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|
// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
/*
* Ceph - scalable distributed file system
*
* Copyright (C) 2004-2009 Sage Weil <sage@newdream.net>
* Copyright (C) 2015 Yehuda Sadeh <yehuda@redhat.com>
*
* This is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software
* Foundation. See file COPYING.
*
*/
#ifndef CEPH_RGW_COMMON_H
#define CEPH_RGW_COMMON_H
#include <array>
#include <boost/algorithm/string.hpp>
#include <boost/utility/string_view.hpp>
#include "common/ceph_crypto.h"
#include "common/random_string.h"
#include "rgw_acl.h"
#include "rgw_cors.h"
#include "rgw_iam_policy.h"
#include "rgw_quota.h"
#include "rgw_string.h"
#include "common/async/yield_context.h"
#include "rgw_website.h"
#include "rgw_object_lock.h"
#include "rgw_tag.h"
#include "cls/version/cls_version_types.h"
#include "cls/user/cls_user_types.h"
#include "cls/rgw/cls_rgw_types.h"
#include "include/rados/librados.hpp"
namespace ceph {
class Formatter;
}
using ceph::crypto::MD5;
#define RGW_ATTR_PREFIX "user.rgw."
#define RGW_HTTP_RGWX_ATTR_PREFIX "RGWX_ATTR_"
#define RGW_HTTP_RGWX_ATTR_PREFIX_OUT "Rgwx-Attr-"
#define RGW_AMZ_PREFIX "x-amz-"
#define RGW_AMZ_META_PREFIX RGW_AMZ_PREFIX "meta-"
#define RGW_AMZ_WEBSITE_REDIRECT_LOCATION RGW_AMZ_PREFIX "website-redirect-location"
#define RGW_AMZ_TAG_COUNT RGW_AMZ_PREFIX "tagging-count"
#define RGW_SYS_PARAM_PREFIX "rgwx-"
#define RGW_ATTR_ACL RGW_ATTR_PREFIX "acl"
#define RGW_ATTR_LC RGW_ATTR_PREFIX "lc"
#define RGW_ATTR_CORS RGW_ATTR_PREFIX "cors"
#define RGW_ATTR_ETAG RGW_ATTR_PREFIX "etag"
#define RGW_ATTR_BUCKETS RGW_ATTR_PREFIX "buckets"
#define RGW_ATTR_META_PREFIX RGW_ATTR_PREFIX RGW_AMZ_META_PREFIX
#define RGW_ATTR_CONTENT_TYPE RGW_ATTR_PREFIX "content_type"
#define RGW_ATTR_CACHE_CONTROL RGW_ATTR_PREFIX "cache_control"
#define RGW_ATTR_CONTENT_DISP RGW_ATTR_PREFIX "content_disposition"
#define RGW_ATTR_CONTENT_ENC RGW_ATTR_PREFIX "content_encoding"
#define RGW_ATTR_CONTENT_LANG RGW_ATTR_PREFIX "content_language"
#define RGW_ATTR_EXPIRES RGW_ATTR_PREFIX "expires"
#define RGW_ATTR_DELETE_AT RGW_ATTR_PREFIX "delete_at"
#define RGW_ATTR_ID_TAG RGW_ATTR_PREFIX "idtag"
#define RGW_ATTR_TAIL_TAG RGW_ATTR_PREFIX "tail_tag"
#define RGW_ATTR_SHADOW_OBJ RGW_ATTR_PREFIX "shadow_name"
#define RGW_ATTR_MANIFEST RGW_ATTR_PREFIX "manifest"
#define RGW_ATTR_USER_MANIFEST RGW_ATTR_PREFIX "user_manifest"
#define RGW_ATTR_AMZ_WEBSITE_REDIRECT_LOCATION RGW_ATTR_PREFIX RGW_AMZ_WEBSITE_REDIRECT_LOCATION
#define RGW_ATTR_SLO_MANIFEST RGW_ATTR_PREFIX "slo_manifest"
/* Information whether an object is SLO or not must be exposed to
* user through custom HTTP header named X-Static-Large-Object. */
#define RGW_ATTR_SLO_UINDICATOR RGW_ATTR_META_PREFIX "static-large-object"
#define RGW_ATTR_X_ROBOTS_TAG RGW_ATTR_PREFIX "x-robots-tag"
#define RGW_ATTR_STORAGE_CLASS RGW_ATTR_PREFIX "storage_class"
/* S3 Object Lock*/
#define RGW_ATTR_OBJECT_LOCK RGW_ATTR_PREFIX "object-lock"
#define RGW_ATTR_OBJECT_RETENTION RGW_ATTR_PREFIX "object-retention"
#define RGW_ATTR_OBJECT_LEGAL_HOLD RGW_ATTR_PREFIX "object-legal-hold"
#define RGW_ATTR_PG_VER RGW_ATTR_PREFIX "pg_ver"
#define RGW_ATTR_SOURCE_ZONE RGW_ATTR_PREFIX "source_zone"
#define RGW_ATTR_TAGS RGW_ATTR_PREFIX RGW_AMZ_PREFIX "tagging"
#define RGW_ATTR_TEMPURL_KEY1 RGW_ATTR_META_PREFIX "temp-url-key"
#define RGW_ATTR_TEMPURL_KEY2 RGW_ATTR_META_PREFIX "temp-url-key-2"
/* Account/container quota of the Swift API. */
#define RGW_ATTR_QUOTA_NOBJS RGW_ATTR_META_PREFIX "quota-count"
#define RGW_ATTR_QUOTA_MSIZE RGW_ATTR_META_PREFIX "quota-bytes"
/* Static Web Site of Swift API. */
#define RGW_ATTR_WEB_INDEX RGW_ATTR_META_PREFIX "web-index"
#define RGW_ATTR_WEB_ERROR RGW_ATTR_META_PREFIX "web-error"
#define RGW_ATTR_WEB_LISTINGS RGW_ATTR_META_PREFIX "web-listings"
#define RGW_ATTR_WEB_LIST_CSS RGW_ATTR_META_PREFIX "web-listings-css"
#define RGW_ATTR_SUBDIR_MARKER RGW_ATTR_META_PREFIX "web-directory-type"
#define RGW_ATTR_OLH_PREFIX RGW_ATTR_PREFIX "olh."
#define RGW_ATTR_OLH_INFO RGW_ATTR_OLH_PREFIX "info"
#define RGW_ATTR_OLH_VER RGW_ATTR_OLH_PREFIX "ver"
#define RGW_ATTR_OLH_ID_TAG RGW_ATTR_OLH_PREFIX "idtag"
#define RGW_ATTR_OLH_PENDING_PREFIX RGW_ATTR_OLH_PREFIX "pending."
#define RGW_ATTR_COMPRESSION RGW_ATTR_PREFIX "compression"
#define RGW_ATTR_APPEND_PART_NUM RGW_ATTR_PREFIX "append_part_num"
/* IAM Policy */
#define RGW_ATTR_IAM_POLICY RGW_ATTR_PREFIX "iam-policy"
#define RGW_ATTR_USER_POLICY RGW_ATTR_PREFIX "user-policy"
/* RGW File Attributes */
#define RGW_ATTR_UNIX_KEY1 RGW_ATTR_PREFIX "unix-key1"
#define RGW_ATTR_UNIX1 RGW_ATTR_PREFIX "unix1"
#define RGW_ATTR_CRYPT_PREFIX RGW_ATTR_PREFIX "crypt."
