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|
// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#include <boost/utility/string_ref.hpp>
#include "common/ceph_json.h"
#include "common/RWLock.h"
#include "common/RefCountedObj.h"
#include "common/WorkQueue.h"
#include "common/Throttle.h"
#include "common/errno.h"
#include "rgw_common.h"
#include "rgw_rados.h"
#include "rgw_zone.h"
#include "rgw_sync.h"
#include "rgw_data_sync.h"
#include "rgw_rest_conn.h"
#include "rgw_cr_rados.h"
#include "rgw_cr_rest.h"
#include "rgw_http_client.h"
#include "rgw_bucket.h"
#include "rgw_metadata.h"
#include "rgw_sync_counters.h"
#include "rgw_sync_module.h"
#include "rgw_sync_log_trim.h"
#include "cls/lock/cls_lock_client.h"
#include "services/svc_zone.h"
#include "services/svc_sync_modules.h"
#include "include/random.h"
#include <boost/asio/yield.hpp>
#define dout_subsys ceph_subsys_rgw
#undef dout_prefix
#define dout_prefix (*_dout << "data sync: ")
static string datalog_sync_status_oid_prefix = "datalog.sync-status";
static string datalog_sync_status_shard_prefix = "datalog.sync-status.shard";
static string datalog_sync_full_sync_index_prefix = "data.full-sync.index";
static string bucket_status_oid_prefix = "bucket.sync-status";
static string object_status_oid_prefix = "bucket.sync-status";
void rgw_datalog_info::decode_json(JSONObj *obj) {
JSONDecoder::decode_json("num_objects", num_shards, obj);
}
void rgw_datalog_entry::decode_json(JSONObj *obj) {
JSONDecoder::decode_json("key", key, obj);
utime_t ut;
JSONDecoder::decode_json("timestamp", ut, obj);
timestamp = ut.to_real_time();
}
void rgw_datalog_shard_data::decode_json(JSONObj *obj) {
JSONDecoder::decode_json("marker", marker, obj);
JSONDecoder::decode_json("truncated", truncated, obj);
JSONDecoder::decode_json("entries", entries, obj);
};
class RGWReadDataSyncStatusMarkersCR : public RGWShardCollectCR {
static constexpr int MAX_CONCURRENT_SHARDS = 16;
RGWDataSyncEnv *env;
const int num_shards;
int shard_id{0};;
map<uint32_t, rgw_data_sync_marker>& markers;
public:
RGWReadDataSyncStatusMarkersCR(RGWDataSyncEnv *env, int num_shards,
map<uint32_t, rgw_data_sync_marker>& markers)
: RGWShardCollectCR(env->cct, MAX_CONCURRENT_SHARDS),
env(env), num_shards(num_shards), markers(markers)
{}
bool spawn_next() override;
};
bool RGWReadDataSyncStatusMarkersCR::spawn_next()
{
if (shard_id >= num_shards) {
return false;
}
using CR = RGWSimpleRadosReadCR<rgw_data_sync_marker>;
spawn(new CR(env->async_rados, env->store->svc.sysobj,
rgw_raw_obj(env->store->svc.zone->get_zone_params().log_pool, RGWDataSyncStatusManager::shard_obj_name(env->source_zone, shard_id)),
&markers[shard_id]),
false);
shard_id++;
return true;
}
class RGWReadDataSyncRecoveringShardsCR : public RGWShardCollectCR {
static constexpr int MAX_CONCURRENT_SHARDS = 16;
RGWDataSyncEnv *env;
uint64_t max_entries;
int num_shards;
int shard_id{0};
string marker;
std::vector<RGWRadosGetOmapKeysCR::ResultPtr>& omapkeys;
public:
RGWReadDataSyncRecoveringShardsCR(RGWDataSyncEnv *env, uint64_t _max_entries, int _num_shards,
std::vector<RGWRadosGetOmapKeysCR::ResultPtr>& omapkeys)
: RGWShardCollectCR(env->cct, MAX_CONCURRENT_SHARDS), env(env),
max_entries(_max_entries), num_shards(_num_shards), omapkeys(omapkeys)
{}
bool spawn_next() override;
};
bool RGWReadDataSyncRecoveringShardsCR::spawn_next()
{
if (shard_id >= num_shards)
return false;
string error_oid = RGWDataSyncStatusManager::shard_obj_name(env->source_zone, shard_id) + ".retry";
auto& shard_keys = omapkeys[shard_id];
shard_keys = std::make_shared<RGWRadosGetOmapKeysCR::Result>();
spawn(new RGWRadosGetOmapKeysCR(env->store, rgw_raw_obj(env->store->svc.zone->get_zone_params().log_pool, error_oid),
marker, max_entries, shard_keys), false);
++shard_id;
return true;
}
class RGWReadDataSyncStatusCoroutine : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
rgw_data_sync_status *sync_status;
public:
RGWReadDataSyncStatusCoroutine(RGWDataSyncEnv *_sync_env,
rgw_data_sync_status *_status)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env), sync_status(_status)
{}
int operate() override;
};
int RGWReadDataSyncStatusCoroutine::operate()
{
reenter(this) {
// read sync info
using ReadInfoCR = RGWSimpleRadosReadCR<rgw_data_sync_info>;
yield {
bool empty_on_enoent = false; // fail on ENOENT
call(new ReadInfoCR(sync_env->async_rados, sync_env->store->svc.sysobj,
rgw_raw_obj(sync_env->store->svc.zone->get_zone_params().log_pool, RGWDataSyncStatusManager::sync_status_oid(sync_env->source_zone)),
&sync_status->sync_info, empty_on_enoent));
}
if (retcode < 0) {
ldout(sync_env->cct, 4) << "failed to read sync status info with "
<< cpp_strerror(retcode) << dendl;
return set_cr_error(retcode);
}
// read shard markers
using ReadMarkersCR = RGWReadDataSyncStatusMarkersCR;
yield call(new ReadMarkersCR(sync_env, sync_status->sync_info.num_shards,
sync_status->sync_markers));
if (retcode < 0) {
ldout(sync_env->cct, 4) << "failed to read sync status markers with "
<< cpp_strerror(retcode) << dendl;
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
class RGWReadRemoteDataLogShardInfoCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
RGWRESTReadResource *http_op;
int shard_id;
RGWDataChangesLogInfo *shard_info;
public:
RGWReadRemoteDataLogShardInfoCR(RGWDataSyncEnv *_sync_env,
int _shard_id, RGWDataChangesLogInfo *_shard_info) : RGWCoroutine(_sync_env->cct),
sync_env(_sync_env),
http_op(NULL),
shard_id(_shard_id),
shard_info(_shard_info) {
}
~RGWReadRemoteDataLogShardInfoCR() override {
if (http_op) {
http_op->put();
}
}
int operate() override {
reenter(this) {
yield {
char buf[16];
snprintf(buf, sizeof(buf), "%d", shard_id);
rgw_http_param_pair pairs[] = { { "type" , "data" },
{ "id", buf },
{ "info" , NULL },
{ NULL, NULL } };
string p = "/admin/log/";
http_op = new RGWRESTReadResource(sync_env->conn, p, pairs, NULL, sync_env->http_manager);
init_new_io(http_op);
int ret = http_op->aio_read();
if (ret < 0) {
ldout(sync_env->cct, 0) << "ERROR: failed to read from " << p << dendl;
log_error() << "failed to send http operation: " << http_op->to_str() << " ret=" << ret << std::endl;
return set_cr_error(ret);
}
return io_block(0);
}
yield {
int ret = http_op->wait(shard_info);
if (ret < 0) {
return set_cr_error(ret);
}
return set_cr_done();
}
}
return 0;
}
};
struct read_remote_data_log_response {
string marker;
bool truncated;
list<rgw_data_change_log_entry> entries;
read_remote_data_log_response() : truncated(false) {}
void decode_json(JSONObj *obj) {
JSONDecoder::decode_json("marker", marker, obj);
JSONDecoder::decode_json("truncated", truncated, obj);
JSONDecoder::decode_json("entries", entries, obj);
};
};
class RGWReadRemoteDataLogShardCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
RGWRESTReadResource *http_op = nullptr;
int shard_id;
const std::string& marker;
string *pnext_marker;
list<rgw_data_change_log_entry> *entries;
bool *truncated;
read_remote_data_log_response response;
std::optional<PerfGuard> timer;
public:
RGWReadRemoteDataLogShardCR(RGWDataSyncEnv *_sync_env, int _shard_id,
const std::string& marker, string *pnext_marker,
list<rgw_data_change_log_entry> *_entries,
bool *_truncated)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env),
shard_id(_shard_id), marker(marker), pnext_marker(pnext_marker),
entries(_entries), truncated(_truncated) {
}
~RGWReadRemoteDataLogShardCR() override {
if (http_op) {
http_op->put();
}
}
int operate() override {
reenter(this) {
yield {
char buf[16];
snprintf(buf, sizeof(buf), "%d", shard_id);
rgw_http_param_pair pairs[] = { { "type" , "data" },
{ "id", buf },
{ "marker", marker.c_str() },
{ "extra-info", "true" },
{ NULL, NULL } };
string p = "/admin/log/";
http_op = new RGWRESTReadResource(sync_env->conn, p, pairs, NULL, sync_env->http_manager);
init_new_io(http_op);
if (sync_env->counters) {
timer.emplace(sync_env->counters, sync_counters::l_poll);
}
int ret = http_op->aio_read();
if (ret < 0) {
ldout(sync_env->cct, 0) << "ERROR: failed to read from " << p << dendl;
log_error() << "failed to send http operation: " << http_op->to_str() << " ret=" << ret << std::endl;
if (sync_env->counters) {
sync_env->counters->inc(sync_counters::l_poll_err);
}
return set_cr_error(ret);
}
return io_block(0);
}
yield {
timer.reset();
int ret = http_op->wait(&response);
if (ret < 0) {
if (sync_env->counters && ret != -ENOENT) {
sync_env->counters->inc(sync_counters::l_poll_err);
}
return set_cr_error(ret);
}
entries->clear();
entries->swap(response.entries);
*pnext_marker = response.marker;
*truncated = response.truncated;
return set_cr_done();
}
}
return 0;
}
};
class RGWReadRemoteDataLogInfoCR : public RGWShardCollectCR {
RGWDataSyncEnv *sync_env;
int num_shards;
map<int, RGWDataChangesLogInfo> *datalog_info;
int shard_id;
#define READ_DATALOG_MAX_CONCURRENT 10
public:
RGWReadRemoteDataLogInfoCR(RGWDataSyncEnv *_sync_env,
int _num_shards,
map<int, RGWDataChangesLogInfo> *_datalog_info) : RGWShardCollectCR(_sync_env->cct, READ_DATALOG_MAX_CONCURRENT),
sync_env(_sync_env), num_shards(_num_shards),
datalog_info(_datalog_info), shard_id(0) {}
bool spawn_next() override;
};
bool RGWReadRemoteDataLogInfoCR::spawn_next() {
if (shard_id >= num_shards) {
return false;
}
spawn(new RGWReadRemoteDataLogShardInfoCR(sync_env, shard_id, &(*datalog_info)[shard_id]), false);
shard_id++;
return true;
}
class RGWListRemoteDataLogShardCR : public RGWSimpleCoroutine {
RGWDataSyncEnv *sync_env;
RGWRESTReadResource *http_op;
int shard_id;
string marker;
uint32_t max_entries;
rgw_datalog_shard_data *result;
public:
RGWListRemoteDataLogShardCR(RGWDataSyncEnv *env, int _shard_id,
const string& _marker, uint32_t _max_entries,
rgw_datalog_shard_data *_result)
: RGWSimpleCoroutine(env->store->ctx()), sync_env(env), http_op(NULL),
shard_id(_shard_id), marker(_marker), max_entries(_max_entries), result(_result) {}
int send_request() override {
RGWRESTConn *conn = sync_env->conn;
RGWRados *store = sync_env->store;
char buf[32];
snprintf(buf, sizeof(buf), "%d", shard_id);
char max_entries_buf[32];
snprintf(max_entries_buf, sizeof(max_entries_buf), "%d", (int)max_entries);
const char *marker_key = (marker.empty() ? "" : "marker");
rgw_http_param_pair pairs[] = { { "type", "data" },
{ "id", buf },
{ "max-entries", max_entries_buf },
{ marker_key, marker.c_str() },
{ NULL, NULL } };
string p = "/admin/log/";
http_op = new RGWRESTReadResource(conn, p, pairs, NULL, sync_env->http_manager);
init_new_io(http_op);
int ret = http_op->aio_read();
if (ret < 0) {
ldout(store->ctx(), 0) << "ERROR: failed to read from " << p << dendl;
log_error() << "failed to send http operation: " << http_op->to_str() << " ret=" << ret << std::endl;
http_op->put();
return ret;
}
return 0;
}
int request_complete() override {
int ret = http_op->wait(result);
http_op->put();
if (ret < 0 && ret != -ENOENT) {
ldout(sync_env->store->ctx(), 0) << "ERROR: failed to list remote datalog shard, ret=" << ret << dendl;
return ret;
}
return 0;
}
};
class RGWListRemoteDataLogCR : public RGWShardCollectCR {
RGWDataSyncEnv *sync_env;
map<int, string> shards;
int max_entries_per_shard;
map<int, rgw_datalog_shard_data> *result;
map<int, string>::iterator iter;
#define READ_DATALOG_MAX_CONCURRENT 10
public:
RGWListRemoteDataLogCR(RGWDataSyncEnv *_sync_env,
map<int, string>& _shards,
int _max_entries_per_shard,
map<int, rgw_datalog_shard_data> *_result) : RGWShardCollectCR(_sync_env->cct, READ_DATALOG_MAX_CONCURRENT),
sync_env(_sync_env), max_entries_per_shard(_max_entries_per_shard),
result(_result) {
shards.swap(_shards);
iter = shards.begin();
}
bool spawn_next() override;
};
bool RGWListRemoteDataLogCR::spawn_next() {
if (iter == shards.end()) {
return false;
}
spawn(new RGWListRemoteDataLogShardCR(sync_env, iter->first, iter->second, max_entries_per_shard, &(*result)[iter->first]), false);
++iter;
return true;
}
class RGWInitDataSyncStatusCoroutine : public RGWCoroutine {
static constexpr uint32_t lock_duration = 30;
RGWDataSyncEnv *sync_env;
RGWRados *store;
const rgw_pool& pool;
const uint32_t num_shards;
string sync_status_oid;
string lock_name;
string cookie;
rgw_data_sync_status *status;
map<int, RGWDataChangesLogInfo> shards_info;
RGWSyncTraceNodeRef tn;
public:
RGWInitDataSyncStatusCoroutine(RGWDataSyncEnv *_sync_env, uint32_t num_shards,
uint64_t instance_id,
RGWSyncTraceNodeRef& _tn_parent,
rgw_data_sync_status *status)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env), store(sync_env->store),
pool(store->svc.zone->get_zone_params().log_pool),
num_shards(num_shards), status(status),
tn(sync_env->sync_tracer->add_node(_tn_parent, "init_data_sync_status")) {
lock_name = "sync_lock";
status->sync_info.instance_id = instance_id;
#define COOKIE_LEN 16
char buf[COOKIE_LEN + 1];
gen_rand_alphanumeric(cct, buf, sizeof(buf) - 1);
cookie = buf;
sync_status_oid = RGWDataSyncStatusManager::sync_status_oid(sync_env->source_zone);
}
int operate() override {
int ret;
reenter(this) {
using LockCR = RGWSimpleRadosLockCR;
yield call(new LockCR(sync_env->async_rados, store,
rgw_raw_obj{pool, sync_status_oid},
lock_name, cookie, lock_duration));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to take a lock on " << sync_status_oid));
return set_cr_error(retcode);
}
using WriteInfoCR = RGWSimpleRadosWriteCR<rgw_data_sync_info>;
yield call(new WriteInfoCR(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj{pool, sync_status_oid},
status->sync_info));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to write sync status info with " << retcode));
