VeraCrypt
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authorkavsrf <kavsrf@gmail.com>2017-12-18 09:05:01 +0300
committerMounir IDRASSI <mounir.idrassi@idrix.fr>2017-12-30 00:37:25 +0100
commit89bbd0d2e9cbddf154dccb00d0f5c4462cdf2e49 (patch)
tree760619535c6673efac99359e65b21ac03bd42867 /Library/VeraCryptLib
parent42d7c987c89c294560fef23f440c9a2bd1df65c6 (diff)
downloadVeraCrypt-DCS-89bbd0d2e9cbddf154dccb00d0f5c4462cdf2e49.tar.gz
VeraCrypt-DCS-89bbd0d2e9cbddf154dccb00d0f5c4462cdf2e49.zip
llmath updated (EFI based)
Diffstat (limited to 'Library/VeraCryptLib')
-rw-r--r--Library/VeraCryptLib/llmath.c435
1 files changed, 222 insertions, 213 deletions
diff --git a/Library/VeraCryptLib/llmath.c b/Library/VeraCryptLib/llmath.c
index ad13758..2ea1bf9 100644
--- a/Library/VeraCryptLib/llmath.c
+++ b/Library/VeraCryptLib/llmath.c
@@ -1,237 +1,246 @@
-#include <uefi.h>
-void __cdecl atexit() {}
+/** @file
+64-bit Math Worker Function.
+The 32-bit versions of C compiler generate calls to library routines
+to handle 64-bit math. These functions use non-standard calling conventions.
+
+Copyright (c) 2009 - 2011, Intel Corporation. All rights reserved.<BR>
+This program and the accompanying materials are licensed and made available
+under the terms and conditions of the BSD License which accompanies this
+distribution. The full text of the license may be found at
+http://opensource.org/licenses/bsd-license.php.
+
+THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
+WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
-int __cdecl _purecall() { return 0; }
+**/
+
+#include <uefi.h>
+#include <Library/BaseLib.h>
#if defined(_M_IX86)
//////////////////////////////////////////////////////////////////////////
// _allmul
//////////////////////////////////////////////////////////////////////////
-__declspec(naked) void __cdecl _allmul(void)
+/*
+ * Multiplies a 64-bit signed or unsigned value by a 64-bit signed or unsigned value
+ * and returns a 64-bit result.
+ */
+__declspec(naked) void __cdecl _allmul (void)
{
- _asm {
- mov ebx, [esp + 4] ; ebx <- M1[0..31]
- mov edx, [esp + 12] ; edx <- M2[0..31]
- mov ecx, ebx
- mov eax, edx
- imul ebx, [esp + 16] ; ebx <- M1[0..31] * M2[32..63]
- imul edx, [esp + 8] ; edx <- M1[32..63] * M2[0..31]
- add ebx, edx ; carries are abandoned
- mul ecx ; edx:eax <- M1[0..31] * M2[0..31]
- add edx, ebx ; carries are abandoned
- ret 16
- }
-}
+ //
+ // Wrapper Implementation over EDKII MultS64x64() routine
+ // INT64
+ // EFIAPI
+ // MultS64x64 (
+ // IN INT64 Multiplicand,
+ // IN INT64 Multiplier
+ // )
+ //
+ _asm {
+ ; Original local stack when calling _allmul
+ ; -----------------
+ ; | |
+ ; |---------------|
+ ; | |
+ ; |--Multiplier --|
+ ; | |
+ ; |---------------|
+ ; | |
+ ; |--Multiplicand-|
+ ; | |
+ ; |---------------|
