1 // -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
2 // vim: ts=8 sw=2 smarttab
8 #include <boost/algorithm/string.hpp>
10 #include "common/errno.h"
11 #include "common/Formatter.h"
12 #include "common/ceph_json.h"
13 #include "common/RWLock.h"
14 #include "rgw_rados.h"
17 #include "include/types.h"
19 #include "rgw_string.h"
21 // until everything is moved from rgw_common
22 #include "rgw_common.h"
24 #include "rgw_bucket.h"
26 #define dout_subsys ceph_subsys_rgw
31 static RGWMetadataHandler
*user_meta_handler
= NULL
;
35 * Get the anonymous (ie, unauthenticated) user info.
37 void rgw_get_anon_user(RGWUserInfo
& info
)
39 info
.user_id
= RGW_USER_ANON_ID
;
40 info
.display_name
.clear();
41 info
.access_keys
.clear();
44 int rgw_user_sync_all_stats(RGWRados
*store
, const rgw_user
& user_id
)
46 CephContext
*cct
= store
->ctx();
47 size_t max_entries
= cct
->_conf
->rgw_list_buckets_max_chunk
;
48 bool is_truncated
= false;
51 RGWObjectCtx
obj_ctx(store
);
54 RGWUserBuckets user_buckets
;
55 ret
= rgw_read_user_buckets(store
, user_id
, user_buckets
, marker
,
56 string(), max_entries
, false, &is_truncated
);
58 ldout(cct
, 0) << "failed to read user buckets: ret=" << ret
<< dendl
;
61 map
<string
, RGWBucketEnt
>& buckets
= user_buckets
.get_buckets();
62 for (map
<string
, RGWBucketEnt
>::iterator i
= buckets
.begin();
67 RGWBucketEnt
& bucket_ent
= i
->second
;
68 RGWBucketInfo bucket_info
;
70 ret
= store
->get_bucket_instance_info(obj_ctx
, bucket_ent
.bucket
, bucket_info
, NULL
, NULL
);
72 ldout(cct
, 0) << "ERROR: could not read bucket info: bucket=" << bucket_ent
.bucket
<< " ret=" << ret
<< dendl
;
75 ret
= rgw_bucket_sync_user_stats(store
, user_id
, bucket_info
);
77 ldout(cct
, 0) << "ERROR: could not sync bucket stats: ret=" << ret
<< dendl
;
80 RGWQuotaInfo bucket_quota
;
81 ret
= store
->check_bucket_shards(bucket_info
, bucket_info
.bucket
, bucket_quota
);
83 ldout(cct
, 0) << "ERROR in check_bucket_shards: " << cpp_strerror(-ret
)<< dendl
;
86 } while (is_truncated
);
88 ret
= store
->complete_sync_user_stats(user_id
);
90 cerr
<< "ERROR: failed to complete syncing user stats: ret=" << ret
<< std::endl
;
97 int rgw_user_get_all_buckets_stats(RGWRados
*store
, const rgw_user
& user_id
, map
<string
, cls_user_bucket_entry
>&buckets_usage_map
)
99 CephContext
*cct
= store
->ctx();
100 size_t max_entries
= cct
->_conf
->rgw_list_buckets_max_chunk
;
107 RGWUserBuckets user_buckets
;
108 ret
= rgw_read_user_buckets(store
, user_id
, user_buckets
, marker
,
109 string(), max_entries
, false, &is_truncated
);
111 ldout(cct
, 0) << "failed to read user buckets: ret=" << ret
<< dendl
;
114 map
<string
, RGWBucketEnt
>& buckets
= user_buckets
.get_buckets();
115 for (const auto& i
: buckets
) {
118 const RGWBucketEnt
& bucket_ent
= i
.second
;
119 cls_user_bucket_entry entry
;
120 ret
= store
->cls_user_get_bucket_stats(bucket_ent
.bucket
, entry
);
122 ldout(cct
, 0) << "ERROR: could not get bucket stats: ret=" << ret
<< dendl
;
125 buckets_usage_map
.emplace(bucket_ent
.bucket
.name
, entry
);
127 done
= (buckets
.size() < max_entries
);
134 * Save the given user information to storage.
135 * Returns: 0 on success, -ERR# on failure.
137 int rgw_store_user_info(RGWRados
*store
,
139 RGWUserInfo
*old_info
,
140 RGWObjVersionTracker
*objv_tracker
,
143 map
<string
, bufferlist
> *pattrs
)
146 RGWObjVersionTracker ot
;
152 if (ot
.write_version
.tag
.empty()) {
153 if (ot
.read_version
.tag
.empty()) {
154 ot
.generate_new_write_ver(store
->ctx());
156 ot
.write_version
= ot
.read_version
;
157 ot
.write_version
.ver
++;
161 map
<string
, RGWAccessKey
>::iterator iter
;
162 for (iter
= info
.swift_keys
.begin(); iter
!= info
.swift_keys
.end(); ++iter
) {
163 if (old_info
&& old_info
->swift_keys
.count(iter
->first
) != 0)
165 RGWAccessKey
& k
= iter
->second
;
166 /* check if swift mapping exists */
168 int r
= rgw_get_user_info_by_swift(store
, k
.id
, inf
);
169 if (r
>= 0 && inf
.user_id
.compare(info
.user_id
) != 0) {
170 ldout(store
->ctx(), 0) << "WARNING: can't store user info, swift id (" << k
.id
171 << ") already mapped to another user (" << info
.user_id
<< ")" << dendl
;
176 if (!info
.access_keys
.empty()) {
177 /* check if access keys already exist */
179 map
<string
, RGWAccessKey
>::iterator iter
= info
.access_keys
.begin();
180 for (; iter
!= info
.access_keys
.end(); ++iter
) {
181 RGWAccessKey
& k
= iter
->second
;
182 if (old_info
&& old_info
->access_keys
.count(iter
->first
) != 0)
184 int r
= rgw_get_user_info_by_access_key(store
, k
.id
, inf
);
185 if (r
>= 0 && inf
.user_id
.compare(info
.user_id
) != 0) {
186 ldout(store
->ctx(), 0) << "WARNING: can't store user info, access key already mapped to another user" << dendl
;
193 ui
.user_id
= info
.user_id
;
196 ::encode(ui
, link_bl
);
199 ::encode(ui
, data_bl
);
200 ::encode(info
, data_bl
);
203 info
.user_id
.to_str(key
);
205 ret
= store
->meta_mgr
->put_entry(user_meta_handler
, key
, data_bl
, exclusive
, &ot
, mtime
, pattrs
);
209 if (!info
.user_email
.empty()) {
211 old_info
->user_email
.compare(info
.user_email
) != 0) { /* only if new index changed */
212 ret
= rgw_put_system_obj(store
, store
->get_zone_params().user_email_pool
, info
.user_email
,
213 link_bl
.c_str(), link_bl
.length(), exclusive
, NULL
, real_time());
219 if (!info
.access_keys
.empty()) {
220 map
<string
, RGWAccessKey
>::iterator iter
= info
.access_keys
.begin();
221 for (; iter
!= info
.access_keys
.end(); ++iter
) {
222 RGWAccessKey
& k
= iter
->second
;
223 if (old_info
&& old_info
->access_keys
.count(iter
->first
) != 0)
226 ret
= rgw_put_system_obj(store
, store
->get_zone_params().user_keys_pool
, k
.id
,
227 link_bl
.c_str(), link_bl
.length(), exclusive
,
234 map
<string
, RGWAccessKey
>::iterator siter
;
235 for (siter
= info
.swift_keys
.begin(); siter
!= info
.swift_keys
.end(); ++siter
) {
236 RGWAccessKey
& k
= siter
->second
;
237 if (old_info
&& old_info
->swift_keys
.count(siter
->first
) != 0)
240 ret
= rgw_put_system_obj(store
, store
->get_zone_params().user_swift_pool
, k
.id
,
241 link_bl
.c_str(), link_bl
.length(), exclusive
,
250 struct user_info_entry
{
252 RGWObjVersionTracker objv_tracker
;
256 static RGWChainedCacheImpl
<user_info_entry
> uinfo_cache
;
258 int rgw_get_user_info_from_index(RGWRados
* const store
,
262 RGWObjVersionTracker
* const objv_tracker
,
263 real_time
* const pmtime
)
266 if (uinfo_cache
.find(key
, &e
)) {
269 *objv_tracker
= e
.objv_tracker
;
277 RGWObjectCtx
obj_ctx(store
);
279 int ret
= rgw_get_system_obj(store
, obj_ctx
, pool
, key
, bl
, NULL
, &e
.mtime
);
283 rgw_cache_entry_info cache_info
;
285 bufferlist::iterator iter
= bl
.begin();
288 int ret
= rgw_get_user_info_by_uid(store
, uid
.user_id
, e
.info
, &e
.objv_tracker
, NULL
, &cache_info
);
292 } catch (buffer::error
& err
) {
293 ldout(store
->ctx(), 0) << "ERROR: failed to decode user info, caught buffer::error" << dendl
;
297 list
<rgw_cache_entry_info
*> cache_info_entries
;
298 cache_info_entries
.push_back(&cache_info
);
300 uinfo_cache
.put(store
, key
, &e
, cache_info_entries
);
304 *objv_tracker
= e
.objv_tracker
;
312 * Given a uid, finds the user info associated with it.
