#include #include #include #define _GNU_SOURCE /* See feature_test_macros(7) */ #include #include "wrappedlibs.h" #include "debug.h" #include "wrapper.h" #include "bridge.h" #include "librarian/library_private.h" #include "x64emu.h" #include "emu/x64emu_private.h" #include "callback.h" #include "librarian.h" #include "box64context.h" #include "emu/x64emu_private.h" #include "callback.h" const char* cryptoName = "libcrypto.so.1.0.0"; #define LIBNAME crypto #define ALTNAME "libcrypto.so.1.0.2" #define ALTNAME2 "libcrypto.so.1.1" #include "generated/wrappedcryptotypes.h" #include "wrappercallback.h" // utility functions #define SUPER() \ GO(0) \ GO(1) \ GO(2) \ GO(3) \ GO(4) // BIO_meth_set_write #define GO(A) \ static uintptr_t my_BIO_meth_set_write_fct_##A = 0; \ static int my_BIO_meth_set_write_##A(void* a, void* b, int c) \ { \ return (int)RunFunctionFmt(my_BIO_meth_set_write_fct_##A, "ppi", a, b, c); \ } SUPER() #undef GO static void* find_BIO_meth_set_write_Fct(void* fct) { if (!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_BIO_meth_set_write_fct_##A == (uintptr_t)fct) return my_BIO_meth_set_write_##A; SUPER() #undef GO #define GO(A) if(my_BIO_meth_set_write_fct_##A == 0) {my_BIO_meth_set_write_fct_##A = (uintptr_t)fct; return my_BIO_meth_set_write_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto BIO_meth_set_write callback\n"); return NULL; } // BIO_meth_set_read #define GO(A) \ static uintptr_t my_BIO_meth_set_read_fct_##A = 0; \ static int my_BIO_meth_set_read_##A(void* a, void* b, int c)\ { \ return (int)RunFunctionFmt(my_BIO_meth_set_read_fct_##A, "ppi", a, b, c); \ } SUPER() #undef GO static void* find_BIO_meth_set_read_Fct(void* fct) { if (!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_BIO_meth_set_read_fct_##A == (uintptr_t)fct) return my_BIO_meth_set_read_##A; SUPER() #undef GO #define GO(A) if(my_BIO_meth_set_read_fct_##A == 0) {my_BIO_meth_set_read_fct_##A = (uintptr_t)fct; return my_BIO_meth_set_read_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto BIO_meth_set_read callback\n"); return NULL; } // BIO_meth_set_puts #define GO(A) \ static uintptr_t my_BIO_meth_set_puts_fct_##A = 0; \ static int my_BIO_meth_set_puts_##A(void* a, void* b) \ { \ return (int)RunFunctionFmt(my_BIO_meth_set_puts_fct_##A, "pp", a, b); \ } SUPER() #undef GO static void* find_BIO_meth_set_puts_Fct(void* fct) { if (!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_BIO_meth_set_puts_fct_##A == (uintptr_t)fct) return my_BIO_meth_set_puts_##A; SUPER() #undef GO #define GO(A) if(my_BIO_meth_set_puts_fct_##A == 0) {my_BIO_meth_set_puts_fct_##A = (uintptr_t)fct; return my_BIO_meth_set_puts_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto BIO_meth_set_puts callback\n"); return NULL; } // BIO_meth_set_gets #define GO(A) \ static uintptr_t my_BIO_meth_set_gets_fct_##A = 0; \ static int my_BIO_meth_set_gets_##A(void* a, void* b, int c)\ { \ return (int)RunFunctionFmt(my_BIO_meth_set_gets_fct_##A, "ppi", a, b, c); \ } SUPER() #undef GO static void* find_BIO_meth_set_gets_Fct(void* fct) { if (!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_BIO_meth_set_gets_fct_##A == (uintptr_t)fct) return my_BIO_meth_set_gets_##A; SUPER() #undef GO #define GO(A) if(my_BIO_meth_set_gets_fct_##A == 0) {my_BIO_meth_set_gets_fct_##A = (uintptr_t)fct; return my_BIO_meth_set_gets_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto BIO_meth_set_gets callback\n"); return NULL; } // BIO_meth_set_ctrl #define GO(A) \ static uintptr_t my_BIO_meth_set_ctrl_fct_##A = 0; \ static long my_BIO_meth_set_ctrl_##A(void* a, int b, long c, void* d) \ { \ return (long)RunFunctionFmt(my_BIO_meth_set_ctrl_fct_##A, "pilp", a, b, c, d); \ } SUPER() #undef GO static void* find_BIO_meth_set_ctrl_Fct(void* fct) { if (!