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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab ft=cpp
#include <string.h>
#include <iostream>
#include <map>
#include <algorithm>
#include <tuple>
#include <functional>
#include <boost/algorithm/string/split.hpp>
#include <boost/algorithm/string.hpp>
#include <boost/algorithm/string/predicate.hpp>
#include <boost/variant.hpp>
#include "include/scope_guard.h"
#include "common/Formatter.h"
#include "common/containers.h"
#include <common/errno.h>
#include "include/random.h"
#include "cls/lock/cls_lock_client.h"
#include "rgw_perf_counters.h"
#include "rgw_common.h"
#include "rgw_bucket.h"
#include "rgw_lc.h"
#include "rgw_zone.h"
#include "rgw_string.h"
#include "rgw_multi.h"
#include "rgw_sal.h"
#include "rgw_sal_rados.h"
// this seems safe to use, at least for now--arguably, we should
// prefer header-only fmt, in general
#undef FMT_HEADER_ONLY
#define FMT_HEADER_ONLY 1
#include "fmt/format.h"
#include "services/svc_sys_obj.h"
#include "services/svc_zone.h"
#include "services/svc_tier_rados.h"
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_rgw
const char* LC_STATUS[] = {
"UNINITIAL",
"PROCESSING",
"FAILED",
"COMPLETE"
};
using namespace librados;
bool LCRule::valid() const
{
if (id.length() > MAX_ID_LEN) {
return false;
}
else if(expiration.empty() && noncur_expiration.empty() &&
mp_expiration.empty() && !dm_expiration &&
transitions.empty() && noncur_transitions.empty()) {
return false;
}
else if (!expiration.valid() || !noncur_expiration.valid() ||
!mp_expiration.valid()) {
return false;
}
if (!transitions.empty()) {
bool using_days = expiration.has_days();
bool using_date = expiration.has_date();
for (const auto& elem : transitions) {
if (!elem.second.valid()) {
return false;
}
using_days = using_days || elem.second.has_days();
using_date = using_date || elem.second.has_date();
if (using_days && using_date) {
return false;
}
}
}
for (const auto& elem : noncur_transitions) {
if (!elem.second.valid()) {
return false;
}
}
return true;
}
void LCRule::init_simple_days_rule(std::string_view _id,
std::string_view _prefix, int num_days)
{
id = _id;
prefix = _prefix;
char buf[32];
snprintf(buf, sizeof(buf), "%d", num_days);
expiration.set_days(buf);
set_enabled(true);
}
void RGWLifecycleConfiguration::add_rule(const LCRule& rule)
{
auto& id = rule.get_id(); // note that this will return false for groups, but that's ok, we won't search groups
rule_map.insert(pair<string, LCRule>(id, rule));
}
bool RGWLifecycleConfiguration::_add_rule(const LCRule& rule)
{
lc_op op(rule.get_id());
op.status = rule.is_enabled();
if (rule.get_expiration().has_days()) {
op.expiration = rule.get_expiration().get_days();
}
if (rule.get_expiration().has_date()) {
op.expiration_date = ceph::from_iso_8601(rule.get_expiration().get_date());
}
if (rule.get_noncur_expiration().has_days()) {
op.noncur_expiration = rule.get_noncur_expiration().get_days();
}
if (rule.get_mp_expiration().has_days()) {
op.mp_expiration = rule.get_mp_expiration().get_days();
}
op.dm_expiration = rule.get_dm_expiration();
for (const auto &elem : rule.get_transitions()) {
transition_action action;
if (elem.second.has_days()) {
action.days = elem.second.get_days();
} else {
action.date = ceph::from_iso_8601(elem.second.get_date());
}
action.storage_class
= rgw_placement_rule::get_canonical_storage_class(elem.first);
op.transitions.emplace(elem.first, std::move(action));
}
for (const auto &elem : rule.get_noncur_transitions()) {
transition_action action;
action.days = elem.second.get_days();
action.date = ceph::from_iso_8601(elem.second.get_date());
action.storage_class = elem.first;
op.noncur_transitions.emplace(elem.first, std::move(action));
}
std::string prefix;
if (rule.get_filter().has_prefix()){
prefix = rule.get_filter().get_prefix();
} else {
prefix = rule.get_prefix();
}
if (rule.get_filter().has_tags()){
op.obj_tags = rule.get_filter().get_tags();
}
prefix_map.emplace(std::move(prefix), std::move(op));
return true;
}
int RGWLifecycleConfiguration::check_and_add_rule(const LCRule& rule)
{
if (!rule.valid()) {
return -EINVAL;
}
auto& id = rule.get_id();
if (rule_map.find(id) != rule_map.end()) { //id shouldn't be the same
return -EINVAL;
}
if (rule.get_filter().has_tags() && (rule.get_dm_expiration() ||
!rule.get_mp_expiration().empty())) {
return -ERR_INVALID_REQUEST;
}
rule_map.insert(pair<string, LCRule>(id, rule));
if (!_add_rule(rule)) {
return -ERR_INVALID_REQUEST;
}
return 0;
}
bool RGWLifecycleConfiguration::has_same_action(const lc_op& first,
const lc_op& second) {
if ((first.expiration > 0 || first.expiration_date != boost::none) &&
(second.expiration > 0 || second.expiration_date != boost::none)) {
return true;
} else if (first.noncur_expiration > 0 && second.noncur_expiration > 0) {
return true;
} else if (first.mp_expiration > 0 && second.mp_expiration > 0) {
return true;
} else if (!first.transitions.empty() && !second.transitions.empty()) {
for (auto &elem : first.transitions) {
if (second.transitions.find(elem.first) != second.transitions.end()) {
return true;
}
}
} else if (!first.noncur_transitions.empty() &&
!second.noncur_transitions.empty()) {
for (auto &elem : first.noncur_transitions) {
if (second.noncur_transitions.find(elem.first) !=
second.noncur_transitions.end()) {
return true;
}
}
}
return false;
}
/* Formerly, this method checked for duplicate rules using an invalid
* method (prefix uniqueness). */
bool RGWLifecycleConfiguration::valid()
{
return true;
}
void *RGWLC::LCWorker::entry() {
do {
utime_t start = ceph_clock_now();
if (should_work(start)) {
ldpp_dout(dpp, 2) << "life cycle: start" << dendl;
int r = lc->process(this, false /* once */);
if (r < 0) {
ldpp_dout(dpp, 0) << "ERROR: do life cycle process() returned error r="
<< r << dendl;
}
ldpp_dout(dpp, 2) << "life cycle: stop" << dendl;
}
if (lc->going_down())
break;
utime_t end = ceph_clock_now();
int secs = schedule_next_start_time(start, end);
utime_t next;
next.set_from_double(end + secs);
ldpp_dout(dpp, 5) << "schedule life cycle next start time: "
<< rgw_to_asctime(next) << dendl;
std::unique_lock l{lock};
cond.wait_for(l, std::chrono::seconds(secs));
} while (!lc->going_down());
return NULL;
}
void RGWLC::initialize(CephContext *_cct, rgw::sal::RGWRadosStore *_store) {
cct = _cct;
store = _store;
sal_lc = store->get_lifecycle();
max_objs = cct->_conf->rgw_lc_max_objs;
if (max_objs > HASH_PRIME)
max_objs = HASH_PRIME;
obj_names = new string[max_objs];
for (int i = 0; i < max_objs; i++) {
obj_names[i] = lc_oid_prefix;
char buf[32];
snprintf(buf, 32, ".%d", i);
obj_names[i].append(buf);
}
#define COOKIE_LEN 16
char cookie_buf[COOKIE_LEN + 1];
gen_rand_alphanumeric(cct, cookie_buf, sizeof(cookie_buf) - 1);
cookie = cookie_buf;
}
void RGWLC::finalize()
{
delete[] obj_names;
}
bool RGWLC::if_already_run_today(time_t start_date)
{
struct tm bdt;
time_t begin_of_day;
utime_t now = ceph_clock_now();
localtime_r(&start_date, &bdt);
if (cct->_conf->rgw_lc_debug_interval > 0) {
if (now - start_date < cct->_conf->rgw_lc_debug_interval)
return true;
else
return false;
}
bdt.tm_hour = 0;
bdt.tm_min = 0;
bdt.tm_sec = 0;
begin_of_day = mktime(&bdt);
if (now - begin_of_day < 24*60*60)
return true;
else
return false;
}
static inline std::ostream& operator<<(std::ostream &os, rgw::sal::Lifecycle::LCEntry& ent) {
os << "<ent: bucket=";
os << ent.bucket;
os << "; start_time=";
os << rgw_to_asctime(utime_t(time_t(ent.start_time), 0));
os << "; status=";
os << ent.status;
os << ">";
return os;
}
int RGWLC::bucket_lc_prepare(int index, LCWorker* worker)
{
vector<rgw::sal::Lifecycle::LCEntry> entries;
string marker;
dout(5) << "RGWLC::bucket_lc_prepare(): PREPARE "
<< "index: " << index << " worker ix: " << worker->ix
<< dendl;
#define MAX_LC_LIST_ENTRIES 100
do {
int ret = sal_lc->list_entries(obj_names[index], marker, MAX_LC_LIST_ENTRIES, entries);
if (ret < 0)
return ret;
for (auto& entry : entries) {
entry.start_time = ceph_clock_now();
entry.status = lc_uninitial; // lc_uninitial? really?