313 * returns: 0 on success, -ERR# on failure (including nonexistence)
315 int rgw_get_user_info_by_uid(RGWRados
*store
,
318 RGWObjVersionTracker
* const objv_tracker
,
319 real_time
* const pmtime
,
320 rgw_cache_entry_info
* const cache_info
,
321 map
<string
, bufferlist
> * const pattrs
)
326 RGWObjectCtx
obj_ctx(store
);
327 string oid
= uid
.to_str();
328 int ret
= rgw_get_system_obj(store
, obj_ctx
, store
->get_zone_params().user_uid_pool
, oid
, bl
, objv_tracker
, pmtime
, pattrs
, cache_info
);
333 bufferlist::iterator iter
= bl
.begin();
335 ::decode(user_id
, iter
);
336 if (user_id
.user_id
.compare(uid
) != 0) {
337 lderr(store
->ctx()) << "ERROR: rgw_get_user_info_by_uid(): user id mismatch: " << user_id
.user_id
<< " != " << uid
<< dendl
;
341 ::decode(info
, iter
);
343 } catch (buffer::error
& err
) {
344 ldout(store
->ctx(), 0) << "ERROR: failed to decode user info, caught buffer::error" << dendl
;
352 * Given an email, finds the user info associated with it.
353 * returns: 0 on success, -ERR# on failure (including nonexistence)
355 int rgw_get_user_info_by_email(RGWRados
*store
, string
& email
, RGWUserInfo
& info
,
356 RGWObjVersionTracker
*objv_tracker
, real_time
*pmtime
)
358 return rgw_get_user_info_from_index(store
, email
, store
->get_zone_params().user_email_pool
, info
, objv_tracker
, pmtime
);
362 * Given an swift username, finds the user_info associated with it.
363 * returns: 0 on success, -ERR# on failure (including nonexistence)
365 extern int rgw_get_user_info_by_swift(RGWRados
* const store
,
366 const string
& swift_name
,
367 RGWUserInfo
& info
, /* out */
368 RGWObjVersionTracker
* const objv_tracker
,
369 real_time
* const pmtime
)
371 return rgw_get_user_info_from_index(store
, swift_name
,
372 store
->get_zone_params().user_swift_pool
,
373 info
, objv_tracker
, pmtime
);
377 * Given an access key, finds the user info associated with it.
378 * returns: 0 on success, -ERR# on failure (including nonexistence)
380 extern int rgw_get_user_info_by_access_key(RGWRados
* store
,
381 const std::string
& access_key
,
383 RGWObjVersionTracker
* objv_tracker
,
386 return rgw_get_user_info_from_index(store
, access_key
,
387 store
->get_zone_params().user_keys_pool
,
388 info
, objv_tracker
, pmtime
);
391 int rgw_get_user_attrs_by_uid(RGWRados
*store
,
392 const rgw_user
& user_id
,
393 map
<string
, bufferlist
>& attrs
,
394 RGWObjVersionTracker
*objv_tracker
)
396 RGWObjectCtx
obj_ctx(store
);
397 rgw_raw_obj
obj(store
->get_zone_params().user_uid_pool
, user_id
.to_str());
398 RGWRados::SystemObject
src(store
, obj_ctx
, obj
);
399 RGWRados::SystemObject::Read
rop(&src
);
401 rop
.stat_params
.attrs
= &attrs
;
402 return rop
.stat(objv_tracker
);
405 int rgw_remove_key_index(RGWRados
*store
, RGWAccessKey
& access_key
)
407 rgw_raw_obj
obj(store
->get_zone_params().user_keys_pool
, access_key
.id
);
408 int ret
= store
->delete_system_obj(obj
);
412 int rgw_remove_uid_index(RGWRados
*store
, rgw_user
& uid
)
414 RGWObjVersionTracker objv_tracker
;
416 int ret
= rgw_get_user_info_by_uid(store
, uid
, info
, &objv_tracker
, NULL
);
420 string oid
= uid
.to_str();
421 ret
= store
->meta_mgr
->remove_entry(user_meta_handler
, oid
, &objv_tracker
);
428 int rgw_remove_email_index(RGWRados
*store
, string
& email
)
433 rgw_raw_obj
obj(store
->get_zone_params().user_email_pool
, email
);
434 return store
->delete_system_obj(obj
);
437 int rgw_remove_swift_name_index(RGWRados
*store
, string
& swift_name
)
439 rgw_raw_obj
obj(store
->get_zone_params().user_swift_pool
, swift_name
);
440 int ret
= store
->delete_system_obj(obj
);
445 * delete a user's presence from the RGW system.
446 * First remove their bucket ACLs, then delete them
447 * from the user and user email pools. This leaves the pools
448 * themselves alone, as well as any ACLs embedded in object xattrs.
450 int rgw_delete_user(RGWRados
*store
, RGWUserInfo
& info
, RGWObjVersionTracker
& objv_tracker
) {
453 map
<string
, RGWAccessKey
>::iterator kiter
= info
.access_keys
.begin();
454 for (; kiter
!= info
.access_keys
.end(); ++kiter
) {
455 ldout(store
->ctx(), 10) << "removing key index: " << kiter
->first
<< dendl
;
456 ret
= rgw_remove_key_index(store
, kiter
->second
);
457 if (ret
< 0 && ret
!= -ENOENT
) {
458 ldout(store
->ctx(), 0) << "ERROR: could not remove " << kiter
->first
<< " (access key object), should be fixed (err=" << ret
<< ")" << dendl
;
463 map
<string
, RGWAccessKey
>::iterator siter
= info
.swift_keys
.begin();
464 for (; siter
!= info
.swift_keys
.end(); ++siter
) {
465 RGWAccessKey
& k
= siter
->second
;
466 ldout(store
->ctx(), 10) << "removing swift subuser index: " << k
.id
<< dendl
;
467 /* check if swift mapping exists */
468 ret
= rgw_remove_swift_name_index(store
, k
.id
);
469 if (ret
< 0 && ret
!= -ENOENT
) {
470 ldout(store
->ctx(), 0) << "ERROR: could not remove " << k
.id
<< " (swift name object), should be fixed (err=" << ret
<< ")" << dendl
;
475 ldout(store
->ctx(), 10) << "removing email index: " << info
.user_email
<< dendl
;
476 ret
= rgw_remove_email_index(store
, info
.user_email
);
477 if (ret
< 0 && ret
!= -ENOENT
) {
478 ldout(store
->ctx(), 0) << "ERROR: could not remove email index object for "
479 << info
.user_email
<< ", should be fixed (err=" << ret
<< ")" << dendl
;
483 string buckets_obj_id
;
484 rgw_get_buckets_obj(info
.user_id
, buckets_obj_id
);
485 rgw_raw_obj
uid_bucks(store
->get_zone_params().user_uid_pool
, buckets_obj_id
);
486 ldout(store
->ctx(), 10) << "removing user buckets index" << dendl
;
487 ret
= store
->delete_system_obj(uid_bucks
);
488 if (ret
< 0 && ret
!= -ENOENT
) {
489 ldout(store
->ctx(), 0) << "ERROR: could not remove " << info
.user_id
<< ":" << uid_bucks
<< ", should be fixed (err=" << ret
<< ")" << dendl
;
494 info
.user_id
.to_str(key
);
496 rgw_raw_obj
uid_obj(store
->get_zone_params().user_uid_pool
, key
);
497 ldout(store
->ctx(), 10) << "removing user index: " << info
.user_id
<< dendl
;
498 ret
= store
->meta_mgr
->remove_entry(user_meta_handler
, key
, &objv_tracker
);
499 if (ret
< 0 && ret
!= -ENOENT
&& ret
!= -ECANCELED
) {
500 ldout(store
->ctx(), 0) << "ERROR: could not remove " << info
.user_id
<< ":" << uid_obj
<< ", should be fixed (err=" << ret
<< ")" << dendl
;
507 static bool char_is_unreserved_url(char c
)
523 struct rgw_flags_desc
{
528 static struct rgw_flags_desc rgw_perms
[] = {
529 { RGW_PERM_FULL_CONTROL
, "full-control" },
530 { RGW_PERM_READ
| RGW_PERM_WRITE
, "read-write" },
531 { RGW_PERM_READ
, "read" },
532 { RGW_PERM_WRITE
, "write" },
533 { RGW_PERM_READ_ACP
, "read-acp" },
534 { RGW_PERM_WRITE_ACP
, "read-acp" },
538 void rgw_perm_to_str(uint32_t mask
, char *buf
, int len
)
540 const char *sep
= "";
543 snprintf(buf
, len
, "<none>");
547 uint32_t orig_mask
= mask
;
548 for (int i
= 0; rgw_perms
[i
].mask
; i
++) {
549 struct rgw_flags_desc
*desc
= &rgw_perms
[i
];
550 if ((mask
& desc
->mask
) == desc
->mask
) {
551 pos
+= snprintf(buf
+ pos
, len
- pos
, "%s%s", sep
, desc
->str
);
560 if (mask
== orig_mask
) // no change
565 uint32_t rgw_str_to_perm(const char *str
)
567 if (strcasecmp(str
, "") == 0)
568 return RGW_PERM_NONE
;
569 else if (strcasecmp(str
, "read") == 0)
570 return RGW_PERM_READ
;
571 else if (strcasecmp(str
, "write") == 0)
572 return RGW_PERM_WRITE
;
573 else if (strcasecmp(str
, "readwrite") == 0)
574 return RGW_PERM_READ
| RGW_PERM_WRITE
;
575 else if (strcasecmp(str
, "full") == 0)
576 return RGW_PERM_FULL_CONTROL
;
578 return RGW_PERM_INVALID
;
581 static bool validate_access_key(string
& key
)
583 const char *p
= key
.c_str();
585 if (!char_is_unreserved_url(*p
))
592 static void set_err_msg(std::string
*sink
, std::string msg
)
594 if (sink
&& !msg
.empty())
598 static bool remove_old_indexes(RGWRados
*store
,
599 RGWUserInfo
& old_info
, RGWUserInfo
& new_info
, std::string
*err_msg
)
604 if (!old_info
.user_id
.empty() &&
605 old_info
.user_id
.compare(new_info
.user_id
) != 0) {
606 if (old_info
.user_id
.tenant
!= new_info
.user_id
.tenant
) {
607 ldout(store
->ctx(), 0) << "ERROR: tenant mismatch: " << old_info
.user_id
.tenant
<< " != " << new_info
.user_id
.tenant
<< dendl
;
610 ret
= rgw_remove_uid_index(store
, old_info
.user_id
);
611 if (ret
< 0 && ret
!= -ENOENT
) {
612 set_err_msg(err_msg
, "ERROR: could not remove index for uid " + old_info
.user_id
.to_str());
617 if (!old_info
.user_email
.empty() &&
618 old_info
.user_email
.compare(new_info
.user_email
) != 0) {
619 ret
= rgw_remove_email_index(store
, old_info
.user_email
);
620 if (ret
< 0 && ret
!= -ENOENT
) {
621 set_err_msg(err_msg
, "ERROR: could not remove index for email " + old_info
.user_email
);
626 map
<string
, RGWAccessKey
>::iterator old_iter
;
627 for (old_iter
= old_info
.swift_keys
.begin(); old_iter
!= old_info
.swift_keys
.end(); ++old_iter
) {
628 RGWAccessKey
& swift_key
= old_iter
->second
;
629 map
<string
, RGWAccessKey
>::iterator new_iter
= new_info
.swift_keys
.find(swift_key
.id
);
630 if (new_iter
== new_info
.swift_keys
.end()) {
631 ret
= rgw_remove_swift_name_index(store
, swift_key
.id
);
632 if (ret
< 0 && ret
!= -ENOENT
) {
633 set_err_msg(err_msg
, "ERROR: could not remove index for swift_name " + swift_key
.id
);
643 * Dump either the full user info or a subset to a formatter.
