Cryptocurrency with GOST R 34.11-2012 algo, GOST R 34.10-2012 signature
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// Copyright (c) 2012-2013 giv
// Copyright (c) 2017 orignal
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
//--------------------------------------------------------------------------------------------------
// EdDSA assumed
#ifndef I2PSAM_H
#define I2PSAM_H
#include <string>
#include <list>
#include <stdint.h>
#include <memory>
#include <utility>
#include <ostream>
#ifdef WIN32
//#define _WIN32_WINNT 0x0501
#define WIN32_LEAN_AND_MEAN 1
#include <winsock2.h>
#else
#include <sys/socket.h>
#include <netinet/in.h> // for sockaddr_in
#include <arpa/inet.h> // for ntohs and htons
#endif
// TODO: check a possible bug about cast -1 to SOCKET
#define SAM_INVALID_SOCKET (-1)
#define SAM_SOCKET_ERROR (-1)
#define SAM_DEFAULT_ADDRESS "127.0.0.1"
#define SAM_DEFAULT_PORT 7656
#define SAM_DEFAULT_MIN_VER "3.0"
#define SAM_DEFAULT_MAX_VER "3.0"
#define SAM_GENERATE_MY_DESTINATION "TRANSIENT"
#define SAM_MY_NAME "ME"
#define SAM_DEFAULT_I2P_OPTIONS ""
#define SAM_NAME_INBOUND_QUANTITY "inbound.quantity"
#define SAM_DEFAULT_INBOUND_QUANTITY 2
#define SAM_NAME_INBOUND_LENGTH "inbound.length"
#define SAM_DEFAULT_INBOUND_LENGTH 2
#define SAM_NAME_INBOUND_LENGTHVARIANCE "inbound.lengthVariance"
#define SAM_DEFAULT_INBOUND_LENGTHVARIANCE 0
#define SAM_NAME_INBOUND_BACKUPQUANTITY "inbound.backupquantity"
#define SAM_DEFAULT_INBOUND_BACKUPQUANTITY 0
#define SAM_NAME_INBOUND_ALLOWZEROHOP "inbound.allowzerohop"
#define SAM_DEFAULT_INBOUND_ALLOWZEROHOP true
#define SAM_NAME_INBOUND_IPRESTRICTION "inbound.iprestriction"
#define SAM_DEFAULT_INBOUND_IPRESTRICTION 2
#define SAM_NAME_OUTBOUND_QUANTITY "outbound.quantity"
#define SAM_DEFAULT_OUTBOUND_QUANTITY 2
#define SAM_NAME_OUTBOUND_LENGTH "outbound.length"
#define SAM_DEFAULT_OUTBOUND_LENGTH 2
#define SAM_NAME_OUTBOUND_LENGTHVARIANCE "outbound.lengthvariance"
#define SAM_DEFAULT_OUTBOUND_LENGTHVARIANCE 0
#define SAM_NAME_OUTBOUND_BACKUPQUANTITY "outbound.backupquantity"
#define SAM_DEFAULT_OUTBOUND_BACKUPQUANTITY 0
#define SAM_NAME_OUTBOUND_ALLOWZEROHOP "outbound.allowzerohop"
#define SAM_DEFAULT_OUTBOUND_ALLOWZEROHOP true
#define SAM_NAME_OUTBOUND_IPRESTRICTION "outbound.iprestriction"
#define SAM_DEFAULT_OUTBOUND_IPRESTRICTION 2
#define SAM_NAME_OUTBOUND_PRIORITY "outbound.priority"
#define SAM_DEFAULT_OUTBOUND_PRIORITY 0
namespace SAM
{
typedef int SOCKET;
class Message
{
public:
enum SessionStyle
{
sssStream,
sssDatagram, // not supported now
sssRaw // not supported now
};
enum eStatus
{
OK,
EMPTY_ANSWER,
CLOSED_SOCKET,
CANNOT_PARSE_ERROR,
// The destination is already in use
//
// -> SESSION CREATE ...
// <- SESSION STATUS RESULT=DUPLICATED_DEST
DUPLICATED_DEST,
// The nickname is already associated with a session
//
// -> SESSION CREATE ...
// <- SESSION STATUS RESULT=DUPLICATED_ID
DUPLICATED_ID,
// A generic I2P error (e.g. I2CP disconnection, etc.)
//
// -> HELLO VERSION ...
// <- HELLO REPLY RESULT=I2P_ERROR MESSAGE={$message}
//
// -> SESSION CREATE ...
// <- SESSION STATUS RESULT=I2P_ERROR MESSAGE={$message}
//
// -> STREAM CONNECT ...
// <- STREAM STATUS RESULT=I2P_ERROR MESSAGE={$message}
//
// -> STREAM ACCEPT ...