ret = sal_lc->set_entry(obj_names[index], entry);
if (ret < 0) {
ldpp_dout(this, 0)
<< "RGWLC::bucket_lc_prepare() failed to set entry on "
<< obj_names[index] << dendl;
return ret;
}
}
if (! entries.empty()) {
marker = std::move(entries.back().bucket);
}
} while (!entries.empty());
return 0;
}
static bool obj_has_expired(CephContext *cct, ceph::real_time mtime, int days,
ceph::real_time *expire_time = nullptr)
{
double timediff, cmp;
utime_t base_time;
if (cct->_conf->rgw_lc_debug_interval <= 0) {
/* Normal case, run properly */
cmp = double(days)*24*60*60;
base_time = ceph_clock_now().round_to_day();
} else {
/* We're in debug mode; Treat each rgw_lc_debug_interval seconds as a day */
cmp = double(days)*cct->_conf->rgw_lc_debug_interval;
base_time = ceph_clock_now();
}
auto tt_mtime = ceph::real_clock::to_time_t(mtime);
timediff = base_time - tt_mtime;
if (expire_time) {
*expire_time = mtime + make_timespan(cmp);
}
ldout(cct, 20) << __func__ << __func__
<< "(): mtime=" << mtime << " days=" << days
<< " base_time=" << base_time << " timediff=" << timediff
<< " cmp=" << cmp
<< " is_expired=" << (timediff >= cmp)
<< dendl;
return (timediff >= cmp);
}
static bool pass_object_lock_check(rgw::sal::RGWStore* store, rgw::sal::RGWObject* obj, RGWObjectCtx& ctx, const DoutPrefixProvider *dpp)
{
if (!obj->get_bucket()->get_info().obj_lock_enabled()) {
return true;
}
std::unique_ptr<rgw::sal::RGWObject::ReadOp> read_op = obj->get_read_op(&ctx);
int ret = read_op->prepare(null_yield, dpp);
if (ret < 0) {
if (ret == -ENOENT) {
return true;
} else {
return false;
}
} else {
auto iter = obj->get_attrs().find(RGW_ATTR_OBJECT_RETENTION);
if (iter != obj->get_attrs().end()) {
RGWObjectRetention retention;
try {
decode(retention, iter->second);
} catch (buffer::error& err) {
ldpp_dout(dpp, 0) << "ERROR: failed to decode RGWObjectRetention"
<< dendl;
return false;
}
if (ceph::real_clock::to_time_t(retention.get_retain_until_date()) >
ceph_clock_now()) {
return false;
}
}
iter = obj->get_attrs().find(RGW_ATTR_OBJECT_LEGAL_HOLD);
if (iter != obj->get_attrs().end()) {
RGWObjectLegalHold obj_legal_hold;
try {
decode(obj_legal_hold, iter->second);
} catch (buffer::error& err) {
ldpp_dout(dpp, 0) << "ERROR: failed to decode RGWObjectLegalHold"
<< dendl;
return false;
}
if (obj_legal_hold.is_enabled()) {
return false;
}
}
return true;
}
}
class LCObjsLister {
rgw::sal::RGWStore *store;
rgw::sal::RGWBucket* bucket;
rgw::sal::RGWBucket::ListParams list_params;
rgw::sal::RGWBucket::ListResults list_results;
string prefix;
vector<rgw_bucket_dir_entry>::iterator obj_iter;
rgw_bucket_dir_entry pre_obj;
int64_t delay_ms;
public:
LCObjsLister(rgw::sal::RGWStore *_store, rgw::sal::RGWBucket* _bucket) :
store(_store), bucket(_bucket) {
list_params.list_versions = bucket->versioned();
list_params.allow_unordered = true;
delay_ms = store->ctx()->_conf.get_val<int64_t>("rgw_lc_thread_delay");
}
void set_prefix(const string& p) {
prefix = p;
list_params.prefix = prefix;
}
int init(const DoutPrefixProvider *dpp) {
return fetch(dpp);
}
int fetch(const DoutPrefixProvider *dpp) {
int ret = bucket->list(dpp, list_params, 1000, list_results, null_yield);
if (ret < 0) {
return ret;
}
obj_iter = list_results.objs.begin();
return 0;
}
void delay() {
std::this_thread::sleep_for(std::chrono::milliseconds(delay_ms));
}
bool get_obj(const DoutPrefixProvider *dpp, rgw_bucket_dir_entry **obj,
std::function<void(void)> fetch_barrier
= []() { /* nada */}) {
if (obj_iter == list_results.objs.end()) {
if (!list_results.is_truncated) {
delay();
return false;
} else {
fetch_barrier();
list_params.marker = pre_obj.key;
int ret = fetch(dpp);
if (ret < 0) {
ldout(store->ctx(), 0) << "ERROR: list_op returned ret=" << ret
<< dendl;
return false;
}
}
delay();
}
/* returning address of entry in objs */
*obj = &(*obj_iter);
return obj_iter != list_results.objs.end();
}
rgw_bucket_dir_entry get_prev_obj() {
return pre_obj;
}
void next() {
pre_obj = *obj_iter;
++obj_iter;
}
boost::optional<std::string> next_key_name() {
if (obj_iter == list_results.objs.end() ||
(obj_iter + 1) == list_results.objs.end()) {
/* this should have been called after get_obj() was called, so this should
* only happen if is_truncated is false */
return boost::none;
}
return ((obj_iter + 1)->key.name);
}
}; /* LCObjsLister */
struct op_env {
using LCWorker = RGWLC::LCWorker;
lc_op op;
rgw::sal::RGWRadosStore *store;
LCWorker* worker;
rgw::sal::RGWBucket* bucket;
LCObjsLister& ol;
op_env(lc_op& _op, rgw::sal::RGWRadosStore *_store, LCWorker* _worker,
rgw::sal::RGWBucket* _bucket, LCObjsLister& _ol)
: op(_op), store(_store), worker(_worker), bucket(_bucket),
ol(_ol) {}
}; /* op_env */
class LCRuleOp;
class WorkQ;
struct lc_op_ctx {
CephContext *cct;
op_env env;
rgw_bucket_dir_entry o;
boost::optional<std::string> next_key_name;
ceph::real_time effective_mtime;
rgw::sal::RGWRadosStore *store;
rgw::sal::RGWBucket* bucket;
lc_op& op; // ok--refers to expanded env.op
LCObjsLister& ol;
std::unique_ptr<rgw::sal::RGWObject> obj;
RGWObjectCtx rctx;
const DoutPrefixProvider *dpp;
WorkQ* wq;
lc_op_ctx(op_env& env, rgw_bucket_dir_entry& o,
boost::optional<std::string> next_key_name,
ceph::real_time effective_mtime,
const DoutPrefixProvider *dpp, WorkQ* wq)
: cct(env.store->ctx()), env(env), o(o), next_key_name(next_key_name),
effective_mtime(effective_mtime),
store(env.store), bucket(env.bucket), op(env.op), ol(env.ol),
rctx(env.store), dpp(dpp), wq(wq)
{
obj = bucket->get_object(o.key);
}
bool next_has_same_name(const std::string& key_name) {
return (next_key_name && key_name.compare(
boost::get<std::string>(next_key_name)) == 0);
}
}; /* lc_op_ctx */
static int remove_expired_obj(const DoutPrefixProvider *dpp, lc_op_ctx& oc, bool remove_indeed)
{
auto& store = oc.store;
auto& bucket_info = oc.bucket->get_info();
auto& o = oc.o;
auto obj_key = o.key;
auto& meta = o.meta;
int ret;
std::string version_id;
if (!remove_indeed) {
obj_key.instance.clear();
} else if (obj_key.instance.empty()) {
obj_key.instance = "null";
}
std::unique_ptr<rgw::sal::RGWBucket> bucket;
std::unique_ptr<rgw::sal::RGWObject> obj;
ret = store->get_bucket(nullptr, bucket_info, &bucket);
if (ret < 0) {
return ret;
}
obj = bucket->get_object(obj_key);
ACLOwner obj_owner;
obj_owner.set_id(rgw_user {meta.owner});
obj_owner.set_name(meta.owner_display_name);
ACLOwner bucket_owner;
bucket_owner.set_id(bucket_info.owner);
return obj->delete_object(dpp, &oc.rctx, obj_owner, bucket_owner, meta.mtime, false, 0,
version_id, null_yield);
} /* remove_expired_obj */
class LCOpAction {
public:
virtual ~LCOpAction() {}
virtual bool check(lc_op_ctx& oc, ceph::real_time *exp_time, const DoutPrefixProvider *dpp) {
return false;
}
/* called after check(). Check should tell us whether this action
* is applicable. If there are multiple actions, we'll end up executing
* the latest applicable action
* For example:
* one action after 10 days, another after 20, third after 40.