645 * NOTE: It is the caller's respnsibility to ensure that the
646 * formatter is flushed at the correct time.
649 static void dump_subusers_info(Formatter
*f
, RGWUserInfo
&info
)
651 map
<string
, RGWSubUser
>::iterator uiter
;
653 f
->open_array_section("subusers");
654 for (uiter
= info
.subusers
.begin(); uiter
!= info
.subusers
.end(); ++uiter
) {
655 RGWSubUser
& u
= uiter
->second
;
656 f
->open_object_section("user");
658 info
.user_id
.to_str(s
);
659 f
->dump_format("id", "%s:%s", s
.c_str(), u
.name
.c_str());
661 rgw_perm_to_str(u
.perm_mask
, buf
, sizeof(buf
));
662 f
->dump_string("permissions", buf
);
668 static void dump_access_keys_info(Formatter
*f
, RGWUserInfo
&info
)
670 map
<string
, RGWAccessKey
>::iterator kiter
;
671 f
->open_array_section("keys");
672 for (kiter
= info
.access_keys
.begin(); kiter
!= info
.access_keys
.end(); ++kiter
) {
673 RGWAccessKey
& k
= kiter
->second
;
674 const char *sep
= (k
.subuser
.empty() ? "" : ":");
675 const char *subuser
= (k
.subuser
.empty() ? "" : k
.subuser
.c_str());
676 f
->open_object_section("key");
678 info
.user_id
.to_str(s
);
679 f
->dump_format("user", "%s%s%s", s
.c_str(), sep
, subuser
);
680 f
->dump_string("access_key", k
.id
);
681 f
->dump_string("secret_key", k
.key
);
687 static void dump_swift_keys_info(Formatter
*f
, RGWUserInfo
&info
)
689 map
<string
, RGWAccessKey
>::iterator kiter
;
690 f
->open_array_section("swift_keys");
691 for (kiter
= info
.swift_keys
.begin(); kiter
!= info
.swift_keys
.end(); ++kiter
) {
692 RGWAccessKey
& k
= kiter
->second
;
693 const char *sep
= (k
.subuser
.empty() ? "" : ":");
694 const char *subuser
= (k
.subuser
.empty() ? "" : k
.subuser
.c_str());
695 f
->open_object_section("key");
697 info
.user_id
.to_str(s
);
698 f
->dump_format("user", "%s%s%s", s
.c_str(), sep
, subuser
);
699 f
->dump_string("secret_key", k
.key
);
705 static void dump_user_info(Formatter
*f
, RGWUserInfo
&info
,
706 RGWStorageStats
*stats
= NULL
)
708 f
->open_object_section("user_info");
710 f
->dump_string("tenant", info
.user_id
.tenant
);
711 f
->dump_string("user_id", info
.user_id
.id
);
712 f
->dump_string("display_name", info
.display_name
);
713 f
->dump_string("email", info
.user_email
);
714 f
->dump_int("suspended", (int)info
.suspended
);
715 f
->dump_int("max_buckets", (int)info
.max_buckets
);
717 dump_subusers_info(f
, info
);
718 dump_access_keys_info(f
, info
);
719 dump_swift_keys_info(f
, info
);
722 encode_json("stats", *stats
, f
);
729 RGWAccessKeyPool::RGWAccessKeyPool(RGWUser
* usr
)
736 keys_allowed
= false;
743 store
= user
->get_store();
746 RGWAccessKeyPool::~RGWAccessKeyPool()
751 int RGWAccessKeyPool::init(RGWUserAdminOpState
& op_state
)
753 if (!op_state
.is_initialized()) {
754 keys_allowed
= false;
758 rgw_user
& uid
= op_state
.get_user_id();
759 if (uid
.compare(RGW_USER_ANON_ID
) == 0) {
760 keys_allowed
= false;
764 swift_keys
= op_state
.get_swift_keys();
765 access_keys
= op_state
.get_access_keys();
773 * Do a fairly exhaustive search for an existing key matching the parameters
774 * given. Also handles the case where no key type was specified and updates
775 * the operation state if needed.
778 bool RGWAccessKeyPool::check_existing_key(RGWUserAdminOpState
& op_state
)
780 bool existing_key
= false;
782 int key_type
= op_state
.get_key_type();
783 std::string kid
= op_state
.get_access_key();
784 std::map
<std::string
, RGWAccessKey
>::iterator kiter
;
785 std::string swift_kid
= op_state
.build_default_swift_kid();
787 RGWUserInfo dup_info
;
789 if (kid
.empty() && swift_kid
.empty())
794 kiter
= swift_keys
->find(swift_kid
);
796 existing_key
= (kiter
!= swift_keys
->end());
798 op_state
.set_access_key(swift_kid
);
802 kiter
= access_keys
->find(kid
);
803 existing_key
= (kiter
!= access_keys
->end());
807 kiter
= access_keys
->find(kid
);
809 existing_key
= (kiter
!= access_keys
->end());
811 op_state
.set_key_type(KEY_TYPE_S3
);
815 kiter
= swift_keys
->find(kid
);
817 existing_key
= (kiter
!= swift_keys
->end());
819 op_state
.set_key_type(KEY_TYPE_SWIFT
);
823 // handle the case where the access key was not provided in user:key format
824 if (swift_kid
.empty())
827 kiter
= swift_keys
->find(swift_kid
);
829 existing_key
= (kiter
!= swift_keys
->end());
831 op_state
.set_access_key(swift_kid
);
832 op_state
.set_key_type(KEY_TYPE_SWIFT
);
836 op_state
.set_existing_key(existing_key
);
841 int RGWAccessKeyPool::check_op(RGWUserAdminOpState
& op_state
,
842 std::string
*err_msg
)
844 RGWUserInfo dup_info
;
846 if (!op_state
.is_populated()) {
847 set_err_msg(err_msg
, "user info was not populated");
852 set_err_msg(err_msg
, "keys not allowed for this user");
856 int32_t key_type
= op_state
.get_key_type();
858 // if a key type wasn't specified
860 if (op_state
.has_subuser()) {
861 key_type
= KEY_TYPE_SWIFT
;
863 key_type
= KEY_TYPE_S3
;
867 op_state
.set_key_type(key_type
);
869 /* see if the access key was specified */
870 if (key_type
== KEY_TYPE_S3
&& !op_state
.will_gen_access() &&
871 op_state
.get_access_key().empty()) {
872 set_err_msg(err_msg
, "empty access key");
873 return -ERR_INVALID_ACCESS_KEY
;
876 // don't check for secret key because we may be doing a removal
878 check_existing_key(op_state
);
883 // Generate a new random key
884 int RGWAccessKeyPool::generate_key(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
889 std::pair
<std::string
, RGWAccessKey
> key_pair
;
890 RGWAccessKey new_key
;
891 RGWUserInfo duplicate_check
;
894 int key_type
= op_state
.get_key_type();
895 bool gen_access
= op_state
.will_gen_access();
896 bool gen_secret
= op_state
.will_gen_secret();
899 set_err_msg(err_msg
, "access keys not allowed for this user");
903 if (op_state
.has_existing_key()) {
904 set_err_msg(err_msg
, "cannot create existing key");
905 return -ERR_KEY_EXIST
;
909 id
= op_state
.get_access_key();
915 if (rgw_get_user_info_by_swift(store
, id
, duplicate_check
) >= 0) {
916 set_err_msg(err_msg
, "existing swift key in RGW system:" + id
);
917 return -ERR_KEY_EXIST
;
921 if (rgw_get_user_info_by_access_key(store
, id
, duplicate_check
) >= 0) {
922 set_err_msg(err_msg
, "existing S3 key in RGW system:" + id
);
923 return -ERR_KEY_EXIST
;
929 if (op_state
.has_subuser()) {
930 //create user and subuser at the same time, user's s3 key should not be set this
931 if (!op_state
.key_type_setbycontext
|| (key_type
== KEY_TYPE_SWIFT
)) {
932 new_key
.subuser
= op_state
.get_subuser();
938 if (op_state
.get_secret_key().empty()) {
939 set_err_msg(err_msg
, "empty secret key");
940 return -ERR_INVALID_SECRET_KEY
;
943 key
= op_state
.get_secret_key();
945 char secret_key_buf
[SECRET_KEY_LEN
+ 1];
947 ret
= gen_rand_alphanumeric_plain(g_ceph_context
, secret_key_buf
, sizeof(secret_key_buf
));
949 set_err_msg(err_msg
, "unable to generate secret key");
953 key
= secret_key_buf
;
956 // Generate the access key
957 if (key_type
== KEY_TYPE_S3
&& gen_access
) {
958 char public_id_buf
[PUBLIC_ID_LEN
+ 1];
961 int id_buf_size
= sizeof(public_id_buf
);
962 ret
= gen_rand_alphanumeric_upper(g_ceph_context
,
963 public_id_buf
, id_buf_size
);
966 set_err_msg(err_msg
, "unable to generate access key");
971 if (!validate_access_key(id
))
974 } while (!rgw_get_user_info_by_access_key(store
, id
, duplicate_check
));
977 if (key_type
== KEY_TYPE_SWIFT
) {
978 id
= op_state
.build_default_swift_kid();
980 set_err_msg(err_msg
, "empty swift access key");
981 return -ERR_INVALID_ACCESS_KEY
;
984 // check that the access key doesn't exist
985 if (rgw_get_user_info_by_swift(store
