/* This file is part of the KDE libraries Copyright (C) 2001-2003 George Staikos 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; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifdef HAVE_CONFIG_H #include #endif #ifdef KSSL_HAVE_SSL #include #endif #include #include #include #include #include #include #include #include "kopenssl.h" #define GET_CRYPTOLIB_SYMBOL(a) ((_cryptoLib->hasSymbol(a)) ? _cryptoLib->symbol(a) : NULL) #define GET_SSLLIB_SYMBOL(a) ((_sslLib->hasSymbol(a)) ? _sslLib->symbol(a) : NULL) extern "C" { #ifdef KSSL_HAVE_SSL static int (*K_SSL_connect) (SSL *) = 0L; static int (*K_SSL_accept) (SSL *) = 0L; static int (*K_SSL_read) (SSL *, void *, int) = 0L; static int (*K_SSL_write) (SSL *, const void *, int) = 0L; static SSL *(*K_SSL_new) (SSL_CTX *) = 0L; static void (*K_SSL_free) (SSL *) = 0L; static int (*K_SSL_shutdown) (SSL *) = 0L; static SSL_CTX *(*K_SSL_CTX_new)(SSL_METHOD *) = 0L; static void (*K_SSL_CTX_free) (SSL_CTX *) = 0L; static int (*K_SSL_set_fd) (SSL *, int) = 0L; static int (*K_SSL_pending) (SSL *) = 0L; static int (*K_SSL_peek) (SSL *, void *, int) = 0L; static int (*K_SSL_CTX_set_cipher_list)(SSL_CTX *, const char *) = 0L; static void (*K_SSL_CTX_set_verify)(SSL_CTX *, int, int (*)(int, X509_STORE_CTX *)) = 0L; static int (*K_SSL_use_certificate)(SSL *, X509 *) = 0L; static SSL_CIPHER *(*K_SSL_get_current_cipher)(SSL *) = 0L; static long (*K_SSL_ctrl) (SSL *,int, long, char *) = 0L; static int (*K_RAND_egd) (const char *) = 0L; static const char* (*K_RAND_file_name) (char *, size_t) = 0L; static int (*K_RAND_load_file) (const char *, long) = 0L; static int (*K_RAND_write_file) (const char *) = 0L; static SSL_METHOD * (*K_TLSv1_client_method) () = 0L; static SSL_METHOD * (*K_SSLv2_client_method) () = 0L; static SSL_METHOD * (*K_SSLv3_client_method) () = 0L; static SSL_METHOD * (*K_SSLv23_client_method) () = 0L; static X509 * (*K_SSL_get_peer_certificate) (SSL *) = 0L; static int (*K_SSL_CIPHER_get_bits) (SSL_CIPHER *,int *) = 0L; static char * (*K_SSL_CIPHER_get_version) (SSL_CIPHER *) = 0L; static const char * (*K_SSL_CIPHER_get_name) (SSL_CIPHER *) = 0L; static char * (*K_SSL_CIPHER_description) (SSL_CIPHER *, char *, int) = 0L; static X509 * (*K_d2i_X509) (X509 **,unsigned char **,long) = 0L; static X509_CRL * (*K_d2i_X509_CRL) (X509_CRL **,unsigned char **,long) = 0L; static int (*K_i2d_X509) (X509 *,unsigned char **) = 0L; static int (*K_X509_cmp) (X509 *, X509 *) = 0L; static void (*K_X509_STORE_CTX_free) (X509_STORE_CTX *) = 0L; static int (*K_X509_verify_cert) (X509_STORE_CTX *) = 0L; static X509_STORE_CTX *(*K_X509_STORE_CTX_new) (void) = 0L; static void (*K_X509_STORE_free) (X509_STORE *) = 0L; static X509_STORE *(*K_X509_STORE_new) (void) = 0L; static void (*K_X509_free) (X509 *) = 0L; static char *(*K_X509_NAME_oneline) (X509_NAME *,char *,int) = 0L; static X509_NAME *(*K_X509_get_subject_name) (X509 *) = 0L; static X509_NAME *(*K_X509_get_issuer_name) (X509 *) = 0L; static X509_LOOKUP *(*K_X509_STORE_add_lookup) (X509_STORE *, X509_LOOKUP_METHOD *) = 0L; static X509_LOOKUP_METHOD *(*K_X509_LOOKUP_file)(void) = 0L; static void (*K_X509_LOOKUP_free)(X509_LOOKUP *) = 0L; static int (*K_X509_LOOKUP_ctrl)(X509_LOOKUP *, int, const char *, long, char **) = 0L; static void (*K_X509_STORE_CTX_init)(X509_STORE_CTX *, X509_STORE *, X509 *, STACK_OF(X509) *) = 0L; static void (*K_CRYPTO_free) (void *) = 0L; static X509* (*K_X509_dup) (X509 *) = 0L; static BIO_METHOD *(*K_BIO_s_mem) (void) = 0L; static BIO* (*K_BIO_new) (BIO_METHOD *) = 0L; static BIO* (*K_BIO_new_fp) (FILE *, int) = 0L; static BIO* (*K_BIO_new_mem_buf) (void *, int) = 0L; static int (*K_BIO_free) (BIO *) = 0L; static long (*K_BIO_ctrl) (BIO *,int,long,void *) = 0L; static int (*K_BIO_write) (BIO *b, const void *data, int len) = 0L; static int (*K_PEM_ASN1_write_bio) (int (*)(),const char *,BIO *,char *, const EVP_CIPHER *,unsigned char *,int , pem_password_cb *, void *) = 0L; #if OPENSSL_VERSION_NUMBER >= 0x10000000L static int (*K_ASN1_item_i2d_fp)(ASN1_ITEM *,FILE *,unsigned char *) = 0L; static ASN1_ITEM *K_NETSCAPE_X509_it = 0L; #else static ASN1_METHOD* (*K_X509_asn1_meth) (void) = 0L; static int (*K_ASN1_i2d_fp)(int (*)(),FILE *,unsigned char *) = 0L; static int (*K_i2d_ASN1_HEADER)(ASN1_HEADER *, unsigned char **) = 0L; #endif static int (*K_X509_print_fp) (FILE *, X509*) = 0L; static int (*K_i2d_PKCS12) (PKCS12*, unsigned char**) = 0L; static int (*K_i2d_PKCS12_fp) (FILE *, PKCS12*) = 0L; static int (*K_PKCS12_newpass) (PKCS12*, char*, char*) = 0L; static PKCS12* (*K_d2i_PKCS12_fp) (FILE*, PKCS12**) = 0L; static PKCS12* (*K_PKCS12_new) (void) = 0L; static void (*K_PKCS12_free) (PKCS12 *) = 0L; static int (*K_PKCS12_parse) (PKCS12*, const char *, EVP_PKEY**, X509**, STACK_OF(X509)**) = 0L; static void (*K_EVP_PKEY_free) (EVP_PKEY *) = 0L; static EVP_PKEY* (*K_EVP_PKEY_new) () = 0L; static void (*K_X509_REQ_free) (X509_REQ *) = 0L; static X509_REQ* (*K_X509_REQ_new) () = 0L; static int (*K_SSL_CTX_use_PrivateKey) (SSL_CTX*, EVP_PKEY*) = 0L; static int (*K_SSL_CTX_use_certificate) (SSL_CTX*, X509*) = 0L; static int (*K_SSL_get_error) (SSL*, int) = 0L; static STACK_OF(X509)* (*K_SSL_get_peer_cert_chain) (SSL*) = 0L; static void (*K_X509_STORE_CTX_set_chain) (X509_STORE_CTX *, STACK_OF(X509)*) = 0L; static void (*K_X509_STORE_CTX_set_purpose) (X509_STORE_CTX *, int) = 0L; static void (*K_sk_free) (STACK*) = 0L; static int (*K_sk_num) (STACK*) = 0L; static char* (*K_sk_pop) (STACK*) = 0L; static char* (*K_sk_value) (STACK*, int) = 0L; static STACK* (*K_sk_new) (int (*)()) = 0L; static int (*K_sk_push) (STACK*, char*) = 0L; static STACK* (*K_sk_dup) (STACK *) = 0L; static char * (*K_i2s_ASN1_INTEGER) (X509V3_EXT_METHOD *, ASN1_INTEGER *) =0L; static ASN1_INTEGER * (*K_X509_get_serialNumber) (X509 *) = 0L; static EVP_PKEY *(*K_X509_get_pubkey)(X509 *) = 0L; static int (*K_i2d_PublicKey)(EVP_PKEY *, unsigned char **) = 0L; static int (*K_X509_check_private_key)(X509 *, EVP_PKEY *) = 0L; static char * (*K_BN_bn2hex)(const BIGNUM *) = 0L; static int (*K_X509_digest)(const X509 *,const EVP_MD *, unsigned char *, unsigned int *) = 0L; static EVP_MD* (*K_EVP_md5)() = 0L; static void (*K_ASN1_INTEGER_free)(ASN1_INTEGER *) = 0L; static int (*K_OBJ_obj2nid)(ASN1_OBJECT *) = 0L; static const char * (*K_OBJ_nid2ln)(int) = 0L; static int (*K_X509_get_ext_count)(X509*) = 0L; static int (*K_X509_get_ext_by_NID)(X509*, int, int) = 0L; static int (*K_X509_get_ext_by_OBJ)(X509*,ASN1_OBJECT*,int) = 0L; static X509_EXTENSION *(*K_X509_get_ext)(X509*, int loc) = 