openssl/ms/uplink.c

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C
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#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 <windows.h>
#include <tchar.h>
#include <stdio.h>
#include "uplink.h"
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void OPENSSL_showfatal(const char *,...);
static TCHAR msg[128];
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static void unimplemented (void)
{ OPENSSL_showfatal (sizeof(TCHAR)==sizeof(char)?"%s\n":"%S\n",msg);
ExitProcess (1);
}
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void OPENSSL_Uplink (volatile void **table, int index)
{ static HMODULE volatile apphandle=NULL;
static void ** volatile applinktable=NULL;
int len;
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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 = _stprintf (msg,_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;
}
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if ((h=apphandle)==(HMODULE)-1) /* revalidate */
break;
if (applinktable==NULL)
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{ 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;
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if (index > (int)p[0])
break;
if (p[index]) func = p[index];
} while (0);
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table[index] = func;
}
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#if defined(_MSC_VER) && defined(_M_IX86) && !defined(OPENSSL_NO_INLINE_ASM)
#define LAZY(i) \
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__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 }
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#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)
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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,
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lazy21,lazy22,lazy23,lazy24,lazy25,
};
#endif
#ifdef SELFTEST
main() { UP_fprintf(UP_stdout,"hello, world!\n"); }
#endif