, id
, duplicate_check
) >= 0) {
986 set_err_msg(err_msg
, "cannot create existing swift key");
987 return -ERR_KEY_EXIST
;
991 // finally create the new key
996 key_pair
.second
= new_key
;
998 if (key_type
== KEY_TYPE_S3
) {
999 access_keys
->insert(key_pair
);
1000 } else if (key_type
== KEY_TYPE_SWIFT
) {
1001 swift_keys
->insert(key_pair
);
1007 // modify an existing key
1008 int RGWAccessKeyPool::modify_key(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1011 std::string key
= op_state
.get_secret_key();
1012 int key_type
= op_state
.get_key_type();
1014 RGWAccessKey modify_key
;
1016 pair
<string
, RGWAccessKey
> key_pair
;
1017 map
<std::string
, RGWAccessKey
>::iterator kiter
;
1021 id
= op_state
.get_access_key();
1023 set_err_msg(err_msg
, "no access key specified");
1024 return -ERR_INVALID_ACCESS_KEY
;
1027 case KEY_TYPE_SWIFT
:
1028 id
= op_state
.build_default_swift_kid();
1030 set_err_msg(err_msg
, "no subuser specified");
1035 set_err_msg(err_msg
, "invalid key type");
1036 return -ERR_INVALID_KEY_TYPE
;
1039 if (!op_state
.has_existing_key()) {
1040 set_err_msg(err_msg
, "key does not exist");
1041 return -ERR_INVALID_ACCESS_KEY
;
1044 key_pair
.first
= id
;
1046 if (key_type
== KEY_TYPE_SWIFT
) {
1048 modify_key
.subuser
= op_state
.get_subuser();
1049 } else if (key_type
== KEY_TYPE_S3
) {
1050 kiter
= access_keys
->find(id
);
1051 if (kiter
!= access_keys
->end()) {
1052 modify_key
= kiter
->second
;
1056 if (op_state
.will_gen_secret()) {
1057 char secret_key_buf
[SECRET_KEY_LEN
+ 1];
1060 int key_buf_size
= sizeof(secret_key_buf
);
1061 ret
= gen_rand_alphanumeric_plain(g_ceph_context
, secret_key_buf
, key_buf_size
);
1063 set_err_msg(err_msg
, "unable to generate secret key");
1067 key
= secret_key_buf
;
1071 set_err_msg(err_msg
, "empty secret key");
1072 return -ERR_INVALID_SECRET_KEY
;
1075 // update the access key with the new secret key
1076 modify_key
.key
= key
;
1078 key_pair
.second
= modify_key
;
1081 if (key_type
== KEY_TYPE_S3
) {
1082 (*access_keys
)[id
] = modify_key
;
1083 } else if (key_type
== KEY_TYPE_SWIFT
) {
1084 (*swift_keys
)[id
] = modify_key
;
1090 int RGWAccessKeyPool::execute_add(RGWUserAdminOpState
& op_state
,
1091 std::string
*err_msg
, bool defer_user_update
)
1095 std::string subprocess_msg
;
1096 int key_op
= GENERATE_KEY
;
1099 if (op_state
.has_existing_key())
1100 key_op
= MODIFY_KEY
;
1104 ret
= generate_key(op_state
, &subprocess_msg
);
1107 ret
= modify_key(op_state
, &subprocess_msg
);
1112 set_err_msg(err_msg
, subprocess_msg
);
1116 // store the updated info
1117 if (!defer_user_update
)
1118 ret
= user
->update(op_state
, err_msg
);
1126 int RGWAccessKeyPool::add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1128 return add(op_state
, err_msg
, false);
1131 int RGWAccessKeyPool::add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_user_update
)
1134 std::string subprocess_msg
;
1136 ret
= check_op(op_state
, &subprocess_msg
);
1138 set_err_msg(err_msg
, "unable to parse request, " + subprocess_msg
);
1142 ret
= execute_add(op_state
, &subprocess_msg
, defer_user_update
);
1144 set_err_msg(err_msg
, "unable to add access key, " + subprocess_msg
);
1151 int RGWAccessKeyPool::execute_remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_user_update
)
1155 int key_type
= op_state
.get_key_type();
1156 std::string id
= op_state
.get_access_key();
1157 map
<std::string
, RGWAccessKey
>::iterator kiter
;
1158 map
<std::string
, RGWAccessKey
> *keys_map
;
1160 if (!op_state
.has_existing_key()) {
1161 set_err_msg(err_msg
, "unable to find access key");
1162 return -ERR_INVALID_ACCESS_KEY
;
1165 if (key_type
== KEY_TYPE_S3
) {
1166 keys_map
= access_keys
;
1167 } else if (key_type
== KEY_TYPE_SWIFT
) {
1168 keys_map
= swift_keys
;
1171 set_err_msg(err_msg
, "invalid access key");
1172 return -ERR_INVALID_ACCESS_KEY
;
1175 kiter
= keys_map
->find(id
);
1176 if (kiter
== keys_map
->end()) {
1177 set_err_msg(err_msg
, "key not found");
1178 return -ERR_INVALID_ACCESS_KEY
;
1181 rgw_remove_key_index(store
, kiter
->second
);
1182 keys_map
->erase(kiter
);
1184 if (!defer_user_update
)
1185 ret
= user
->update(op_state
, err_msg
);
1193 int RGWAccessKeyPool::remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1195 return remove(op_state
, err_msg
, false);
1198 int RGWAccessKeyPool::remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_user_update
)
1202 std::string subprocess_msg
;
1204 ret
= check_op(op_state
, &subprocess_msg
);
1206 set_err_msg(err_msg
, "unable to parse request, " + subprocess_msg
);
1210 ret
= execute_remove(op_state
, &subprocess_msg
, defer_user_update
);
1212 set_err_msg(err_msg
, "unable to remove access key, " + subprocess_msg
);
1219 // remove all keys associated with a subuser
1220 int RGWAccessKeyPool::remove_subuser_keys(RGWUserAdminOpState
& op_state
,
1221 std::string
*err_msg
, bool defer_user_update
)
1225 if (!op_state
.is_populated()) {
1226 set_err_msg(err_msg
, "user info was not populated");
1230 if (!op_state
.has_subuser()) {
1231 set_err_msg(err_msg
, "no subuser specified");
1235 std::string swift_kid
= op_state
.build_default_swift_kid();
1236 if (swift_kid
.empty()) {
1237 set_err_msg(err_msg
, "empty swift access key");
1241 map
<std::string
, RGWAccessKey
>::iterator kiter
;
1242 map
<std::string
, RGWAccessKey
> *keys_map
;
1244 // a subuser can have at most one swift key
1245 keys_map
= swift_keys
;
1246 kiter
= keys_map
->find(swift_kid
);
1247 if (kiter
!= keys_map
->end()) {
1248 rgw_remove_key_index(store
, kiter
->second
);
1249 keys_map
->erase(kiter
);
1252 // a subuser may have multiple s3 key pairs
1253 std::string subuser_str
= op_state
.get_subuser();
1254 keys_map
= access_keys
;
1255 RGWUserInfo user_info
= op_state
.get_user_info();
1256 map
<std::string
, RGWAccessKey
>::iterator user_kiter
= user_info
.access_keys
.begin();
1257 for (; user_kiter
!= user_info
.access_keys
.end(); ++user_kiter
) {
1258 if (user_kiter
->second
.subuser
== subuser_str
) {
1259 kiter
= keys_map
->find(user_kiter
->first
);
1260 if (kiter
!= keys_map
->end()) {
1261 rgw_remove_key_index(store
, kiter
->second
);
1262 keys_map
->erase(kiter
);
1267 if (!defer_user_update
)
1268 ret
= user
->update(op_state
, err_msg
);
1276 RGWSubUserPool::RGWSubUserPool(RGWUser
*usr
)
1278 subusers_allowed
= (usr
!= NULL
);
1280 store
= usr
->get_store();
1287 RGWSubUserPool::~RGWSubUserPool()
1292 int RGWSubUserPool::init(RGWUserAdminOpState
& op_state
)
1294 if (!op_state
.is_initialized()) {
1295 subusers_allowed
= false;
1299 rgw_user
& uid
= op_state
.get_user_id();
1300 if (uid
.compare(RGW_USER_ANON_ID
) == 0) {
1301 subusers_allowed
= false;
1305 subuser_map
= op_state
.get_subusers();
1306 if (subuser_map
== NULL
) {
1307 subusers_allowed
= false;
1311 subusers_allowed
= true;
1316 bool RGWSubUserPool::exists(std::string subuser
)
1318 if (subuser
.empty())
1324 if (subuser_map
->count(subuser
))
1330 int RGWSubUserPool::check_op(RGWUserAdminOpState
& op_state
,
1331 std::string
*err_msg
)
1333 bool existing
= false;
1334 std::string subuser
= op_state
.get_subuser();
1336 if (!op_state
.is_populated()) {
1337 set_err_msg(err_msg
, "user info was not populated");
1341 if (!subusers_allowed
) {
1342 set_err_msg(err_msg
, "subusers not allowed for this user");
1346 if (subuser
.empty() && !op_state
.will_gen_subuser()) {
1347 set_err_msg(err_msg
, "empty subuser name");
1351 if (op_state
.get_subuser_perm() == RGW_PERM_INVALID
) {
1352 set_err_msg(err_msg
, "invaild subuser access");