0L; static X509_EXTENSION *(*K_X509_delete_ext)(X509*, int) = 0L; static int (*K_X509_add_ext)(X509*, X509_EXTENSION*, int) = 0L; static void *(*K_X509_get_ext_d2i)(X509*, int, int*, int*) = 0L; static char *(*K_i2s_ASN1_OCTET_STRING)(X509V3_EXT_METHOD*, ASN1_OCTET_STRING*) = 0L; static int (*K_ASN1_BIT_STRING_get_bit)(ASN1_BIT_STRING*, int) = 0L; static PKCS7 *(*K_PKCS7_new)() = 0L; static void (*K_PKCS7_free)(PKCS7*) = 0L; static void (*K_PKCS7_content_free)(PKCS7*) = 0L; static int (*K_i2d_PKCS7)(PKCS7*, unsigned char**) = 0L; static PKCS7 *(*K_d2i_PKCS7)(PKCS7**, unsigned char**,long) = 0L; static int (*K_i2d_PKCS7_fp)(FILE*,PKCS7*) = 0L; static PKCS7* (*K_d2i_PKCS7_fp)(FILE*,PKCS7**) = 0L; static int (*K_i2d_PKCS7_bio)(BIO *bp,PKCS7 *p7) = 0L; static PKCS7 *(*K_d2i_PKCS7_bio)(BIO *bp,PKCS7 **p7) = 0L; static PKCS7* (*K_PKCS7_dup)(PKCS7*) = 0L; static STACK_OF(X509_NAME) *(*K_SSL_load_client_CA_file)(const char*) = 0L; static STACK_OF(X509_INFO) *(*K_PEM_X509_INFO_read)(FILE*, STACK_OF(X509_INFO)*, pem_password_cb*, void*) = 0L; static char *(*K_ASN1_d2i_fp)(char *(*)(),char *(*)(),FILE*,unsigned char**) = 0L; static X509 *(*K_X509_new)() = 0L; static int (*K_X509_PURPOSE_get_count)() = 0L; static int (*K_X509_PURPOSE_get_id)(X509_PURPOSE *) = 0L; static int (*K_X509_check_purpose)(X509*,int,int) = 0L; static X509_PURPOSE* (*K_X509_PURPOSE_get0)(int) = 0L; static int (*K_EVP_PKEY_assign)(EVP_PKEY*, int, char*) = 0L; static int (*K_X509_REQ_set_pubkey)(X509_REQ*, EVP_PKEY*) = 0L; static RSA *(*K_RSA_generate_key)(int, unsigned long, void (*)(int,int,void *), void *) = 0L; static int (*K_i2d_X509_REQ_fp)(FILE*, X509_REQ*) = 0L; static void (*K_ERR_clear_error)() = 0L; static unsigned long (*K_ERR_get_error)() = 0L; static void (*K_ERR_print_errors_fp)(FILE*) = 0L; static PKCS7 *(*K_PKCS7_sign)(X509*, EVP_PKEY*, STACK_OF(X509)*, BIO*, int) = 0L; static int (*K_PKCS7_verify)(PKCS7*,STACK_OF(X509)*,X509_STORE*,BIO*,BIO*,int) = 0L; static STACK_OF(X509) *(*K_PKCS7_get0_signers)(PKCS7 *, STACK_OF(X509) *, int) = 0L; static PKCS7 *(*K_PKCS7_encrypt)(STACK_OF(X509) *, BIO *, EVP_CIPHER *, int) = 0L; static int (*K_PKCS7_decrypt)(PKCS7 *, EVP_PKEY *, X509 *, BIO *, int) = 0L; static SSL_SESSION* (*K_SSL_get1_session)(SSL*) = 0L; static void (*K_SSL_SESSION_free)(SSL_SESSION*) = 0L; static int (*K_SSL_set_session)(SSL*,SSL_SESSION*) = 0L; static SSL_SESSION* (*K_d2i_SSL_SESSION)(SSL_SESSION**,unsigned char**, long) = 0L; static int (*K_i2d_SSL_SESSION)(SSL_SESSION*,unsigned char**) = 0L; static STACK *(*K_X509_get1_email)(X509 *x) = 0L; static void (*K_X509_email_free)(STACK *sk) = 0L; static EVP_CIPHER *(*K_EVP_des_ede3_cbc)() = 0L; static EVP_CIPHER *(*K_EVP_des_cbc)() = 0L; static EVP_CIPHER *(*K_EVP_rc2_cbc)() = 0L; static EVP_CIPHER *(*K_EVP_rc2_64_cbc)() = 0L; static EVP_CIPHER *(*K_EVP_rc2_40_cbc)() = 0L; static int (*K_i2d_PrivateKey_fp)(FILE*,EVP_PKEY*) = 0L; static int (*K_i2d_PKCS8PrivateKey_fp)(FILE*, EVP_PKEY*, const EVP_CIPHER*, char*, int, pem_password_cb*, void*) = 0L; static void (*K_RSA_free)(RSA*) = 0L; static EVP_CIPHER *(*K_EVP_bf_cbc)() = 0L; static int (*K_X509_REQ_sign)(X509_REQ*, EVP_PKEY*, const EVP_MD*) = 0L; static int (*K_X509_NAME_add_entry_by_txt)(X509_NAME*, char*, int, unsigned char*, int, int, int) = 0L; static X509_NAME *(*K_X509_NAME_new)() = 0L; static int (*K_X509_REQ_set_subject_name)(X509_REQ*,X509_NAME*) = 0L; static unsigned char *(*K_ASN1_STRING_data)(ASN1_STRING*) = 0L; static int (*K_ASN1_STRING_length)(ASN1_STRING*) = 0L; static STACK_OF(SSL_CIPHER) *(*K_SSL_get_ciphers)(const SSL *ssl) = 0L; #endif } bool KOpenSSLProxy::hasLibSSL() const { return _sslLib != 0L; } bool KOpenSSLProxy::hasLibCrypto() const { return _cryptoLib != 0L; } void KOpenSSLProxy::destroy() { delete this; _me = 0L; } #ifdef __OpenBSD__ #include #include #include static TQString findMostRecentLib(TQString dir, TQString name) { // Grab all shared libraries in the directory TQString filter = "lib"+name+".so.*"; TQDir d(dir, filter); if (!d.exists()) return 0L; TQStringList l = d.entryList(); // Find the best one int bestmaj = -1; int bestmin = -1; TQString best = 0L; // where do we start uint s = filter.length()-1; for (TQStringList::Iterator it = l.begin(); it != l.end(); ++it) { TQString numberpart = (*it).mid(s); uint endmaj = numberpart.find('.'); if (endmaj == -1) continue; bool ok; int maj = numberpart.left(endmaj).toInt(&ok); if (!ok) continue; int min = numberpart.mid(endmaj+1).toInt(&ok); if (!ok) continue; if (maj > bestmaj || (maj == bestmaj && min > bestmin)) { bestmaj = maj; bestmin = min; best = (*it); } } if (best.isNull()) return 0L; else return dir+"/"+best; } #endif KOpenSSLProxy::KOpenSSLProxy() { KLibLoader *ll = KLibLoader::self(); _ok = false; TQStringList libpaths, libnamesc, libnamess; KConfig *cfg; _cryptoLib = 0L; _sslLib = 0L; cfg = new KConfig("cryptodefaults", false, false); cfg->setGroup("OpenSSL"); TQString upath = cfg->readPathEntry("Path"); if (!upath.isEmpty()) libpaths << upath; delete cfg; #ifdef __OpenBSD__ { TQString libname = findMostRecentLib("/usr/lib" KDELIBSUFF, "crypto"); if (!libname.isNull()) _cryptoLib = ll->globalLibrary(libname.latin1()); } #elif defined(__CYGWIN__) libpaths << "/usr/bin/" << "/usr/local/bin" << "/usr/local/openssl/bin" << "/opt/openssl/bin" << "/opt/trinity/bin" << ""; libnamess << "cygssl-0.9.7.dll" << "cygssl.dll" << "libssl.dll" << ""; libnamesc << "cygcrypto.dll" << "libcrypto.dll" << ""; #else libpaths #ifdef _AIX << "/opt/freeware/lib/" #endif << "/usr/lib" KDELIBSUFF "/" << "/usr/ssl/lib" KDELIBSUFF "/" << "/usr/local/lib" KDELIBSUFF "/" << "/usr/local/openssl/lib" KDELIBSUFF "/" << "/usr/local/ssl/lib" KDELIBSUFF "/" << "/opt/openssl/lib" KDELIBSUFF "/" << "/lib" KDELIBSUFF "/" << ""; // FIXME: #define here for the various OS types to optimize libnamess #ifdef hpux << "libssl.sl" #elif defined(_AIX) << "libssl.a(libssl.so.0)" #elif defined(__APPLE__) << "libssl.dylib" << "libssl.0.9.dylib" #else #ifdef SHLIB_VERSION_NUMBER << "libssl.so." SHLIB_VERSION_NUMBER #endif << "libssl.so" << "libssl.so.0" #endif ; libnamesc #ifdef hpux << "libcrypto.sl" #elif defined(_AIX) << "libcrypto.a(libcrypto.so.0)" #elif defined(__APPLE__) << "libcrypto.dylib" << "libcrypto.0.9.dylib" #else #ifdef SHLIB_VERSION_NUMBER << "libcrypto.so." SHLIB_VERSION_NUMBER #endif << "libcrypto.so" << "libcrypto.so.0" #endif ; #endif for (TQStringList::Iterator it = libpaths.begin(); it != libpaths.end(); ++it) { for (TQStringList::Iterator shit = libnamesc.begin(); shit != libnamesc.end(); ++shit) { TQString alib = *it; if (!alib.isEmpty() && !alib.endsWith("/")) alib += "/"; alib += *shit; TQString tmpStr(alib.latin1()); tmpStr.replace(TQRegExp("\\(.