#define RGW_ATTR_CRYPT_MODE RGW_ATTR_CRYPT_PREFIX "mode"
#define RGW_ATTR_CRYPT_KEYMD5 RGW_ATTR_CRYPT_PREFIX "keymd5"
#define RGW_ATTR_CRYPT_KEYID RGW_ATTR_CRYPT_PREFIX "keyid"
#define RGW_ATTR_CRYPT_KEYSEL RGW_ATTR_CRYPT_PREFIX "keysel"
#define RGW_BUCKETS_OBJ_SUFFIX ".buckets"
#define RGW_FORMAT_PLAIN 0
#define RGW_FORMAT_XML 1
#define RGW_FORMAT_JSON 2
#define RGW_FORMAT_HTML 3
#define RGW_CAP_READ 0x1
#define RGW_CAP_WRITE 0x2
#define RGW_CAP_ALL (RGW_CAP_READ | RGW_CAP_WRITE)
#define RGW_REST_SWIFT 0x1
#define RGW_REST_SWIFT_AUTH 0x2
#define RGW_REST_S3 0x4
#define RGW_REST_WEBSITE 0x8
#define RGW_REST_STS 0x10
#define RGW_REST_IAM 0x20
#define RGW_SUSPENDED_USER_AUID (uint64_t)-2
#define RGW_OP_TYPE_READ 0x01
#define RGW_OP_TYPE_WRITE 0x02
#define RGW_OP_TYPE_DELETE 0x04
#define RGW_OP_TYPE_MODIFY (RGW_OP_TYPE_WRITE | RGW_OP_TYPE_DELETE)
#define RGW_OP_TYPE_ALL (RGW_OP_TYPE_READ | RGW_OP_TYPE_WRITE | RGW_OP_TYPE_DELETE)
#define RGW_DEFAULT_MAX_BUCKETS 1000
#define RGW_DEFER_TO_BUCKET_ACLS_RECURSE 1
#define RGW_DEFER_TO_BUCKET_ACLS_FULL_CONTROL 2
#define STATUS_CREATED 1900
#define STATUS_ACCEPTED 1901
#define STATUS_NO_CONTENT 1902
#define STATUS_PARTIAL_CONTENT 1903
#define STATUS_REDIRECT 1904
#define STATUS_NO_APPLY 1905
#define STATUS_APPLIED 1906
#define ERR_INVALID_BUCKET_NAME 2000
#define ERR_INVALID_OBJECT_NAME 2001
#define ERR_NO_SUCH_BUCKET 2002
#define ERR_METHOD_NOT_ALLOWED 2003
#define ERR_INVALID_DIGEST 2004
#define ERR_BAD_DIGEST 2005
#define ERR_UNRESOLVABLE_EMAIL 2006
#define ERR_INVALID_PART 2007
#define ERR_INVALID_PART_ORDER 2008
#define ERR_NO_SUCH_UPLOAD 2009
#define ERR_REQUEST_TIMEOUT 2010
#define ERR_LENGTH_REQUIRED 2011
#define ERR_REQUEST_TIME_SKEWED 2012
#define ERR_BUCKET_EXISTS 2013
#define ERR_BAD_URL 2014
#define ERR_PRECONDITION_FAILED 2015
#define ERR_NOT_MODIFIED 2016
#define ERR_INVALID_UTF8 2017
#define ERR_UNPROCESSABLE_ENTITY 2018
#define ERR_TOO_LARGE 2019
#define ERR_TOO_MANY_BUCKETS 2020
#define ERR_INVALID_REQUEST 2021
#define ERR_TOO_SMALL 2022
#define ERR_NOT_FOUND 2023
#define ERR_PERMANENT_REDIRECT 2024
#define ERR_LOCKED 2025
#define ERR_QUOTA_EXCEEDED 2026
#define ERR_SIGNATURE_NO_MATCH 2027
#define ERR_INVALID_ACCESS_KEY 2028
#define ERR_MALFORMED_XML 2029
#define ERR_USER_EXIST 2030
#define ERR_NOT_SLO_MANIFEST 2031
#define ERR_EMAIL_EXIST 2032
#define ERR_KEY_EXIST 2033
#define ERR_INVALID_SECRET_KEY 2034
#define ERR_INVALID_KEY_TYPE 2035
#define ERR_INVALID_CAP 2036
#define ERR_INVALID_TENANT_NAME 2037
#define ERR_WEBSITE_REDIRECT 2038
#define ERR_NO_SUCH_WEBSITE_CONFIGURATION 2039
#define ERR_AMZ_CONTENT_SHA256_MISMATCH 2040
#define ERR_NO_SUCH_LC 2041
#define ERR_NO_SUCH_USER 2042
#define ERR_NO_SUCH_SUBUSER 2043
#define ERR_MFA_REQUIRED 2044
#define ERR_NO_SUCH_CORS_CONFIGURATION 2045
#define ERR_NO_SUCH_OBJECT_LOCK_CONFIGURATION 2046
#define ERR_INVALID_RETENTION_PERIOD 2047
#define ERR_USER_SUSPENDED 2100
#define ERR_INTERNAL_ERROR 2200
#define ERR_NOT_IMPLEMENTED 2201
#define ERR_SERVICE_UNAVAILABLE 2202
#define ERR_ROLE_EXISTS 2203
#define ERR_MALFORMED_DOC 2204
#define ERR_NO_ROLE_FOUND 2205
#define ERR_DELETE_CONFLICT 2206
#define ERR_NO_SUCH_BUCKET_POLICY 2207
#define ERR_INVALID_LOCATION_CONSTRAINT 2208
#define ERR_TAG_CONFLICT 2209
#define ERR_INVALID_TAG 2210
#define ERR_ZERO_IN_URL 2211
#define ERR_MALFORMED_ACL_ERROR 2212
#define ERR_ZONEGROUP_DEFAULT_PLACEMENT_MISCONFIGURATION 2213
#define ERR_INVALID_ENCRYPTION_ALGORITHM 2214
#define ERR_INVALID_CORS_RULES_ERROR 2215
#define ERR_NO_CORS_FOUND 2216
#define ERR_INVALID_WEBSITE_ROUTING_RULES_ERROR 2217
#define ERR_RATE_LIMITED 2218
#define ERR_POSITION_NOT_EQUAL_TO_LENGTH 2219
#define ERR_OBJECT_NOT_APPENDABLE 2220
#define ERR_INVALID_BUCKET_STATE 2221
#define ERR_BUSY_RESHARDING 2300
#define ERR_NO_SUCH_ENTITY 2301
// STS Errors
#define ERR_PACKED_POLICY_TOO_LARGE 2400
#define ERR_INVALID_IDENTITY_TOKEN 2401
#ifndef UINT32_MAX
#define UINT32_MAX (0xffffffffu)
#endif
struct req_state;
typedef void *RGWAccessHandle;
enum RGWIntentEvent {
DEL_OBJ = 0,
DEL_DIR = 1,
};
enum HostStyle {
PathStyle = 0,
VirtualStyle = 1,
};
/** Store error returns for output at a different point in the program */
struct rgw_err {
rgw_err();
void clear();
bool is_clear() const;
bool is_err() const;
friend std::ostream& operator<<(std::ostream& oss, const rgw_err &err);
int http_ret;
int ret;
std::string err_code;
std::string message;
};
/* Helper class used for RGWHTTPArgs parsing */
class NameVal
{
const std::string str;
std::string name;
std::string val;
public:
explicit NameVal(const std::string& nv) : str(nv) {}
int parse();
std::string& get_name() { return name; }
std::string& get_val() { return val; }
};
/** Stores the XML arguments associated with the HTTP request in req_state*/
class RGWHTTPArgs {
std::string str, empty_str;
std::map<std::string, std::string> val_map;
std::map<std::string, std::string> sys_val_map;
std::map<std::string, std::string> sub_resources;
bool has_resp_modifier = false;
bool admin_subresource_added = false;
public:
RGWHTTPArgs() = default;
explicit RGWHTTPArgs(const std::string& s) {
set(s);
parse();
}
/** Set the arguments; as received */
void set(const std::string& s) {
has_resp_modifier = false;
val_map.clear();
sub_resources.clear();
str = s;
}
/** parse the received arguments */
int parse();
void append(const std::string& name, const string& val);
/** Get the value for a specific argument parameter */
const string& get(const std::string& name, bool *exists = NULL) const;
boost::optional<const std::string&>
get_optional(const std::string& name) const;
int get_bool(const std::string& name, bool *val, bool *exists);
int get_bool(const char *name, bool *val, bool *exists);
void get_bool(const char *name, bool *val, bool def_val);
int get_int(const char *name, int *val, int def_val);
/** Get the value for specific system argument parameter */
std::string sys_get(const std::string& name, bool *exists = nullptr) const;
/** see if a parameter is contained in this RGWHTTPArgs */
bool exists(const char *name) const {
return (val_map.find(name) != std::end(val_map));
}
bool sub_resource_exists(const char *name) const {
return (sub_resources.find(name) != std::end(sub_resources));
}
std::map<std::string, std::string>& get_params() {
return val_map;
}
const std::map<std::string, std::string>& get_sub_resources() const {
return sub_resources;
}
unsigned get_num_params() const {
return val_map.size();
}
bool has_response_modifier() const {
return has_resp_modifier;
}
void set_system() { /* make all system params visible */
std::map<std::string, std::string>::iterator iter;
for (iter = sys_val_map.begin(); iter != sys_val_map.end(); ++iter) {
val_map[iter->first] = iter->second;
}
}
const std::string& get_str() {
return str;
}
}; // RGWHTTPArgs
const char *rgw_conf_get(const map<string, string, ltstr_nocase>& conf_map, const char *name, const char *def_val);
int rgw_conf_get_int(const map<string, string, ltstr_nocase>& conf_map, const char *name, int def_val);
bool rgw_conf_get_bool(const map<string, string, ltstr_nocase>& conf_map, const char *name, bool def_val);
class RGWEnv;
class RGWConf {
friend class RGWEnv;
int enable_ops_log;
int enable_usage_log;
uint8_t defer_to_bucket_acls;
void init(CephContext *cct);
public:
RGWConf()
: enable_ops_log(1),
enable_usage_log(1),
defer_to_bucket_acls(0) {
}
};
class RGWEnv {
std::map<string, string, ltstr_nocase> env_map;
RGWConf conf;
public:
void init(CephContext *cct);
void init(CephContext *cct, char **envp);
void set(std::string name, std::string val);
const char *get(const char *name, const char *def_val = nullptr) const;
int get_int(const char *name, int def_val = 0) const;
bool get_bool(const char *name, bool def_val = 0);
size_t get_size(const char *name, size_t def_val = 0) const;
bool exists(const char *name) const;
bool exists_prefix(const char *prefix) const;
void remove(const char *name);
const std::map<string, string, ltstr_nocase>& get_map() const { return env_map; }
int get_enable_ops_log() const {
return conf.enable_ops_log;
}
int get_enable_usage_log() const {
return conf.enable_usage_log;
}
int get_defer_to_bucket_acls() const {
return conf.defer_to_bucket_acls;
}
};
// return true if the connection is secure. this either means that the
// connection arrived via ssl, or was forwarded as https by a trusted proxy
bool rgw_transport_is_secure(CephContext *cct, const RGWEnv& env);
enum http_op {
OP_GET,
OP_PUT,
OP_DELETE,
OP_HEAD,
OP_POST,
OP_COPY,
OP_OPTIONS,
OP_UNKNOWN,
};
enum RGWOpType {
RGW_OP_UNKNOWN = 0,
RGW_OP_GET_OBJ,
RGW_OP_LIST_BUCKETS,
RGW_OP_STAT_ACCOUNT,
RGW_OP_LIST_BUCKET,
RGW_OP_GET_BUCKET_LOGGING,
RGW_OP_GET_BUCKET_LOCATION,
RGW_OP_GET_BUCKET_VERSIONING,
RGW_OP_SET_BUCKET_VERSIONING,
RGW_OP_GET_BUCKET_WEBSITE,
RGW_OP_SET_BUCKET_WEBSITE,
RGW_OP_STAT_BUCKET,
RGW_OP_CREATE_BUCKET,
RGW_OP_DELETE_BUCKET,
RGW_OP_PUT_OBJ,
RGW_OP_STAT_OBJ,
RGW_OP_POST_OBJ,
RGW_OP_PUT_METADATA_ACCOUNT,
