_ephemeral(&store->reshard_pool_ctx,
lock_oid);
} else {
ret = internal_lock.lock_exclusive(&store->reshard_pool_ctx, lock_oid);
}
if (ret < 0) { /* expired or already locked by another processor */
std::stringstream error_s;
if (-ENOENT == ret) {
error_s << "ENOENT (lock expired or never initially locked)";
} else {
error_s << ret << " (" << cpp_strerror(-ret) << ")";
}
ldout(store->ctx(), 5) << __func__ << "(): failed to renew lock on " <<
lock_oid << " with error " << error_s.str() << dendl;
return ret;
}
internal_lock.set_must_renew(false);
reset_time(now);
ldout(store->ctx(), 20) << __func__ << "(): successfully renewed lock on " <<
lock_oid << dendl;
return 0;
}
int RGWBucketReshard::do_reshard(int num_shards,
RGWBucketInfo& new_bucket_info,
int max_entries,
bool verbose,
ostream *out,
Formatter *formatter)
{
rgw_bucket& bucket = bucket_info.bucket;
int ret = 0;
if (out) {
(*out) << "tenant: " << bucket_info.bucket.tenant << std::endl;
(*out) << "bucket name: " << bucket_info.bucket.name << std::endl;
(*out) << "old bucket instance id: " << bucket_info.bucket.bucket_id <<
std::endl;
(*out) << "new bucket instance id: " << new_bucket_info.bucket.bucket_id <<
std::endl;
}
/* update bucket info -- in progress*/
list<rgw_cls_bi_entry> entries;
if (max_entries < 0) {
ldout(store->ctx(), 0) << __func__ <<
": can't reshard, negative max_entries" << dendl;
return -EINVAL;
}
// NB: destructor cleans up sharding state if reshard does not
// complete successfully
BucketInfoReshardUpdate bucket_info_updater(store, bucket_info, bucket_attrs, new_bucket_info.bucket.bucket_id);
ret = bucket_info_updater.start();
if (ret < 0) {
ldout(store->ctx(), 0) << __func__ << ": failed to update bucket info ret=" << ret << dendl;
return ret;
}
int num_target_shards = (new_bucket_info.num_shards > 0 ? new_bucket_info.num_shards : 1);
BucketReshardManager target_shards_mgr(store, new_bucket_info, num_target_shards);
bool verbose_json_out = verbose && (formatter != nullptr) && (out != nullptr);
if (verbose_json_out) {
formatter->open_array_section("entries");
}
uint64_t total_entries = 0;
if (!verbose_json_out && out) {
(*out) << "total entries:";
}
const int num_source_shards =
(bucket_info.num_shards > 0 ? bucket_info.num_shards : 1);
string marker;
for (int i = 0; i < num_source_shards; ++i) {
bool is_truncated = true;
marker.clear();
while (is_truncated) {
entries.clear();
ret = store->bi_list(bucket, i, string(), marker, max_entries, &entries, &is_truncated);
if (ret < 0 && ret != -ENOENT) {
derr << "ERROR: bi_list(): " << cpp_strerror(-ret) << dendl;
return ret;
}
for (auto iter = entries.begin(); iter != entries.end(); ++iter) {
rgw_cls_bi_entry& entry = *iter;
if (verbose_json_out) {
formatter->open_object_section("entry");
encode_json("shard_id", i, formatter);
encode_json("num_entry", total_entries, formatter);
encode_json("entry", entry, formatter);
}
total_entries++;
marker = entry.idx;
int target_shard_id;
cls_rgw_obj_key cls_key;
RGWObjCategory category;
rgw_bucket_category_stats stats;
bool account = entry.get_info(&cls_key, &category, &stats);
rgw_obj_key key(cls_key);
rgw_obj obj(new_bucket_info.bucket, key);
RGWMPObj mp;
if (key.ns == RGW_OBJ_NS_MULTIPART && mp.from_meta(key.name)) {
// place the multipart .meta object on the same shard as its head object
obj.index_hash_source = mp.get_key();
}
int ret = store->get_target_shard_id(new_bucket_info, obj.get_hash_object(), &target_shard_id);
if (ret < 0) {
lderr(store->ctx()) << "ERROR: get_target_shard_id() returned ret=" << ret << dendl;
return ret;
}