+ ; | ReturnAddr** |
+ ; ESP---->|---------------|
+ ;
-//////////////////////////////////////////////////////////////////////////
-// _aullmul
-//////////////////////////////////////////////////////////////////////////
-__declspec(naked) void __cdecl _aullmul()
-{
- _asm {
- mov ebx, [esp + 4] ; ebx <- M1[0..31]
- mov edx, [esp + 12] ; edx <- M2[0..31]
- mov ecx, ebx
- mov eax, edx
- imul ebx, [esp + 16] ; ebx <- M1[0..31] * M2[32..63]
- imul edx, [esp + 8] ; edx <- M1[32..63] * M2[0..31]
- add ebx, edx ; carries are abandoned
- mul ecx ; edx:eax <- M1[0..31] * M2[0..31]
- add edx, ebx ; carries are abandoned
- ret 16
- }
-}
+ ;
+ ; Set up the local stack for Multiplicand parameter
+ ;
+ mov eax, [esp + 16]
+ push eax
+ mov eax, [esp + 16]
+ push eax
+
+ ;
+ ; Set up the local stack for Multiplier parameter
+ ;
+ mov eax, [esp + 16]
+ push eax
+ mov eax, [esp + 16]
+ push eax
+
+ ;
+ ; Call native MulS64x64 of BaseLib
+ ;
+ call MultS64x64
+
+ ;
+ ; Adjust stack
+ ;
+ add esp, 16
+
+ ret 16
+ }
+}
//////////////////////////////////////////////////////////////////////////
// _alldiv
//////////////////////////////////////////////////////////////////////////
-__declspec(naked) void __cdecl _alldiv()
+/*
+ * Divides a 64-bit signed value with a 64-bit signed value and returns
+ * a 64-bit signed result.
+ */
+__declspec(naked) void __cdecl _alldiv (void)
{
- _asm {
- ; Check sign of res
- mov ebx, [esp + 8] ; dividend msdw
- mov ecx, [esp + 16] ; divisor msdw
- xor ebx, ecx
- shr ebx, 31
- jz _PosRes ; if Result is positive
- push 1 ; if is negative
- jmp _Preparing
- _PosRes:
- push 0
-
- ; Preparing operands
- ; Dividend
- _Preparing:
- mov ecx, [esp + 12]
- shr ecx, 31
- jz _ChkDvsr ; Divident is positive
- mov eax, [esp + 12] ; is negative
- mov ecx, [esp + 8]
- xor eax, 0xFFFFFFFF
- xor ecx, 0xFFFFFFFF
- add ecx, 1
- jnc _DvntOK
- adc eax, 0
- _DvntOK:
- mov [esp + 12], eax
- mov [esp + 8], ecx
-
- ; Divisor
- _ChkDvsr:
- mov ecx, [esp + 20]
- shr ecx, 31
- jz _Divide ; Divisor is positive
- mov eax, [esp + 20] ; is negative
- mov ecx, [esp + 16]
- xor eax, 0xFFFFFFFF
- xor ecx, 0xFFFFFFFF
- add ecx, 1
- jnc _DvsrOK
- adc eax, 0
- _DvsrOK:
- mov [esp + 20], eax
- mov [esp + 16], ecx
-
- _Divide:
- mov ecx, [esp + 20] ; ecx <- divisor[32..63]
- test ecx, ecx
- jnz __DivRemU64x64 ; call __DivRemU64x64 if Divisor > 2^32
- mov ecx, [esp + 16] ; ecx <- divisor
- mov eax, [esp + 12] ; eax <- dividend[32..63]
- xor edx, edx
- div ecx ; eax <- quotient[32..63], edx <- remainder
- push eax
- mov eax, [esp + 12] ; eax <- dividend[0..31]
- div ecx ; eax <- quotient[0..31]
- pop edx ; edx <- quotient[32..63] - edx:eax
- jmp _GetSign
-
- __DivRemU64x64:
- mov edx, dword ptr [esp + 12]
- mov eax, dword ptr [esp + 8] ; edx:eax <- dividend
- mov edi, edx
