RetroShare/libretroshare/src/gxs/rsgixs.h
chrisparker126 325fa4f222 merging gxs_phase2 branch
git-svn-id: http://svn.code.sf.net/p/retroshare/code/trunk@6401 b45a01b8-16f6-495d-af2f-9b41ad6348cc
2013-06-04 21:00:43 +00:00

230 lines
7.5 KiB
C++

#ifndef RSGIXS_H
#define RSGIXS_H
/*
* libretroshare/src/gxs: gxs.h
*
* General Identity Exchange Service interface for RetroShare.
*
* Copyright 2011-2011 by Robert Fernie, Christopher Evi-Prker
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to "retroshare@lunamutt.com".
*
*/
#include "gxs/rsgxs.h"
#include "gxs/rsgenexchange.h"
#include "retroshare/rsgxscircles.h"
#include "serialiser/rstlvkeys.h"
/*!
* GIXP: General Identity Exchange Service.
*
* As we're always running into troubles with GPG signatures... we are going to
* create a layer of RSA Keys for the following properties:
*
* 1) RSA Keys can be Anonymous, Self-Signed with Pseudonym, Signed by GPG Key.
* To clarify:
* a. This forms a layer of keys stay between GPG and pub/priv publish key ?
* b. Difference between anonymous and pseudonym keys?
* - Anonymous cannot be signed?
* -
* c. To some extent this determines security model of RsGeneralExchangeService
* - Anonymous & Pseudonym Keys will be shared network-wide (Hop by Hop).
- GPG signed Keys will only be shared if we can validate the signature
(providing similar behaviour to existing GPG Keys).
- GPG signed Keys can optionally be marked for Network-wide sharing.
* 2) These keys can be used anywhere, specifically in the protocols described below.
* 3) These keys can be used to sign, encrypt, verify & decrypt
* 4) Keys will never need to be directly accessed - stored in this class.
* a. I guess can work solely through Id
* b. Use Case: Receivve a message, has a key id, request
* 5) They will be cached locally and exchanged p2p, by pull request.
* 6) This class will use the generalised packet storage for efficient caching & loading.
* 7) Data will be stored encrypted.
*/
/******
* More notes. The ideas above have been crystalised somewhat.
*
* The Identity service will now serve two roles:
* 1) validating msgs.
* 2) reputation of identity.
*
* The identity will be equivalent to a Group Definition.
* and the reputation contained in the group's messages.
*
*
* Group
* MetaData:
* Public Key
* Signatures. (Admin & optional GPG).
* RealData:
* Nickname.
* GPGHash
*
* The GPGHash will allow people to identify the real gpg user behind the identity.
* We must make sure that the Hash input has enough entropy that it cannot be brute-forced (e.g. like password hashes).
*
* The Identity service only has to provide hooks to access the Keys for each group.
* All the key definitions are exactly the same as for GroupMetaData.
*
* The Interface is split into three parts.
* 1) Internal interface used by GXS to verify signatures.
* 2) Internal interface used by GXS to help decide if we get a message or not.
* 3) External interface to access nicknames, generate new identities etc.
*
* The actual implementation will cache frequently used keys and nicknames,
* as these will be used very frequently.
*****/
typedef std::string PeerId; // SHOULD BE REMOVED => RsPeerId (SSLID)
typedef std::string RsPgpId;
typedef std::string RsGxsId;
//
//// External Interface -
//class RsIdentityService
//{
// enum IdentityType { Pseudonym, Signed, Anonymous };
//
// virtual bool loadId(const GxsId &id) = 0;
//
// virtual bool getNickname(const GxsId &id, std::string &nickname) = 0;
//
// virtual bool createKey(RsGixsProfile& profile, uint32_t type) = 0; /* fills in mKeyId, and signature */
//
// virtual RsGixsProfile* getProfile(const KeyRef& keyref) = 0;
//
// // modify reputation.
//
//};
/* Identity Interface for GXS Message Verification.
*/
class RsGixs
{
public:
// Key related interface - used for validating msgs and groups.
/*!
* Use to query a whether given key is available by its key reference
* @param keyref the keyref of key that is being checked for
* @return true if available, false otherwise
*/
virtual bool haveKey(const RsGxsId &id) = 0;
/*!
* Use to query whether private key member of the given key reference is available
* @param keyref the KeyRef of the key being checked for
* @return true if private key is held here, false otherwise
*/
virtual bool havePrivateKey(const RsGxsId &id) = 0;
// The fetchKey has an optional peerList.. this is people that had the msg with the signature.
// These same people should have the identity - so we ask them first.
/*!
* Use to request a given key reference
* @param keyref the KeyRef of the key being requested
* @return will
*/
virtual bool requestKey(const RsGxsId &id, const std::list<PeerId> &peers) = 0;
virtual bool requestPrivateKey(const RsGxsId &id) = 0;
/*!
* Retrieves a key identity
* @param keyref
* @return a pointer to a valid profile if successful, otherwise NULL
*
*/
virtual int getKey(const RsGxsId &id, RsTlvSecurityKey &key) = 0;
virtual int getPrivateKey(const RsGxsId &id, RsTlvSecurityKey &key) = 0; // For signing outgoing messages.
};
class GixsReputation
{
public:
GixsReputation() : score(0) {}
RsGxsId id;
int score;
};
class RsGixsReputation
{
public:
// get Reputation.
virtual bool haveReputation(const RsGxsId &id) = 0;
virtual bool loadReputation(const RsGxsId &id) = 0;
virtual bool getReputation(const RsGxsId &id, GixsReputation &rep) = 0;
};
/*** This Class pulls all the GXS Interfaces together ****/
class RsGxsIdExchange:
public RsGenExchange,
public RsGixsReputation,
public RsGixs
{
public:
RsGxsIdExchange(RsGeneralDataService* gds, RsNetworkExchangeService* ns, RsSerialType* serviceSerialiser, uint16_t mServType, uint32_t authenPolicy)
:RsGenExchange(gds,ns,serviceSerialiser,mServType, this, authenPolicy) { return; }
virtual ~RsGxsIdExchange() { return; }
};
/* For Circles Too */
class RsGcxs
{
public:
/* GXS Interface - for working out who can receive */
virtual bool isLoaded(const RsGxsCircleId &circleId) = 0;
virtual bool loadCircle(const RsGxsCircleId &circleId) = 0;
virtual int canSend(const RsGxsCircleId &circleId, const RsPgpId &id) = 0;
virtual int canReceive(const RsGxsCircleId &circleId, const RsPgpId &id) = 0;
virtual bool recipients(const RsGxsCircleId &circleId, std::list<RsPgpId> &friendlist) = 0;
};
class RsGxsCircleExchange: public RsGenExchange, public RsGcxs
{
public:
RsGxsCircleExchange(RsGeneralDataService* gds, RsNetworkExchangeService* ns, RsSerialType* serviceSerialiser,
uint16_t mServType, RsGixs* gixs, uint32_t authenPolicy)
:RsGenExchange(gds,ns,serviceSerialiser,mServType, gixs, authenPolicy) { return; }
virtual ~RsGxsCircleExchange() { return; }
};
#endif // RSGIXS_H