return set_cr_error(retcode);
}
/* take lock again, we just recreated the object */
yield call(new LockCR(sync_env->async_rados, store,
rgw_raw_obj{pool, sync_status_oid},
lock_name, cookie, lock_duration));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to take a lock on " << sync_status_oid));
return set_cr_error(retcode);
}
tn->log(10, "took lease");
/* fetch current position in logs */
yield {
RGWRESTConn *conn = store->svc.zone->get_zone_conn_by_id(sync_env->source_zone);
if (!conn) {
tn->log(0, SSTR("ERROR: connection to zone " << sync_env->source_zone << " does not exist!"));
return set_cr_error(-EIO);
}
for (uint32_t i = 0; i < num_shards; i++) {
spawn(new RGWReadRemoteDataLogShardInfoCR(sync_env, i, &shards_info[i]), true);
}
}
while (collect(&ret, NULL)) {
if (ret < 0) {
tn->log(0, SSTR("ERROR: failed to read remote data log shards"));
return set_state(RGWCoroutine_Error);
}
yield;
}
yield {
for (uint32_t i = 0; i < num_shards; i++) {
RGWDataChangesLogInfo& info = shards_info[i];
auto& marker = status->sync_markers[i];
marker.next_step_marker = info.marker;
marker.timestamp = info.last_update;
const auto& oid = RGWDataSyncStatusManager::shard_obj_name(sync_env->source_zone, i);
using WriteMarkerCR = RGWSimpleRadosWriteCR<rgw_data_sync_marker>;
spawn(new WriteMarkerCR(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj{pool, oid}, marker), true);
}
}
while (collect(&ret, NULL)) {
if (ret < 0) {
tn->log(0, SSTR("ERROR: failed to write data sync status markers"));
return set_state(RGWCoroutine_Error);
}
yield;
}
status->sync_info.state = rgw_data_sync_info::StateBuildingFullSyncMaps;
yield call(new WriteInfoCR(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj{pool, sync_status_oid},
status->sync_info));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to write sync status info with " << retcode));
return set_cr_error(retcode);
}
yield call(new RGWSimpleRadosUnlockCR(sync_env->async_rados, store,
rgw_raw_obj{pool, sync_status_oid},
lock_name, cookie));
return set_cr_done();
}
return 0;
}
};
int RGWRemoteDataLog::read_log_info(rgw_datalog_info *log_info)
{
rgw_http_param_pair pairs[] = { { "type", "data" },
{ NULL, NULL } };
int ret = sync_env.conn->get_json_resource("/admin/log", pairs, *log_info);
if (ret < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to fetch datalog info" << dendl;
return ret;
}
ldpp_dout(dpp, 20) << "remote datalog, num_shards=" << log_info->num_shards << dendl;
return 0;
}
int RGWRemoteDataLog::read_source_log_shards_info(map<int, RGWDataChangesLogInfo> *shards_info)
{
rgw_datalog_info log_info;
int ret = read_log_info(&log_info);
if (ret < 0) {
return ret;
}
return run(new RGWReadRemoteDataLogInfoCR(&sync_env, log_info.num_shards, shards_info));
}
int RGWRemoteDataLog::read_source_log_shards_next(map<int, string> shard_markers, map<int, rgw_datalog_shard_data> *result)
{
return run(new RGWListRemoteDataLogCR(&sync_env, shard_markers, 1, result));
}
int RGWRemoteDataLog::init(const string& _source_zone, RGWRESTConn *_conn, RGWSyncErrorLogger *_error_logger,
RGWSyncTraceManager *_sync_tracer, RGWSyncModuleInstanceRef& _sync_module,
PerfCounters* counters)
{
sync_env.init(dpp, store->ctx(), store, _conn, async_rados, &http_manager, _error_logger,
_sync_tracer, _source_zone, _sync_module, counters);
if (initialized) {
return 0;
}
int ret = http_manager.start();
if (ret < 0) {
ldpp_dout(dpp, 0) << "failed in http_manager.start() ret=" << ret << dendl;
return ret;
}
tn = sync_env.sync_tracer->add_node(sync_env.sync_tracer->root_node, "data");
initialized = true;
return 0;
}
void RGWRemoteDataLog::finish()
{
stop();
}
int RGWRemoteDataLog::read_sync_status(rgw_data_sync_status *sync_status)
{
// cannot run concurrently with run_sync(), so run in a separate manager
RGWCoroutinesManager crs(store->ctx(), store->get_cr_registry());
RGWHTTPManager http_manager(store->ctx(), crs.get_completion_mgr());
int ret = http_manager.start();
if (ret < 0) {
ldpp_dout(dpp, 0) << "failed in http_manager.start() ret=" << ret << dendl;
return ret;
}
RGWDataSyncEnv sync_env_local = sync_env;
sync_env_local.http_manager = &http_manager;
ret = crs.run(new RGWReadDataSyncStatusCoroutine(&sync_env_local, sync_status));
http_manager.stop();
return ret;
}
int RGWRemoteDataLog::read_recovering_shards(const int num_shards, set<int>& recovering_shards)
{
// cannot run concurrently with run_sync(), so run in a separate manager
RGWCoroutinesManager crs(store->ctx(), store->get_cr_registry());
RGWHTTPManager http_manager(store->ctx(), crs.get_completion_mgr());
int ret = http_manager.start();
if (ret < 0) {
ldpp_dout(dpp, 0) << "failed in http_manager.start() ret=" << ret << dendl;
return ret;
}
RGWDataSyncEnv sync_env_local = sync_env;
sync_env_local.http_manager = &http_manager;
std::vector<RGWRadosGetOmapKeysCR::ResultPtr> omapkeys;
omapkeys.resize(num_shards);
uint64_t max_entries{1};
ret = crs.run(new RGWReadDataSyncRecoveringShardsCR(&sync_env_local, max_entries, num_shards, omapkeys));
http_manager.stop();
if (ret == 0) {
for (int i = 0; i < num_shards; i++) {
if (omapkeys[i]->entries.size() != 0) {
recovering_shards.insert(i);
}
}
}
return ret;
}
int RGWRemoteDataLog::init_sync_status(int num_shards)
{
rgw_data_sync_status sync_status;
sync_status.sync_info.num_shards = num_shards;
RGWCoroutinesManager crs(store->ctx(), store->get_cr_registry());
RGWHTTPManager http_manager(store->ctx(), crs.get_completion_mgr());
int ret = http_manager.start();
if (ret < 0) {
ldpp_dout(dpp, 0) << "failed in http_manager.start() ret=" << ret << dendl;
return ret;
}
RGWDataSyncEnv sync_env_local = sync_env;
sync_env_local.http_manager = &http_manager;
auto instance_id = ceph::util::generate_random_number<uint64_t>();
ret = crs.run(new RGWInitDataSyncStatusCoroutine(&sync_env_local, num_shards, instance_id, tn, &sync_status));
http_manager.stop();
return ret;
}
static string full_data_sync_index_shard_oid(const string& source_zone, int shard_id)
{
char buf[datalog_sync_full_sync_index_prefix.size() + 1 + source_zone.size() + 1 + 16];
snprintf(buf, sizeof(buf), "%s.%s.%d", datalog_sync_full_sync_index_prefix.c_str(), source_zone.c_str(), shard_id);
return string(buf);
}
struct read_metadata_list {
string marker;
bool truncated;
list<string> keys;
int count;
read_metadata_list() : truncated(false), count(0) {}
void decode_json(JSONObj *obj) {
JSONDecoder::decode_json("marker", marker, obj);
JSONDecoder::decode_json("truncated", truncated, obj);
JSONDecoder::decode_json("keys", keys, obj);
JSONDecoder::decode_json("count", count, obj);
}
};
struct bucket_instance_meta_info {
string key;
obj_version ver;
utime_t mtime;
RGWBucketInstanceMetadataObject data;
bucket_instance_meta_info() {}
void decode_json(JSONObj *obj) {
JSONDecoder::decode_json("key", key, obj);
JSONDecoder::decode_json("ver", ver, obj);
JSONDecoder::decode_json("mtime", mtime, obj);
JSONDecoder::decode_json("data", data, obj);
}
};
class RGWListBucketIndexesCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
RGWRados *store;
rgw_data_sync_status *sync_status;
int num_shards;
int req_ret;
int ret;
list<string>::iterator iter;
RGWShardedOmapCRManager *entries_index;
string oid_prefix;
string path;
bucket_instance_meta_info meta_info;
string key;
string s;
int i;
bool failed;
bool truncated;
read_metadata_list result;
public:
RGWListBucketIndexesCR(RGWDataSyncEnv *_sync_env,
rgw_data_sync_status *_sync_status) : RGWCoroutine(_sync_env->cct), sync_env(_sync_env),
store(sync_env->store), sync_status(_sync_status),
req_ret(0), ret(0), entries_index(NULL), i(0), failed(false), truncated(false) {
oid_prefix = datalog_sync_full_sync_index_prefix + "." + sync_env->source_zone;
path = "/admin/metadata/bucket.instance";
num_shards = sync_status->sync_info.num_shards;
}
~RGWListBucketIndexesCR() override {
delete entries_index;
}
int operate() override {
reenter(this) {
entries_index = new RGWShardedOmapCRManager(sync_env->async_rados, store, this, num_shards,
store->svc.zone->get_zone_params().log_pool,
oid_prefix);
yield; // yield so OmapAppendCRs can start
do {
yield {
string entrypoint = string("/admin/metadata/bucket.instance");
rgw_http_param_pair pairs[] = {{"max-entries", "1000"},
{"marker", result.marker.c_str()},
{NULL, NULL}};
call(new RGWReadRESTResourceCR<read_metadata_list>(store->ctx(), sync_env->conn, sync_env->http_manager,
entrypoint, pairs, &result));
}
if (retcode < 0) {
ldout(sync_env->cct, 0) << "ERROR: failed to fetch metadata for section bucket.instance" << dendl;
return set_cr_error(retcode);
}
for (iter = result.keys.begin(); iter != result.keys.end(); ++iter) {
ldout(sync_env->cct, 20) << "list metadata: section=bucket.instance key=" << *iter << dendl;
key = *iter;
yield {
rgw_http_param_pair pairs[] = {{"key", key.c_str()},
{NULL, NULL}};
call(new RGWReadRESTResourceCR<bucket_instance_meta_info>(store->ctx(), sync_env->conn, sync_env->http_manager, path, pairs, &meta_info));
}
num_shards = meta_info.data.get_bucket_info().num_shards;
if (num_shards > 0) {
for (i = 0; i < num_shards; i++) {
char buf[16];
snprintf(buf, sizeof(buf), ":%d", i);
s = key + buf;
yield entries_index->append(s, store->data_log->get_log_shard_id(meta_info.data.get_bucket_info().bucket, i));
}
} else {
yield entries_index->append(key, store->data_log->get_log_shard_id(meta_info.data.get_bucket_info().bucket, -1));
}
}
truncated = result.truncated;
} while (truncated);
yield {
if (!entries_index->finish()) {
failed = true;
}
}
if (!failed) {
for (map<uint32_t, rgw_data_sync_marker>::iterator iter = sync_status->sync_markers.begin(); iter != sync_status->sync_markers.end(); ++iter) {
int shard_id = (int)iter->first;
rgw_data_sync_marker& marker = iter->second;
marker.total_entries = entries_index->get_total_entries(shard_id);
spawn(new RGWSimpleRadosWriteCR<rgw_data_sync_marker>(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, RGWDataSyncStatusManager::shard_obj_name(sync_env->source_zone, shard_id)),
marker),
true);
}
} else {
yield call(sync_env->error_logger->log_error_cr(sync_env->conn->get_remote_id(), "data.init", "",
EIO, string("failed to build bucket instances map")));
}
while (collect(&ret, NULL)) {
if (ret < 0) {
yield call(sync_env->error_logger->log_error_cr(sync_env->conn->get_remote_id(), "data.init", "",
-ret, string("failed to store sync status: ") + cpp_strerror(-ret)));
req_ret = ret;
}
yield;
}
drain_all();
if (req_ret < 0) {
yield return set_cr_error(req_ret);
}
yield return set_cr_done();
}
return 0;
}
};
#define DATA_SYNC_UPDATE_MARKER_WINDOW 1
class RGWDataSyncShardMarkerTrack : public RGWSyncShardMarkerTrack<string, string> {
RGWDataSyncEnv *sync_env;
string marker_oid;
rgw_data_sync_marker sync_marker;
map<string, string> key_to_marker;
map<string, string> marker_to_key;
void handle_finish(const string& marker) override {
map<string, string>::iterator iter = marker_to_key.find(marker);
if (iter == marker_to_key.end()) {
return;
}
key_to_marker.erase(iter->second);
reset_need_retry(iter->second);
marker_to_key.erase(iter);
}
RGWSyncTraceNodeRef tn;
public:
RGWDataSyncShardMarkerTrack(RGWDataSyncEnv *_sync_env,
const string& _marker_oid,
const rgw_data_sync_marker& _marker,
RGWSyncTraceNodeRef& _tn) : RGWSyncShardMarkerTrack(DATA_SYNC_UPDATE_MARKER_WINDOW),
sync_env(_sync_env),
marker_oid(_marker_oid),
sync_marker(_marker),
tn(_tn) {}
RGWCoroutine *store_marker(const string& new_marker, uint64_t index_pos, const real_time& timestamp) override {
sync_marker.marker = new_marker;
sync_marker.pos = index_pos;
sync_marker.timestamp = timestamp;
tn->log(20, SSTR("updating marker marker_oid=" << marker_oid << " marker=" << new_marker));
RGWRados *store = sync_env->store;
return new RGWSimpleRadosWriteCR<rgw_data_sync_marker>(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, marker_oid),
sync_marker);
}
/*
* create index from key -> marker, and from marker -> key
* this is useful so that we can insure that we only have one
* entry for any key that is used. This is needed when doing
* incremenatl sync of data, and we don't want to run multiple
* concurrent sync operations for the same bucket shard
*/
bool index_key_to_marker(const string& key, const string& marker) {
if (key_to_marker.find(key) != key_to_marker.end()) {
set_need_retry(key);
return false;
}
key_to_marker[key] = marker;
marker_to_key[marker] = key;
return true;
}
RGWOrderCallCR *allocate_order_control_cr() override {
return new RGWLastCallerWinsCR(sync_env->cct);
}
};
// ostream wrappers to print buckets without copying strings
struct bucket_str {
const rgw_bucket& b;
explicit bucket_str(const rgw_bucket& b) : b(b) {}
};
std::ostream& operator<<(std::ostream& out, const bucket_str& rhs) {
auto& b = rhs.b;
if (!b.tenant.empty()) {
out << b.tenant << '/';
}
out << b.name;
if (!b.bucket_id.empty()) {
out << ':' << b.bucket_id;
}
return out;
}
struct bucket_str_noinstance {
const rgw_bucket& b;
explicit bucket_str_noinstance(const rgw_bucket& b) : b(b) {}
};
std::ostream& operator<<(std::ostream& out, const bucket_str_noinstance& rhs) {
auto& b = rhs.b;
if (!b.tenant.empty()) {
out << b.tenant << '/';
}
out << b.name;
return out;
}
struct bucket_shard_str {
const rgw_bucket_shard& bs;
explicit bucket_shard_str(const rgw_bucket_shard& bs) : bs(bs) {}
};
std::ostream& operator<<(std::ostream& out, const bucket_shard_str& rhs) {
auto& bs = rhs.bs;
out << bucket_str{bs.bucket};
if (bs.shard_id >= 0) {
out << ':' << bs.shard_id;
}
return out;
}
class RGWRunBucketSyncCoroutine : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
rgw_bucket_shard bs;