// <- STREAM STATUS RESULT=I2P_ERROR MESSAGE={$message}
//
// -> STREAM FORWARD ...
// <- STREAM STATUS RESULT=I2P_ERROR MESSAGE={$message}
//
// -> NAMING LOOKUP ...
// <- NAMING REPLY RESULT=INVALID_KEY NAME={$name} MESSAGE={$message}
I2P_ERROR,
// Stream session ID doesn't exist
//
// -> STREAM CONNECT ...
// <- STREAM STATUS RESULT=INVALID_ID MESSAGE={$message}
//
// -> STREAM ACCEPT ...
// <- STREAM STATUS RESULT=INVALID_ID MESSAGE={$message}
//
// -> STREAM FORWARD ...
// <- STREAM STATUS RESULT=INVALID_ID MESSAGE={$message}
INVALID_ID,
// The destination is not a valid private destination key
//
// -> SESSION CREATE ...
// <- SESSION STATUS RESULT=INVALID_KEY MESSAGE={$message}
//
// -> STREAM CONNECT ...
// <- STREAM STATUS RESULT=INVALID_KEY MESSAGE={$message}
//
// -> NAMING LOOKUP ...
// <- NAMING REPLY RESULT=INVALID_KEY NAME={$name} MESSAGE={$message}
INVALID_KEY,
// The peer exists, but cannot be reached
//
// -> STREAM CONNECT ...
// <- STREAM STATUS RESULT=CANT_REACH_PEER MESSAGE={$message}
CANT_REACH_PEER,
// Timeout while waiting for an event (e.g. peer answer)
//
// -> STREAM CONNECT ...
// <- STREAM STATUS RESULT=TIMEOUT MESSAGE={$message}
TIMEOUT,
// The SAM bridge cannot find a suitable version
//
// -> HELLO VERSION ...
// <- HELLO REPLY RESULT=NOVERSION MESSAGE={$message}
NOVERSION,
// The naming system can't resolve the given name
//
// -> NAMING LOOKUP ...
// <- NAMING REPLY RESULT=INVALID_KEY NAME={$name} MESSAGE={$message}
KEY_NOT_FOUND,
// The peer cannot be found on the network
//
// ??
PEER_NOT_FOUND,
// ??
//
// -> STREAM ACCEPT
// <- STREAM STATUS RESULT=ALREADY_ACCEPTING
ALREADY_ACCEPTING,
// ??
FAILED,
// ??
CLOSED
};
template<class T>
struct Answer
{
const Message::eStatus status;
T value;
Answer(Message::eStatus status, const T& value)
: status(status), value(value) {}
explicit Answer(Message::eStatus status)
: status(status), value() {}
};
static std::string hello(const std::string& minVer, const std::string& maxVer);
static std::string sessionCreate(SessionStyle style, const std::string& sessionID, const std::string& nickname, const std::string& destination = SAM_GENERATE_MY_DESTINATION, const std::string& options = "");
static std::string streamAccept(const std::string& sessionID, bool silent = false);
static std::string streamConnect(const std::string& sessionID, const std::string& destination, bool silent = false);
static std::string streamForward(const std::string& sessionID, const std::string& host, uint16_t port, bool silent = false);
static std::string namingLookup(const std::string& name);
static std::string destGenerate();
static eStatus checkAnswer(const std::string& answer);
static std::string getValue(const std::string& answer, const std::string& key);
private:
static std::string createSAMRequest(const char* format, ...);
};
class Socket
{
public:
Socket(const std::string& SAMHost, uint16_t SAMPort, const std::string &minVer, const std::string& maxVer);
Socket(const sockaddr_in& addr, const std::string& minVer, const std::string& maxVer);
// explicit because we don't want to create any socket implicity
explicit Socket(const Socket& rhs); // creates a new socket with the same parameters
~Socket();
void write(const std::string& msg);
std::string read();
SOCKET release();
void close();
bool isOk() const;
const std::string& getVersion() const;
const std::string& getHost() const;
uint16_t getPort() const;
const std::string& getMinVer() const;
const std::string& getMaxVer() const;
const sockaddr_in& getAddress() const;
private:
SOCKET socket_;
sockaddr_in servAddr_;
std::string SAMHost_;
uint16_t SAMPort_;
const std::string minVer_;
const std::string maxVer_;
std::string version_;
#ifdef WIN32
static int instances_;
static void initWSA();
static void freeWSA();
#endif
void handshake();
void init();
Socket& operator=(const Socket&);
};
struct FullDestination
{
std::string pub;
std::string priv;
bool isGenerated;
FullDestination() {}
FullDestination(const std::string& pub, const std::string& priv, bool isGenerated)
:pub(pub), priv(priv), isGenerated(isGenerated) {}
};
template<class T>
struct RequestResult
{
bool isOk;
T value;
RequestResult()
: isOk(false) {}
explicit RequestResult(const T& value)
: isOk(true), value(value) {}
};
template<class T>