int shard_index = (target_shard_id > 0 ? target_shard_id : 0);
ret = target_shards_mgr.add_entry(shard_index, entry, account,
category, stats);
if (ret < 0) {
return ret;
}
Clock::time_point now = Clock::now();
if (reshard_lock.should_renew(now)) {
// assume outer locks have timespans at least the size of ours, so
// can call inside conditional
if (outer_reshard_lock) {
ret = outer_reshard_lock->renew(now);
if (ret < 0) {
return ret;
}
}
ret = reshard_lock.renew(now);
if (ret < 0) {
lderr(store->ctx()) << "Error renewing bucket lock: " << ret << dendl;
return ret;
}
}
if (verbose_json_out) {
formatter->close_section();
formatter->flush(*out);
} else if (out && !(total_entries % 1000)) {
(*out) << " " << total_entries;
}
} // entries loop
}
}
if (verbose_json_out) {
formatter->close_section();
formatter->flush(*out);
} else if (out) {
(*out) << " " << total_entries << std::endl;
}
ret = target_shards_mgr.finish();
if (ret < 0) {
lderr(store->ctx()) << "ERROR: failed to reshard" << dendl;
return -EIO;
}
ret = rgw_link_bucket(store, new_bucket_info.owner, new_bucket_info.bucket, bucket_info.creation_time);
if (ret < 0) {
lderr(store->ctx()) << "failed to link new bucket instance (bucket_id=" << new_bucket_info.bucket.bucket_id << ": " << cpp_strerror(-ret) << ")" << dendl;
return ret;
}
ret = bucket_info_updater.complete();
if (ret < 0) {
ldout(store->ctx(), 0) << __func__ << ": failed to update bucket info ret=" << ret << dendl;
/* don't error out, reshard process succeeded */
}
return 0;
// NB: some error clean-up is done by ~BucketInfoReshardUpdate
} // RGWBucketReshard::do_reshard
int RGWBucketReshard::get_status(list<cls_rgw_bucket_instance_entry> *status)
{
librados::IoCtx index_ctx;
map<int, string> bucket_objs;
int r = store->open_bucket_index(bucket_info, index_ctx, bucket_objs);
if (r < 0) {
return r;
}
for (auto i : bucket_objs) {
cls_rgw_bucket_instance_entry entry;
int ret = cls_rgw_get_bucket_resharding(index_ctx, i.second, &entry);
if (ret < 0 && ret != -ENOENT) {
lderr(store->ctx()) << "ERROR: " << __func__ << ": cls_rgw_get_bucket_resharding() returned ret=" << ret << dendl;
return ret;
}
status->push_back(entry);
}
return 0;
}
int RGWBucketReshard::execute(int num_shards, int max_op_entries,
bool verbose, ostream *out, Formatter *formatter,
RGWReshard* reshard_log)
{
Clock::time_point now;
int ret = reshard_lock.lock();
if (ret < 0) {
return ret;
}
RGWBucketInfo new_bucket_info;
ret = create_new_bucket_instance(num_shards, new_bucket_info);
if (ret < 0) {
// shard state is uncertain, but this will attempt to remove them anyway
goto error_out;
}
if (reshard_log) {
ret = reshard_log->update(bucket_info, new_bucket_info);
if (ret < 0) {
goto error_out;
}
}
// set resharding status of current bucket_info & shards with
// information about planned resharding
ret = set_resharding_status(new_bucket_info.bucket.bucket_id,
num_shards, CLS_RGW_RESHARD_IN_PROGRESS);
if (ret < 0) {
reshard_lock.unlock();
return ret;
}
ret = do_reshard(num_shards,
new_bucket_info,
max_op_entries,
verbose, out, formatter);
if (ret < 0) {
goto error_out;
}
// at this point we've done the main work; we'll make a best-effort
// to clean-up but will not indicate any errors encountered
reshard_lock.unlock();
// resharding successful, so remove old bucket index shards; use
// best effort and don't report out an error; the lock isn't needed
// at this point since all we're using a best effor to to remove old
// shard objects
ret = store->clean_bucket_index(bucket_info, bucket_info.num_shards);
if (ret < 0) {
lderr(store->ctx()) << "Error: " << __func__ <<
" failed to clean up old shards; " <<