RGW_OP_PUT_METADATA_BUCKET,
RGW_OP_PUT_METADATA_OBJECT,
RGW_OP_SET_TEMPURL,
RGW_OP_DELETE_OBJ,
RGW_OP_COPY_OBJ,
RGW_OP_GET_ACLS,
RGW_OP_PUT_ACLS,
RGW_OP_GET_CORS,
RGW_OP_PUT_CORS,
RGW_OP_DELETE_CORS,
RGW_OP_OPTIONS_CORS,
RGW_OP_GET_REQUEST_PAYMENT,
RGW_OP_SET_REQUEST_PAYMENT,
RGW_OP_INIT_MULTIPART,
RGW_OP_COMPLETE_MULTIPART,
RGW_OP_ABORT_MULTIPART,
RGW_OP_LIST_MULTIPART,
RGW_OP_LIST_BUCKET_MULTIPARTS,
RGW_OP_DELETE_MULTI_OBJ,
RGW_OP_BULK_DELETE,
RGW_OP_SET_ATTRS,
RGW_OP_GET_CROSS_DOMAIN_POLICY,
RGW_OP_GET_HEALTH_CHECK,
RGW_OP_GET_INFO,
RGW_OP_CREATE_ROLE,
RGW_OP_DELETE_ROLE,
RGW_OP_GET_ROLE,
RGW_OP_MODIFY_ROLE,
RGW_OP_LIST_ROLES,
RGW_OP_PUT_ROLE_POLICY,
RGW_OP_GET_ROLE_POLICY,
RGW_OP_LIST_ROLE_POLICIES,
RGW_OP_DELETE_ROLE_POLICY,
RGW_OP_PUT_BUCKET_POLICY,
RGW_OP_GET_BUCKET_POLICY,
RGW_OP_DELETE_BUCKET_POLICY,
RGW_OP_PUT_OBJ_TAGGING,
RGW_OP_GET_OBJ_TAGGING,
RGW_OP_DELETE_OBJ_TAGGING,
RGW_OP_PUT_LC,
RGW_OP_GET_LC,
RGW_OP_DELETE_LC,
RGW_OP_PUT_USER_POLICY,
RGW_OP_GET_USER_POLICY,
RGW_OP_LIST_USER_POLICIES,
RGW_OP_DELETE_USER_POLICY,
RGW_OP_PUT_BUCKET_OBJ_LOCK,
RGW_OP_GET_BUCKET_OBJ_LOCK,
RGW_OP_PUT_OBJ_RETENTION,
RGW_OP_GET_OBJ_RETENTION,
RGW_OP_PUT_OBJ_LEGAL_HOLD,
RGW_OP_GET_OBJ_LEGAL_HOLD,
/* rgw specific */
RGW_OP_ADMIN_SET_METADATA,
RGW_OP_GET_OBJ_LAYOUT,
RGW_OP_BULK_UPLOAD,
RGW_OP_METADATA_SEARCH,
RGW_OP_CONFIG_BUCKET_META_SEARCH,
RGW_OP_GET_BUCKET_META_SEARCH,
RGW_OP_DEL_BUCKET_META_SEARCH,
/* sts specific*/
RGW_STS_ASSUME_ROLE,
RGW_STS_GET_SESSION_TOKEN,
RGW_STS_ASSUME_ROLE_WEB_IDENTITY,
/* pubsub */
RGW_OP_PUBSUB_TOPIC_CREATE,
RGW_OP_PUBSUB_TOPICS_LIST,
RGW_OP_PUBSUB_TOPIC_GET,
RGW_OP_PUBSUB_TOPIC_DELETE,
RGW_OP_PUBSUB_SUB_CREATE,
RGW_OP_PUBSUB_SUB_GET,
RGW_OP_PUBSUB_SUB_DELETE,
RGW_OP_PUBSUB_SUB_PULL,
RGW_OP_PUBSUB_SUB_ACK,
RGW_OP_PUBSUB_NOTIF_CREATE,
RGW_OP_PUBSUB_NOTIF_DELETE,
RGW_OP_PUBSUB_NOTIF_LIST,
};
class RGWAccessControlPolicy;
class JSONObj;
struct RGWAccessKey {
string id; // AccessKey
string key; // SecretKey
string subuser;
RGWAccessKey() {}
RGWAccessKey(std::string _id, std::string _key)
: id(std::move(_id)), key(std::move(_key)) {}
void encode(bufferlist& bl) const {
ENCODE_START(2, 2, bl);
encode(id, bl);
encode(key, bl);
encode(subuser, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN_32(2, 2, 2, bl);
decode(id, bl);
decode(key, bl);
decode(subuser, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
void dump_plain(Formatter *f) const;
void dump(Formatter *f, const string& user, bool swift) const;
static void generate_test_instances(list<RGWAccessKey*>& o);
void decode_json(JSONObj *obj);
void decode_json(JSONObj *obj, bool swift);
};
WRITE_CLASS_ENCODER(RGWAccessKey)
struct RGWSubUser {
string name;
uint32_t perm_mask;
RGWSubUser() : perm_mask(0) {}
void encode(bufferlist& bl) const {
ENCODE_START(2, 2, bl);
encode(name, bl);
encode(perm_mask, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN_32(2, 2, 2, bl);
decode(name, bl);
decode(perm_mask, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
void dump(Formatter *f, const string& user) const;
static void generate_test_instances(list<RGWSubUser*>& o);
void decode_json(JSONObj *obj);
};
WRITE_CLASS_ENCODER(RGWSubUser)
class RGWUserCaps
{
map<string, uint32_t> caps;
int get_cap(const string& cap, string& type, uint32_t *perm);
int add_cap(const string& cap);
int remove_cap(const string& cap);
public:
static int parse_cap_perm(const string& str, uint32_t *perm);
int add_from_string(const string& str);
int remove_from_string(const string& str);
void encode(bufferlist& bl) const {
ENCODE_START(1, 1, bl);
encode(caps, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START(1, bl);
decode(caps, bl);
DECODE_FINISH(bl);
}
int check_cap(const string& cap, uint32_t perm);
bool is_valid_cap_type(const string& tp);
void dump(Formatter *f) const;
void dump(Formatter *f, const char *name) const;
void decode_json(JSONObj *obj);
};
WRITE_CLASS_ENCODER(RGWUserCaps)
void encode_json(const char *name, const obj_version& v, Formatter *f);
void encode_json(const char *name, const RGWUserCaps& val, Formatter *f);
void decode_json_obj(obj_version& v, JSONObj *obj);
enum RGWIdentityType
{
TYPE_NONE=0,
TYPE_RGW=1,
TYPE_KEYSTONE=2,
TYPE_LDAP=3,
TYPE_ROLE=4,
TYPE_WEB=5,
};
static string RGW_STORAGE_CLASS_STANDARD = "STANDARD";
struct rgw_placement_rule {
std::string name;
std::string storage_class;
rgw_placement_rule() {}
rgw_placement_rule(const string& _n, const string& _sc) : name(_n), storage_class(_sc) {}
rgw_placement_rule(const rgw_placement_rule& _r, const string& _sc) : name(_r.name) {
if (!_sc.empty()) {
storage_class = _sc;
} else {
storage_class = _r.storage_class;
}
}
bool empty() const {
return name.empty() && storage_class.empty();
}
void inherit_from(const rgw_placement_rule& r) {
if (name.empty()) {
name = r.name;
}
if (storage_class.empty()) {
storage_class = r.storage_class;
}
}
void clear() {
name.clear();
storage_class.clear();
}
void init(const string& n, const string& c) {
name = n;
storage_class = c;
}
static const string& get_canonical_storage_class(const string& storage_class) {
if (storage_class.empty()) {
return RGW_STORAGE_CLASS_STANDARD;
}
return storage_class;
}
const string& get_storage_class() const {
return get_canonical_storage_class(storage_class);
}
int compare(const rgw_placement_rule& r) const {
int c = name.compare(r.name);
if (c != 0) {
return c;
}
return get_storage_class().compare(r.get_storage_class());
}
bool operator==(const rgw_placement_rule& r) const {
return (name == r.name &&
get_storage_class() == r.get_storage_class());
}
bool operator!=(const rgw_placement_rule& r) const {
return !(*this == r);
}
void encode(bufferlist& bl) const {
/* no ENCODE_START/END due to backward compatibility */
std::string s = to_str();
ceph::encode(s, bl);
}
void decode(bufferlist::const_iterator& bl) {
std::string s;
ceph::decode(s, bl);
from_str(s);
}
std::string to_str() const {
if (standard_storage_class()) {
return name;
}
return to_str_explicit();
}
std::string to_str_explicit() const {
return name + "/" + storage_class;
}
void from_str(const std::string& s) {
size_t pos = s.find("/");
if (pos == std::string::npos) {
name = s;
storage_class.clear();
return;
}
name = s.substr(0, pos);
storage_class = s.substr(pos + 1);
}
bool standard_storage_class() const {
return storage_class.empty() || storage_class == RGW_STORAGE_CLASS_STANDARD;
}
};
WRITE_CLASS_ENCODER(rgw_placement_rule)
void encode_json(const char *name, const rgw_placement_rule& val, ceph::Formatter *f);
void decode_json_obj(rgw_placement_rule& v, JSONObj *obj);
inline ostream& operator<<(ostream& out, const rgw_placement_rule& rule) {
return out << rule.to_str();
}
struct RGWUserInfo
{
rgw_user user_id;
string display_name;
string user_email;
map<string, RGWAccessKey> access_keys;
map<string, RGWAccessKey> swift_keys;
map<string, RGWSubUser> subusers;
__u8 suspended;
int32_t max_buckets;
uint32_t op_mask;
RGWUserCaps caps;
__u8 admin;
__u8 system;
rgw_placement_rule default_placement;
list<string> placement_tags;
RGWQuotaInfo bucket_quota;
map<int, string> temp_url_keys;
RGWQuotaInfo user_quota;
uint32_t type;
set<string> mfa_ids;
string assumed_role_arn;
RGWUserInfo()
: suspended(0),
max_buckets(RGW_DEFAULT_MAX_BUCKETS),
op_mask(RGW_OP_TYPE_ALL),
admin(0),
system(0),
type(TYPE_NONE) {
}
RGWAccessKey* get_key(const string& access_key) {
if (access_keys.empty())
return nullptr;
auto k = access_keys.find(access_key);
if (k == access_keys.end())
return nullptr;
else
return &(k->second);
}
void encode(bufferlist& bl) const {
ENCODE_START(21, 9, bl);
encode((uint64_t)0, bl); // old auid
string access_key;
string secret_key;
if (!access_keys.empty()) {
map<string, RGWAccessKey>::const_iterator iter = access_keys.begin();
const RGWAccessKey& k = iter->second;
access_key = k.id;
secret_key = k.key;
}
encode(access_key, bl);
encode(secret_key, bl);
encode(display_name, bl);
encode(user_email, bl);
string swift_name;
string swift_key;
if (!swift_keys.empty()) {
map<string, RGWAccessKey>::const_iterator iter = swift_keys.begin();
const RGWAccessKey& k = iter->second;
swift_name = k.id;
swift_key = k.key;
}
encode(swift_name, bl);
encode(swift_key, bl);
encode(user_id.id, bl);
encode(access_keys, bl);
encode(subusers, bl);
encode(suspended, bl);
encode(swift_keys, bl);
encode(max_buckets, bl);
encode(caps, bl);
encode(op_mask, bl);
encode(system, bl);
encode(default_placement, bl);
encode(placement_tags, bl);
encode(bucket_quota, bl);
encode(temp_url_keys, bl);
encode(user_quota, bl);
encode(user_id.tenant, bl);
encode(admin, bl);
encode(type, bl);
encode(mfa_ids, bl);
encode(assumed_role_arn, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN_32(20, 9, 9, bl);
if (struct_v >= 2) {
uint64_t old_auid;
decode(old_auid, bl);
}
string access_key;
string secret_key;
decode(access_key, bl);
decode(secret_key, bl);
if (struct_v < 6) {
RGWAccessKey k;
k.id = access_key;
k.key = secret_key;
access_keys[access_key] = k;
}
decode(display_name, bl);