RGWBucketInfo bucket_info;
rgw_bucket_shard_sync_info sync_status;
RGWMetaSyncEnv meta_sync_env;
const std::string status_oid;
boost::intrusive_ptr<RGWContinuousLeaseCR> lease_cr;
boost::intrusive_ptr<RGWCoroutinesStack> lease_stack;
RGWSyncTraceNodeRef tn;
public:
RGWRunBucketSyncCoroutine(RGWDataSyncEnv *_sync_env, const rgw_bucket_shard& bs, const RGWSyncTraceNodeRef& _tn_parent)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env), bs(bs),
status_oid(RGWBucketSyncStatusManager::status_oid(sync_env->source_zone, bs)),
tn(sync_env->sync_tracer->add_node(_tn_parent, "bucket",
SSTR(bucket_shard_str{bs}))) {
}
~RGWRunBucketSyncCoroutine() override {
if (lease_cr) {
lease_cr->abort();
}
}
int operate() override;
};
class RGWDataSyncSingleEntryCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
string raw_key;
string entry_marker;
rgw_bucket_shard bs;
int sync_status;
bufferlist md_bl;
RGWDataSyncShardMarkerTrack *marker_tracker;
boost::intrusive_ptr<RGWOmapAppend> error_repo;
bool remove_from_repo;
set<string> keys;
RGWSyncTraceNodeRef tn;
public:
RGWDataSyncSingleEntryCR(RGWDataSyncEnv *_sync_env,
const string& _raw_key, const string& _entry_marker, RGWDataSyncShardMarkerTrack *_marker_tracker,
RGWOmapAppend *_error_repo, bool _remove_from_repo, const RGWSyncTraceNodeRef& _tn_parent) : RGWCoroutine(_sync_env->cct),
sync_env(_sync_env),
raw_key(_raw_key), entry_marker(_entry_marker),
sync_status(0),
marker_tracker(_marker_tracker),
error_repo(_error_repo), remove_from_repo(_remove_from_repo) {
set_description() << "data sync single entry (source_zone=" << sync_env->source_zone << ") key=" <<_raw_key << " entry=" << entry_marker;
tn = sync_env->sync_tracer->add_node(_tn_parent, "entry", raw_key);
}
int operate() override {
reenter(this) {
do {
yield {
int ret = rgw_bucket_parse_bucket_key(sync_env->cct, raw_key,
&bs.bucket, &bs.shard_id);
if (ret < 0) {
return set_cr_error(-EIO);
}
if (marker_tracker) {
marker_tracker->reset_need_retry(raw_key);
}
tn->log(0, SSTR("triggering sync of bucket/shard " << bucket_shard_str{bs}));
call(new RGWRunBucketSyncCoroutine(sync_env, bs, tn));
}
} while (marker_tracker && marker_tracker->need_retry(raw_key));
sync_status = retcode;
if (sync_status == -ENOENT) {
// this was added when 'tenant/' was added to datalog entries, because
// preexisting tenant buckets could never sync and would stay in the
// error_repo forever
tn->log(0, SSTR("WARNING: skipping data log entry for missing bucket " << raw_key));
sync_status = 0;
}
if (sync_status < 0) {
// write actual sync failures for 'radosgw-admin sync error list'
if (sync_status != -EBUSY && sync_status != -EAGAIN) {
yield call(sync_env->error_logger->log_error_cr(sync_env->conn->get_remote_id(), "data", raw_key,
-sync_status, string("failed to sync bucket instance: ") + cpp_strerror(-sync_status)));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to log sync failure: retcode=" << retcode));
}
}
if (error_repo && !error_repo->append(raw_key)) {
tn->log(0, SSTR("ERROR: failed to log sync failure in error repo: retcode=" << retcode));
}
} else if (error_repo && remove_from_repo) {
keys = {raw_key};
yield call(new RGWRadosRemoveOmapKeysCR(sync_env->store, error_repo->get_obj(), keys));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to remove omap key from error repo ("
<< error_repo->get_obj() << " retcode=" << retcode));
}
}
/* FIXME: what do do in case of error */
if (marker_tracker && !entry_marker.empty()) {
/* update marker */
yield call(marker_tracker->finish(entry_marker));
}
if (sync_status == 0) {
sync_status = retcode;
}
if (sync_status < 0) {
return set_cr_error(sync_status);
}
return set_cr_done();
}
return 0;
}
};
#define BUCKET_SHARD_SYNC_SPAWN_WINDOW 20
#define DATA_SYNC_MAX_ERR_ENTRIES 10
class RGWDataSyncShardCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
rgw_pool pool;
uint32_t shard_id;
rgw_data_sync_marker sync_marker;
RGWRadosGetOmapKeysCR::ResultPtr omapkeys;
std::set<std::string> entries;
std::set<std::string>::iterator iter;
string oid;
RGWDataSyncShardMarkerTrack *marker_tracker;
std::string next_marker;
list<rgw_data_change_log_entry> log_entries;
list<rgw_data_change_log_entry>::iterator log_iter;
bool truncated;
Mutex inc_lock;
Cond inc_cond;
boost::asio::coroutine incremental_cr;
boost::asio::coroutine full_cr;
set<string> modified_shards;
set<string> current_modified;
set<string>::iterator modified_iter;
int total_entries;
int spawn_window;
bool *reset_backoff;
boost::intrusive_ptr<RGWContinuousLeaseCR> lease_cr;
boost::intrusive_ptr<RGWCoroutinesStack> lease_stack;
string status_oid;
string error_oid;
RGWOmapAppend *error_repo;
std::set<std::string> error_entries;
string error_marker;
int max_error_entries;
ceph::coarse_real_time error_retry_time;
#define RETRY_BACKOFF_SECS_MIN 60
#define RETRY_BACKOFF_SECS_DEFAULT 60
#define RETRY_BACKOFF_SECS_MAX 600
uint32_t retry_backoff_secs;
RGWSyncTraceNodeRef tn;
public:
RGWDataSyncShardCR(RGWDataSyncEnv *_sync_env,
rgw_pool& _pool,
uint32_t _shard_id, const rgw_data_sync_marker& _marker,
RGWSyncTraceNodeRef& _tn,
bool *_reset_backoff) : RGWCoroutine(_sync_env->cct),
sync_env(_sync_env),
pool(_pool),
shard_id(_shard_id),
sync_marker(_marker),
marker_tracker(NULL), truncated(false), inc_lock("RGWDataSyncShardCR::inc_lock"),
total_entries(0), spawn_window(BUCKET_SHARD_SYNC_SPAWN_WINDOW), reset_backoff(NULL),
lease_cr(nullptr), lease_stack(nullptr), error_repo(nullptr), max_error_entries(DATA_SYNC_MAX_ERR_ENTRIES),
retry_backoff_secs(RETRY_BACKOFF_SECS_DEFAULT), tn(_tn) {
set_description() << "data sync shard source_zone=" << sync_env->source_zone << " shard_id=" << shard_id;
status_oid = RGWDataSyncStatusManager::shard_obj_name(sync_env->source_zone, shard_id);
error_oid = status_oid + ".retry";
}
~RGWDataSyncShardCR() override {
delete marker_tracker;
if (lease_cr) {
lease_cr->abort();
}
if (error_repo) {
error_repo->put();
}
}
void append_modified_shards(set<string>& keys) {
Mutex::Locker l(inc_lock);
modified_shards.insert(keys.begin(), keys.end());
}
void set_marker_tracker(RGWDataSyncShardMarkerTrack *mt) {
delete marker_tracker;
marker_tracker = mt;
}
int operate() override {
int r;
while (true) {
switch (sync_marker.state) {
case rgw_data_sync_marker::FullSync:
r = full_sync();
if (r < 0) {
if (r != -EBUSY) {
tn->log(10, SSTR("full sync failed (r=" << r << ")"));
}
return set_cr_error(r);
}
return 0;
case rgw_data_sync_marker::IncrementalSync:
r = incremental_sync();
if (r < 0) {
if (r != -EBUSY) {
tn->log(10, SSTR("incremental sync failed (r=" << r << ")"));
}
return set_cr_error(r);
}
return 0;
default:
return set_cr_error(-EIO);
}
}
return 0;
}
void init_lease_cr() {
set_status("acquiring sync lock");
uint32_t lock_duration = cct->_conf->rgw_sync_lease_period;
string lock_name = "sync_lock";
if (lease_cr) {
lease_cr->abort();
}
RGWRados *store = sync_env->store;
lease_cr.reset(new RGWContinuousLeaseCR(sync_env->async_rados, store,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, status_oid),
lock_name, lock_duration, this));
lease_stack.reset(spawn(lease_cr.get(), false));
}
int full_sync() {
#define OMAP_GET_MAX_ENTRIES 100
int max_entries = OMAP_GET_MAX_ENTRIES;
reenter(&full_cr) {
tn->log(10, "start full sync");
yield init_lease_cr();
while (!lease_cr->is_locked()) {
if (lease_cr->is_done()) {
tn->log(5, "failed to take lease");
set_status("lease lock failed, early abort");
drain_all();
return set_cr_error(lease_cr->get_ret_status());
}
set_sleeping(true);
yield;
}
tn->log(10, "took lease");
oid = full_data_sync_index_shard_oid(sync_env->source_zone, shard_id);
set_marker_tracker(new RGWDataSyncShardMarkerTrack(sync_env, status_oid, sync_marker, tn));
total_entries = sync_marker.pos;
do {
if (!lease_cr->is_locked()) {
stop_spawned_services();
drain_all();
return set_cr_error(-ECANCELED);
}
omapkeys = std::make_shared<RGWRadosGetOmapKeysCR::Result>();
yield call(new RGWRadosGetOmapKeysCR(sync_env->store, rgw_raw_obj(pool, oid),
sync_marker.marker, max_entries, omapkeys));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: RGWRadosGetOmapKeysCR() returned ret=" << retcode));
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
entries = std::move(omapkeys->entries);
if (entries.size() > 0) {
tn->set_flag(RGW_SNS_FLAG_ACTIVE); /* actually have entries to sync */
}
tn->log(20, SSTR("retrieved " << entries.size() << " entries to sync"));
iter = entries.begin();
for (; iter != entries.end(); ++iter) {
tn->log(20, SSTR("full sync: " << *iter));
total_entries++;
if (!marker_tracker->start(*iter, total_entries, real_time())) {
tn->log(0, SSTR("ERROR: cannot start syncing " << *iter << ". Duplicate entry?"));
} else {
// fetch remote and write locally
yield spawn(new RGWDataSyncSingleEntryCR(sync_env, *iter, *iter, marker_tracker, error_repo, false, tn), false);
}
sync_marker.marker = *iter;
while ((int)num_spawned() > spawn_window) {
set_status() << "num_spawned() > spawn_window";
yield wait_for_child();
int ret;
while (collect(&ret, lease_stack.get())) {
if (ret < 0) {
tn->log(10, "a sync operation returned error");
}
}
}
}
} while (omapkeys->more);
omapkeys.reset();
drain_all_but_stack(lease_stack.get());
tn->unset_flag(RGW_SNS_FLAG_ACTIVE);
yield {
/* update marker to reflect we're done with full sync */
sync_marker.state = rgw_data_sync_marker::IncrementalSync;
sync_marker.marker = sync_marker.next_step_marker;
sync_marker.next_step_marker.clear();
RGWRados *store = sync_env->store;
call(new RGWSimpleRadosWriteCR<rgw_data_sync_marker>(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, status_oid),
sync_marker));
}
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to set sync marker: retcode=" << retcode));
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
// keep lease and transition to incremental_sync()
}
return 0;
}
int incremental_sync() {
reenter(&incremental_cr) {
tn->log(10, "start incremental sync");
if (lease_cr) {
tn->log(10, "lease already held from full sync");
} else {
yield init_lease_cr();
while (!lease_cr->is_locked()) {
if (lease_cr->is_done()) {
tn->log(5, "failed to take lease");
set_status("lease lock failed, early abort");
drain_all();
return set_cr_error(lease_cr->get_ret_status());
}
set_sleeping(true);
yield;
}
set_status("lease acquired");
tn->log(10, "took lease");
}
error_repo = new RGWOmapAppend(sync_env->async_rados, sync_env->store,
rgw_raw_obj(pool, error_oid),
1 /* no buffer */);
error_repo->get();
spawn(error_repo, false);
set_marker_tracker(new RGWDataSyncShardMarkerTrack(sync_env, status_oid, sync_marker, tn));
do {
if (!lease_cr->is_locked()) {
stop_spawned_services();
drain_all();
return set_cr_error(-ECANCELED);
}
current_modified.clear();
inc_lock.Lock();
current_modified.swap(modified_shards);
inc_lock.Unlock();
if (current_modified.size() > 0) {
tn->set_flag(RGW_SNS_FLAG_ACTIVE); /* actually have entries to sync */
}
/* process out of band updates */
for (modified_iter = current_modified.begin(); modified_iter != current_modified.end(); ++modified_iter) {
yield {
tn->log(20, SSTR("received async update notification: " << *modified_iter));
spawn(new RGWDataSyncSingleEntryCR(sync_env, *modified_iter, string(), marker_tracker, error_repo, false, tn), false);
}
}
if (error_retry_time <= ceph::coarse_real_clock::now()) {
/* process bucket shards that previously failed */
omapkeys = std::make_shared<RGWRadosGetOmapKeysCR::Result>();
yield call(new RGWRadosGetOmapKeysCR(sync_env->store, rgw_raw_obj(pool, error_oid),
error_marker, max_error_entries, omapkeys));
error_entries = std::move(omapkeys->entries);
tn->log(20, SSTR("read error repo, got " << error_entries.size() << " entries"));
iter = error_entries.begin();
for (; iter != error_entries.end(); ++iter) {
error_marker = *iter;
tn->log(20, SSTR("handle error entry: " << error_marker));
spawn(new RGWDataSyncSingleEntryCR(sync_env, error_marker, error_marker, nullptr /* no marker tracker */, error_repo, true, tn), false);
}
if (!omapkeys->more) {
if (error_marker.empty() && error_entries.empty()) {
/* the retry repo is empty, we back off a bit before calling it again */
retry_backoff_secs *= 2;
if (retry_backoff_secs > RETRY_BACKOFF_SECS_MAX) {
retry_backoff_secs = RETRY_BACKOFF_SECS_MAX;
}
} else {
retry_backoff_secs = RETRY_BACKOFF_SECS_DEFAULT;
}
error_retry_time = ceph::coarse_real_clock::now() + make_timespan(retry_backoff_secs);
error_marker.clear();
}
}
omapkeys.reset();
tn->log(20, SSTR("shard_id=" << shard_id << " sync_marker=" << sync_marker.marker));
yield call(new RGWReadRemoteDataLogShardCR(sync_env, shard_id, sync_marker.marker,
&next_marker, &log_entries, &truncated));
if (retcode < 0 && retcode != -ENOENT) {
tn->log(0, SSTR("ERROR: failed to read remote data log info: ret=" << retcode));
stop_spawned_services();
drain_all();
return set_cr_error(retcode);
}
if (log_entries.size() > 0) {
tn->set_flag(RGW_SNS_FLAG_ACTIVE); /* actually have entries to sync */
}
for (log_iter = log_entries.begin(); log_iter != log_entries.end(); ++log_iter) {
tn->log(20, SSTR("shard_id=" << shard_id << " log_entry: " << log_iter->log_id << ":" << log_iter->log_timestamp << ":" << log_iter->entry.key));
if (!marker_tracker->index_key_to_marker(log_iter->entry.key, log_iter->log_id)) {
tn->log(20, SSTR("skipping sync of entry: " << log_iter->log_id << ":" << log_iter->entry.key << " sync already in progress for bucket shard"));
marker_tracker->try_update_high_marker(log_iter->log_id, 0, log_iter->log_timestamp);
continue;
}
if (!marker_tracker->start(log_iter->log_id, 0, log_iter->log_timestamp)) {