* After 10 days, the latest applicable action would be the first one,
* after 20 days it will be the second one. After 21 days it will still be the
* second one. So check() should return true for the second action at that point,
* but should_process() if the action has already been applied. In object removal
* it doesn't matter, but in object transition it does.
*/
virtual bool should_process() {
return true;
}
virtual int process(lc_op_ctx& oc) {
return 0;
}
friend class LCOpRule;
}; /* LCOpAction */
class LCOpFilter {
public:
virtual ~LCOpFilter() {}
virtual bool check(const DoutPrefixProvider *dpp, lc_op_ctx& oc) {
return false;
}
}; /* LCOpFilter */
class LCOpRule {
friend class LCOpAction;
op_env env;
boost::optional<std::string> next_key_name;
ceph::real_time effective_mtime;
std::vector<shared_ptr<LCOpFilter> > filters; // n.b., sharing ovhd
std::vector<shared_ptr<LCOpAction> > actions;
public:
LCOpRule(op_env& _env) : env(_env) {}
boost::optional<std::string> get_next_key_name() {
return next_key_name;
}
std::vector<shared_ptr<LCOpAction>>& get_actions() {
return actions;
}
void build();
void update();
int process(rgw_bucket_dir_entry& o, const DoutPrefixProvider *dpp,
WorkQ* wq);
}; /* LCOpRule */
using WorkItem =
boost::variant<void*,
/* out-of-line delete */
std::tuple<LCOpRule, rgw_bucket_dir_entry>,
/* uncompleted MPU expiration */
std::tuple<lc_op, rgw_bucket_dir_entry>,
rgw_bucket_dir_entry>;
class WorkQ : public Thread
{
public:
using unique_lock = std::unique_lock<std::mutex>;
using work_f = std::function<void(RGWLC::LCWorker*, WorkQ*, WorkItem&)>;
using dequeue_result = boost::variant<void*, WorkItem>;
static constexpr uint32_t FLAG_NONE = 0x0000;
static constexpr uint32_t FLAG_EWAIT_SYNC = 0x0001;
static constexpr uint32_t FLAG_DWAIT_SYNC = 0x0002;
static constexpr uint32_t FLAG_EDRAIN_SYNC = 0x0004;
private:
const work_f bsf = [](RGWLC::LCWorker* wk, WorkQ* wq, WorkItem& wi) {};
RGWLC::LCWorker* wk;
uint32_t qmax;
int ix;
std::mutex mtx;
std::condition_variable cv;
uint32_t flags;
vector<WorkItem> items;
work_f f;
public:
WorkQ(RGWLC::LCWorker* wk, uint32_t ix, uint32_t qmax)
: wk(wk), qmax(qmax), ix(ix), flags(FLAG_NONE), f(bsf)
{
create(thr_name().c_str());
}
std::string thr_name() {
return std::string{"wp_thrd: "}
+ std::to_string(wk->ix) + ", " + std::to_string(ix);
}
void setf(work_f _f) {
f = _f;
}
void enqueue(WorkItem&& item) {
unique_lock uniq(mtx);
while ((!wk->get_lc()->going_down()) &&
(items.size() > qmax)) {
flags |= FLAG_EWAIT_SYNC;
cv.wait_for(uniq, 200ms);
}
items.push_back(item);
if (flags & FLAG_DWAIT_SYNC) {
flags &= ~FLAG_DWAIT_SYNC;
cv.notify_one();
}
}
void drain() {
unique_lock uniq(mtx);
flags |= FLAG_EDRAIN_SYNC;
while (flags & FLAG_EDRAIN_SYNC) {
cv.wait_for(uniq, 200ms);
}
}
private:
dequeue_result dequeue() {
unique_lock uniq(mtx);
while ((!wk->get_lc()->going_down()) &&
(items.size() == 0)) {
/* clear drain state, as we are NOT doing work and qlen==0 */
if (flags & FLAG_EDRAIN_SYNC) {
flags &= ~FLAG_EDRAIN_SYNC;
}
flags |= FLAG_DWAIT_SYNC;
cv.wait_for(uniq, 200ms);
}
if (items.size() > 0) {
auto item = items.back();
items.pop_back();
if (flags & FLAG_EWAIT_SYNC) {
flags &= ~FLAG_EWAIT_SYNC;
cv.notify_one();
}
return {item};
}
return nullptr;
}
void* entry() override {
while (!wk->get_lc()->going_down()) {
auto item = dequeue();
if (item.which() == 0) {
/* going down */
break;
}
f(wk, this, boost::get<WorkItem>(item));
}
return nullptr;
}
}; /* WorkQ */
class RGWLC::WorkPool
{
using TVector = ceph::containers::tiny_vector<WorkQ, 3>;
TVector wqs;
uint64_t ix;
public:
WorkPool(RGWLC::LCWorker* wk, uint16_t n_threads, uint32_t qmax)
: wqs(TVector{
n_threads,
[&](const size_t ix, auto emplacer) {
emplacer.emplace(wk, ix, qmax);
}}),
ix(0)
{}
~WorkPool() {
for (auto& wq : wqs) {
wq.join();
}
}
void setf(WorkQ::work_f _f) {
for (auto& wq : wqs) {
wq.setf(_f);
}
}
void enqueue(WorkItem item) {
const auto tix = ix;
ix = (ix+1) % wqs.size();
(wqs[tix]).enqueue(std::move(item));
}
void drain() {
for (auto& wq : wqs) {
wq.drain();
}
}
}; /* WorkPool */
RGWLC::LCWorker::LCWorker(const DoutPrefixProvider* dpp, CephContext *cct,
RGWLC *lc, int ix)
: dpp(dpp), cct(cct), lc(lc), ix(ix)
{
auto wpw = cct->_conf.get_val<int64_t>("rgw_lc_max_wp_worker");
workpool = new WorkPool(this, wpw, 512);
}
static inline bool worker_should_stop(time_t stop_at, bool once)
{
return !once && stop_at < time(nullptr);
}
int RGWLC::handle_multipart_expiration(rgw::sal::RGWBucket* target,
const multimap<string, lc_op>& prefix_map,
LCWorker* worker, time_t stop_at, bool once)
{
MultipartMetaFilter mp_filter;
int ret;
rgw::sal::RGWBucket::ListParams params;
rgw::sal::RGWBucket::ListResults results;
auto delay_ms = cct->_conf.get_val<int64_t>("rgw_lc_thread_delay");
params.list_versions = false;
/* lifecycle processing does not depend on total order, so can
* take advantage of unordered listing optimizations--such as
* operating on one shard at a time */
params.allow_unordered = true;
params.ns = RGW_OBJ_NS_MULTIPART;
params.filter = &mp_filter;
auto pf = [&](RGWLC::LCWorker* wk, WorkQ* wq, WorkItem& wi) {
auto wt = boost::get<std::tuple<lc_op, rgw_bucket_dir_entry>>(wi);
auto& [rule, obj] = wt;
RGWMPObj mp_obj;
if (obj_has_expired(cct, obj.meta.mtime, rule.mp_expiration)) {
rgw_obj_key key(obj.key);
if (!mp_obj.from_meta(key.name)) {
return;
}
RGWObjectCtx rctx(store);
int ret = abort_multipart_upload(this, store, cct, &rctx, target->get_info(), mp_obj);
if (ret == 0) {
if (perfcounter) {
perfcounter->inc(l_rgw_lc_abort_mpu, 1);
}
} else {
if (ret == -ERR_NO_SUCH_UPLOAD) {
ldpp_dout(wk->get_lc(), 5)
<< "ERROR: abort_multipart_upload failed, ret=" << ret
<< wq->thr_name()
<< ", meta:" << obj.key
<< dendl;
} else {
ldpp_dout(wk->get_lc(), 0)
<< "ERROR: abort_multipart_upload failed, ret=" << ret
<< wq->thr_name()
<< ", meta:" << obj.key
<< dendl;
}
} /* abort failed */
} /* expired */
};
worker->workpool->setf(pf);
for (auto prefix_iter = prefix_map.begin(); prefix_iter != prefix_map.end();
++prefix_iter) {
if (worker_should_stop(stop_at, once)) {
ldout(cct, 5) << __func__ << " interval budget EXPIRED worker "
<< worker->ix
<< dendl;
return 0;
}
if (!prefix_iter->second.status || prefix_iter->second.mp_expiration <= 0) {
continue;
}
params.prefix = prefix_iter->first;
do {
results.objs.clear();
ret = target->list(this, params, 1000, results, null_yield);
if (ret < 0) {
if (ret == (-ENOENT))
return 0;
ldpp_dout(this, 0) << "ERROR: store->list_objects():" <<dendl;
return ret;
}
for (auto obj_iter = results.objs.begin(); obj_iter != results.objs.end(); ++obj_iter) {
std::tuple<lc_op, rgw_bucket_dir_entry> t1 =
{prefix_iter->second, *obj_iter};
worker->workpool->enqueue(WorkItem{t1});
if (going_down()) {
return 0;
}
} /* for objs */
std::this_thread::sleep_for(std::chrono::milliseconds(delay_ms));
} while(results.is_truncated);
} /* for prefix_map */
worker->workpool->drain();
return 0;
}
static int read_obj_tags(const DoutPrefixProvider *dpp, rgw::sal::RGWObject* obj, RGWObjectCtx& ctx, bufferlist& tags_bl)
{
std::unique_ptr<rgw::sal::RGWObject::ReadOp> rop = obj->get_read_op(&ctx);
return rop->get_attr(dpp, RGW_ATTR_TAGS, tags_bl, null_yield);
}
static bool is_valid_op(const lc_op& op)
{
return (op.status &&
(op.expiration > 0
|| op.expiration_date != boost::none
|| op.noncur_expiration > 0
|| op.dm_expiration
|| !op.transitions.empty()
|| !op.noncur_transitions.empty()));
}
static inline bool has_all_tags(const lc_op& rule_action,
const RGWObjTags& object_tags)
{
if(! rule_action.obj_tags)
return false;
if(object_tags.count() < rule_action.obj_tags->count())
return false;
size_t tag_count = 0;
for (const auto& tag : object_tags.get_tags()) {
const auto& rule_tags = rule_action.obj_tags->get_tags();
const auto& iter = rule_tags.find(tag.first);
