2019-07-17 13:37:18 -04:00
# pragma once
# include <string>
# include <chrono>
# include <memory>
# include <utility>
# include <ThreadPool/Mutex.h>
# include <ThreadPool/Future.h>
# include <Variable.h>
# define LICENSE_VERSION 1
# define LICENSE_PROT_VERSION 2
# define MAGIC_NUMER 0xBADC0DED
namespace license {
namespace exceptions {
class LicenseException : public std : : exception {
public :
LicenseException ( ) = delete ;
LicenseException ( std : : string message ) : errorMessage ( std : : move ( message ) ) { }
LicenseException ( const LicenseException & ref ) : errorMessage ( ref . errorMessage ) { }
LicenseException ( LicenseException & & ref ) : errorMessage ( std : : move ( ref . errorMessage ) ) { }
const char * what ( ) const noexcept override ;
private :
std : : string errorMessage ;
} ;
}
struct LicenseHeader {
uint16_t version ;
const char cryptKey [ 64 ] ; //The dummy key for data de/encryption
} __attribute__ ( ( __packed__ ) ) ;
namespace v2 {
2019-09-22 06:36:30 -04:00
struct LicenseHeader {
uint16_t version ; /* first 16 bytes const version */
uint64_t crypt_key_seed ; /* the seed */
uint8_t crypt_key_verify_offset ; /* the first 8 bits determine how much generations (n * 3) and the rest what value is expeted. Due to the loss of 8 bits does the highest 8 bits get xored with the lowerst and 56 bits get compared */
uint8_t crypt_key_verify [ 5 ] ;
} __attribute__ ( ( __packed__ ) ) ;
static_assert ( sizeof ( LicenseHeader ) = = 16 ) ;
struct BodyHeader {
uint16_t length_private_data ;
uint16_t length_hierarchy ; /* contains all public data */
uint8_t checksum_hierarchy [ 20 ] ; /* SHA1 */
uint8_t private_data_sign [ 64 ] ; /* ed sign from the hierarchy created public key */
} __attribute__ ( ( __packed__ ) ) ;
extern std : : array < uint8_t , 32 > public_root_key ;
struct HierarchyEntry ;
struct LicensePrivate ;
struct LicensePrivateWriteOptions ;
struct License {
public :
static std : : shared_ptr < License > read ( const uint8_t * /* buffer */ , size_t /* max size */ , uint8_t & /* error */ ) ;
static std : : shared_ptr < License > create ( const std : : vector < std : : shared_ptr < const HierarchyEntry > > & hierarchy , const std : : array < uint8_t , 32 > & /* precalculated last entry */ ) ;
/* Note for the write method: Make the private version index configurable, so we could "export" the license */
/* Note for the write method: Write "private_buffer" if we're not able to resign the private data. As well enfore (assert) that we have a private buffer (e.g. by the read method) */
~ License ( ) ;
const std : : vector < std : : shared_ptr < const HierarchyEntry > > hierarchy ( ) const { return this - > _hierarchy ; }
bool push_entry ( const std : : shared_ptr < const HierarchyEntry > & /* entry */ , size_t * /* index */ = nullptr ) ;
bool hierarchy_timestamps_valid ( ) ;
template < typename I , typename . . . Args >
bool push_entry ( Args & & . . . args ) {
std : : array < uint8_t , 32 > key_private { } , key_public { } ;
if ( ! this - > generate_keypair ( key_private . data ( ) , key_public . data ( ) ) ) return false ;
auto entry = I : : create ( key_public . data ( ) , std : : forward < Args > ( args ) . . . ) ;
if ( ! entry ) return false ;
size_t index ;
if ( ! this - > push_entry ( entry , & index ) ) return false ;
this - > _register_raw_private_key ( index , key_private . data ( ) ) ;
return true ;
}
std : : array < uint8_t , 32 > generate_public_key ( const uint8_t * /* public key root */ , int /* length */ = - 1 ) const ;
2019-10-13 11:12:50 -04:00
std : : string write ( uint8_t & /* error */ ) ;
2019-07-17 13:37:18 -04:00
2019-09-22 06:36:30 -04:00
bool private_data_editable ( ) const ;
bool write_private_data ( const LicensePrivateWriteOptions & /* write options */ ) ;
inline uint8_t version ( ) const { return this - > _version ; }
private :
License ( ) = default ;
uint8_t _version = 0 ;
std : : array < uint8_t , 64 > private_buffer_sign { } ;