tn->log(0, SSTR("ERROR: cannot start syncing " << log_iter->log_id << ". Duplicate entry?"));
} else {
spawn(new RGWDataSyncSingleEntryCR(sync_env, log_iter->entry.key, log_iter->log_id, marker_tracker, error_repo, false, tn), false);
}
while ((int)num_spawned() > spawn_window) {
set_status() << "num_spawned() > spawn_window";
yield wait_for_child();
int ret;
while (collect(&ret, lease_stack.get())) {
if (ret < 0) {
tn->log(10, "a sync operation returned error");
/* we have reported this error */
}
/* not waiting for child here */
}
}
}
tn->log(20, SSTR("shard_id=" << shard_id << " sync_marker=" << sync_marker.marker
<< " next_marker=" << next_marker << " truncated=" << truncated));
if (!next_marker.empty()) {
sync_marker.marker = next_marker;
} else if (!log_entries.empty()) {
sync_marker.marker = log_entries.back().log_id;
}
if (!truncated) {
// we reached the end, wait a while before checking for more
tn->unset_flag(RGW_SNS_FLAG_ACTIVE);
yield wait(get_idle_interval());
}
} while (true);
}
return 0;
}
utime_t get_idle_interval() const {
#define INCREMENTAL_INTERVAL 20
ceph::timespan interval = std::chrono::seconds(INCREMENTAL_INTERVAL);
if (!ceph::coarse_real_clock::is_zero(error_retry_time)) {
auto now = ceph::coarse_real_clock::now();
if (error_retry_time > now) {
auto d = error_retry_time - now;
if (interval > d) {
interval = d;
}
}
}
// convert timespan -> time_point -> utime_t
return utime_t(ceph::coarse_real_clock::zero() + interval);
}
void stop_spawned_services() {
lease_cr->go_down();
if (error_repo) {
error_repo->finish();
error_repo->put();
error_repo = NULL;
}
}
};
class RGWDataSyncShardControlCR : public RGWBackoffControlCR {
RGWDataSyncEnv *sync_env;
rgw_pool pool;
uint32_t shard_id;
rgw_data_sync_marker sync_marker;
RGWSyncTraceNodeRef tn;
public:
RGWDataSyncShardControlCR(RGWDataSyncEnv *_sync_env, const rgw_pool& _pool,
uint32_t _shard_id, rgw_data_sync_marker& _marker,
RGWSyncTraceNodeRef& _tn_parent) : RGWBackoffControlCR(_sync_env->cct, false),
sync_env(_sync_env),
pool(_pool),
shard_id(_shard_id),
sync_marker(_marker) {
tn = sync_env->sync_tracer->add_node(_tn_parent, "shard", std::to_string(shard_id));
}
RGWCoroutine *alloc_cr() override {
return new RGWDataSyncShardCR(sync_env, pool, shard_id, sync_marker, tn, backoff_ptr());
}
RGWCoroutine *alloc_finisher_cr() override {
RGWRados *store = sync_env->store;
return new RGWSimpleRadosReadCR<rgw_data_sync_marker>(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, RGWDataSyncStatusManager::shard_obj_name(sync_env->source_zone, shard_id)),
&sync_marker);
}
void append_modified_shards(set<string>& keys) {
Mutex::Locker l(cr_lock());
RGWDataSyncShardCR *cr = static_cast<RGWDataSyncShardCR *>(get_cr());
if (!cr) {
return;
}
cr->append_modified_shards(keys);
}
};
class RGWDataSyncCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
uint32_t num_shards;
rgw_data_sync_status sync_status;
RGWDataSyncShardMarkerTrack *marker_tracker;
Mutex shard_crs_lock;
map<int, RGWDataSyncShardControlCR *> shard_crs;
bool *reset_backoff;
RGWSyncTraceNodeRef tn;
RGWDataSyncModule *data_sync_module{nullptr};
public:
RGWDataSyncCR(RGWDataSyncEnv *_sync_env, uint32_t _num_shards, RGWSyncTraceNodeRef& _tn, bool *_reset_backoff) : RGWCoroutine(_sync_env->cct),
sync_env(_sync_env),
num_shards(_num_shards),
marker_tracker(NULL),
shard_crs_lock("RGWDataSyncCR::shard_crs_lock"),
reset_backoff(_reset_backoff), tn(_tn) {
}
~RGWDataSyncCR() override {
for (auto iter : shard_crs) {
iter.second->put();
}
}
int operate() override {
reenter(this) {
/* read sync status */
yield call(new RGWReadDataSyncStatusCoroutine(sync_env, &sync_status));
data_sync_module = sync_env->sync_module->get_data_handler();
if (retcode < 0 && retcode != -ENOENT) {
tn->log(0, SSTR("ERROR: failed to fetch sync status, retcode=" << retcode));
return set_cr_error(retcode);
}
/* state: init status */
if ((rgw_data_sync_info::SyncState)sync_status.sync_info.state == rgw_data_sync_info::StateInit) {
tn->log(20, SSTR("init"));
sync_status.sync_info.num_shards = num_shards;
uint64_t instance_id;
instance_id = ceph::util::generate_random_number<uint64_t>();
yield call(new RGWInitDataSyncStatusCoroutine(sync_env, num_shards, instance_id, tn, &sync_status));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to init sync, retcode=" << retcode));
return set_cr_error(retcode);
}
// sets state = StateBuildingFullSyncMaps
*reset_backoff = true;
}
data_sync_module->init(sync_env, sync_status.sync_info.instance_id);
if ((rgw_data_sync_info::SyncState)sync_status.sync_info.state == rgw_data_sync_info::StateBuildingFullSyncMaps) {
tn->log(10, SSTR("building full sync maps"));
/* call sync module init here */
sync_status.sync_info.num_shards = num_shards;
yield call(data_sync_module->init_sync(sync_env));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: sync module init_sync() failed, retcode=" << retcode));
return set_cr_error(retcode);
}
/* state: building full sync maps */
yield call(new RGWListBucketIndexesCR(sync_env, &sync_status));
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to build full sync maps, retcode=" << retcode));
return set_cr_error(retcode);
}
sync_status.sync_info.state = rgw_data_sync_info::StateSync;
/* update new state */
yield call(set_sync_info_cr());
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to write sync status, retcode=" << retcode));
return set_cr_error(retcode);
}
*reset_backoff = true;
}
yield call(data_sync_module->start_sync(sync_env));
yield {
if ((rgw_data_sync_info::SyncState)sync_status.sync_info.state == rgw_data_sync_info::StateSync) {
tn->log(10, SSTR("spawning " << num_shards << " shards sync"));
for (map<uint32_t, rgw_data_sync_marker>::iterator iter = sync_status.sync_markers.begin();
iter != sync_status.sync_markers.end(); ++iter) {
RGWDataSyncShardControlCR *cr = new RGWDataSyncShardControlCR(sync_env, sync_env->store->svc.zone->get_zone_params().log_pool,
iter->first, iter->second, tn);
cr->get();
shard_crs_lock.Lock();
shard_crs[iter->first] = cr;
shard_crs_lock.Unlock();
spawn(cr, true);
}
}
}
return set_cr_done();
}
return 0;
}
RGWCoroutine *set_sync_info_cr() {
RGWRados *store = sync_env->store;
return new RGWSimpleRadosWriteCR<rgw_data_sync_info>(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, RGWDataSyncStatusManager::sync_status_oid(sync_env->source_zone)),
sync_status.sync_info);
}
void wakeup(int shard_id, set<string>& keys) {
Mutex::Locker l(shard_crs_lock);
map<int, RGWDataSyncShardControlCR *>::iterator iter = shard_crs.find(shard_id);
if (iter == shard_crs.end()) {
return;
}
iter->second->append_modified_shards(keys);
iter->second->wakeup();
}
};
class RGWDefaultDataSyncModule : public RGWDataSyncModule {
public:
RGWDefaultDataSyncModule() {}
RGWCoroutine *sync_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, std::optional<uint64_t> versioned_epoch, rgw_zone_set *zones_trace) override;
RGWCoroutine *remove_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, real_time& mtime, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace) override;
RGWCoroutine *create_delete_marker(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, real_time& mtime,
rgw_bucket_entry_owner& owner, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace) override;
};
class RGWDefaultSyncModuleInstance : public RGWSyncModuleInstance {
RGWDefaultDataSyncModule data_handler;
public:
RGWDefaultSyncModuleInstance() {}
RGWDataSyncModule *get_data_handler() override {
return &data_handler;
}
bool supports_user_writes() override {
return true;
}
};
int RGWDefaultSyncModule::create_instance(CephContext *cct, const JSONFormattable& config, RGWSyncModuleInstanceRef *instance)
{
instance->reset(new RGWDefaultSyncModuleInstance());
return 0;
}
RGWCoroutine *RGWDefaultDataSyncModule::sync_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, std::optional<uint64_t> versioned_epoch, rgw_zone_set *zones_trace)
{
return new RGWFetchRemoteObjCR(sync_env->async_rados, sync_env->store, sync_env->source_zone, bucket_info,
std::nullopt,
key, std::nullopt, versioned_epoch,
true, zones_trace, sync_env->counters);
}
RGWCoroutine *RGWDefaultDataSyncModule::remove_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key,
real_time& mtime, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace)
{
return new RGWRemoveObjCR(sync_env->async_rados, sync_env->store, sync_env->source_zone,
bucket_info, key, versioned, versioned_epoch,
NULL, NULL, false, &mtime, zones_trace);
}
RGWCoroutine *RGWDefaultDataSyncModule::create_delete_marker(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, real_time& mtime,
rgw_bucket_entry_owner& owner, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace)
{
return new RGWRemoveObjCR(sync_env->async_rados, sync_env->store, sync_env->source_zone,
bucket_info, key, versioned, versioned_epoch,
&owner.id, &owner.display_name, true, &mtime, zones_trace);
}
class RGWArchiveDataSyncModule : public RGWDefaultDataSyncModule {
public:
RGWArchiveDataSyncModule() {}
RGWCoroutine *sync_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, std::optional<uint64_t> versioned_epoch, rgw_zone_set *zones_trace) override;
RGWCoroutine *remove_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, real_time& mtime, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace) override;
RGWCoroutine *create_delete_marker(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, real_time& mtime,
rgw_bucket_entry_owner& owner, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace) override;
};
class RGWArchiveSyncModuleInstance : public RGWDefaultSyncModuleInstance {
RGWArchiveDataSyncModule data_handler;
public:
RGWArchiveSyncModuleInstance() {}
RGWDataSyncModule *get_data_handler() override {
return &data_handler;
}
RGWMetadataHandler *alloc_bucket_meta_handler() override {
return RGWArchiveBucketMetaHandlerAllocator::alloc();
}
RGWMetadataHandler *alloc_bucket_instance_meta_handler() override {
return RGWArchiveBucketInstanceMetaHandlerAllocator::alloc();
}
};
int RGWArchiveSyncModule::create_instance(CephContext *cct, const JSONFormattable& config, RGWSyncModuleInstanceRef *instance)
{
instance->reset(new RGWArchiveSyncModuleInstance());
return 0;
}
RGWCoroutine *RGWArchiveDataSyncModule::sync_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, std::optional<uint64_t> versioned_epoch, rgw_zone_set *zones_trace)
{
ldout(sync_env->cct, 5) << "SYNC_ARCHIVE: sync_object: b=" << bucket_info.bucket << " k=" << key << " versioned_epoch=" << versioned_epoch.value_or(0) << dendl;
if (!bucket_info.versioned() ||
(bucket_info.flags & BUCKET_VERSIONS_SUSPENDED)) {
ldout(sync_env->cct, 0) << "SYNC_ARCHIVE: sync_object: enabling object versioning for archive bucket" << dendl;
bucket_info.flags = (bucket_info.flags & ~BUCKET_VERSIONS_SUSPENDED) | BUCKET_VERSIONED;
int op_ret = sync_env->store->put_bucket_instance_info(bucket_info, false, real_time(), NULL);
if (op_ret < 0) {
ldout(sync_env->cct, 0) << "SYNC_ARCHIVE: sync_object: error versioning archive bucket" << dendl;
return NULL;
}
}
std::optional<rgw_obj_key> dest_key;
if (versioned_epoch.value_or(0) == 0) { /* force version if not set */
versioned_epoch = 0;
dest_key = key;
if (key.instance.empty()) {
sync_env->store->gen_rand_obj_instance_name(&(*dest_key));
}
}
return new RGWFetchRemoteObjCR(sync_env->async_rados, sync_env->store, sync_env->source_zone,
bucket_info, std::nullopt,
key, dest_key, versioned_epoch,
true, zones_trace, nullptr);
}
RGWCoroutine *RGWArchiveDataSyncModule::remove_object(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key,
real_time& mtime, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace)
{
ldout(sync_env->cct, 0) << "SYNC_ARCHIVE: remove_object: b=" << bucket_info.bucket << " k=" << key << " versioned_epoch=" << versioned_epoch << dendl;
return NULL;
}
RGWCoroutine *RGWArchiveDataSyncModule::create_delete_marker(RGWDataSyncEnv *sync_env, RGWBucketInfo& bucket_info, rgw_obj_key& key, real_time& mtime,
rgw_bucket_entry_owner& owner, bool versioned, uint64_t versioned_epoch, rgw_zone_set *zones_trace)
{
ldout(sync_env->cct, 0) << "SYNC_ARCHIVE: create_delete_marker: b=" << bucket_info.bucket << " k=" << key << " mtime=" << mtime
<< " versioned=" << versioned << " versioned_epoch=" << versioned_epoch << dendl;
return new RGWRemoveObjCR(sync_env->async_rados, sync_env->store, sync_env->source_zone,
bucket_info, key, versioned, versioned_epoch,
&owner.id, &owner.display_name, true, &mtime, zones_trace);
}
class RGWDataSyncControlCR : public RGWBackoffControlCR
{
RGWDataSyncEnv *sync_env;
uint32_t num_shards;
RGWSyncTraceNodeRef tn;
static constexpr bool exit_on_error = false; // retry on all errors
public:
RGWDataSyncControlCR(RGWDataSyncEnv *_sync_env, uint32_t _num_shards,
RGWSyncTraceNodeRef& _tn_parent) : RGWBackoffControlCR(_sync_env->cct, exit_on_error),
sync_env(_sync_env), num_shards(_num_shards) {
tn = sync_env->sync_tracer->add_node(_tn_parent, "sync");
}
RGWCoroutine *alloc_cr() override {
return new RGWDataSyncCR(sync_env, num_shards, tn, backoff_ptr());
}
void wakeup(int shard_id, set<string>& keys) {
Mutex& m = cr_lock();
m.Lock();
RGWDataSyncCR *cr = static_cast<RGWDataSyncCR *>(get_cr());
if (!cr) {
m.Unlock();
return;
}
cr->get();
m.Unlock();
if (cr) {
tn->log(20, SSTR("notify shard=" << shard_id << " keys=" << keys));
cr->wakeup(shard_id, keys);
}
cr->put();
}
};
void RGWRemoteDataLog::wakeup(int shard_id, set<string>& keys) {
RWLock::RLocker rl(lock);
if (!data_sync_cr) {
return;
}
data_sync_cr->wakeup(shard_id, keys);