if(iter == rule_tags.end())
continue;
if(iter->second == tag.second)
{
tag_count++;
}
/* all tags in the rule appear in obj tags */
}
return tag_count == rule_action.obj_tags->count();
}
static int check_tags(const DoutPrefixProvider *dpp, lc_op_ctx& oc, bool *skip)
{
auto& op = oc.op;
if (op.obj_tags != boost::none) {
*skip = true;
bufferlist tags_bl;
int ret = read_obj_tags(dpp, oc.obj.get(), oc.rctx, tags_bl);
if (ret < 0) {
if (ret != -ENODATA) {
ldout(oc.cct, 5) << "ERROR: read_obj_tags returned r="
<< ret << " " << oc.wq->thr_name() << dendl;
}
return 0;
}
RGWObjTags dest_obj_tags;
try {
auto iter = tags_bl.cbegin();
dest_obj_tags.decode(iter);
} catch (buffer::error& err) {
ldout(oc.cct,0) << "ERROR: caught buffer::error, couldn't decode TagSet "
<< oc.wq->thr_name() << dendl;
return -EIO;
}
if (! has_all_tags(op, dest_obj_tags)) {
ldout(oc.cct, 20) << __func__ << "() skipping obj " << oc.obj
<< " as tags do not match in rule: "
<< op.id << " "
<< oc.wq->thr_name() << dendl;
return 0;
}
}
*skip = false;
return 0;
}
class LCOpFilter_Tags : public LCOpFilter {
public:
bool check(const DoutPrefixProvider *dpp, lc_op_ctx& oc) override {
auto& o = oc.o;
if (o.is_delete_marker()) {
return true;
}
bool skip;
int ret = check_tags(dpp, oc, &skip);
if (ret < 0) {
if (ret == -ENOENT) {
return false;
}
ldout(oc.cct, 0) << "ERROR: check_tags on obj=" << oc.obj
<< " returned ret=" << ret << " "
<< oc.wq->thr_name() << dendl;
return false;
}
return !skip;
};
};
class LCOpAction_CurrentExpiration : public LCOpAction {
public:
LCOpAction_CurrentExpiration(op_env& env) {}
bool check(lc_op_ctx& oc, ceph::real_time *exp_time, const DoutPrefixProvider *dpp) override {
auto& o = oc.o;
if (!o.is_current()) {
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key
<< ": not current, skipping "
<< oc.wq->thr_name() << dendl;
return false;
}
if (o.is_delete_marker()) {
if (oc.next_key_name) {
std::string nkn = *oc.next_key_name;
if (oc.next_has_same_name(o.key.name)) {
ldpp_dout(dpp, 7) << __func__ << "(): dm-check SAME: key=" << o.key
<< " next_key_name: %%" << nkn << "%% "
<< oc.wq->thr_name() << dendl;
return false;
} else {
ldpp_dout(dpp, 7) << __func__ << "(): dm-check DELE: key=" << o.key
<< " next_key_name: %%" << nkn << "%% "
<< oc.wq->thr_name() << dendl;
*exp_time = real_clock::now();
return true;
}
}
return false;
}
auto& mtime = o.meta.mtime;
bool is_expired;
auto& op = oc.op;
if (op.expiration <= 0) {
if (op.expiration_date == boost::none) {
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key
<< ": no expiration set in rule, skipping "
<< oc.wq->thr_name() << dendl;
return false;
}
is_expired = ceph_clock_now() >=
ceph::real_clock::to_time_t(*op.expiration_date);
*exp_time = *op.expiration_date;
} else {
is_expired = obj_has_expired(oc.cct, mtime, op.expiration, exp_time);
}
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key << ": is_expired="
<< (int)is_expired << " "
<< oc.wq->thr_name() << dendl;
return is_expired;
}
int process(lc_op_ctx& oc) {
auto& o = oc.o;
int r;
if (o.is_delete_marker()) {
r = remove_expired_obj(oc.dpp, oc, true);
if (r < 0) {
ldout(oc.cct, 0) << "ERROR: current is-dm remove_expired_obj "
<< oc.bucket << ":" << o.key
<< " " << cpp_strerror(r) << " "
<< oc.wq->thr_name() << dendl;
return r;
}
ldout(oc.cct, 2) << "DELETED: current is-dm "
<< oc.bucket << ":" << o.key
<< " " << oc.wq->thr_name() << dendl;
} else {
/* ! o.is_delete_marker() */
r = remove_expired_obj(oc.dpp, oc, !oc.bucket->versioned());
if (r < 0) {
ldout(oc.cct, 0) << "ERROR: remove_expired_obj "
<< oc.bucket << ":" << o.key
<< " " << cpp_strerror(r) << " "
<< oc.wq->thr_name() << dendl;
return r;
}
if (perfcounter) {
perfcounter->inc(l_rgw_lc_expire_current, 1);
}
ldout(oc.cct, 2) << "DELETED:" << oc.bucket << ":" << o.key
<< " " << oc.wq->thr_name() << dendl;
}
return 0;
}
};
class LCOpAction_NonCurrentExpiration : public LCOpAction {
protected:
public:
LCOpAction_NonCurrentExpiration(op_env& env)
{}
bool check(lc_op_ctx& oc, ceph::real_time *exp_time, const DoutPrefixProvider *dpp) override {
auto& o = oc.o;
if (o.is_current()) {
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key
<< ": current version, skipping "
<< oc.wq->thr_name() << dendl;
return false;
}
int expiration = oc.op.noncur_expiration;
bool is_expired = obj_has_expired(oc.cct, oc.effective_mtime, expiration,
exp_time);
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key << ": is_expired="
<< is_expired << " "
<< oc.wq->thr_name() << dendl;
return is_expired &&
pass_object_lock_check(oc.store, oc.obj.get(), oc.rctx, dpp);
}
int process(lc_op_ctx& oc) {
auto& o = oc.o;
int r = remove_expired_obj(oc.dpp, oc, true);
if (r < 0) {
ldout(oc.cct, 0) << "ERROR: remove_expired_obj (non-current expiration) "
<< oc.bucket << ":" << o.key
<< " " << cpp_strerror(r)
<< " " << oc.wq->thr_name() << dendl;
return r;
}
if (perfcounter) {
perfcounter->inc(l_rgw_lc_expire_noncurrent, 1);
}
ldout(oc.cct, 2) << "DELETED:" << oc.bucket << ":" << o.key
<< " (non-current expiration) "
<< oc.wq->thr_name() << dendl;
return 0;
}
};
class LCOpAction_DMExpiration : public LCOpAction {
public:
LCOpAction_DMExpiration(op_env& env) {}
bool check(lc_op_ctx& oc, ceph::real_time *exp_time, const DoutPrefixProvider *dpp) override {
auto& o = oc.o;
if (!o.is_delete_marker()) {
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key
<< ": not a delete marker, skipping "
<< oc.wq->thr_name() << dendl;
return false;
}
if (oc.next_has_same_name(o.key.name)) {
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key
<< ": next is same object, skipping "
<< oc.wq->thr_name() << dendl;
return false;
}
*exp_time = real_clock::now();
return true;
}
int process(lc_op_ctx& oc) {
auto& o = oc.o;
int r = remove_expired_obj(oc.dpp, oc, true);
if (r < 0) {
ldout(oc.cct, 0) << "ERROR: remove_expired_obj (delete marker expiration) "
<< oc.bucket << ":" << o.key
<< " " << cpp_strerror(r)
<< " " << oc.wq->thr_name()
<< dendl;
return r;
}
if (perfcounter) {
perfcounter->inc(l_rgw_lc_expire_dm, 1);
}
ldout(oc.cct, 2) << "DELETED:" << oc.bucket << ":" << o.key
<< " (delete marker expiration) "
<< oc.wq->thr_name() << dendl;
return 0;
}
};
class LCOpAction_Transition : public LCOpAction {
const transition_action& transition;
bool need_to_process{false};
protected:
virtual bool check_current_state(bool is_current) = 0;
virtual ceph::real_time get_effective_mtime(lc_op_ctx& oc) = 0;
public:
LCOpAction_Transition(const transition_action& _transition)
: transition(_transition) {}
bool check(lc_op_ctx& oc, ceph::real_time *exp_time, const DoutPrefixProvider *dpp) override {
auto& o = oc.o;
if (o.is_delete_marker()) {
return false;
}
if (!check_current_state(o.is_current())) {
return false;
}
auto mtime = get_effective_mtime(oc);
bool is_expired;
if (transition.days < 0) {
if (transition.date == boost::none) {
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key
<< ": no transition day/date set in rule, skipping "
<< oc.wq->thr_name() << dendl;
return false;
}
is_expired = ceph_clock_now() >=
ceph::real_clock::to_time_t(*transition.date);
*exp_time = *transition.date;
} else {
is_expired = obj_has_expired(oc.cct, mtime, transition.days, exp_time);
}
ldout(oc.cct, 20) << __func__ << "(): key=" << o.key << ": is_expired="
<< is_expired << " "
<< oc.wq->thr_name() << dendl;
need_to_process =
(rgw_placement_rule::get_canonical_storage_class(o.meta.storage_class) !=
transition.storage_class);
return is_expired;
}
bool should_process() override {
return need_to_process;
}
int process(lc_op_ctx& oc) {
auto& o = oc.o;
rgw_placement_rule target_placement;
target_placement.inherit_from(oc.bucket->get_placement_rule());
target_placement.storage_class = transition.storage_class;
if (!oc.store->svc()->zone->get_zone_params().