- mov esi, eax ; edi:esi <- dividend
- mov ebx, dword ptr [esp + 16] ; ecx:ebx <- divisor
- _B:
- shr edx, 1
- rcr eax, 1
- shrd ebx, ecx, 1
- shr ecx, 1
- jnz _B
- div ebx
- mov ebx, eax ; ebx <- quotient
- mov ecx, [esp + 20] ; ecx <- high dword of divisor
- mul dword ptr [esp + 16] ; edx:eax <- quotient * divisor[0..31]
- imul ecx, ebx ; ecx <- quotient * divisor[32..63]
- add edx, ecx ; edx <- (quotient * divisor)[32..63]
- ;mov ecx, dword ptr [esp + 32] ; ecx <- addr for Remainder
- jc _TooLarge ; product > 2^64
- cmp edi, edx ; compare high 32 bits
- ja _Correct
- jb _TooLarge ; product > dividend
- cmp esi, eax
- jae _Correct ; product <= dividend
- _TooLarge:
- dec ebx ; adjust quotient by -1
- jecxz _Return ; return if Remainder == NULL
- sub eax, dword ptr [esp + 16]
- sbb edx, dword ptr [esp + 20] ; edx:eax <- (quotient - 1) * divisor
- _Correct:
- jecxz _Return
- sub esi, eax
- sbb edi, edx ; edi:esi <- remainder
- ;mov [ecx], esi
- ;mov [ecx + 4], edi
- _Return:
- mov eax, ebx ; eax <- quotient
- xor edx, edx ; quotient is 32 bits long
-
- ; Get sign of result
- _GetSign:
- pop ecx ; Sign of res
- jecxz _Rtrn ; Result is positive
- xor eax, 0xFFFFFFFF
- xor edx, 0xFFFFFFFF
- add eax, 1 ; edx:eax
- jnc _Rtrn
- adc edx, 0
-
- _Rtrn:
- ret 16
- }
+ //
+ // Wrapper Implementation over EDKII DivS64x64Remainder() routine
+ // INT64
+ // EFIAPI
+ // DivS64x64Remainder (
+ // IN UINT64 Dividend,
+ // IN UINT64 Divisor,
+ // OUT UINT64 *Remainder OPTIONAL
+ // )
+ //
+ _asm {
+
+ ;Entry:
+ ; Arguments are passed on the stack:
+ ; 1st pushed: divisor (QWORD)
+ ; 2nd pushed: dividend (QWORD)
+ ;
+ ;Exit:
+ ; EDX:EAX contains the quotient (dividend/divisor)
+ ; NOTE: this routine removes the parameters from the stack.
+ ;
+ ; Original local stack when calling _alldiv
+ ; -----------------
+ ; | |
+ ; |---------------|
+ ; | |
+ ; |-- Divisor --|
+ ; | |
+ ; |---------------|
+ ; | |
+ ; |-- Dividend --|
+ ; | |
+ ; |---------------|
+ ; | ReturnAddr** |
+ ; ESP---->|---------------|
+ ;
+
+ ;
+ ; Set up the local stack for NULL Reminder pointer
+ ;
+ xor eax, eax
+ push eax
+
+ ;
+ ; Set up the local stack for Divisor parameter
+ ;
+ mov eax, [esp + 20]
+ push eax
+ mov eax, [esp + 20]
+ push eax
+
+ ;
+ ; Set up the local stack for Dividend parameter
+ ;
+ mov eax, [esp + 20]
+ push eax
+ mov eax, [esp + 20]
+ push eax
+
+ ;
+ ; Call native DivS64x64Remainder of BaseLib
+ ;
+ call DivS64x64Remainder
+
+ ;
+ ; Adjust stack
+ ;
+ add esp, 20
+
+ ret 16
+ }
}
//////////////////////////////////////////////////////////////////////////
// _aulldiv
//////////////////////////////////////////////////////////////////////////
-__declspec(naked) void __cdecl _aulldiv()
+/*
+ * Divides a 64-bit unsigned value with a 64-bit unsigned value and returns
+ * a 64-bit unsigned result.