1356 //set key type when it not set or set by context
1357 if ((op_state
.get_key_type() < 0) || op_state
.key_type_setbycontext
) {
1358 op_state
.set_key_type(KEY_TYPE_SWIFT
);
1359 op_state
.key_type_setbycontext
= true;
1362 // check if the subuser exists
1363 if (!subuser
.empty())
1364 existing
= exists(subuser
);
1366 op_state
.set_existing_subuser(existing
);
1371 int RGWSubUserPool::execute_add(RGWUserAdminOpState
& op_state
,
1372 std::string
*err_msg
, bool defer_user_update
)
1375 std::string subprocess_msg
;
1378 std::pair
<std::string
, RGWSubUser
> subuser_pair
;
1379 std::string subuser_str
= op_state
.get_subuser();
1381 subuser_pair
.first
= subuser_str
;
1383 // assumes key should be created
1384 if (op_state
.has_key_op()) {
1385 ret
= user
->keys
.add(op_state
, &subprocess_msg
, true);
1387 set_err_msg(err_msg
, "unable to create subuser key, " + subprocess_msg
);
1392 // create the subuser
1393 subuser
.name
= subuser_str
;
1395 if (op_state
.has_subuser_perm())
1396 subuser
.perm_mask
= op_state
.get_subuser_perm();
1398 // insert the subuser into user info
1399 subuser_pair
.second
= subuser
;
1400 subuser_map
->insert(subuser_pair
);
1402 // attempt to save the subuser
1403 if (!defer_user_update
)
1404 ret
= user
->update(op_state
, err_msg
);
1412 int RGWSubUserPool::add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1414 return add(op_state
, err_msg
, false);
1417 int RGWSubUserPool::add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_user_update
)
1419 std::string subprocess_msg
;
1421 int32_t key_type
= op_state
.get_key_type();
1423 ret
= check_op(op_state
, &subprocess_msg
);
1425 set_err_msg(err_msg
, "unable to parse request, " + subprocess_msg
);
1429 if (key_type
== KEY_TYPE_S3
&& op_state
.get_access_key().empty()) {
1430 op_state
.set_gen_access();
1433 if (op_state
.get_secret_key().empty()) {
1434 op_state
.set_gen_secret();
1437 ret
= execute_add(op_state
, &subprocess_msg
, defer_user_update
);
1439 set_err_msg(err_msg
, "unable to create subuser, " + subprocess_msg
);
1446 int RGWSubUserPool::execute_remove(RGWUserAdminOpState
& op_state
,
1447 std::string
*err_msg
, bool defer_user_update
)
1450 std::string subprocess_msg
;
1452 std::string subuser_str
= op_state
.get_subuser();
1454 map
<std::string
, RGWSubUser
>::iterator siter
;
1455 siter
= subuser_map
->find(subuser_str
);
1456 if (siter
== subuser_map
->end()){
1457 set_err_msg(err_msg
, "subuser not found: " + subuser_str
);
1458 return -ERR_NO_SUCH_SUBUSER
;
1460 if (!op_state
.has_existing_subuser()) {
1461 set_err_msg(err_msg
, "subuser not found: " + subuser_str
);
1462 return -ERR_NO_SUCH_SUBUSER
;
1465 // always purge all associate keys
1466 user
->keys
.remove_subuser_keys(op_state
, &subprocess_msg
, true);
1468 // remove the subuser from the user info
1469 subuser_map
->erase(siter
);
1471 // attempt to save the subuser
1472 if (!defer_user_update
)
1473 ret
= user
->update(op_state
, err_msg
);
1481 int RGWSubUserPool::remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1483 return remove(op_state
, err_msg
, false);
1486 int RGWSubUserPool::remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_user_update
)
1488 std::string subprocess_msg
;
1491 ret
= check_op(op_state
, &subprocess_msg
);
1493 set_err_msg(err_msg
, "unable to parse request, " + subprocess_msg
);
1497 ret
= execute_remove(op_state
, &subprocess_msg
, defer_user_update
);
1499 set_err_msg(err_msg
, "unable to remove subuser, " + subprocess_msg
);
1506 int RGWSubUserPool::execute_modify(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_user_update
)
1509 std::string subprocess_msg
;
1510 std::map
<std::string
, RGWSubUser
>::iterator siter
;
1511 std::pair
<std::string
, RGWSubUser
> subuser_pair
;
1513 std::string subuser_str
= op_state
.get_subuser();
1516 if (!op_state
.has_existing_subuser()) {
1517 set_err_msg(err_msg
, "subuser does not exist");
1518 return -ERR_NO_SUCH_SUBUSER
;
1521 subuser_pair
.first
= subuser_str
;
1523 siter
= subuser_map
->find(subuser_str
);
1524 subuser
= siter
->second
;
1526 if (op_state
.has_key_op()) {
1527 ret
= user
->keys
.add(op_state
, &subprocess_msg
, true);
1529 set_err_msg(err_msg
, "unable to create subuser keys, " + subprocess_msg
);
1534 if (op_state
.has_subuser_perm())
1535 subuser
.perm_mask
= op_state
.get_subuser_perm();
1537 subuser_pair
.second
= subuser
;
1539 subuser_map
->erase(siter
);
1540 subuser_map
->insert(subuser_pair
);
1542 // attempt to save the subuser
1543 if (!defer_user_update
)
1544 ret
= user
->update(op_state
, err_msg
);
1552 int RGWSubUserPool::modify(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1554 return RGWSubUserPool::modify(op_state
, err_msg
, false);
1557 int RGWSubUserPool::modify(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_user_update
)
1559 std::string subprocess_msg
;
1564 ret
= check_op(op_state
, &subprocess_msg
);
1566 set_err_msg(err_msg
, "unable to parse request, " + subprocess_msg
);
1570 ret
= execute_modify(op_state
, &subprocess_msg
, defer_user_update
);
1572 set_err_msg(err_msg
, "unable to modify subuser, " + subprocess_msg
);
1579 RGWUserCapPool::RGWUserCapPool(RGWUser
*usr
)
1583 caps_allowed
= (user
!= NULL
);
1586 RGWUserCapPool::~RGWUserCapPool()
1591 int RGWUserCapPool::init(RGWUserAdminOpState
& op_state
)
1593 if (!op_state
.is_initialized()) {
1594 caps_allowed
= false;
1598 rgw_user
& uid
= op_state
.get_user_id();
1599 if (uid
.compare(RGW_USER_ANON_ID
) == 0) {
1600 caps_allowed
= false;
1604 caps
= op_state
.get_caps_obj();
1606 caps_allowed
= false;
1607 return -ERR_INVALID_CAP
;
1610 caps_allowed
= true;
1615 int RGWUserCapPool::add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1617 return add(op_state
, err_msg
, false);
1620 int RGWUserCapPool::add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_save
)
1623 std::string caps_str
= op_state
.get_caps();
1625 if (!op_state
.is_populated()) {
1626 set_err_msg(err_msg
, "user info was not populated");
1630 if (!caps_allowed
) {
1631 set_err_msg(err_msg
, "caps not allowed for this user");
1635 if (caps_str
.empty()) {
1636 set_err_msg(err_msg
, "empty user caps");
1637 return -ERR_INVALID_CAP
;
1640 int r
= caps
->add_from_string(caps_str
);
1642 set_err_msg(err_msg
, "unable to add caps: " + caps_str
);
1647 ret
= user
->update(op_state
, err_msg
);
1655 int RGWUserCapPool::remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1657 return remove(op_state
, err_msg
, false);
1660 int RGWUserCapPool::remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
, bool defer_save
)
1664 std::string caps_str
= op_state
.get_caps();
1666 if (!op_state
.is_populated()) {
1667 set_err_msg(err_msg
, "user info was not populated");
1671 if (!caps_allowed
) {
1672 set_err_msg(err_msg
, "caps not allowed for this user");
1676 if (caps_str
.empty()) {
1677 set_err_msg(err_msg
, "empty user caps");
1678 return -ERR_INVALID_CAP
;
1681 int r
= caps
->remove_from_string(caps_str
);
1683 set_err_msg(err_msg
, "unable to remove caps: " + caps_str
);
1688 ret
= user
->update(op_state
, err_msg
);
1696 RGWUser::RGWUser() : store(NULL
), info_stored(false), caps(this), keys(this), subusers(this)
1701 int RGWUser::init(RGWRados
*storage
, RGWUserAdminOpState
& op_state
)
1704 int ret
= init_storage(storage
);
1708 ret
= init(op_state
);
1719 void RGWUser::init_default()
1721 // use anonymous user info as a placeholder
1722 rgw_get_anon_user(old_info
);
1723 user_id
= RGW_USER_ANON_ID
;
1728 int RGWUser::init_storage(RGWRados