valid_placement(target_placement)) {
ldpp_dout(oc.dpp, 0) << "ERROR: non existent dest placement: "
<< target_placement
<< " bucket="<< oc.bucket
<< " rule_id=" << oc.op.id
<< " " << oc.wq->thr_name() << dendl;
return -EINVAL;
}
int r = oc.obj->transition(oc.rctx, oc.bucket, target_placement, o.meta.mtime,
o.versioned_epoch, oc.dpp, null_yield);
if (r < 0) {
ldpp_dout(oc.dpp, 0) << "ERROR: failed to transition obj "
<< oc.bucket << ":" << o.key
<< " -> " << transition.storage_class
<< " " << cpp_strerror(r)
<< " " << oc.wq->thr_name() << dendl;
return r;
}
ldpp_dout(oc.dpp, 2) << "TRANSITIONED:" << oc.bucket
<< ":" << o.key << " -> "
<< transition.storage_class
<< " " << oc.wq->thr_name() << dendl;
return 0;
}
};
class LCOpAction_CurrentTransition : public LCOpAction_Transition {
protected:
bool check_current_state(bool is_current) override {
return is_current;
}
ceph::real_time get_effective_mtime(lc_op_ctx& oc) override {
return oc.o.meta.mtime;
}
public:
LCOpAction_CurrentTransition(const transition_action& _transition)
: LCOpAction_Transition(_transition) {}
int process(lc_op_ctx& oc) {
int r = LCOpAction_Transition::process(oc);
if (r == 0) {
if (perfcounter) {
perfcounter->inc(l_rgw_lc_transition_current, 1);
}
}
return r;
}
};
class LCOpAction_NonCurrentTransition : public LCOpAction_Transition {
protected:
bool check_current_state(bool is_current) override {
return !is_current;
}
ceph::real_time get_effective_mtime(lc_op_ctx& oc) override {
return oc.effective_mtime;
}
public:
LCOpAction_NonCurrentTransition(op_env& env,
const transition_action& _transition)
: LCOpAction_Transition(_transition)
{}
int process(lc_op_ctx& oc) {
int r = LCOpAction_Transition::process(oc);
if (r == 0) {
if (perfcounter) {
perfcounter->inc(l_rgw_lc_transition_noncurrent, 1);
}
}
return r;
}
};
void LCOpRule::build()
{
filters.emplace_back(new LCOpFilter_Tags);
auto& op = env.op;
if (op.expiration > 0 ||
op.expiration_date != boost::none) {
actions.emplace_back(new LCOpAction_CurrentExpiration(env));
}
if (op.dm_expiration) {
actions.emplace_back(new LCOpAction_DMExpiration(env));
}
if (op.noncur_expiration > 0) {
actions.emplace_back(new LCOpAction_NonCurrentExpiration(env));
}
for (auto& iter : op.transitions) {
actions.emplace_back(new LCOpAction_CurrentTransition(iter.second));
}
for (auto& iter : op.noncur_transitions) {
actions.emplace_back(new LCOpAction_NonCurrentTransition(env, iter.second));
}
}
void LCOpRule::update()
{
next_key_name = env.ol.next_key_name();
effective_mtime = env.ol.get_prev_obj().meta.mtime;
}
int LCOpRule::process(rgw_bucket_dir_entry& o,
const DoutPrefixProvider *dpp,
WorkQ* wq)
{
lc_op_ctx ctx(env, o, next_key_name, effective_mtime, dpp, wq);
shared_ptr<LCOpAction> *selected = nullptr; // n.b., req'd by sharing
real_time exp;
for (auto& a : actions) {
real_time action_exp;
if (a->check(ctx, &action_exp, dpp)) {
if (action_exp > exp) {
exp = action_exp;
selected = &a;
}
}
}
if (selected &&
(*selected)->should_process()) {
/*
* Calling filter checks after action checks because
* all action checks (as they are implemented now) do
* not access the objects themselves, but return result
* from info from bucket index listing. The current tags filter
* check does access the objects, so we avoid unnecessary rados calls
* having filters check later in the process.
*/
bool cont = false;
for (auto& f : filters) {
if (f->check(dpp, ctx)) {
cont = true;
break;
}
}
if (!cont) {
ldpp_dout(dpp, 20) << __func__ << "(): key=" << o.key
<< ": no rule match, skipping "
<< " " << wq->thr_name() << dendl;
return 0;
}
int r = (*selected)->process(ctx);
if (r < 0) {
ldpp_dout(dpp, 0) << "ERROR: remove_expired_obj "
<< env.bucket << ":" << o.key
<< " " << cpp_strerror(r)
<< " " << wq->thr_name() << dendl;
return r;
}
ldpp_dout(dpp, 20) << "processed:" << env.bucket << ":"
<< o.key << " " << wq->thr_name() << dendl;
}
return 0;
}
int RGWLC::bucket_lc_process(string& shard_id, LCWorker* worker,
time_t stop_at, bool once)
{
RGWLifecycleConfiguration config(cct);
std::unique_ptr<rgw::sal::RGWBucket> bucket;
string no_ns, list_versions;
vector<rgw_bucket_dir_entry> objs;
vector<std::string> result;
boost::split(result, shard_id, boost::is_any_of(":"));
string bucket_tenant = result[0];
string bucket_name = result[1];
string bucket_marker = result[2];
int ret = store->get_bucket(this, nullptr, bucket_tenant, bucket_name, &bucket, null_yield);
if (ret < 0) {
ldpp_dout(this, 0) << "LC:get_bucket for " << bucket_name
<< " failed" << dendl;
return ret;
}
ret = bucket->get_bucket_info(this, null_yield);
if (ret < 0) {
ldpp_dout(this, 0) << "LC:get_bucket_info for " << bucket_name
<< " failed" << dendl;
return ret;
}
auto stack_guard = make_scope_guard(
[&worker]
{
worker->workpool->drain();
}
);
if (bucket->get_marker() != bucket_marker) {
ldpp_dout(this, 1) << "LC: deleting stale entry found for bucket="
<< bucket_tenant << ":" << bucket_name
<< " cur_marker=" << bucket->get_marker()
<< " orig_marker=" << bucket_marker << dendl;
return -ENOENT;
}
map<string, bufferlist>::iterator aiter
= bucket->get_attrs().find(RGW_ATTR_LC);
if (aiter == bucket->get_attrs().end()) {
ldpp_dout(this, 0) << "WARNING: bucket_attrs.find(RGW_ATTR_LC) failed for "
<< bucket_name << " (terminates bucket_lc_process(...))"