"RGWRados::clean_bucket_index returned " << ret << dendl;
}
ret = rgw_bucket_instance_remove_entry(store,
bucket_info.bucket.get_key(),
nullptr);
if (ret < 0) {
lderr(store->ctx()) << "Error: " << __func__ <<
" failed to clean old bucket info object \"" <<
bucket_info.bucket.get_key() <<
"\"created after successful resharding with error " << ret << dendl;
}
ldout(store->ctx(), 1) << __func__ <<
" INFO: reshard of bucket \"" << bucket_info.bucket.name << "\" from \"" <<
bucket_info.bucket.get_key() << "\" to \"" <<
new_bucket_info.bucket.get_key() << "\" completed successfully" << dendl;
return 0;
error_out:
reshard_lock.unlock();
// since the real problem is the issue that led to this error code
// path, we won't touch ret and instead use another variable to
// temporarily error codes
int ret2 = store->clean_bucket_index(new_bucket_info,
new_bucket_info.num_shards);
if (ret2 < 0) {
lderr(store->ctx()) << "Error: " << __func__ <<
" failed to clean up shards from failed incomplete resharding; " <<
"RGWRados::clean_bucket_index returned " << ret2 << dendl;
}
ret2 = rgw_bucket_instance_remove_entry(store,
new_bucket_info.bucket.get_key(),
nullptr);
if (ret2 < 0) {
lderr(store->ctx()) << "Error: " << __func__ <<
" failed to clean bucket info object \"" <<
new_bucket_info.bucket.get_key() <<
"\"created during incomplete resharding with error " << ret2 << dendl;
}
return ret;
} // execute
RGWReshard::RGWReshard(RGWRados* _store, bool _verbose, ostream *_out,
Formatter *_formatter) :
store(_store), instance_lock(bucket_instance_lock_name),
verbose(_verbose), out(_out), formatter(_formatter)
{
num_logshards = store->ctx()->_conf.get_val<uint64_t>("rgw_reshard_num_logs");
}
string RGWReshard::get_logshard_key(const string& tenant,
const string& bucket_name)
{
return tenant + ":" + bucket_name;
}
#define MAX_RESHARD_LOGSHARDS_PRIME 7877
void RGWReshard::get_bucket_logshard_oid(const string& tenant, const string& bucket_name, string *oid)
{
string key = get_logshard_key(tenant, bucket_name);
uint32_t sid = ceph_str_hash_linux(key.c_str(), key.size());
uint32_t sid2 = sid ^ ((sid & 0xFF) << 24);
sid = sid2 % MAX_RESHARD_LOGSHARDS_PRIME % num_logshards;
get_logshard_oid(int(sid), oid);
}
int RGWReshard::add(cls_rgw_reshard_entry& entry)
{
if (!store->svc.zone->can_reshard()) {
ldout(store->ctx(), 20) << __func__ << " Resharding is disabled" << dendl;
return 0;
}
string logshard_oid;
get_bucket_logshard_oid(entry.tenant, entry.bucket_name, &logshard_oid);
librados::ObjectWriteOperation op;
cls_rgw_reshard_add(op, entry);
int ret = store->reshard_pool_ctx.operate(logshard_oid, &op);
if (ret < 0) {
lderr(store->ctx()) << "ERROR: failed to add entry to reshard log, oid=" << logshard_oid << " tenant=" << entry.tenant << " bucket=" << entry.bucket_name << dendl;
return ret;
}
return 0;
}
int RGWReshard::update(const RGWBucketInfo& bucket_info, const RGWBucketInfo& new_bucket_info)
{
cls_rgw_reshard_entry entry;
entry.bucket_name = bucket_info.bucket.name;
entry.bucket_id = bucket_info.bucket.bucket_id;
entry.tenant = bucket_info.owner.tenant;
int ret = get(entry);
if (ret < 0) {
return ret;
}
entry.new_instance_id = new_bucket_info.bucket.name + ":" + new_bucket_info.bucket.bucket_id;
ret = add(entry);
if (ret < 0) {
ldout(store->ctx(), 0) << __func__ << ":Error in updating entry bucket " << entry.bucket_name << ": " <<
cpp_strerror(-ret) << dendl;
}
return ret;
}
int RGWReshard::list(int logshard_num, string& marker, uint32_t max, std::list<cls_rgw_reshard_entry>& entries, bool *is_truncated)
{
string logshard_oid;