*\\)"), ""); if (!access(tmpStr.latin1(), R_OK)) _cryptoLib = ll->globalLibrary(alib.latin1()); if (!_cryptoLib) { // Multiarch triplet search TQDir madir (*it); TQStringList multiarchdirs = madir.entryList("*-*-*", TQDir::Dirs); for (TQStringList::Iterator mait = multiarchdirs.begin(); mait != multiarchdirs.end(); ++mait ) { TQString malib = *it + *mait + "/" + *shit; TQString tmpStr(malib.latin1()); tmpStr.replace(TQRegExp("\\(.*\\)"), ""); if (!access(tmpStr.latin1(), R_OK)) _cryptoLib = ll->globalLibrary(malib.latin1()); } } if (_cryptoLib) break; } if (_cryptoLib) break; } if (_cryptoLib) { #ifdef KSSL_HAVE_SSL K_X509_free = (void (*) (X509 *)) GET_CRYPTOLIB_SYMBOL("X509_free"); K_RAND_egd = (int (*)(const char *)) GET_CRYPTOLIB_SYMBOL("RAND_egd"); K_RAND_load_file = (int (*)(const char *, long)) GET_CRYPTOLIB_SYMBOL("RAND_load_file"); K_RAND_file_name = (const char* (*)(char *, size_t)) GET_CRYPTOLIB_SYMBOL("RAND_file_name"); K_RAND_write_file = (int (*)(const char *)) GET_CRYPTOLIB_SYMBOL("RAND_write_file"); K_CRYPTO_free = (void (*) (void *)) GET_CRYPTOLIB_SYMBOL("CRYPTO_free"); K_d2i_X509 = (X509 * (*)(X509 **,unsigned char **,long)) GET_CRYPTOLIB_SYMBOL("d2i_X509"); K_d2i_X509_CRL = (X509_CRL * (*)(X509_CRL **,unsigned char **,long)) GET_CRYPTOLIB_SYMBOL("d2i_X509_CRL"); K_i2d_X509 = (int (*)(X509 *,unsigned char **)) GET_CRYPTOLIB_SYMBOL("i2d_X509"); K_X509_cmp = (int (*)(X509 *, X509 *)) GET_CRYPTOLIB_SYMBOL("X509_cmp"); K_X509_STORE_CTX_new = (X509_STORE_CTX * (*) (void)) GET_CRYPTOLIB_SYMBOL("X509_STORE_CTX_new"); K_X509_STORE_CTX_free = (void (*) (X509_STORE_CTX *)) GET_CRYPTOLIB_SYMBOL("X509_STORE_CTX_free"); K_X509_verify_cert = (int (*) (X509_STORE_CTX *)) GET_CRYPTOLIB_SYMBOL("X509_verify_cert"); K_X509_STORE_new = (X509_STORE * (*) (void)) GET_CRYPTOLIB_SYMBOL("X509_STORE_new"); K_X509_STORE_free = (void (*) (X509_STORE *)) GET_CRYPTOLIB_SYMBOL("X509_STORE_free"); K_X509_NAME_oneline = (char * (*) (X509_NAME *,char *,int)) GET_CRYPTOLIB_SYMBOL("X509_NAME_oneline"); K_X509_get_subject_name = (X509_NAME * (*) (X509 *)) GET_CRYPTOLIB_SYMBOL("X509_get_subject_name"); K_X509_get_issuer_name = (X509_NAME * (*) (X509 *)) GET_CRYPTOLIB_SYMBOL("X509_get_issuer_name"); K_X509_STORE_add_lookup = (X509_LOOKUP *(*) (X509_STORE *, X509_LOOKUP_METHOD *)) GET_CRYPTOLIB_SYMBOL("X509_STORE_add_lookup"); K_X509_LOOKUP_file = (X509_LOOKUP_METHOD *(*)(void)) GET_CRYPTOLIB_SYMBOL("X509_LOOKUP_file"); K_X509_LOOKUP_free = (void (*)(X509_LOOKUP *)) GET_CRYPTOLIB_SYMBOL("X509_LOOKUP_free"); K_X509_LOOKUP_ctrl = (int (*)(X509_LOOKUP *, int, const char *, long, char **)) GET_CRYPTOLIB_SYMBOL("X509_LOOKUP_ctrl"); K_X509_STORE_CTX_init = (void (*)(X509_STORE_CTX *, X509_STORE *, X509 *, STACK_OF(X509) *)) GET_CRYPTOLIB_SYMBOL("X509_STORE_CTX_init"); K_X509_dup = (X509* (*)(X509*)) GET_CRYPTOLIB_SYMBOL("X509_dup"); K_BIO_s_mem = (BIO_METHOD *(*) (void)) GET_CRYPTOLIB_SYMBOL("BIO_s_mem"); K_BIO_new = (BIO* (*)(BIO_METHOD *)) GET_CRYPTOLIB_SYMBOL("BIO_new"); K_BIO_new_fp = (BIO* (*)(FILE*, int)) GET_CRYPTOLIB_SYMBOL("BIO_new_fp"); K_BIO_new_mem_buf = (BIO* (*)(void *, int)) GET_CRYPTOLIB_SYMBOL("BIO_new_mem_buf"); K_BIO_free = (int (*)(BIO*)) GET_CRYPTOLIB_SYMBOL("BIO_free"); K_BIO_ctrl = (long (*) (BIO *,int,long,void *)) GET_CRYPTOLIB_SYMBOL("BIO_ctrl"); K_BIO_write = (int (*) (BIO *b, const void *data, int len)) GET_CRYPTOLIB_SYMBOL("BIO_write"); K_PEM_ASN1_write_bio = (int (*)(int (*)(), const char *,BIO*, char*, const EVP_CIPHER *, unsigned char *, int, pem_password_cb *, void *)) GET_CRYPTOLIB_SYMBOL("PEM_ASN1_write_bio"); #if OPENSSL_VERSION_NUMBER >= 0x10000000L K_ASN1_item_i2d_fp = (int (*)(ASN1_ITEM *, FILE*, unsigned char *)) GET_CRYPTOLIB_SYMBOL("ASN1_item_i2d_fp"); K_NETSCAPE_X509_it = (ASN1_ITEM *) GET_CRYPTOLIB_SYMBOL("NETSCAPE_X509_it"); #else K_X509_asn1_meth = (ASN1_METHOD* (*)(void)) GET_CRYPTOLIB_SYMBOL("X509_asn1_meth"); K_ASN1_i2d_fp = (int (*)(int (*)(), FILE*, unsigned char *)) GET_CRYPTOLIB_SYMBOL("ASN1_i2d_fp"); K_i2d_ASN1_HEADER = (int (*)(ASN1_HEADER *, unsigned char **)) GET_CRYPTOLIB_SYMBOL("i2d_ASN1_HEADER"); #endif K_X509_print_fp = (int (*)(FILE*, X509*)) GET_CRYPTOLIB_SYMBOL("X509_print_fp"); K_i2d_PKCS12 = (int (*)(PKCS12*, unsigned char**)) GET_CRYPTOLIB_SYMBOL("i2d_PKCS12"); K_i2d_PKCS12_fp = (int (*)(FILE *, PKCS12*)) GET_CRYPTOLIB_SYMBOL("i2d_PKCS12_fp"); K_PKCS12_newpass = (int (*)(PKCS12*, char*, char*)) GET_CRYPTOLIB_SYMBOL("PKCS12_newpass"); K_d2i_PKCS12_fp = (PKCS12* (*)(FILE*, PKCS12**)) GET_CRYPTOLIB_SYMBOL("d2i_PKCS12_fp"); K_PKCS12_new = (PKCS12* (*)()) GET_CRYPTOLIB_SYMBOL("PKCS12_new"); K_PKCS12_free = (void (*)(PKCS12 *)) GET_CRYPTOLIB_SYMBOL("PKCS12_free"); K_PKCS12_parse = (int (*)(PKCS12*, const char *, EVP_PKEY**, X509**, STACK_OF(X509)**)) GET_CRYPTOLIB_SYMBOL("PKCS12_parse"); K_EVP_PKEY_free = (void (*) (EVP_PKEY *)) GET_CRYPTOLIB_SYMBOL("EVP_PKEY_free"); K_EVP_PKEY_new = (EVP_PKEY* (*)()) GET_CRYPTOLIB_SYMBOL("EVP_PKEY_new"); K_X509_REQ_free = (void (*)(X509_REQ*)) GET_CRYPTOLIB_SYMBOL("X509_REQ_free"); K_X509_REQ_new = (X509_REQ* (*)()) GET_CRYPTOLIB_SYMBOL("X509_REQ_new"); K_X509_STORE_CTX_set_chain = (void (*)(X509_STORE_CTX *, STACK_OF(X509)*)) GET_CRYPTOLIB_SYMBOL("X509_STORE_CTX_set_chain"); K_X509_STORE_CTX_set_purpose = (void (*)(X509_STORE_CTX *, int)) GET_CRYPTOLIB_SYMBOL("X509_STORE_CTX_set_purpose"); K_sk_free = (void (*) (STACK *)) GET_CRYPTOLIB_SYMBOL("sk_free"); K_sk_num = (int (*) (STACK *)) GET_CRYPTOLIB_SYMBOL("sk_num"); K_sk_pop = (char* (*) (STACK *)) GET_CRYPTOLIB_SYMBOL("sk_pop"); K_sk_value = (char* (*) (STACK *, int)) GET_CRYPTOLIB_SYMBOL("sk_value"); K_sk_new = (STACK* (*) (int (*)())) GET_CRYPTOLIB_SYMBOL("sk_new"); K_sk_push = (int (*) (STACK*, char*)) GET_CRYPTOLIB_SYMBOL("sk_push"); K_sk_dup = (STACK* (*) (STACK *)) GET_CRYPTOLIB_SYMBOL("sk_dup"); K_i2s_ASN1_INTEGER = (char *(*) (X509V3_EXT_METHOD *, ASN1_INTEGER *)) GET_CRYPTOLIB_SYMBOL("i2s_ASN1_INTEGER"); K_X509_get_serialNumber = (ASN1_INTEGER * (*) (X509 *)) GET_CRYPTOLIB_SYMBOL("X509_get_serialNumber"); K_X509_get_pubkey = (EVP_PKEY *(*)(X509 *)) GET_CRYPTOLIB_SYMBOL("X509_get_pubkey"); K_i2d_PublicKey = (int (*)(EVP_PKEY *, unsigned char **)) GET_CRYPTOLIB_SYMBOL("i2d_PublicKey"); K_X509_check_private_key = (int (*)(X509 *, EVP_PKEY *)) GET_CRYPTOLIB_SYMBOL("X509_check_private_key"); K_BN_bn2hex = (char *(*)(const BIGNUM *)) GET_CRYPTOLIB_SYMBOL("BN_bn2hex"); K_X509_digest = (int (*)(const X509 *,const EVP_MD *, unsigned char *, unsigned int *)) GET_CRYPTOLIB_SYMBOL("X509_digest"); K_EVP_md5 = (EVP_MD *(*)()) GET_CRYPTOLIB_SYMBOL("EVP_md5"); K_ASN1_INTEGER_free = (void (*)(ASN1_INTEGER *)) GET_CRYPTOLIB_SYMBOL("ASN1_INTEGER_free"); K_OBJ_obj2nid = (int (*)(ASN1_OBJECT *)) GET_CRYPTOLIB_SYMBOL("OBJ_obj2nid"); K_OBJ_nid2ln = (const char *(*)(int)) GET_CRYPTOLIB_SYMBOL("OBJ_nid2ln"); K_X509_get_ext_count = (int (*)(X509*)) GET_CRYPTOLIB_SYMBOL("X509_get_ext_count"); K_X509_get_ext_by_NID = (int (*)(X509*,int,int)) GET_CRYPTOLIB_SYMBOL("X509_get_ext_by_NID"); K_X509_get_ext_by_OBJ = (int (*)(X509*,ASN1_OBJECT*,int)) GET_CRYPTOLIB_SYMBOL("X509_get_ext_by_OBJ"); K_X509_get_ext = (X509_EXTENSION* (*)(X509*,int)) GET_CRYPTOLIB_SYMBOL("X509_get_ext"); K_X509_delete_ext = (X509_EXTENSION* (*)(X509*,int)) GET_CRYPTOLIB_SYMBOL("X509_delete_ext"); K_X509_add_ext = (int (*)(X509*,X509_EXTENSION*,int)) GET_CRYPTOLIB_SYMBOL("X509_add_ext"); K_X509_get_ext_d2i = (void* (*)(X509*,int,int*,int*)) GET_CRYPTOLIB_SYMBOL("X509_get_ext_d2i"); K_i2s_ASN1_OCTET_STRING = (char *(*)(X509V3_EXT_METHOD*,ASN1_OCTET_STRING*)) GET_CRYPTOLIB_SYMBOL("i2s_ASN1_OCTET_STRING"); K_ASN1_BIT_STRING_get_bit = (int (*)(ASN1_BIT_STRING*,int)) GET_CRYPTOLIB_SYMBOL("ASN1_BIT_STRING_get_bit"); K_PKCS7_new = (PKCS7 *(*)()) GET_CRYPTOLIB_SYMBOL("PKCS7_new"); K_PKCS7_free = (void (*)(PKCS7*)) GET_CRYPTOLIB_SYMBOL("PKCS7_free"); K_PKCS7_content_free = (void (*)(PKCS7*)) GET_CRYPTOLIB_SYMBOL("PKCS7_content_free"); K_i2d_PKCS7 = (int (*)(PKCS7*, unsigned char**)) GET_CRYPTOLIB_SYMBOL("i2d_PKCS7"); K_i2d_PKCS7_fp = (int (*)(FILE*,PKCS7*)) GET_CRYPTOLIB_SYMBOL("i2d_PKCS7_fp"); K_i2d_PKCS7_bio = (int (*)(BIO *bp,PKCS7 *p7)) GET_CRYPTOLIB_SYMBOL("i2d_PKCS7_bio"); K_d2i_PKCS7 = (PKCS7* (*)(PKCS7**,unsigned char**,long)) GET_CRYPTOLIB_SYMBOL("d2i_PKCS7"); K_d2i_PKCS7_fp = (PKCS7 *(*)(FILE *,PKCS7**)) GET_CRYPTOLIB_SYMBOL("d2i_PKCS7_fp"); K_d2i_PKCS7_bio = (PKCS7 *(*)(BIO *bp,PKCS7 **p7)) GET_CRYPTOLIB_SYMBOL("d2i_PKCS7_bio"); K_PKCS7_dup = (PKCS7* (*)(PKCS7*)) GET_CRYPTOLIB_SYMBOL("PKCS7_dup"); K_PKCS7_sign = (PKCS7 *(*)(X509*, EVP_PKEY*, STACK_OF(X509)*, BIO*, int)) GET_CRYPTOLIB_SYMBOL("PKCS7_sign"); K_PKCS7_verify = (int (*)(PKCS7*,STACK_OF(X509)*,X509_STORE*,BIO*,BIO*,int)) GET_CRYPTOLIB_SYMBOL("PKCS7_verify"); K_PKCS7_get0_signers = (STACK_OF(X509) *(*)(PKCS7 *, STACK_OF(X509) *, int)) GET_CRYPTOLIB_SYMBOL("PKCS7_get0_signers"); K_PKCS7_encrypt = (PKCS7* (*)(STACK_OF(X509) *, BIO *, EVP_CIPHER *, int)) GET_CRYPTOLIB_SYMBOL("PKCS7_encrypt"); K_PKCS7_decrypt = (int (*)(PKCS7 *, EVP_PKEY *, X509 *, BIO *, int)) GET_CRYPTOLIB_SYMBOL("PKCS7_decrypt"); K_PEM_X509_INFO_read = (STACK_OF(X509_INFO) *(*)(FILE*, STACK_OF(X509_INFO)*, pem_password_cb*, void *)) GET_CRYPTOLIB_SYMBOL("PEM_X509_INFO_read"); K_ASN1_d2i_fp = (char *(*)(char *(*)(),char *(*)(),FILE*,unsigned char**)) GET_CRYPTOLIB_SYMBOL("ASN1_d2i_fp"); K_X509_new = (X509 *(*)()) GET_CRYPTOLIB_SYMBOL("X509_new"); K_X509_PURPOSE_get_count = (int (*)()) GET_CRYPTOLIB_SYMBOL("X509_PURPOSE_get_count"); K_X509_PURPOSE_get_id = (int (*)(X509_PURPOSE *)) GET_CRYPTOLIB_SYMBOL("X509_PURPOSE_get_id"); K_X509_check_purpose = (int (*)(X509*,int,int)) GET_CRYPTOLIB_SYMBOL("X509_check_purpose"); K_X509_PURPOSE_get0 = (X509_PURPOSE *(*)(int)) GET_CRYPTOLIB_SYMBOL("X509_PURPOSE_get0"); K_EVP_PKEY_assign = (int (*)(EVP_PKEY*, int, char*)) GET_CRYPTOLIB_SYMBOL("EVP_PKEY_assign"); K_X509_REQ_set_pubkey = (int (*)(X509_REQ*, EVP_PKEY*)) GET_CRYPTOLIB_SYMBOL("X509_REQ_set_pubkey"); K_RSA_generate_key = (RSA* (*)(int, unsigned long, void (*)(int,int,void *), void *)) GET_CRYPTOLIB_SYMBOL("RSA_generate_key"); K_i2d_X509_REQ_fp = (int (*)(FILE *, X509_REQ *)) GET_CRYPTOLIB_SYMBOL("i2d_X509_REQ_fp"); K_ERR_clear_error = (void (*)()) GET_CRYPTOLIB_SYMBOL("ERR_clear_error"); K_ERR_get_error = (unsigned long (*)()) GET_CRYPTOLIB_SYMBOL("ERR_get_error"); K_ERR_print_errors_fp = (void (*)(FILE*)) GET_CRYPTOLIB_SYMBOL("ERR_print_errors_fp"); K_X509_get1_email = (STACK *(*)(X509 *x)) GET_CRYPTOLIB_SYMBOL("X509_get1_email"); K_X509_email_free = (void (*)(STACK *sk)) GET_CRYPTOLIB_SYMBOL("X509_email_free"); K_EVP_des_ede3_cbc = (EVP_CIPHER *(*)()) GET_CRYPTOLIB_SYMBOL("EVP_des_ede3_cbc"); K_EVP_des_cbc = (EVP_CIPHER *(*)()) GET_CRYPTOLIB_SYMBOL("EVP_des_cbc"); K_EVP_rc2_cbc = (EVP_CIPHER *(*)()) GET_CRYPTOLIB_SYMBOL("EVP_rc2_cbc"); K_EVP_rc2_64_cbc = (EVP_CIPHER *(*)()) GET_CRYPTOLIB_SYMBOL("EVP_rc2_64_cbc"); K_EVP_rc2_40_cbc = (EVP_CIPHER *(*)()) GET_CRYPTOLIB_SYMBOL("EVP_rc2_40_cbc"); K_i2d_PrivateKey_fp = (int (*)(FILE*,EVP_PKEY*)) GET_CRYPTOLIB_SYMBOL("i2d_PrivateKey_fp"); K_i2d_PKCS8PrivateKey_fp = (int (*)(FILE*, EVP_PKEY*, const EVP_CIPHER*, char*, int, pem_password_cb*, void*)) GET_CRYPTOLIB_SYMBOL("i2d_PKCS8PrivateKey_fp"); K_RSA_free = (void (*)(RSA*)) GET_CRYPTOLIB_SYMBOL("RSA_free"); K_EVP_bf_cbc = (EVP_CIPHER *(*)()) GET_CRYPTOLIB_SYMBOL("EVP_bf_cbc"); K_X509_REQ_sign = (int (*)(X509_REQ*, EVP_PKEY*, const EVP_MD*)) GET_CRYPTOLIB_SYMBOL("X509_REQ_sign"); K_X509_NAME_add_entry_by_txt = (int (*)(X509_NAME*, char*, int, unsigned char*, int, int, int)) GET_CRYPTOLIB_SYMBOL("X509_NAME_add_entry_by_txt"); K_X509_NAME_new = (X509_NAME *(*)()) GET_CRYPTOLIB_SYMBOL("X509_NAME_new"); K_X509_REQ_set_subject_name = (int (*)(X509_REQ*,X509_NAME*)) GET_CRYPTOLIB_SYMBOL("X509_REQ_set_subject_name"); K_ASN1_STRING_data = (unsigned char *(*)(ASN1_STRING*)) GET_CRYPTOLIB_SYMBOL("ASN1_STRING_data"); K_ASN1_STRING_length = (int (*)(ASN1_STRING*)) GET_CRYPTOLIB_SYMBOL("ASN1_STRING_length"); #endif } #ifdef __OpenBSD__ { TQString libname = findMostRecentLib("/usr/lib", "ssl"); if (!libname.isNull()) _sslLib = ll->globalLibrary(libname.latin1()); } #else for (TQStringList::Iterator it = libpaths.begin(); it != libpaths.end(); ++it) { for (TQStringList::Iterator shit = libnamess.begin(); shit != libnamess.end(); ++shit) { TQString alib = *it; if (!alib.isEmpty() && !alib.endsWith("/")) alib += "/"; alib += *shit; TQString tmpStr(alib.latin1()); tmpStr.replace(TQRegExp("\\(.*\\)"), ""); if (!access(tmpStr.latin1(), R_OK)) _sslLib = ll->globalLibrary(alib.latin1()); if (!_sslLib) { // Multiarch triplet search TQDir madir (*it); TQStringList multiarchdirs = madir.entryList("*-*-*", TQDir::Dirs); for (TQStringList::Iterator mait = multiarchdirs.begin(); mait != multiarchdirs.end(); ++mait ) { TQString malib = *it + *mait + "/" + *shit; TQString tmpStr(malib.latin1()); tmpStr.replace(TQRegExp("\\(.