<< dendl;
return 0;
}
bufferlist::const_iterator iter{&aiter->second};
try {
config.decode(iter);
} catch (const buffer::error& e) {
ldpp_dout(this, 0) << __func__ << "() decode life cycle config failed"
<< dendl;
return -1;
}
auto pf = [](RGWLC::LCWorker* wk, WorkQ* wq, WorkItem& wi) {
auto wt =
boost::get<std::tuple<LCOpRule, rgw_bucket_dir_entry>>(wi);
auto& [op_rule, o] = wt;
ldpp_dout(wk->get_lc(), 20)
<< __func__ << "(): key=" << o.key << wq->thr_name()
<< dendl;
int ret = op_rule.process(o, wk->dpp, wq);
if (ret < 0) {
ldpp_dout(wk->get_lc(), 20)
<< "ERROR: orule.process() returned ret=" << ret
<< wq->thr_name()
<< dendl;
}
};
worker->workpool->setf(pf);
multimap<string, lc_op>& prefix_map = config.get_prefix_map();
ldpp_dout(this, 10) << __func__ << "() prefix_map size="
<< prefix_map.size()
<< dendl;
rgw_obj_key pre_marker;
rgw_obj_key next_marker;
for(auto prefix_iter = prefix_map.begin(); prefix_iter != prefix_map.end();
++prefix_iter) {
if (worker_should_stop(stop_at, once)) {
ldout(cct, 5) << __func__ << " interval budget EXPIRED worker "
<< worker->ix
<< dendl;
return 0;
}
auto& op = prefix_iter->second;
if (!is_valid_op(op)) {
continue;
}
ldpp_dout(this, 20) << __func__ << "(): prefix=" << prefix_iter->first
<< dendl;
if (prefix_iter != prefix_map.begin() &&
(prefix_iter->first.compare(0, prev(prefix_iter)->first.length(),
prev(prefix_iter)->first) == 0)) {
next_marker = pre_marker;
} else {
pre_marker = next_marker;
}
LCObjsLister ol(store, bucket.get());
ol.set_prefix(prefix_iter->first);
ret = ol.init(this);
if (ret < 0) {
if (ret == (-ENOENT))
return 0;
ldpp_dout(this, 0) << "ERROR: store->list_objects():" <<dendl;
return ret;
}
op_env oenv(op, store, worker, bucket.get(), ol);
LCOpRule orule(oenv);
orule.build(); // why can't ctor do it?
rgw_bucket_dir_entry* o{nullptr};
for (; ol.get_obj(this, &o /* , fetch_barrier */); ol.next()) {
orule.update();
std::tuple<LCOpRule, rgw_bucket_dir_entry> t1 = {orule, *o};
worker->workpool->enqueue(WorkItem{t1});
}
worker->workpool->drain();
}
ret = handle_multipart_expiration(bucket.get(), prefix_map, worker, stop_at, once);
return ret;
}
int RGWLC::bucket_lc_post(int index, int max_lock_sec,
rgw::sal::Lifecycle::LCEntry& entry, int& result,
LCWorker* worker)
{
utime_t lock_duration(cct->_conf->rgw_lc_lock_max_time, 0);
rgw::sal::LCSerializer* lock = sal_lc->get_serializer(lc_index_lock_name,
obj_names[index],
cookie);
dout(5) << "RGWLC::bucket_lc_post(): POST " << entry
<< " index: " << index << " worker ix: " << worker->ix
<< dendl;
do {
int ret = lock->try_lock(this, lock_duration, null_yield);
if (ret == -EBUSY || ret == -EEXIST) {
/* already locked by another lc processor */
ldpp_dout(this, 0) << "RGWLC::bucket_lc_post() failed to acquire lock on "
<< obj_names[index] << ", sleep 5, try again " << dendl;
sleep(5);
continue;
}
if (ret < 0)
return 0;
ldpp_dout(this, 20) << "RGWLC::bucket_lc_post() lock " << obj_names[index]
<< dendl;
if (result == -ENOENT) {
ret = sal_lc->rm_entry(obj_names[index], entry);
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::bucket_lc_post() failed to remove entry "
<< obj_names[index] << dendl;
}
goto clean;
} else if (result < 0) {
entry.status = lc_failed;
} else {
entry.status = lc_complete;
}
ret = sal_lc->set_entry(obj_names[index], entry);
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::process() failed to set entry on "
<< obj_names[index] << dendl;
}
clean:
lock->unlock();
delete lock;
ldpp_dout(this, 20) << "RGWLC::bucket_lc_post() unlock "
<< obj_names[index] << dendl;
return 0;
} while (true);
}
int RGWLC::list_lc_progress(string& marker, uint32_t max_entries,
vector<rgw::sal::Lifecycle::LCEntry>& progress_map,
int& index)
{
progress_map.clear();
for(; index < max_objs; index++, marker="") {
vector<rgw::sal::Lifecycle::LCEntry> entries;
int ret = sal_lc->list_entries(obj_names[index], marker, max_entries, entries);
if (ret < 0) {
if (ret == -ENOENT) {
ldpp_dout(this, 10) << __func__ << "() ignoring unfound lc object="
<< obj_names[index] << dendl;
continue;
} else {
return ret;
}
}
progress_map.reserve(progress_map.size() + entries.size());
progress_map.insert(progress_map.end(), entries.begin(), entries.end());
/* update index, marker tuple */
if (progress_map.size() > 0)
marker = progress_map.back().bucket;
if (progress_map.size() >= max_entries)
break;
}
return 0;
}
static inline vector<int> random_sequence(uint32_t n)
{
vector<int> v(n, 0);
std::generate(v.begin(), v.end(),
[ix = 0]() mutable {
return ix++;
});
std::random_device rd;
std::default_random_engine rng{rd()};
std::shuffle(v.begin(), v.end(), rd);
return v;
}
int RGWLC::process(LCWorker* worker, bool once = false)
{
int max_secs = cct->_conf->rgw_lc_lock_max_time;
/* generate an index-shard sequence unrelated to any other
* that might be running in parallel */
vector<int> shard_seq = random_sequence(max_objs);
for (auto index : shard_seq) {
int ret = process(index, max_secs, worker, once);
if (ret < 0)
return ret;
}
return 0;
}
bool RGWLC::expired_session(time_t started)
{
time_t interval = (cct->_conf->rgw_lc_debug_interval > 0)
? cct->_conf->rgw_lc_debug_interval
: 24*60*60;
auto now = time(nullptr);
dout(16) << "RGWLC::expired_session"
<< " started: " << started
<< " interval: " << interval << "(*2==" << 2*interval << ")"
<< " now: " << now
<< dendl;
return (started + 2*interval < now);
}
time_t RGWLC::thread_stop_at()
{
uint64_t interval = (cct->_conf->rgw_lc_debug_interval > 0)
? cct->_conf->rgw_lc_debug_interval
: 24*60*60;
return time(nullptr) + interval;
}
int RGWLC::process(int index, int max_lock_secs, LCWorker* worker,
bool once = false)
{
dout(5) << "RGWLC::process(): ENTER: "
<< "index: " << index << " worker ix: " << worker->ix
<< dendl;
rgw::sal::LCSerializer* lock = sal_lc->get_serializer(lc_index_lock_name,
obj_names[index],
std::string());
do {
utime_t now = ceph_clock_now();
//string = bucket_name:bucket_id, start_time, int = LC_BUCKET_STATUS
rgw::sal::Lifecycle::LCEntry entry;
if (max_lock_secs <= 0)
return -EAGAIN;
utime_t time(max_lock_secs, 0);
int ret = lock->try_lock(this, time, null_yield);
if (ret == -EBUSY || ret == -EEXIST) {
/* already locked by another lc processor */
ldpp_dout(this, 0) << "RGWLC::process() failed to acquire lock on "
<< obj_names[index] << ", sleep 5, try again" << dendl;
sleep(5);
continue;
}
if (ret < 0)
return 0;
rgw::sal::Lifecycle::LCHead head;
ret = sal_lc->get_head(obj_names[index], head);
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::process() failed to get obj head "
<< obj_names[index] << ", ret=" << ret << dendl;
goto exit;
}
if (! (cct->_conf->rgw_lc_lock_max_time == 9969)) {
ret = sal_lc->get_entry(obj_names[index], head.marker, entry);
if (ret >= 0) {
if (entry.status == lc_processing) {
if (expired_session(entry.start_time)) {
dout(5) << "RGWLC::process(): STALE lc session found for: " << entry
<< " index: " << index << " worker ix: " << worker->ix
<< " (clearing)"
<< dendl;
} else {
dout(5) << "RGWLC::process(): ACTIVE entry: " << entry
<< " index: " << index << " worker ix: " << worker->ix
<< dendl;
goto exit;
}
}
}
}
if(!if_already_run_today(head.start_date) ||
once) {
head.start_date = now;
head.marker.clear();
ret = bucket_lc_prepare(index, worker);
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::process() failed to update lc object "
<< obj_names[index]
<< ", ret=" << ret
<< dendl;
goto exit;
}
}
ret = sal_lc->get_next_entry(obj_names[index], head.marker, entry);
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::process() failed to get obj entry "
<< obj_names[index] << dendl;
goto exit;
}
/* termination condition (eof) */
if (entry.bucket.empty())
goto exit;
ldpp_dout(this, 5) << "RGWLC::process(): START entry 1: " << entry
<< " index: " << index << " worker ix: " << worker->ix