decode(user_email, bl);
/* We populate swift_keys map later nowadays, but we have to decode. */
string swift_name;
string swift_key;
if (struct_v >= 3) decode(swift_name, bl);
if (struct_v >= 4) decode(swift_key, bl);
if (struct_v >= 5)
decode(user_id.id, bl);
else
user_id.id = access_key;
if (struct_v >= 6) {
decode(access_keys, bl);
decode(subusers, bl);
}
suspended = 0;
if (struct_v >= 7) {
decode(suspended, bl);
}
if (struct_v >= 8) {
decode(swift_keys, bl);
}
if (struct_v >= 10) {
decode(max_buckets, bl);
} else {
max_buckets = RGW_DEFAULT_MAX_BUCKETS;
}
if (struct_v >= 11) {
decode(caps, bl);
}
if (struct_v >= 12) {
decode(op_mask, bl);
} else {
op_mask = RGW_OP_TYPE_ALL;
}
if (struct_v >= 13) {
decode(system, bl);
decode(default_placement, bl);
decode(placement_tags, bl); /* tags of allowed placement rules */
}
if (struct_v >= 14) {
decode(bucket_quota, bl);
}
if (struct_v >= 15) {
decode(temp_url_keys, bl);
}
if (struct_v >= 16) {
decode(user_quota, bl);
}
if (struct_v >= 17) {
decode(user_id.tenant, bl);
} else {
user_id.tenant.clear();
}
if (struct_v >= 18) {
decode(admin, bl);
}
if (struct_v >= 19) {
decode(type, bl);
}
if (struct_v >= 20) {
decode(mfa_ids, bl);
}
if (struct_v >= 21) {
decode(assumed_role_arn, bl);
}
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
static void generate_test_instances(list<RGWUserInfo*>& o);
void decode_json(JSONObj *obj);
};
WRITE_CLASS_ENCODER(RGWUserInfo)
struct rgw_pool {
std::string name;
std::string ns;
rgw_pool() = default;
rgw_pool(const rgw_pool& _p) : name(_p.name), ns(_p.ns) {}
rgw_pool(rgw_pool&&) = default;
rgw_pool(const string& _s) {
from_str(_s);
}
rgw_pool(const string& _name, const string& _ns) : name(_name), ns(_ns) {}
string to_str() const;
void from_str(const string& s);
void init(const string& _s) {
from_str(_s);
}
bool empty() const {
return name.empty();
}
int compare(const rgw_pool& p) const {
int r = name.compare(p.name);
if (r != 0) {
return r;
}
return ns.compare(p.ns);
}
void encode(bufferlist& bl) const {
ENCODE_START(10, 10, bl);
encode(name, bl);
encode(ns, bl);
ENCODE_FINISH(bl);
}
void decode_from_bucket(bufferlist::const_iterator& bl);
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN(10, 3, 3, bl);
decode(name, bl);
if (struct_v < 10) {
/*
* note that rgw_pool can be used where rgw_bucket was used before
* therefore we inherit rgw_bucket's old versions. However, we only
* need the first field from rgw_bucket. unless we add more fields
* in which case we'll need to look at struct_v, and check the actual
* version. Anything older than 10 needs to be treated as old rgw_bucket
*/
} else {
decode(ns, bl);
}
DECODE_FINISH(bl);
}
rgw_pool& operator=(const rgw_pool&) = default;
bool operator==(const rgw_pool& p) const {
return (compare(p) == 0);
}
bool operator!=(const rgw_pool& p) const {
return !(*this == p);
}
bool operator<(const rgw_pool& p) const {
int r = name.compare(p.name);
if (r == 0) {
return (ns.compare(p.ns) < 0);
}
return (r < 0);
}
};
WRITE_CLASS_ENCODER(rgw_pool)
struct rgw_data_placement_target {
rgw_pool data_pool;
rgw_pool data_extra_pool;
rgw_pool index_pool;
rgw_data_placement_target() = default;
rgw_data_placement_target(const rgw_data_placement_target&) = default;
rgw_data_placement_target(rgw_data_placement_target&&) = default;
rgw_data_placement_target(const rgw_pool& data_pool,
const rgw_pool& data_extra_pool,
const rgw_pool& index_pool)
: data_pool(data_pool),
data_extra_pool(data_extra_pool),
index_pool(index_pool) {
}
rgw_data_placement_target&
operator=(const rgw_data_placement_target&) = default;
const rgw_pool& get_data_extra_pool() const {
if (data_extra_pool.empty()) {
return data_pool;
}
return data_extra_pool;
}
int compare(const rgw_data_placement_target& t) {
int c = data_pool.compare(t.data_pool);
if (c != 0) {
return c;
}
c = data_extra_pool.compare(t.data_extra_pool);
if (c != 0) {
return c;
}
return index_pool.compare(t.index_pool);
};
void dump(Formatter *f) const;
void decode_json(JSONObj *obj);
};
inline ostream& operator<<(ostream& out, const rgw_pool& p) {
out << p.to_str();
return out;
}
struct rgw_raw_obj {
rgw_pool pool;
std::string oid;
std::string loc;
rgw_raw_obj() {}
rgw_raw_obj(const rgw_pool& _pool, const std::string& _oid) {
init(_pool, _oid);
}
rgw_raw_obj(const rgw_pool& _pool, const std::string& _oid, const string& _loc) : loc(_loc) {
init(_pool, _oid);
}
void init(const rgw_pool& _pool, const std::string& _oid) {
pool = _pool;
oid = _oid;
}
bool empty() const {
return oid.empty();
}
void encode(bufferlist& bl) const {
ENCODE_START(6, 6, bl);
encode(pool, bl);
encode(oid, bl);
encode(loc, bl);
ENCODE_FINISH(bl);
}
void decode_from_rgw_obj(bufferlist::const_iterator& bl);
void decode(bufferlist::const_iterator& bl) {
unsigned ofs = bl.get_off();
DECODE_START(6, bl);
if (struct_v < 6) {
/*
* this object was encoded as rgw_obj, prior to rgw_raw_obj been split out of it,
* let's decode it as rgw_obj and convert it
*/
bl.seek(ofs);
decode_from_rgw_obj(bl);
return;
}
decode(pool, bl);
decode(oid, bl);
decode(loc, bl);
DECODE_FINISH(bl);
}
bool operator<(const rgw_raw_obj& o) const {
int r = pool.compare(o.pool);
if (r == 0) {
r = oid.compare(o.oid);
if (r == 0) {
r = loc.compare(o.loc);
}
}
return (r < 0);
}
bool operator==(const rgw_raw_obj& o) const {
return (pool == o.pool && oid == o.oid && loc == o.loc);
}
void dump(Formatter *f) const;
void decode_json(JSONObj *obj);
};
WRITE_CLASS_ENCODER(rgw_raw_obj)
inline ostream& operator<<(ostream& out, const rgw_raw_obj& o) {
out << o.pool << ":" << o.oid;
return out;
}
struct rgw_bucket {
std::string tenant;
std::string name;
std::string marker;
std::string bucket_id;
rgw_data_placement_target explicit_placement;
std::string oid; /*
* runtime in-memory only info. If not empty, points to the bucket instance object
*/
rgw_bucket() { }
// cppcheck-suppress noExplicitConstructor
explicit rgw_bucket(const rgw_user& u, const cls_user_bucket& b) :
tenant(u.tenant),
name(b.name),
marker(b.marker),
bucket_id(b.bucket_id),
explicit_placement(b.explicit_placement.data_pool,
b.explicit_placement.data_extra_pool,
b.explicit_placement.index_pool) {}
rgw_bucket(const rgw_bucket&) = default;
rgw_bucket(rgw_bucket&&) = default;
void convert(cls_user_bucket *b) const {
b->name = name;
b->marker = marker;
b->bucket_id = bucket_id;
b->explicit_placement.data_pool = explicit_placement.data_pool.to_str();
b->explicit_placement.data_extra_pool = explicit_placement.data_extra_pool.to_str();
b->explicit_placement.index_pool = explicit_placement.index_pool.to_str();
}
void encode(bufferlist& bl) const {
ENCODE_START(10, 10, bl);
encode(name, bl);
encode(marker, bl);
encode(bucket_id, bl);
encode(tenant, bl);
bool encode_explicit = !explicit_placement.data_pool.empty();
encode(encode_explicit, bl);
if (encode_explicit) {
encode(explicit_placement.data_pool, bl);
encode(explicit_placement.data_extra_pool, bl);
encode(explicit_placement.index_pool, bl);
}
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN(10, 3, 3, bl);
decode(name, bl);
if (struct_v < 10) {
decode(explicit_placement.data_pool.name, bl);
}
if (struct_v >= 2) {
decode(marker, bl);
if (struct_v <= 3) {
uint64_t id;
decode(id, bl);
char buf[16];
snprintf(buf, sizeof(buf), "%" PRIu64, id);
bucket_id = buf;
} else {
decode(bucket_id, bl);
}
}
if (struct_v < 10) {
if (struct_v >= 5) {
decode(explicit_placement.index_pool.name, bl);
} else {
explicit_placement.index_pool = explicit_placement.data_pool;
}
if (struct_v >= 7) {
decode(explicit_placement.data_extra_pool.name, bl);
}
}
if (struct_v >= 8) {
decode(tenant, bl);
}
if (struct_v >= 10) {
bool decode_explicit = !explicit_placement.data_pool.empty();
decode(decode_explicit, bl);
if (decode_explicit) {
decode(explicit_placement.data_pool, bl);
decode(explicit_placement.data_extra_pool, bl);
decode(explicit_placement.index_pool, bl);
}
}
DECODE_FINISH(bl);
}
void update_bucket_id(const string& new_bucket_id) {
bucket_id = new_bucket_id;
oid.clear();
}
// format a key for the bucket/instance. pass delim=0 to skip a field
std::string get_key(char tenant_delim = '/',
char id_delim = ':',
size_t reserve = 0) const;
const rgw_pool& get_data_extra_pool() const {
return explicit_placement.get_data_extra_pool();
}
void dump(Formatter *f) const;
void decode_json(JSONObj *obj);
static void generate_test_instances(list<rgw_bucket*>& o);
rgw_bucket& operator=(const rgw_bucket&) = default;
bool operator<(const rgw_bucket& b) const {
if (tenant == b.tenant) {
return name < b.name;
} else {
return tenant < b.tenant;
}
}
bool operator==(const rgw_bucket& b) const {
return (tenant == b.tenant) && (name == b.name) && \
(bucket_id == b.bucket_id);
}
};
WRITE_CLASS_ENCODER(rgw_bucket)
inline ostream& operator<<(ostream& out, const rgw_bucket &b) {
out << b.name << "[" << b.marker << "]";
return out;
}
struct rgw_bucket_shard {
rgw_bucket bucket;
int shard_id;
rgw_bucket_shard() : shard_id(-1) {}