uint8_t * private_buffer = nullptr ;
size_t private_buffer_length = 0 ;
std : : shared_ptr < LicensePrivate > private_data { } ;
uint64_t crypt_seed = 0 ;
std : : vector < std : : shared_ptr < const HierarchyEntry > > _hierarchy { } ;
bool generate_keypair ( uint8_t * /* private key */ , uint8_t * /* public key */ ) ;
void _register_raw_private_key ( size_t /* index */ , uint8_t * /* key */ ) ;
2019-07-17 13:37:18 -04:00
} ;
2019-09-22 06:36:30 -04:00
struct LicensePrivateWriteOptions {
int precalculated_key_index = - 2 ; /* -2 => Do not write any private keys; -1 => Write everything */
} ;
struct LicensePrivate {
public :
static std : : shared_ptr < LicensePrivate > read ( const std : : shared_ptr < License > & /* handle */ , uint8_t /* version */ , const uint8_t * /* buffer */ , size_t /* length */ , uint8_t & /* error */ ) ;
static std : : shared_ptr < LicensePrivate > create ( const std : : shared_ptr < License > & /* handle */ , int /* precalculated private key index */ , const uint8_t * /* precalculated key */ ) ;
bool private_key_chain_valid ( ) ;
bool has_meta ( const std : : string & key ) const { return this - > meta_data . count ( key ) > 0 ; }
std : : string get_meta ( const std : : string & key ) const { return this - > meta_data . at ( key ) ; }
void set_meta ( const std : : string & key , const std : : string & value ) { this - > meta_data [ key ] = value ; }
/* if target is null just increase the offset! */
bool write ( uint8_t * /* target */ , size_t & /* offset */ , size_t /* length */ , const LicensePrivateWriteOptions & /* options */ ) ;
void register_raw_private_key ( uint8_t /* index */ , const uint8_t * /* key */ ) ;
bool has_raw_private_key ( uint8_t /* index */ ) const ;
2019-10-13 11:12:50 -04:00
bool private_key_calculable ( int /* index */ ) const ;
2019-09-22 06:36:30 -04:00
bool calculate_private_key ( uint8_t * /* response */ , uint8_t /* index */ ) const ;
private :
std : : weak_ptr < License > _handle ;
LicensePrivate ( ) = default ;
int precalculated_private_key_index = - 2 ; /* -2 means not set, -1 means root key */
std : : array < uint8_t , 32 > precalculated_private_key { } ;
std : : map < uint8_t , std : : array < uint8_t , 32 > > private_keys { } ;
std : : map < std : : string , std : : string > meta_data { } ;
2019-07-17 13:37:18 -04:00
} ;
2019-09-22 06:36:30 -04:00
namespace hierarchy {
2019-10-13 11:12:50 -04:00
struct BodyInterpreter ;
2019-09-22 06:36:30 -04:00
}
2019-07-17 13:37:18 -04:00
2019-09-22 06:36:30 -04:00
struct HierarchyEntry {
2019-10-13 11:12:50 -04:00
friend struct hierarchy : : BodyInterpreter ;
2019-09-22 06:36:30 -04:00
public :
~ HierarchyEntry ( ) ;
static std : : shared_ptr < const HierarchyEntry > read ( const uint8_t * /* buffer */ , size_t & /* offset */ , size_t /* max size */ ) ;
bool write ( uint8_t * /* buffer */ , size_t & /* offset */ , size_t /* max size */ ) const ;
inline size_t write_length ( ) const { return 43 + this - > read_body_length ; }
inline uint8_t entry_type ( ) const { return this - > _entry_type ; }
template < typename T = std : : chrono : : system_clock >
inline typename T : : time_point begin_timestamp ( ) const { return typename T : : time_point { } + std : : chrono : : minutes ( this - > _timestamp_begin ) ; }
template < typename T = std : : chrono : : system_clock >
inline typename T : : time_point end_timestamp ( ) const { return typename T : : time_point { } + std : : chrono : : minutes ( this - > _timestamp_end ) ; }
inline const std : : array < uint8_t , 32 > & public_key ( ) const { return this - > _public_key ; }
inline std : : array < uint8_t , 32 > & public_key ( ) {
this - > _hash_set = false ;
return this - > _public_key ;
}
inline const uint8_t * body ( ) const { return this - > read_body ; }
inline const size_t body_length ( ) const { return this - > read_body_length ; }
template < typename I >
inline I interpret_as ( ) const {