<< dendl;
entry.status = lc_processing;
ret = sal_lc->set_entry(obj_names[index], entry);
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::process() failed to set obj entry "
<< obj_names[index] << entry.bucket << entry.status << dendl;
goto exit;
}
head.marker = entry.bucket;
ret = sal_lc->put_head(obj_names[index], head);
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::process() failed to put head "
<< obj_names[index]
<< dendl;
goto exit;
}
ldpp_dout(this, 5) << "RGWLC::process(): START entry 2: " << entry
<< " index: " << index << " worker ix: " << worker->ix
<< dendl;
lock->unlock();
ret = bucket_lc_process(entry.bucket, worker, thread_stop_at(), once);
bucket_lc_post(index, max_lock_secs, entry, ret, worker);
} while(1 && !once);
delete lock;
return 0;
exit:
lock->unlock();
delete lock;
return 0;
}
void RGWLC::start_processor()
{
auto maxw = cct->_conf->rgw_lc_max_worker;
workers.reserve(maxw);
for (int ix = 0; ix < maxw; ++ix) {
auto worker =
std::make_unique<RGWLC::LCWorker>(this /* dpp */, cct, this, ix);
worker->create((string{"lifecycle_thr_"} + to_string(ix)).c_str());
workers.emplace_back(std::move(worker));
}
}
void RGWLC::stop_processor()
{
down_flag = true;
for (auto& worker : workers) {
worker->stop();
worker->join();
}
workers.clear();
}
unsigned RGWLC::get_subsys() const
{
return dout_subsys;
}
std::ostream& RGWLC::gen_prefix(std::ostream& out) const
{
return out << "lifecycle: ";
}
void RGWLC::LCWorker::stop()
{
std::lock_guard l{lock};
cond.notify_all();
}
bool RGWLC::going_down()
{
return down_flag;
}
bool RGWLC::LCWorker::should_work(utime_t& now)
{
int start_hour;
int start_minute;
int end_hour;
int end_minute;
string worktime = cct->_conf->rgw_lifecycle_work_time;
sscanf(worktime.c_str(),"%d:%d-%d:%d",&start_hour, &start_minute,
&end_hour, &end_minute);
struct tm bdt;
time_t tt = now.sec();
localtime_r(&tt, &bdt);
if (cct->_conf->rgw_lc_debug_interval > 0) {
/* We're debugging, so say we can run */
return true;
} else if ((bdt.tm_hour*60 + bdt.tm_min >= start_hour*60 + start_minute) &&
(bdt.tm_hour*60 + bdt.tm_min <= end_hour*60 + end_minute)) {
return true;
} else {
return false;
}
}
int RGWLC::LCWorker::schedule_next_start_time(utime_t &start, utime_t& now)
{
int secs;
if (cct->_conf->rgw_lc_debug_interval > 0) {
secs = start + cct->_conf->rgw_lc_debug_interval - now;
if (secs < 0)
secs = 0;
return (secs);
}
int start_hour;
int start_minute;
int end_hour;
int end_minute;
string worktime = cct->_conf->rgw_lifecycle_work_time;
sscanf(worktime.c_str(),"%d:%d-%d:%d",&start_hour, &start_minute, &end_hour,
&end_minute);
struct tm bdt;
time_t tt = now.sec();
time_t nt;
localtime_r(&tt, &bdt);
bdt.tm_hour = start_hour;
bdt.tm_min = start_minute;
bdt.tm_sec = 0;
nt = mktime(&bdt);
secs = nt - tt;
return secs>0 ? secs : secs+24*60*60;
}
RGWLC::LCWorker::~LCWorker()
{
delete workpool;
} /* ~LCWorker */
void RGWLifecycleConfiguration::generate_test_instances(
list<RGWLifecycleConfiguration*>& o)
{
o.push_back(new RGWLifecycleConfiguration);
}
static inline void get_lc_oid(CephContext *cct,
const string& shard_id, string *oid)
{
int max_objs =
(cct->_conf->rgw_lc_max_objs > HASH_PRIME ? HASH_PRIME :
cct->_conf->rgw_lc_max_objs);
/* n.b. review hash algo */
int index = ceph_str_hash_linux(shard_id.c_str(),
shard_id.size()) % HASH_PRIME % max_objs;
*oid = lc_oid_prefix;
char buf[32];
snprintf(buf, 32, ".%d", index);
oid->append(buf);
return;
}
static std::string get_lc_shard_name(const rgw_bucket& bucket){
return string_join_reserve(':', bucket.tenant, bucket.name, bucket.marker);
}
template<typename F>
static int guard_lc_modify(const DoutPrefixProvider *dpp,
rgw::sal::RGWRadosStore* store,
rgw::sal::Lifecycle* sal_lc,
const rgw_bucket& bucket, const string& cookie,
const F& f) {
CephContext *cct = store->ctx();
string shard_id = get_lc_shard_name(bucket);
string oid;
get_lc_oid(cct, shard_id, &oid);
/* XXX it makes sense to take shard_id for a bucket_id? */
rgw::sal::Lifecycle::LCEntry entry;
entry.bucket = shard_id;
entry.status = lc_uninitial;
int max_lock_secs = cct->_conf->rgw_lc_lock_max_time;
rgw::sal::LCSerializer* lock = sal_lc->get_serializer(lc_index_lock_name,
oid,
cookie);
utime_t time(max_lock_secs, 0);
int ret;
do {
ret = lock->try_lock(dpp, time, null_yield);
if (ret == -EBUSY || ret == -EEXIST) {
ldpp_dout(dpp, 0) << "RGWLC::RGWPutLC() failed to acquire lock on "
<< oid << ", sleep 5, try again" << dendl;
sleep(5); // XXX: return retryable error
continue;
}
if (ret < 0) {
ldpp_dout(dpp, 0) << "RGWLC::RGWPutLC() failed to acquire lock on "
<< oid << ", ret=" << ret << dendl;
break;
}
ret = f(sal_lc, oid, entry);
if (ret < 0) {
ldpp_dout(dpp, 0) << "RGWLC::RGWPutLC() failed to set entry on "
<< oid << ", ret=" << ret << dendl;
}
break;
} while(true);
lock->unlock();
delete lock;
return ret;
}
int RGWLC::set_bucket_config(RGWBucketInfo& bucket_info,
const map<string, bufferlist>& bucket_attrs,
RGWLifecycleConfiguration *config)
{
map<string, bufferlist> attrs = bucket_attrs;
bufferlist lc_bl;
config->encode(lc_bl);
attrs[RGW_ATTR_LC] = std::move(lc_bl);
int ret =
store->ctl()->bucket->set_bucket_instance_attrs(
bucket_info, attrs, &bucket_info.objv_tracker, null_yield, this);
if (ret < 0)
return ret;
rgw_bucket& bucket = bucket_info.bucket;
ret = guard_lc_modify(this, store, sal_lc.get(), bucket, cookie,
[&](rgw::sal::Lifecycle* sal_lc, const string& oid,
const rgw::sal::Lifecycle::LCEntry& entry) {
return sal_lc->set_entry(oid, entry);
});
return ret;
}
int RGWLC::remove_bucket_config(RGWBucketInfo& bucket_info,
const map<string, bufferlist>& bucket_attrs)
{
map<string, bufferlist> attrs = bucket_attrs;
attrs.erase(RGW_ATTR_LC);
int ret =
store->ctl()->bucket->set_bucket_instance_attrs(
bucket_info, attrs, &bucket_info.objv_tracker, null_yield, this);
rgw_bucket& bucket = bucket_info.bucket;
if (ret < 0) {
ldpp_dout(this, 0) << "RGWLC::RGWDeleteLC() failed to set attrs on bucket="
<< bucket.name << " returned err=" << ret << dendl;
return ret;
}
ret = guard_lc_modify(this, store, sal_lc.get(), bucket, cookie,
[&](rgw::sal::Lifecycle* sal_lc, const string& oid,
const rgw::sal::Lifecycle::LCEntry& entry) {
return sal_lc->rm_entry(oid, entry);
});
return ret;
} /* RGWLC::remove_bucket_config */
RGWLC::~RGWLC()
{
stop_processor();
finalize();
} /* ~RGWLC() */
namespace rgw::lc {
int fix_lc_shard_entry(const DoutPrefixProvider *dpp,
rgw::sal::RGWRadosStore* store,
rgw::sal::Lifecycle* sal_lc,
const RGWBucketInfo& bucket_info,
const map<std::string,bufferlist>& battrs)
{
if (auto aiter = battrs.find(RGW_ATTR_LC);
aiter == battrs.end()) {
return 0; // No entry, nothing to fix
}
auto shard_name = get_lc_shard_name(bucket_info.bucket);
std::string lc_oid;
get_lc_oid(store->ctx(), shard_name, &lc_oid);
rgw::sal::Lifecycle::LCEntry entry;
// There are multiple cases we need to encounter here
// 1. entry exists and is already set to marker, happens in plain buckets & newly resharded buckets
// 2. entry doesn't exist, which usually happens when reshard has happened prior to update and next LC process has already dropped the update
// 3. entry exists matching the current bucket id which was after a reshard (needs to be updated to the marker)
// We are not dropping the old marker here as that would be caught by the next LC process update
int ret = sal_lc->get_entry(lc_oid, shard_name, entry);
if (ret == 0) {
ldpp_dout(dpp, 5) << "Entry already exists, nothing to do" << dendl;
return ret; // entry is already existing correctly set to marker
}
ldpp_dout(dpp, 5) << "lc_get_entry errored ret code=" << ret << dendl;
if (ret == -ENOENT) {
ldpp_dout(dpp, 1) << "No entry for bucket=" << bucket_info.bucket.name
<< " creating " << dendl;
// TODO: we have too many ppl making cookies like this!