rgw_bucket_shard(const rgw_bucket& _b, int _sid) : bucket(_b), shard_id(_sid) {}
std::string get_key(char tenant_delim = '/', char id_delim = ':',
char shard_delim = ':') const;
bool operator<(const rgw_bucket_shard& b) const {
if (bucket < b.bucket) {
return true;
}
if (b.bucket < bucket) {
return false;
}
return shard_id < b.shard_id;
}
};
struct RGWObjVersionTracker {
obj_version read_version;
obj_version write_version;
obj_version *version_for_read() {
return &read_version;
}
obj_version *version_for_write() {
if (write_version.ver == 0)
return NULL;
return &write_version;
}
obj_version *version_for_check() {
if (read_version.ver == 0)
return NULL;
return &read_version;
}
void prepare_op_for_read(librados::ObjectReadOperation *op);
void prepare_op_for_write(librados::ObjectWriteOperation *op);
void apply_write();
void clear() {
read_version = obj_version();
write_version = obj_version();
}
void generate_new_write_ver(CephContext *cct);
};
inline ostream& operator<<(ostream& out, const obj_version &v)
{
out << v.tag << ":" << v.ver;
return out;
}
inline ostream& operator<<(ostream& out, const RGWObjVersionTracker &ot)
{
out << "{r=" << ot.read_version << ",w=" << ot.write_version << "}";
return out;
}
enum RGWBucketFlags {
BUCKET_SUSPENDED = 0x1,
BUCKET_VERSIONED = 0x2,
BUCKET_VERSIONS_SUSPENDED = 0x4,
BUCKET_DATASYNC_DISABLED = 0X8,
BUCKET_MFA_ENABLED = 0X10,
BUCKET_OBJ_LOCK_ENABLED = 0X20,
};
enum RGWBucketIndexType {
RGWBIType_Normal = 0,
RGWBIType_Indexless = 1,
};
inline ostream& operator<<(ostream& out, const RGWBucketIndexType &index_type)
{
switch (index_type) {
case RGWBIType_Normal:
return out << "Normal";
case RGWBIType_Indexless:
return out << "Indexless";
default:
return out << "Unknown";
}
}
struct RGWBucketInfo {
enum BIShardsHashType {
MOD = 0
};
rgw_bucket bucket;
rgw_user owner;
uint32_t flags;
string zonegroup;
ceph::real_time creation_time;
rgw_placement_rule placement_rule;
bool has_instance_obj;
RGWObjVersionTracker objv_tracker; /* we don't need to serialize this, for runtime tracking */
obj_version ep_objv; /* entry point object version, for runtime tracking only */
RGWQuotaInfo quota;
// Represents the number of bucket index object shards:
// - value of 0 indicates there is no sharding (this is by default before this
// feature is implemented).
// - value of UINT32_T::MAX indicates this is a blind bucket.
uint32_t num_shards;
// Represents the bucket index shard hash type.
uint8_t bucket_index_shard_hash_type;
// Represents the shard number for blind bucket.
const static uint32_t NUM_SHARDS_BLIND_BUCKET;
bool requester_pays;
bool has_website;
RGWBucketWebsiteConf website_conf;
RGWBucketIndexType index_type = RGWBIType_Normal;
bool swift_versioning;
string swift_ver_location;
map<string, uint32_t> mdsearch_config;
/* resharding */
uint8_t reshard_status;
string new_bucket_instance_id;
RGWObjectLock obj_lock;
void encode(bufferlist& bl) const {
ENCODE_START(20, 4, bl);
encode(bucket, bl);
encode(owner.id, bl);
encode(flags, bl);
encode(zonegroup, bl);
uint64_t ct = real_clock::to_time_t(creation_time);
encode(ct, bl);
encode(placement_rule, bl);
encode(has_instance_obj, bl);
encode(quota, bl);
encode(num_shards, bl);
encode(bucket_index_shard_hash_type, bl);
encode(requester_pays, bl);
encode(owner.tenant, bl);
encode(has_website, bl);
if (has_website) {
encode(website_conf, bl);
}
encode((uint32_t)index_type, bl);
encode(swift_versioning, bl);
if (swift_versioning) {
encode(swift_ver_location, bl);
}
encode(creation_time, bl);
encode(mdsearch_config, bl);
encode(reshard_status, bl);
encode(new_bucket_instance_id, bl);
if (obj_lock_enabled()) {
encode(obj_lock, bl);
}
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN_32(20, 4, 4, bl);
decode(bucket, bl);
if (struct_v >= 2) {
string s;
decode(s, bl);
owner.from_str(s);
}
if (struct_v >= 3)
decode(flags, bl);
if (struct_v >= 5)
decode(zonegroup, bl);
if (struct_v >= 6) {
uint64_t ct;
decode(ct, bl);
if (struct_v < 17)
creation_time = ceph::real_clock::from_time_t((time_t)ct);
}
if (struct_v >= 7)
decode(placement_rule, bl);
if (struct_v >= 8)
decode(has_instance_obj, bl);
if (struct_v >= 9)
decode(quota, bl);
if (struct_v >= 10)
decode(num_shards, bl);
if (struct_v >= 11)
decode(bucket_index_shard_hash_type, bl);
if (struct_v >= 12)
decode(requester_pays, bl);
if (struct_v >= 13)
decode(owner.tenant, bl);
if (struct_v >= 14) {
decode(has_website, bl);
if (has_website) {
decode(website_conf, bl);
} else {
website_conf = RGWBucketWebsiteConf();
}
}
if (struct_v >= 15) {
uint32_t it;
decode(it, bl);
index_type = (RGWBucketIndexType)it;
} else {
index_type = RGWBIType_Normal;
}
swift_versioning = false;
swift_ver_location.clear();
if (struct_v >= 16) {
decode(swift_versioning, bl);
if (swift_versioning) {
decode(swift_ver_location, bl);
}
}
if (struct_v >= 17) {
decode(creation_time, bl);
}
if (struct_v >= 18) {
decode(mdsearch_config, bl);
}
if (struct_v >= 19) {
decode(reshard_status, bl);
decode(new_bucket_instance_id, bl);
}
if (struct_v >= 20 && obj_lock_enabled()) {
decode(obj_lock, bl);
}
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
static void generate_test_instances(list<RGWBucketInfo*>& o);
void decode_json(JSONObj *obj);
bool versioned() const { return (flags & BUCKET_VERSIONED) != 0; }
int versioning_status() const { return flags & (BUCKET_VERSIONED | BUCKET_VERSIONS_SUSPENDED | BUCKET_MFA_ENABLED); }
bool versioning_enabled() const { return (versioning_status() & (BUCKET_VERSIONED | BUCKET_VERSIONS_SUSPENDED)) == BUCKET_VERSIONED; }
bool mfa_enabled() const { return (versioning_status() & BUCKET_MFA_ENABLED) != 0; }
bool datasync_flag_enabled() const { return (flags & BUCKET_DATASYNC_DISABLED) == 0; }
bool obj_lock_enabled() const { return (flags & BUCKET_OBJ_LOCK_ENABLED) != 0; }
bool has_swift_versioning() const {
/* A bucket may be versioned through one mechanism only. */
return swift_versioning && !versioned();
}
RGWBucketInfo() : flags(0), has_instance_obj(false), num_shards(0), bucket_index_shard_hash_type(MOD), requester_pays(false),
has_website(false), swift_versioning(false), reshard_status(0) {}
};
WRITE_CLASS_ENCODER(RGWBucketInfo)
struct RGWBucketEntryPoint
{
rgw_bucket bucket;
rgw_user owner;
ceph::real_time creation_time;
bool linked;
bool has_bucket_info;
RGWBucketInfo old_bucket_info;
RGWBucketEntryPoint() : linked(false), has_bucket_info(false) {}
void encode(bufferlist& bl) const {
ENCODE_START(10, 8, bl);
encode(bucket, bl);
encode(owner.id, bl);
encode(linked, bl);
uint64_t ctime = (uint64_t)real_clock::to_time_t(creation_time);
encode(ctime, bl);
encode(owner, bl);
encode(creation_time, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
auto orig_iter = bl;
DECODE_START_LEGACY_COMPAT_LEN_32(10, 4, 4, bl);
if (struct_v < 8) {
/* ouch, old entry, contains the bucket info itself */
old_bucket_info.decode(orig_iter);
has_bucket_info = true;
return;
}
has_bucket_info = false;
decode(bucket, bl);
decode(owner.id, bl);
decode(linked, bl);
uint64_t ctime;
decode(ctime, bl);
if (struct_v < 10) {
creation_time = real_clock::from_time_t((time_t)ctime);
}
if (struct_v >= 9) {
decode(owner, bl);
}
if (struct_v >= 10) {
decode(creation_time, bl);
}
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
void decode_json(JSONObj *obj);
};
WRITE_CLASS_ENCODER(RGWBucketEntryPoint)
struct RGWStorageStats
{
RGWObjCategory category;
uint64_t size;
uint64_t size_rounded;
uint64_t size_utilized{0}; //< size after compression, encryption
uint64_t num_objects;
RGWStorageStats()
: category(RGWObjCategory::None),
size(0),
size_rounded(0),
num_objects(0) {}
void dump(Formatter *f) const;
};
class RGWEnv;
/* Namespaced forward declarations. */
namespace rgw {
namespace auth {
namespace s3 {
class AWSBrowserUploadAbstractor;
}
class Completer;
}
namespace io {
class BasicClient;
}
}
using meta_map_t = boost::container::flat_map <std::string, std::string>;
struct req_info {
const RGWEnv *env;
RGWHTTPArgs args;
meta_map_t x_meta_map;
string host;
const char *method;
string script_uri;
string request_uri;
string request_uri_aws4;
string effective_uri;
string request_params;
string domain;
string storage_class;
req_info(CephContext *cct, const RGWEnv *env);
void rebuild_from(req_info& src);
void init_meta_info(bool *found_bad_meta);
};
typedef cls_rgw_obj_key rgw_obj_index_key;
struct rgw_obj_key {
string name;
string instance;
string ns;
rgw_obj_key() {}
// cppcheck-suppress noExplicitConstructor
rgw_obj_key(const string& n) : name(n) {}
rgw_obj_key(const string& n, const string& i) : name(n), instance(i) {}
rgw_obj_key(const string& n, const string& i, const string& _ns) : name(n), instance(i), ns(_ns) {}
rgw_obj_key(const rgw_obj_index_key& k) {
parse_index_key(k.name, &name, &ns);
instance = k.instance;
}
// Since bucket index entries are stored in sequence, and the elements
// with namespaces can be between those without, we need a way to skip
// past namespaced elements; this returns a marker that will do so.