get_logshard_oid(logshard_num, &logshard_oid);
int ret = cls_rgw_reshard_list(store->reshard_pool_ctx, logshard_oid, marker, max, entries, is_truncated);
if (ret < 0) {
if (ret == -ENOENT) {
*is_truncated = false;
ret = 0;
}
lderr(store->ctx()) << "ERROR: failed to list reshard log entries, oid=" << logshard_oid << dendl;
if (ret == -EACCES) {
lderr(store->ctx()) << "access denied to pool " << store->svc.zone->get_zone_params().reshard_pool
<< ". Fix the pool access permissions of your client" << dendl;
}
}
return ret;
}
int RGWReshard::get(cls_rgw_reshard_entry& entry)
{
string logshard_oid;
get_bucket_logshard_oid(entry.tenant, entry.bucket_name, &logshard_oid);
int ret = cls_rgw_reshard_get(store->reshard_pool_ctx, logshard_oid, entry);
if (ret < 0) {
if (ret != -ENOENT) {
lderr(store->ctx()) << "ERROR: failed to get entry from reshard log, oid=" << logshard_oid << " tenant=" << entry.tenant <<
" bucket=" << entry.bucket_name << dendl;
}
return ret;
}
return 0;
}
int RGWReshard::remove(cls_rgw_reshard_entry& entry)
{
string logshard_oid;
get_bucket_logshard_oid(entry.tenant, entry.bucket_name, &logshard_oid);
librados::ObjectWriteOperation op;
cls_rgw_reshard_remove(op, entry);
int ret = store->reshard_pool_ctx.operate(logshard_oid, &op);
if (ret < 0) {
lderr(store->ctx()) << "ERROR: failed to remove entry from reshard log, oid=" << logshard_oid << " tenant=" << entry.tenant << " bucket=" << entry.bucket_name << dendl;
return ret;
}
return ret;
}
int RGWReshard::clear_bucket_resharding(const string& bucket_instance_oid, cls_rgw_reshard_entry& entry)
{
int ret = cls_rgw_clear_bucket_resharding(store->reshard_pool_ctx, bucket_instance_oid);
if (ret < 0) {
lderr(store->ctx()) << "ERROR: failed to clear bucket resharding, bucket_instance_oid=" << bucket_instance_oid << dendl;
return ret;
}
return 0;
}
int RGWReshardWait::wait(optional_yield y)
{
std::unique_lock lock(mutex);
if (going_down) {
return -ECANCELED;
}
#ifdef HAVE_BOOST_CONTEXT
if (y) {
auto& context = y.get_io_context();
auto& yield = y.get_yield_context();
Waiter waiter(context);
waiters.push_back(waiter);
lock.unlock();
waiter.timer.expires_after(duration);
boost::system::error_code ec;
waiter.timer.async_wait(yield[ec]);
lock.lock();
waiters.erase(waiters.iterator_to(waiter));
return -ec.value();
}
#endif
cond.wait_for(lock, duration);
if (going_down) {
return -ECANCELED;
}
return 0;
}
void RGWReshardWait::stop()
{
std::scoped_lock lock(mutex);
going_down = true;
cond.notify_all();
for (auto& waiter : waiters) {
// unblock any waiters with ECANCELED
waiter.timer.cancel();
}
}
int RGWReshard::process_single_logshard(int logshard_num)
{
string marker;
bool truncated = true;
CephContext *cct = store->ctx();
constexpr uint32_t max_entries = 1000;
string logshard_oid;
get_logshard_oid(logshard_num, &logshard_oid);
RGWBucketReshardLock logshard_lock(store, logshard_oid, false);
int ret = logshard_lock.lock();
if (ret < 0) {
ldout(store->ctx(), 5) << __func__ << "(): failed to acquire lock on " <<
logshard_oid << ", ret = " << ret <<dendl;
return ret;
}
do {
std::list<cls_rgw_reshard_entry> entries;
ret = list(logshard_num, marker, max_entries, entries, &truncated);
if (ret < 0) {
ldout(cct, 10) << "cannot list all reshards in logshard oid=" <<
logshard_oid << dendl;
continue;
}
for(auto& entry: entries) { // logshard entries
if(entry.new_instance_id.empty()) {
ldout(store->ctx(), 20) << __func__ << " resharding " <<
entry.bucket_name << dendl;
auto obj_ctx = store->svc.sysobj->init_obj_ctx();
rgw_bucket bucket;
RGWBucketInfo bucket_info;
map<string, bufferlist> attrs;
