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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>
*
* 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_KEYSSERVER_H
#define CEPH_KEYSSERVER_H
#include "auth/KeyRing.h"
#include "CephxProtocol.h"
#include "common/ceph_mutex.h"
#include "include/common_fwd.h"
struct KeyServerData {
version_t version;
/* for each entity */
std::map<EntityName, EntityAuth> secrets;
KeyRing *extra_secrets;
/* for each service type */
version_t rotating_ver;
std::map<uint32_t, RotatingSecrets> rotating_secrets;
explicit KeyServerData(KeyRing *extra)
: version(0),
extra_secrets(extra),
rotating_ver(0) {}
void encode(ceph::buffer::list& bl) const {
__u8 struct_v = 1;
using ceph::encode;
encode(struct_v, bl);
encode(version, bl);
encode(rotating_ver, bl);
encode(secrets, bl);
encode(rotating_secrets, bl);
}
void decode(ceph::buffer::list::const_iterator& bl) {
using ceph::decode;
__u8 struct_v;
decode(struct_v, bl);
decode(version, bl);
decode(rotating_ver, bl);
decode(secrets, bl);
decode(rotating_secrets, bl);
}
void encode_rotating(ceph::buffer::list& bl) const {
using ceph::encode;
__u8 struct_v = 1;
encode(struct_v, bl);
encode(rotating_ver, bl);
encode(rotating_secrets, bl);
}
void decode_rotating(ceph::buffer::list& rotating_bl) {
using ceph::decode;
auto iter = rotating_bl.cbegin();
__u8 struct_v;
decode(struct_v, iter);
decode(rotating_ver, iter);
decode(rotating_secrets, iter);
}
bool contains(const EntityName& name) const {
return (secrets.find(name) != secrets.end());
}
void clear_secrets() {
version = 0;
secrets.clear();
rotating_ver = 0;
rotating_secrets.clear();
}
void add_auth(const EntityName& name, EntityAuth& auth) {
secrets[name] = auth;
}
void remove_secret(const EntityName& name) {
auto iter = secrets.find(name);
if (iter == secrets.end())
return;
secrets.erase(iter);
}
bool get_service_secret(CephContext *cct, uint32_t service_id,
CryptoKey& secret, uint64_t& secret_id,
double& ttl) const;
bool get_service_secret(CephContext *cct, uint32_t service_id,
uint64_t secret_id, CryptoKey& secret) const;
bool get_auth(const EntityName& name, EntityAuth& auth) const;
bool get_secret(const EntityName& name, CryptoKey& secret) const;
bool get_caps(CephContext *cct, const EntityName& name,
const std::string& type, AuthCapsInfo& caps) const;
std::map<EntityName, EntityAuth>::iterator secrets_begin()
{ return secrets.begin(); }
std::map<EntityName, EntityAuth>::const_iterator secrets_begin() const
{ return secrets.begin(); }
std::map<EntityName, EntityAuth>::iterator secrets_end()
{ return secrets.end(); }
std::map<EntityName, EntityAuth>::const_iterator secrets_end() const
{ return secrets.end(); }
std::map<EntityName, EntityAuth>::iterator find_name(const EntityName& name)
{ return secrets.find(name); }
std::map<EntityName, EntityAuth>::const_iterator find_name(const EntityName& name) const
{ return secrets.find(name); }
// -- incremental updates --
typedef enum {
AUTH_INC_NOP,
AUTH_INC_ADD,
AUTH_INC_DEL,
AUTH_INC_SET_ROTATING,
} IncrementalOp;
struct Incremental {
IncrementalOp op;
ceph::buffer::list rotating_bl; // if SET_ROTATING. otherwise,
EntityName name;
EntityAuth auth;
void encode(ceph::buffer::list& bl) const {
using ceph::encode;
__u8 struct_v = 1;
encode(struct_v, bl);
__u32 _op = (__u32)op;
encode(_op, bl);
if (op == AUTH_INC_SET_ROTATING) {
encode(rotating_bl, bl);
} else {
encode(name, bl);
encode(auth, bl);
}
}
void decode(ceph::buffer::list::const_iterator& bl) {
using ceph::decode;
__u8 struct_v;
decode(struct_v, bl);
__u32 _op;
decode(_op, bl);
op = (IncrementalOp)_op;
ceph_assert(op >= AUTH_INC_NOP && op <= AUTH_INC_SET_ROTATING);
if (op == AUTH_INC_SET_ROTATING) {
decode(rotating_bl, bl);
} else {
decode(name, bl);
decode(auth, bl);
}
}
};
void apply_incremental(Incremental& inc) {
switch (inc.op) {
case AUTH_INC_ADD:
add_auth(inc.name, inc.auth);
break;
case AUTH_INC_DEL:
remove_secret(inc.name);
break;
case AUTH_INC_SET_ROTATING:
decode_rotating(inc.rotating_bl);
break;
case AUTH_INC_NOP:
break;
default:
ceph_abort();
}
}
};
WRITE_CLASS_ENCODER(KeyServerData)
WRITE_CLASS_ENCODER(KeyServerData::Incremental)
class KeyServer : public KeyStore {
CephContext *cct;
KeyServerData data;
std::map<EntityName, CryptoKey> used_pending_keys;
mutable ceph::mutex lock;
int _rotate_secret(uint32_t service_id, KeyServerData &pending_data);
void _dump_rotating_secrets();
int _build_session_auth_info(uint32_t service_id,
const AuthTicket& parent_ticket,
CephXSessionAuthInfo& info,
double ttl);
bool _get_service_caps(const EntityName& name, uint32_t service_id,
AuthCapsInfo& caps) const;
public:
KeyServer(CephContext *cct_, KeyRing *extra_secrets);
bool generate_secret(CryptoKey& secret);
bool get_secret(const EntityName& name, CryptoKey& secret) const override;
bool get_auth(const EntityName& name, EntityAuth& auth) const;
bool get_caps(const EntityName& name, const std::string& type, AuthCapsInfo& caps) const;
bool get_active_rotating_secret(const EntityName& name, CryptoKey& secret) const;
void note_used_pending_key(const EntityName& name, const CryptoKey& key);
void clear_used_pending_keys();
std::map<EntityName,CryptoKey> get_used_pending_keys();
int start_server();
void rotate_timeout(double timeout);
void dump();
int build_session_auth_info(uint32_t service_id,
const AuthTicket& parent_ticket,
CephXSessionAuthInfo& info);
int build_session_auth_info(uint32_t service_id,
const AuthTicket& parent_ticket,
const CryptoKey& service_secret,
uint64_t secret_id,
CephXSessionAuthInfo& info);
/* get current secret for specific service type */
bool get_service_secret(uint32_t service_id, CryptoKey& secret,
uint64_t& secret_id, double& ttl) const;
bool get_service_secret(uint32_t service_id, uint64_t secret_id,
CryptoKey& secret) const override;
bool generate_secret(EntityName& name, CryptoKey& secret);
void encode(ceph::buffer::list& bl) const {
using ceph::encode;
encode(data, bl);
}
void decode(ceph::buffer::list::const_iterator& bl) {
std::scoped_lock l{lock};
using ceph::decode;
decode(data, bl);
}
bool contains(const EntityName& name) const;
int encode_secrets(ceph::Formatter *f, std::stringstream *ds) const;
void encode_formatted(std::string label, ceph::Formatter *f, ceph::buffer::list &bl);
void encode_plaintext(ceph::buffer::list &bl);
int list_secrets(std::stringstream& ds) const {
return encode_secrets(NULL, &ds);
}
version_t get_ver() const {
std::scoped_lock l{lock};
return data.version;
}
void clear_secrets() {
std::scoped_lock l{lock};
data.clear_secrets();
}
void apply_data_incremental(KeyServerData::Incremental& inc) {
std::scoped_lock l{lock};
data.apply_incremental(inc);
}
void set_ver(version_t ver) {
std::scoped_lock l{lock};
data.version = ver;
}
void add_auth(const EntityName& name, EntityAuth& auth) {
std::scoped_lock l{lock};
data.add_auth(name, auth);
}
void remove_secret(const EntityName& name) {
std::scoped_lock l{lock};
data.remove_secret(name);
}
bool has_secrets() {
auto b = data.secrets_begin();
return (b != data.secrets_end());
}
int get_num_secrets() {
std::scoped_lock l{lock};
return data.secrets.size();
}
void clone_to(KeyServerData& dst) const {
std::scoped_lock l{lock};
dst = data;
}
void export_keyring(KeyRing& keyring) {
std::scoped_lock l{lock};
for (auto p = data.secrets.begin(); p != data.secrets.end(); ++p) {
keyring.add(p->first, p->second);
}
}
bool prepare_rotating_update(ceph::buffer::list& rotating_bl);
bool get_rotating_encrypted(const EntityName& name, ceph::buffer::list& enc_bl) const;
ceph::mutex& get_lock() const { return lock; }
bool get_service_caps(const EntityName& name, uint32_t service_id,
AuthCapsInfo& caps) const;
std::map<EntityName, EntityAuth>::iterator secrets_begin()
{ return data.secrets_begin(); }
std::map<EntityName, EntityAuth>::iterator secrets_end()
{ return data.secrets_end(); }
};
WRITE_CLASS_ENCODER(KeyServer)
#endif
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