2019-10-13 11:12:50 -04:00
assert ( this - > interpretable_as < I > ( ) ) ;
2019-09-22 06:36:30 -04:00
return I { this - > read_body , this - > read_body_length } ;
}
template < typename I >
2019-10-13 11:12:50 -04:00
inline bool interpretable_as ( ) const { return I : : _type = = this - > _entry_type ; }
2019-09-22 06:36:30 -04:00
inline bool hash ( uint8_t * /* hash result [64] */ ) const ;
protected :
template < typename T = std : : chrono : : system_clock >
HierarchyEntry ( uint8_t type , const uint8_t * public_key , const typename T : : time_point & begin , const typename T : : time_point & end ) {
this - > _entry_type = type ;
memcpy ( this - > _public_key . data ( ) , public_key , this - > _public_key . size ( ) ) ;
this - > _timestamp_begin = std : : chrono : : floor < std : : chrono : : minutes > ( begin . time_since_epoch ( ) ) . count ( ) ;
this - > _timestamp_end = std : : chrono : : floor < std : : chrono : : minutes > ( end . time_since_epoch ( ) ) . count ( ) ;
}
private :
HierarchyEntry ( ) = default ;
mutable std : : array < uint8_t , 64 > _hash { } ;
mutable bool _hash_set = false ;
uint8_t _entry_type = 0 ;
std : : array < uint8_t , 32 > _public_key { } ;
uint32_t _timestamp_begin = 0 ; /* Minutes since epoch! */
uint32_t _timestamp_end = 0 ; /* Minutes since epoch! */
uint8_t * read_body = nullptr ;
size_t read_body_length = 0 ;
bool allocate_read_body ( size_t ) ;
} ;
namespace hierarchy {
2019-10-13 11:12:50 -04:00
struct type {
enum value : uint8_t {
Intermediate = 1 ,
Server = 2 ,
Ephemeral = 8
} ;
static constexpr const char * name ( const value & value ) {
switch ( value ) {
case Intermediate :
return " Intermediate " ;
case Server :
return " Server " ;
case Ephemeral :
return " Ephemeral " ;
default :
return " Unknown " ;
}
}
} ;
2019-09-22 06:36:30 -04:00
struct BodyInterpreter {
public :
BodyInterpreter ( ) = delete ;
protected :
2019-10-13 11:12:50 -04:00
template < typename T >
static std : : shared_ptr < HierarchyEntry > _create (
const uint8_t * pub_key ,
const std : : chrono : : system_clock : : time_point & begin ,
const std : : chrono : : system_clock : : time_point & end ,
size_t buffer_size , uint8_t * & buffer_ptr
) {
auto result = std : : shared_ptr < HierarchyEntry > ( new HierarchyEntry { T : : _type , pub_key , begin , end } ) ;
if ( ! result | | ! result - > allocate_read_body ( buffer_size ) ) return nullptr ;
result - > read_body_length = buffer_size ;
buffer_ptr = result - > read_body ;
return result ;
}
2019-09-22 06:36:30 -04:00
BodyInterpreter ( const uint8_t * memory , size_t length ) { this - > _memory = memory ; this - > _length = length ; }
const uint8_t * _memory = nullptr ;
size_t _length = 0 ;
} ;
struct Intermediate : public BodyInterpreter {
public :
2019-10-13 11:12:50 -04:00
static constexpr uint8_t _type = type : : Intermediate ;
2019-09-22 06:36:30 -04:00
static std : : shared_ptr < const HierarchyEntry > create (
const uint8_t * /* public key */ ,
const std : : chrono : : system_clock : : time_point & /* begin */ ,
const std : : chrono : : system_clock : : time_point & /* end */ ,
const std : : string & /* description */
) ;
std : : string_view description ( ) ;
private :
Intermediate ( const uint8_t * memory , size_t length ) : BodyInterpreter ( memory , length ) { }
} ;
2019-10-13 11:12:50 -04:00
struct Server : public BodyInterpreter {
public :
static constexpr uint8_t _type = type : : Server ;
static std : : shared_ptr < const HierarchyEntry > create (
const uint8_t * /* public key */ ,
const std : : chrono : : system_clock : : time_point & /* begin */ ,
const std : : chrono : : system_clock : : time_point & /* end */ ,
const std : : string & /* email */ ,
const std : : optional < std : : string > & /* value */
) ;
std : : string_view contact_email ( ) ;
bool has_username ( ) ;
std : : string_view username ( ) ;
private :
