/* * Copyright 2004-2019 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the OpenSSL license (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #if (defined(_WIN64) || defined(_WIN32_WCE)) && !defined(UNICODE) # define UNICODE #endif #if defined(UNICODE) && !defined(_UNICODE) # define _UNICODE #endif #if defined(_UNICODE) && !defined(UNICODE) # define UNICODE #endif #include #include #include #include "uplink.h" void OPENSSL_showfatal(const char *, ...); static TCHAR msg[128]; static void unimplemented(void) { OPENSSL_showfatal(sizeof(TCHAR) == sizeof(char) ? "%s\n" : "%S\n", msg); TerminateProcess(GetCurrentProcess(), 1); } void OPENSSL_Uplink(volatile void **table, int index) { static HMODULE volatile apphandle = NULL; static void **volatile applinktable = NULL; int len; void (*func) (void) = unimplemented; HANDLE h; void **p; /* * Note that the below code is not MT-safe in respect to msg buffer, but * what's the worst thing that can happen? Error message might be * misleading or corrupted. As error condition is fatal and should never * be risen, I accept the risk... */ /* * One can argue that I should have used InterlockedExchangePointer or * something to update static variables and table[]. Well, store * instructions are as atomic as they can get and assigned values are * effectively constant... So that volatile qualifier should be * sufficient [it prohibits compiler to reorder memory access * instructions]. */ do { len = _sntprintf(msg, sizeof(msg) / sizeof(TCHAR), _T("OPENSSL_Uplink(%p,%02X): "), table, index); _tcscpy(msg + len, _T("unimplemented function")); if ((h = apphandle) == NULL) { if ((h = GetModuleHandle(NULL)) == NULL) { apphandle = (HMODULE) - 1; _tcscpy(msg + len, _T("no host application")); break; } apphandle = h; } if ((h = apphandle) == (HMODULE) - 1) /* revalidate */ break; if (applinktable == NULL) { void **(*applink) (); applink = (void **(*)())GetProcAddress(h, "OPENSSL_Applink"); if (applink == NULL) { apphandle = (HMODULE) - 1; _tcscpy(msg + len, _T("no OPENSSL_Applink")); break; } p = (*applink) (); if (p == NULL) { apphandle = (HMODULE) - 1; _tcscpy(msg + len, _T("no ApplinkTable")); break; } applinktable = p; } else p = applinktable; if (index > (int)p[0]) break; if (p[index]) func = p[index]; } while (0); table[index] = func; } #if defined(_MSC_VER) && defined(_M_IX86) # define LAZY(i) \ __declspec(naked) static void lazy##i (void) { \ _asm push i \ _asm push OFFSET OPENSSL_UplinkTable \ _asm call OPENSSL_Uplink \ _asm add esp,8 \ _asm jmp OPENSSL_UplinkTable+4*i } # if APPLINK_MAX>25 # error "Add more stubs..." # endif /* make some in advance... */ LAZY(1) LAZY(2) LAZY(3) LAZY(4) LAZY(5) LAZY(6) LAZY(7) LAZY(8) LAZY(9) LAZY(10) LAZY(11) LAZY(12) LAZY(13) LAZY(14) LAZY(15) LAZY(16) LAZY(17) LAZY(18) LAZY(19) LAZY(20) LAZY(21) LAZY(22) LAZY(23) LAZY(24) LAZY(25) void *OPENSSL_UplinkTable[] = { (void *)APPLINK_MAX, lazy1, lazy2, lazy3, lazy4, lazy5, lazy6, lazy7, lazy8, lazy9, lazy10, lazy11, lazy12, lazy13, lazy14, lazy15, lazy16, lazy17, lazy18, lazy19, lazy20, lazy21, lazy22, lazy23, lazy24, lazy25, }; #endif #ifdef SELFTEST main() { UP_fprintf(UP_stdout, "hello, world!\n"); } #endif