/* * libretroshare/src/pqi: authssl.cc * * 3P/PQI network interface for RetroShare. * * Copyright 2004-2008 by Robert Fernie. * * 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 class is designed to provide authentication using ssl certificates * only. It is intended to be wrapped by an gpgauthmgr to provide * pgp + ssl web-of-trust authentication. * */ #ifdef WINDOWS_SYS #include "util/rswin.h" #endif // WINDOWS_SYS #include "authssl.h" #include "sslfns.h" #include "pqinetwork.h" #include "authgpg.h" #include "serialiser/rsconfigitems.h" #include "util/rsdir.h" #include "util/rsstring.h" #include "retroshare/rspeers.h" // for RsPeerDetails structure #include "retroshare/rsids.h" // for RsPeerDetails structure #include "rsserver/p3face.h" /******************** notify of new Cert **************************/ #include #include #include /* SSL connection diagnostic */ const uint32_t RS_SSL_HANDSHAKE_DIAGNOSTIC_UNKNOWN = 0x00 ; const uint32_t RS_SSL_HANDSHAKE_DIAGNOSTIC_OK = 0x01 ; const uint32_t RS_SSL_HANDSHAKE_DIAGNOSTIC_CERTIFICATE_NOT_VALID = 0x02 ; const uint32_t RS_SSL_HANDSHAKE_DIAGNOSTIC_ISSUER_UNKNOWN = 0x03 ; const uint32_t RS_SSL_HANDSHAKE_DIAGNOSTIC_MALLOC_ERROR = 0x04 ; const uint32_t RS_SSL_HANDSHAKE_DIAGNOSTIC_WRONG_SIGNATURE = 0x05 ; const uint32_t RS_SSL_HANDSHAKE_DIAGNOSTIC_CERTIFICATE_MISSING = 0x06 ; /**** * #define AUTHSSL_DEBUG 1 ***/ // initialisation du pointeur de singleton AuthSSL *AuthSSL::instance_ssl = NULL; static pthread_mutex_t *mutex_buf = NULL; struct CRYPTO_dynlock_value { pthread_mutex_t mutex; }; /** * OpenSSL locking function. * * @param mode lock mode * @param n lock number * @param file source file name * @param line source file line number * @return none */ static void locking_function(int mode, int n, const char */*file*/, int /*line*/) { if (mode & CRYPTO_LOCK) { pthread_mutex_lock(&mutex_buf[n]); } else { pthread_mutex_unlock(&mutex_buf[n]); } } /** * OpenSSL uniq id function. * * @return thread id */ static unsigned long id_function(void) { #if defined( WINDOWS_SYS) && !defined(WIN_PTHREADS_H) return (unsigned long) pthread_self().p; #else return (unsigned long) pthread_self(); #endif } /** * OpenSSL allocate and initialize dynamic crypto lock. * * @param file source file name * @param line source file line number */ static struct CRYPTO_dynlock_value *dyn_create_function(const char */*file*/, int /*line*/) { struct CRYPTO_dynlock_value *value; value = (struct CRYPTO_dynlock_value*) malloc(sizeof(struct CRYPTO_dynlock_value)); if (!value) { return NULL; } pthread_mutex_init(&value->mutex, NULL); return value; } /** * OpenSSL dynamic locking function. * * @param mode lock mode * @param l lock structure pointer * @param file source file name * @param line source file line number * @return none */ static void dyn_lock_function(int mode, struct CRYPTO_dynlock_value *l, const char */*file*/, int /*line*/) { if (mode & CRYPTO_LOCK) { pthread_mutex_lock(&l->mutex); } else { pthread_mutex_unlock(&l->mutex); } } /** * OpenSSL destroy dynamic crypto lock. * * @param l lock structure pointer * @param file source file name * @param line source file line number * @return none */ static void dyn_destroy_function(struct CRYPTO_dynlock_value *l, const char */*file*/, int /*line*/) { pthread_mutex_destroy(&l->mutex); free(l); } /** * Initialize TLS library. * * @return true on success, false on error */ bool tls_init() { /* static locks area */ mutex_buf = (pthread_mutex_t*) malloc(CRYPTO_num_locks() * sizeof(pthread_mutex_t)); if (mutex_buf == NULL) { return false; } for (int i = 0; i < CRYPTO_num_locks(); i++) { pthread_mutex_init(&mutex_buf[i], NULL); } /* static locks callbacks */ CRYPTO_set_locking_callback(locking_function); CRYPTO_set_id_callback(id_function); /* dynamic locks callbacks */ CRYPTO_set_dynlock_create_callback(dyn_create_function); CRYPTO_set_dynlock_lock_callback(dyn_lock_function); CRYPTO_set_dynlock_destroy_callback(dyn_destroy_function); return true; } /** * Cleanup TLS library. * * @return 0 */ void tls_cleanup() { CRYPTO_set_dynlock_create_callback(NULL); CRYPTO_set_dynlock_lock_callback(NULL); CRYPTO_set_dynlock_destroy_callback(NULL); CRYPTO_set_locking_callback(NULL); CRYPTO_set_id_callback(NULL); if (mutex_buf == NULL) { for (int i = 0; i < CRYPTO_num_locks(); i++) { pthread_mutex_destroy(&mutex_buf[i]); } free(mutex_buf); mutex_buf = NULL; } } /* hidden function - for testing purposes() */ void AuthSSL::setAuthSSL_debug(AuthSSL *newssl) { instance_ssl = newssl; } void AuthSSL::AuthSSLInit() { if (instance_ssl == NULL) { instance_ssl = new AuthSSLimpl(); } } AuthSSL *AuthSSL::getAuthSSL() { return instance_ssl; } AuthSSL::AuthSSL() { return; } /********************************************************************************/ /********************************************************************************/ /********************* Cert Search / Add / Remove **************************/ /********************************************************************************/ /********************************************************************************/ static int verify_x509_callback(int preverify_ok, X509_STORE_CTX *ctx); sslcert::sslcert(X509 *x509, const RsPeerId& pid) { certificate = x509; id = pid; name = getX509CNString(x509->cert_info->subject); org = getX509OrgString(x509->cert_info->subject); location = getX509LocString(x509->cert_info->subject); email = ""; issuer = RsPgpId(std::string(getX509CNString(x509->cert_info->issuer))); authed = false; } /************************************************************************ * * * CODE IS DIVIDED INTO * * 1) SSL Setup. * 3) Cert Access. * 4) Cert Sign / Verify. * 5) Cert Authentication * 2) Cert Add / Remove * 6) Cert Storage */ /********************************************************************************/ /********************************************************************************/ /********************* Cert Search / Add / Remove **************************/ /********************************************************************************/ /********************************************************************************/ AuthSSLimpl::AuthSSLimpl() : p3Config(), sslctx(NULL), mOwnCert(NULL), sslMtx("AuthSSL"), mOwnPrivateKey(NULL), mOwnPublicKey(NULL), init(0) { } bool AuthSSLimpl::active() { return init; } int AuthSSLimpl::InitAuth(const char *cert_file, const char *priv_key_file, const char *passwd) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::InitAuth()"; std::cerr << std::endl; #endif /* single call here si don't need to invoke mutex yet */ static int initLib = 0; if (!initLib) { initLib = 1; if (!tls_init()) { return 0; } SSL_load_error_strings(); SSL_library_init(); } if (init == 1) { std::cerr << "AuthSSLimpl::InitAuth already initialized." << std::endl; return 1; } if ((cert_file == NULL) || (priv_key_file == NULL) || (passwd == NULL)) { //fprintf(stderr, "sslroot::initssl() missing parameters!\n"); return 0; } // actions_to_seed_PRNG(); RAND_seed(passwd, strlen(passwd)); std::cerr << "SSL Library Init!" << std::endl; // setup connection method sslctx = SSL_CTX_new(TLSv1_method()); // Setup cipher lists: // // std::string cipherString = "HIGH:!DSS:!aNULL:!3DES"; // std::string cipherString = "DEFAULT"; // // The current cipher list asks in priority for EDH which provides PFS. However EDH needs proper // parameters to be set on the server side, so if we're a client for a RS instance that has no DH params, // the connection will be refused. So we happend the HIGH cipher suite just after. In oder to force // PFS, at the risk of not always connecting, one should use: // // std::string cipherString = "kEDH:HIGH:!DSS:!aNULL:!3DES"; // // The following safe primes are 2048/4096 bits long. Should be enough. // // std::string dh_prime_2048_dec = "30651576830996935311378276950670996791883170963804289256203421500259588715033040934547350194073369837229137842804826417332761673984632102152477971341551955103053338169949165519208562998954887445690136488713010579430413255432398961330773637820158790237012997356731669148258317860643591694814197514454546928317578771868379525705082166818553884557266645700906836702542808787791878865135741211056957383668479369231868698451684633965462539374994559481908068730787128654626819903401038534403722014687647173327537458614224702967073490136394698912372792187651228785689025073104374674728645661275001416541267543884923191810923"; // std::string dh_prime_2048_hex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std::string dh_prime_4096_hex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std::string cipherString = "kEDH:HIGH:!DSS:!aNULL:!3DES"; SSL_CTX_set_cipher_list(sslctx, cipherString.c_str()); DH* dh = DH_new(); int codes = 0; bool pfs_enabled = true ; if (dh) { BN_hex2bn(&dh->p,dh_prime_4096_hex.c_str()) ; BN_hex2bn(&dh->g,"5") ; std::cout.flush() ; if(DH_check(dh, &codes) && codes == 0) SSL_CTX_set_tmp_dh(sslctx, dh); else pfs_enabled = false ; } else pfs_enabled = false ; // certificates (Set Local Server Certificate). FILE *ownfp = RsDirUtil::rs_fopen(cert_file, "r"); if (ownfp == NULL) { std::cerr << "Couldn't open Own Certificate!" << std::endl; return -1; } // get xPGP certificate. X509 *x509 = PEM_read_X509(ownfp, NULL, NULL, NULL); fclose(ownfp); if (x509 == NULL) { std::cerr << "AuthSSLimpl::InitAuth() PEM_read_X509() Failed"; std::cerr << std::endl; return -1; } SSL_CTX_use_certificate(sslctx, x509); mOwnPublicKey = X509_get_pubkey(x509); // get private key FILE *pkfp = RsDirUtil::rs_fopen(priv_key_file, "rb"); if (pkfp == NULL) { std::cerr << "Couldn't Open PrivKey File!" << std::endl; CloseAuth(); return -1; } mOwnPrivateKey = PEM_read_PrivateKey(pkfp, NULL, NULL, (void *) passwd); fclose(pkfp); if (mOwnPrivateKey == NULL) { std::cerr << "AuthSSLimpl::InitAuth() PEM_read_PrivateKey() Failed"; std::cerr << std::endl; return -1; } SSL_CTX_use_PrivateKey(sslctx, mOwnPrivateKey); if (1 != SSL_CTX_check_private_key(sslctx)) { std::cerr << "Issues With Private Key! - Doesn't match your Cert" << std::endl; std::cerr << "Check your input key/certificate:" << std::endl; std::cerr << priv_key_file << " & " << cert_file; std::cerr << std::endl; CloseAuth(); return -1; } RsPeerId mownidstr ; if (!getX509id(x509, mownidstr)) { std::cerr << "AuthSSLimpl::InitAuth() getX509id() Failed"; std::cerr << std::endl; /* bad certificate */ CloseAuth(); return -1; } mOwnId = mownidstr ; assert(!mOwnId.isNull()) ; /* Check that Certificate is Ok ( virtual function ) * for gpg/pgp or CA verification */ if (!validateOwnCertificate(x509, mOwnPrivateKey)) { std::cerr << "AuthSSLimpl::InitAuth() validateOwnCertificate() Failed"; std::cerr << std::endl; /* bad certificate */ CloseAuth(); exit(1); return -1; } // enable verification of certificates (PEER) // and install verify callback. SSL_CTX_set_verify(sslctx, SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT, verify_x509_callback); std::cerr << "SSL Verification Set" << std::endl; mOwnCert = new sslcert(x509, mOwnId); std::cerr << "Inited SSL context: " << std::endl; std::cerr << " Certificate: " << mOwnId << std::endl; std::cerr << " cipher list: " << cipherString << std::endl; std::cerr << " PFS enabled: " << (pfs_enabled?"YES":"NO") ; if(codes > 0) { std::cerr << " (reason: " ; if(codes & DH_CHECK_P_NOT_PRIME ) std::cerr << "Not a prime number, " ; if(codes & DH_CHECK_P_NOT_SAFE_PRIME) std::cerr << "Not a safe prime number, " ; if(codes & DH_UNABLE_TO_CHECK_GENERATOR) std::cerr << "unable to check generator, " ; if(codes & DH_NOT_SUITABLE_GENERATOR) std::cerr << "not a suitable generator" ; std::cerr << ")" << std::endl; } else std::cerr << std::endl; init = 1; return 1; } /* Dummy function to be overloaded by real implementation */ bool AuthSSLimpl::validateOwnCertificate(X509 *x509, EVP_PKEY *pkey) { (void) pkey; /* remove unused parameter warning */ uint32_t diagnostic ; /* standard authentication */ if (!AuthX509WithGPG(x509,diagnostic)) { return false; } return true; } bool AuthSSLimpl::CloseAuth() { tls_cleanup(); #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::CloseAuth()"; std::cerr << std::endl; #endif SSL_CTX_free(sslctx); // clean up private key.... // remove certificates etc -> opposite of initssl. init = 0; return 1; } /* Context handling */ SSL_CTX *AuthSSLimpl::getCTX() { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::getCTX()"; std::cerr << std::endl; #endif return sslctx; } const RsPeerId& AuthSSLimpl::OwnId() { #ifdef AUTHSSL_DEBUG // std::cerr << "AuthSSLimpl::OwnId()" << std::endl; #endif return mOwnId; } std::string AuthSSLimpl::getOwnLocation() { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::OwnId()" << std::endl; #endif return mOwnCert->location; } std::string AuthSSLimpl::SaveOwnCertificateToString() { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::SaveOwnCertificateToString() " << std::endl; #endif return saveX509ToPEM(mOwnCert->certificate); } /********************************************************************************/ /********************************************************************************/ /********************* Cert Search / Add / Remove **************************/ /********************************************************************************/ /********************************************************************************/ bool AuthSSLimpl::SignData(std::string input, std::string &sign) { return SignData(input.c_str(), input.length(), sign); } bool AuthSSLimpl::SignData(const void *data, const uint32_t len, std::string &sign) { RsStackMutex stack(sslMtx); /***** STACK LOCK MUTEX *****/ EVP_MD_CTX *mdctx = EVP_MD_CTX_create(); unsigned int signlen = EVP_PKEY_size(mOwnPrivateKey); unsigned char signature[signlen]; if (0 == EVP_SignInit(mdctx, EVP_sha1())) { std::cerr << "EVP_SignInit Failure!" << std::endl; EVP_MD_CTX_destroy(mdctx); return false; } if (0 == EVP_SignUpdate(mdctx, data, len)) { std::cerr << "EVP_SignUpdate Failure!" << std::endl; EVP_MD_CTX_destroy(mdctx); return false; } if (0 == EVP_SignFinal(mdctx, signature, &signlen, mOwnPrivateKey)) { std::cerr << "EVP_SignFinal Failure!" << std::endl; EVP_MD_CTX_destroy(mdctx); return false; } EVP_MD_CTX_destroy(mdctx); sign.clear(); for(uint32_t i = 0; i < signlen; i++) { rs_sprintf_append(sign, "%02x", (uint32_t) (signature[i])); } return true; } bool AuthSSLimpl::SignDataBin(std::string input, unsigned char *sign, unsigned int *signlen) { return SignDataBin(input.c_str(), input.length(), sign, signlen); } bool AuthSSLimpl::SignDataBin(const void *data, const uint32_t len, unsigned char *sign, unsigned int *signlen) { RsStackMutex stack(sslMtx); /***** STACK LOCK MUTEX *****/ return SSL_SignDataBin(data, len, sign, signlen, mOwnPrivateKey); } bool AuthSSLimpl::VerifySignBin(const void *data, const uint32_t len, unsigned char *sign, unsigned int signlen, const RsPeerId& sslId) { /* find certificate. * if we don't have - fail. */ RsStackMutex stack(sslMtx); /***** STACK LOCK MUTEX *****/ /* find the peer */ sslcert *peer; if (sslId == mOwnId) { peer = mOwnCert; } else if (!locked_FindCert(sslId, &peer)) { std::cerr << "VerifySignBin() no peer" << std::endl; return false; } return SSL_VerifySignBin(data, len, sign, signlen, peer->certificate); } bool AuthSSLimpl::VerifyOwnSignBin(const void *data, const uint32_t len, unsigned char *sign, unsigned int signlen) { return SSL_VerifySignBin(data, len, sign, signlen, mOwnCert->certificate); } /********************************************************************************/ /********************************************************************************/ /********************* Sign and Auth with GPG **************************/ /********************************************************************************/ /********************************************************************************/ /* Note these functions don't need Mutexes - * only using GPG functions - which lock themselves */ X509 *AuthSSLimpl::SignX509ReqWithGPG(X509_REQ *req, long days) { /* Transform the X509_REQ into a suitable format to * generate DIGEST hash. (for SSL to do grunt work) */ #define SERIAL_RAND_BITS 64 //const EVP_MD *digest = EVP_sha1(); ASN1_INTEGER *serial = ASN1_INTEGER_new(); EVP_PKEY *tmppkey; X509 *x509 = X509_new(); if (x509 == NULL) { std::cerr << "AuthSSLimpl::SignX509Req() FAIL" << std::endl; return NULL; } //long version = 0x00; unsigned long chtype = MBSTRING_ASC; X509_NAME *issuer_name = X509_NAME_new(); X509_NAME_add_entry_by_txt(issuer_name, "CN", chtype, (unsigned char *) AuthGPG::getAuthGPG()->getGPGOwnId().toStdString().c_str(), -1, -1, 0); /**** X509_NAME_add_entry_by_NID(issuer_name, 48, 0, (unsigned char *) "email@email.com", -1, -1, 0); X509_NAME_add_entry_by_txt(issuer_name, "O", chtype, (unsigned char *) "org", -1, -1, 0); X509_NAME_add_entry_by_txt(x509_name, "L", chtype, (unsigned char *) "loc", -1, -1, 0); ****/ std::cerr << "AuthSSLimpl::SignX509Req() Issuer name: " << AuthGPG::getAuthGPG()->getGPGOwnId().toStdString() << std::endl; BIGNUM *btmp = BN_new(); if (!BN_pseudo_rand(btmp, SERIAL_RAND_BITS, 0, 0)) { std::cerr << "AuthSSLimpl::SignX509Req() rand FAIL" << std::endl; return NULL; } if (!BN_to_ASN1_INTEGER(btmp, serial)) { std::cerr << "AuthSSLimpl::SignX509Req() asn1 FAIL" << std::endl; return NULL; } BN_free(btmp); if (!X509_set_serialNumber(x509, serial)) { std::cerr << "AuthSSLimpl::SignX509Req() serial FAIL" << std::endl; return NULL; } ASN1_INTEGER_free(serial); /* Generate SUITABLE issuer name. * Must reference OpenPGP key, that is used to verify it */ if (!X509_set_issuer_name(x509, issuer_name)) { std::cerr << "AuthSSLimpl::SignX509Req() issue FAIL" << std::endl; return NULL; } X509_NAME_free(issuer_name); if (!X509_gmtime_adj(X509_get_notBefore(x509),0)) { std::cerr << "AuthSSLimpl::SignX509Req() notbefore FAIL" << std::endl; return NULL; } if (!X509_gmtime_adj(X509_get_notAfter(x509), (long)60*60*24*days)) { std::cerr << "AuthSSLimpl::SignX509Req() notafter FAIL" << std::endl; return NULL; } if (!X509_set_subject_name(x509, X509_REQ_get_subject_name(req))) { std::cerr << "AuthSSLimpl::SignX509Req() sub FAIL" << std::endl; return NULL; } tmppkey = X509_REQ_get_pubkey(req); if (!tmppkey || !X509_set_pubkey(x509,tmppkey)) { std::cerr << "AuthSSLimpl::SignX509Req() pub FAIL" << std::endl; return NULL; } std::cerr << "X509 Cert, prepared for signing" << std::endl; /*** NOW The Manual signing bit (HACKED FROM asn1/a_sign.c) ***/ int (*i2d)(X509_CINF*, unsigned char**) = i2d_X509_CINF; X509_ALGOR *algor1 = x509->cert_info->signature; X509_ALGOR *algor2 = x509->sig_alg; ASN1_BIT_STRING *signature = x509->signature; X509_CINF *data = x509->cert_info; //EVP_PKEY *pkey = NULL; const EVP_MD *type = EVP_sha1(); EVP_MD_CTX ctx; unsigned char *p,*buf_in=NULL; unsigned char *buf_hashout=NULL,*buf_sigout=NULL; int inl=0,hashoutl=0; int sigoutl=0; X509_ALGOR *a; EVP_MD_CTX_init(&ctx); /* FIX ALGORITHMS */ a = algor1; ASN1_TYPE_free(a->parameter); a->parameter=ASN1_TYPE_new(); a->parameter->type=V_ASN1_NULL; ASN1_OBJECT_free(a->algorithm); a->algorithm=OBJ_nid2obj(type->pkey_type); a = algor2; ASN1_TYPE_free(a->parameter); a->parameter=ASN1_TYPE_new(); a->parameter->type=V_ASN1_NULL; ASN1_OBJECT_free(a->algorithm); a->algorithm=OBJ_nid2obj(type->pkey_type); std::cerr << "Algorithms Fixed" << std::endl; /* input buffer */ inl=i2d(data,NULL); buf_in=(unsigned char *)OPENSSL_malloc((unsigned int)inl); hashoutl=EVP_MD_size(type); buf_hashout=(unsigned char *)OPENSSL_malloc((unsigned int)hashoutl); sigoutl=2048; // hashoutl; //EVP_PKEY_size(pkey); buf_sigout=(unsigned char *)OPENSSL_malloc((unsigned int)sigoutl); if ((buf_in == NULL) || (buf_hashout == NULL) || (buf_sigout == NULL)) { hashoutl=0; sigoutl=0; fprintf(stderr, "AuthSSLimpl::SignX509Req: ASN1err(ASN1_F_ASN1_SIGN,ERR_R_MALLOC_FAILURE)\n"); goto err; } p=buf_in; std::cerr << "Buffers Allocated" << std::endl; i2d(data,&p); /* data in buf_in, ready to be hashed */ EVP_DigestInit_ex(&ctx,type, NULL); EVP_DigestUpdate(&ctx,(unsigned char *)buf_in,inl); if (!EVP_DigestFinal(&ctx,(unsigned char *)buf_hashout, (unsigned int *)&hashoutl)) { hashoutl=0; fprintf(stderr, "AuthSSLimpl::SignX509Req: ASN1err(ASN1_F_ASN1_SIGN,ERR_R_EVP_LIB)\n"); goto err; } std::cerr << "Digest Applied: len: " << hashoutl << std::endl; /* NOW Sign via GPG Functions */ if (!AuthGPG::getAuthGPG()->SignDataBin(buf_hashout, hashoutl, buf_sigout, (unsigned int *) &sigoutl)) { sigoutl = 0; goto err; } std::cerr << "Buffer Sizes: in: " << inl; std::cerr << " HashOut: " << hashoutl; std::cerr << " SigOut: " << sigoutl; std::cerr << std::endl; //passphrase = "NULL"; std::cerr << "Signature done: len:" << sigoutl << std::endl; /* ADD Signature back into Cert... Signed!. */ if (signature->data != NULL) OPENSSL_free(signature->data); signature->data=buf_sigout; buf_sigout=NULL; signature->length=sigoutl; /* In the interests of compatibility, I'll make sure that * the bit string has a 'not-used bits' value of 0 */ signature->flags&= ~(ASN1_STRING_FLAG_BITS_LEFT|0x07); signature->flags|=ASN1_STRING_FLAG_BITS_LEFT; std::cerr << "Certificate Complete" << std::endl; return x509; /* XXX CLEANUP */ err: /* cleanup */ if(buf_in != NULL) OPENSSL_free(buf_in) ; if(buf_hashout != NULL) OPENSSL_free(buf_hashout) ; if(buf_sigout != NULL) OPENSSL_free(buf_sigout) ; std::cerr << "GPGAuthMgr::SignX509Req() err: FAIL" << std::endl; return NULL; } /* This function, checks that the X509 is signed by a known GPG key, * NB: we do not have to have approved this person as a friend. * this is important - as it allows non-friends messages to be validated. */ bool AuthSSLimpl::AuthX509WithGPG(X509 *x509,uint32_t& diagnostic) { #ifdef AUTHSSL_DEBUG fprintf(stderr, "AuthSSLimpl::AuthX509WithGPG() called\n"); #endif