RetroShare/libretroshare/src/pqi/authgpg.h

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/*
* libretroshare/src/ : gpgauthmgr.h
*
* GPG interface for RetroShare.
*
* Copyright 2008-2009 by Raghu Dev R.
*
* 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".
*
* This is *THE* auth manager. It provides the web-of-trust via
* gpgme, and authenticates the certificates that are managed
* by the sublayer AuthSSL.
*
*/
/****
* Here's GPG policy :
* By default, all pgpg keys imported via a RS user (make friend and accept friend action) are signed at level 0.
* All signed keys by RS are set to be trusted marginally. You can change it to full or no trust in the friend profile
* For a key to be marginaly valid, it has to be signed by one fully trusted key, or at least by 3 marginally trusted keys.
* All keys that have at least marginal validity are designed as valid in RS. They are shown in the RS gui in order to be signed.
* If there is no validity then the key is not shown.
*/
#ifndef RS_GPG_AUTH_HEADER
#define RS_GPG_AUTH_HEADER
#include <gpgme.h>
#include <openssl/ssl.h>
#include <openssl/evp.h>
#include "util/rsthreads.h"
#include "rsiface/rspeers.h"
#include <string>
#include <list>
#include <set>
#include <map>
#include "pqi/p3cfgmgr.h"
#define GPG_id std::string
const time_t STORE_KEY_TIMEOUT = 60; //store key is call around every 60sec
/*!
* gpgcert is the identifier for a person.
* It is a wrapper class for a GPGme OpenPGP certificate.
*/
class gpgcert
{
public:
gpgcert();
~gpgcert();
std::string id;
std::string name;
std::string email;
std::string fpr; /* fingerprint */
std::list<std::string> signers;
uint32_t trustLvl;
uint32_t validLvl;
bool ownsign;
//This is not gpg, but RS data. A gpg peer can be accepted for connecting but not signed.
bool accept_connection;
gpgme_key_t key;
};
/*!
* The certificate map type
*/
typedef std::map<std::string, gpgcert> certmap;
//! provides basic gpg functionality
/*!
*
* This provides retroshare basic gpg functionality and
* key/web-of-trust management, also handle cert intialisation for retroshare
*/
class AuthGPG : public p3Config
{
private:
/* Internal functions */
bool DoOwnSignature_locked(const void *, unsigned int, void *, unsigned int *);
bool VerifySignature_locked(const void *data, int datalen, const void *sig, unsigned int siglen, std::string withfingerprint);
/* Sign/Trust stuff */
int privateSignCertificate(GPG_id id);
int privateRevokeCertificate(GPG_id id); /* revoke the signature on Certificate */
int privateTrustCertificate(GPG_id id, int trustlvl);
// store all keys in map mKeyList to avoid calling gpgme exe repeatedly
bool storeAllKeys_locked();
bool storeAllKeys_timed();
bool updateTrustAllKeys_locked();
bool printAllKeys_locked();
bool printOwnKeys_locked();
public:
AuthGPG();
~AuthGPG();
/**
* @param ids list of gpg certificate ids (note, not the actual certificates)
*/
bool availableGPGCertificatesWithPrivateKeys(std::list<std::string> &ids);
/* SKTAN */
void showData(gpgme_data_t dh);
void createDummyFriends(void); //NYI
bool printKeys();
/*********************************************************************************/
/************************* STAGE 1 ***********************************************/
/*********************************************************************************/
/*****
* STAGE 1: Initialisation.... As we are switching to OpenPGP the init functions
* will be different. Just move the initialisation functions over....
*
* As GPGMe requires external calls to the GPG executable, which could potentially
* be expensive, We'll want to cache the GPG keys in this class.
* This should be done at initialisation, and saved in a map.
* (see storage at the end of the class)
*
****/
bool active();
/* Initialize */
bool InitAuth ();
/* Init by generating new Own PGP Cert, or selecting existing PGP Cert */
int GPGInit(std::string ownId);
bool CloseAuth();
bool GeneratePGPCertificate(std::string name, std::string email, std::string passwd, std::string &pgpId, std::string &errString);
/*********************************************************************************/
/************************* STAGE 3 ***********************************************/
/*********************************************************************************/
/*****
* STAGE 3: These are some of the most commonly used functions in Retroshare.
*
* More commonly used functions.
*
* provide access to details in cache list.