struct RequestResult<std::shared_ptr<T> >
{
// a class-helper for resolving a problem with conversion from temporary RequestResult to non-const RequestResult&
struct RequestResultRef
{
bool isOk;
T* value;
RequestResultRef(bool isOk, T* value)
: isOk(isOk), value(value) {}
};
bool isOk;
std::shared_ptr<T> value;
RequestResult()
: isOk(false) {}
explicit RequestResult(std::shared_ptr<T>& value)
: isOk(true), value(value) {}
// some C++ magic
RequestResult(RequestResultRef ref)
: isOk(ref.isOk), value(ref.value) {}
RequestResult& operator=(RequestResultRef ref)
{
if (value.get() != ref.value)
{
isOk = ref.isOk;
value.reset(ref.value);
}
return *this;
}
operator RequestResultRef()
{
return RequestResultRef(this->isOk, this->value.release());
}
};
template<>
struct RequestResult<void>
{
bool isOk;
RequestResult()
: isOk(false) {}
explicit RequestResult(bool isOk)
: isOk(isOk) {}
};
class StreamSession
{
public:
StreamSession(
const std::string& nickname,
const std::string& SAMHost = SAM_DEFAULT_ADDRESS,
uint16_t SAMPort = SAM_DEFAULT_PORT,
const std::string& destination = SAM_GENERATE_MY_DESTINATION,
const std::string& i2pOptions = SAM_DEFAULT_I2P_OPTIONS,
const std::string& minVer = SAM_DEFAULT_MIN_VER,
const std::string& maxVer = SAM_DEFAULT_MAX_VER);
explicit StreamSession(StreamSession& rhs);
~StreamSession();
static std::string generateSessionID();
RequestResult<std::shared_ptr<Socket> > accept(bool silent);
RequestResult<std::shared_ptr<Socket> > connect(const std::string& destination, bool silent);
RequestResult<void> forward(const std::string& host, uint16_t port, bool silent);
RequestResult<const std::string> namingLookup(const std::string& name) const;
RequestResult<const FullDestination> destGenerate() const;
void stopForwarding(const std::string& host, uint16_t port);
void stopForwardingAll();
const FullDestination& getMyDestination() const;
const sockaddr_in& getSAMAddress() const;
const std::string& getSAMHost() const;
uint16_t getSAMPort() const;
const std::string& getNickname() const;
const std::string& getSessionID() const;
const std::string& getSAMMinVer() const;
const std::string& getSAMMaxVer() const;
const std::string& getSAMVersion() const;
const std::string& getOptions() const;
bool isSick() const;
bool isReady () const { return socket_.isOk() && !isSick (); };
static std::ostream& getLogStream ();
static void SetLogFile (const std::string& filename);
static void CloseLogFile ();
private:
StreamSession(const StreamSession& rhs);
StreamSession& operator=(const StreamSession& rhs);
struct ForwardedStream
{
Socket* socket;
std::string host;
uint16_t port;
bool silent;
ForwardedStream(Socket* socket, const std::string& host, uint16_t port, bool silent)
: socket(socket), host(host), port(port), silent(silent) {}
};
typedef std::list<ForwardedStream> ForwardedStreamsContainer;
Socket socket_;
const std::string nickname_;
const std::string sessionID_;
FullDestination myDestination_;
const std::string i2pOptions_;
ForwardedStreamsContainer forwardedStreams_;
mutable bool isSick_;
static std::shared_ptr<std::ostream> logStream;
void fallSick() const;
FullDestination createStreamSession(const std::string &destination);
static Message::Answer<const std::string> rawRequest(Socket& socket, const std::string& requestStr);
static Message::Answer<const std::string> request(Socket& socket, const std::string& requestStr, const std::string& keyOnSuccess);
static Message::eStatus request(Socket& socket, const std::string& requestStr);
// commands
static Message::Answer<const std::string> createStreamSession(Socket& socket, const std::string& sessionID, const std::string& nickname, const std::string& destination, const std::string& options);
static Message::Answer<const std::string> namingLookup(Socket& socket, const std::string& name);
static Message::Answer<const FullDestination> destGenerate(Socket& socket);
static Message::eStatus accept(Socket& socket, const std::string& sessionID, bool silent);
static Message::eStatus connect(Socket& socket, const std::string& sessionID, const std::string& destination, bool silent);
static Message::eStatus forward(Socket& socket, const std::string& sessionID, const std::string& host, uint16_t port, bool silent);
};
} // namespace SAM
#endif // I2PSAM_H