}
int RGWRemoteDataLog::run_sync(int num_shards)
{
lock.get_write();
data_sync_cr = new RGWDataSyncControlCR(&sync_env, num_shards, tn);
data_sync_cr->get(); // run() will drop a ref, so take another
lock.unlock();
int r = run(data_sync_cr);
lock.get_write();
data_sync_cr->put();
data_sync_cr = NULL;
lock.unlock();
if (r < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to run sync" << dendl;
return r;
}
return 0;
}
int RGWDataSyncStatusManager::init()
{
RGWZone *zone_def;
if (!store->svc.zone->find_zone_by_id(source_zone, &zone_def)) {
ldpp_dout(this, 0) << "ERROR: failed to find zone config info for zone=" << source_zone << dendl;
return -EIO;
}
if (!store->svc.sync_modules->get_manager()->supports_data_export(zone_def->tier_type)) {
return -ENOTSUP;
}
const RGWZoneParams& zone_params = store->svc.zone->get_zone_params();
if (sync_module == nullptr) {
sync_module = store->get_sync_module();
}
conn = store->svc.zone->get_zone_conn_by_id(source_zone);
if (!conn) {
ldpp_dout(this, 0) << "connection object to zone " << source_zone << " does not exist" << dendl;
return -EINVAL;
}
error_logger = new RGWSyncErrorLogger(store, RGW_SYNC_ERROR_LOG_SHARD_PREFIX, ERROR_LOGGER_SHARDS);
int r = source_log.init(source_zone, conn, error_logger, store->get_sync_tracer(),
sync_module, counters);
if (r < 0) {
ldpp_dout(this, 0) << "ERROR: failed to init remote log, r=" << r << dendl;
finalize();
return r;
}
rgw_datalog_info datalog_info;
r = source_log.read_log_info(&datalog_info);
if (r < 0) {
ldpp_dout(this, 5) << "ERROR: master.read_log_info() returned r=" << r << dendl;
finalize();
return r;
}
num_shards = datalog_info.num_shards;
for (int i = 0; i < num_shards; i++) {
shard_objs[i] = rgw_raw_obj(zone_params.log_pool, shard_obj_name(source_zone, i));
}
return 0;
}
void RGWDataSyncStatusManager::finalize()
{
delete error_logger;
error_logger = nullptr;
}
unsigned RGWDataSyncStatusManager::get_subsys() const
{
return dout_subsys;
}
std::ostream& RGWDataSyncStatusManager::gen_prefix(std::ostream& out) const
{
auto zone = std::string_view{source_zone};
return out << "data sync zone:" << zone.substr(0, 8) << ' ';
}
string RGWDataSyncStatusManager::sync_status_oid(const string& source_zone)
{
char buf[datalog_sync_status_oid_prefix.size() + source_zone.size() + 16];
snprintf(buf, sizeof(buf), "%s.%s", datalog_sync_status_oid_prefix.c_str(), source_zone.c_str());
return string(buf);
}
string RGWDataSyncStatusManager::shard_obj_name(const string& source_zone, int shard_id)
{
char buf[datalog_sync_status_shard_prefix.size() + source_zone.size() + 16];
snprintf(buf, sizeof(buf), "%s.%s.%d", datalog_sync_status_shard_prefix.c_str(), source_zone.c_str(), shard_id);
return string(buf);
}
int RGWRemoteBucketLog::init(const string& _source_zone, RGWRESTConn *_conn,
const rgw_bucket& bucket, int shard_id,
RGWSyncErrorLogger *_error_logger,
RGWSyncTraceManager *_sync_tracer,
RGWSyncModuleInstanceRef& _sync_module)
{
conn = _conn;
source_zone = _source_zone;
bs.bucket = bucket;
bs.shard_id = shard_id;
sync_env.init(dpp, store->ctx(), store, conn, async_rados, http_manager,
_error_logger, _sync_tracer, source_zone, _sync_module, nullptr);
return 0;
}
class RGWReadRemoteBucketIndexLogInfoCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
const string instance_key;
rgw_bucket_index_marker_info *info;
public:
RGWReadRemoteBucketIndexLogInfoCR(RGWDataSyncEnv *_sync_env,
const rgw_bucket_shard& bs,
rgw_bucket_index_marker_info *_info)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env),
instance_key(bs.get_key()), info(_info) {}
int operate() override {
reenter(this) {
yield {
rgw_http_param_pair pairs[] = { { "type" , "bucket-index" },
{ "bucket-instance", instance_key.c_str() },
{ "info" , NULL },
{ NULL, NULL } };
string p = "/admin/log/";
call(new RGWReadRESTResourceCR<rgw_bucket_index_marker_info>(sync_env->cct, sync_env->conn, sync_env->http_manager, p, pairs, info));
}
if (retcode < 0) {
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
class RGWInitBucketShardSyncStatusCoroutine : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
rgw_bucket_shard bs;
const string sync_status_oid;
rgw_bucket_shard_sync_info& status;
rgw_bucket_index_marker_info info;
public:
RGWInitBucketShardSyncStatusCoroutine(RGWDataSyncEnv *_sync_env,
const rgw_bucket_shard& bs,
rgw_bucket_shard_sync_info& _status)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env), bs(bs),
sync_status_oid(RGWBucketSyncStatusManager::status_oid(sync_env->source_zone, bs)),
status(_status)
{}
int operate() override {
reenter(this) {
/* fetch current position in logs */
yield call(new RGWReadRemoteBucketIndexLogInfoCR(sync_env, bs, &info));
if (retcode < 0 && retcode != -ENOENT) {
ldout(cct, 0) << "ERROR: failed to fetch bucket index status" << dendl;
return set_cr_error(retcode);
}
yield {
auto store = sync_env->store;
rgw_raw_obj obj(store->svc.zone->get_zone_params().log_pool, sync_status_oid);
if (info.syncstopped) {
call(new RGWRadosRemoveCR(store, obj));
} else {
status.state = rgw_bucket_shard_sync_info::StateFullSync;
status.inc_marker.position = info.max_marker;
map<string, bufferlist> attrs;
status.encode_all_attrs(attrs);
call(new RGWSimpleRadosWriteAttrsCR(sync_env->async_rados, store->svc.sysobj, obj, attrs));
}
}
if (info.syncstopped) {
retcode = -ENOENT;
}
if (retcode < 0) {
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
RGWCoroutine *RGWRemoteBucketLog::init_sync_status_cr()
{
return new RGWInitBucketShardSyncStatusCoroutine(&sync_env, bs, init_status);
}
#define BUCKET_SYNC_ATTR_PREFIX RGW_ATTR_PREFIX "bucket-sync."
template <class T>
static bool decode_attr(CephContext *cct, map<string, bufferlist>& attrs, const string& attr_name, T *val)
{
map<string, bufferlist>::iterator iter = attrs.find(attr_name);
if (iter == attrs.end()) {
*val = T();
return false;
}
auto biter = iter->second.cbegin();
try {
decode(*val, biter);
} catch (buffer::error& err) {
ldout(cct, 0) << "ERROR: failed to decode attribute: " << attr_name << dendl;
return false;
}
return true;
}
void rgw_bucket_shard_sync_info::decode_from_attrs(CephContext *cct, map<string, bufferlist>& attrs)
{
if (!decode_attr(cct, attrs, BUCKET_SYNC_ATTR_PREFIX "state", &state)) {
decode_attr(cct, attrs, "state", &state);
}
if (!decode_attr(cct, attrs, BUCKET_SYNC_ATTR_PREFIX "full_marker", &full_marker)) {
decode_attr(cct, attrs, "full_marker", &full_marker);
}
if (!decode_attr(cct, attrs, BUCKET_SYNC_ATTR_PREFIX "inc_marker", &inc_marker)) {
decode_attr(cct, attrs, "inc_marker", &inc_marker);
}
}
void rgw_bucket_shard_sync_info::encode_all_attrs(map<string, bufferlist>& attrs)
{
encode_state_attr(attrs);
full_marker.encode_attr(attrs);
inc_marker.encode_attr(attrs);
}
void rgw_bucket_shard_sync_info::encode_state_attr(map<string, bufferlist>& attrs)
{
using ceph::encode;
encode(state, attrs[BUCKET_SYNC_ATTR_PREFIX "state"]);
}
void rgw_bucket_shard_full_sync_marker::encode_attr(map<string, bufferlist>& attrs)
{
using ceph::encode;
encode(*this, attrs[BUCKET_SYNC_ATTR_PREFIX "full_marker"]);
}
void rgw_bucket_shard_inc_sync_marker::encode_attr(map<string, bufferlist>& attrs)
{
using ceph::encode;
encode(*this, attrs[BUCKET_SYNC_ATTR_PREFIX "inc_marker"]);
}
class RGWReadBucketSyncStatusCoroutine : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
string oid;
rgw_bucket_shard_sync_info *status;
map<string, bufferlist> attrs;
public:
RGWReadBucketSyncStatusCoroutine(RGWDataSyncEnv *_sync_env,
const rgw_bucket_shard& bs,
rgw_bucket_shard_sync_info *_status)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env),
oid(RGWBucketSyncStatusManager::status_oid(sync_env->source_zone, bs)),
status(_status) {}
int operate() override;
};
int RGWReadBucketSyncStatusCoroutine::operate()
{
reenter(this) {
yield call(new RGWSimpleRadosReadAttrsCR(sync_env->async_rados, sync_env->store->svc.sysobj,
rgw_raw_obj(sync_env->store->svc.zone->get_zone_params().log_pool, oid),
&attrs, true));
if (retcode == -ENOENT) {
*status = rgw_bucket_shard_sync_info();
return set_cr_done();
}
if (retcode < 0) {
ldout(sync_env->cct, 0) << "ERROR: failed to call fetch bucket shard info oid=" << oid << " ret=" << retcode << dendl;
return set_cr_error(retcode);
}
status->decode_from_attrs(sync_env->cct, attrs);
return set_cr_done();
}
return 0;
}
#define OMAP_READ_MAX_ENTRIES 10
class RGWReadRecoveringBucketShardsCoroutine : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
RGWRados *store;
const int shard_id;
int max_entries;
set<string>& recovering_buckets;
string marker;
string error_oid;
RGWRadosGetOmapKeysCR::ResultPtr omapkeys;
set<string> error_entries;
int max_omap_entries;
int count;
public:
RGWReadRecoveringBucketShardsCoroutine(RGWDataSyncEnv *_sync_env, const int _shard_id,
set<string>& _recovering_buckets, const int _max_entries)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env),
store(sync_env->store), shard_id(_shard_id), max_entries(_max_entries),
recovering_buckets(_recovering_buckets), max_omap_entries(OMAP_READ_MAX_ENTRIES)
{
error_oid = RGWDataSyncStatusManager::shard_obj_name(sync_env->source_zone, shard_id) + ".retry";
}
int operate() override;
};
int RGWReadRecoveringBucketShardsCoroutine::operate()
{
reenter(this){
//read recovering bucket shards
count = 0;
do {
omapkeys = std::make_shared<RGWRadosGetOmapKeysCR::Result>();
yield call(new RGWRadosGetOmapKeysCR(store, rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, error_oid),
marker, max_omap_entries, omapkeys));
if (retcode == -ENOENT) {
break;
}
if (retcode < 0) {
ldout(sync_env->cct, 0) << "failed to read recovering bucket shards with "
<< cpp_strerror(retcode) << dendl;
return set_cr_error(retcode);
}
error_entries = std::move(omapkeys->entries);
if (error_entries.empty()) {
break;
}
count += error_entries.size();
marker = *error_entries.rbegin();
recovering_buckets.insert(std::make_move_iterator(error_entries.begin()),
std::make_move_iterator(error_entries.end()));
} while (omapkeys->more && count < max_entries);
return set_cr_done();
}
return 0;
}
class RGWReadPendingBucketShardsCoroutine : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
RGWRados *store;
const int shard_id;
int max_entries;
set<string>& pending_buckets;
string marker;
string status_oid;
rgw_data_sync_marker* sync_marker;
int count;
std::string next_marker;
list<rgw_data_change_log_entry> log_entries;
bool truncated;
public:
RGWReadPendingBucketShardsCoroutine(RGWDataSyncEnv *_sync_env, const int _shard_id,
set<string>& _pending_buckets,
rgw_data_sync_marker* _sync_marker, const int _max_entries)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env),
store(sync_env->store), shard_id(_shard_id), max_entries(_max_entries),
pending_buckets(_pending_buckets), sync_marker(_sync_marker)
{
status_oid = RGWDataSyncStatusManager::shard_obj_name(sync_env->source_zone, shard_id);
}
int operate() override;
};
int RGWReadPendingBucketShardsCoroutine::operate()
{
reenter(this){
//read sync status marker
using CR = RGWSimpleRadosReadCR<rgw_data_sync_marker>;
yield call(new CR(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, status_oid),
sync_marker));
if (retcode < 0) {
ldout(sync_env->cct,0) << "failed to read sync status marker with "
<< cpp_strerror(retcode) << dendl;
return set_cr_error(retcode);
}
//read pending bucket shards
marker = sync_marker->marker;
count = 0;
do{
yield call(new RGWReadRemoteDataLogShardCR(sync_env, shard_id, marker,
&next_marker, &log_entries, &truncated));
if (retcode == -ENOENT) {
break;
}
if (retcode < 0) {
ldout(sync_env->cct,0) << "failed to read remote data log info with "
<< cpp_strerror(retcode) << dendl;
return set_cr_error(retcode);
}
if (log_entries.empty()) {
break;
}
count += log_entries.size();
for (const auto& entry : log_entries) {
pending_buckets.insert(entry.entry.key);
}
}while(truncated && count < max_entries);
return set_cr_done();
}
return 0;
}
int RGWRemoteDataLog::read_shard_status(int shard_id, set<string>& pending_buckets, set<string>& recovering_buckets, rgw_data_sync_marker *sync_marker, const int max_entries)
{
// cannot run concurrently with run_sync(), so run in a separate manager
RGWCoroutinesManager crs(store->ctx(), store->get_cr_registry());
RGWHTTPManager http_manager(store->ctx(), crs.get_completion_mgr());
int ret = http_manager.start();
if (ret < 0) {
ldpp_dout(dpp, 0) << "failed in http_manager.start() ret=" << ret << dendl;
return ret;
}
RGWDataSyncEnv sync_env_local = sync_env;
sync_env_local.http_manager = &http_manager;
list<RGWCoroutinesStack *> stacks;
RGWCoroutinesStack* recovering_stack = new RGWCoroutinesStack(store->ctx(), &crs);
recovering_stack->call(new RGWReadRecoveringBucketShardsCoroutine(&sync_env_local, shard_id, recovering_buckets, max_entries));
stacks.push_back(recovering_stack);
RGWCoroutinesStack* pending_stack = new RGWCoroutinesStack(store->ctx(), &crs);
pending_stack->call(new RGWReadPendingBucketShardsCoroutine(&sync_env_local, shard_id, pending_buckets, sync_marker, max_entries));
stacks.push_back(pending_stack);
ret = crs.run(stacks);
http_manager.stop();
return ret;
}
RGWCoroutine *RGWRemoteBucketLog::read_sync_status_cr(rgw_bucket_shard_sync_info *sync_status)
{
return new RGWReadBucketSyncStatusCoroutine(&sync_env, bs, sync_status);
}
RGWBucketSyncStatusManager::~RGWBucketSyncStatusManager() {
for (map<int, RGWRemoteBucketLog *>::iterator iter = source_logs.begin(); iter != source_logs.end(); ++iter) {
delete iter->second;
}
delete error_logger;
}
void rgw_bucket_entry_owner::decode_json(JSONObj *obj)
{