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_BIO_meth_set_ctrl_fct_##A == (uintptr_t)fct) return my_BIO_meth_set_ctrl_##A; SUPER() #undef GO #define GO(A) if(my_BIO_meth_set_ctrl_fct_##A == 0) {my_BIO_meth_set_ctrl_fct_##A = (uintptr_t)fct; return my_BIO_meth_set_ctrl_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto BIO_meth_set_ctrl callback\n"); return NULL; } // BIO_meth_set_create #define GO(A) \ static uintptr_t my_BIO_meth_set_create_fct_##A = 0;\ static int my_BIO_meth_set_create_##A(void* a) \ { \ return (int)RunFunctionFmt(my_BIO_meth_set_create_fct_##A, "p", a); \ } SUPER() #undef GO static void* find_BIO_meth_set_create_Fct(void* fct) { if (!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_BIO_meth_set_create_fct_##A == (uintptr_t)fct) return my_BIO_meth_set_create_##A; SUPER() #undef GO #define GO(A) if(my_BIO_meth_set_create_fct_##A == 0) {my_BIO_meth_set_create_fct_##A = (uintptr_t)fct; return my_BIO_meth_set_create_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto BIO_meth_set_create callback\n"); return NULL; } // BIO_meth_set_destroy #define GO(A) \ static uintptr_t my_BIO_meth_set_destroy_fct_##A = 0; \ static int my_BIO_meth_set_destroy_##A(void* a) \ { \ return (int)RunFunctionFmt(my_BIO_meth_set_destroy_fct_##A, "p", a);\ } SUPER() #undef GO static void* find_BIO_meth_set_destroy_Fct(void* fct) { if (!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_BIO_meth_set_destroy_fct_##A == (uintptr_t)fct) return my_BIO_meth_set_destroy_##A; SUPER() #undef GO #define GO(A) if(my_BIO_meth_set_destroy_fct_##A == 0) {my_BIO_meth_set_destroy_fct_##A = (uintptr_t)fct; return my_BIO_meth_set_destroy_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto BIO_meth_set_destroy callback\n"); return NULL; } // ENGINE_ctrl_cb #define GO(A) \ static uintptr_t my_ENGINE_ctrl_cb_fct_##A = 0; \ static void my_ENGINE_ctrl_cb_##A() \ { \ RunFunctionFmt(my_ENGINE_ctrl_cb_fct_##A, ""); \ } SUPER() #undef GO static void* find_ENGINE_ctrl_cb_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_ENGINE_ctrl_cb_fct_##A == (uintptr_t)fct) return my_ENGINE_ctrl_cb_##A; SUPER() #undef GO #define GO(A) if(my_ENGINE_ctrl_cb_fct_##A == 0) {my_ENGINE_ctrl_cb_fct_##A = (uintptr_t)fct; return my_ENGINE_ctrl_cb_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto ENGINE_ctrl_cb callback\n"); return NULL; } // cmp_fnc #define GO(A) \ static uintptr_t my_cmp_fnc_fct_##A = 0; \ static int my_cmp_fnc_##A(void* a, void* b) \ { \ return (int)RunFunctionFmt(my_cmp_fnc_fct_##A, "pp", a, b); \ } SUPER() #undef GO static void* find_cmp_fnc_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_cmp_fnc_fct_##A == (uintptr_t)fct) return my_cmp_fnc_##A; SUPER() #undef GO #define GO(A) if(my_cmp_fnc_fct_##A == 0) {my_cmp_fnc_fct_##A = (uintptr_t)fct; return my_cmp_fnc_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto cmp_fnc callback\n"); return NULL; } // free_fnc #define GO(A) \ static uintptr_t my_free_fnc_fct_##A = 0; \ static void my_free_fnc_##A(void* p) \ { \ RunFunctionFmt(my_free_fnc_fct_##A, "p", p); \ } SUPER() #undef GO static void* find_free_fnc_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_free_fnc_fct_##A == (uintptr_t)fct) return my_free_fnc_##A; SUPER() #undef GO #define GO(A) if(my_free_fnc_fct_##A == 0) {my_free_fnc_fct_##A = (uintptr_t)fct; return my_free_fnc_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto free_fnc callback\n"); return NULL; } // id_func #define GO(A) \ static uintptr_t my_id_func_fct_##A = 0; \ static unsigned long my_id_func_##A() \ { \ return (unsigned long)RunFunctionFmt(my_id_func_fct_##A, ""); \ } SUPER() #undef GO static void* find_id_func_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_id_func_fct_##A == (uintptr_t)fct) return my_id_func_##A; SUPER() #undef GO #define GO(A) if(my_id_func_fct_##A == 0) {my_id_func_fct_##A = (uintptr_t)fct; return my_id_func_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto id_func callback\n"); return NULL; } // lock_func #define GO(A) \ static uintptr_t my_lock_func_fct_##A = 0; \ static void my_lock_func_##A(int mode, int n, void* f, int l) \ { \ RunFunctionFmt(my_lock_func_fct_##A, "iipi", mode, n, f, l); \ } SUPER() #undef GO static void* find_lock_func_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_lock_func_fct_##A == (uintptr_t)fct) return my_lock_func_##A; SUPER() #undef GO #define GO(A) if(my_lock_func_fct_##A == 0) {my_lock_func_fct_##A = (uintptr_t)fct; return my_lock_func_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto lock_func callback\n"); return NULL; } // passphrase #define GO(A) \ static uintptr_t my_passphrase_fct_##A = 0; \ static int my_passphrase_##A(void* buff, int size, int rw, void* u) \ { \ return (int)RunFunctionFmt(my_passphrase_fct_##A, "piip", buff, size, rw, u); \ } SUPER() #undef GO static void* find_passphrase_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_passphrase_fct_##A == (uintptr_t)fct) return my_passphrase_##A; SUPER() #undef GO #define GO(A) if(my_passphrase_fct_##A == 0) {my_passphrase_fct_##A = (uintptr_t)fct; return my_passphrase_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto passphrase callback\n"); return NULL; } // xnew #define GO(A) \ static uintptr_t my_xnew_fct_##A = 0; \ static void* my_xnew_##A() \ { \ return (void*)RunFunctionFmt(my_xnew_fct_##A, ""); \ } SUPER() #undef GO static void* find_xnew_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_xnew_fct_##A == (uintptr_t)fct) return my_xnew_##A; SUPER() #undef GO #define GO(A) if(my_xnew_fct_##A == 0) {my_xnew_fct_##A = (uintptr_t)fct; return my_xnew_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto xnew callback\n"); return NULL; } // d2i #define GO(A) \ static uintptr_t my_d2i_fct_##A = 0; \ static void* my_d2i_##A() \ { \ return (void*)RunFunctionFmt(my_d2i_fct_##A, ""); \ } SUPER() #undef GO static void* find_d2i_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_d2i_fct_##A == (uintptr_t)fct) return my_d2i_##A; SUPER() #undef GO #define GO(A) if(my_d2i_fct_##A == 0) {my_d2i_fct_##A = (uintptr_t)fct; return my_d2i_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto d2i callback\n"); return NULL; } // i2d #define GO(A) \ static uintptr_t my_i2d_fct_##A = 0; \ static int my_i2d_##A() \ { \ return (int)RunFunctionFmt(my_i2d_fct_##A, ""); \ } SUPER() #undef GO static void* find_i2d_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_i2d_fct_##A == (uintptr_t)fct) return my_i2d_##A; SUPER() #undef GO #define GO(A) if(my_i2d_fct_##A == 0) {my_i2d_fct_##A = (uintptr_t)fct; return my_i2d_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto i2d callback\n"); return NULL; } // pem_password_cb #define GO(A) \ static uintptr_t my_pem_password_cb_fct_##A = 0; \ static int my_pem_password_cb_##A(void* a, int b, int c, void* d) \ { \ return (int)RunFunctionFmt(my_pem_password_cb_fct_##A, "piip", a, b, c, d); \ } SUPER() #undef GO static void* find_pem_password_cb_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_pem_password_cb_fct_##A == (uintptr_t)fct) return my_pem_password_cb_##A; SUPER() #undef GO #define GO(A) if(my_pem_password_cb_fct_##A == 0) {my_pem_password_cb_fct_##A = (uintptr_t)fct; return my_pem_password_cb_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto pem_password_cb callback\n"); return NULL; } // ctx_verify_cb #define GO(A) \ static uintptr_t my_ctx_verify_cb_fct_##A = 0; \ static int my_ctx_verify_cb_##A(int a, void* b) \ { \ return (int)RunFunctionFmt(my_ctx_verify_cb_fct_##A, "ip", a, b); \ } SUPER() #undef GO static void* find_ctx_verify_cb_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_ctx_verify_cb_fct_##A == (uintptr_t)fct) return my_ctx_verify_cb_##A; SUPER() #undef GO #define GO(A) if(my_ctx_verify_cb_fct_##A == 0) {my_ctx_verify_cb_fct_##A = (uintptr_t)fct; return my_ctx_verify_cb_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto ctx_verify_cb callback\n"); return NULL; } // verify_cb #define GO(A) \ static uintptr_t my_verify_cb_fct_##A = 0; \ static int my_verify_cb_##A(int a, void* b) \ { \ return (int)RunFunctionFmt(my_verify_cb_fct_##A, "ip", a, b); \ } SUPER() #undef GO static void* find_verify_cb_Fct(void* fct) { if(!fct) return NULL; void* p; if((p = GetNativeFnc((uintptr_t)fct))) return p; #define GO(A) if(my_verify_cb_fct_##A == (uintptr_t)fct) return my_verify_cb_##A; SUPER() #undef GO #define GO(A) if(my_verify_cb_fct_##A == 0) {my_verify_cb_fct_##A = (uintptr_t)fct; return my_verify_cb_##A; } SUPER() #undef GO printf_log(LOG_NONE, "Warning, no more slot for libcrypto verify_cb callback\n"); return NULL; } #undef SUPER EXPORT int32_t my_BIO_meth_set_write(x64emu_t* emu, void* biom, void* cb) { (void)emu; return my->BIO_meth_set_write(biom, find_BIO_meth_set_write_Fct(cb)); } EXPORT int32_t my_BIO_meth_set_read(x64emu_t* emu, void* biom, void* cb) { (void)emu; return my->BIO_meth_set_read(biom, find_BIO_meth_set_read_Fct(cb)); } EXPORT int32_t my_BIO_meth_set_puts(x64emu_t* emu, void* biom, void* cb) { (void)emu; return my->BIO_meth_set_puts(biom, find_BIO_meth_set_puts_Fct(cb)); } EXPORT int32_t my_BIO_meth_set_gets(x64emu_t* emu, void* biom, void* cb) { (void)emu; return my->BIO_meth_set_gets(biom, find_BIO_meth_set_gets_Fct(cb)); } EXPORT int32_t my_BIO_meth_set_ctrl(x64emu_t* emu, void* biom, void* cb) { (void)emu; return my->BIO_meth_set_ctrl(biom, find_BIO_meth_set_ctrl_Fct(cb)); } EXPORT int32_t my_BIO_meth_set_create(x64emu_t* emu, void* biom, void* cb) { (void)emu; return my->BIO_meth_set_create(biom, find_BIO_meth_set_create_Fct(cb)); } EXPORT int32_t my_BIO_meth_set_destroy(x64emu_t* emu, void* biom, void* cb) { (void)emu; return my->BIO_meth_set_destroy(biom, find_BIO_meth_set_destroy_Fct(cb)); } EXPORT int32_t my_ENGINE_ctrl(x64emu_t* emu, void* e, int32_t cmd, int32_t i, void* p, void* f) { (void)emu; return my->ENGINE_ctrl(e, cmd, i, p, find_ENGINE_ctrl_cb_Fct(f)); } EXPORT int32_t my_ENGINE_ctrl_cmd(x64emu_t* emu, void* e, void* cmd, long i, void* p, void* f, int optional) { (void)emu; return my->ENGINE_ctrl_cmd(e, cmd, i, p, find_ENGINE_ctrl_cb_Fct(f), optional); } EXPORT void my_CRYPTO_set_id_callback(x64emu_t* emu, void* cb) { (void)emu; my->CRYPTO_set_id_callback(find_id_func_Fct(cb)); } EXPORT void my_CRYPTO_set_locking_callback(x64emu_t* emu, void* cb) { (void)emu; my->CRYPTO_set_locking_callback(find_lock_func_Fct(cb)); } EXPORT void my_PEM_read_bio_DSAPrivateKey(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; my->PEM_read_bio_DSAPrivateKey(bp, x, find_passphrase_Fct(cb), u); } EXPORT void my_PEM_read_bio_DSA_PUBKEY(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; my->PEM_read_bio_DSA_PUBKEY(bp, x, find_passphrase_Fct(cb), u); } EXPORT void my_PEM_read_bio_RSAPrivateKey(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; my->PEM_read_bio_RSAPrivateKey(bp, x, find_passphrase_Fct(cb), u); } EXPORT