/**************************************************************************** ** ** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtNetwork module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qsslsocket_openssl_symbols_p.h" #ifdef Q_OS_WIN # include #else # include #endif #include #include #include #if defined(Q_OS_UNIX) #include #endif #ifdef Q_OS_LINUX #include #endif QT_BEGIN_NAMESPACE /* Note to maintainer: ------------------- We load OpenSSL symbols dynamically. Because symbols are known to disappear, and signatures sometimes change, between releases, we need to be careful about how this is done. To ensure we don't end up dereferencing null function pointers, and continue running even if certain functions are missing, we define helper functions for each of the symbols we load from OpenSSL, all prefixed with "q_" (declared in qsslsocket_openssl_symbols_p.h). So instead of calling SSL_connect directly, we call q_SSL_connect, which is a function that checks if the actual SSL_connect fptr is null, and returns a failure if it is, or calls SSL_connect if it isn't. This requires a somewhat tedious process of declaring each function we want to call in OpenSSL thrice: once with the q_, in _p.h, once using the DEFINEFUNC macros below, and once in the function that actually resolves the symbols, below the DEFINEFUNC declarations below. There's one DEFINEFUNC macro declared for every number of arguments exposed by OpenSSL (feel free to extend when needed). The easiest thing to do is to find an existing entry that matches the arg count of the function you want to import, and do the same. The first macro arg is the function return type. The second is the verbatim name of the function/symbol. Then follows a list of N pairs of argument types with a variable name, and just the variable name (char *a, a, char *b, b, etc). Finally there's two arguments - a suitable return statement for the error case (for an int function, return 0 or return -1 is usually right). Then either just "return" or DUMMYARG, the latter being for void functions. Note: Take into account that these macros and declarations are processed at compile-time, and the result depends on the OpenSSL headers the compiling host has installed, but the symbols are resolved at run-time, possibly with a different version of OpenSSL. */ #ifdef SSLEAY_MACROS DEFINEFUNC3(void *, ASN1_dup, i2d_of_void *a, a, d2i_of_void *b, b, char *c, c, return 0, return) #endif DEFINEFUNC(long, ASN1_INTEGER_get, ASN1_INTEGER *a, a, return 0, return) DEFINEFUNC(unsigned char *, ASN1_STRING_data, ASN1_STRING *a, a, return 0, return) DEFINEFUNC(int, ASN1_STRING_length, ASN1_STRING *a, a, return 0, return) DEFINEFUNC2(int, ASN1_STRING_to_UTF8, unsigned char **a, a, ASN1_STRING *b, b, return 0, return); DEFINEFUNC4(long, BIO_ctrl, BIO *a, a, int b, b, long c, c, void *d, d, return -1, return) DEFINEFUNC(int, BIO_free, BIO *a, a, return 0, return) DEFINEFUNC(BIO *, BIO_new, BIO_METHOD *a, a, return 0, return) DEFINEFUNC2(BIO *, BIO_new_mem_buf, void *a, a, int b, b, return 0, return) DEFINEFUNC3(int, BIO_read, BIO *a, a, void *b, b, int c, c, return -1, return) DEFINEFUNC(BIO_METHOD *, BIO_s_mem, void, DUMMYARG, return 0, return) DEFINEFUNC3(int, BIO_write, BIO *a, a, const void *b, b, int c, c, return -1, return) DEFINEFUNC(int, BN_num_bits, const BIGNUM *a, a, return 0, return) DEFINEFUNC(int, CRYPTO_num_locks, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(void, CRYPTO_set_locking_callback, void (*a)(int, int, const char *, int), a, return, DUMMYARG) DEFINEFUNC(void, CRYPTO_set_id_callback, unsigned long (*a)(), a, return, DUMMYARG) DEFINEFUNC(void, CRYPTO_free, void *a, a, return, DUMMYARG) DEFINEFUNC(void, DSA_free, DSA *a, a, return, DUMMYARG) #if OPENSSL_VERSION_NUMBER < 0x00908000L DEFINEFUNC3(X509 *, d2i_X509, X509 **a, a, unsigned char **b, b, long c, c, return 0, return) #else // 0.9.8 broke SC and BC by changing this signature. DEFINEFUNC3(X509 *, d2i_X509, X509 **a, a, const unsigned char **b, b, long c, c, return 0, return) #endif DEFINEFUNC2(char *, ERR_error_string, unsigned long a, a, char *b, b, return 0, return) DEFINEFUNC(unsigned long, ERR_get_error, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(const EVP_CIPHER *, EVP_des_ede3_cbc, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC3(int, EVP_PKEY_assign, EVP_PKEY *a, a, int b, b, char *c, c, return -1, return) DEFINEFUNC2(int, EVP_PKEY_set1_RSA, EVP_PKEY *a, a, RSA *b, b, return -1, return) DEFINEFUNC2(int, EVP_PKEY_set1_DSA, EVP_PKEY *a, a, DSA *b, b, return -1, return) DEFINEFUNC(void, EVP_PKEY_free, EVP_PKEY *a, a, return, DUMMYARG) DEFINEFUNC(DSA *, EVP_PKEY_get1_DSA, EVP_PKEY *a, a, return 0, return) DEFINEFUNC(RSA *, EVP_PKEY_get1_RSA, EVP_PKEY *a, a, return 0, return) DEFINEFUNC(EVP_PKEY *, EVP_PKEY_new, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(int, EVP_PKEY_type, int a, a, return NID_undef, return) DEFINEFUNC2(int, i2d_X509, X509 *a, a, unsigned char **b, b, return -1, return) DEFINEFUNC(const char *, OBJ_nid2sn, int a, a, return 0, return) DEFINEFUNC(int, OBJ_obj2nid, const ASN1_OBJECT *a, a, return NID_undef, return) #ifdef SSLEAY_MACROS DEFINEFUNC6(void *, PEM_ASN1_read_bio, d2i_of_void *a, a, const char *b, b, BIO *c, c, void **d, d, pem_password_cb *e, e, void *f, f, return 0, return) DEFINEFUNC6(void *, PEM_ASN1_write_bio, d2i_of_void *a, a, const char *b, b, BIO *c, c, void **d, d, pem_password_cb *e, e, void *f, f, return 0, return) #else DEFINEFUNC4(DSA *, PEM_read_bio_DSAPrivateKey, BIO *a, a, DSA **b, b, pem_password_cb *c, c, void *d, d, return 0, return) DEFINEFUNC4(RSA *, PEM_read_bio_RSAPrivateKey, BIO *a, a, RSA **b, b, pem_password_cb *c, c, void *d, d, return 0, return) DEFINEFUNC7(int, PEM_write_bio_DSAPrivateKey, BIO *a, a, DSA *b, b, const EVP_CIPHER *c, c, unsigned char *d, d, int e, e, pem_password_cb *f, f, void *g, g, return 0, return) DEFINEFUNC7(int, PEM_write_bio_RSAPrivateKey, BIO *a, a, RSA *b, b, const EVP_CIPHER *c, c, unsigned char *d, d, int e, e, pem_password_cb *f, f, void *g, g, return 0, return) #endif DEFINEFUNC4(DSA *, PEM_read_bio_DSA_PUBKEY, BIO *a, a, DSA **b, b, pem_password_cb *c, c, void *d, d, return 0, return) DEFINEFUNC4(RSA *, PEM_read_bio_RSA_PUBKEY, BIO *a, a, RSA **b, b, pem_password_cb *c, c, void *d, d, return 0, return) DEFINEFUNC2(int, PEM_write_bio_DSA_PUBKEY, BIO *a, a, DSA *b, b, return 0, return) DEFINEFUNC2(int, PEM_write_bio_RSA_PUBKEY, BIO *a, a, RSA *b, b, return 0, return) DEFINEFUNC2(void, RAND_seed, const void *a, a, int b, b, return, DUMMYARG) DEFINEFUNC(int, RAND_status, void, DUMMYARG, return -1, return) DEFINEFUNC(void, RSA_free, RSA *a, a, return, DUMMYARG) DEFINEFUNC(int, sk_num, STACK *a, a, return -1, return) DEFINEFUNC2(void, sk_pop_free, STACK *a, a, void (*b)(void*), b, return, DUMMYARG) #if OPENSSL_VERSION_NUMBER >= 0x10000000L DEFINEFUNC(void, sk_free, _STACK *a, a, return, DUMMYARG) DEFINEFUNC2(void *, sk_value, STACK *a, a, int b, b, return 0, return) #else DEFINEFUNC(void, sk_free, STACK *a, a, return, DUMMYARG) DEFINEFUNC2(char *, sk_value, STACK *a, a, int b, b, return 0, return) #endif DEFINEFUNC(int, SSL_accept, SSL *a, a, return -1, return) DEFINEFUNC(int, SSL_clear, SSL *a, a, return -1, return) DEFINEFUNC3(char *, SSL_CIPHER_description, SSL_CIPHER *a, a, char *b, b, int c, c, return 0, return) DEFINEFUNC(int, SSL_connect, SSL *a, a, return -1, return) #if OPENSSL_VERSION_NUMBER >= 0x00908000L // 0.9.8 broke SC and BC by changing this function's signature. DEFINEFUNC(int, SSL_CTX_check_private_key, const SSL_CTX *a, a, return -1, return) #else DEFINEFUNC(int, SSL_CTX_check_private_key, SSL_CTX *a, a, return -1, return) #endif DEFINEFUNC4(long, SSL_CTX_ctrl, SSL_CTX *a, a, int b, b, long c, c, void *d, d, return -1, return) DEFINEFUNC(void, SSL_CTX_free, SSL_CTX *a, a, return, DUMMYARG) #if OPENSSL_VERSION_NUMBER >= 0x10000000L DEFINEFUNC(SSL_CTX *, SSL_CTX_new, const SSL_METHOD *a, a, return 0, return) #else DEFINEFUNC(SSL_CTX *, SSL_CTX_new, SSL_METHOD *a, a, return 0, return) #endif DEFINEFUNC2(int, SSL_CTX_set_cipher_list, SSL_CTX *a, a, const char *b, b, return -1, return) DEFINEFUNC(int, SSL_CTX_set_default_verify_paths, SSL_CTX *a, a, return -1, return) DEFINEFUNC3(void, SSL_CTX_set_verify, SSL_CTX *a, a, int b, b, int (*c)(int, X509_STORE_CTX *), c, return, DUMMYARG) DEFINEFUNC2(void, SSL_CTX_set_verify_depth, SSL_CTX *a, a, int b, b, return, DUMMYARG) DEFINEFUNC2(int, SSL_CTX_use_certificate, SSL_CTX *a, a, X509 *b, b, return -1, return) DEFINEFUNC3(int, SSL_CTX_use_certificate_file, SSL_CTX *a, a, const char *b, b, int c, c, return -1, return) DEFINEFUNC2(int, SSL_CTX_use_PrivateKey, SSL_CTX *a, a, EVP_PKEY *b, b, return -1, return) DEFINEFUNC2(int, SSL_CTX_use_RSAPrivateKey, SSL_CTX *a, a, RSA *b, b, return -1, return) DEFINEFUNC3(int, SSL_CTX_use_PrivateKey_file, SSL_CTX *a, a, const char *b, b, int c, c, return -1, return) DEFINEFUNC(void, SSL_free, SSL *a, a, return, DUMMYARG) #if OPENSSL_VERSION_NUMBER >= 0x00908000L // 0.9.8 broke SC and BC by changing this function's signature. DEFINEFUNC(STACK_OF(SSL_CIPHER) *, SSL_get_ciphers, const