*\\)"), ""); if (!access(tmpStr.latin1(), R_OK)) _sslLib = ll->globalLibrary(malib.latin1()); } } if (_sslLib) break; } if (_sslLib) break; } #endif if (_sslLib) { #ifdef KSSL_HAVE_SSL // stand back from your monitor and look at this. it's fun! :) K_SSL_connect = (int (*)(SSL *)) GET_SSLLIB_SYMBOL("SSL_connect"); K_SSL_accept = (int (*)(SSL *)) GET_SSLLIB_SYMBOL("SSL_accept"); K_SSL_read = (int (*)(SSL *, void *, int)) GET_SSLLIB_SYMBOL("SSL_read"); K_SSL_write = (int (*)(SSL *, const void *, int)) GET_SSLLIB_SYMBOL("SSL_write"); K_SSL_new = (SSL* (*)(SSL_CTX *)) GET_SSLLIB_SYMBOL("SSL_new"); K_SSL_free = (void (*)(SSL *)) GET_SSLLIB_SYMBOL("SSL_free"); K_SSL_shutdown = (int (*)(SSL *)) GET_SSLLIB_SYMBOL("SSL_shutdown"); K_SSL_CTX_new = (SSL_CTX* (*)(SSL_METHOD*)) GET_SSLLIB_SYMBOL("SSL_CTX_new"); K_SSL_CTX_free = (void (*)(SSL_CTX*)) GET_SSLLIB_SYMBOL("SSL_CTX_free"); K_SSL_set_fd = (int (*)(SSL *, int)) GET_SSLLIB_SYMBOL("SSL_set_fd"); K_SSL_pending = (int (*)(SSL *)) GET_SSLLIB_SYMBOL("SSL_pending"); K_SSL_CTX_set_cipher_list = (int (*)(SSL_CTX *, const char *)) GET_SSLLIB_SYMBOL("SSL_CTX_set_cipher_list"); K_SSL_CTX_set_verify = (void (*)(SSL_CTX*, int, int (*)(int, X509_STORE_CTX*))) GET_SSLLIB_SYMBOL("SSL_CTX_set_verify"); K_SSL_use_certificate = (int (*)(SSL*, X509*)) GET_SSLLIB_SYMBOL("SSL_CTX_use_certificate"); K_SSL_get_current_cipher = (SSL_CIPHER *(*)(SSL *)) GET_SSLLIB_SYMBOL("SSL_get_current_cipher"); K_SSL_ctrl = (long (*)(SSL * ,int, long, char *)) GET_SSLLIB_SYMBOL("SSL_ctrl"); K_TLSv1_client_method = (SSL_METHOD *(*)()) GET_SSLLIB_SYMBOL("TLSv1_client_method"); K_SSLv2_client_method = (SSL_METHOD *(*)()) GET_SSLLIB_SYMBOL("SSLv2_client_method"); K_SSLv3_client_method = (SSL_METHOD *(*)()) GET_SSLLIB_SYMBOL("SSLv3_client_method"); K_SSLv23_client_method = (SSL_METHOD *(*)()) GET_SSLLIB_SYMBOL("SSLv23_client_method"); K_SSL_get_peer_certificate = (X509 *(*)(SSL *)) GET_SSLLIB_SYMBOL("SSL_get_peer_certificate"); K_SSL_CIPHER_get_bits = (int (*)(SSL_CIPHER *,int *)) GET_SSLLIB_SYMBOL("SSL_CIPHER_get_bits"); K_SSL_CIPHER_get_version = (char * (*)(SSL_CIPHER *)) GET_SSLLIB_SYMBOL("SSL_CIPHER_get_version"); K_SSL_CIPHER_get_name = (const char * (*)(SSL_CIPHER *)) GET_SSLLIB_SYMBOL("SSL_CIPHER_get_name"); K_SSL_CIPHER_description = (char * (*)(SSL_CIPHER *, char *, int)) GET_SSLLIB_SYMBOL("SSL_CIPHER_description"); K_SSL_CTX_use_PrivateKey = (int (*)(SSL_CTX*, EVP_PKEY*)) GET_SSLLIB_SYMBOL("SSL_CTX_use_PrivateKey"); K_SSL_CTX_use_certificate = (int (*)(SSL_CTX*, X509*)) GET_SSLLIB_SYMBOL("SSL_CTX_use_certificate"); K_SSL_get_error = (int (*)(SSL*, int)) GET_SSLLIB_SYMBOL("SSL_get_error"); K_SSL_get_peer_cert_chain = (STACK_OF(X509)* (*)(SSL*)) GET_SSLLIB_SYMBOL("SSL_get_peer_cert_chain"); K_SSL_load_client_CA_file = (STACK_OF(X509_NAME)* (*)(const char *)) GET_SSLLIB_SYMBOL("SSL_load_client_CA_file"); K_SSL_peek = (int (*)(SSL*,void*,int)) GET_SSLLIB_SYMBOL("SSL_peek"); K_SSL_get1_session = (SSL_SESSION* (*)(SSL*)) GET_SSLLIB_SYMBOL("SSL_get1_session"); K_SSL_SESSION_free = (void (*)(SSL_SESSION*)) GET_SSLLIB_SYMBOL("SSL_SESSION_free"); K_SSL_set_session = (int (*)(SSL*,SSL_SESSION*)) GET_SSLLIB_SYMBOL("SSL_set_session"); K_d2i_SSL_SESSION = (SSL_SESSION* (*)(SSL_SESSION**,unsigned char**, long)) GET_SSLLIB_SYMBOL("d2i_SSL_SESSION"); K_i2d_SSL_SESSION = (int (*)(SSL_SESSION*,unsigned char**)) GET_SSLLIB_SYMBOL("i2d_SSL_SESSION"); K_SSL_get_ciphers = (STACK_OF(SSL_CIPHER) *(*)(const SSL*)) GET_SSLLIB_SYMBOL("SSL_get_ciphers"); #endif // Initialize the library (once only!) void *x; x = GET_SSLLIB_SYMBOL("SSL_library_init"); if (_cryptoLib) { if (x) ((int (*)())x)(); x = GET_CRYPTOLIB_SYMBOL("OpenSSL_add_all_algorithms"); if (!x) x = GET_CRYPTOLIB_SYMBOL("OPENSSL_add_all_algorithms"); if (x) { ((void (*)())x)(); } else { x = GET_CRYPTOLIB_SYMBOL("OpenSSL_add_all_algorithms_conf"); if (!x) x = GET_CRYPTOLIB_SYMBOL("OPENSSL_add_all_algorithms_conf"); if (x) { ((void (*)())x)(); } else { x = GET_CRYPTOLIB_SYMBOL("OpenSSL_add_all_algorithms_noconf"); if (!x) x = GET_CRYPTOLIB_SYMBOL("OPENSSL_add_all_algorithms_noconf"); if (x) ((void (*)())x)(); } } x = GET_CRYPTOLIB_SYMBOL("OpenSSL_add_all_ciphers"); if (!x) x = GET_CRYPTOLIB_SYMBOL("OPENSSL_add_all_ciphers"); if (x) ((void (*)())x)(); x = GET_CRYPTOLIB_SYMBOL("OpenSSL_add_all_digests"); if (!x) x = GET_CRYPTOLIB_SYMBOL("OPENSSL_add_all_digests"); if (x) ((void (*)())x)(); } } } KOpenSSLProxy* KOpenSSLProxy::_me = 0L; static KStaticDeleter medProxy; KOpenSSLProxy::~KOpenSSLProxy() { if (_sslLib) { _sslLib->unload(); } if (_cryptoLib) { _cryptoLib->unload(); } medProxy.setObject(0); } // FIXME: we should check "ok" and allow this to init the lib if !ok. KOpenSSLProxy *KOpenSSLProxy::self() { #ifdef KSSL_HAVE_SSL if (!_me) { _me = medProxy.setObject(_me, new KOpenSSLProxy); } #endif return _me; } #ifdef KSSL_HAVE_SSL int KOpenSSLProxy::SSL_connect(SSL *ssl) { if (K_SSL_connect) return (K_SSL_connect)(ssl); return -1; } int KOpenSSLProxy::SSL_accept(SSL *ssl) { if (K_SSL_accept) return (K_SSL_accept)(ssl); return -1; } int KOpenSSLProxy::SSL_read(SSL *ssl, void *buf, int num) { if (K_SSL_read) return (K_SSL_read)(ssl, buf, num); return -1; } int KOpenSSLProxy::SSL_write(SSL *ssl, const void *buf, int num) { if (K_SSL_write) return (K_SSL_write)(ssl, buf, num); return -1; } SSL *KOpenSSLProxy::SSL_new(SSL_CTX *ctx) { if (K_SSL_new) return (K_SSL_new)(ctx); return 0L; } void KOpenSSLProxy::SSL_free(SSL *ssl) { if (K_SSL_free) (K_SSL_free)(ssl); } int KOpenSSLProxy::SSL_shutdown(SSL *ssl) { if (K_SSL_shutdown) return (K_SSL_shutdown)(ssl); return -1; } SSL_CTX *KOpenSSLProxy::SSL_CTX_new(SSL_METHOD *method) { if (K_SSL_CTX_new) return (K_SSL_CTX_new)(method); return 0L; } void KOpenSSLProxy::SSL_CTX_free(SSL_CTX *ctx) { if (K_SSL_CTX_free) (K_SSL_CTX_free)(ctx); } int KOpenSSLProxy::SSL_set_fd(SSL *ssl, int fd) { if (K_SSL_set_fd) return (K_SSL_set_fd)(ssl, fd); return -1; } int KOpenSSLProxy::SSL_pending(SSL *ssl) { if (K_SSL_pending) return (K_SSL_pending)(ssl); return -1; } int KOpenSSLProxy::SSL_CTX_set_cipher_list(SSL_CTX *ctx, const char *str) { if (K_SSL_CTX_set_cipher_list) return (K_SSL_CTX_set_cipher_list)(ctx, str); return -1; } void KOpenSSLProxy::SSL_CTX_set_verify(SSL_CTX *ctx, int mode, int (*verify_callback)(int, X509_STORE_CTX *)) { if (K_SSL_CTX_set_verify) (K_SSL_CTX_set_verify)(ctx, mode, verify_callback); } int KOpenSSLProxy::SSL_use_certificate(SSL *ssl, X509 *x) { if (K_SSL_use_certificate) return (K_SSL_use_certificate)(ssl, x); return -1; } SSL_CIPHER *KOpenSSLProxy::SSL_get_current_cipher(SSL *ssl) { if (K_SSL_get_current_cipher) return (K_SSL_get_current_cipher)(ssl); return 