*storage
)
1739 keys
= RGWAccessKeyPool(this);
1740 caps
= RGWUserCapPool(this);
1741 subusers
= RGWSubUserPool(this);
1746 int RGWUser::init(RGWUserAdminOpState
& op_state
)
1749 std::string swift_user
;
1750 rgw_user
& uid
= op_state
.get_user_id();
1751 std::string user_email
= op_state
.get_user_email();
1752 std::string access_key
= op_state
.get_access_key();
1753 std::string subuser
= op_state
.get_subuser();
1755 int key_type
= op_state
.get_key_type();
1756 if (key_type
== KEY_TYPE_SWIFT
) {
1757 swift_user
= op_state
.get_access_key();
1761 RGWUserInfo user_info
;
1765 if (uid
.empty() && !subuser
.empty()) {
1766 size_t pos
= subuser
.find(':');
1767 if (pos
!= string::npos
) {
1768 uid
= subuser
.substr(0, pos
);
1769 op_state
.set_user_id(uid
);
1773 if (!uid
.empty() && (uid
.compare(RGW_USER_ANON_ID
) != 0)) {
1774 found
= (rgw_get_user_info_by_uid(store
, uid
, user_info
, &op_state
.objv
) >= 0);
1775 op_state
.found_by_uid
= found
;
1777 if (!user_email
.empty() && !found
) {
1778 found
= (rgw_get_user_info_by_email(store
, user_email
, user_info
, &op_state
.objv
) >= 0);
1779 op_state
.found_by_email
= found
;
1781 if (!swift_user
.empty() && !found
) {
1782 found
= (rgw_get_user_info_by_swift(store
, swift_user
, user_info
, &op_state
.objv
) >= 0);
1783 op_state
.found_by_key
= found
;
1785 if (!access_key
.empty() && !found
) {
1786 found
= (rgw_get_user_info_by_access_key(store
, access_key
, user_info
, &op_state
.objv
) >= 0);
1787 op_state
.found_by_key
= found
;
1790 op_state
.set_existing_user(found
);
1792 op_state
.set_user_info(user_info
);
1793 op_state
.set_populated();
1795 old_info
= user_info
;
1799 user_id
= user_info
.user_id
;
1800 op_state
.set_initialized();
1802 // this may have been called by a helper object
1803 int ret
= init_members(op_state
);
1810 int RGWUser::init_members(RGWUserAdminOpState
& op_state
)
1814 ret
= keys
.init(op_state
);
1818 ret
= subusers
.init(op_state
);
1822 ret
= caps
.init(op_state
);
1829 int RGWUser::update(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1832 std::string subprocess_msg
;
1833 RGWUserInfo user_info
= op_state
.get_user_info();
1836 set_err_msg(err_msg
, "couldn't initialize storage");
1840 if (is_populated()) {
1841 ret
= rgw_store_user_info(store
, user_info
, &old_info
, &op_state
.objv
, real_time(), false);
1843 set_err_msg(err_msg
, "unable to store user info");
1847 ret
= remove_old_indexes(store
, old_info
, user_info
, &subprocess_msg
);
1849 set_err_msg(err_msg
, "unable to remove old user info, " + subprocess_msg
);
1853 ret
= rgw_store_user_info(store
, user_info
, NULL
, &op_state
.objv
, real_time(), false);
1855 set_err_msg(err_msg
, "unable to store user info");
1860 old_info
= user_info
;
1866 int RGWUser::check_op(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1870 rgw_user
& op_id
= op_state
.get_user_id();
1872 RGWUserInfo user_info
;
1874 same_id
= (user_id
.compare(op_id
) == 0);
1875 populated
= is_populated();
1877 if (op_id
.compare(RGW_USER_ANON_ID
) == 0) {
1878 set_err_msg(err_msg
, "unable to perform operations on the anonymous user");
1882 if (populated
&& !same_id
) {
1883 set_err_msg(err_msg
, "user id mismatch, operation id: " + op_id
.to_str()
1884 + " does not match: " + user_id
.to_str());
1889 //set key type when it not set or set by context
1890 if ((op_state
.get_key_type() < 0) || op_state
.key_type_setbycontext
) {
1891 op_state
.set_key_type(KEY_TYPE_S3
);
1892 op_state
.key_type_setbycontext
= true;
1898 int RGWUser::execute_add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
1900 std::string subprocess_msg
;
1902 bool defer_user_update
= true;
1904 RGWUserInfo user_info
;
1906 rgw_user
& uid
= op_state
.get_user_id();
1907 std::string user_email
= op_state
.get_user_email();
1908 std::string display_name
= op_state
.get_display_name();
1910 // fail if the user exists already
1911 if (op_state
.has_existing_user()) {
1912 if (!op_state
.exclusive
&&
1913 (user_email
.empty() ||
1914 boost::iequals(user_email
, old_info
.user_email
)) &&
1915 old_info
.display_name
== display_name
) {
1916 return execute_modify(op_state
, err_msg
);
1919 if (op_state
.found_by_email
) {
1920 set_err_msg(err_msg
, "email: " + user_email
+
1921 " is the email address an existing user");
1922 ret
= -ERR_EMAIL_EXIST
;
1923 } else if (op_state
.found_by_key
) {
1924 set_err_msg(err_msg
, "duplicate key provided");
1925 ret
= -ERR_KEY_EXIST
;
1927 set_err_msg(err_msg
, "user: " + op_state
.user_id
.to_str() + " exists");
1933 // fail if the user_info has already been populated
1934 if (op_state
.is_populated()) {
1935 set_err_msg(err_msg
, "cannot overwrite already populated user");
1939 // fail if the display name was not included
1940 if (display_name
.empty()) {
1941 set_err_msg(err_msg
, "no display name specified");
1946 // set the user info
1948 user_info
.user_id
= user_id
;
1949 user_info
.display_name
= display_name
;
1950 user_info
.type
= TYPE_RGW
;
1952 if (!user_email
.empty())
1953 user_info
.user_email
= user_email
;
1955 CephContext
*cct
= store
->ctx();
1956 if (op_state
.max_buckets_specified
) {
1957 user_info
.max_buckets
= op_state
.get_max_buckets();
1959 user_info
.max_buckets
= cct
->_conf
->rgw_user_max_buckets
;
1962 user_info
.suspended
= op_state
.get_suspension_status();
1963 user_info
.admin
= op_state
.admin
;
1964 user_info
.system
= op_state
.system
;
1966 if (op_state
.op_mask_specified
)
1967 user_info
.op_mask
= op_state
.get_op_mask();
1969 if (op_state
.has_bucket_quota()) {
1970 user_info
.bucket_quota
= op_state
.get_bucket_quota();
1972 if (cct
->_conf
->rgw_bucket_default_quota_max_objects
>= 0) {
1973 user_info
.bucket_quota
.max_objects
= cct
->_conf
->rgw_bucket_default_quota_max_objects
;
1974 user_info
.bucket_quota
.enabled
= true;
1976 if (cct
->_conf
->rgw_bucket_default_quota_max_size
>= 0) {
1977 user_info
.bucket_quota
.max_size
= cct
->_conf
->rgw_bucket_default_quota_max_size
;
1978 user_info
.bucket_quota
.enabled
= true;
1982 if (op_state
.temp_url_key_specified
) {
1983 map
<int, string
>::iterator iter
;
1984 for (iter
= op_state
.temp_url_keys
.begin();
1985 iter
!= op_state
.temp_url_keys
.end(); ++iter
) {
1986 user_info
.temp_url_keys
[iter
->first
] = iter
->second
;
1990 if (op_state
.has_user_quota()) {
1991 user_info
.user_quota
= op_state
.get_user_quota();
1993 if (cct
->_conf
->rgw_user_default_quota_max_objects
>= 0) {
1994 user_info
.user_quota
.max_objects
= cct
->_conf
->rgw_user_default_quota_max_objects
;
1995 user_info
.user_quota
.enabled
= true;
1997 if (cct
->_conf
->rgw_user_default_quota_max_size
>= 0) {
1998 user_info
.user_quota
.max_size
= cct
->_conf
->rgw_user_default_quota_max_size
;
1999 user_info
.user_quota
.enabled
= true;
2003 // update the request
2004 op_state
.set_user_info(user_info
);
2005 op_state
.set_populated();
2007 // update the helper objects
2008 ret
= init_members(op_state
);
2010 set_err_msg(err_msg
, "unable to initialize user");
2014 // see if we need to add an access key
2015 if (op_state
.has_key_op()) {
2016 ret
= keys
.add(op_state
, &subprocess_msg
, defer_user_update
);
2018 set_err_msg(err_msg
, "unable to create access key, " + subprocess_msg
);
2023 // see if we need to add some caps
2024 if (op_state
.has_caps_op()) {
2025 ret
= caps
.add(op_state
, &subprocess_msg
, defer_user_update
);
2027 set_err_msg(err_msg
, "unable to add user capabilities, " + subprocess_msg
);
2032 ret
= update(op_state
, err_msg
);
2039 int RGWUser::add(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