SSL *a, a, return 0, return) #else DEFINEFUNC(STACK_OF(SSL_CIPHER) *, SSL_get_ciphers, SSL *a, a, return 0, return) #endif #if OPENSSL_VERSION_NUMBER >= 0x10000000L DEFINEFUNC(const SSL_CIPHER *, SSL_get_current_cipher, SSL *a, a, return 0, return) #else DEFINEFUNC(SSL_CIPHER *, SSL_get_current_cipher, SSL *a, a, return 0, return) #endif DEFINEFUNC2(int, SSL_get_error, SSL *a, a, int b, b, return -1, return) DEFINEFUNC(STACK_OF(X509) *, SSL_get_peer_cert_chain, SSL *a, a, return 0, return) DEFINEFUNC(X509 *, SSL_get_peer_certificate, SSL *a, a, return 0, return) #if OPENSSL_VERSION_NUMBER >= 0x00908000L // 0.9.8 broke SC and BC by changing this function's signature. DEFINEFUNC(long, SSL_get_verify_result, const SSL *a, a, return -1, return) #else DEFINEFUNC(long, SSL_get_verify_result, SSL *a, a, return -1, return) #endif DEFINEFUNC(int, SSL_library_init, void, DUMMYARG, return -1, return) DEFINEFUNC(void, SSL_load_error_strings, void, DUMMYARG, return, DUMMYARG) DEFINEFUNC(SSL *, SSL_new, SSL_CTX *a, a, return 0, return) #if OPENSSL_VERSION_NUMBER >= 0x0090806fL && !defined(OPENSSL_NO_TLSEXT) DEFINEFUNC4(long, SSL_ctrl, SSL *a, a, int cmd, cmd, long larg, larg, void *parg, parg, return -1, return) #endif DEFINEFUNC3(int, SSL_read, SSL *a, a, void *b, b, int c, c, return -1, return) DEFINEFUNC3(void, SSL_set_bio, SSL *a, a, BIO *b, b, BIO *c, c, return, DUMMYARG) DEFINEFUNC(void, SSL_set_accept_state, SSL *a, a, return, DUMMYARG) DEFINEFUNC(void, SSL_set_connect_state, SSL *a, a, return, DUMMYARG) DEFINEFUNC(int, SSL_shutdown, SSL *a, a, return -1, return) #if OPENSSL_VERSION_NUMBER >= 0x10000000L #ifndef OPENSSL_NO_SSL2 DEFINEFUNC(const SSL_METHOD *, SSLv2_client_method, DUMMYARG, DUMMYARG, return 0, return) #endif DEFINEFUNC(const SSL_METHOD *, SSLv3_client_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(const SSL_METHOD *, SSLv23_client_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(const SSL_METHOD *, TLSv1_client_method, DUMMYARG, DUMMYARG, return 0, return) #ifndef OPENSSL_NO_SSL2 DEFINEFUNC(const SSL_METHOD *, SSLv2_server_method, DUMMYARG, DUMMYARG, return 0, return) #endif DEFINEFUNC(const SSL_METHOD *, SSLv3_server_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(const SSL_METHOD *, SSLv23_server_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(const SSL_METHOD *, TLSv1_server_method, DUMMYARG, DUMMYARG, return 0, return) #else DEFINEFUNC(SSL_METHOD *, SSLv2_client_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(SSL_METHOD *, SSLv3_client_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(SSL_METHOD *, SSLv23_client_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(SSL_METHOD *, TLSv1_client_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(SSL_METHOD *, SSLv2_server_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(SSL_METHOD *, SSLv3_server_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(SSL_METHOD *, SSLv23_server_method, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC(SSL_METHOD *, TLSv1_server_method, DUMMYARG, DUMMYARG, return 0, return) #endif DEFINEFUNC3(int, SSL_write, SSL *a, a, const void *b, b, int c, c, return -1, return) DEFINEFUNC2(int, X509_cmp, X509 *a, a, X509 *b, b, return -1, return) #ifndef SSLEAY_MACROS DEFINEFUNC(X509 *, X509_dup, X509 *a, a, return 0, return) #endif DEFINEFUNC(ASN1_OBJECT *, X509_EXTENSION_get_object, X509_EXTENSION *a, a, return 0, return) DEFINEFUNC(void, X509_free, X509 *a, a, return, DUMMYARG) DEFINEFUNC2(X509_EXTENSION *, X509_get_ext, X509 *a, a, int b, b, return 0, return) DEFINEFUNC(int, X509_get_ext_count, X509 *a, a, return 0, return) DEFINEFUNC4(void *, X509_get_ext_d2i, X509 *a, a, int b, b, int *c, c, int *d, d, return 0, return) DEFINEFUNC(X509_NAME *, X509_get_issuer_name, X509 *a, a, return 0, return) DEFINEFUNC(X509_NAME *, X509_get_subject_name, X509 *a, a, return 0, return) DEFINEFUNC(int, X509_verify_cert, X509_STORE_CTX *a, a, return -1, return) DEFINEFUNC(int, X509_NAME_entry_count, X509_NAME *a, a, return 0, return) DEFINEFUNC2(X509_NAME_ENTRY *, X509_NAME_get_entry, X509_NAME *a, a, int b, b, return 0, return) DEFINEFUNC(ASN1_STRING *, X509_NAME_ENTRY_get_data, X509_NAME_ENTRY *a, a, return 0, return) DEFINEFUNC(ASN1_OBJECT *, X509_NAME_ENTRY_get_object, X509_NAME_ENTRY *a, a, return 0, return) DEFINEFUNC(EVP_PKEY *, X509_PUBKEY_get, X509_PUBKEY *a, a, return 0, return) DEFINEFUNC(void, X509_STORE_free, X509_STORE *a, a, return, DUMMYARG) DEFINEFUNC(X509_STORE *, X509_STORE_new, DUMMYARG, DUMMYARG, return 