JSONDecoder::decode_json("ID", id, obj);
JSONDecoder::decode_json("DisplayName", display_name, obj);
}
struct bucket_list_entry {
bool delete_marker;
rgw_obj_key key;
bool is_latest;
real_time mtime;
string etag;
uint64_t size;
string storage_class;
rgw_bucket_entry_owner owner;
uint64_t versioned_epoch;
string rgw_tag;
bucket_list_entry() : delete_marker(false), is_latest(false), size(0), versioned_epoch(0) {}
void decode_json(JSONObj *obj) {
JSONDecoder::decode_json("IsDeleteMarker", delete_marker, obj);
JSONDecoder::decode_json("Key", key.name, obj);
JSONDecoder::decode_json("VersionId", key.instance, obj);
JSONDecoder::decode_json("IsLatest", is_latest, obj);
string mtime_str;
JSONDecoder::decode_json("RgwxMtime", mtime_str, obj);
struct tm t;
uint32_t nsec;
if (parse_iso8601(mtime_str.c_str(), &t, &nsec)) {
ceph_timespec ts;
ts.tv_sec = (uint64_t)internal_timegm(&t);
ts.tv_nsec = nsec;
mtime = real_clock::from_ceph_timespec(ts);
}
JSONDecoder::decode_json("ETag", etag, obj);
JSONDecoder::decode_json("Size", size, obj);
JSONDecoder::decode_json("StorageClass", storage_class, obj);
JSONDecoder::decode_json("Owner", owner, obj);
JSONDecoder::decode_json("VersionedEpoch", versioned_epoch, obj);
JSONDecoder::decode_json("RgwxTag", rgw_tag, obj);
if (key.instance == "null" && !versioned_epoch) {
key.instance.clear();
}
}
RGWModifyOp get_modify_op() const {
if (delete_marker) {
return CLS_RGW_OP_LINK_OLH_DM;
} else if (!key.instance.empty() && key.instance != "null") {
return CLS_RGW_OP_LINK_OLH;
} else {
return CLS_RGW_OP_ADD;
}
}
};
struct bucket_list_result {
string name;
string prefix;
string key_marker;
string version_id_marker;
int max_keys;
bool is_truncated;
list<bucket_list_entry> entries;
bucket_list_result() : max_keys(0), is_truncated(false) {}
void decode_json(JSONObj *obj) {
JSONDecoder::decode_json("Name", name, obj);
JSONDecoder::decode_json("Prefix", prefix, obj);
JSONDecoder::decode_json("KeyMarker", key_marker, obj);
JSONDecoder::decode_json("VersionIdMarker", version_id_marker, obj);
JSONDecoder::decode_json("MaxKeys", max_keys, obj);
JSONDecoder::decode_json("IsTruncated", is_truncated, obj);
JSONDecoder::decode_json("Entries", entries, obj);
}
};
class RGWListBucketShardCR: public RGWCoroutine {
RGWDataSyncEnv *sync_env;
const rgw_bucket_shard& bs;
const string instance_key;
rgw_obj_key marker_position;
bucket_list_result *result;
public:
RGWListBucketShardCR(RGWDataSyncEnv *_sync_env, const rgw_bucket_shard& bs,
rgw_obj_key& _marker_position, bucket_list_result *_result)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env), bs(bs),
instance_key(bs.get_key()), marker_position(_marker_position),
result(_result) {}
int operate() override {
reenter(this) {
yield {
rgw_http_param_pair pairs[] = { { "rgwx-bucket-instance", instance_key.c_str() },
{ "versions" , NULL },
{ "format" , "json" },
{ "objs-container" , "true" },
{ "key-marker" , marker_position.name.c_str() },
{ "version-id-marker" , marker_position.instance.c_str() },
{ NULL, NULL } };
// don't include tenant in the url, it's already part of instance_key
string p = string("/") + bs.bucket.name;
call(new RGWReadRESTResourceCR<bucket_list_result>(sync_env->cct, sync_env->conn, sync_env->http_manager, p, pairs, result));
}
if (retcode < 0) {
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
class RGWListBucketIndexLogCR: public RGWCoroutine {
RGWDataSyncEnv *sync_env;
const string instance_key;
string marker;
list<rgw_bi_log_entry> *result;
std::optional<PerfGuard> timer;
public:
RGWListBucketIndexLogCR(RGWDataSyncEnv *_sync_env, const rgw_bucket_shard& bs,
string& _marker, list<rgw_bi_log_entry> *_result)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env),
instance_key(bs.get_key()), marker(_marker), result(_result) {}
int operate() override {
reenter(this) {
if (sync_env->counters) {
timer.emplace(sync_env->counters, sync_counters::l_poll);
}
yield {
rgw_http_param_pair pairs[] = { { "bucket-instance", instance_key.c_str() },
{ "format" , "json" },
{ "marker" , marker.c_str() },
{ "type", "bucket-index" },
{ NULL, NULL } };
call(new RGWReadRESTResourceCR<list<rgw_bi_log_entry> >(sync_env->cct, sync_env->conn, sync_env->http_manager, "/admin/log", pairs, result));
}
timer.reset();
if (retcode < 0) {
if (sync_env->counters) {
sync_env->counters->inc(sync_counters::l_poll_err);
}
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
#define BUCKET_SYNC_UPDATE_MARKER_WINDOW 10
class RGWBucketFullSyncShardMarkerTrack : public RGWSyncShardMarkerTrack<rgw_obj_key, rgw_obj_key> {
RGWDataSyncEnv *sync_env;
string marker_oid;
rgw_bucket_shard_full_sync_marker sync_marker;
RGWSyncTraceNodeRef tn;
public:
RGWBucketFullSyncShardMarkerTrack(RGWDataSyncEnv *_sync_env,
const string& _marker_oid,
const rgw_bucket_shard_full_sync_marker& _marker) : RGWSyncShardMarkerTrack(BUCKET_SYNC_UPDATE_MARKER_WINDOW),
sync_env(_sync_env),
marker_oid(_marker_oid),
sync_marker(_marker) {}
void set_tn(RGWSyncTraceNodeRef& _tn) {
tn = _tn;
}
RGWCoroutine *store_marker(const rgw_obj_key& new_marker, uint64_t index_pos, const real_time& timestamp) override {
sync_marker.position = new_marker;
sync_marker.count = index_pos;
map<string, bufferlist> attrs;
sync_marker.encode_attr(attrs);
RGWRados *store = sync_env->store;
tn->log(20, SSTR("updating marker marker_oid=" << marker_oid << " marker=" << new_marker));
return new RGWSimpleRadosWriteAttrsCR(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, marker_oid),
attrs);
}
RGWOrderCallCR *allocate_order_control_cr() override {
return new RGWLastCallerWinsCR(sync_env->cct);
}
};
class RGWBucketIncSyncShardMarkerTrack : public RGWSyncShardMarkerTrack<string, rgw_obj_key> {
RGWDataSyncEnv *sync_env;
string marker_oid;
rgw_bucket_shard_inc_sync_marker sync_marker;
map<rgw_obj_key, string> key_to_marker;
struct operation {
rgw_obj_key key;
bool is_olh;
};
map<string, operation> marker_to_op;
std::set<std::string> pending_olh; // object names with pending olh operations
RGWSyncTraceNodeRef tn;
void handle_finish(const string& marker) override {
auto iter = marker_to_op.find(marker);
if (iter == marker_to_op.end()) {
return;
}
auto& op = iter->second;
key_to_marker.erase(op.key);
reset_need_retry(op.key);
if (op.is_olh) {
pending_olh.erase(op.key.name);
}
marker_to_op.erase(iter);
}
public:
RGWBucketIncSyncShardMarkerTrack(RGWDataSyncEnv *_sync_env,
const string& _marker_oid,
const rgw_bucket_shard_inc_sync_marker& _marker) : RGWSyncShardMarkerTrack(BUCKET_SYNC_UPDATE_MARKER_WINDOW),
sync_env(_sync_env),
marker_oid(_marker_oid),
sync_marker(_marker) {}
void set_tn(RGWSyncTraceNodeRef& _tn) {
tn = _tn;
}
RGWCoroutine *store_marker(const string& new_marker, uint64_t index_pos, const real_time& timestamp) override {
sync_marker.position = new_marker;
map<string, bufferlist> attrs;
sync_marker.encode_attr(attrs);
RGWRados *store = sync_env->store;
tn->log(20, SSTR("updating marker marker_oid=" << marker_oid << " marker=" << new_marker));
return new RGWSimpleRadosWriteAttrsCR(sync_env->async_rados,
store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, marker_oid),
attrs);
}
/*
* create index from key -> <op, marker>, and from marker -> key
* this is useful so that we can insure that we only have one
* entry for any key that is used. This is needed when doing
* incremenatl sync of data, and we don't want to run multiple
* concurrent sync operations for the same bucket shard
* Also, we should make sure that we don't run concurrent operations on the same key with
* different ops.
*/
bool index_key_to_marker(const rgw_obj_key& key, const string& marker, bool is_olh) {
auto result = key_to_marker.emplace(key, marker);
if (!result.second) { // exists
set_need_retry(key);
return false;
}
marker_to_op[marker] = operation{key, is_olh};
if (is_olh) {
// prevent other olh ops from starting on this object name
pending_olh.insert(key.name);
}
return true;
}
bool can_do_op(const rgw_obj_key& key, bool is_olh) {
// serialize olh ops on the same object name
if (is_olh && pending_olh.count(key.name)) {
tn->log(20, SSTR("sync of " << key << " waiting for pending olh op"));
return false;
}
return (key_to_marker.find(key) == key_to_marker.end());
}
RGWOrderCallCR *allocate_order_control_cr() override {
return new RGWLastCallerWinsCR(sync_env->cct);
}
};
template <class T, class K>
class RGWBucketSyncSingleEntryCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
RGWBucketInfo *bucket_info;
const rgw_bucket_shard& bs;
rgw_obj_key key;
bool versioned;
std::optional<uint64_t> versioned_epoch;
rgw_bucket_entry_owner owner;
real_time timestamp;
RGWModifyOp op;
RGWPendingState op_state;
T entry_marker;
RGWSyncShardMarkerTrack<T, K> *marker_tracker;
int sync_status;
stringstream error_ss;
bool error_injection;
RGWDataSyncModule *data_sync_module;
rgw_zone_set zones_trace;
RGWSyncTraceNodeRef tn;
public:
RGWBucketSyncSingleEntryCR(RGWDataSyncEnv *_sync_env,
RGWBucketInfo *_bucket_info,
const rgw_bucket_shard& bs,
const rgw_obj_key& _key, bool _versioned,
std::optional<uint64_t> _versioned_epoch,
real_time& _timestamp,
const rgw_bucket_entry_owner& _owner,
RGWModifyOp _op, RGWPendingState _op_state,
const T& _entry_marker, RGWSyncShardMarkerTrack<T, K> *_marker_tracker, rgw_zone_set& _zones_trace,
RGWSyncTraceNodeRef& _tn_parent) : RGWCoroutine(_sync_env->cct),
sync_env(_sync_env),
bucket_info(_bucket_info), bs(bs),
key(_key), versioned(_versioned), versioned_epoch(_versioned_epoch),
owner(_owner),
timestamp(_timestamp), op(_op),
op_state(_op_state),
entry_marker(_entry_marker),
marker_tracker(_marker_tracker),
sync_status(0){
stringstream ss;
ss << bucket_shard_str{bs} << "/" << key << "[" << versioned_epoch.value_or(0) << "]";
set_description() << "bucket sync single entry (source_zone=" << sync_env->source_zone << ") b=" << ss.str() << " log_entry=" << entry_marker << " op=" << (int)op << " op_state=" << (int)op_state;
set_status("init");
tn = sync_env->sync_tracer->add_node(_tn_parent, "entry", SSTR(key));
tn->log(20, SSTR("bucket sync single entry (source_zone=" << sync_env->source_zone << ") b=" << ss.str() << " log_entry=" << entry_marker << " op=" << (int)op << " op_state=" << (int)op_state));
error_injection = (sync_env->cct->_conf->rgw_sync_data_inject_err_probability > 0);
data_sync_module = sync_env->sync_module->get_data_handler();
zones_trace = _zones_trace;
zones_trace.insert(sync_env->store->svc.zone->get_zone().id);
}
int operate() override {
reenter(this) {
/* skip entries that are not complete */
if (op_state != CLS_RGW_STATE_COMPLETE) {
goto done;
}
tn->set_flag(RGW_SNS_FLAG_ACTIVE);
do {
yield {
marker_tracker->reset_need_retry(key);
if (key.name.empty()) {
/* shouldn't happen */
set_status("skipping empty entry");
tn->log(0, "entry with empty obj name, skipping");
goto done;
}
if (error_injection &&
rand() % 10000 < cct->_conf->rgw_sync_data_inject_err_probability * 10000.0) {
tn->log(0, SSTR(": injecting data sync error on key=" << key.name));
retcode = -EIO;
} else if (op == CLS_RGW_OP_ADD ||
op == CLS_RGW_OP_LINK_OLH) {
set_status("syncing obj");
tn->log(5, SSTR("bucket sync: sync obj: " << sync_env->source_zone << "/" << bucket_info->bucket << "/" << key << "[" << versioned_epoch.value_or(0) << "]"));
call(data_sync_module->sync_object(sync_env, *bucket_info, key, versioned_epoch, &zones_trace));
} else if (op == CLS_RGW_OP_DEL || op == CLS_RGW_OP_UNLINK_INSTANCE) {
set_status("removing obj");
if (op == CLS_RGW_OP_UNLINK_INSTANCE) {
versioned = true;
}
tn->log(10, SSTR("removing obj: " << sync_env->source_zone << "/" << bucket_info->bucket << "/" << key << "[" << versioned_epoch.value_or(0) << "]"));
call(data_sync_module->remove_object(sync_env, *bucket_info, key, timestamp, versioned, versioned_epoch.value_or(0), &zones_trace));
// our copy of the object is more recent, continue as if it succeeded
if (retcode == -ERR_PRECONDITION_FAILED) {
retcode = 0;
}
} else if (op == CLS_RGW_OP_LINK_OLH_DM) {
set_status("creating delete marker");
tn->log(10, SSTR("creating delete marker: obj: " << sync_env->source_zone << "/" << bucket_info->bucket << "/" << key << "[" << versioned_epoch.value_or(0) << "]"));
call(data_sync_module->create_delete_marker(sync_env, *bucket_info, key, timestamp, owner, versioned, versioned_epoch.value_or(0), &zones_trace));
}
tn->set_resource_name(SSTR(bucket_str_noinstance(bucket_info->bucket) << "/" << key));
}
} while (marker_tracker->need_retry(key));
{
tn->unset_flag(RGW_SNS_FLAG_ACTIVE);
if (retcode >= 0) {
tn->log(10, "success");
} else {
tn->log(10, SSTR("failed, retcode=" << retcode << " (" << cpp_strerror(-retcode) << ")"));
}
}
if (retcode < 0 && retcode != -ENOENT) {
set_status() << "failed to sync obj; retcode=" << retcode;
tn->log(0, SSTR("ERROR: failed to sync object: "
<< bucket_shard_str{bs} << "/" << key.name));
error_ss << bucket_shard_str{bs} << "/" << key.name;
sync_status = retcode;
}
if (!error_ss.str().empty()) {
yield call(sync_env->error_logger->log_error_cr(sync_env->conn->get_remote_id(), "data", error_ss.str(), -retcode, string("failed to sync object") + cpp_strerror(-sync_status)));
}
done:
if (sync_status == 0) {
/* update marker */
set_status() << "calling marker_tracker->finish(" << entry_marker << ")";
yield call(marker_tracker->finish(entry_marker));
sync_status = retcode;
}
if (sync_status < 0) {
return set_cr_error(sync_status);
}
return set_cr_done();
}
return 0;
}
};
#define BUCKET_SYNC_SPAWN_WINDOW 20
class RGWBucketShardFullSyncCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
const rgw_bucket_shard& bs;
RGWBucketInfo *bucket_info;