void my_PEM_read_bio_RSA_PUBKEY(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; my->PEM_read_bio_RSA_PUBKEY(bp, x, find_passphrase_Fct(cb), u); } EXPORT void my_PEM_read_bio_ECPrivateKey(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; my->PEM_read_bio_ECPrivateKey(bp, x, find_passphrase_Fct(cb), u); } EXPORT void my_PEM_read_bio_EC_PUBKEY(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; my->PEM_read_bio_EC_PUBKEY(bp, x, find_passphrase_Fct(cb), u); } EXPORT int my_PEM_write_bio_DSAPrivateKey(x64emu_t* emu, void* bp, void* x, void* e, void* str, int len, void* cb, void* u) { (void)emu; return my->PEM_write_bio_DSAPrivateKey(bp, x, e, str, len, find_passphrase_Fct(cb), u); } EXPORT int my_PEM_write_bio_RSAPrivateKey(x64emu_t* emu, void* bp, void* x, void* e, void* str, int len, void* cb, void* u) { (void)emu; return my->PEM_write_bio_RSAPrivateKey(bp, x, e, str, len, find_passphrase_Fct(cb), u); } EXPORT int my_PEM_write_bio_PrivateKey(x64emu_t* emu, void* bp, void* x, void* e, void* str, int len, void* cb, void* u) { (void)emu; return my->PEM_write_bio_PrivateKey(bp, x, e, str, len, find_passphrase_Fct(cb), u); } EXPORT int my_PEM_write_bio_ECPrivateKey(x64emu_t* emu, void* bp, void* x, void* e, void* str, int len, void* cb, void* u) { (void)emu; return my->PEM_write_bio_ECPrivateKey(bp, x, e, str, len, find_passphrase_Fct(cb), u); } EXPORT void* my_sk_new(x64emu_t* emu, void* f) { (void)emu; return my->sk_new(find_cmp_fnc_Fct(f)); } EXPORT void my_sk_pop_free(x64emu_t* emu, void* st, void* f) { (void)emu; my->sk_pop_free(st, find_free_fnc_Fct(f)); } EXPORT void* my_ASN1_d2i_bio(x64emu_t* emu, void* xnew, void* d2i, void* bp, void* x) { (void)emu; return my->ASN1_d2i_bio(find_xnew_Fct(xnew), find_d2i_Fct(d2i), bp, x); } EXPORT int my_ASN1_i2d_bio(x64emu_t* emu, void* i2d, void* bp, void* x) { (void)emu; return my->ASN1_i2d_bio(find_i2d_Fct(i2d), bp, x); } EXPORT void* my_PEM_read_bio_PKCS7(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_PKCS7(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_PrivateKey(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_PrivateKey(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_PUBKEY(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_PUBKEY(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_DHparams(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_DHparams(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_X509(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_X509(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_X509_AUX(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_X509_AUX(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_X509_CRL(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_X509_CRL(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_X509_REQ(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_X509_REQ(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void* my_PEM_read_bio_X509_CERT_PAIR(x64emu_t* emu, void* bp, void* x, void* cb, void* u) { (void)emu; return my->PEM_read_bio_X509_CERT_PAIR(bp, x, find_pem_password_cb_Fct(cb), u); } EXPORT void my_X509_STORE_CTX_set_verify_cb(x64emu_t* emu, void* ctx, void* cb) { (void)emu; my->X509_STORE_CTX_set_verify_cb(ctx, find_ctx_verify_cb_Fct(cb)); } EXPORT void my_X509_STORE_set_verify_cb(x64emu_t* emu, void* ctx, void* cb) { (void)emu; my->X509_STORE_set_verify_cb(ctx, find_verify_cb_Fct(cb)); } EXPORT void my_OPENSSL_sk_pop_free(x64emu_t* emu, void* s, void* cb) { (void)emu; my->OPENSSL_sk_pop_free(s, find_free_fnc_Fct(cb)); } #include "wrappedlib_init.h"