0, return) DEFINEFUNC2(int, X509_STORE_add_cert, X509_STORE *a, a, X509 *b, b, return 0, return) DEFINEFUNC(void, X509_STORE_CTX_free, X509_STORE_CTX *a, a, return, DUMMYARG) DEFINEFUNC4(int, X509_STORE_CTX_init, X509_STORE_CTX *a, a, X509_STORE *b, b, X509 *c, c, STACK_OF(X509) *d, d, return -1, return) DEFINEFUNC2(int, X509_STORE_CTX_set_purpose, X509_STORE_CTX *a, a, int b, b, return -1, return) DEFINEFUNC(X509_STORE_CTX *, X509_STORE_CTX_new, DUMMYARG, DUMMYARG, return 0, return) #ifdef SSLEAY_MACROS DEFINEFUNC2(int, i2d_DSAPrivateKey, const DSA *a, a, unsigned char **b, b, return -1, return) DEFINEFUNC2(int, i2d_RSAPrivateKey, const RSA *a, a, unsigned char **b, b, return -1, return) DEFINEFUNC3(RSA *, d2i_RSAPrivateKey, RSA **a, a, unsigned char **b, b, long c, c, return 0, return) DEFINEFUNC3(DSA *, d2i_DSAPrivateKey, DSA **a, a, unsigned char **b, b, long c, c, return 0, return) #endif DEFINEFUNC(void, OPENSSL_add_all_algorithms_noconf, void, DUMMYARG, return, DUMMYARG) DEFINEFUNC(void, OPENSSL_add_all_algorithms_conf, void, DUMMYARG, return, DUMMYARG) DEFINEFUNC3(int, SSL_CTX_load_verify_locations, SSL_CTX *ctx, ctx, const char *CAfile, CAfile, const char *CApath, CApath, return 0, return) DEFINEFUNC(long, SSLeay, void, DUMMYARG, return 0, return) #ifdef Q_OS_SYMBIAN #define RESOLVEFUNC(func, ordinal, lib) \ if (!(_q_##func = _q_PTR_##func(lib->resolve(#ordinal)))) \ qWarning("QSslSocket: cannot resolve "#func); #else #define RESOLVEFUNC(func) \ if (!(_q_##func = _q_PTR_##func(libs.first->resolve(#func))) \ && !(_q_##func = _q_PTR_##func(libs.second->resolve(#func)))) \ qWarning("QSslSocket: cannot resolve "#func); #endif #if !defined QT_LINKED_OPENSSL #ifdef QT_NO_LIBRARY bool q_resolveOpenSslSymbols() { qWarning("QSslSocket: unable to resolve symbols. " "QT_NO_LIBRARY is defined which means runtime resolving of " "libraries won't work."); qWarning("Either compile Qt statically or with support for runtime resolving " "of libraries."); return false; } #else # ifdef Q_OS_UNIX static bool libGreaterThan(const QString &lhs, const QString &rhs) { QStringList lhsparts = lhs.split(QLatin1Char('.')); QStringList rhsparts = rhs.split(QLatin1Char('.')); Q_ASSERT(lhsparts.count() > 1 && rhsparts.count() > 1); for (int i = 1; i < rhsparts.count(); ++i) { if (lhsparts.count() <= i) // left hand side is shorter, so it's less than rhs return false; bool ok = false; int b = 0; int a = lhsparts.at(i).toInt(&ok); if (ok) b = rhsparts.at(i).toInt(&ok); if (ok) { // both toInt succeeded if (a == b) continue; return a > b; } else { // compare as strings; if (lhsparts.at(i) == rhsparts.at(i)) continue; return lhsparts.at(i) > rhsparts.at(i); } } // they compared strictly equally so far // lhs cannot be less than rhs return true; } #ifdef Q_OS_LINUX static int dlIterateCallback(struct dl_phdr_info *info, size_t size, void *data) { if (size < sizeof (info->dlpi_addr) + sizeof (info->dlpi_name)) return 1; QSet *paths = (QSet *)data; QString path = QString::fromLocal8Bit(info->dlpi_name); if (!path.isEmpty()) { QFileInfo fi(path); path = fi.absolutePath(); if (!path.isEmpty()) paths->insert(path); } return 0; } #endif static QStringList libraryPathList() { QStringList paths; # ifdef Q_OS_DARWIN paths = QString::fromLatin1(qgetenv("DYLD_LIBRARY_PATH")) .split(QLatin1Char(':'), QString::SkipEmptyParts); # else paths = QString::fromLatin1(qgetenv("LD_LIBRARY_PATH")) .split(QLatin1Char(':'), QString::SkipEmptyParts); # endif paths << QLatin1String("/lib") << QLatin1String("/usr/lib") << QLatin1String("/usr/local/lib"); paths << QLatin1String("/lib64") << QLatin1String("/usr/lib64") << QLatin1String("/usr/local/lib64"); paths << QLatin1String("/lib32") << QLatin1String("/usr/lib32") << QLatin1String("/usr/local/lib32"); #ifdef Q_OS_LINUX // discover paths of already loaded libraries QSet loadedPaths; dl_iterate_phdr(dlIterateCallback, &loadedPaths); paths.append(loadedPaths.toList()); #endif return paths; } static QStringList findAllLibSsl() { QStringList paths = libraryPathList(); QStringList foundSsls; foreach (const QString &path, paths) { QDir dir(path); QStringList entryList = dir.entryList(QStringList() << QLatin1String("libssl.*"), QDir::Files); qSort(entryList.begin(), entryList.end(), libGreaterThan); foreach (const QString &entry, entryList) foundSsls << path + QLatin1Char('/') + entry; } return foundSsls; } static QStringList findAllLibCrypto() { QStringList paths = libraryPathList(); QStringList foundCryptos; foreach (const QString &path, paths) { QDir dir(path); QStringList entryList = dir.entryList(QStringList() << QLatin1String("libcrypto.