0L; } long KOpenSSLProxy::SSL_ctrl(SSL *ssl,int cmd, long larg, char *parg) { if (K_SSL_ctrl) return (K_SSL_ctrl)(ssl, cmd, larg, parg); return -1; } int KOpenSSLProxy::RAND_egd(const char *path) { if (K_RAND_egd) return (K_RAND_egd)(path); return -1; } SSL_METHOD *KOpenSSLProxy::TLSv1_client_method() { if (K_TLSv1_client_method) return (K_TLSv1_client_method)(); return 0L; } SSL_METHOD *KOpenSSLProxy::SSLv2_client_method() { if (K_SSLv2_client_method) return (K_SSLv2_client_method)(); return 0L; } SSL_METHOD *KOpenSSLProxy::SSLv3_client_method() { if (K_SSLv3_client_method) return (K_SSLv3_client_method)(); return 0L; } SSL_METHOD *KOpenSSLProxy::SSLv23_client_method() { if (K_SSLv23_client_method) return (K_SSLv23_client_method)(); return 0L; } X509 *KOpenSSLProxy::SSL_get_peer_certificate(SSL *s) { if (K_SSL_get_peer_certificate) return (K_SSL_get_peer_certificate)(s); return 0L; } int KOpenSSLProxy::SSL_CIPHER_get_bits(SSL_CIPHER *c,int *alg_bits) { if (K_SSL_CIPHER_get_bits) return (K_SSL_CIPHER_get_bits)(c, alg_bits); return -1; } char * KOpenSSLProxy::SSL_CIPHER_get_version(SSL_CIPHER *c) { if (K_SSL_CIPHER_get_version) return (K_SSL_CIPHER_get_version)(c); return 0L; } const char * KOpenSSLProxy::SSL_CIPHER_get_name(SSL_CIPHER *c) { if (K_SSL_CIPHER_get_name) return (K_SSL_CIPHER_get_name)(c); return 0L; } char * KOpenSSLProxy::SSL_CIPHER_description(SSL_CIPHER *c,char *buf,int size) { if (K_SSL_CIPHER_description) return (K_SSL_CIPHER_description)(c,buf,size); return 0L; } X509 * KOpenSSLProxy::d2i_X509(X509 **a,unsigned char **pp,long length) { if (K_d2i_X509) return (K_d2i_X509)(a,pp,length); return 0L; } X509_CRL * KOpenSSLProxy::d2i_X509_CRL(X509_CRL **a,unsigned char **pp,long length) { if (K_d2i_X509_CRL) return (K_d2i_X509_CRL)(a,pp,length); return 0L; } int KOpenSSLProxy::i2d_X509(X509 *a,unsigned char **pp) { if (K_i2d_X509) return (K_i2d_X509)(a,pp); return -1; } int KOpenSSLProxy::X509_cmp(X509 *a, X509 *b) { if (K_X509_cmp) return (K_X509_cmp)(a,b); return 0; } X509_STORE *KOpenSSLProxy::X509_STORE_new(void) { if (K_X509_STORE_new) return (K_X509_STORE_new)(); return 0L; } void KOpenSSLProxy::X509_STORE_free(X509_STORE *v) { if (K_X509_STORE_free) (K_X509_STORE_free)(v); } X509_STORE_CTX *KOpenSSLProxy::X509_STORE_CTX_new(void) { if (K_X509_STORE_CTX_new) return (K_X509_STORE_CTX_new)(); return 0L; } void KOpenSSLProxy::X509_STORE_CTX_free(X509_STORE_CTX *ctx) { if (K_X509_STORE_CTX_free) (K_X509_STORE_CTX_free)(ctx); } int KOpenSSLProxy::X509_verify_cert(X509_STORE_CTX *ctx) { if (K_X509_verify_cert) return (K_X509_verify_cert)(ctx); return -1; } void KOpenSSLProxy::X509_free(X509 *a) { if (K_X509_free) (K_X509_free)(a); } char *KOpenSSLProxy::X509_NAME_oneline(X509_NAME *a,char *buf,int size) { if (K_X509_NAME_oneline) return (K_X509_NAME_oneline)(a,buf,size); return 0L; } X509_NAME *KOpenSSLProxy::X509_get_subject_name(X509 *a) { if (K_X509_get_subject_name) return (K_X509_get_subject_name)(a); return 0L; } X509_NAME *KOpenSSLProxy::X509_get_issuer_name(X509 *a) { if (K_X509_get_issuer_name) return (K_X509_get_issuer_name)(a); return 0L; } X509_LOOKUP *KOpenSSLProxy::X509_STORE_add_lookup(X509_STORE *v, X509_LOOKUP_METHOD *m) { if (K_X509_STORE_add_lookup) return (K_X509_STORE_add_lookup)(v,m); return 0L; } X509_LOOKUP_METHOD *KOpenSSLProxy::X509_LOOKUP_file(void) { if (K_X509_LOOKUP_file) return (K_X509_LOOKUP_file)(); return 0L; } void KOpenSSLProxy::X509_LOOKUP_free(X509_LOOKUP *x) { if (K_X509_LOOKUP_free) (K_X509_LOOKUP_free)(x); } int KOpenSSLProxy::X509_LOOKUP_ctrl(X509_LOOKUP *ctx, int cmd, const char *argc, long argl, char **ret) { if (K_X509_LOOKUP_ctrl) return (K_X509_LOOKUP_ctrl)(ctx,cmd,argc,argl,ret); return -1; } void KOpenSSLProxy::X509_STORE_CTX_init(X509_STORE_CTX *ctx, X509_STORE *store, X509 *x509, STACK_OF(X509) *chain) { if (K_X509_STORE_CTX_init) (K_X509_STORE_CTX_init)(ctx,store,x509,chain); } void KOpenSSLProxy::CRYPTO_free(void *x) { if (K_CRYPTO_free) (K_CRYPTO_free)(x); } X509 *KOpenSSLProxy::X509_dup(X509 *x509) { if (K_X509_dup) return (K_X509_dup)(x509); return 0L; } BIO *KOpenSSLProxy::BIO_new(BIO_METHOD *type) { if (K_BIO_new) return (K_BIO_new)(type); else return 0L; } BIO_METHOD *KOpenSSLProxy::BIO_s_mem(void) { if (K_BIO_s_mem) return (K_BIO_s_mem)(); else return 0L; } BIO *KOpenSSLProxy::BIO_new_fp(FILE *stream, int close_flag) { if (K_BIO_new_fp) return (K_BIO_new_fp)(stream, close_flag); return 0L; } BIO *KOpenSSLProxy::BIO_new_mem_buf(void *buf, int len) { if (K_BIO_new_mem_buf) return (K_BIO_new_mem_buf)(buf,len); else return 0L; } int KOpenSSLProxy::BIO_free(BIO *a) { if (K_BIO_free) return (K_BIO_free)(a); return -1; } long KOpenSSLProxy::BIO_ctrl(BIO *bp,int cmd,long larg,void *parg) { if (K_BIO_ctrl) return (K_BIO_ctrl)(bp,cmd,larg,parg); else return 0; // failure return for BIO_ctrl is quite individual, maybe we should abort() instead } int KOpenSSLProxy::BIO_write(BIO *b, const void *data, int len) { if (K_BIO_write) return (K_BIO_write)(b, data, len); else return -1; } int KOpenSSLProxy::PEM_write_bio_X509(BIO *bp, X509 *x) { if (K_PEM_ASN1_write_bio) return (K_PEM_ASN1_write_bio) ((int (*)())K_i2d_X509, PEM_STRING_X509, bp, (char *)x, 0L, 0L, 0, 0L, 0L); else return -1; } #if OPENSSL_VERSION_NUMBER >= 0x10000000L int KOpenSSLProxy::ASN1_i2d_fp(FILE *out,unsigned char *x) { if (K_ASN1_item_i2d_fp && K_NETSCAPE_X509_it) return (K_ASN1_item_i2d_fp)(K_NETSCAPE_X509_it, out, x); else return -1; } #else ASN1_METHOD *KOpenSSLProxy::X509_asn1_meth(void) { if (K_X509_asn1_meth) return (K_X509_asn1_meth)(); else return 0L; } int KOpenSSLProxy::ASN1_i2d_fp(FILE *out,unsigned char *x) { if (K_ASN1_i2d_fp && K_i2d_ASN1_HEADER) return (K_ASN1_i2d_fp)((int (*)())K_i2d_ASN1_HEADER, out, x); else return -1; } #endif int KOpenSSLProxy::X509_print(FILE *fp, X509 *x) { if (K_X509_print_fp) return (K_X509_print_fp)(fp, x); return -1; } PKCS12 *KOpenSSLProxy::d2i_PKCS12_fp(FILE *fp, PKCS12 **p12) { if (K_d2i_PKCS12_fp) return (K_d2i_PKCS12_fp)(fp, p12); else return 0L; } int KOpenSSLProxy::PKCS12_newpass(PKCS12 *p12, char *oldpass, char *newpass) { if (K_PKCS12_newpass) return (K_PKCS12_newpass)(p12, oldpass, newpass); else return -1; } int KOpenSSLProxy::i2d_PKCS12(PKCS12 *p12, unsigned char **p) { if (K_i2d_PKCS12) return (K_i2d_PKCS12)(p12, p); else return -1; } int KOpenSSLProxy::i2d_PKCS12_fp(FILE *fp, PKCS12 *p12) { if (K_i2d_PKCS12_fp) return (K_i2d_PKCS12_fp)(fp, p12); else return -1; } PKCS12 *KOpenSSLProxy::PKCS12_new(void) { if (K_PKCS12_new) return (K_PKCS12_new)(); else return 