boost::intrusive_ptr<RGWContinuousLeaseCR> lease_cr;
bucket_list_result list_result;
list<bucket_list_entry>::iterator entries_iter;
rgw_bucket_shard_sync_info& sync_info;
RGWBucketFullSyncShardMarkerTrack marker_tracker;
rgw_obj_key list_marker;
bucket_list_entry *entry{nullptr};
int total_entries{0};
int sync_status{0};
const string& status_oid;
rgw_zone_set zones_trace;
RGWSyncTraceNodeRef tn;
public:
RGWBucketShardFullSyncCR(RGWDataSyncEnv *_sync_env, const rgw_bucket_shard& bs,
RGWBucketInfo *_bucket_info,
const std::string& status_oid,
RGWContinuousLeaseCR *lease_cr,
rgw_bucket_shard_sync_info& sync_info,
RGWSyncTraceNodeRef tn_parent)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env), bs(bs),
bucket_info(_bucket_info), lease_cr(lease_cr), sync_info(sync_info),
marker_tracker(sync_env, status_oid, sync_info.full_marker),
status_oid(status_oid),
tn(sync_env->sync_tracer->add_node(tn_parent, "full_sync",
SSTR(bucket_shard_str{bs}))) {
zones_trace.insert(sync_env->source_zone);
marker_tracker.set_tn(tn);
}
int operate() override;
};
int RGWBucketShardFullSyncCR::operate()
{
int ret;
reenter(this) {
list_marker = sync_info.full_marker.position;
total_entries = sync_info.full_marker.count;
do {
if (!lease_cr->is_locked()) {
drain_all();
return set_cr_error(-ECANCELED);
}
set_status("listing remote bucket");
tn->log(20, "listing bucket for full sync");
yield call(new RGWListBucketShardCR(sync_env, bs, list_marker,
&list_result));
if (retcode < 0 && retcode != -ENOENT) {
set_status("failed bucket listing, going down");
drain_all();
return set_cr_error(retcode);
}
if (list_result.entries.size() > 0) {
tn->set_flag(RGW_SNS_FLAG_ACTIVE); /* actually have entries to sync */
}
entries_iter = list_result.entries.begin();
for (; entries_iter != list_result.entries.end(); ++entries_iter) {
if (!lease_cr->is_locked()) {
drain_all();
return set_cr_error(-ECANCELED);
}
tn->log(20, SSTR("[full sync] syncing object: "
<< bucket_shard_str{bs} << "/" << entries_iter->key));
entry = &(*entries_iter);
total_entries++;
list_marker = entries_iter->key;
if (!marker_tracker.start(entry->key, total_entries, real_time())) {
tn->log(0, SSTR("ERROR: cannot start syncing " << entry->key << ". Duplicate entry?"));
} else {
using SyncCR = RGWBucketSyncSingleEntryCR<rgw_obj_key, rgw_obj_key>;
yield spawn(new SyncCR(sync_env, bucket_info, bs, entry->key,
false, /* versioned, only matters for object removal */
entry->versioned_epoch, entry->mtime,
entry->owner, entry->get_modify_op(), CLS_RGW_STATE_COMPLETE,
entry->key, &marker_tracker, zones_trace, tn),
false);
}
while (num_spawned() > BUCKET_SYNC_SPAWN_WINDOW) {
yield wait_for_child();
bool again = true;
while (again) {
again = collect(&ret, nullptr);
if (ret < 0) {
tn->log(10, "a sync operation returned error");
sync_status = ret;
/* we have reported this error */
}
}
}
}
} while (list_result.is_truncated && sync_status == 0);
set_status("done iterating over all objects");
/* wait for all operations to complete */
while (num_spawned()) {
yield wait_for_child();
bool again = true;
while (again) {
again = collect(&ret, nullptr);
if (ret < 0) {
tn->log(10, "a sync operation returned error");
sync_status = ret;
/* we have reported this error */
}
}
}
tn->unset_flag(RGW_SNS_FLAG_ACTIVE);
if (!lease_cr->is_locked()) {
return set_cr_error(-ECANCELED);
}
/* update sync state to incremental */
if (sync_status == 0) {
yield {
sync_info.state = rgw_bucket_shard_sync_info::StateIncrementalSync;
map<string, bufferlist> attrs;
sync_info.encode_state_attr(attrs);
RGWRados *store = sync_env->store;
call(new RGWSimpleRadosWriteAttrsCR(sync_env->async_rados, store->svc.sysobj,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, status_oid),
attrs));
}
} else {
tn->log(10, SSTR("backing out with sync_status=" << sync_status));
}
if (retcode < 0 && sync_status == 0) { /* actually tried to set incremental state and failed */
tn->log(0, SSTR("ERROR: failed to set sync state on bucket "
<< bucket_shard_str{bs} << " retcode=" << retcode));
return set_cr_error(retcode);
}
if (sync_status < 0) {
return set_cr_error(sync_status);
}
return set_cr_done();
}
return 0;
}
static bool has_olh_epoch(RGWModifyOp op) {
return op == CLS_RGW_OP_LINK_OLH || op == CLS_RGW_OP_UNLINK_INSTANCE;
}
class RGWBucketShardIncrementalSyncCR : public RGWCoroutine {
RGWDataSyncEnv *sync_env;
const rgw_bucket_shard& bs;
RGWBucketInfo *bucket_info;
boost::intrusive_ptr<RGWContinuousLeaseCR> lease_cr;
list<rgw_bi_log_entry> list_result;
list<rgw_bi_log_entry>::iterator entries_iter, entries_end;
map<pair<string, string>, pair<real_time, RGWModifyOp> > squash_map;
rgw_bucket_shard_sync_info& sync_info;
rgw_obj_key key;
rgw_bi_log_entry *entry{nullptr};
RGWBucketIncSyncShardMarkerTrack marker_tracker;
bool updated_status{false};
const string& status_oid;
const string& zone_id;
string cur_id;
int sync_status{0};
bool syncstopped{false};
RGWSyncTraceNodeRef tn;
public:
RGWBucketShardIncrementalSyncCR(RGWDataSyncEnv *_sync_env,
const rgw_bucket_shard& bs,
RGWBucketInfo *_bucket_info,
const std::string& status_oid,
RGWContinuousLeaseCR *lease_cr,
rgw_bucket_shard_sync_info& sync_info,
RGWSyncTraceNodeRef& _tn_parent)
: RGWCoroutine(_sync_env->cct), sync_env(_sync_env), bs(bs),
bucket_info(_bucket_info), lease_cr(lease_cr), sync_info(sync_info),
marker_tracker(sync_env, status_oid, sync_info.inc_marker),
status_oid(status_oid), zone_id(_sync_env->store->svc.zone->get_zone().id),
tn(sync_env->sync_tracer->add_node(_tn_parent, "inc_sync",
SSTR(bucket_shard_str{bs})))
{
set_description() << "bucket shard incremental sync bucket="
<< bucket_shard_str{bs};
set_status("init");
marker_tracker.set_tn(tn);
}
int operate() override;
};
int RGWBucketShardIncrementalSyncCR::operate()
{
int ret;
reenter(this) {
do {
if (!lease_cr->is_locked()) {
drain_all();
tn->log(0, "ERROR: lease is not taken, abort");
return set_cr_error(-ECANCELED);
}
tn->log(20, SSTR("listing bilog for incremental sync" << sync_info.inc_marker.position));
set_status() << "listing bilog; position=" << sync_info.inc_marker.position;
yield call(new RGWListBucketIndexLogCR(sync_env, bs, sync_info.inc_marker.position,
&list_result));
if (retcode < 0 && retcode != -ENOENT) {
/* wait for all operations to complete */
drain_all();
return set_cr_error(retcode);
}
squash_map.clear();
entries_iter = list_result.begin();
entries_end = list_result.end();
for (; entries_iter != entries_end; ++entries_iter) {
auto e = *entries_iter;
if (e.op == RGWModifyOp::CLS_RGW_OP_SYNCSTOP) {
ldout(sync_env->cct, 20) << "syncstop on " << e.timestamp << dendl;
syncstopped = true;
entries_end = entries_iter; // dont sync past here
break;
}
if (e.op == RGWModifyOp::CLS_RGW_OP_RESYNC) {
continue;
}
if (e.op == CLS_RGW_OP_CANCEL) {
continue;
}
if (e.state != CLS_RGW_STATE_COMPLETE) {
continue;
}
if (e.zones_trace.find(zone_id) != e.zones_trace.end()) {
continue;
}
auto& squash_entry = squash_map[make_pair(e.object, e.instance)];
// don't squash over olh entries - we need to apply their olh_epoch
if (has_olh_epoch(squash_entry.second) && !has_olh_epoch(e.op)) {
continue;
}
if (squash_entry.first <= e.timestamp) {
squash_entry = make_pair<>(e.timestamp, e.op);
}
}
entries_iter = list_result.begin();
for (; entries_iter != entries_end; ++entries_iter) {
if (!lease_cr->is_locked()) {
drain_all();
return set_cr_error(-ECANCELED);
}
entry = &(*entries_iter);
{
ssize_t p = entry->id.find('#'); /* entries might have explicit shard info in them, e.g., 6#00000000004.94.3 */
if (p < 0) {
cur_id = entry->id;
} else {
cur_id = entry->id.substr(p + 1);
}
}
sync_info.inc_marker.position = cur_id;
if (entry->op == RGWModifyOp::CLS_RGW_OP_SYNCSTOP || entry->op == RGWModifyOp::CLS_RGW_OP_RESYNC) {
ldout(sync_env->cct, 20) << "detected syncstop or resync on " << entries_iter->timestamp << ", skipping entry" << dendl;
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
if (!key.set(rgw_obj_index_key{entry->object, entry->instance})) {
set_status() << "parse_raw_oid() on " << entry->object << " returned false, skipping entry";
tn->log(20, SSTR("parse_raw_oid() on " << entry->object << " returned false, skipping entry"));
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
tn->log(20, SSTR("parsed entry: id=" << cur_id << " iter->object=" << entry->object << " iter->instance=" << entry->instance << " name=" << key.name << " instance=" << key.instance << " ns=" << key.ns));
if (!key.ns.empty()) {
set_status() << "skipping entry in namespace: " << entry->object;
tn->log(20, SSTR("skipping entry in namespace: " << entry->object));
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
set_status() << "got entry.id=" << cur_id << " key=" << key << " op=" << (int)entry->op;
if (entry->op == CLS_RGW_OP_CANCEL) {
set_status() << "canceled operation, skipping";
tn->log(20, SSTR("skipping object: "
<< bucket_shard_str{bs} << "/" << key << ": canceled operation"));
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
if (entry->state != CLS_RGW_STATE_COMPLETE) {
set_status() << "non-complete operation, skipping";
tn->log(20, SSTR("skipping object: "
<< bucket_shard_str{bs} << "/" << key << ": non-complete operation"));
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
if (entry->zones_trace.find(zone_id) != entry->zones_trace.end()) {
set_status() << "redundant operation, skipping";
tn->log(20, SSTR("skipping object: "
<<bucket_shard_str{bs} <<"/"<<key<<": redundant operation"));
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
if (make_pair<>(entry->timestamp, entry->op) != squash_map[make_pair(entry->object, entry->instance)]) {
set_status() << "squashed operation, skipping";
tn->log(20, SSTR("skipping object: "
<< bucket_shard_str{bs} << "/" << key << ": squashed operation"));
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
tn->set_flag(RGW_SNS_FLAG_ACTIVE);
tn->log(20, SSTR("syncing object: "
<< bucket_shard_str{bs} << "/" << key));
updated_status = false;
while (!marker_tracker.can_do_op(key, has_olh_epoch(entry->op))) {
if (!updated_status) {
set_status() << "can't do op, conflicting inflight operation";
updated_status = true;
}
tn->log(5, SSTR("can't do op on key=" << key << " need to wait for conflicting operation to complete"));
yield wait_for_child();
bool again = true;
while (again) {
again = collect(&ret, nullptr);
if (ret < 0) {
tn->log(0, SSTR("ERROR: a child operation returned error (ret=" << ret << ")"));
sync_status = ret;
/* we have reported this error */
}
}
if (sync_status != 0)
break;
}
if (sync_status != 0) {
/* get error, stop */
break;
}
if (!marker_tracker.index_key_to_marker(key, cur_id, has_olh_epoch(entry->op))) {
set_status() << "can't do op, sync already in progress for object";
tn->log(20, SSTR("skipping sync of entry: " << cur_id << ":" << key << " sync already in progress for object"));
marker_tracker.try_update_high_marker(cur_id, 0, entry->timestamp);
continue;
}
// yield {
set_status() << "start object sync";
if (!marker_tracker.start(cur_id, 0, entry->timestamp)) {
tn->log(0, SSTR("ERROR: cannot start syncing " << cur_id << ". Duplicate entry?"));
} else {
std::optional<uint64_t> versioned_epoch;
rgw_bucket_entry_owner owner(entry->owner, entry->owner_display_name);
if (entry->ver.pool < 0) {
versioned_epoch = entry->ver.epoch;
}
tn->log(20, SSTR("entry->timestamp=" << entry->timestamp));
using SyncCR = RGWBucketSyncSingleEntryCR<string, rgw_obj_key>;
spawn(new SyncCR(sync_env, bucket_info, bs, key,
entry->is_versioned(), versioned_epoch,
entry->timestamp, owner, entry->op, entry->state,
cur_id, &marker_tracker, entry->zones_trace, tn),
false);
}
// }
while (num_spawned() > BUCKET_SYNC_SPAWN_WINDOW) {
set_status() << "num_spawned() > spawn_window";
yield wait_for_child();
bool again = true;
while (again) {
again = collect(&ret, nullptr);
if (ret < 0) {
tn->log(10, "a sync operation returned error");
sync_status = ret;
/* we have reported this error */
}
/* not waiting for child here */
}
}
}
} while (!list_result.empty() && sync_status == 0 && !syncstopped);
while (num_spawned()) {
yield wait_for_child();
bool again = true;
while (again) {
again = collect(&ret, nullptr);
if (ret < 0) {
tn->log(10, "a sync operation returned error");
sync_status = ret;
/* we have reported this error */
}
/* not waiting for child here */
}
}
tn->unset_flag(RGW_SNS_FLAG_ACTIVE);
if (syncstopped) {
// transition back to StateInit in RGWRunBucketSyncCoroutine. if sync is
// still disabled, we'll delete the sync status object. otherwise we'll
// restart full sync to catch any changes that happened while sync was
// disabled
sync_info.state = rgw_bucket_shard_sync_info::StateInit;
return set_cr_done();
}
yield call(marker_tracker.flush());
if (retcode < 0) {
tn->log(0, SSTR("ERROR: marker_tracker.flush() returned retcode=" << retcode));
return set_cr_error(retcode);
}
if (sync_status < 0) {
tn->log(10, SSTR("backing out with sync_status=" << sync_status));
return set_cr_error(sync_status);
}
return set_cr_done();
}
return 0;
}
int RGWRunBucketSyncCoroutine::operate()
{
reenter(this) {
yield {
set_status("acquiring sync lock");
auto store = sync_env->store;
lease_cr.reset(new RGWContinuousLeaseCR(sync_env->async_rados, store,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, status_oid),
"sync_lock",
cct->_conf->rgw_sync_lease_period,
this));
lease_stack.reset(spawn(lease_cr.get(), false));
}
while (!lease_cr->is_locked()) {
if (lease_cr->is_done()) {
tn->log(5, "failed to take lease");
set_status("lease lock failed, early abort");
drain_all();