*"), QDir::Files); qSort(entryList.begin(), entryList.end(), libGreaterThan); foreach (const QString &entry, entryList) foundCryptos << path + QLatin1Char('/') + entry; } return foundCryptos; } # endif #ifdef Q_OS_WIN static QPair loadOpenSslWin32() { QPair pair; pair.first = 0; pair.second = 0; QSystemLibrary *ssleay32 = new QSystemLibrary(QLatin1String("ssleay32")); if (!ssleay32->load(false)) { // Cannot find ssleay32.dll delete ssleay32; return pair; } QSystemLibrary *libeay32 = new QSystemLibrary(QLatin1String("libeay32")); if (!libeay32->load(false)) { delete ssleay32; delete libeay32; return pair; } pair.first = ssleay32; pair.second = libeay32; return pair; } #else static QPair loadOpenSsl() { QPair pair; pair.first = 0; pair.second = 0; # if defined(Q_OS_SYMBIAN) QLibrary *libssl = new QLibrary(QLatin1String("libssl")); if (!libssl->load()) { // Cannot find ssleay32.dll delete libssl; return pair; } QLibrary *libcrypto = new QLibrary(QLatin1String("libcrypto")); if (!libcrypto->load()) { delete libcrypto; delete libssl; return pair; } pair.first = libssl; pair.second = libcrypto; return pair; # elif defined(Q_OS_UNIX) QLibrary *&libssl = pair.first; QLibrary *&libcrypto = pair.second; libssl = new QLibrary; libcrypto = new QLibrary; // Try to find the libssl library on the system. // // Up until Qt 4.3, this only searched for the "ssl" library at version -1, that // is, libssl.so on most Unix systems. However, the .so file isn't present in // user installations because it's considered a development file. // // The right thing to do is to load the library at the major version we know how // to work with: the SHLIB_VERSION_NUMBER version (macro defined in opensslv.h) // // However, OpenSSL is a well-known case of binary-compatibility breakage. To // avoid such problems, many system integrators and Linux distributions change // the soname of the binary, letting the full version number be the soname. So // we'll find libssl.so.0.9.7, libssl.so.0.9.8, etc. in the system. For that // reason, we will search a few common paths (see findAllLibSsl() above) in hopes // we find one that works. // // It is important, however, to try the canonical name and the unversioned name // without going through the loop. By not specifying a path, we let the system // dlopen(3) function determine it for us. This will include any DT_RUNPATH or // DT_RPATH tags on our library header as well as other system-specific search // paths. See the man page for dlopen(3) on your system for more information. #ifdef Q_OS_OPENBSD libcrypto->setLoadHints(QLibrary::ExportExternalSymbolsHint); #endif #ifdef SHLIB_VERSION_NUMBER // first attempt: the canonical name is libssl.so. libssl->setFileNameAndVersion(QLatin1String("ssl"), QLatin1String(SHLIB_VERSION_NUMBER)); libssl->setLoadHints(QLibrary::ImprovedSearchHeuristics); libcrypto->setFileNameAndVersion(QLatin1String("crypto"), QLatin1String(SHLIB_VERSION_NUMBER)); libcrypto->setLoadHints(libcrypto->loadHints() | QLibrary::ImprovedSearchHeuristics); if (libcrypto->load() && libssl->load()) { // libssl.so. and libcrypto.so. found return pair; } else { libssl->unload(); libcrypto->unload(); } #endif // second attempt: find the development files libssl.so and libcrypto.so libssl->setFileNameAndVersion(QLatin1String("ssl"), -1); libcrypto->setFileNameAndVersion(QLatin1String("crypto"), -1); if (libcrypto->load() && libssl->load()) { // libssl.so.0 and libcrypto.so.0 found return pair; } else { libssl->unload(); libcrypto->unload(); } // third attempt: loop on the most common library paths and find libssl QStringList sslList = findAllLibSsl(); QStringList cryptoList = findAllLibCrypto(); foreach (const QString &crypto, cryptoList) { libcrypto->setFileNameAndVersion(crypto, -1); if (libcrypto->load()) { QFileInfo fi(crypto); QString version = fi.completeSuffix(); foreach (const QString &ssl, sslList) { if (!ssl.endsWith(version)) continue; libssl->setFileNameAndVersion(ssl, -1); if (libssl->load()) { // libssl.so.x and libcrypto.so.x found return pair; } else { libssl->unload(); } } } libcrypto->unload(); } // failed to load anything delete libssl; delete libcrypto; libssl = libcrypto = 0; return pair; # else // not implemented for this platform yet return pair; # endif } #endif bool q_resolveOpenSslSymbols() { static volatile bool symbolsResolved = false; static volatile bool triedToResolveSymbols = false; #ifndef QT_NO_THREAD QMutexLocker locker(QMutexPool::globalInstanceGet((void *)&q_SSL_library_init)); #endif if (symbolsResolved) return