ret = store->get_bucket_info(obj_ctx, entry.tenant, entry.bucket_name,
bucket_info, nullptr, &attrs);
if (ret < 0 || bucket_info.bucket.bucket_id != entry.bucket_id) {
if (ret < 0) {
ldout(cct, 0) << __func__ <<
": Error in get_bucket_info for bucket " << entry.bucket_name <<
": " << cpp_strerror(-ret) << dendl;
if (ret != -ENOENT) {
// any error other than ENOENT will abort
return ret;
}
} else {
ldout(cct,0) << __func__ <<
": Bucket: " << entry.bucket_name <<
" already resharded by someone, skipping " << dendl;
}
// we've encountered a reshard queue entry for an apparently
// non-existent bucket; let's try to recover by cleaning up
ldout(cct, 0) << __func__ <<
": removing reshard queue entry for a resharded or non-existent bucket" <<
entry.bucket_name << dendl;
ret = remove(entry);
if (ret < 0) {
ldout(cct, 0) << __func__ <<
": Error removing non-existent bucket " <<
entry.bucket_name << " from resharding queue: " <<
cpp_strerror(-ret) << dendl;
return ret;
}
// we cleaned up, move on to the next entry
goto finished_entry;
}
RGWBucketReshard br(store, bucket_info, attrs, nullptr);
ret = br.execute(entry.new_num_shards, max_entries, false, nullptr,
nullptr, this);
if (ret < 0) {
ldout(store->ctx(), 0) << __func__ <<
": Error during resharding bucket " << entry.bucket_name << ":" <<
cpp_strerror(-ret)<< dendl;
return ret;
}
ldout(store->ctx(), 20) << __func__ <<
" removing reshard queue entry for bucket " << entry.bucket_name <<
dendl;
ret = remove(entry);
if (ret < 0) {
ldout(cct, 0) << __func__ << ": Error removing bucket " <<
entry.bucket_name << " from resharding queue: " <<
cpp_strerror(-ret) << dendl;
return ret;
}
} // if new instance id is empty
finished_entry:
Clock::time_point now = Clock::now();
if (logshard_lock.should_renew(now)) {
ret = logshard_lock.renew(now);
if (ret < 0) {
return ret;
}
}
entry.get_key(&marker);
} // entry for loop
} while (truncated);
logshard_lock.unlock();
return 0;
}
void RGWReshard::get_logshard_oid(int shard_num, string *logshard)
{
char buf[32];
snprintf(buf, sizeof(buf), "%010u", (unsigned)shard_num);
string objname(reshard_oid_prefix);
*logshard = objname + buf;
}
int RGWReshard::process_all_logshards()
{
if (!store->svc.zone->can_reshard()) {
ldout(store->ctx(), 20) << __func__ << " Resharding is disabled" << dendl;
return 0;
}
int ret = 0;
for (int i = 0; i < num_logshards; i++) {
string logshard;
get_logshard_oid(i, &logshard);
ldout(store->ctx(), 20) << "processing logshard = " << logshard << dendl;
ret = process_single_logshard(i);
if (ret <0) {
return ret;
}
}
return 0;
}
bool RGWReshard::going_down()
{
return down_flag;
}
void RGWReshard::start_processor()
{
worker = new ReshardWorker(store->ctx(), this);
worker->create("rgw_reshard");
}
void RGWReshard::stop_processor()
{
down_flag = true;
if (worker) {
worker->stop();
worker->join();
}
delete worker;
worker = nullptr;
}
void *RGWReshard::ReshardWorker::entry() {
utime_t last_run;
do {
utime_t start = ceph_clock_now();
if (reshard->process_all_logshards()) {
/* All shards have been processed properly. Next time we can start
* from this moment. */
last_run = start;
}
if (reshard->going_down())
break;
utime_t end = ceph_clock_now();
end -= start;
int secs = cct->_conf.get_val<uint64_t>("rgw_reshard_thread_interval");
if (secs <= end.sec())
continue; // next round
secs -= end.sec();
lock.Lock();
cond.WaitInterval(lock, utime_t(secs, 0));
lock.Unlock();
} while (!reshard->going_down());
return NULL;
}
void RGWReshard::ReshardWorker::stop()
{
Mutex::Locker l(lock);
cond.Signal();
}
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