//
// Consider the following sequence: ASP, _BAT_cat, __DOG, _eel_FOX,
// goat; the 2nd and 4th entries are namespaced, but the 3rd is not,
// it's just an entry that begins with an underscore, which will be
// quoted with another underscore putting it between two potential
// namespaced blocks
static const rgw_obj_index_key& after_namespace_marker(const std::string& after) {
// this is just before "__", so will allow finding non-namespaced
// entries that begin with an underscore (and therefore are entered
// as starting with "__".
static const rgw_obj_index_key result1(std::string("_^") + char(255));
// this is just before entries that do not begin with an
// underscore and will allow skipping past the second namespace
// block
static const rgw_obj_index_key result2(std::string("_") + char(255));
if (after < result1.name) {
return result1;
} else {
return result2;
}
}
static void parse_index_key(const string& key, string *name, string *ns) {
if (key[0] != '_') {
*name = key;
ns->clear();
return;
}
if (key[1] == '_') {
*name = key.substr(1);
ns->clear();
return;
}
ssize_t pos = key.find('_', 1);
if (pos < 0) {
/* shouldn't happen, just use key */
*name = key;
ns->clear();
return;
}
*name = key.substr(pos + 1);
*ns = key.substr(1, pos -1);
}
void set(const string& n) {
name = n;
instance.clear();
ns.clear();
}
void set(const string& n, const string& i) {
name = n;
instance = i;
ns.clear();
}
void set(const string& n, const string& i, const string& _ns) {
name = n;
instance = i;
ns = _ns;
}
bool set(const rgw_obj_index_key& index_key) {
if (!parse_raw_oid(index_key.name, this)) {
return false;
}
instance = index_key.instance;
return true;
}
void set_instance(const string& i) {
instance = i;
}
const string& get_instance() const {
return instance;
}
void set_ns(const std::string& _ns) {
ns = _ns;
}
const std::string& get_ns() const {
return ns;
}
string get_index_key_name() const {
if (ns.empty()) {
if (name.size() < 1 || name[0] != '_') {
return name;
}
return string("_") + name;
};
char buf[ns.size() + 16];
snprintf(buf, sizeof(buf), "_%s_", ns.c_str());
return string(buf) + name;
};
void get_index_key(rgw_obj_index_key *key) const {
key->name = get_index_key_name();
key->instance = instance;
}
string get_loc() const {
/*
* For backward compatibility. Older versions used to have object locator on all objects,
* however, the name was the effective object locator. This had the same effect as not
* having object locator at all for most objects but the ones that started with underscore as
* these were escaped.
*/
if (name[0] == '_' && ns.empty()) {
return name;
}
return string();
}
bool empty() const {
return name.empty();
}
bool have_null_instance() const {
return instance == "null";
}
bool have_instance() const {
return !instance.empty();
}
bool need_to_encode_instance() const {
return have_instance() && !have_null_instance();
}
string get_oid() const {
if (ns.empty() && !need_to_encode_instance()) {
if (name.size() < 1 || name[0] != '_') {
return name;
}
return string("_") + name;
}
string oid = "_";
oid.append(ns);
if (need_to_encode_instance()) {
oid.append(string(":") + instance);
}
oid.append("_");
oid.append(name);
return oid;
}
bool operator==(const rgw_obj_key& k) const {
return (name.compare(k.name) == 0) &&
(instance.compare(k.instance) == 0);
}
bool operator<(const rgw_obj_key& k) const {
int r = name.compare(k.name);
if (r == 0) {
r = instance.compare(k.instance);
}
return (r < 0);
}
bool operator<=(const rgw_obj_key& k) const {
return !(k < *this);
}
static void parse_ns_field(string& ns, string& instance) {
int pos = ns.find(':');
if (pos >= 0) {
instance = ns.substr(pos + 1);
ns = ns.substr(0, pos);
} else {
instance.clear();
}
}
// takes an oid and parses out the namespace (ns), name, and
// instance
static bool parse_raw_oid(const string& oid, rgw_obj_key *key) {
key->instance.clear();
key->ns.clear();
if (oid[0] != '_') {
key->name = oid;
return true;
}
if (oid.size() >= 2 && oid[1] == '_') {
key->name = oid.substr(1);
return true;
}
if (oid.size() < 3) // for namespace, min size would be 3: _x_
return false;
size_t pos = oid.find('_', 2); // oid must match ^_[^_].+$
if (pos == string::npos)
return false;
key->ns = oid.substr(1, pos - 1);
parse_ns_field(key->ns, key->instance);
key->name = oid.substr(pos + 1);
return true;
}
/**
* Translate a namespace-mangled object name to the user-facing name
* existing in the given namespace.
*
* If the object is part of the given namespace, it returns true
* and cuts down the name to the unmangled version. If it is not
* part of the given namespace, it returns false.
*/
static bool oid_to_key_in_ns(const string& oid, rgw_obj_key *key, const string& ns) {
bool ret = parse_raw_oid(oid, key);
if (!ret) {
return ret;
}
return (ns == key->ns);
}
/**
* Given a mangled object name and an empty namespace string, this
* function extracts the namespace into the string and sets the object
* name to be the unmangled version.
*
* It returns true after successfully doing so, or
* false if it fails.
*/
static bool strip_namespace_from_name(string& name, string& ns, string& instance) {
ns.clear();
instance.clear();
if (name[0] != '_') {
return true;
}
size_t pos = name.find('_', 1);
if (pos == string::npos) {
return false;
}
if (name[1] == '_') {
name = name.substr(1);
return true;
}
size_t period_pos = name.find('.');
if (period_pos < pos) {
return false;
}
ns = name.substr(1, pos-1);
name = name.substr(pos+1, string::npos);
parse_ns_field(ns, instance);
return true;
}
void encode(bufferlist& bl) const {
ENCODE_START(2, 1, bl);
encode(name, bl);
encode(instance, bl);
encode(ns, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START(2, bl);
decode(name, bl);
decode(instance, bl);
if (struct_v >= 2) {
decode(ns, bl);
}
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
void decode_json(JSONObj *obj);
string to_str() const {
if (instance.empty()) {
return name;
}
char buf[name.size() + instance.size() + 16];
snprintf(buf, sizeof(buf), "%s[%s]", name.c_str(), instance.c_str());
return buf;
}
};
WRITE_CLASS_ENCODER(rgw_obj_key)
inline ostream& operator<<(ostream& out, const rgw_obj_key &o) {
return out << o.to_str();
}
inline ostream& operator<<(ostream& out, const rgw_obj_index_key &o) {
if (o.instance.empty()) {
return out << o.name;
} else {
return out << o.name << "[" << o.instance << "]";
}
}
struct req_init_state {
/* Keeps [[tenant]:]bucket until we parse the token. */
string url_bucket;
string src_bucket;
};
#include "rgw_auth.h"
class RGWObjectCtx;
class RGWSysObjectCtx;
/** Store all the state necessary to complete and respond to an HTTP request*/
struct req_state : DoutPrefixProvider {
CephContext *cct;
rgw::io::BasicClient *cio{nullptr};
http_op op{OP_UNKNOWN};
RGWOpType op_type{};
bool content_started{false};
int format{0};
ceph::Formatter *formatter{nullptr};
string decoded_uri;
string relative_uri;
const char *length{nullptr};
int64_t content_length{0};
map<string, string> generic_attrs;
rgw_err err;
bool expect_cont{false};
uint64_t obj_size{0};
bool enable_ops_log;
bool enable_usage_log;
uint8_t defer_to_bucket_acls;
uint32_t perm_mask{0};
/* Set once when url_bucket is parsed and not violated thereafter. */
string account_name;
string bucket_tenant;
string bucket_name;
rgw_bucket bucket;
rgw_obj_key object;
string src_tenant_name;
string src_bucket_name;
rgw_obj_key src_object;
ACLOwner bucket_owner;
ACLOwner owner;
string zonegroup_name;
string zonegroup_endpoint;
string bucket_instance_id;
int bucket_instance_shard_id{-1};
string redirect_zone_endpoint;
string redirect;
RGWBucketInfo bucket_info;
real_time bucket_mtime;
std::map<std::string, ceph::bufferlist> bucket_attrs;
bool bucket_exists{false};
rgw_placement_rule dest_placement;
bool has_bad_meta{false};
RGWUserInfo *user;
struct {
/* TODO(rzarzynski): switch out to the static_ptr for both members. */
/* Object having the knowledge about an authenticated identity and allowing
* to apply it during the authorization phase (verify_permission() methods
* of a given RGWOp). Thus, it bounds authentication and authorization steps
* through a well-defined interface. For more details, see rgw_auth.h. */
std::unique_ptr<rgw::auth::Identity> identity;
std::shared_ptr<rgw::auth::Completer> completer;
/* A container for credentials of the S3's browser upload. It's necessary
* because: 1) the ::authenticate() method of auth engines and strategies
* take req_state only; 2) auth strategies live much longer than RGWOps -
* there is no way to pass additional data dependencies through ctors. */
class {
/* Writer. */
friend class RGWPostObj_ObjStore_S3;
/* Reader. */
friend class rgw::auth::s3::AWSBrowserUploadAbstractor;
std::string access_key;
std::string signature;
std::string x_amz_algorithm;
std::string x_amz_credential;
std::string x_amz_date;
std::string x_amz_security_token;
ceph::bufferlist encoded_policy;
} s3_postobj_creds;
} auth;
std::unique_ptr<RGWAccessControlPolicy> user_acl;
std::unique_ptr<RGWAccessControlPolicy> bucket_acl;
std::unique_ptr<RGWAccessControlPolicy> object_acl;
rgw::IAM::Environment env;
boost::optional<rgw::IAM::Policy> iam_policy;
vector<rgw::IAM::Policy> iam_user_policies;
/* Is the request made by an user marked as a system one?