true; if (triedToResolveSymbols) return false; triedToResolveSymbols = true; #ifdef Q_OS_WIN QPair libs = loadOpenSslWin32(); #else QPair libs = loadOpenSsl(); #endif if (!libs.first || !libs.second) // failed to load them return false; #ifdef Q_OS_SYMBIAN #ifdef SSLEAY_MACROS RESOLVEFUNC(ASN1_dup, 125, libs.second ) #endif RESOLVEFUNC(ASN1_INTEGER_get, 48, libs.second ) RESOLVEFUNC(ASN1_STRING_data, 71, libs.second ) RESOLVEFUNC(ASN1_STRING_length, 76, libs.second ) RESOLVEFUNC(ASN1_STRING_to_UTF8, 86, libs.second ) RESOLVEFUNC(BIO_ctrl, 184, libs.second ) RESOLVEFUNC(BIO_free, 209, libs.second ) RESOLVEFUNC(BIO_new, 222, libs.second ) RESOLVEFUNC(BIO_new_mem_buf, 230, libs.second ) RESOLVEFUNC(BIO_read, 244, libs.second ) RESOLVEFUNC(BIO_s_mem, 251, libs.second ) RESOLVEFUNC(BIO_write, 269, libs.second ) RESOLVEFUNC(BN_num_bits, 387, libs.second ) RESOLVEFUNC(CRYPTO_free, 469, libs.second ) RESOLVEFUNC(CRYPTO_num_locks, 500, libs.second ) RESOLVEFUNC(CRYPTO_set_id_callback, 513, libs.second ) RESOLVEFUNC(CRYPTO_set_locking_callback, 516, libs.second ) RESOLVEFUNC(DSA_free, 594, libs.second ) RESOLVEFUNC(ERR_error_string, 744, libs.second ) RESOLVEFUNC(ERR_get_error, 749, libs.second ) RESOLVEFUNC(EVP_des_ede3_cbc, 919, libs.second ) RESOLVEFUNC(EVP_PKEY_assign, 859, libs.second ) RESOLVEFUNC(EVP_PKEY_set1_RSA, 880, libs.second ) RESOLVEFUNC(EVP_PKEY_set1_DSA, 879, libs.second ) RESOLVEFUNC(EVP_PKEY_free, 867, libs.second ) RESOLVEFUNC(EVP_PKEY_get1_DSA, 869, libs.second ) RESOLVEFUNC(EVP_PKEY_get1_RSA, 870, libs.second ) RESOLVEFUNC(EVP_PKEY_new, 876, libs.second ) RESOLVEFUNC(EVP_PKEY_type, 882, libs.second ) RESOLVEFUNC(OBJ_nid2sn, 1036, libs.second ) RESOLVEFUNC(OBJ_obj2nid, 1037, libs.second ) #ifdef SSLEAY_MACROS // ### verify RESOLVEFUNC(PEM_ASN1_read_bio, 1180, libs.second ) #else RESOLVEFUNC(PEM_read_bio_DSAPrivateKey, 1219, libs.second ) RESOLVEFUNC(PEM_read_bio_RSAPrivateKey, 1228, libs.second ) RESOLVEFUNC(PEM_write_bio_DSAPrivateKey, 1260, libs.second ) RESOLVEFUNC(PEM_write_bio_RSAPrivateKey, 1271, libs.second ) #endif RESOLVEFUNC(PEM_read_bio_DSA_PUBKEY, 1220, libs.second ) RESOLVEFUNC(PEM_read_bio_RSA_PUBKEY, 1230, libs.second ) RESOLVEFUNC(PEM_write_bio_DSA_PUBKEY, 1261, libs.second ) RESOLVEFUNC(PEM_write_bio_RSA_PUBKEY, 1273, libs.second ) RESOLVEFUNC(RAND_seed, 1426, libs.second ) RESOLVEFUNC(RAND_status, 1429, libs.second ) RESOLVEFUNC(RSA_free, 1450, libs.second ) RESOLVEFUNC(sk_free, 2571, libs.second ) RESOLVEFUNC(sk_num, 2576, libs.second ) RESOLVEFUNC(sk_pop_free, 2578, libs.second ) RESOLVEFUNC(sk_value, 2585, libs.second ) RESOLVEFUNC(SSL_CIPHER_description, 11, libs.first ) RESOLVEFUNC(SSL_CTX_check_private_key, 21, libs.first ) RESOLVEFUNC(SSL_CTX_ctrl, 22, libs.first ) RESOLVEFUNC(SSL_CTX_free, 24, libs.first ) RESOLVEFUNC(SSL_CTX_new, 35, libs.first ) RESOLVEFUNC(SSL_CTX_set_cipher_list, 40, libs.first ) RESOLVEFUNC(SSL_CTX_set_default_verify_paths, 44, libs.first ) RESOLVEFUNC(SSL_CTX_set_verify, 56, libs.first ) RESOLVEFUNC(SSL_CTX_set_verify_depth, 57, libs.first ) RESOLVEFUNC(SSL_CTX_use_certificate, 64, libs.first ) RESOLVEFUNC(SSL_CTX_use_certificate_file, 67, libs.first ) RESOLVEFUNC(SSL_CTX_use_PrivateKey, 58, libs.first ) RESOLVEFUNC(SSL_CTX_use_RSAPrivateKey, 61, libs.first ) RESOLVEFUNC(SSL_CTX_use_PrivateKey_file, 60, libs.first ) RESOLVEFUNC(SSL_accept, 82, libs.first ) RESOLVEFUNC(SSL_clear, 92, libs.first ) RESOLVEFUNC(SSL_connect, 93, libs.first ) RESOLVEFUNC(SSL_free, 99, libs.first ) RESOLVEFUNC(SSL_get_ciphers, 104, libs.first ) RESOLVEFUNC(SSL_get_current_cipher, 106, libs.first ) RESOLVEFUNC(SSL_get_error, 110, libs.first ) RESOLVEFUNC(SSL_get_peer_cert_chain, 117, libs.first ) RESOLVEFUNC(SSL_get_peer_certificate, 118, libs.first ) RESOLVEFUNC(SSL_get_verify_result, 132, libs.first ) RESOLVEFUNC(SSL_library_init, 137, libs.first ) RESOLVEFUNC(SSL_load_error_strings, 139, libs.first ) RESOLVEFUNC(SSL_new, 140, libs.first ) #if OPENSSL_VERSION_NUMBER >= 0x0090806fL && !defined(OPENSSL_NO_TLSEXT) RESOLVEFUNC(SSL_ctrl, 95, libs.first ) #endif RESOLVEFUNC(SSL_read, 143, libs.first ) RESOLVEFUNC(SSL_set_accept_state, 148, libs.first ) RESOLVEFUNC(SSL_set_bio, 149, libs.first ) RESOLVEFUNC(SSL_set_connect_state, 152, libs.first ) RESOLVEFUNC(SSL_shutdown, 173, libs.first ) RESOLVEFUNC(SSL_write, 188, libs.first ) RESOLVEFUNC(SSLv2_client_method, 192, libs.first ) RESOLVEFUNC(SSLv3_client_method, 195, libs.first ) RESOLVEFUNC(SSLv23_client_method, 189, libs.first ) RESOLVEFUNC(TLSv1_client_method, 198, libs.first ) RESOLVEFUNC(SSLv2_server_method, 194, libs.first ) RESOLVEFUNC(SSLv3_server_method, 197, libs.first ) RESOLVEFUNC(SSLv23_server_method, 191, libs.first ) RESOLVEFUNC(TLSv1_server_method, 200, libs.first ) RESOLVEFUNC(SSL_CTX_load_verify_locations, 34, libs.first ) RESOLVEFUNC(X509_NAME_entry_count, 1821, libs.second ) RESOLVEFUNC(X509_NAME_get_entry, 1823, libs.second ) RESOLVEFUNC(X509_NAME_ENTRY_get_data, 1808, libs.second ) RESOLVEFUNC(X509_NAME_ENTRY_get_object, 1809, libs.second ) RESOLVEFUNC(X509_PUBKEY_get, 1844, libs.second ) RESOLVEFUNC(X509_STORE_free, 1939, libs.second ) RESOLVEFUNC(X509_STORE_new, 1942, libs.second ) RESOLVEFUNC(X509_STORE_add_cert, 1936, libs.second ) RESOLVEFUNC(X509_STORE_CTX_free, 1907, libs.second ) RESOLVEFUNC(X509_STORE_CTX_init, 1919, libs.second ) RESOLVEFUNC(X509_STORE_CTX_new, 1920, libs.second ) RESOLVEFUNC(X509_STORE_CTX_set_purpose, 1931, libs.second ) RESOLVEFUNC(X509_cmp, 1992, libs.second ) #ifndef SSLEAY_MACROS RESOLVEFUNC(X509_dup, 1997, libs.second ) #endif RESOLVEFUNC(X509_EXTENSION_get_object, 1785, libs.second ) RESOLVEFUNC(X509_free, 2001, libs.second ) RESOLVEFUNC(X509_get_ext, 2012, libs.second ) RESOLVEFUNC(X509_get_ext_count, 2016, libs.second ) RESOLVEFUNC(X509_get_ext_d2i, 2017, libs.second ) RESOLVEFUNC(X509_get_issuer_name, 2018, libs.second ) RESOLVEFUNC(X509_get_subject_name, 2022, libs.second ) RESOLVEFUNC(X509_verify_cert, 2069, libs.second ) RESOLVEFUNC(d2i_X509, 2309, libs.second ) RESOLVEFUNC(i2d_X509, 2489, libs.second ) #ifdef SSLEAY_MACROS RESOLVEFUNC(i2d_DSAPrivateKey, 2395, libs.second ) RESOLVEFUNC(i2d_RSAPrivateKey, 2476, libs.second ) RESOLVEFUNC(d2i_DSAPrivateKey, 2220, libs.second ) RESOLVEFUNC(d2i_RSAPrivateKey, 2296, libs.second ) #endif RESOLVEFUNC(OPENSSL_add_all_algorithms_noconf, 1153, libs.second ) RESOLVEFUNC(OPENSSL_add_all_algorithms_conf, 1152, libs.second ) RESOLVEFUNC(SSLeay, 1504, libs.second ) #else // Q_OS_SYMBIAN #ifdef SSLEAY_MACROS RESOLVEFUNC(ASN1_dup) #endif RESOLVEFUNC(ASN1_INTEGER_get) RESOLVEFUNC(ASN1_STRING_data) RESOLVEFUNC(ASN1_STRING_length) RESOLVEFUNC(ASN1_STRING_to_UTF8) RESOLVEFUNC(BIO_ctrl) RESOLVEFUNC(BIO_free) RESOLVEFUNC(BIO_new) RESOLVEFUNC(BIO_new_mem_buf) RESOLVEFUNC(BIO_read) RESOLVEFUNC(BIO_s_mem) RESOLVEFUNC(BIO_write) RESOLVEFUNC(BN_num_bits) RESOLVEFUNC(CRYPTO_free) RESOLVEFUNC(CRYPTO_num_locks) RESOLVEFUNC(CRYPTO_set_id_callback) RESOLVEFUNC(CRYPTO_set_locking_callback) RESOLVEFUNC(DSA_free) RESOLVEFUNC(ERR_error_string) RESOLVEFUNC(ERR_get_error) RESOLVEFUNC(EVP_des_ede3_cbc) RESOLVEFUNC(EVP_PKEY_assign) RESOLVEFUNC(EVP_PKEY_set1_RSA) RESOLVEFUNC(EVP_PKEY_set1_DSA) RESOLVEFUNC(EVP_PKEY_free) RESOLVEFUNC(EVP_PKEY_get1_DSA) RESOLVEFUNC(EVP_PKEY_get1_RSA) RESOLVEFUNC(EVP_PKEY_new) RESOLVEFUNC(EVP_PKEY_type) RESOLVEFUNC(OBJ_nid2sn) RESOLVEFUNC(OBJ_obj2nid) #ifdef SSLEAY_MACROS // ### verify RESOLVEFUNC(PEM_ASN1_read_bio) #else RESOLVEFUNC(PEM_read_bio_DSAPrivateKey) RESOLVEFUNC(PEM_read_bio_RSAPrivateKey) RESOLVEFUNC(PEM_write_bio_DSAPrivateKey) RESOLVEFUNC(PEM_write_bio_RSAPrivateKey) #endif RESOLVEFUNC(PEM_read_bio_DSA_PUBKEY) RESOLVEFUNC(PEM_read_bio_RSA_PUBKEY) RESOLVEFUNC(PEM_write_bio_DSA_PUBKEY) RESOLVEFUNC(PEM_write_bio_RSA_PUBKEY) RESOLVEFUNC(RAND_seed) RESOLVEFUNC(RAND_status) RESOLVEFUNC(RSA_free) RESOLVEFUNC(sk_free) RESOLVEFUNC(sk_num) RESOLVEFUNC(sk_pop_free) RESOLVEFUNC(sk_value) RESOLVEFUNC(SSL_CIPHER_description) RESOLVEFUNC(SSL_CTX_check_private_key) RESOLVEFUNC(SSL_CTX_ctrl) RESOLVEFUNC(SSL_CTX_free) RESOLVEFUNC(SSL_CTX_new) RESOLVEFUNC(SSL_CTX_set_cipher_list) RESOLVEFUNC(SSL_CTX_set_default_verify_paths) RESOLVEFUNC(SSL_CTX_set_verify) RESOLVEFUNC(SSL_CTX_set_verify_depth) RESOLVEFUNC(SSL_CTX_use_certificate) RESOLVEFUNC(SSL_CTX_use_certificate_file) RESOLVEFUNC(SSL_CTX_use_PrivateKey) RESOLVEFUNC(SSL_CTX_use_RSAPrivateKey) RESOLVEFUNC(SSL_CTX_use_PrivateKey_file) RESOLVEFUNC(SSL_accept) RESOLVEFUNC(SSL_clear) RESOLVEFUNC(SSL_connect) RESOLVEFUNC(SSL_free) RESOLVEFUNC(SSL_get_ciphers) RESOLVEFUNC(SSL_get_current_cipher) RESOLVEFUNC(SSL_get_error) RESOLVEFUNC(SSL_get_peer_cert_chain) RESOLVEFUNC(SSL_get_peer_certificate) RESOLVEFUNC(SSL_get_verify_result) RESOLVEFUNC(SSL_library_init) RESOLVEFUNC(SSL_load_error_strings) RESOLVEFUNC(SSL_new) #if OPENSSL_VERSION_NUMBER >= 0x0090806fL && !defined(OPENSSL_NO_TLSEXT) RESOLVEFUNC(SSL_ctrl) #endif RESOLVEFUNC(SSL_read) RESOLVEFUNC(SSL_set_accept_state) RESOLVEFUNC(SSL_set_bio) RESOLVEFUNC(SSL_set_connect_state) RESOLVEFUNC(SSL_shutdown) RESOLVEFUNC(SSL_write) #ifndef OPENSSL_NO_SSL2 RESOLVEFUNC(SSLv2_client_method) #endif