2041 std::string subprocess_msg
;
2044 ret
= check_op(op_state
, &subprocess_msg
);
2046 set_err_msg(err_msg
, "unable to parse parameters, " + subprocess_msg
);
2050 ret
= execute_add(op_state
, &subprocess_msg
);
2052 set_err_msg(err_msg
, "unable to create user, " + subprocess_msg
);
2059 int RGWUser::execute_remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
2063 bool purge_data
= op_state
.will_purge_data();
2064 rgw_user
& uid
= op_state
.get_user_id();
2065 RGWUserInfo user_info
= op_state
.get_user_info();
2067 if (!op_state
.has_existing_user()) {
2068 set_err_msg(err_msg
, "user does not exist");
2072 bool is_truncated
= false;
2074 CephContext
*cct
= store
->ctx();
2075 size_t max_buckets
= cct
->_conf
->rgw_list_buckets_max_chunk
;
2077 RGWUserBuckets buckets
;
2078 ret
= rgw_read_user_buckets(store
, uid
, buckets
, marker
, string(),
2079 max_buckets
, false, &is_truncated
);
2081 set_err_msg(err_msg
, "unable to read user bucket info");
2085 map
<std::string
, RGWBucketEnt
>& m
= buckets
.get_buckets();
2086 if (!m
.empty() && !purge_data
) {
2087 set_err_msg(err_msg
, "must specify purge data to remove user with buckets");
2088 return -EEXIST
; // change to code that maps to 409: conflict
2091 std::map
<std::string
, RGWBucketEnt
>::iterator it
;
2092 for (it
= m
.begin(); it
!= m
.end(); ++it
) {
2093 ret
= rgw_remove_bucket(store
, ((*it
).second
).bucket
, true);
2095 set_err_msg(err_msg
, "unable to delete user data");
2102 } while (is_truncated
);
2104 ret
= rgw_delete_user(store
, user_info
, op_state
.objv
);
2106 set_err_msg(err_msg
, "unable to remove user from RADOS");
2110 op_state
.clear_populated();
2116 int RGWUser::remove(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
2118 std::string subprocess_msg
;
2121 ret
= check_op(op_state
, &subprocess_msg
);
2123 set_err_msg(err_msg
, "unable to parse parameters, " + subprocess_msg
);
2127 ret
= execute_remove(op_state
, &subprocess_msg
);
2129 set_err_msg(err_msg
, "unable to remove user, " + subprocess_msg
);
2136 int RGWUser::execute_modify(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
2138 bool populated
= op_state
.is_populated();
2140 std::string subprocess_msg
;
2141 std::string op_email
= op_state
.get_user_email();
2142 std::string display_name
= op_state
.get_display_name();
2144 RGWUserInfo user_info
;
2145 RGWUserInfo duplicate_check
;
2147 // ensure that the user info has been populated or is populate-able
2148 if (!op_state
.has_existing_user() && !populated
) {
2149 set_err_msg(err_msg
, "user not found");
2153 // if the user hasn't already been populated...attempt to
2155 ret
= init(op_state
);
2157 set_err_msg(err_msg
, "unable to retrieve user info");
2162 // ensure that we can modify the user's attributes
2163 if (user_id
.compare(RGW_USER_ANON_ID
) == 0) {
2164 set_err_msg(err_msg
, "unable to modify anonymous user's info");
2168 user_info
= old_info
;
2170 std::string old_email
= old_info
.user_email
;
2171 if (!op_email
.empty()) {
2172 // make sure we are not adding a duplicate email
2173 if (old_email
.compare(op_email
) != 0) {
2174 ret
= rgw_get_user_info_by_email(store
, op_email
, duplicate_check
);
2175 if (ret
>= 0 && duplicate_check
.user_id
.compare(user_id
) != 0) {
2176 set_err_msg(err_msg
, "cannot add duplicate email");
2177 return -ERR_EMAIL_EXIST
;
2180 user_info
.user_email
= op_email
;
2181 } else if (op_email
.empty() && op_state
.user_email_specified
) {
2183 ldout(store
->ctx(), 10) << "removing email index: " << user_info
.user_email
<< dendl
;
2184 ret
= rgw_remove_email_index(store
, user_info
.user_email
);
2185 if (ret
< 0 && ret
!= -ENOENT
) {
2186 ldout(store
->ctx(), 0) << "ERROR: could not remove " << user_info
.user_id
<< " index (err=" << ret
<< ")" << dendl
;
2189 user_info
.user_email
= "";
2192 // update the remaining user info
2193 if (!display_name
.empty())
2194 user_info
.display_name
= display_name
;
2196 if (op_state
.max_buckets_specified
)
2197 user_info
.max_buckets
= op_state
.get_max_buckets();
2199 if (op_state
.admin_specified
)
2200 user_info
.admin
= op_state
.admin
;
2202 if (op_state
.system_specified
)
2203 user_info
.system
= op_state
.system
;
2205 if (op_state
.temp_url_key_specified
) {
2206 map
<int, string
>::iterator iter
;
2207 for (iter
= op_state
.temp_url_keys
.begin();
2208 iter
!= op_state
.temp_url_keys
.end(); ++iter
) {
2209 user_info
.temp_url_keys
[iter
->first
] = iter
->second
;
2213 if (op_state
.op_mask_specified
)
2214 user_info
.op_mask
= op_state
.get_op_mask();
2216 if (op_state
.has_bucket_quota())
2217 user_info
.bucket_quota
= op_state
.get_bucket_quota();
2219 if (op_state
.has_user_quota())
2220 user_info
.user_quota
= op_state
.get_user_quota();
2222 if (op_state
.has_suspension_op()) {
2223 __u8 suspended
= op_state
.get_suspension_status();
2224 user_info
.suspended
= suspended
;
2226 RGWUserBuckets buckets
;
2228 if (user_id
.empty()) {
2229 set_err_msg(err_msg
, "empty user id passed...aborting");
2233 bool is_truncated
= false;
2235 CephContext
*cct
= store
->ctx();
2236 size_t max_buckets
= cct
->_conf
->rgw_list_buckets_max_chunk
;
2238 ret
= rgw_read_user_buckets(store
, user_id
, buckets
, marker
, string(),
2239 max_buckets
, false, &is_truncated
);
2241 set_err_msg(err_msg
, "could not get buckets for uid: " + user_id
.to_str());
2245 map
<string
, RGWBucketEnt
>& m
= buckets
.get_buckets();
2246 map
<string
, RGWBucketEnt
>::iterator iter
;
2248 vector
<rgw_bucket
> bucket_names
;
2249 for (iter
= m
.begin(); iter
!= m
.end(); ++iter
) {
2250 RGWBucketEnt obj
= iter
->second
;
2251 bucket_names
.push_back(obj
.bucket
);
2253 marker
= iter
->first
;
2256 ret
= store
->set_buckets_enabled(bucket_names
, !suspended
);
2258 set_err_msg(err_msg
, "failed to modify bucket");
2262 } while (is_truncated
);
2264 op_state
.set_user_info(user_info
);
2266 // if we're supposed to modify keys, do so
2267 if (op_state
.has_key_op()) {
2268 ret
= keys
.add(op_state
, &subprocess_msg
, true);
2270 set_err_msg(err_msg
, "unable to create or modify keys, " + subprocess_msg
);
2275 ret
= update(op_state
, err_msg
);
2282 int RGWUser::modify(RGWUserAdminOpState
& op_state
, std::string
*err_msg
)
2284 std::string subprocess_msg
;
2287 ret
= check_op(op_state
, &subprocess_msg
);
2289 set_err_msg(err_msg
, "unable to parse parameters, " + subprocess_msg
);
2293 ret
= execute_modify(op_state
, &subprocess_msg
);
2295 set_err_msg(err_msg
, "unable to modify user, " + subprocess_msg
);
2302 int RGWUser::info(RGWUserAdminOpState
& op_state
, RGWUserInfo
& fetched_info
, std::string
*err_msg
)
2304 int ret
= init(op_state
);
2306 set_err_msg(err_msg
, "unable to fetch user info");
2310 fetched_info
= op_state
.get_user_info();
2315 int RGWUser::info(RGWUserInfo
& fetched_info
, std::string
*err_msg
)
2317 if (!is_populated()) {
2318 set_err_msg(err_msg
, "no user info saved");
2322 fetched_info
= old_info
;
2327 int RGWUserAdminOp_User::info(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2328 RGWFormatterFlusher
& flusher
)
2333 int ret
= user
.init(store
, op_state
);
2337 if (!op_state
.has_existing_user())
2338 return -ERR_NO_SUCH_USER
;
2340 Formatter
*formatter
= flusher
.get_formatter();
2342 ret
= user
.info(info
, NULL
);
2346 RGWStorageStats stats
;
2347 RGWStorageStats
*arg_stats
= NULL
;
2348 if (op_state
.fetch_stats
) {
2349 int ret
= store
->get_user_stats(info
.user_id
, stats
);
2359 dump_user_info(formatter
, info
, arg_stats
);