* Being system user means we also have the admin status. */
bool system_request{false};
string canned_acl;
bool has_acl_header{false};
bool local_source{false}; /* source is local */
int prot_flags{0};
/* Content-Disposition override for TempURL of Swift API. */
struct {
string override;
string fallback;
} content_disp;
string host_id;
req_info info;
req_init_state init_state;
using Clock = ceph::coarse_real_clock;
Clock::time_point time;
Clock::duration time_elapsed() const { return Clock::now() - time; }
RGWObjectCtx *obj_ctx{nullptr};
RGWSysObjectCtx *sysobj_ctx{nullptr};
string dialect;
string req_id;
string trans_id;
uint64_t id;
RGWObjTags tagset;
bool mfa_verified{false};
/// optional coroutine context
optional_yield yield{null_yield};
req_state(CephContext* _cct, RGWEnv* e, RGWUserInfo* u, uint64_t id);
~req_state();
bool is_err() const { return err.is_err(); }
// implements DoutPrefixProvider
std::ostream& gen_prefix(std::ostream& out) const override;
CephContext* get_cct() const override { return cct; }
unsigned get_subsys() const override { return ceph_subsys_rgw; }
};
void set_req_state_err(struct req_state*, int);
void set_req_state_err(struct req_state*, int, const string&);
void set_req_state_err(struct rgw_err&, int, const int);
void dump(struct req_state*);
/** Store basic data on bucket */
struct RGWBucketEnt {
rgw_bucket bucket;
size_t size;
size_t size_rounded;
ceph::real_time creation_time;
uint64_t count;
/* The placement_rule is necessary to calculate per-storage-policy statics
* of the Swift API. Although the info available in RGWBucketInfo, we need
* to duplicate it here to not affect the performance of buckets listing. */
rgw_placement_rule placement_rule;
RGWBucketEnt()
: size(0),
size_rounded(0),
count(0) {
}
RGWBucketEnt(const RGWBucketEnt&) = default;
RGWBucketEnt(RGWBucketEnt&&) = default;
explicit RGWBucketEnt(const rgw_user& u, cls_user_bucket_entry&& e)
: bucket(u, std::move(e.bucket)),
size(e.size),
size_rounded(e.size_rounded),
creation_time(e.creation_time),
count(e.count) {
}
RGWBucketEnt& operator=(const RGWBucketEnt&) = default;
void convert(cls_user_bucket_entry *b) const {
bucket.convert(&b->bucket);
b->size = size;
b->size_rounded = size_rounded;
b->creation_time = creation_time;
b->count = count;
}
void encode(bufferlist& bl) const {
ENCODE_START(7, 5, bl);
uint64_t s = size;
__u32 mt = ceph::real_clock::to_time_t(creation_time);
string empty_str; // originally had the bucket name here, but we encode bucket later
encode(empty_str, bl);
encode(s, bl);
encode(mt, bl);
encode(count, bl);
encode(bucket, bl);
s = size_rounded;
encode(s, bl);
encode(creation_time, bl);
encode(placement_rule, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN(7, 5, 5, bl);
__u32 mt;
uint64_t s;
string empty_str; // backward compatibility
decode(empty_str, bl);
decode(s, bl);
decode(mt, bl);
size = s;
if (struct_v < 6) {
creation_time = ceph::real_clock::from_time_t(mt);
}
if (struct_v >= 2)
decode(count, bl);
if (struct_v >= 3)
decode(bucket, bl);
if (struct_v >= 4)
decode(s, bl);
size_rounded = s;
if (struct_v >= 6)
decode(creation_time, bl);
if (struct_v >= 7)
decode(placement_rule, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
static void generate_test_instances(list<RGWBucketEnt*>& o);
};
WRITE_CLASS_ENCODER(RGWBucketEnt)
struct rgw_obj {
rgw_bucket bucket;
rgw_obj_key key;
bool in_extra_data{false}; /* in-memory only member, does not serialize */
// Represents the hash index source for this object once it is set (non-empty)
std::string index_hash_source;
rgw_obj() {}
rgw_obj(const rgw_bucket& b, const std::string& name) : bucket(b), key(name) {}
rgw_obj(const rgw_bucket& b, const rgw_obj_key& k) : bucket(b), key(k) {}
rgw_obj(const rgw_bucket& b, const rgw_obj_index_key& k) : bucket(b), key(k) {}
void init(const rgw_bucket& b, const std::string& name) {
bucket = b;
key.set(name);
}
void init(const rgw_bucket& b, const std::string& name, const string& i, const string& n) {
bucket = b;
key.set(name, i, n);
}
void init_ns(const rgw_bucket& b, const std::string& name, const string& n) {
bucket = b;
key.name = name;
key.instance.clear();
key.ns = n;
}
bool empty() const {
return key.empty();
}
void set_key(const rgw_obj_key& k) {
key = k;
}
string get_oid() const {
return key.get_oid();
}
const string& get_hash_object() const {
return index_hash_source.empty() ? key.name : index_hash_source;
}
void set_in_extra_data(bool val) {
in_extra_data = val;
}
bool is_in_extra_data() const {
return in_extra_data;
}
void encode(bufferlist& bl) const {
ENCODE_START(6, 6, bl);
encode(bucket, bl);
encode(key.ns, bl);
encode(key.name, bl);
encode(key.instance, bl);
// encode(placement_id, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN(6, 3, 3, bl);
if (struct_v < 6) {
string s;
decode(bucket.name, bl); /* bucket.name */
decode(s, bl); /* loc */
decode(key.ns, bl);
decode(key.name, bl);
if (struct_v >= 2)
decode(bucket, bl);
if (struct_v >= 4)
decode(key.instance, bl);
if (key.ns.empty() && key.instance.empty()) {
if (key.name[0] == '_') {
key.name = key.name.substr(1);
}
} else {
if (struct_v >= 5) {
decode(key.name, bl);
} else {
ssize_t pos = key.name.find('_', 1);
if (pos < 0) {
throw buffer::error();
}
key.name = key.name.substr(pos + 1);
}
}
} else {
decode(bucket, bl);
decode(key.ns, bl);
decode(key.name, bl);
decode(key.instance, bl);
// decode(placement_id, bl);
}
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
static void generate_test_instances(list<rgw_obj*>& o);
bool operator==(const rgw_obj& o) const {
return (key == o.key) &&
(bucket == o.bucket);
}
bool operator<(const rgw_obj& o) const {
int r = key.name.compare(o.key.name);
if (r == 0) {
r = bucket.bucket_id.compare(o.bucket.bucket_id); /* not comparing bucket.name, if bucket_id is equal so will be bucket.name */
if (r == 0) {
r = key.ns.compare(o.key.ns);
if (r == 0) {
r = key.instance.compare(o.key.instance);
}
}
}
return (r < 0);
}
const rgw_pool& get_explicit_data_pool() {
if (!in_extra_data || bucket.explicit_placement.data_extra_pool.empty()) {
return bucket.explicit_placement.data_pool;
}
return bucket.explicit_placement.data_extra_pool;
}
};
WRITE_CLASS_ENCODER(rgw_obj)
struct rgw_cache_entry_info {
string cache_locator;
uint64_t gen;
rgw_cache_entry_info() : gen(0) {}
};
inline ostream& operator<<(ostream& out, const rgw_obj &o) {
return out << o.bucket.name << ":" << o.get_oid();
}
static inline void buf_to_hex(const unsigned char* const buf,
const size_t len,
char* const str)
{
str[0] = '\0';
for (size_t i = 0; i < len; i++) {
::sprintf(&str[i*2], "%02x", static_cast<int>(buf[i]));
}
}
template<size_t N> static inline std::array<char, N * 2 + 1>
buf_to_hex(const std::array<unsigned char, N>& buf)
{
static_assert(N > 0, "The input array must be at least one element long");
std::array<char, N * 2 + 1> hex_dest;
buf_to_hex(buf.data(), N, hex_dest.data());
return hex_dest;
}
static inline int hexdigit(char c)
{
if (c >= '0' && c <= '9')
return (c - '0');
c = toupper(c);
if (c >= 'A' && c <= 'F')
return c - 'A' + 0xa;
return -EINVAL;
}
static inline int hex_to_buf(const char *hex, char *buf, int len)
{
int i = 0;
const char *p = hex;
while (*p) {
if (i >= len)
return -EINVAL;
buf[i] = 0;
int d = hexdigit(*p);
if (d < 0)
return d;
buf[i] = d << 4;
p++;
if (!*p)
return -EINVAL;
d = hexdigit(*p);
if (d < 0)
return d;
buf[i] += d;
i++;
p++;
}
return i;
}
static inline int rgw_str_to_bool(const char *s, int def_val)
{
if (!s)
return def_val;
return (strcasecmp(s, "true") == 0 ||
strcasecmp(s, "on") == 0 ||
strcasecmp(s, "yes") == 0 ||
strcasecmp(s, "1") == 0);
}
static inline void append_rand_alpha(CephContext *cct, const string& src, string& dest, int len)
{
dest = src;
char buf[len + 1];
gen_rand_alphanumeric(cct, buf, len);
dest.append("_");
dest.append(buf);
}
static inline const char *rgw_obj_category_name(RGWObjCategory category)
{
switch (category) {
case RGWObjCategory::None:
return "rgw.none";
case RGWObjCategory::Main:
return "rgw.main";
case RGWObjCategory::Shadow:
return "rgw.shadow";
case RGWObjCategory::MultiMeta:
return "rgw.multimeta";
}
return "unknown";
}
static inline uint64_t rgw_rounded_kb(uint64_t bytes)
{
return (bytes + 1023) / 1024;
}
static inline uint64_t rgw_rounded_objsize(uint64_t bytes)
{
return ((bytes + 4095) & ~4095);
}
static inline uint64_t rgw_rounded_objsize_kb(uint64_t bytes)
{
return ((bytes + 4095) & ~4095) / 1024;
}
/* implement combining step, S3 header canonicalization; k is a
* valid header and in lc form */
static inline void add_amz_meta_header(
meta_map_t& x_meta_map,
const std::string& k,
const std::string& v)