RESOLVEFUNC(SSLv3_client_method) RESOLVEFUNC(SSLv23_client_method) RESOLVEFUNC(TLSv1_client_method) #ifndef OPENSSL_NO_SSL2 RESOLVEFUNC(SSLv2_server_method) #endif RESOLVEFUNC(SSLv3_server_method) RESOLVEFUNC(SSLv23_server_method) RESOLVEFUNC(TLSv1_server_method) RESOLVEFUNC(X509_NAME_entry_count) RESOLVEFUNC(X509_NAME_get_entry) RESOLVEFUNC(X509_NAME_ENTRY_get_data) RESOLVEFUNC(X509_NAME_ENTRY_get_object) RESOLVEFUNC(X509_PUBKEY_get) RESOLVEFUNC(X509_STORE_free) RESOLVEFUNC(X509_STORE_new) RESOLVEFUNC(X509_STORE_add_cert) RESOLVEFUNC(X509_STORE_CTX_free) RESOLVEFUNC(X509_STORE_CTX_init) RESOLVEFUNC(X509_STORE_CTX_new) RESOLVEFUNC(X509_STORE_CTX_set_purpose) RESOLVEFUNC(X509_cmp) #ifndef SSLEAY_MACROS RESOLVEFUNC(X509_dup) #endif RESOLVEFUNC(X509_EXTENSION_get_object) RESOLVEFUNC(X509_free) RESOLVEFUNC(X509_get_ext) RESOLVEFUNC(X509_get_ext_count) RESOLVEFUNC(X509_get_ext_d2i) RESOLVEFUNC(X509_get_issuer_name) RESOLVEFUNC(X509_get_subject_name) RESOLVEFUNC(X509_verify_cert) RESOLVEFUNC(d2i_X509) RESOLVEFUNC(i2d_X509) #ifdef SSLEAY_MACROS RESOLVEFUNC(i2d_DSAPrivateKey) RESOLVEFUNC(i2d_RSAPrivateKey) RESOLVEFUNC(d2i_DSAPrivateKey) RESOLVEFUNC(d2i_RSAPrivateKey) #endif RESOLVEFUNC(OPENSSL_add_all_algorithms_noconf) RESOLVEFUNC(OPENSSL_add_all_algorithms_conf) RESOLVEFUNC(SSL_CTX_load_verify_locations) RESOLVEFUNC(SSLeay) #endif // Q_OS_SYMBIAN symbolsResolved = true; delete libs.first; delete libs.second; return true; } #endif // QT_NO_LIBRARY #else // !defined QT_LINKED_OPENSSL bool q_resolveOpenSslSymbols() { #ifdef QT_NO_OPENSSL return false; #endif return true; } #endif // !defined QT_LINKED_OPENSSL //============================================================================== // contributed by Jay Case of Sarvega, Inc.; http://sarvega.com/ // Based on X509_cmp_time() for intitial buffer hacking. //============================================================================== QDateTime q_getTimeFromASN1(const ASN1_TIME *aTime) { size_t lTimeLength = aTime->length; char *pString = (char *) aTime->data; if (aTime->type == V_ASN1_UTCTIME) { char lBuffer[24]; char *pBuffer = lBuffer; if ((lTimeLength < 11) || (lTimeLength > 17)) return QDateTime(); memcpy(pBuffer, pString, 10); pBuffer += 10; pString += 10; if ((*pString == 'Z') || (*pString == '-') || (*pString == '+')) { *pBuffer++ = '0'; *pBuffer++ = '0'; } else { *pBuffer++ = *pString++; *pBuffer++ = *pString++; // Skip any fractional seconds... if (*pString == '.') { pString++; while ((*pString >= '0') && (*pString <= '9')) pString++; } } *pBuffer++ = 'Z'; *pBuffer++ = '\0'; time_t lSecondsFromUCT; if (*pString == 'Z') { lSecondsFromUCT = 0; } else { if ((*pString != '+') && (*pString != '-')) return QDateTime(); lSecondsFromUCT = ((pString[1] - '0') * 10 + (pString[2] - '0')) * 60; lSecondsFromUCT += (pString[3] - '0') * 10 + (pString[4] - '0'); lSecondsFromUCT *= 60; if (*pString == '-') lSecondsFromUCT = -lSecondsFromUCT; } tm lTime; lTime.tm_sec = ((lBuffer[10] - '0') * 10) + (lBuffer[11] - '0'); lTime.tm_min = ((lBuffer[8] - '0') * 10) + (lBuffer[9] - '0'); lTime.tm_hour = ((lBuffer[6] - '0') * 10) + (lBuffer[7] - '0'); lTime.tm_mday = ((lBuffer[4] - '0') * 10) + (lBuffer[5] - '0'); lTime.tm_mon = (((lBuffer[2] - '0') * 10) + (lBuffer[3] - '0')) - 1; lTime.tm_year = ((lBuffer[0] - '0') * 10) + (lBuffer[1] - '0'); if (lTime.tm_year < 50) lTime.tm_year += 100; // RFC 2459 QDate resDate(lTime.tm_year + 1900, lTime.tm_mon + 1, lTime.tm_mday); QTime resTime(lTime.tm_hour, lTime.tm_min, lTime.tm_sec); QDateTime result(resDate, resTime, Qt::UTC); result = result.addSecs(lSecondsFromUCT); return result; } else if (aTime->type == V_ASN1_GENERALIZEDTIME) { if (lTimeLength < 15) return QDateTime(); // hopefully never triggered // generalized time is always YYYYMMDDHHMMSSZ (RFC 2459, section 4.1.2.5.2) tm lTime; lTime.tm_sec = ((pString[12] - '0') * 10) + (pString[13] - '0'); lTime.tm_min = ((pString[10] - '0') * 10) + (pString[11] - '0'); lTime.tm_hour = ((pString[8] - '0') * 10) + (pString[9] - '0'); lTime.tm_mday = ((pString[6] - '0') * 10) + (pString[7] - '0'); lTime.tm_mon = (((pString[4] - '0') * 10) + (pString[5] - '0')); lTime.tm_year = ((pString[0] - '0') * 1000) + ((pString[1] - '0') * 100) + ((pString[2] - '0') * 10) + (pString[3] - '0'); QDate resDate(lTime.tm_year, lTime.tm_mon, lTime.tm_mday); QTime resTime(lTime.tm_hour, lTime.tm_min, lTime.tm_sec); QDateTime result(resDate, resTime, Qt::UTC); return result; } else { qWarning("unsupported date format detected"); return QDateTime(); } } QT_END_NAMESPACE