0L; } void KOpenSSLProxy::PKCS12_free(PKCS12 *a) { if (K_PKCS12_free) (K_PKCS12_free)(a); } int KOpenSSLProxy::PKCS12_parse(PKCS12 *p12, const char *pass, EVP_PKEY **pkey, X509 **cert, STACK_OF(X509) **ca) { if (K_PKCS12_parse) return (K_PKCS12_parse) (p12, pass, pkey, cert, ca); else return -1; } void KOpenSSLProxy::EVP_PKEY_free(EVP_PKEY *x) { if (K_EVP_PKEY_free) (K_EVP_PKEY_free)(x); } EVP_PKEY* KOpenSSLProxy::EVP_PKEY_new() { if (K_EVP_PKEY_new) return (K_EVP_PKEY_new)(); else return 0L; } void KOpenSSLProxy::X509_REQ_free(X509_REQ *x) { if (K_X509_REQ_free) (K_X509_REQ_free)(x); } X509_REQ* KOpenSSLProxy::X509_REQ_new() { if (K_X509_REQ_new) return (K_X509_REQ_new)(); else return 0L; } int KOpenSSLProxy::SSL_CTX_use_PrivateKey(SSL_CTX *ctx, EVP_PKEY *pkey) { if (K_SSL_CTX_use_PrivateKey) return (K_SSL_CTX_use_PrivateKey)(ctx,pkey); else return -1; } int KOpenSSLProxy::SSL_CTX_use_certificate(SSL_CTX *ctx, X509 *x) { if (K_SSL_CTX_use_certificate) return (K_SSL_CTX_use_certificate)(ctx,x); else return -1; } int KOpenSSLProxy::SSL_get_error(SSL *ssl, int rc) { if (K_SSL_get_error) return (K_SSL_get_error)(ssl,rc); else return -1; } STACK_OF(X509) *KOpenSSLProxy::SSL_get_peer_cert_chain(SSL *s) { if (K_SSL_get_peer_cert_chain) return (K_SSL_get_peer_cert_chain)(s); else return 0L; } void KOpenSSLProxy::sk_free(STACK *s) { if (K_sk_free) (K_sk_free)(s); } int KOpenSSLProxy::sk_num(STACK *s) { if (K_sk_num) return (K_sk_num)(s); else return -1; } char *KOpenSSLProxy::sk_pop(STACK *s) { if (K_sk_pop) return (K_sk_pop)(s); else return 0L; } char *KOpenSSLProxy::sk_value(STACK *s, int n) { if (K_sk_value) return (K_sk_value)(s, n); else return 0L; } void KOpenSSLProxy::X509_STORE_CTX_set_chain(X509_STORE_CTX *v, STACK_OF(X509)* x) { if (K_X509_STORE_CTX_set_chain) (K_X509_STORE_CTX_set_chain)(v,x); } void KOpenSSLProxy::X509_STORE_CTX_set_purpose(X509_STORE_CTX *v, int purpose) { if (K_X509_STORE_CTX_set_purpose) (K_X509_STORE_CTX_set_purpose)(v,purpose); } STACK* KOpenSSLProxy::sk_dup(STACK *s) { if (K_sk_dup) return (K_sk_dup)(s); else return 0L; } STACK* KOpenSSLProxy::sk_new(int (*cmp)()) { if (K_sk_new) return (K_sk_new)(cmp); else return 0L; } int KOpenSSLProxy::sk_push(STACK* s, char* d) { if (K_sk_push) return (K_sk_push)(s,d); else return -1; } char *KOpenSSLProxy::i2s_ASN1_INTEGER(X509V3_EXT_METHOD *meth, ASN1_INTEGER *aint) { if (K_i2s_ASN1_INTEGER) return (K_i2s_ASN1_INTEGER)(meth, aint); else return 0L; } ASN1_INTEGER *KOpenSSLProxy::X509_get_serialNumber(X509 *x) { if (K_X509_get_serialNumber) return (K_X509_get_serialNumber)(x); else return 0L; } EVP_PKEY *KOpenSSLProxy::X509_get_pubkey(X509 *x) { if (K_X509_get_pubkey) return (K_X509_get_pubkey)(x); else return 0L; } int KOpenSSLProxy::i2d_PublicKey(EVP_PKEY *a, unsigned char **pp) { if (K_i2d_PublicKey) return (K_i2d_PublicKey)(a,pp); else return 0; } int KOpenSSLProxy::X509_check_private_key(X509 *x, EVP_PKEY *p) { if (K_X509_check_private_key) return (K_X509_check_private_key)(x,p); return -1; } char *KOpenSSLProxy::BN_bn2hex(const BIGNUM *a) { if (K_BN_bn2hex) return (K_BN_bn2hex)(a); else return 0L; } int KOpenSSLProxy::X509_digest(const X509 *x,const EVP_MD *t, unsigned char *md, unsigned int *len) { if (K_X509_digest) return (K_X509_digest)(x, t, md, len); else return -1; } EVP_MD *KOpenSSLProxy::EVP_md5() { if (K_EVP_md5) return (K_EVP_md5)(); return 0L; } void KOpenSSLProxy::ASN1_INTEGER_free(ASN1_INTEGER *a) { if (K_ASN1_INTEGER_free) (K_ASN1_INTEGER_free)(a); } int KOpenSSLProxy::OBJ_obj2nid(ASN1_OBJECT *o) { if (K_OBJ_obj2nid) return (K_OBJ_obj2nid)(o); else return -1; } const char * KOpenSSLProxy::OBJ_nid2ln(int n) { if (K_OBJ_nid2ln) return (K_OBJ_nid2ln)(n); else return 0L; } int KOpenSSLProxy::X509_get_ext_count(X509 *x) { if (K_X509_get_ext_count) return (K_X509_get_ext_count)(x); else return -1; } int KOpenSSLProxy::X509_get_ext_by_NID(X509 *x, int nid, int lastpos) { if (K_X509_get_ext_by_NID) return (K_X509_get_ext_by_NID)(x,nid,lastpos); else return -1; } int KOpenSSLProxy::X509_get_ext_by_OBJ(X509 *x,ASN1_OBJECT *obj,int lastpos) { if (K_X509_get_ext_by_OBJ) return (K_X509_get_ext_by_OBJ)(x,obj,lastpos); else return -1; } X509_EXTENSION *KOpenSSLProxy::X509_get_ext(X509 *x, int loc) { if (K_X509_get_ext) return (K_X509_get_ext)(x,loc); else return 0L; } X509_EXTENSION *KOpenSSLProxy::X509_delete_ext(X509 *x, int loc) { if (K_X509_delete_ext) return (K_X509_delete_ext)(x,loc); else return 0L; } int KOpenSSLProxy::X509_add_ext(X509 *x, X509_EXTENSION *ex, int loc) { if (K_X509_add_ext) return (K_X509_add_ext)(x,ex,loc); else return -1; } void *KOpenSSLProxy::X509_get_ext_d2i(X509 *x, int nid, int *crit, int *idx) { if (K_X509_get_ext_d2i) return (K_X509_get_ext_d2i)(x,nid,crit,idx); else return 0L; } char *KOpenSSLProxy::i2s_ASN1_OCTET_STRING(X509V3_EXT_METHOD *method, ASN1_OCTET_STRING *ia5) { if (K_i2s_ASN1_OCTET_STRING) return (K_i2s_ASN1_OCTET_STRING)(method,ia5); else return 0L; } int KOpenSSLProxy::ASN1_BIT_STRING_get_bit(ASN1_BIT_STRING *a, int n) { if (K_ASN1_BIT_STRING_get_bit) return (K_ASN1_BIT_STRING_get_bit)(a,n); else return -1; } PKCS7 *KOpenSSLProxy::PKCS7_new(void) { if (K_PKCS7_new) return (K_PKCS7_new)(); else return 0L; } void KOpenSSLProxy::PKCS7_free(PKCS7 *a) { if (K_PKCS7_free) (K_PKCS7_free)(a); } void KOpenSSLProxy::PKCS7_content_free(PKCS7 *a) { if (K_PKCS7_content_free) (K_PKCS7_content_free)(a); } int KOpenSSLProxy::i2d_PKCS7(PKCS7 *a, unsigned char **pp) { if (K_i2d_PKCS7) return (K_i2d_PKCS7)(a,pp); else return -1; } PKCS7 *KOpenSSLProxy::d2i_PKCS7(PKCS7 **a, unsigned char **pp,long length) { if (K_d2i_PKCS7) return (K_d2i_PKCS7)(a,pp,length); else return 0L; } int KOpenSSLProxy::i2d_PKCS7_fp(FILE *fp,PKCS7 *p7) { if (K_i2d_PKCS7_fp) return (K_i2d_PKCS7_fp)(fp,p7); else return -1; } PKCS7 *KOpenSSLProxy::d2i_PKCS7_fp(FILE *fp,PKCS7 **p7) { if (K_d2i_PKCS7_fp) return (K_d2i_PKCS7_fp)(fp,p7); else return 0L; } int KOpenSSLProxy::i2d_PKCS7_bio(BIO *bp,PKCS7 *p7) { if (K_i2d_PKCS7_bio) return (K_i2d_PKCS7_bio)(bp, p7); else return -1; } PKCS7 *KOpenSSLProxy::d2i_PKCS7_bio(BIO *bp,PKCS7 **p7) { if (K_d2i_PKCS7_bio) return (K_d2i_PKCS7_bio)(bp, p7); else return 0L; } PKCS7 *KOpenSSLProxy::PKCS7_dup(PKCS7 *p7) { if (K_PKCS7_dup) return (K_PKCS7_dup)(p7); else return 0L; } PKCS7 *KOpenSSLProxy::PKCS7_sign(X509 *signcert, EVP_PKEY *pkey, STACK_OF(X509) *certs, BIO *data, int flags) { if (K_PKCS7_sign) return (K_PKCS7_sign)(signcert,pkey,certs,data,flags); else return 0L; } int KOpenSSLProxy::PKCS7_verify(PKCS7* p, STACK_OF(X509)* st, X509_STORE* s, BIO* in, BIO *out, int flags) { if (K_PKCS7_verify) return (K_PKCS7_verify)(p,st,s,in,out,flags); else return 0; } STACK_OF(X509) *KOpenSSLProxy::PKCS7_get0_signers(PKCS7 *p7, STACK_OF(X509) *certs, int flags) { if (K_PKCS7_get0_signers) return (K_PKCS7_get0_signers)(p7,certs,flags); else return 0L; } PKCS7 *KOpenSSLProxy::PKCS7_encrypt(STACK_OF(X509) *certs, BIO *in, EVP_CIPHER *cipher, int flags) { if (K_PKCS7_encrypt) return (K_PKCS7_encrypt)(certs,in,cipher,flags); else return 0L; } int KOpenSSLProxy::PKCS7_decrypt(PKCS7 *p7, EVP_PKEY *pkey, X509 *cert, BIO *data, int flags) { if (K_PKCS7_decrypt) return (K_PKCS7_decrypt)(p7,pkey,cert,data,flags); else return 0; } STACK_OF(X509_NAME) *KOpenSSLProxy::SSL_load_client_CA_file(const char *file) { if (K_SSL_load_client_CA_file) return (K_SSL_load_client_CA_file)(file); else return 0L; } STACK_OF(X509_INFO) *KOpenSSLProxy::PEM_X509_INFO_read(FILE *fp, STACK_OF(X509_INFO) *sk, pem_password_cb *cb, void *u) { if (K_PEM_X509_INFO_read) return (K_PEM_X509_INFO_read)(fp,sk,cb,u); else return 0L; } X509 *KOpenSSLProxy::X509_d2i_fp(FILE *out, X509** buf) { if (K_ASN1_d2i_fp) return reinterpret_cast((K_ASN1_d2i_fp)(reinterpret_cast(K_X509_new), reinterpret_cast(K_d2i_X509), out, reinterpret_cast(buf))); else return 0L; } int KOpenSSLProxy::SSL_peek(SSL *ssl,void *buf,int num) { if (K_SSL_peek) return (K_SSL_peek)(ssl,buf,num); else return -1; } const char *KOpenSSLProxy::RAND_file_name(char *buf, size_t num) { if (K_RAND_file_name) return (K_RAND_file_name)(buf, num); else return 0L; } int KOpenSSLProxy::RAND_load_file(const char *filename, long max_bytes) { if (K_RAND_load_file) return (K_RAND_load_file)(filename, max_bytes); else return -1; } int KOpenSSLProxy::RAND_write_file(const char *filename) { if (K_RAND_write_file) return (K_RAND_write_file)(filename); else return -1; } int KOpenSSLProxy::X509_PURPOSE_get_count() { if (K_X509_PURPOSE_get_count) return (K_X509_PURPOSE_get_count)(); else return -1; } int KOpenSSLProxy::X509_PURPOSE_get_id(X509_PURPOSE *p) { if (K_X509_PURPOSE_get_id) return (K_X509_PURPOSE_get_id)(p); else return -1; } int KOpenSSLProxy::X509_check_purpose(X509 *x, int id, int ca) { if (K_X509_check_purpose) return (K_X509_check_purpose)(x, id, ca); else return -1; } X509_PURPOSE *KOpenSSLProxy::X509_PURPOSE_get0(int idx) { if (K_X509_PURPOSE_get0) return (K_X509_PURPOSE_get0)(idx); else return 0L; } int KOpenSSLProxy::EVP_PKEY_assign(EVP_PKEY *pkey, int type, char *key) { if (K_EVP_PKEY_assign) return (K_EVP_PKEY_assign)(pkey, type, key); else return -1; } int KOpenSSLProxy::X509_REQ_set_pubkey(X509_REQ *x, EVP_PKEY *pkey) { if (K_X509_REQ_set_pubkey) return (K_X509_REQ_set_pubkey)(x, pkey); else return -1; } RSA* KOpenSSLProxy::RSA_generate_key(int bits, unsigned long e, void (*callback)(int,int,void *), void *cb_arg) { if (K_RSA_generate_key) return (K_RSA_generate_key)(bits, e, callback, cb_arg); else return 0L; } STACK *KOpenSSLProxy::X509_get1_email(X509 *x) { if (K_X509_get1_email) return (K_X509_get1_email)(x); else return 0L; } void KOpenSSLProxy::X509_email_free(STACK *sk) { if (K_X509_email_free) (K_X509_email_free)(sk); } EVP_CIPHER *KOpenSSLProxy::EVP_des_ede3_cbc() { if (K_EVP_des_ede3_cbc) return (K_EVP_des_ede3_cbc)(); else return 0L; } EVP_CIPHER *KOpenSSLProxy::EVP_des_cbc() { if (K_EVP_des_cbc) return (K_EVP_des_cbc)(); else return 0L; } EVP_CIPHER *KOpenSSLProxy::EVP_rc2_cbc() { if (K_EVP_rc2_cbc) return (K_EVP_rc2_cbc)(); else return 0L; } EVP_CIPHER *KOpenSSLProxy::EVP_rc2_64_cbc() { if (K_EVP_rc2_64_cbc) return (K_EVP_rc2_64_cbc)(); else return 0L; } EVP_CIPHER *KOpenSSLProxy::EVP_rc2_40_cbc() { if (K_EVP_rc2_40_cbc) return (K_EVP_rc2_40_cbc)(); else return 0L; } int KOpenSSLProxy::i2d_X509_REQ_fp(FILE *fp, X509_REQ *x) { if (K_i2d_X509_REQ_fp) return (K_i2d_X509_REQ_fp)(fp,x); else return -1; } void KOpenSSLProxy::ERR_clear_error() { if (K_ERR_clear_error) (K_ERR_clear_error)(); } unsigned long KOpenSSLProxy::ERR_get_error() { if (K_ERR_get_error) return (K_ERR_get_error)(); else return 0xffffffff; } void KOpenSSLProxy::ERR_print_errors_fp(FILE* fp) { if (K_ERR_print_errors_fp) (K_ERR_print_errors_fp)(fp); } SSL_SESSION *KOpenSSLProxy::SSL_get1_session(SSL *ssl) { if (K_SSL_get1_session) return (K_SSL_get1_session)(ssl); else return 0L; } void KOpenSSLProxy::SSL_SESSION_free(SSL_SESSION *session) { if (K_SSL_SESSION_free) (K_SSL_SESSION_free)(session); } int KOpenSSLProxy::SSL_set_session(SSL *ssl, SSL_SESSION *session) { if (K_SSL_set_session) return (K_SSL_set_session)(ssl, session); else return -1; } SSL_SESSION *KOpenSSLProxy::d2i_SSL_SESSION(SSL_SESSION **a, unsigned char **pp, long length) { if (K_d2i_SSL_SESSION) return (K_d2i_SSL_SESSION)(a, pp, length); else return 0L; } int KOpenSSLProxy::i2d_SSL_SESSION(SSL_SESSION *in, unsigned char **pp) { if (K_i2d_SSL_SESSION) return (K_i2d_SSL_SESSION)(in, pp); else return -1; } int KOpenSSLProxy::i2d_PrivateKey_fp(FILE *fp, EVP_PKEY *p) { if (K_i2d_PrivateKey_fp) return (K_i2d_PrivateKey_fp)(fp, p); else return -1; } int KOpenSSLProxy::i2d_PKCS8PrivateKey_fp(FILE *fp, EVP_PKEY *p, const EVP_CIPHER *c, char *k, int klen, pem_password_cb *cb, void *u) { if (K_i2d_PKCS8PrivateKey_fp) return (K_i2d_PKCS8PrivateKey_fp)(fp, p, c, k, klen, cb, u); else return -1; } void KOpenSSLProxy::RSA_free(RSA *rsa) { if (K_RSA_free) (K_RSA_free)(rsa); } EVP_CIPHER *KOpenSSLProxy::EVP_bf_cbc() { if (K_EVP_bf_cbc) return (K_EVP_bf_cbc)(); return 0L; } int KOpenSSLProxy::X509_REQ_sign(X509_REQ *x, EVP_PKEY *pkey, const EVP_MD *md) { if (K_X509_REQ_sign) return (K_X509_REQ_sign)(x, pkey, md); return -1; } int KOpenSSLProxy::X509_NAME_add_entry_by_txt(X509_NAME *name, char *field, int type, unsigned char *bytes, int len, int loc, int set) { if (K_X509_NAME_add_entry_by_txt) return (K_X509_NAME_add_entry_by_txt)(name, field, type, bytes, len, loc, set); return -1; } X509_NAME *KOpenSSLProxy::X509_NAME_new() { if (K_X509_NAME_new) return (K_X509_NAME_new)(); return 0L; } int KOpenSSLProxy::X509_REQ_set_subject_name(X509_REQ *req,X509_NAME *name) { if (K_X509_REQ_set_subject_name) return (K_X509_REQ_set_subject_name)(req, name); return -1; } unsigned char *KOpenSSLProxy::ASN1_STRING_data(ASN1_STRING *x) { if (K_ASN1_STRING_data) return (K_ASN1_STRING_data)(x); return 0L; } int KOpenSSLProxy::ASN1_STRING_length(ASN1_STRING *x) { if (K_ASN1_STRING_length) return (K_ASN1_STRING_length)(x); return 0L; } STACK_OF(SSL_CIPHER) *KOpenSSLProxy::SSL_get_ciphers(const SSL* ssl) { if (K_SSL_get_ciphers) return (K_SSL_get_ciphers)(ssl); return 0L; } #endif