*
****/
std::string getGPGName(GPG_id pgp_id);
std::string getGPGEmail(GPG_id pgp_id);
/* PGP web of trust management */
std::string getGPGOwnId();
std::string getGPGOwnName();
std::string getGPGOwnEmail();
bool getGPGDetails(std::string id, RsPeerDetails &d);
bool getGPGAllList(std::list<std::string> &ids);
bool getGPGValidList(std::list<std::string> &ids);
bool getGPGAcceptedList(std::list<std::string> &ids);
bool getGPGSignedList(std::list<std::string> &ids);
bool isGPGValid(std::string id);
bool isGPGSigned(std::string id);
bool isGPGAccepted(std::string id);
bool isGPGId(GPG_id id);
/*********************************************************************************/
/************************* STAGE 4 ***********************************************/
/*********************************************************************************/
/*****
* STAGE 4: Loading and Saving Certificates. (Strings and Files)
*
****/
bool LoadCertificateFromString(std::string pem, std::string &gpg_id);
std::string SaveCertificateToString(std::string id);
/*********************************************************************************/
/************************* STAGE 6 ***********************************************/
/*********************************************************************************/
/*****
* STAGE 6: Authentication, Trust and Signing.
*
* This is some of the harder functions, but they should have been
* done in gpgroot already.
*
****/
bool setAcceptToConnectGPGCertificate(std::string gpg_id, bool acceptance); //don't act on the gpg key, use a seperate set
bool SignCertificateLevel0(std::string id);
bool RevokeCertificate(std::string id); /* Particularly hard - leave for later */
bool TrustCertificateNone(std::string id);
bool TrustCertificateMarginally(std::string id);
bool TrustCertificateFully(std::string id);
bool TrustCertificate(std::string id, int trustlvl); //trustlvl is 2 for none, 3 for marginal and 4 for full trust
/*********************************************************************************/
/************************* STAGE 7 ***********************************************/
/*********************************************************************************/
/*****
* STAGE 7: Signing Data.
*
* There should also be Encryption Functions... (do later).
*
****/
bool SignData(std::string input, std::string &sign);
bool SignData(const void *data, const uint32_t len, std::string &sign);
bool SignDataBin(std::string input, unsigned char *sign, unsigned int *signlen);
bool SignDataBin(const void *data, const uint32_t len, unsigned char *sign, unsigned int *signlen);
bool VerifySignBin(const void*, uint32_t, unsigned char*, unsigned int, std::string withfingerprint);
bool decryptText(gpgme_data_t CIPHER, gpgme_data_t PLAIN);
bool encryptText(gpgme_data_t PLAIN, gpgme_data_t CIPHER);
//END of PGP public functions
static AuthGPG *getAuthGPG() throw() // pour obtenir l'instance
{ return instance_gpg; }
protected:
/*****************************************************************/
/*********************** p3config ******************************/
/* Key Functions to be overloaded for Full Configuration */
virtual RsSerialiser *setupSerialiser();
virtual std::list<RsItem *> saveList(bool &cleanup);
virtual bool loadList(std::list<RsItem *> load);
/*****************************************************************/
private:
static AuthGPG *instance_gpg; // pointeur vers le singleton
RsReadWriteMutex pgpMtx;
/* Below is protected via the mutex */
certmap mKeyList;
time_t mStoreKeyTime;
bool gpgmeInit;
bool gpgmeKeySelected;
gpgme_engine_info_t INFO;
gpgme_ctx_t CTX;
std::string mOwnGpgId;
gpgcert mOwnGpgCert;
std::map<std::string, bool> mAcceptToConnectMap;
};
/*!
* Sign a key
**/
typedef enum
{
SIGN_START,
SIGN_COMMAND,
SIGN_UIDS,
SIGN_SET_EXPIRE,
SIGN_SET_CHECK_LEVEL,
SIGN_ENTER_PASSPHRASE,
SIGN_CONFIRM,
SIGN_QUIT,
SIGN_SAVE,
SIGN_ERROR
} SignState;
/*!
* Change the key ownertrust
**/
typedef enum
{
TRUST_START,
TRUST_COMMAND,
TRUST_VALUE,
TRUST_REALLY_ULTIMATE,
TRUST_QUIT,
TRUST_SAVE,
TRUST_ERROR
} TrustState;
/*!
* This is the generic data object passed to the
* callback function in a gpgme_op_edit operation.
* The contents of this object are modified during
* each callback, to keep track of states, errors
* and other data.
*/
class EditParams
{
public:
int state;
/*!
* The return code of gpgme_op_edit() is the return value of
* the last invocation of the callback. But returning an error
* from the callback does not abort the edit operation, so we
* must remember any error.
*/
gpg_error_t err;
/// Parameters specific to the key operation
void *oParams;
EditParams(int state, void *oParams) {
this->state = state;
this->err = gpgme_error(GPG_ERR_NO_ERROR);
this->oParams = oParams;
}
};
/*!
* Data specific to key signing
**/
class SignParams
{
public:
std::string checkLvl;
SignParams(std::string checkLvl) {
this->checkLvl = checkLvl;
}
};
/*!
* Data specific to key signing
**/
class TrustParams
{
public:
std::string trustLvl;
TrustParams(std::string trustLvl) {
this->trustLvl = trustLvl;
}
};
#endif