if (!CheckX509Certificate(x509)) { std::cerr << "AuthSSLimpl::AuthX509() X509 NOT authenticated : Certificate failed basic checks" << std::endl; diagnostic = RS_SSL_HANDSHAKE_DIAGNOSTIC_CERTIFICATE_NOT_VALID ; return false; } /* extract CN for peer Id */ RsPgpId issuer(std::string(getX509CNString(x509->cert_info->issuer))); RsPeerDetails pd; #ifdef AUTHSSL_DEBUG std::cerr << "Checking GPG issuer : " << issuer.toStdString() << std::endl ; #endif if (!AuthGPG::getAuthGPG()->getGPGDetails(issuer, pd)) { std::cerr << "AuthSSLimpl::AuthX509() X509 NOT authenticated : AuthGPG::getAuthGPG()->getGPGDetails() returned false." << std::endl; diagnostic = RS_SSL_HANDSHAKE_DIAGNOSTIC_ISSUER_UNKNOWN ; return false; } /* verify GPG signature */ /*** NOW The Manual signing bit (HACKED FROM asn1/a_sign.c) ***/ int (*i2d)(X509_CINF*, unsigned char**) = i2d_X509_CINF; ASN1_BIT_STRING *signature = x509->signature; X509_CINF *data = x509->cert_info; const EVP_MD *type = EVP_sha1(); EVP_MD_CTX ctx; unsigned char *p,*buf_in=NULL; unsigned char *buf_hashout=NULL,*buf_sigout=NULL; int inl=0,hashoutl=0; int sigoutl=0; //X509_ALGOR *a; EVP_MD_CTX_init(&ctx); /* input buffer */ inl=i2d(data,NULL); buf_in=(unsigned char *)OPENSSL_malloc((unsigned int)inl); hashoutl=EVP_MD_size(type); buf_hashout=(unsigned char *)OPENSSL_malloc((unsigned int)hashoutl); sigoutl=2048; //hashoutl; //EVP_PKEY_size(pkey); buf_sigout=(unsigned char *)OPENSSL_malloc((unsigned int)sigoutl); #ifdef AUTHSSL_DEBUG std::cerr << "Buffer Sizes: in: " << inl; std::cerr << " HashOut: " << hashoutl; std::cerr << " SigOut: " << sigoutl; std::cerr << std::endl; #endif if ((buf_in == NULL) || (buf_hashout == NULL) || (buf_sigout == NULL)) { hashoutl=0; sigoutl=0; fprintf(stderr, "AuthSSLimpl::AuthX509: ASN1err(ASN1_F_ASN1_SIGN,ERR_R_MALLOC_FAILURE)\n"); diagnostic = RS_SSL_HANDSHAKE_DIAGNOSTIC_MALLOC_ERROR ; goto err; } p=buf_in; #ifdef AUTHSSL_DEBUG std::cerr << "Buffers Allocated" << std::endl; #endif i2d(data,&p); /* data in buf_in, ready to be hashed */ EVP_DigestInit_ex(&ctx,type, NULL); EVP_DigestUpdate(&ctx,(unsigned char *)buf_in,inl); if (!EVP_DigestFinal(&ctx,(unsigned char *)buf_hashout, (unsigned int *)&hashoutl)) { hashoutl=0; fprintf(stderr, "AuthSSLimpl::AuthX509: ASN1err(ASN1_F_ASN1_SIGN,ERR_R_EVP_LIB)\n"); diagnostic = RS_SSL_HANDSHAKE_DIAGNOSTIC_MALLOC_ERROR ; goto err; } #ifdef AUTHSSL_DEBUG std::cerr << "Digest Applied: len: " << hashoutl << std::endl; #endif /* copy data into signature */ sigoutl = signature->length; memmove(buf_sigout, signature->data, sigoutl); /* NOW check sign via GPG Functions */ //get the fingerprint of the key that is supposed to sign #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::AuthX509() verifying the gpg sig with keyprint : " << pd.fpr << std::endl; std::cerr << "Sigoutl = " << sigoutl << std::endl ; std::cerr << "pd.fpr = " << pd.fpr << std::endl ; std::cerr << "hashoutl = " << hashoutl << std::endl ; #endif if (!AuthGPG::getAuthGPG()->VerifySignBin(buf_hashout, hashoutl, buf_sigout, (unsigned int) sigoutl, pd.fpr)) { sigoutl = 0; diagnostic = RS_SSL_HANDSHAKE_DIAGNOSTIC_WRONG_SIGNATURE ; goto err; } #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::AuthX509() X509 authenticated" << std::endl; #endif OPENSSL_free(buf_in) ; OPENSSL_free(buf_hashout) ; OPENSSL_free(buf_sigout) ; diagnostic = RS_SSL_HANDSHAKE_DIAGNOSTIC_OK ; return true; err: std::cerr << "AuthSSLimpl::AuthX509() X509 NOT authenticated" << std::endl; if(buf_in != NULL) OPENSSL_free(buf_in) ; if(buf_hashout != NULL) OPENSSL_free(buf_hashout) ; if(buf_sigout != NULL) OPENSSL_free(buf_sigout) ; return false; } /* validate + get id */ bool AuthSSLimpl::ValidateCertificate(X509 *x509, RsPeerId &peerId) { uint32_t auth_diagnostic ; /* check self signed */ if (!AuthX509WithGPG(x509,auth_diagnostic)) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::ValidateCertificate() bad certificate."; std::cerr << std::endl; #endif return false; } RsPeerId peerIdstr ; if(!getX509id(x509, peerIdstr)) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::ValidateCertificate() Cannot retrieve peer id from certificate.."; std::cerr << std::endl; #endif return false; } peerId = peerIdstr ; #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::ValidateCertificate() good certificate."; std::cerr << std::endl; #endif return true; } /********************************************************************************/ /********************************************************************************/ /**************************** encrypt / decrypt fns ****************************/ /********************************************************************************/ /********************************************************************************/ static int verify_x509_callback(int preverify_ok, X509_STORE_CTX *ctx) { #ifdef AUTHSSL_DEBUG std::cerr << "static verify_x509_callback called."; std::cerr << std::endl; #endif int verify = AuthSSL::getAuthSSL()->VerifyX509Callback(preverify_ok, ctx); X509 *x509 = X509_STORE_CTX_get_current_cert(ctx) ; if(x509 != NULL) { RsPgpId gpgid (std::string(getX509CNString(x509->cert_info->issuer))); if(gpgid.isNull()) { std::cerr << "verify_x509_callback(): wrong PGP id \"" << std::string(getX509CNString(x509->cert_info->issuer)) << "\"" << std::endl; return false ; } std::string sslcn = getX509CNString(x509->cert_info->subject); RsPeerId sslid ; getX509id(x509,sslid); if(sslid.isNull()) { std::cerr << "verify_x509_callback(): wrong SSL id \"" << std::string(getX509CNString(x509->cert_info->subject)) << "\"" << std::endl; return false ; } AuthSSL::getAuthSSL()->setCurrentConnectionAttemptInfo(gpgid,sslid,sslcn) ; } return verify; } int AuthSSLimpl::VerifyX509Callback(int preverify_ok, X509_STORE_CTX *ctx) { char buf[256]; X509 *err_cert; int err, depth; err_cert = X509_STORE_CTX_get_current_cert(ctx); err = X509_STORE_CTX_get_error(ctx); depth = X509_STORE_CTX_get_error_depth(ctx); #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::VerifyX509Callback(preverify_ok: " << preverify_ok << " Err: " << err << " Depth: " << depth << std::endl; #endif /* * Retrieve the pointer to the SSL of the connection currently treated * and the application specific data stored into the SSL object. */ X509_NAME_oneline(X509_get_subject_name(err_cert), buf, 256); #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::VerifyX509Callback: depth: " << depth << ":" << buf << std::endl; #endif if (!preverify_ok) { #ifdef AUTHSSL_DEBUG fprintf(stderr, "Verify error:num=%d:%s:depth=%d:%s\n", err, X509_verify_cert_error_string(err), depth, buf); #endif } /* * At this point, err contains the last verification error. We can use * it for something special */ if (!preverify_ok) { X509_NAME_oneline(X509_get_issuer_name(X509_STORE_CTX_get_current_cert(ctx)), buf, 256); #ifdef AUTHSSL_DEBUG printf("issuer= %s\n", buf); #endif #ifdef AUTHSSL_DEBUG fprintf(stderr, "Doing REAL PGP Certificates\n"); #endif uint32_t auth_diagnostic ; /* do the REAL Authentication */ if (!AuthX509WithGPG(X509_STORE_CTX_get_current_cert(ctx),auth_diagnostic)) { #ifdef AUTHSSL_DEBUG fprintf(stderr, "AuthSSLimpl::VerifyX509Callback() X509 not authenticated.\n"); #endif std::cerr << "(WW) Certificate was rejected because authentication failed. Diagnostic = " << auth_diagnostic << std::endl; return false; } RsPgpId pgpid = RsPgpId(std::string(getX509CNString(X509_STORE_CTX_get_current_cert(ctx)->cert_info->issuer))); if (pgpid != AuthGPG::getAuthGPG()->getGPGOwnId() && !AuthGPG::getAuthGPG()->isGPGAccepted(pgpid)) { #ifdef AUTHSSL_DEBUG fprintf(stderr, "AuthSSLimpl::VerifyX509Callback() pgp key not accepted : \n"); fprintf(stderr, "issuer pgpid : "); fprintf(stderr, "%s\n",pgpid.c_str()); fprintf(stderr, "\n AuthGPG::getAuthGPG()->getGPGOwnId() : "); fprintf(stderr, "%s\n",AuthGPG::getAuthGPG()->getGPGOwnId().c_str()); fprintf(stderr, "\n"); #endif return false; } preverify_ok = true; } else { #ifdef AUTHSSL_DEBUG fprintf(stderr, "A normal certificate is probably a security breach attempt. We sould fail it !!!\n"); #endif preverify_ok = false; } if (preverify_ok) { //sslcert *cert = NULL; RsPeerId certId; getX509id(X509_STORE_CTX_get_current_cert(ctx), certId); } #ifdef AUTHSSL_DEBUG if (preverify_ok) { fprintf(stderr, "AuthSSLimpl::VerifyX509Callback returned true.\n"); } else { fprintf(stderr, "AuthSSLimpl::VerifyX509Callback returned false.\n"); } #endif return preverify_ok; } /********************************************************************************/ /********************************************************************************/ /**************************** encrypt / decrypt fns ****************************/ /********************************************************************************/ /********************************************************************************/ bool AuthSSLimpl::encrypt(void *&out, int &outlen, const void *in, int inlen, const RsPeerId& peerId) { RsStackMutex stack(sslMtx); /******* LOCKED ******/ #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::encrypt() called for peerId : " << peerId << " with inlen : " << inlen << std::endl; #endif //TODO : use ssl to crypt the binary input buffer // out = malloc(inlen); // memcpy(out, in, inlen); // outlen = inlen; EVP_PKEY *public_key; if (peerId == mOwnId) { public_key = mOwnPublicKey; } else { if (!mCerts[peerId]) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::encrypt() public key not found." << std::endl; #endif return false; } else { public_key = mCerts[peerId]->certificate->cert_info->key->pkey; } } EVP_CIPHER_CTX ctx; int eklen, net_ekl; unsigned char *ek; unsigned char iv[EVP_MAX_IV_LENGTH]; EVP_CIPHER_CTX_init(&ctx); int out_currOffset = 0; int out_offset = 0; int max_evp_key_size = EVP_PKEY_size(public_key); ek = (unsigned char*)malloc(max_evp_key_size); const EVP_CIPHER *cipher = EVP_aes_128_cbc(); int cipher_block_size = EVP_CIPHER_block_size(cipher); int size_net_ekl = sizeof(net_ekl); int max_outlen = inlen + cipher_block_size + EVP_MAX_IV_LENGTH + max_evp_key_size + size_net_ekl; // intialize context and send store encrypted cipher in ek if(!EVP_SealInit(&ctx, EVP_aes_128_cbc(), &ek, &eklen, iv, &public_key, 1)) { free(ek); return false; } // now assign memory to out accounting for data, and cipher block size, key length, and key length val out = new unsigned char[inlen + cipher_block_size + size_net_ekl + eklen + EVP_MAX_IV_LENGTH]; net_ekl = htonl(eklen); memcpy((unsigned char*)out + out_offset, &net_ekl, size_net_ekl); out_offset += size_net_ekl; memcpy((unsigned char*)out + out_offset, ek, eklen); out_offset += eklen; memcpy((unsigned char*)out + out_offset, iv, EVP_MAX_IV_LENGTH); out_offset += EVP_MAX_IV_LENGTH; // now encrypt actual data if(!EVP_SealUpdate(&ctx, (unsigned char*) out + out_offset, &out_currOffset, (unsigned char*) in, inlen)) { free(ek); delete[] (unsigned