+ */
+__declspec(naked) void __cdecl _aulldiv (void)
{
- _asm {
- mov ecx, [esp + 16] ; ecx <- divisor[32..63]
- test ecx, ecx
- jnz __DivRemU64x64 ; call __DivRemU64x64 if Divisor > 2^32
- mov ecx, [esp + 12] ; ecx <- divisor
- mov eax, [esp + 8] ; eax <- dividend[32..63]
- xor edx, edx
- div ecx ; eax <- quotient[32..63], edx <- remainder
- push eax
- mov eax, [esp + 8] ; eax <- dividend[0..31]
- div ecx ; eax <- quotient[0..31]
- pop edx ; edx <- quotient[32..63]
- ret 16
-
- __DivRemU64x64:
- mov edx, dword ptr [esp + 8]
- mov eax, dword ptr [esp + 4] ; edx:eax <- dividend
- mov edi, edx
- mov esi, eax ; edi:esi <- dividend
- mov ebx, dword ptr [esp + 12] ; ecx:ebx <- divisor
- _B:
- shr edx, 1
- rcr eax, 1
- shrd ebx, ecx, 1
- shr ecx, 1
- jnz _B
- div ebx
- mov ebx, eax ; ebx <- quotient
- mov ecx, [esp + 16] ; ecx <- high dword of divisor
- mul dword ptr [esp + 12] ; edx:eax <- quotient * divisor[0..31]
- imul ecx, ebx ; ecx <- quotient * divisor[32..63]
- add edx, ecx ; edx <- (quotient * divisor)[32..63]
- ;mov ecx, dword ptr [esp + 32] ; ecx <- addr for Remainder
- jc _TooLarge ; product > 2^64
- cmp edi, edx ; compare high 32 bits
- ja _Correct
- jb _TooLarge ; product > dividend
- cmp esi, eax
- jae _Correct ; product <= dividend
- _TooLarge:
- dec ebx ; adjust quotient by -1
- jecxz _Return ; return if Remainder == NULL
- sub eax, dword ptr [esp + 12]
- sbb edx, dword ptr [esp + 16] ; edx:eax <- (quotient - 1) * divisor
- _Correct:
- jecxz _Return
- sub esi, eax
- sbb edi, edx ; edi:esi <- remainder
- ;mov [ecx], esi
- ;mov [ecx + 4], edi
- _Return:
- mov eax, ebx ; eax <- quotient
- xor edx, edx ; quotient is 32 bits long
-
- ret 16
- }
-}
+ //
+ // Wrapper Implementation over EDKII DivU64x64Reminder() routine
+ // UINT64
+ // EFIAPI
+ // DivU64x64Remainder (
+ // IN UINT64 Dividend,
+ // IN UINT64 Divisor,
+ // OUT UINT64 *Remainder OPTIONAL
+ // )
+ //
+ _asm {
+ ; Original local stack when calling _aulldiv
+ ; -----------------
+ ; | |
+ ; |---------------|
+ ; | |
+ ; |-- Divisor --|
+ ; | |
+ ; |---------------|
+ ; | |
+ ; |-- Dividend --|
+ ; | |
+ ; |---------------|
+ ; | ReturnAddr** |
+ ; ESP---->|---------------|
+ ;
-UINT64
-EFIAPI
-DivU64x64Remainder(
-IN UINT64 Dividend,
-IN UINT64 Divisor,
-OUT UINT64 *Remainder OPTIONAL
-);
+ ;
+ ; Set up the local stack for NULL Reminder pointer
+ ;
+ xor eax, eax
+ push eax
+
+ ;
+ ; Set up the local stack for Divisor parameter
+ ;
+ mov eax, [esp + 20]
+ push eax
+ mov eax, [esp + 20]
+ push eax
+
+ ;
+ ; Set up the local stack for Dividend parameter
+ ;
+ mov eax, [esp + 20]
+ push eax
+ mov eax, [esp + 20]
+ push eax
+
+ ;
+ ; Call native DivU64x64Remainder of BaseLib
+ ;
+ call DivU64x64Remainder
+
+ ;
+ ; Adjust stack
+ ;
+ add esp, 20
+
+ ret 16
+ }
+}
+
+//////////////////////////////////////////////////////////////////////////
+// _aullrem
+//////////////////////////////////////////////////////////////////////////
/*
* Divides a 64-bit unsigned value by another 64-bit unsigned value and returns
* the 64-bit unsigned remainder.