char cookie_buf[COOKIE_LEN + 1];
gen_rand_alphanumeric(store->ctx(), cookie_buf, sizeof(cookie_buf) - 1);
std::string cookie = cookie_buf;
ret = guard_lc_modify(dpp,
store, sal_lc, bucket_info.bucket, cookie,
[&lc_oid](rgw::sal::Lifecycle* slc,
const string& oid,
const rgw::sal::Lifecycle::LCEntry& entry) {
return slc->set_entry(lc_oid, entry);
});
}
return ret;
}
std::string s3_expiration_header(
DoutPrefixProvider* dpp,
const rgw_obj_key& obj_key,
const RGWObjTags& obj_tagset,
const ceph::real_time& mtime,
const std::map<std::string, buffer::list>& bucket_attrs)
{
CephContext* cct = dpp->get_cct();
RGWLifecycleConfiguration config(cct);
std::string hdr{""};
const auto& aiter = bucket_attrs.find(RGW_ATTR_LC);
if (aiter == bucket_attrs.end())
return hdr;
bufferlist::const_iterator iter{&aiter->second};
try {
config.decode(iter);
} catch (const buffer::error& e) {
ldpp_dout(dpp, 0) << __func__
<< "() decode life cycle config failed"
<< dendl;
return hdr;
} /* catch */
/* dump tags at debug level 16 */
RGWObjTags::tag_map_t obj_tag_map = obj_tagset.get_tags();
if (cct->_conf->subsys.should_gather(ceph_subsys_rgw, 16)) {
for (const auto& elt : obj_tag_map) {
ldout(cct, 16) << __func__
<< "() key=" << elt.first << " val=" << elt.second
<< dendl;
}
}
boost::optional<ceph::real_time> expiration_date;
boost::optional<std::string> rule_id;
const auto& rule_map = config.get_rule_map();
for (const auto& ri : rule_map) {
const auto& rule = ri.second;
auto& id = rule.get_id();
auto& filter = rule.get_filter();
auto& prefix = filter.has_prefix() ? filter.get_prefix(): rule.get_prefix();
auto& expiration = rule.get_expiration();
auto& noncur_expiration = rule.get_noncur_expiration();
ldpp_dout(dpp, 10) << "rule: " << ri.first
<< " prefix: " << prefix
<< " expiration: "
<< " date: " << expiration.get_date()
<< " days: " << expiration.get_days()
<< " noncur_expiration: "
<< " date: " << noncur_expiration.get_date()
<< " days: " << noncur_expiration.get_days()
<< dendl;
/* skip if rule !enabled
* if rule has prefix, skip iff object !match prefix
* if rule has tags, skip iff object !match tags
* note if object is current or non-current, compare accordingly
* if rule has days, construct date expression and save iff older
* than last saved
* if rule has date, convert date expression and save iff older
* than last saved
* if the date accum has a value, format it into hdr
*/
if (! rule.is_enabled())
continue;
if(! prefix.empty()) {
if (! boost::starts_with(obj_key.name, prefix))
continue;
}
if (filter.has_tags()) {
bool tag_match = false;
const RGWObjTags& rule_tagset = filter.get_tags();
for (auto& tag : rule_tagset.get_tags()) {
/* remember, S3 tags are {key,value} tuples */
tag_match = true;
auto obj_tag = obj_tag_map.find(tag.first);
if (obj_tag == obj_tag_map.end() || obj_tag->second != tag.second) {
ldpp_dout(dpp, 10) << "tag does not match obj_key=" << obj_key
<< " rule_id=" << id
<< " tag=" << tag
<< dendl;
tag_match = false;
break;
}
}
if (! tag_match)
continue;
}
// compute a uniform expiration date
boost::optional<ceph::real_time> rule_expiration_date;
const LCExpiration& rule_expiration =
(obj_key.instance.empty()) ? expiration : noncur_expiration;
if (rule_expiration.has_date()) {
rule_expiration_date =
boost::optional<ceph::real_time>(
ceph::from_iso_8601(rule.get_expiration().get_date()));
} else {
if (rule_expiration.has_days()) {
rule_expiration_date =
boost::optional<ceph::real_time>(
mtime + make_timespan(double(rule_expiration.get_days())*24*60*60 - ceph::real_clock::to_time_t(mtime)%(24*60*60) + 24*60*60));
}
}
// update earliest expiration
if (rule_expiration_date) {
if ((! expiration_date) ||
(*expiration_date > *rule_expiration_date)) {
expiration_date =
boost::optional<ceph::real_time>(rule_expiration_date);
rule_id = boost::optional<std::string>(id);
}
}
}
// cond format header
if (expiration_date && rule_id) {
// Fri, 23 Dec 2012 00:00:00 GMT
char exp_buf[100];
time_t exp = ceph::real_clock::to_time_t(*expiration_date);
if (std::strftime(exp_buf, sizeof(exp_buf),
"%a, %d %b %Y %T %Z", std::gmtime(&exp))) {
hdr = fmt::format("expiry-date=\"{0}\", rule-id=\"{1}\"", exp_buf,
*rule_id);
} else {
ldpp_dout(dpp, 0) << __func__ <<
"() strftime of life cycle expiration header failed"
<< dendl;
}
}
return hdr;
} /* rgwlc_s3_expiration_header */
bool s3_multipart_abort_header(
DoutPrefixProvider* dpp,
const rgw_obj_key& obj_key,
const ceph::real_time& mtime,
const std::map<std::string, buffer::list>& bucket_attrs,
ceph::real_time& abort_date,
std::string& rule_id)
{
CephContext* cct = dpp->get_cct();
RGWLifecycleConfiguration config(cct);
const auto& aiter = bucket_attrs.find(RGW_ATTR_LC);
if (aiter == bucket_attrs.end())
return false;
bufferlist::const_iterator iter{&aiter->second};
try {
config.decode(iter);
} catch (const buffer::error& e) {
ldpp_dout(dpp, 0) << __func__
<< "() decode life cycle config failed"
<< dendl;
return false;
} /* catch */
std::optional<ceph::real_time> abort_date_tmp;
std::optional<std::string_view> rule_id_tmp;
const auto& rule_map = config.get_rule_map();
for (const auto& ri : rule_map) {
const auto& rule = ri.second;
const auto& id = rule.get_id();
const auto& filter = rule.get_filter();
const auto& prefix = filter.has_prefix()?filter.get_prefix():rule.get_prefix();
const auto& mp_expiration = rule.get_mp_expiration();
if (!rule.is_enabled()) {
continue;
}
if(!prefix.empty() && !boost::starts_with(obj_key.name, prefix)) {
continue;
}
std::optional<ceph::real_time> rule_abort_date;
if (mp_expiration.has_days()) {
rule_abort_date = std::optional<ceph::real_time>(
mtime + make_timespan(mp_expiration.get_days()*24*60*60 - ceph::real_clock::to_time_t(mtime)%(24*60*60) + 24*60*60));
}
// update earliest abort date
if (rule_abort_date) {
if ((! abort_date_tmp) ||
(*abort_date_tmp > *rule_abort_date)) {
abort_date_tmp =
std::optional<ceph::real_time>(rule_abort_date);
rule_id_tmp = std::optional<std::string_view>(id);
}
}
}
if (abort_date_tmp && rule_id_tmp) {
abort_date = *abort_date_tmp;
rule_id = *rule_id_tmp;
return true;
} else {
return false;
}
}
} /* namespace rgw::lc */
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