Server ( const uint8_t * memory , size_t length ) : BodyInterpreter ( memory , length ) { }
} ;
struct Ephemeral : public BodyInterpreter {
public :
static constexpr uint8_t _type = type : : Ephemeral ;
static std : : shared_ptr < const HierarchyEntry > create (
const uint8_t * /* public key */ ,
const std : : chrono : : system_clock : : time_point & /* begin */ ,
const std : : chrono : : system_clock : : time_point & /* end */
) ;
private :
Ephemeral ( const uint8_t * memory , size_t length ) : BodyInterpreter ( memory , length ) { }
} ;
2019-09-22 06:36:30 -04:00
}
2019-07-17 13:37:18 -04:00
}
enum LicenseType : uint8_t {
INVALID ,
DEMO ,
PREMIUM ,
HOSTER ,
PRIVATE ,
} ;
inline bool isPremiumLicense ( LicenseType type ) { return type = = HOSTER | | type = = PREMIUM | | type = = PRIVATE ; }
# define LT_NAMES {"Invalid", "Demo", "Premium", "Hoster", "Private"};
extern std : : string LicenseTypeNames [ 5 ] ;
struct License {
LicenseHeader header ;
//Crypted part
struct {
LicenseType type ;
int64_t endTimestamp ;
const char licenceKey [ 64 ] ; //The actual key
const char licenceOwner [ 64 ] ;
} __attribute__ ( ( __packed__ ) ) data ;
inline std : : string key ( ) { return std : : string ( data . licenceKey , 64 ) ; }
inline std : : chrono : : time_point < std : : chrono : : system_clock > end ( ) { return std : : chrono : : system_clock : : time_point ( ) + std : : chrono : : milliseconds ( this - > data . endTimestamp ) ; }
2019-08-25 16:16:42 -04:00
inline std : : string owner ( ) { return std : : string ( this - > data . licenceOwner ) ; } //Scopetita
2019-07-17 13:37:18 -04:00
inline bool isValid ( ) { return data . endTimestamp = = 0 | | std : : chrono : : system_clock : : now ( ) < this - > end ( ) ; }
inline bool isPremium ( ) { return isPremiumLicense ( data . type ) ; }
} __attribute__ ( ( __packed__ ) ) ;
struct LicenseInfo {
LicenseType type ;
std : : string username ;
std : : string first_name ;
std : : string last_name ;
std : : string email ;
std : : chrono : : system_clock : : time_point start ;
std : : chrono : : system_clock : : time_point end ;
std : : chrono : : system_clock : : time_point creation ;
bool deleted = false ;
inline bool isValid ( ) { return ( end . time_since_epoch ( ) . count ( ) = = 0 | | std : : chrono : : system_clock : : now ( ) < this - > end ) ; }
} ;
extern std : : shared_ptr < License > readLocalLicence ( const std : : string & , std : : string & ) ;
extern std : : string exportLocalLicense ( const std : : shared_ptr < License > & ) ;
extern std : : string createLocalLicence ( LicenseType type , std : : chrono : : time_point < std : : chrono : : system_clock > until , std : : string licenseOwner ) ;
namespace protocol {
enum RequestState {
UNCONNECTED ,
CONNECTING ,
HANDSCAKE ,
SERVER_VALIDATION ,
LICENSE_INFO ,
PROPERTY_ADJUSTMENT ,
MANAGER_AUTHORIZATION ,
MANAGER_CONNECTED ,
DISCONNECTING
} ;
enum PacketType : uint8_t {
PACKET_CLIENT_HANDSHAKE ,
PACKET_SERVER_HANDSHAKE ,
PACKET_CLIENT_SERVER_VALIDATION ,
PACKET_SERVER_VALIDATION_RESPONSE ,
PACKET_CLIENT_PROPERTY_ADJUSTMENT ,
PACKET_SERVER_PROPERTY_ADJUSTMENT ,
PACKET_CLIENT_AUTH_REQUEST ,
PACKET_SERVER_AUTH_RESPONSE ,
PACKET_CLIENT_LICENSE_CREATE_REQUEST ,
PACKET_SERVER_LICENSE_CREATE_RESPONSE ,
PACKET_CLIENT_LIST_REQUEST ,
PACKET_SERVER_LIST_RESPONSE ,
PACKET_CLIENT_DELETE_REQUEST ,
PACKET_CLIENT_DELETE_RESPONSE ,
PACKET_PING = 0xF0 ,
PACKET_DISCONNECT = 0xFF
} ;
struct packet {
struct {
PacketType packetId ;
mutable uint16_t length ;
} header ;
std : : string data ;
inline void prepare ( ) const {
this - > header . length = ( uint16_t ) data . length ( ) ;
}
packet ( PacketType packetId , std : : string data ) : data ( std : : move ( data ) ) , header ( { packetId , 0 } ) { }
# ifdef GOOGLE_PROTOBUF_MESSAGE_H__
packet ( PacketType packetId , const : : google : : protobuf : : Message & ) ;
# endif
packet ( PacketType packetId , nullptr_t ) ;
} ;
}
}
//DEFINE_TRANSFORMS(license::LicenseType, uint8_t);