{
auto it = x_meta_map.find(k);
if (it != x_meta_map.end()) {
std::string old = it->second;
boost::algorithm::trim_right(old);
old.append(",");
old.append(v);
x_meta_map[k] = old;
} else {
x_meta_map[k] = v;
}
} /* add_amz_meta_header */
extern string rgw_string_unquote(const string& s);
extern void parse_csv_string(const string& ival, vector<string>& ovals);
extern int parse_key_value(string& in_str, string& key, string& val);
extern int parse_key_value(string& in_str, const char *delim, string& key, string& val);
extern boost::optional<std::pair<boost::string_view, boost::string_view>>
parse_key_value(const boost::string_view& in_str,
const boost::string_view& delim);
extern boost::optional<std::pair<boost::string_view, boost::string_view>>
parse_key_value(const boost::string_view& in_str);
/** time parsing */
extern int parse_time(const char *time_str, real_time *time);
extern bool parse_rfc2616(const char *s, struct tm *t);
extern bool parse_iso8601(const char *s, struct tm *t, uint32_t *pns = NULL, bool extended_format = true);
extern string rgw_trim_whitespace(const string& src);
extern boost::string_view rgw_trim_whitespace(const boost::string_view& src);
extern string rgw_trim_quotes(const string& val);
extern void rgw_to_iso8601(const real_time& t, char *dest, int buf_size);
extern void rgw_to_iso8601(const real_time& t, string *dest);
extern std::string rgw_to_asctime(const utime_t& t);
/** Check if the req_state's user has the necessary permissions
* to do the requested action */
rgw::IAM::Effect eval_user_policies(const vector<rgw::IAM::Policy>& user_policies,
const rgw::IAM::Environment& env,
boost::optional<const rgw::auth::Identity&> id,
const uint64_t op,
const rgw::ARN& arn);
bool verify_user_permission(const DoutPrefixProvider* dpp,
struct req_state * const s,
RGWAccessControlPolicy * const user_acl,
const vector<rgw::IAM::Policy>& user_policies,
const rgw::ARN& res,
const uint64_t op);
bool verify_user_permission_no_policy(const DoutPrefixProvider* dpp,
struct req_state * const s,
RGWAccessControlPolicy * const user_acl,
const int perm);
bool verify_user_permission(const DoutPrefixProvider* dpp,
struct req_state * const s,
const rgw::ARN& res,
const uint64_t op);
bool verify_user_permission_no_policy(const DoutPrefixProvider* dpp,
struct req_state * const s,
int perm);
bool verify_bucket_permission(
const DoutPrefixProvider* dpp,
struct req_state * const s,
const rgw_bucket& bucket,
RGWAccessControlPolicy * const user_acl,
RGWAccessControlPolicy * const bucket_acl,
const boost::optional<rgw::IAM::Policy>& bucket_policy,
const vector<rgw::IAM::Policy>& user_policies,
const uint64_t op);
bool verify_bucket_permission(const DoutPrefixProvider* dpp, struct req_state * const s, const uint64_t op);
bool verify_bucket_permission_no_policy(
const DoutPrefixProvider* dpp,
struct req_state * const s,
RGWAccessControlPolicy * const user_acl,
RGWAccessControlPolicy * const bucket_acl,
const int perm);
bool verify_bucket_permission_no_policy(const DoutPrefixProvider* dpp,
struct req_state * const s,
const int perm);
int verify_bucket_owner_or_policy(struct req_state* const s,
const uint64_t op);
extern bool verify_object_permission(
const DoutPrefixProvider* dpp,
struct req_state * const s,
const rgw_obj& obj,
RGWAccessControlPolicy * const user_acl,
RGWAccessControlPolicy * const bucket_acl,
RGWAccessControlPolicy * const object_acl,
const boost::optional<rgw::IAM::Policy>& bucket_policy,
const vector<rgw::IAM::Policy>& user_policies,
const uint64_t op);
extern bool verify_object_permission(const DoutPrefixProvider* dpp, struct req_state *s, uint64_t op);
extern bool verify_object_permission_no_policy(
const DoutPrefixProvider* dpp,
struct req_state * const s,
RGWAccessControlPolicy * const user_acl,
RGWAccessControlPolicy * const bucket_acl,
RGWAccessControlPolicy * const object_acl,
int perm);
extern bool verify_object_permission_no_policy(const DoutPrefixProvider* dpp, struct req_state *s,
int perm);
/** Convert an input URL into a sane object name
* by converting %-escaped strings into characters, etc*/
extern void rgw_uri_escape_char(char c, string& dst);
extern std::string url_decode(const boost::string_view& src_str,
bool in_query = false);
extern void url_encode(const std::string& src, string& dst,
bool encode_slash = true);
extern std::string url_encode(const std::string& src, bool encode_slash = true);
/* destination should be CEPH_CRYPTO_HMACSHA1_DIGESTSIZE bytes long */
extern void calc_hmac_sha1(const char *key, int key_len,
const char *msg, int msg_len, char *dest);
static inline sha1_digest_t
calc_hmac_sha1(const boost::string_view& key, const boost::string_view& msg) {
sha1_digest_t dest;
calc_hmac_sha1(key.data(), key.size(), msg.data(), msg.size(),
reinterpret_cast<char*>(dest.v));
return dest;
}
/* destination should be CEPH_CRYPTO_HMACSHA256_DIGESTSIZE bytes long */
extern void calc_hmac_sha256(const char *key, int key_len,
const char *msg, int msg_len,
char *dest);
static inline sha256_digest_t
calc_hmac_sha256(const char *key, const int key_len,
const char *msg, const int msg_len) {
sha256_digest_t dest;
calc_hmac_sha256(key, key_len, msg, msg_len,
reinterpret_cast<char*>(dest.v));
return dest;
}
static inline sha256_digest_t
calc_hmac_sha256(const boost::string_view& key, const boost::string_view& msg) {
sha256_digest_t dest;
calc_hmac_sha256(key.data(), key.size(),
msg.data(), msg.size(),
reinterpret_cast<char*>(dest.v));
return dest;
}
static inline sha256_digest_t
calc_hmac_sha256(const sha256_digest_t &key,
const boost::string_view& msg) {
sha256_digest_t dest;
calc_hmac_sha256(reinterpret_cast<const char*>(key.v), sha256_digest_t::SIZE,
msg.data(), msg.size(),
reinterpret_cast<char*>(dest.v));
return dest;
}
static inline sha256_digest_t
calc_hmac_sha256(const std::vector<unsigned char>& key,
const boost::string_view& msg) {
sha256_digest_t dest;
calc_hmac_sha256(reinterpret_cast<const char*>(key.data()), key.size(),
msg.data(), msg.size(),
reinterpret_cast<char*>(dest.v));
return dest;
}
template<size_t KeyLenN>
static inline sha256_digest_t
calc_hmac_sha256(const std::array<unsigned char, KeyLenN>& key,
const boost::string_view& msg) {
sha256_digest_t dest;
calc_hmac_sha256(reinterpret_cast<const char*>(key.data()), key.size(),
msg.data(), msg.size(),
reinterpret_cast<char*>(dest.v));
return dest;
}
extern sha256_digest_t calc_hash_sha256(const boost::string_view& msg);
extern ceph::crypto::SHA256* calc_hash_sha256_open_stream();
extern void calc_hash_sha256_update_stream(ceph::crypto::SHA256* hash,
const char* msg,
int len);
extern std::string calc_hash_sha256_close_stream(ceph::crypto::SHA256** phash);
extern std::string calc_hash_sha256_restart_stream(ceph::crypto::SHA256** phash);
extern int rgw_parse_op_type_list(const string& str, uint32_t *perm);
static constexpr uint32_t MATCH_POLICY_ACTION = 0x01;
static constexpr uint32_t MATCH_POLICY_RESOURCE = 0x02;
static constexpr uint32_t MATCH_POLICY_ARN = 0x04;
static constexpr uint32_t MATCH_POLICY_STRING = 0x08;
extern bool match_policy(boost::string_view pattern, boost::string_view input,
uint32_t flag);
extern string camelcase_dash_http_attr(const string& orig);
extern string lowercase_dash_http_attr(const string& orig);
void rgw_setup_saved_curl_handles();
void rgw_release_all_curl_handles();
static inline void rgw_escape_str(const string& s, char esc_char,
char special_char, string *dest)
{
const char *src = s.c_str();
char dest_buf[s.size() * 2 + 1];
char *destp = dest_buf;
for (size_t i = 0; i < s.size(); i++) {
char c = src[i];
if (c == esc_char || c == special_char) {
*destp++ = esc_char;
}
*destp++ = c;
}
*destp++ = '\0';
*dest = dest_buf;
}
static inline ssize_t rgw_unescape_str(const string& s, ssize_t ofs,
char esc_char, char special_char,
string *dest)
{
const char *src = s.c_str();
char dest_buf[s.size() + 1];
char *destp = dest_buf;
bool esc = false;
dest_buf[0] = '\0';
for (size_t i = ofs; i < s.size(); i++) {
char c = src[i];
if (!esc && c == esc_char) {
esc = true;
continue;
}
if (!esc && c == special_char) {
*destp = '\0';
*dest = dest_buf;
return (ssize_t)i + 1;
}
*destp++ = c;
esc = false;
}
*destp = '\0';
*dest = dest_buf;
return string::npos;
}
static inline string rgw_bl_str(ceph::buffer::list& raw)
{
size_t len = raw.length();
string s(raw.c_str(), len);
while (len && !s[len - 1]) {
--len;
s.resize(len);
}
return s;
}
template <typename T>
int decode_bl(bufferlist& bl, T& t)
{
auto iter = bl.cbegin();
try {
decode(t, iter);
} catch (buffer::error& err) {
return -EIO;
}
return 0;
}
#endif
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