return set_cr_error(lease_cr->get_ret_status());
}
set_sleeping(true);
yield;
}
tn->log(10, "took lease");
yield call(new RGWReadBucketSyncStatusCoroutine(sync_env, bs, &sync_status));
if (retcode < 0 && retcode != -ENOENT) {
tn->log(0, "ERROR: failed to read sync status for bucket");
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
tn->log(20, SSTR("sync status for bucket: " << sync_status.state));
yield call(new RGWGetBucketInstanceInfoCR(sync_env->async_rados, sync_env->store, bs.bucket, &bucket_info));
if (retcode == -ENOENT) {
/* bucket instance info has not been synced in yet, fetch it now */
yield {
tn->log(10, SSTR("no local info for bucket:" << ": fetching metadata"));
string raw_key = string("bucket.instance:") + bs.bucket.get_key();
meta_sync_env.init(sync_env->dpp, cct, sync_env->store, sync_env->store->svc.zone->get_master_conn(), sync_env->async_rados,
sync_env->http_manager, sync_env->error_logger, sync_env->sync_tracer);
call(new RGWMetaSyncSingleEntryCR(&meta_sync_env, raw_key,
string() /* no marker */,
MDLOG_STATUS_COMPLETE,
NULL /* no marker tracker */,
tn));
}
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to fetch bucket instance info for " << bucket_str{bs.bucket}));
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
yield call(new RGWGetBucketInstanceInfoCR(sync_env->async_rados, sync_env->store, bs.bucket, &bucket_info));
}
if (retcode < 0) {
tn->log(0, SSTR("ERROR: failed to retrieve bucket info for bucket=" << bucket_str{bs.bucket}));
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
do {
if (sync_status.state == rgw_bucket_shard_sync_info::StateInit) {
yield call(new RGWInitBucketShardSyncStatusCoroutine(sync_env, bs, sync_status));
if (retcode == -ENOENT) {
tn->log(0, "bucket sync disabled");
lease_cr->abort(); // deleted lease object, abort/wakeup instead of unlock
lease_cr->wakeup();
lease_cr.reset();
drain_all();
return set_cr_done();
}
if (retcode < 0) {
tn->log(0, SSTR("ERROR: init sync on bucket failed, retcode=" << retcode));
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
}
if (sync_status.state == rgw_bucket_shard_sync_info::StateFullSync) {
yield call(new RGWBucketShardFullSyncCR(sync_env, bs, &bucket_info,
status_oid, lease_cr.get(),
sync_status, tn));
if (retcode < 0) {
tn->log(5, SSTR("full sync on bucket failed, retcode=" << retcode));
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
}
if (sync_status.state == rgw_bucket_shard_sync_info::StateIncrementalSync) {
yield call(new RGWBucketShardIncrementalSyncCR(sync_env, bs, &bucket_info,
status_oid, lease_cr.get(),
sync_status, tn));
if (retcode < 0) {
tn->log(5, SSTR("incremental sync on bucket failed, retcode=" << retcode));
lease_cr->go_down();
drain_all();
return set_cr_error(retcode);
}
}
// loop back to previous states unless incremental sync returns normally
} while (sync_status.state != rgw_bucket_shard_sync_info::StateIncrementalSync);
lease_cr->go_down();
drain_all();
return set_cr_done();
}
return 0;
}
RGWCoroutine *RGWRemoteBucketLog::run_sync_cr()
{
return new RGWRunBucketSyncCoroutine(&sync_env, bs, sync_env.sync_tracer->root_node);
}
int RGWBucketSyncStatusManager::init()
{
conn = store->svc.zone->get_zone_conn_by_id(source_zone);
if (!conn) {
ldpp_dout(this, 0) << "connection object to zone " << source_zone << " does not exist" << dendl;
return -EINVAL;
}
int ret = http_manager.start();
if (ret < 0) {
ldpp_dout(this, 0) << "failed in http_manager.start() ret=" << ret << dendl;
return ret;
}
const string key = bucket.get_key();
rgw_http_param_pair pairs[] = { { "key", key.c_str() },
{ NULL, NULL } };
string path = string("/admin/metadata/bucket.instance");
bucket_instance_meta_info result;
ret = cr_mgr.run(new RGWReadRESTResourceCR<bucket_instance_meta_info>(store->ctx(), conn, &http_manager, path, pairs, &result));
if (ret < 0) {
ldpp_dout(this, 0) << "ERROR: failed to fetch bucket metadata info from zone=" << source_zone << " path=" << path << " key=" << key << " ret=" << ret << dendl;
return ret;
}
RGWBucketInfo& bi = result.data.get_bucket_info();
num_shards = bi.num_shards;
error_logger = new RGWSyncErrorLogger(store, RGW_SYNC_ERROR_LOG_SHARD_PREFIX, ERROR_LOGGER_SHARDS);
sync_module.reset(new RGWDefaultSyncModuleInstance());
int effective_num_shards = (num_shards ? num_shards : 1);
auto async_rados = store->get_async_rados();
for (int i = 0; i < effective_num_shards; i++) {
RGWRemoteBucketLog *l = new RGWRemoteBucketLog(this, store, this, async_rados, &http_manager);
ret = l->init(source_zone, conn, bucket, (num_shards ? i : -1), error_logger, store->get_sync_tracer(), sync_module);
if (ret < 0) {
ldpp_dout(this, 0) << "ERROR: failed to initialize RGWRemoteBucketLog object" << dendl;
return ret;
}
source_logs[i] = l;
}
return 0;
}
int RGWBucketSyncStatusManager::init_sync_status()
{
list<RGWCoroutinesStack *> stacks;
for (map<int, RGWRemoteBucketLog *>::iterator iter = source_logs.begin(); iter != source_logs.end(); ++iter) {
RGWCoroutinesStack *stack = new RGWCoroutinesStack(store->ctx(), &cr_mgr);
RGWRemoteBucketLog *l = iter->second;
stack->call(l->init_sync_status_cr());
stacks.push_back(stack);
}
return cr_mgr.run(stacks);
}
int RGWBucketSyncStatusManager::read_sync_status()
{
list<RGWCoroutinesStack *> stacks;
for (map<int, RGWRemoteBucketLog *>::iterator iter = source_logs.begin(); iter != source_logs.end(); ++iter) {
RGWCoroutinesStack *stack = new RGWCoroutinesStack(store->ctx(), &cr_mgr);
RGWRemoteBucketLog *l = iter->second;
stack->call(l->read_sync_status_cr(&sync_status[iter->first]));
stacks.push_back(stack);
}
int ret = cr_mgr.run(stacks);
if (ret < 0) {
ldpp_dout(this, 0) << "ERROR: failed to read sync status for "
<< bucket_str{bucket} << dendl;
return ret;
}
return 0;
}
int RGWBucketSyncStatusManager::run()
{
list<RGWCoroutinesStack *> stacks;
for (map<int, RGWRemoteBucketLog *>::iterator iter = source_logs.begin(); iter != source_logs.end(); ++iter) {
RGWCoroutinesStack *stack = new RGWCoroutinesStack(store->ctx(), &cr_mgr);
RGWRemoteBucketLog *l = iter->second;
stack->call(l->run_sync_cr());
stacks.push_back(stack);
}
int ret = cr_mgr.run(stacks);
if (ret < 0) {
ldpp_dout(this, 0) << "ERROR: failed to read sync status for "
<< bucket_str{bucket} << dendl;
return ret;
}
return 0;
}
unsigned RGWBucketSyncStatusManager::get_subsys() const
{
return dout_subsys;
}
std::ostream& RGWBucketSyncStatusManager::gen_prefix(std::ostream& out) const
{
auto zone = std::string_view{source_zone};
return out << "bucket sync zone:" << zone.substr(0, 8)
<< " bucket:" << bucket.name << ' ';
}
string RGWBucketSyncStatusManager::status_oid(const string& source_zone,
const rgw_bucket_shard& bs)
{
return bucket_status_oid_prefix + "." + source_zone + ":" + bs.get_key();
}
string RGWBucketSyncStatusManager::obj_status_oid(const string& source_zone,
const rgw_obj& obj)
{
return object_status_oid_prefix + "." + source_zone + ":" + obj.bucket.get_key() + ":" +
obj.key.name + ":" + obj.key.instance;
}
class RGWCollectBucketSyncStatusCR : public RGWShardCollectCR {
static constexpr int max_concurrent_shards = 16;
RGWRados *const store;
RGWDataSyncEnv *const env;
const int num_shards;
rgw_bucket_shard bs;
using Vector = std::vector<rgw_bucket_shard_sync_info>;
Vector::iterator i, end;
public:
RGWCollectBucketSyncStatusCR(RGWRados *store, RGWDataSyncEnv *env,
int num_shards, const rgw_bucket& bucket,
Vector *status)
: RGWShardCollectCR(store->ctx(), max_concurrent_shards),
store(store), env(env), num_shards(num_shards),
bs(bucket, num_shards > 0 ? 0 : -1), // start at shard 0 or -1
i(status->begin()), end(status->end())
{}
bool spawn_next() override {
if (i == end) {
return false;
}
spawn(new RGWReadBucketSyncStatusCoroutine(env, bs, &*i), false);
++i;
++bs.shard_id;
return true;
}
};
int rgw_bucket_sync_status(const DoutPrefixProvider *dpp, RGWRados *store, const std::string& source_zone,
const RGWBucketInfo& bucket_info,
std::vector<rgw_bucket_shard_sync_info> *status)
{
const auto num_shards = bucket_info.num_shards;
status->clear();
status->resize(std::max<size_t>(1, num_shards));
RGWDataSyncEnv env;
RGWSyncModuleInstanceRef module; // null sync module
env.init(dpp, store->ctx(), store, nullptr, store->get_async_rados(),
nullptr, nullptr, nullptr, source_zone, module, nullptr);
RGWCoroutinesManager crs(store->ctx(), store->get_cr_registry());
return crs.run(new RGWCollectBucketSyncStatusCR(store, &env, num_shards,
bucket_info.bucket, status));
}
// TODO: move into rgw_data_sync_trim.cc
#undef dout_prefix
#define dout_prefix (*_dout << "data trim: ")
namespace {
/// return the marker that it's safe to trim up to
const std::string& get_stable_marker(const rgw_data_sync_marker& m)
{
return m.state == m.FullSync ? m.next_step_marker : m.marker;
}
/// populate the container starting with 'dest' with the minimum stable marker
/// of each shard for all of the peers in [first, last)
template <typename IterIn, typename IterOut>
void take_min_markers(IterIn first, IterIn last, IterOut dest)
{
if (first == last) {
return;
}
for (auto p = first; p != last; ++p) {
auto m = dest;
for (auto &shard : p->sync_markers) {
const auto& stable = get_stable_marker(shard.second);
if (*m > stable) {
*m = stable;
}
++m;
}
}
}
} // anonymous namespace
class DataLogTrimCR : public RGWCoroutine {
using TrimCR = RGWSyncLogTrimCR;
RGWRados *store;
RGWHTTPManager *http;
const int num_shards;
const std::string& zone_id; //< my zone id
std::vector<rgw_data_sync_status> peer_status; //< sync status for each peer
std::vector<std::string> min_shard_markers; //< min marker per shard
std::vector<std::string>& last_trim; //< last trimmed marker per shard
int ret{0};
public:
DataLogTrimCR(RGWRados *store, RGWHTTPManager *http,
int num_shards, std::vector<std::string>& last_trim)
: RGWCoroutine(store->ctx()), store(store), http(http),
num_shards(num_shards),
zone_id(store->svc.zone->get_zone().id),
peer_status(store->svc.zone->get_zone_data_notify_to_map().size()),
min_shard_markers(num_shards, TrimCR::max_marker),
last_trim(last_trim)
{}
int operate() override;
};
int DataLogTrimCR::operate()
{
reenter(this) {
ldout(cct, 10) << "fetching sync status for zone " << zone_id << dendl;
set_status("fetching sync status");
yield {
// query data sync status from each sync peer
rgw_http_param_pair params[] = {
{ "type", "data" },
{ "status", nullptr },
{ "source-zone", zone_id.c_str() },
{ nullptr, nullptr }
};
auto p = peer_status.begin();
for (auto& c : store->svc.zone->get_zone_data_notify_to_map()) {
ldout(cct, 20) << "query sync status from " << c.first << dendl;
using StatusCR = RGWReadRESTResourceCR<rgw_data_sync_status>;
spawn(new StatusCR(cct, c.second, http, "/admin/log/", params, &*p),
false);
++p;
}
}
// must get a successful reply from all peers to consider trimming
ret = 0;
while (ret == 0 && num_spawned() > 0) {
yield wait_for_child();
collect_next(&ret);
}
drain_all();
if (ret < 0) {
ldout(cct, 4) << "failed to fetch sync status from all peers" << dendl;
return set_cr_error(ret);
}
ldout(cct, 10) << "trimming log shards" << dendl;
set_status("trimming log shards");
yield {
// determine the minimum marker for each shard
take_min_markers(peer_status.begin(), peer_status.end(),
min_shard_markers.begin());
for (int i = 0; i < num_shards; i++) {
const auto& m = min_shard_markers[i];
if (m <= last_trim[i]) {
continue;
}
ldout(cct, 10) << "trimming log shard " << i
<< " at marker=" << m
<< " last_trim=" << last_trim[i] << dendl;
spawn(new TrimCR(store, store->data_log->get_oid(i),
m, &last_trim[i]),
true);
}
}
return set_cr_done();
}
return 0;
}
RGWCoroutine* create_admin_data_log_trim_cr(RGWRados *store,
RGWHTTPManager *http,
int num_shards,
std::vector<std::string>& markers)
{
return new DataLogTrimCR(store, http, num_shards, markers);
}
class DataLogTrimPollCR : public RGWCoroutine {
RGWRados *store;
RGWHTTPManager *http;
const int num_shards;
const utime_t interval; //< polling interval
const std::string lock_oid; //< use first data log shard for lock
const std::string lock_cookie;
std::vector<std::string> last_trim; //< last trimmed marker per shard
public:
DataLogTrimPollCR(RGWRados *store, RGWHTTPManager *http,
int num_shards, utime_t interval)
: RGWCoroutine(store->ctx()), store(store), http(http),
num_shards(num_shards), interval(interval),
lock_oid(store->data_log->get_oid(0)),
lock_cookie(RGWSimpleRadosLockCR::gen_random_cookie(cct)),
last_trim(num_shards)
{}
int operate() override;
};
int DataLogTrimPollCR::operate()
{
reenter(this) {
for (;;) {
set_status("sleeping");
wait(interval);
// request a 'data_trim' lock that covers the entire wait interval to
// prevent other gateways from attempting to trim for the duration
set_status("acquiring trim lock");
yield call(new RGWSimpleRadosLockCR(store->get_async_rados(), store,
rgw_raw_obj(store->svc.zone->get_zone_params().log_pool, lock_oid),
"data_trim", lock_cookie,
interval.sec()));
if (retcode < 0) {
// if the lock is already held, go back to sleep and try again later
ldout(cct, 4) << "failed to lock " << lock_oid << ", trying again in "
<< interval.sec() << "s" << dendl;
continue;
}
set_status("trimming");
yield call(new DataLogTrimCR(store, http, num_shards, last_trim));
// note that the lock is not released. this is intentional, as it avoids
// duplicating this work in other gateways
}
}
return 0;
}
RGWCoroutine* create_data_log_trim_cr(RGWRados *store,
RGWHTTPManager *http,
int num_shards, utime_t interval)
{
return new DataLogTrimPollCR(store, http, num_shards, interval);
}
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