2365 int RGWUserAdminOp_User::create(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2366 RGWFormatterFlusher
& flusher
)
2370 int ret
= user
.init(store
, op_state
);
2374 Formatter
*formatter
= flusher
.get_formatter();
2376 ret
= user
.add(op_state
, NULL
);
2379 ret
= -ERR_USER_EXIST
;
2383 ret
= user
.info(info
, NULL
);
2389 dump_user_info(formatter
, info
);
2395 int RGWUserAdminOp_User::modify(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2396 RGWFormatterFlusher
& flusher
)
2400 int ret
= user
.init(store
, op_state
);
2403 Formatter
*formatter
= flusher
.get_formatter();
2405 ret
= user
.modify(op_state
, NULL
);
2408 ret
= -ERR_NO_SUCH_USER
;
2412 ret
= user
.info(info
, NULL
);
2418 dump_user_info(formatter
, info
);
2424 int RGWUserAdminOp_User::remove(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2425 RGWFormatterFlusher
& flusher
)
2429 int ret
= user
.init(store
, op_state
);
2434 ret
= user
.remove(op_state
, NULL
);
2437 ret
= -ERR_NO_SUCH_USER
;
2441 int RGWUserAdminOp_Subuser::create(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2442 RGWFormatterFlusher
& flusher
)
2446 int ret
= user
.init(store
, op_state
);
2450 if (!op_state
.has_existing_user())
2451 return -ERR_NO_SUCH_USER
;
2453 Formatter
*formatter
= flusher
.get_formatter();
2455 ret
= user
.subusers
.add(op_state
, NULL
);
2459 ret
= user
.info(info
, NULL
);
2465 dump_subusers_info(formatter
, info
);
2471 int RGWUserAdminOp_Subuser::modify(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2472 RGWFormatterFlusher
& flusher
)
2476 int ret
= user
.init(store
, op_state
);
2480 if (!op_state
.has_existing_user())
2481 return -ERR_NO_SUCH_USER
;
2483 Formatter
*formatter
= flusher
.get_formatter();
2485 ret
= user
.subusers
.modify(op_state
, NULL
);
2489 ret
= user
.info(info
, NULL
);
2495 dump_subusers_info(formatter
, info
);
2501 int RGWUserAdminOp_Subuser::remove(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2502 RGWFormatterFlusher
& flusher
)
2506 int ret
= user
.init(store
, op_state
);
2511 if (!op_state
.has_existing_user())
2512 return -ERR_NO_SUCH_USER
;
2514 ret
= user
.subusers
.remove(op_state
, NULL
);
2521 int RGWUserAdminOp_Key::create(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2522 RGWFormatterFlusher
& flusher
)
2526 int ret
= user
.init(store
, op_state
);
2530 if (!op_state
.has_existing_user())
2531 return -ERR_NO_SUCH_USER
;
2533 Formatter
*formatter
= flusher
.get_formatter();
2535 ret
= user
.keys
.add(op_state
, NULL
);
2539 ret
= user
.info(info
, NULL
);
2545 int key_type
= op_state
.get_key_type();
2547 if (key_type
== KEY_TYPE_SWIFT
)
2548 dump_swift_keys_info(formatter
, info
);
2550 else if (key_type
== KEY_TYPE_S3
)
2551 dump_access_keys_info(formatter
, info
);
2558 int RGWUserAdminOp_Key::remove(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2559 RGWFormatterFlusher
& flusher
)
2563 int ret
= user
.init(store
, op_state
);
2567 if (!op_state
.has_existing_user())
2568 return -ERR_NO_SUCH_USER
;
2571 ret
= user
.keys
.remove(op_state
, NULL
);
2578 int RGWUserAdminOp_Caps::add(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2579 RGWFormatterFlusher
& flusher
)
2583 int ret
= user
.init(store
, op_state
);
2587 if (!op_state
.has_existing_user())
2588 return -ERR_NO_SUCH_USER
;
2590 Formatter
*formatter
= flusher
.get_formatter();
2592 ret
= user
.caps
.add(op_state
, NULL
);
2596 ret
= user
.info(info
, NULL
);
2602 info
.caps
.dump(formatter
);
2609 int RGWUserAdminOp_Caps::remove(RGWRados
*store
, RGWUserAdminOpState
& op_state
,
2610 RGWFormatterFlusher
& flusher
)
2614 int ret
= user
.init(store
, op_state
);
2618 if (!op_state
.has_existing_user())
2619 return -ERR_NO_SUCH_USER
;
2621 Formatter
*formatter
= flusher
.get_formatter();
2623 ret
= user
.caps
.remove(op_state
, NULL
);
2627 ret
= user
.info(info
, NULL
);
2633 info
.caps
.dump(formatter
);
2639 struct RGWUserCompleteInfo
{
2641 map
<string
, bufferlist
> attrs
;
2644 RGWUserCompleteInfo()
2648 void dump(Formatter
* const f
) const {
2650 encode_json("attrs", attrs
, f
);
2653 void decode_json(JSONObj
*obj
) {
2654 decode_json_obj(info
, obj
);
2655 has_attrs
= JSONDecoder::decode_json("attrs", attrs
, obj
);
2659 class RGWUserMetadataObject
: public RGWMetadataObject
{
2660 RGWUserCompleteInfo uci
;
2662 RGWUserMetadataObject(const RGWUserCompleteInfo
& _uci
, obj_version
& v
, real_time m
)
2668 void dump(Formatter
*f
) const override
{
2673 class RGWUserMetadataHandler
: public RGWMetadataHandler
{
2675 string
get_type() override
{ return "user"; }
2677 int get(RGWRados
*store
, string
& entry
, RGWMetadataObject
**obj
) override
{
2678 RGWUserCompleteInfo uci
;
2679 RGWObjVersionTracker objv_tracker
;
2682 rgw_user
uid(entry
);
2684 int ret
= rgw_get_user_info_by_uid(store
, uid
, uci
.info
, &objv_tracker
,
2685 &mtime
, NULL
, &uci
.attrs
);
2690 RGWUserMetadataObject
*mdo
= new RGWUserMetadataObject(uci
, objv_tracker
.read_version
, mtime
);
2696 int put(RGWRados
*store
, string
& entry
, RGWObjVersionTracker
& objv_tracker
,
2697 real_time mtime
, JSONObj
*obj
, sync_type_t sync_mode
) override
{
2698 RGWUserCompleteInfo uci
;
2701 decode_json_obj(uci
, obj
);
2702 } catch (JSONDecoder::err
& e
) {
2706 map
<string
, bufferlist
> *pattrs
= NULL
;
2707 if (uci
.has_attrs
) {
2708 pattrs
= &uci
.attrs
;
2711 rgw_user
uid(entry
);
2713 RGWUserInfo old_info
;
2714 real_time orig_mtime
;
2715 int ret
= rgw_get_user_info_by_uid(store
, uid
, old_info
, &objv_tracker
, &orig_mtime
);
2716 if (ret
< 0 && ret
!= -ENOENT
)
2719 // are we actually going to perform this put, or is it too old?
2720 if (ret
!= -ENOENT
&&
2721 !check_versions(objv_tracker
.read_version
, orig_mtime
,
2722 objv_tracker
.write_version
, mtime
, sync_mode
)) {
2723 return STATUS_NO_APPLY
;
2726 ret
= rgw_store_user_info(store
, uci
.info
, &old_info
, &objv_tracker
, mtime
, false, pattrs
);
2731 return STATUS_APPLIED
;
2734 struct list_keys_info
{
2736 RGWListRawObjsCtx ctx
;
2739 int remove(RGWRados
*store
, string
& entry
, RGWObjVersionTracker
& objv_tracker
) override
{
2742 rgw_user
uid(entry
);
2744 int ret
= rgw_get_user_info_by_uid(store
, uid
, info
, &objv_tracker
);
2748 return rgw_delete_user(store
, info
, objv_tracker
);
2751 void get_pool_and_oid(RGWRados
*store
, const string
& key
, rgw_pool
& pool
, string
& oid
) override
{
2753 pool
= store
->get_zone_params().user_uid_pool
;
2756 int list_keys_init(RGWRados
*store
, void **phandle
) override
2758 list_keys_info
*info
= new list_keys_info
;
2760 info
->store
= store
;
2762 *phandle
= (void *)info
;
2767 int list_keys_next(void *handle
, int max
, list
<string
>& keys
, bool *truncated
) override
{
2768 list_keys_info
*info
= static_cast<list_keys_info
*>(handle
);
2774 RGWRados
*store
= info
->store
;
2776 list
<string
> unfiltered_keys
;
2778 int ret
= store
->list_raw_objects(store
->get_zone_params().user_uid_pool
, no_filter
,
2779 max
, info
->ctx
, unfiltered_keys
, truncated
);
2780 if (ret
< 0 && ret
!= -ENOENT
)
2782 if (ret
== -ENOENT
) {
2788 // now filter out the buckets entries
2789 list
<string
>::iterator iter
;
2790 for (iter
= unfiltered_keys
.begin(); iter
!= unfiltered_keys
.end(); ++iter
) {
2793 if (k
.find(".buckets") == string::npos
) {
2801 void list_keys_complete(void *handle
) override
{
2802 list_keys_info
*info
= static_cast<list_keys_info
*>(handle
);
2807 void rgw_user_init(RGWRados
*store
)
2809 uinfo_cache
.init(store
);
2811 user_meta_handler
= new RGWUserMetadataHandler
;
2812 store
->meta_mgr
->register_handler(user_meta_handler
);