char*) out; out = NULL; return false; } // move along to partial block space out_offset += out_currOffset; // add padding if(!EVP_SealFinal(&ctx, (unsigned char*) out + out_offset, &out_currOffset)) { free(ek); delete[] (unsigned char*) out; out = NULL; return false; } // move to end out_offset += out_currOffset; // make sure offset has not gone passed valid memory bounds if(out_offset > max_outlen) return false; // free encrypted key data free(ek); EVP_CIPHER_CTX_cleanup(&ctx); outlen = out_offset; #ifdef DISTRIB_DEBUG std::cerr << "Authssl::encrypt() finished with outlen : " << outlen << std::endl; #endif return true; } bool AuthSSLimpl::decrypt(void *&out, int &outlen, const void *in, int inlen) { RsStackMutex stack(sslMtx); /******* LOCKED ******/ #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::decrypt() called with inlen : " << inlen << std::endl; #endif //TODO : use ssl to decrypt the binary input buffer // out = malloc(inlen); // memcpy(out, in, inlen); // outlen = inlen; EVP_CIPHER_CTX ctx; int eklen = 0, net_ekl = 0; unsigned char *ek = NULL; unsigned char iv[EVP_MAX_IV_LENGTH]; int ek_mkl = EVP_PKEY_size(mOwnPrivateKey); ek = (unsigned char*)malloc(ek_mkl); EVP_CIPHER_CTX_init(&ctx); int in_offset = 0, out_currOffset = 0; int size_net_ekl = sizeof(net_ekl); if(size_net_ekl > inlen) { free(ek); return false; } memcpy(&net_ekl, (unsigned char*)in, size_net_ekl); eklen = ntohl(net_ekl); in_offset += size_net_ekl; if(eklen > (inlen-in_offset)) { free(ek); return false; } memcpy(ek, (unsigned char*)in + in_offset, eklen); in_offset += eklen; if(EVP_MAX_IV_LENGTH > (inlen-in_offset)) { free(ek); return false; } memcpy(iv, (unsigned char*)in + in_offset, EVP_MAX_IV_LENGTH); in_offset += EVP_MAX_IV_LENGTH; const EVP_CIPHER* cipher = EVP_aes_128_cbc(); if(0 == EVP_OpenInit(&ctx, cipher, ek, eklen, iv, mOwnPrivateKey)) { free(ek); return false; } out = new unsigned char[inlen - in_offset]; if(!EVP_OpenUpdate(&ctx, (unsigned char*) out, &out_currOffset, (unsigned char*)in + in_offset, inlen - in_offset)) { free(ek); delete[] (unsigned char*) out; out = NULL; return false; } in_offset += out_currOffset; outlen += out_currOffset; if(!EVP_OpenFinal(&ctx, (unsigned char*)out + out_currOffset, &out_currOffset)) { free(ek); delete[] (unsigned char*) out; out = NULL; return false; } outlen += out_currOffset; if(ek != NULL) free(ek); EVP_CIPHER_CTX_cleanup(&ctx); #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::decrypt() finished with outlen : " << outlen << std::endl; #endif return true; } /********************************************************************************/ /********************************************************************************/ /********************* Cert Search / Add / Remove **************************/ /********************************************************************************/ /********************************************************************************/ void AuthSSLimpl::setCurrentConnectionAttemptInfo(const RsPgpId& gpg_id,const RsPeerId& ssl_id,const std::string& ssl_cn) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSL: registering connection attempt from:" << std::endl; std::cerr << " GPG id: " << gpg_id << std::endl; std::cerr << " SSL id: " << ssl_id << std::endl; std::cerr << " SSL cn: " << ssl_cn << std::endl; #endif _last_gpgid_to_connect = gpg_id ; _last_sslid_to_connect = ssl_id ; _last_sslcn_to_connect = ssl_cn ; } void AuthSSLimpl::getCurrentConnectionAttemptInfo(RsPgpId& gpg_id,RsPeerId& ssl_id,std::string& ssl_cn) { gpg_id = _last_gpgid_to_connect ; ssl_id = _last_sslid_to_connect ; ssl_cn = _last_sslcn_to_connect ; } /* store for discovery */ bool AuthSSLimpl::FailedCertificate(X509 *x509, const RsPgpId& gpgid, const RsPeerId& sslid, const std::string& sslcn, const struct sockaddr_storage& addr, bool incoming) { std::string ip_address = sockaddr_storage_tostring(addr); uint32_t auth_diagnostic = 0 ; bool authed ; if(x509 == NULL) { auth_diagnostic = RS_SSL_HANDSHAKE_DIAGNOSTIC_CERTIFICATE_MISSING ; authed = false ; } else authed = AuthX509WithGPG(x509,auth_diagnostic) ; if(authed) LocalStoreCert(x509); #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::FailedCertificate() "; #endif if (incoming) { RsServer::notify()->AddPopupMessage(RS_POPUP_CONNECT_ATTEMPT, gpgid.toStdString(), sslcn, sslid.toStdString()); switch(auth_diagnostic) { case RS_SSL_HANDSHAKE_DIAGNOSTIC_CERTIFICATE_MISSING: RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_MISSING_CERTIFICATE, gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); break ; case RS_SSL_HANDSHAKE_DIAGNOSTIC_CERTIFICATE_NOT_VALID: RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_BAD_CERTIFICATE, gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); break ; case RS_SSL_HANDSHAKE_DIAGNOSTIC_ISSUER_UNKNOWN: RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_UNKNOWN_IN , gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); break ; case RS_SSL_HANDSHAKE_DIAGNOSTIC_MALLOC_ERROR: RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_INTERNAL_ERROR , gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); break ; case RS_SSL_HANDSHAKE_DIAGNOSTIC_WRONG_SIGNATURE: RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_WRONG_SIGNATURE, gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); break ; case RS_SSL_HANDSHAKE_DIAGNOSTIC_OK: case RS_SSL_HANDSHAKE_DIAGNOSTIC_UNKNOWN: default: RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_CONNECT_ATTEMPT, gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); } #ifdef AUTHSSL_DEBUG std::cerr << " Incoming from: "; #endif } else { if(authed) RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_AUTH_DENIED, gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); else RsServer::notify()->AddFeedItem(RS_FEED_ITEM_SEC_UNKNOWN_OUT, gpgid.toStdString(), sslid.toStdString(), sslcn, ip_address); #ifdef AUTHSSL_DEBUG std::cerr << " Outgoing to: "; #endif } #ifdef AUTHSSL_DEBUG std::cerr << "GpgId: " << gpgid << " SSLcn: " << sslcn << " peerId: " << sslid << ", ip address: " << ip_address; std::cerr << std::endl; #endif return false; } bool AuthSSLimpl::CheckCertificate(const RsPeerId& id, X509 *x509) { (void) id; /* remove unused parameter warning */ uint32_t diagnos ; /* if auths -> store */ if (AuthX509WithGPG(x509,diagnos)) { LocalStoreCert(x509); return true; } return false; } /* Locked search -> internal help function */ bool AuthSSLimpl::locked_FindCert(const RsPeerId& id, sslcert **cert) { std::map::iterator it; if (mCerts.end() != (it = mCerts.find(id))) { *cert = it->second; return true; } return false; } /* Remove Certificate */ bool AuthSSLimpl::RemoveX509(RsPeerId id) { std::map::iterator it; RsStackMutex stack(sslMtx); /******* LOCKED ******/ if (mCerts.end() != (it = mCerts.find(id))) { sslcert *cert = it->second; /* clean up */ X509_free(cert->certificate); cert->certificate = NULL; delete cert; mCerts.erase(it); return true; } return false; } bool AuthSSLimpl::LocalStoreCert(X509* x509) { //store the certificate in the local cert list RsPeerId peerId ; if(!getX509id(x509, peerId)) { std::cerr << "AuthSSLimpl::LocalStoreCert() Cannot retrieve peer id from certificate." << std::endl; #ifdef AUTHSSL_DEBUG #endif return false; } if(peerId.isNull()) { std::cerr << "AuthSSLimpl::LocalStoreCert(): invalid peer id \"" << peerId << "\"" << std::endl; return false ; } RsStackMutex stack(sslMtx); /******* LOCKED ******/ if (peerId == mOwnId) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::LocalStoreCert() not storing own certificate" << std::endl; #endif return false; } /* do a search */ std::map::iterator it; if (mCerts.end() != (it = mCerts.find(peerId))) { sslcert *cert = it->second; /* found something */ /* check that they are exact */ if (0 != X509_cmp(cert->certificate, x509)) { /* MAJOR ERROR */ std::cerr << "ERROR : AuthSSLimpl::LocalStoreCert() got two ssl certificates with identical ids -> dropping second"; std::cerr << std::endl; return false; } /* otherwise - we have it already */ return false; } #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::LocalStoreCert() storing certificate for " << peerId << std::endl; #endif mCerts[peerId] = new sslcert(X509_dup(x509), peerId); /* flag for saving config */ IndicateConfigChanged(); return true ; } /********************************************************************************/ /********************************************************************************/ /************************ Config Functions **********************************/ /********************************************************************************/ /********************************************************************************/ RsSerialiser *AuthSSLimpl::setupSerialiser() { RsSerialiser *rss = new RsSerialiser(); rss->addSerialType(new RsGeneralConfigSerialiser()); return rss ; } bool AuthSSLimpl::saveList(bool& cleanup, std::list& lst) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::saveList() called" << std::endl ; #endif RsStackMutex stack(sslMtx); /******* LOCKED ******/ cleanup = true ; // Now save config for network digging strategies RsConfigKeyValueSet *vitem = new RsConfigKeyValueSet ; std::map::iterator mapIt; for (mapIt = mCerts.begin(); mapIt != mCerts.end(); mapIt++) { if (mapIt->first == mOwnId) { continue; } RsTlvKeyValue kv; kv.key = mapIt->first.toStdString(); #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::saveList() called (mapIt->first) : " << (mapIt->first) << std::endl ; #endif kv.value = saveX509ToPEM(mapIt->second->certificate); vitem->tlvkvs.pairs.push_back(kv) ; } lst.push_back(vitem); return true ; } bool AuthSSLimpl::loadList(std::list& load) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::loadList() Item Count: " << load.size() << std::endl; #endif /* load the list of accepted gpg keys */ std::list::iterator it; for(it = load.begin(); it != load.end(); it++) { RsConfigKeyValueSet *vitem = dynamic_cast(*it); if(vitem) { #ifdef AUTHSSL_DEBUG std::cerr << "AuthSSLimpl::loadList() General Variable Config Item:" << std::endl; vitem->print(std::cerr, 10); std::cerr << std::endl; #endif std::list::iterator kit; for(kit = vitem->tlvkvs.pairs.begin(); kit != vitem->tlvkvs.pairs.end(); kit++) { if (RsPeerId(kit->key) == mOwnId) { continue; } X509 *peer = loadX509FromPEM(kit->value); /* authenticate it */ uint32_t diagnos ; if (AuthX509WithGPG(peer,diagnos)) { LocalStoreCert(peer); } } } delete (*it); } return true; } /********************************************************************************/ /********************************************************************************/ /********************************************************************************/ /********************************************************************************/ /********************************************************************************/